F16H1/00	7	Toothed gearings for conveying rotary motion (specific for conveying rotary motion with variable gear ratio or for reversing rotary motion F16H3/00)	F16H1/00	F16H1/00		320
F16H1/003	8	{Unidirectionally torque-transmitting toothed gearing}	F16H1/00	F16H1/00		149
F16H1/006	8	{the driving and driven axes being designed to assume variable positions relative to one another during operation}	F16H1/00	F16H1/00		441
F16H1/02	8	without gears having orbital motion	F16H1/02	F16H1/02		190
F16H1/04	9	involving only two intermeshing members	F16H1/04	F16H1/04		326
F16H1/06	10	with parallel axes	F16H1/06	F16H1/06		1300
F16H1/08	11	the members having helical, herringbone, or like teeth	F16H1/08	F16H1/08		410
F16H1/10	11	one of the members being internally toothed	F16H1/10	F16H1/10		351
F16H1/12	10	with non-parallel axes	F16H1/12	F16H1/12		319
F16H1/125	11	{comprising spiral gears only}	F16H1/12	F16H1/12		128
F16H1/14	11	comprising conical gears only	F16H1/14	F16H1/14		1468
F16H1/145	12	{with offset axes, e.g. hypo&#239;d gearings}	F16H1/14	F16H1/14		168
F16H1/16	11	comprising worm and worm-wheel	F16H1/16	F16H1/16		3658
F16H1/163	12	{with balls between the co-operating parts}	F16H1/16	F16H1/16		178
F16H1/166	12	{with members rotating around axes on the worm or worm-wheel}	F16H1/16	F16H1/16		248
F16H1/18	11	the members having helical, herringbone, or like teeth (F16H1/14 takes precedence)	F16H1/18	F16H1/18		150
F16H1/20	9	involving more than two intermeshing members	F16H1/20	F16H1/20		1811
F16H1/203	10	{with non-parallel axes (F16H1/22 takes precedence)}	F16H1/20	F16H1/20		651
F16H1/206	10	{characterised by the driving or driven member being composed of two or more gear wheels}	F16H1/20	F16H1/20		401
F16H1/22	10	with a plurality of driving or driven shafts; with arrangements for dividing torque between two or more intermediate shafts	F16H1/22	F16H1/22		2164
F16H1/222	11	{with non-parallel axes}	F16H1/22	F16H1/22		780
F16H1/225	12	{with two or more worm and worm-wheel gearings}	F16H1/22	F16H1/22		355
F16H1/227	11	{comprising two or more gearwheels in mesh with the same internally toothed wheel}	F16H1/22	F16H1/22		241
F16H1/24	9	involving gears essentially having intermeshing elements other than involute or cycloidal teeth (F16H1/16 takes precedence)	F16H1/24	F16H1/24		347
F16H1/26	9	Special means compensating for misalignment of axes	F16H1/26	F16H1/26		145
F16H1/28	8	with gears having orbital motion	F16H1/28	F16H1/28		3956
F16H1/2809	9	{with means for equalising the distribution of load on the planet gears}	F16H1/28	F16H1/28		339
F16H1/2818	10	{by allowing limited movement of the ring gear relative to the casing or shaft}	F16H1/28	F16H1/28		234
F16H1/2827	10	{by allowing limited movement of the planet carrier, e.g. relative to its shaft}	F16H1/28	F16H1/28		102
F16H1/2836	10	{by allowing limited movement of the planet gears relative to the planet carrier or by using free floating planet gears}	F16H1/28	F16H1/28		406
F16H1/2845	10	{by allowing limited movement of the sun gear}	F16H1/28	F16H1/28		132
F16H1/2854	9	{involving conical gears}	F16H1/28	F16H1/28		278
F16H1/2863	9	{Arrangements for adjusting or for taking-up backlash}	F16H1/28	F16H1/28		485
F16H2001/2872	9	{comprising three central gears, i.e. ring or sun gear, engaged by at least one common orbital gear mounted on an idling carrier}	F16H1/28	F16H1/28		158
F16H2001/2881	9	{comprising two axially spaced central gears, i.e. ring or sun gear, engaged by at least one common orbital gear wherein one of the central gears is forming the output}	F16H1/28	F16H1/28		999
F16H2001/289	9	{comprising two or more coaxial and identical sets of orbital gears, e.g. for distributing torque between the coaxial sets}	F16H1/28	F16H1/28		309
F16H1/30	9	in which an orbital gear has an axis crossing the main axis of the gearing and has helical teeth or is a worm	F16H1/30	F16H1/30		182
F16H1/32	9	in which the central axis of the gearing lies inside the periphery of an orbital gear	F16H1/32	F16H1/32		5691
F16H1/321	10	{the orbital gear being nutating}	F16H1/32	F16H1/32		475
F16H2001/322	10	{comprising at least one universal joint or flexible coupling, e.g. a Cardan joint}	F16H1/32	F16H1/32		55
F16H2001/323	10	{comprising eccentric crankshafts driving or driven by a gearing}	F16H1/32	F16H1/32		694
F16H2001/324	10	{comprising two axially spaced, rigidly interconnected, orbital gears}	F16H1/32	F16H1/32		186
F16H2001/325	10	{comprising a carrier with pins guiding at least one orbital gear with circular holes}	F16H1/32	F16H1/32		518
F16H2001/326	10	{comprising linear guiding means guiding at least one orbital gear}	F16H1/32	F16H1/32		175
F16H2001/327	10	{with the orbital gear having internal gear teeth}	F16H1/32	F16H1/32		1259
F16H2001/328	10	{comprising balancing means}	F16H1/32	F16H1/32		134
F16H1/34	9	involving gears essentially having intermeshing elements other than involute or cycloidal teeth (in worm gearing F16H1/30)	F16H1/34	F16H1/34		160
F16H1/36	9	with two central gears coupled by intermeshing orbital gears	F16H1/36	F16H1/36		392
F16H1/46	9	Systems consisting of a plurality of gear trains each with orbital gears, {i.e. systems having three or more central gears}	F16H1/46	F16H1/46		2035
F16H1/48	9	Special means compensating for misalignment of axes {, e.g. for equalising distribution of load on the face width of the teeth}	F16H1/48	F16H1/48		237
F16H3/00	7	Toothed gearings for conveying rotary motion with variable gear ratio or for reversing rotary motion (speed-changing or reversing mechanisms F16H59/00&#160;-&#160;F16H63/00)	F16H3/00	F16H3/00		1291
F16H3/001	8	{convertible for varying the gear ratio, e.g. for selecting one of several shafts as the input shaft}	F16H3/00	F16H3/00		286
F16H3/002	8	{using gears having teeth movable out of mesh&#160; (F16H3/16, F16H3/20 and&#160;F16H3/42&#160;take precedence)}	F16H3/00	F16H3/00		103
F16H3/003	8	{the gear ratio being changed by inversion of torque direction}	F16H3/00	F16H3/00		364
F16H3/005	9	{for gearings using gears having orbital motion}	F16H3/00	F16H3/00		255
F16H3/006	8	{power being selectively transmitted by parallel flow paths, e.g. dual clutch transmissions}	F16H3/00	F16H3/00		3491
F16H2003/007	9	{with two flow paths, one being directly connected to the input, the other being connected to the input through a clutch}	F16H3/00	F16H3/00		165
F16H2003/008	9	{comprising means for selectively driving countershafts}	F16H3/00	F16H3/00		124
F16H3/02	8	without gears having orbital motion	F16H3/02	F16H3/02		400
F16H3/04	9	with internally-toothed gears	F16H3/04	F16H3/04		271
F16H3/06	9	with worm and worm-wheel or gears essentially having helical or herring-bone teeth	F16H3/06	F16H3/06		278
F16H3/08	9	exclusively or essentially with continuously meshing gears, that can be disengaged from their shafts<br><br><u>NOTE</u><br><br>In this group, gears which can be put out of mesh are not taken into consideration if they are used for reversal only.	F16H3/08	F16H3/08		1581
F16H2003/0803	10	{with countershafts coaxial with input or output shaft}	F16H3/08	F16H3/08		268
F16H2003/0807	10	{with gear ratios in which the power is transferred by axially coupling idle gears to each other}	F16H3/08	F16H3/08		294
F16H2003/0811	10	{using unsynchronised clutches}	F16H3/08	F16H3/08		372
F16H2003/0815	10	{using torque sharing, i.e. engaging two gear ratios simultaneously to transfer large torque, e.g. using one slipping clutch}	F16H3/08	F16H3/08		16
F16H2003/0818	10	{comprising means for power-shifting}	F16H3/08	F16H3/08		508
F16H2003/0822	10	{characterised by the arrangement of at least one reverse gear}	F16H3/08	F16H3/08		325
F16H2003/0826	10	{wherein at least one gear on the input shaft, or on a countershaft is used for two different forward gear ratios}	F16H3/08	F16H3/08		402
F16H3/083	10	with radially acting and axially controlled clutching members, e.g. sliding keys	F16H3/083	F16H3/083		950
F16H3/085	10	with more than one output shaft	F16H3/085	F16H3/085		468
F16H3/087	10	characterised by the disposition of the gears (F16H3/083, F16H3/085 take precedence)<br><br><u>NOTE</u><br><br>When counting the countershafts, the reverse countershaft is not taken into consideration if it is used for reversal only.	F16H3/087	F16H3/087		551
F16H3/089	11	all of the meshing gears being supported by a pair of parallel shafts, one being the input shaft and the other the output shaft, there being no countershaft involved	F16H3/089	F16H3/089		1751
F16H3/091	11	including a single countershaft	F16H3/091	F16H3/091		844
F16H3/0915	12	{with coaxial input and output shafts}	F16H3/091	F16H3/091		1102
F16H3/093	11	with two or more countershafts	F16H3/093	F16H3/093		1833
F16H2003/0931	12	{each countershaft having an output gear meshing with a single common gear on the output shaft}	F16H3/093	F16H3/093		1147
F16H2003/0933	12	{with coaxial countershafts}	F16H3/093	F16H3/093		466
F16H2003/0935	12	{with multiple countershafts comprising only one idle gear and one gear fixed to the countershaft}	F16H3/093	F16H3/093		143
F16H2003/0936	12	{with multiple countershafts comprising only two idle gears and one gear fixed to the countershaft}	F16H3/093	F16H3/093		115
F16H2003/0938	12	{with multiple gears on the input shaft directly meshing with respective gears on the output shaft}	F16H3/093	F16H3/093		107
F16H3/095	12	with means for ensuring an even distribution of torque between the countershafts	F16H3/095	F16H3/095		297
F16H3/097	12	the input and output shafts being aligned on the same axis	F16H3/097	F16H3/097		621
F16H3/10	10	with one or more one-way clutches as an essential feature	F16H3/10	F16H3/10		959
F16H3/12	10	with means for synchronisation not incorporated in the clutches	F16H3/12	F16H3/12		1055
F16H2003/123	11	{using a brake}	F16H3/12	F16H3/12		204
F16H3/126	11	{using an electric drive}	F16H3/12	F16H3/12		249
F16H3/14	10	Gearings for reversal only	F16H3/14	F16H3/14		679
F16H3/145	11	{with a pair of coaxial bevel gears, rotatable in opposite directions}	F16H3/14	F16H3/14		429
F16H3/16	9	essentially with both gears that can be put out of gear and continuously-meshing gears that can be disengaged from their shafts<br><br><u>NOTE</u><br><br>In this group, gears which can be put out of mesh are not taken into consideration if they are used for reversal only.	F16H3/16	F16H3/16		655
F16H3/18	10	Gearings for reversal only	F16H3/18	F16H3/18		33
F16H3/20	9	exclusively or essentially using gears that can be moved out of gear<br><br><u>NOTE</u><br><br>In this group, gears which can be put out of mesh are not taken into consideration if they are used for reversal only.	F16H3/20	F16H3/20		192
F16H3/22	10	with gears shiftable only axially	F16H3/22	F16H3/22		179
F16H3/24	11	with driving and driven shafts coaxial	F16H3/24	F16H3/24		304
F16H3/26	12	and two or more additional shafts	F16H3/26	F16H3/26		145
F16H3/28	13	an additional shaft being coaxial with the main shafts	F16H3/28	F16H3/28		19
F16H3/30	11	with driving and driven shafts not coaxial	F16H3/30	F16H3/30		362
F16H3/32	12	and an additional shaft	F16H3/32	F16H3/32		436
F16H3/34	10	with gears shiftable otherwise than only axially	F16H3/34	F16H3/34		400
F16H3/36	10	with a single gear meshable with any of a set of coaxial gears of different diameters	F16H3/36	F16H3/36		27
F16H3/363	11	{the teeth of the set of coaxial gears being arranged on a surface of generally conical shape}	F16H3/36	F16H3/36		383
F16H3/366	11	{the teeth of the set of coaxial gears being arranged on a generally flat, e.g. disc-type, surface}	F16H3/36	F16H3/36		256
F16H3/38	10	with synchro-meshing	F16H3/38	F16H3/38		266
F16H3/385	11	{with braking means}	F16H3/38	F16H3/38		103
F16H3/40	10	Gearings for reversal only	F16H3/40	F16H3/40		114
F16H3/42	9	with gears having teeth formed or arranged for obtaining multiple gear ratios, e.g. nearly infinitely variable	F16H3/42	F16H3/42		234
F16H3/423	10	{the teeth being arranged on a surface of generally conical shape}	F16H3/42	F16H3/42		181
F16H3/426	10	{the teeth being arranged on a generally flat, e.g. disc-type surface}	F16H3/42	F16H3/42		136
F16H3/44	8	using gears having orbital motion	F16H3/44	F16H3/44		2304
F16H2003/442	9	{comprising two or more sets of orbital gears arranged in a single plane}	F16H3/44	F16H3/44		503
F16H2003/445	9	{without permanent connection between the input and the set of orbital gears}	F16H3/44	F16H3/44		705
F16H2003/447	9	{without permanent connection between the set of orbital gears and the output}	F16H3/44	F16H3/44		119
F16H3/46	9	Gearings having only two central gears, connected by orbital gears (F16H3/68&#160;-&#160;F16H3/78 take precedence)	F16H3/46	F16H3/46		470
F16H3/48	10	with single orbital gears or pairs of rigidly-connected orbital gears	F16H3/48	F16H3/48		84
F16H3/50	11	comprising orbital conical gears	F16H3/50	F16H3/50		134
F16H3/52	11	comprising orbital spur gears	F16H3/52	F16H3/52		57
F16H3/54	12	one of the central gears being internally toothed and the other externally toothed	F16H3/54	F16H3/54		1409
F16H3/56	12	both central gears being sun gears	F16H3/56	F16H3/56		235
F16H3/58	10	with sets of orbital gears, each consisting of two or more intermeshing orbital gears	F16H3/58	F16H3/58		178
F16H3/60	10	Gearings for reversal only	F16H3/60	F16H3/60		826
F16H3/62	9	Gearings having three or more central gears (F16H3/68&#160;-&#160;F16H3/78 take precedence)	F16H3/62	F16H3/62		903
F16H3/64	10	composed of a number of gear trains, the drive always passing through all the trains, each train having not more than one connection for driving another train	F16H3/64	F16H3/64		515
F16H3/66	10	composed of a number of gear trains without drive passing from one train to another	F16H3/66	F16H3/66		4928
F16H3/663	11	{with conveying rotary motion between axially spaced orbital gears, e.g. a stepped orbital gear or Ravigneaux}	F16H3/66	F16H3/66		2275
F16H3/666	11	{with intermeshing orbital gears (F16H3/663 takes precedence)}	F16H3/66	F16H3/66		1625
F16H3/68	9	in which an orbital gear has an axis crossing the main axis of the gearing and has helical teeth or is a worm	F16H3/68	F16H3/68		117
F16H3/70	9	in which the central axis of the gearing lies inside the periphery of an orbital gear	F16H3/70	F16H3/70		495
F16H3/72	9	with a secondary drive, e.g. regulating motor, in order to vary speed continuously	F16H3/72	F16H3/72		1012
F16H3/721	10	{the secondary drive being an energy dissipating device, e.g. regulating brake, in order to vary speed continuously}	F16H3/72	F16H3/72		452
F16H3/722	11	{the secondary drive being a fluid throttle}	F16H3/72	F16H3/72		410
F16H3/724	10	{using externally powered electric machines}	F16H3/72	F16H3/72		619
F16H3/725	11	{with means to change ratio in the mechanical gearing}	F16H3/72	F16H3/72		604
F16H3/727	10	{with at least two dynamo electric machines for creating an electric power path inside the gearing, e.g. using generator and motor for a variable power torque path}	F16H3/72	F16H3/72		479
F16H3/728	11	{with means to change ratio in the mechanical gearing}	F16H3/72	F16H3/72		1116
F16H3/74	9	Complexes, not using actuatable speed-changing or regulating members, e.g. with gear ratio determined by free play of frictional or other forces	F16H3/74	F16H3/74		312
F16H3/76	9	with an orbital gear having teeth formed or arranged for obtaining multiple gear ratios, e.g. nearly infinitely variable	F16H3/76	F16H3/76		382
F16H3/78	9	Special adaptation of synchronisation mechanisms to these gearings	F16H3/78	F16H3/78		269
F16H7/00	7	Gearings for conveying rotary motion by endless flexible members (specific for conveying rotary motion with variable gear ratio or for reversing rotary motion F16H9/00)	F16H7/00	F16H7/00		375
F16H7/02	8	with belts; with V-belts	F16H7/02	F16H7/02		2987
F16H7/023	9	{with belts having a toothed contact surface or regularly spaced bosses or hollows for slipless or nearly slipless meshing with complementary profiled contact surface of a pulley}	F16H7/02	F16H7/02		1100
F16H2007/026	9	{with belts running in a mist of oil}	F16H7/02	F16H7/02		32
F16H7/04	8	with ropes	F16H7/04	F16H7/04		328
F16H7/06	8	with chains	F16H7/06	F16H7/06		2283
F16H7/08	8	Means for varying tension of belts, ropes or chains&#160; (pulleys of adjustable construction&#160;F16H55/52)	F16H7/08	F16H7/08		3641
F16H2007/0802	9	{Actuators for final output members}	F16H7/08	F16H7/08		154
F16H2007/0804	10	{Leaf springs}	F16H7/08	F16H7/08		355
F16H2007/0806	10	{Compression coil springs}	F16H7/08	F16H7/08		2080
F16H2007/0808	10	{Extension coil springs}	F16H7/08	F16H7/08		456
F16H2007/081	10	{Torsion springs}	F16H7/08	F16H7/08		1570
F16H2007/0812	10	{Fluid pressure}	F16H7/08	F16H7/08		1302
F16H2007/0814	11	{with valves opening on surplus pressure}	F16H7/08	F16H7/08		197
F16H2007/0817	11	{with means for venting unwanted gas}	F16H7/08	F16H7/08		68
F16H2007/0819	10	{Rubber or other elastic materials}	F16H7/08	F16H7/08		76
F16H2007/0821	10	{working with gravity}	F16H7/08	F16H7/08		65
F16H2007/0823	10	{Electric actuators}	F16H7/08	F16H7/08		204
F16H2007/0825	10	{influenced by other actuators of output members}	F16H7/08	F16H7/08		53
F16H7/0827	9	{for disconnecting the drive}	F16H7/08	F16H7/08		304
F16H7/0829	9	{with vibration damping means}	F16H7/08	F16H7/08		419
F16H7/0831	10	{of the dry friction type}	F16H7/08	F16H7/08		205
F16H7/0834	10	{of the viscous friction type, e.g. viscous fluid}	F16H7/08	F16H7/08		132
F16H7/0836	10	{of the fluid and restriction type, e.g. dashpot}	F16H7/08	F16H7/08		471
F16H7/0838	10	{of the dissipating material type, e.g. elastomeric spring}	F16H7/08	F16H7/08		127
F16H2007/084	10	{having vibration damping characteristics dependent on the moving direction of the tensioner}	F16H7/08	F16H7/08		194
F16H2007/0842	9	{Mounting or support of tensioner}	F16H7/08	F16H7/08		691
F16H2007/0844	10	{Mounting elements essentially within boundaries of final output members}	F16H7/08	F16H7/08		225
F16H2007/0846	9	{comprising a mechanical stopper}	F16H7/08	F16H7/08		185
F16H7/0848	9	{with means for impeding reverse motion}	F16H7/08	F16H7/08		916
F16H2007/0851	10	{Wedges}	F16H7/08	F16H7/08		87
F16H2007/0853	10	{Ratchets}	F16H7/08	F16H7/08		490
F16H2007/0855	11	{comprising a clip member engaging with the rack teeth}	F16H7/08	F16H7/08		139
F16H2007/0857	10	{Screw mechanisms}	F16H7/08	F16H7/08		166
F16H2007/0859	10	{Check valves}	F16H7/08	F16H7/08		1141
F16H2007/0861	9	{comprising means for sensing tensioner position}	F16H7/08	F16H7/08		144
F16H2007/0863	9	{Finally actuated members, e.g. constructional details thereof}	F16H7/08	F16H7/08		52
F16H2007/0865	10	{Pulleys}	F16H7/08	F16H7/08		989
F16H2007/0868	11	{comprising means for changing working diameter of pulley}	F16H7/08	F16H7/08		27
F16H2007/087	10	{Sprockets}	F16H7/08	F16H7/08		207
F16H2007/0872	10	{Sliding members}	F16H7/08	F16H7/08		936
F16H2007/0874	10	{Two or more finally actuated members}	F16H7/08	F16H7/08		1123
F16H2007/0876	9	{Control or adjustment of actuators}	F16H7/08	F16H7/08		337
F16H2007/0878	10	{Disabling during transport}	F16H7/08	F16H7/08		304
F16H2007/088	10	{Manual adjustment}	F16H7/08	F16H7/08		578
F16H2007/0882	10	{the tension being a function of temperature}	F16H7/08	F16H7/08		39
F16H2007/0885	10	{the tension being a function of engine running condition}	F16H7/08	F16H7/08		139
F16H2007/0887	10	{the tension being a function of load}	F16H7/08	F16H7/08		149
F16H2007/0889	9	{Path of movement of the finally actuated member}	F16H7/08	F16H7/08		10
F16H2007/0891	10	{Linear path}	F16H7/08	F16H7/08		1127
F16H2007/0893	10	{Circular path}	F16H7/08	F16H7/08		1539
F16H2007/0895	10	{Internal to external direction}	F16H7/08	F16H7/08		120
F16H2007/0897	10	{External to internal direction}	F16H7/08	F16H7/08		351
F16H7/10	9	by adjusting the axis of a pulley	F16H7/10	F16H7/10		215
F16H7/12	10	of an idle pulley	F16H7/12	F16H7/12		785
F16H7/1209	11	{with vibration damping means}	F16H7/12	F16H7/12		147
F16H7/1218	12	{of the dry friction type}	F16H7/12	F16H7/12		631
F16H7/1227	12	{of the viscous friction type, e.g. viscous fluid}	F16H7/12	F16H7/12		50
F16H7/1236	12	{of the fluid and restriction type, e.g. dashpot}	F16H7/12	F16H7/12		221
F16H7/1245	12	{of the dissipating material type, e.g. elastomeric spring}	F16H7/12	F16H7/12		106
F16H7/1254	11	{without vibration damping means}	F16H7/12	F16H7/12		248
F16H7/1263	12	{where the axis of the pulley moves along a substantially straight path}	F16H7/12	F16H7/12		432
F16H7/1272	13	{with means for impeding reverse motion}	F16H7/12	F16H7/12		84
F16H7/1281	12	{where the axis of the pulley moves along a substantially circular path}	F16H7/12	F16H7/12		1515
F16H7/129	13	{with means for impeding reverse motion}	F16H7/12	F16H7/12		174
F16H7/14	10	of a driving or driven pulley	F16H7/14	F16H7/14		1329
F16H7/16	11	without adjusting the driving or driven shaft	F16H7/16	F16H7/16		138
F16H7/18	8	Means for guiding or supporting belts, ropes, or chains (construction of pulleys F16H55/36)	F16H7/18	F16H7/18		1729
F16H2007/185	9	{the guiding surface in contact with the belt, rope or chain having particular shapes, structures or materials}	F16H7/18	F16H7/18		390
F16H7/20	9	Mountings for rollers or pulleys	F16H7/20	F16H7/20		582
F16H7/22	8	Belt, rope, or chain shifters	F16H7/22	F16H7/22		559
F16H7/24	8	Equipment for mounting belts, ropes, or chains	F16H7/24	F16H7/24		666
F16H9/00	7	Gearings for conveying rotary motion with variable gear ratio, or for reversing rotary motion, by endless flexible members (control of change-speed or reversing-gearings conveying rotary motion F16H59/00&#160;-&#160;F16H63/00)	F16H9/00	F16H9/00		145
F16H9/02	8	without members having orbital motion	F16H9/02	F16H9/02		42
F16H9/04	9	using belts, V-belts, or ropes (with toothed belts F16H9/24; pulleys of adjustable construction F16H55/52)	F16H9/04	F16H9/04		633
F16H9/06	10	engaging a stepped pulley	F16H9/06	F16H9/06		217
F16H9/08	10	engaging a conical drum (F16H9/12 takes precedence)	F16H9/08	F16H9/08		235
F16H9/10	10	engaging a pulley provided with radially-actuatable elements carrying the belt	F16H9/10	F16H9/10		556
F16H9/12	10	engaging a pulley built-up out of relatively axially-adjustable parts in which the belt engages the opposite flanges of the pulley directly without interposed belt-supporting members	F16H9/12	F16H9/12		629
F16H9/125	11	{characterised by means for controlling the geometrical interrelationship of pulleys and the endless flexible member, e.g. belt alignment or position of the resulting axial pulley force in the plane perpendicular to the pulley axis}	F16H9/12	F16H9/12		178
F16H9/14	11	using only one pulley built-up out of adjustable conical parts	F16H9/14	F16H9/14		281
F16H9/16	11	using two pulleys, both built-up out of adjustable conical parts	F16H9/16	F16H9/16		767
F16H2009/163	12	{Arrangements of two or more belt gearings mounted in parallel, e.g. for increasing transmittable torque}	F16H9/16	F16H9/16		220
F16H2009/166	12	{Arrangements of two or more belt gearings mounted in series, e.g. for increasing ratio coverage}	F16H9/16	F16H9/16		244
F16H9/18	12	only one flange of each pulley being adjustable	F16H9/18	F16H9/18		867
F16H9/20	12	both flanges of the pulleys being adjustable	F16H9/20	F16H9/20		86
F16H9/22	10	specially adapted for ropes	F16H9/22	F16H9/22		68
F16H9/24	9	using chains or toothed belts, belts in the form of links; Chains or belts specially adapted to such gearing	F16H9/24	F16H9/24		1110
F16H2009/245	10	{with idle wheels to assist ratio change}	F16H9/24	F16H9/24		12
F16H9/26	8	with members having orbital motion	F16H9/26	F16H9/26		427
F16H13/00	7	Gearing for conveying rotary motion with constant gear ratio by friction between rotary members	F16H13/00	F16H13/00		102
F16H13/02	8	without members having orbital motion	F16H13/02	F16H13/02		576
F16H13/04	9	with balls or with rollers acting in a similar manner	F16H13/04	F16H13/04		183
F16H13/06	8	with members having orbital motion	F16H13/06	F16H13/06		535
F16H13/08	9	with balls or with rollers acting in a similar manner	F16H13/08	F16H13/08		528
F16H13/10	8	Means for influencing the pressure between the members	F16H13/10	F16H13/10		293
F16H13/12	9	by magnetic forces	F16H13/12	F16H13/12		144
F16H13/14	9	for automatically varying the pressure mechanically	F16H13/14	F16H13/14		457
F16H15/00	7	Gearings for conveying rotary motion with variable gear ratio, or for reversing rotary motion, by friction between rotary members (control of change-speed or reversing-gearings conveying rotary motion F16H59/00 - F16H63/00)	F16H15/00	F16H15/00		105
F16H15/01	8	characterised by the use of a magnetisable powder or liquid as friction medium between the rotary members	F16H15/01	F16H15/01		31
F16H15/02	8	without members having orbital motion	F16H15/02	F16H15/02		93
F16H15/04	9	Gearings providing a continuous range of gear ratios	F16H15/04	F16H15/04		164
F16H15/06	10	in which a member A of uniform effective diameter mounted on a shaft may co-operate with different parts of a member B	F16H15/06	F16H15/06		75
F16H15/08	11	in which the member B is a disc with a flat or approximately flat friction surface	F16H15/08	F16H15/08		59
F16H15/10	12	in which the axes of the two members cross or intersect	F16H15/10	F16H15/10		487
F16H15/12	13	in which one or each member is duplicated, e.g. for obtaining better transmission, for lessening the reaction forces on the bearings	F16H15/12	F16H15/12		474
F16H15/14	12	in which the axes of the members are parallel or approximately parallel	F16H15/14	F16H15/14		293
F16H15/16	11	in which the member B has a conical friction surface	F16H15/16	F16H15/16		68
F16H15/18	12	externally	F16H15/18	F16H15/18		182
F16H15/20	13	co-operating with the outer rim of the member A, which is perpendicular or nearly perpendicular to the friction surface of the member B	F16H15/20	F16H15/20		199
F16H15/22	13	the axes of the members being parallel or approximately parallel	F16H15/22	F16H15/22		177
F16H15/24	12	internally	F16H15/24	F16H15/24		52
F16H15/26	11	in which the member B has a spherical friction surface centered on its axis of revolution	F16H15/26	F16H15/26		19
F16H15/28	12	with external friction surface	F16H15/28	F16H15/28		376
F16H15/30	12	with internal friction surface	F16H15/30	F16H15/30		58
F16H15/32	11	in which the member B has a curved friction surface formed as a surface of a body of revolution generated by a curve which is neither a circular arc centered on its axis of revolution nor a straight line	F16H15/32	F16H15/32		16
F16H15/34	12	with convex friction surface	F16H15/34	F16H15/34		16
F16H15/36	12	with concave friction surface, e.g. a hollow toroid surface	F16H15/36	F16H15/36		72
F16H15/38	13	with two members B having hollow toroid surfaces opposite to each other, the member or members A being adjustably mounted between the surfaces	F16H15/38	F16H15/38		1230
F16H2015/383	14	{with two or more sets of toroid gearings arranged in parallel}	F16H15/38	F16H15/38		419
F16H2015/386	14	{with two or more sets of toroid gearings arranged in series}	F16H15/38	F16H15/38		31
F16H15/40	10	in which two members co-operative by means of balls, or rollers of uniform effective diameter, not mounted on shafts	F16H15/40	F16H15/40		284
F16H15/42	10	in which two members co-operate by means of rings or by means of parts of endless flexible members pressed between the first mentioned members	F16H15/42	F16H15/42		394
F16H15/44	10	in which two members of non-uniform effective diameter directly co-operate with one another	F16H15/44	F16H15/44		122
F16H15/46	9	Gearings providing a discontinuous or stepped range of gear ratios	F16H15/46	F16H15/46		263
F16H15/48	8	with members having orbital motion	F16H15/48	F16H15/48		49
F16H15/50	9	Gearings providing a continuous range of gear ratios	F16H15/50	F16H15/50		351
F16H15/503	10	{in which two members co-operate by means of balls or rollers of uniform effective diameter, not mounted on shafts}	F16H15/50	F16H15/50		227
F16H15/506	10	{in which two members of non-uniform effective diameter directly co-operate with one another}	F16H15/50	F16H15/50		58
F16H15/52	10	in which a member of uniform effective diameter mounted on a shaft may co-operate with different parts of another member	F16H15/52	F16H15/52		463
F16H15/54	10	in which two members co-operate by means of rings or by means of parts of endless flexible members pressed between the first-mentioned members	F16H15/54	F16H15/54		112
F16H15/56	9	Gearings providing a discontinuous or stepped range of gear ratios	F16H15/56	F16H15/56		75
F16H19/00	7	Gearings comprising essentially only toothed gears or friction members and not capable of conveying indefinitely-continuing rotary motion (with intermittently-driving members F16H27/00 - F16H31/00)	F16H19/00	F16H19/00		211
F16H19/001	8	{for conveying reciprocating or limited rotary motion}	F16H19/00	F16H19/00		325
F16H19/003	9	{comprising a flexible member}	F16H19/00	F16H19/00		36
F16H19/005	10	{for conveying oscillating or limited rotary motion}	F16H19/00	F16H19/00		157
F16H19/006	10	{for converting reciprocating motion into another reciprocating motion}	F16H19/00	F16H19/00		20
F16H2019/008	9	{Facilitating the engagement or stopping of gear sections}	F16H19/00	F16H19/00		62
F16H19/02	8	for interconverting rotary {or oscillating} motion and reciprocating motion	F16H19/02	F16H19/02		299
F16H19/025	9	{comprising a friction shaft}	F16H19/02	F16H19/02		428
F16H19/04	9	comprising a rack	F16H19/04	F16H19/04		3843
F16H19/043	10	{for converting reciprocating movement in a continuous rotary movement or vice versa, e.g. by opposite racks engaging intermittently for a part of the stroke}	F16H19/04	F16H19/04		1116
F16H2019/046	10	{Facilitating the engagement or stopping of racks}	F16H19/04	F16H19/04		161
F16H19/06	9	comprising {flexible members, e.g. an} endless flexible member<br><br><u>WARNING</u><br> Groups F16H19/0604 - F16H19/0672 are not complete pending reclassification; see also this group 	F16H19/06	F16H19/06		1082
F16H19/0604	10	{with means to double or half the stroke of the reciprocating member}	F16H19/06	F16H19/06		39
F16H2019/0609	10	{the reciprocating motion being created by at least one drum or pulley with different diameters, using a differential effect}	F16H19/06	F16H19/06		29
F16H2019/0613	10	{the flexible member being a toothed belt or chain engaging a rack}	F16H19/06	F16H19/06		76
F16H19/0618	10	{the flexible member, e.g. cable, being wound on a drum or thread for creating axial movement parallel to the drum or thread}	F16H19/06	F16H19/06		59
F16H19/0622	10	{for converting reciprocating movement into oscillating movement and vice versa, the reciprocating movement is perpendicular to the axis of oscillation}	F16H19/06	F16H19/06		134
F16H19/0628	11	{the flexible member, e.g. a cable, being wound with one string to a drum and unwound with another string to create reciprocating movement of the flexible member}	F16H19/06	F16H19/06		32
F16H19/0636	10	{the flexible member being a non-buckling chain}	F16H19/06	F16H19/06		138
F16H19/064	10	{the flexible push member uses a bended profile to generate stiffness, e.g. spreading belts}	F16H19/06	F16H19/06		72
F16H19/0645	10	{the flexible push or pull member having guiding means, i.e. the flexible member being supported at least partially by a guide to transmit the reciprocating movement&#160; (the flexible member being a non-buckling chain&#160;F16H19/0636)}	F16H19/06	F16H19/06		132
F16H19/065	10	{with flexible members between discs creating reciprocation by relative rotation of the discs}	F16H19/06	F16H19/06		10
F16H19/0654	10	{using twisting movement of flexible members to modify the axial length of the mechanism}	F16H19/06	F16H19/06		34
F16H19/0659	10	{combined with means for creating non-linear characteristics, e.g. cams; Means for creating different velocity on forward and reverse stroke}	F16H19/06	F16H19/06		57
F16H19/0663	10	{with telescopic means, e.g. for supporting or shielding the reciprocating member}	F16H19/06	F16H19/06		53
F16H2019/0668	10	{with open loop, e.g. with the free ends of the flexible member fixed to the casing, e.g. when the drive means are arranged on the carriage}	F16H19/06	F16H19/06		94
F16H19/0672	10	{characterised by means for tensioning the flexible member}	F16H19/06	F16H19/06		173
F16H2019/0677	10	{characterised by the means for fixing the flexible member to a drum}	F16H19/06	F16H19/06		18
F16H2019/0681	10	{the flexible member forming a closed loop}	F16H19/06	F16H19/06		116
F16H2019/0686	11	{the flexible member being directly driven by a pulley or chain wheel}	F16H19/06	F16H19/06		185
F16H2019/069	10	{with means for generating two superposed movements, e.g. for driving a X-Y table}	F16H19/06	F16H19/06		36
F16H2019/0695	10	{Generating pivoting movement of a joint}	F16H19/06	F16H19/06		52
F16H19/08	8	for interconverting rotary motion and oscillating motion	F16H19/08	F16H19/08		423
F16H2019/085	9	{by using flexible members}	F16H19/08	F16H19/08		52
F16H21/00	7	Gearings comprising primarily only links or levers, with or without slides (F16H23/00 takes precedence)	F16H21/00	F16H21/00		136
F16H21/02	8	the movements of two or more independently-moving members being combined into a single movement	F16H21/02	F16H21/02		121
F16H21/04	8	Guiding mechanisms, e.g. for straight-line guidance	F16H21/04	F16H21/04		340
F16H21/06	8	which can be made ineffective when desired	F16H21/06	F16H21/06		89
F16H21/08	9	by pushing a reciprocating rod out of its operative position	F16H21/08	F16H21/08		50
F16H21/10	8	all movement being in, or parallel to, a single plane	F16H21/10	F16H21/10		322
F16H21/12	9	for conveying rotary motion	F16H21/12	F16H21/12		187
F16H21/14	10	by means of cranks, eccentrics, or like members fixed to one rotary member and guided along tracks on the other	F16H21/14	F16H21/14		410
F16H21/16	9	for interconverting rotary motion and reciprocating motion	F16H21/16	F16H21/16		277
F16H21/18	10	Crank gearings; Eccentric gearings	F16H21/18	F16H21/18		658
F16H21/20	11	with adjustment of throw	F16H21/20	F16H21/20		378
F16H21/22	11	with one connecting-rod and one guided slide to each crank or eccentric	F16H21/22	F16H21/22		162
F16H21/24	12	without further links or guides	F16H21/24	F16H21/24		44
F16H21/26	12	with toggle action	F16H21/26	F16H21/26		47
F16H21/28	12	with cams or additional guides	F16H21/28	F16H21/28		221
F16H21/30	12	with members having rolling contact	F16H21/30	F16H21/30		204
F16H21/32	12	with additional members comprising only pivoted links or arms	F16H21/32	F16H21/32		399
F16H21/34	11	with two or more connecting-rods to each crank or eccentric	F16H21/34	F16H21/34		396
F16H21/36	11	without swinging connecting-rod, e.g. with epicyclic parallel motion, slot-and-crank motion	F16H21/36	F16H21/36		509
F16H21/365	12	{with orbital gearing having a ratio of 2:1 between central gear and orbital gear}	F16H21/36	F16H21/36		256
F16H21/38	11	with means for temporary energy accumulation, e.g. to overcome dead-centre positions	F16H21/38	F16H21/38		222
F16H21/40	9	for interconverting rotary motion and oscillating motion	F16H21/40	F16H21/40		594
F16H21/42	10	with adjustable throw	F16H21/42	F16H21/42		84
F16H21/44	9	for conveying or interconverting oscillating or reciprocating motions	F16H21/44	F16H21/44		1109
F16H21/46	8	with movements in three dimensions [3D]	F16H21/46	F16H21/46		195
F16H21/48	9	for conveying rotary motions	F16H21/48	F16H21/48		91
F16H21/50	9	for interconverting rotary motion and reciprocating motion	F16H21/50	F16H21/50		163
F16H21/52	9	for interconverting rotary motion and oscillating motion	F16H21/52	F16H21/52		152
F16H21/54	9	for conveying or interconverting oscillating or reciprocating motions	F16H21/54	F16H21/54		162
F16H23/00	7	Wobble-plate gearings; Oblique-crank gearings	F16H23/00	F16H23/00		184
F16H23/02	8	with adjustment of throw by changing the position of the wobble-member (gearings in which the transmission ratio is changed by adjustment of a wobble-plate F16H29/04; gearings with gyroscopic action, e.g. comprising wobble-plates F16H33/10)	F16H23/02	F16H23/02		112
F16H23/04	8	with non-rotary wobble-members	F16H23/04	F16H23/04		128
F16H23/06	9	with sliding members hinged to reciprocating members	F16H23/06	F16H23/06		133
F16H23/08	9	connected to reciprocating members by connecting-rods	F16H23/08	F16H23/08		246
F16H23/10	8	with rotary wobble-plates with plane surfaces	F16H23/10	F16H23/10		189
F16H25/00	7	Gearings comprising primarily only cams, cam-followers and screw-and-nut mechanisms	F16H25/00	F16H25/00		116
F16H25/02	8	the movements of two or more independently moving members being combined into a single movement	F16H25/02	F16H25/02		101
F16H25/04	8	for conveying rotary motion	F16H25/04	F16H25/04		191
F16H25/06	9	with intermediate members guided along tracks on both rotary members	F16H25/06	F16H25/06		520
F16H2025/063	10	{the intermediate members being balls engaging on opposite cam discs}	F16H25/06	F16H25/06		92
F16H2025/066	10	{the intermediate members being rollers supported in a chain}	F16H25/06	F16H25/06		46
F16H25/08	8	for interconverting rotary motion and reciprocating motion (F16H23/00 takes precedence)	F16H25/08	F16H25/08		225
F16H25/10	9	with adjustable throw	F16H25/10	F16H25/10		92
F16H25/12	9	with reciprocation along the axis of rotation, e.g. gearings with helical grooves and automatic reversal	F16H25/12	F16H25/12		685
F16H25/122	10	{Gearings with helical grooves and automatic reversal}	F16H25/12	F16H25/12		173
F16H25/125	10	{having the cam on an end surface of the rotating element}	F16H25/12	F16H25/12		126
F16H2025/127	10	{using electric solenoids for generating the reciprocating motion}	F16H25/12	F16H25/12		159
F16H25/14	9	with reciprocation perpendicular to the axis of rotation (crank or eccentric gearings without swinging connecting-rod F16H21/36)	F16H25/14	F16H25/14		593
F16H25/16	8	for interconverting rotary motion and oscillating motion	F16H25/16	F16H25/16		593
F16H25/18	8	for conveying or interconverting oscillating or reciprocating motions	F16H25/18	F16H25/18		280
F16H25/183	9	{conveying only reciprocating motion, e.g. wedges}	F16H25/18	F16H25/18		180
F16H25/186	9	{with reciprocation along the axis of oscillation}	F16H25/18	F16H25/18		372
F16H25/20	9	Screw mechanisms (with automatic reversal F16H25/12)	F16H25/20	F16H25/20		4149
F16H25/2003	10	{with arrangements for taking up backlash (F16H25/2209 takes precedence)}	F16H25/20	F16H25/20		237
F16H25/2006	11	{with more than one nut or with nuts consisting of more than one bearing part}	F16H25/20	F16H25/20		290
F16H25/2009	11	{with radial preloading}	F16H25/20	F16H25/20		151
F16H2025/2012	11	{using a spring member creating rotary torque for counter rotating the two nuts, e.g. a torsion bar}	F16H25/20	F16H25/20		32
F16H25/2015	10	{Means specially adapted for stopping actuators in the end position; Position sensing means}	F16H25/20	F16H25/20		1012
F16H25/2018	10	{with both screw and nut being driven, i.e. screw and nut are both rotating}	F16H25/20	F16H25/20		255
F16H25/2021	10	{with means for avoiding overloading}	F16H25/20	F16H25/20		390
F16H25/2025	10	{with means to disengage the nut or screw from their counterpart; Means for connecting screw and nut for stopping reciprocating movement (F16H25/2015 takes precedence)}	F16H25/20	F16H25/20		296
F16H2025/2028	10	{using screw profiles with high efficiency for converting reciprocating motion into oscillating movement}	F16H25/20	F16H25/20		52
F16H2025/2031	10	{Actuator casings}	F16H25/20	F16H25/20		450
F16H2025/2034	11	{Extruded frame casings}	F16H25/20	F16H25/20		87
F16H2025/2037	10	{Actuator supports or means for fixing piston end, e.g. flanges}	F16H25/20	F16H25/20		196
F16H2025/204	10	{Axial sliding means, i.e. for rotary support and axial guiding of nut or screw shaft}	F16H25/20	F16H25/20		755
F16H2025/2043	10	{Screw mechanisms driving an oscillating lever, e.g. lever with perpendicular pivoting axis}	F16H25/20	F16H25/20		160
F16H2025/2046	10	{with gears arranged perpendicular to screw shaft axis, e.g. helical gears engaging tangentially the screw shaft}	F16H25/20	F16H25/20		86
F16H25/205	10	{comprising alternate power paths, e.g. for fail safe back-up}	F16H25/20	F16H25/20		156
F16H2025/2053	10	{Screws in parallel arrangement driven simultaneously with an output member moved by the screws}	F16H25/20	F16H25/20		101
F16H25/2056	10	{Telescopic screws with at least three screw members in coaxial arrangement}	F16H25/20	F16H25/20		212
F16H2025/2059	10	{Common movement by two screws or two nuts, e.g. two connected screws with opposite thread direction}	F16H25/20	F16H25/20		196
F16H2025/2062	10	{Arrangements for driving the actuator}	F16H25/20	F16H25/20		170
F16H2025/2065	11	{Manual back-up means for overriding motor control, e.g. hand operation in case of failure}	F16H25/20	F16H25/20		92
F16H2025/2068	11	{Means for returning linear actuator to zero position, e.g. upon occurrence of failure by using a spring}	F16H25/20	F16H25/20		96
F16H2025/2071	11	{Disconnecting drive source from the actuator, e.g. using clutches for release of drive connection during manual control}	F16H25/20	F16H25/20		202
F16H2025/2075	11	{Coaxial drive motors}	F16H25/20	F16H25/20		1225
F16H2025/2078	12	{the rotor being integrated with the nut or screw body}	F16H25/20	F16H25/20		224
F16H2025/2081	11	{Parallel arrangement of drive motor to screw axis}	F16H25/20	F16H25/20		1037
F16H2025/2084	11	{Perpendicular arrangement of drive motor to screw axis}	F16H25/20	F16H25/20		472
F16H2025/2087	11	{using planetary gears}	F16H25/20	F16H25/20		322
F16H2025/209	11	{using worm gears}	F16H25/20	F16H25/20		596
F16H2025/2093	11	{using conical gears}	F16H25/20	F16H25/20		151
F16H2025/2096	11	{using endless flexible members}	F16H25/20	F16H25/20		396
F16H25/22	10	with balls, rollers, or similar members between the co-operating parts; Elements essential to the use of such members	F16H25/22	F16H25/22		651
F16H25/2204	11	{with balls}	F16H25/22	F16H25/22		2779
F16H25/2209	12	{with arrangements for taking up backlash}	F16H25/22	F16H25/22		326
F16H25/2214	12	{with elements for guiding the circulating balls}	F16H25/22	F16H25/22		1023
F16H25/2219	13	{Axially mounted end-deflectors}	F16H25/22	F16H25/22		282
F16H25/2223	13	{Cross over deflectors between adjacent thread turns, e.g. S-form deflectors connecting neighbouring threads}	F16H25/22	F16H25/22		440
F16H25/2228	13	{the device for circulation forming a part of the screw member}	F16H25/22	F16H25/22		158
F16H25/2233	12	{with cages or means to hold the balls in position}	F16H25/22	F16H25/22		246
F16H25/2238	13	{using ball spacers, i.e. spacers separating the balls, e.g. by forming a chain supporting the balls}	F16H25/22	F16H25/22		202
F16H2025/2242	12	{Thread profile of the screw or nut showing a pointed "gothic" arch in cross-section}	F16H25/22	F16H25/22		125
F16H25/2247	11	{with rollers}	F16H25/22	F16H25/22		244
F16H25/2252	12	{Planetary rollers between nut and screw}	F16H25/22	F16H25/22		761
F16H2025/2257	13	{with means for shifting planetary rollers axially, e.g. into central position}	F16H25/22	F16H25/22		29
F16H25/2261	12	{arranged substantially perpendicular to the screw shaft axis}	F16H25/22	F16H25/22		121
F16H25/2266	12	{arranged substantially in parallel to the screw shaft axis (planetary rollers F16H25/2252)}	F16H25/22	F16H25/22		206
F16H2025/2271	12	{with means for guiding circulating rollers}	F16H25/22	F16H25/22		73
F16H2025/2276	12	{using roller spacers, i.e. spacers separating the rollers, e.g. by forming a complete chain}	F16H25/22	F16H25/22		27
F16H2025/228	12	{Screw mechanisms having rollers being supported by the screw shaft and engaging the nut}	F16H25/22	F16H25/22		43
F16H25/2285	11	{with rings engaging the screw shaft with the inner perimeter, e.g. using inner rings of a ball bearing}	F16H25/22	F16H25/22		29
F16H25/229	12	{Eccentric rings with their axis arranged substantially parallel to the screw shaft axis}	F16H25/22	F16H25/22		71
F16H25/2295	12	{Rings which are inclined or can pivot around an axis perpendicular to the screw shaft axis}	F16H25/22	F16H25/22		69
F16H25/24	10	Elements essential to such mechanisms, e.g. screws, nuts (F16H25/22 takes precedence)	F16H25/24	F16H25/24		2640
F16H25/2409	11	{one of the threads being replaced by elements specially formed for engaging the screw or nut, e.g. pins, racks, toothed belts}	F16H25/24	F16H25/24		227
F16H25/2418	11	{Screw seals, wipers, scrapers or the like}	F16H25/24	F16H25/24		543
F16H25/2427	11	{one of the threads being replaced by a wire or stripmetal, e.g. spring}	F16H25/24	F16H25/24		140
F16H2025/2436	11	{Intermediate screw supports for reducing unsupported length of screw shaft}	F16H25/24	F16H25/24		153
F16H2025/2445	11	{Supports or other means for compensating misalignment or offset between screw and nut}	F16H25/24	F16H25/24		311
F16H25/2454	11	{Brakes; Rotational locks}	F16H25/24	F16H25/24		762
F16H2025/2463	12	{using a wrap spring brake, i.e. a helical wind up spring for braking or locking}	F16H25/24	F16H25/24		96
F16H25/2472	11	{Safety nuts}	F16H25/24	F16H25/24		210
F16H2025/2481	11	{Special features for facilitating the manufacturing of spindles, nuts, or sleeves of screw devices}	F16H25/24	F16H25/24		220
F16H2025/249	11	{Materials or coatings for screws or nuts}	F16H25/24	F16H25/24		305
F16H27/00	7	Step-by-step mechanisms without freewheel members, e.g. Geneva drives	F16H27/00	F16H27/00		90
F16H27/02	8	with at least one reciprocating or oscillating transmission member	F16H27/02	F16H27/02		350
F16H27/04	8	for converting continuous rotation into a step-by-step rotary movement	F16H27/04	F16H27/04		507
F16H27/045	9	{Mechanism comprising a member with partially helical tracks}	F16H27/04	F16H27/04		143
F16H27/06	9	Mechanisms with driving pins in driven slots, e.g. Geneva drives	F16H27/06	F16H27/06		407
F16H27/08	9	with driving toothed gears with interrupted toothing	F16H27/08	F16H27/08		260
F16H27/10	9	obtained by means of disengageable transmission members, combined or not combined with mechanisms according to group F16H27/06 or F16H27/08	F16H27/10	F16H27/10		226
F16H29/00	7	Gearings for conveying rotary motion with intermittently-driving members, e.g. with freewheel action	F16H29/00	F16H29/00		199
F16H29/02	8	between one of the shafts and an oscillating or reciprocating intermediate member, not rotating with either of the shafts (F16H29/20, F16H29/22 take precedence)	F16H29/02	F16H29/02		457
F16H29/04	9	in which the transmission ratio is changed by adjustment of a crank, an eccentric, a wobble-plate, or a cam, on one of the shafts	F16H29/04	F16H29/04		833
F16H29/06	10	with concentric shafts, an annular intermediate member moving around and being supported on an adjustable crank or eccentric	F16H29/06	F16H29/06		70
F16H29/08	9	in which the transmission ratio is changed by adjustment of the path of movement, the location of the pivot, or the effective length, of an oscillating connecting member	F16H29/08	F16H29/08		444
F16H29/10	9	in which the transmission ratio is changed by directly acting on the intermittently driving members	F16H29/10	F16H29/10		26
F16H29/12	8	between rotary driving and driven members (F16H29/20, F16H29/22 take precedence)	F16H29/12	F16H29/12		143
F16H29/14	9	in which the transmission ratio is changed by adjustment of an otherwise stationary guide member for the intermittently-driving members	F16H29/14	F16H29/14		130
F16H29/16	9	in which the transmission ratio is changed by adjustment of the distance between the axes of the rotary members	F16H29/16	F16H29/16		175
F16H29/18	10	in which the intermittently-driving members slide along approximately radial guides while rotating with one of the rotary members	F16H29/18	F16H29/18		138
F16H29/20	8	the intermittently-acting members being shaped as worms, screws, or racks	F16H29/20	F16H29/20		193
F16H29/22	8	with automatic speed change	F16H29/22	F16H29/22		327
F16H31/00	7	Other gearings with freewheeling members or other intermittently driving members (F16H21/00, F16H23/00, F16H25/00 take precedence)	F16H31/00	F16H31/00		215
F16H31/001	8	{Mechanisms with freewheeling members}	F16H31/00	F16H31/00		471
F16H31/002	9	{Hand-driven ratchets}	F16H31/00	F16H31/00		94
F16H31/003	8	{Step-by-step mechanisms for rotary motion}	F16H31/00	F16H31/00		24
F16H31/004	9	{with pawls driven by a rotary cam}	F16H31/00	F16H31/00		120
F16H31/005	9	{with pawls driven by a reciprocating or oscillating transmission member (F16H31/002, F16H31/004 take precedence)}	F16H31/00	F16H31/00		697
F16H31/006	9	{with friction means}	F16H31/00	F16H31/00		61
F16H31/007	8	{Step-by-step mechanisms for linear motion}	F16H31/00	F16H31/00		65
F16H31/008	9	{with friction means}	F16H31/00	F16H31/00		25
F16H33/00	7	Gearings based on repeated accumulation and delivery of energy	F16H33/00	F16H33/00		162
F16H33/02	8	Rotary transmissions with mechanical accumulators, e.g. weights, springs, intermittently-connected flywheels	F16H33/02	F16H33/02		787
F16H33/04	9	Gearings for conveying rotary motion with variable velocity ratio, in which self-regulation is sought	F16H33/04	F16H33/04		36
F16H33/06	10	based essentially on spring action	F16H33/06	F16H33/06		229
F16H33/08	10	based essentially on inertia	F16H33/08	F16H33/08		396
F16H33/10	11	with gyroscopic action, e.g. comprising wobble-plates, oblique cranks	F16H33/10	F16H33/10		198
F16H33/12	11	with a driving member connected differentially with both a driven member and an oscillatory member with large resistance to movement, e.g. Constantinesco gearing	F16H33/12	F16H33/12		59
F16H33/14	11	having orbital members influenced by regulating masses	F16H33/14	F16H33/14		39
F16H33/16	12	which have their own free motion, or consist of fluid	F16H33/16	F16H33/16		56
F16H33/18	12	of which the motion is constrained	F16H33/18	F16H33/18		38
F16H33/185	13	{the masses being fixed to the orbital members}	F16H33/18	F16H33/18		152
F16H33/20	8	for interconversion, based essentially on inertia, of rotary motion and reciprocating or oscillating motion	F16H33/20	F16H33/20		101
F16H35/00	7	Gearings or mechanisms with other special functional features	F16H35/00	F16H35/00		1141
F16H2035/001	8	{Gearings with eccentrically mounted gears, e.g. for cyclically varying ratio}	F16H35/00	F16H35/00		98
F16H2035/003	8	{Gearings comprising pulleys or toothed members of non-circular shape, e.g. elliptical gears}	F16H35/00	F16H35/00		427
F16H2035/005	8	{Gearings or mechanisms preventing back-driving}	F16H35/00	F16H35/00		184
F16H2035/006	8	{Gearings or mechanisms for stopping or limiting movement, e.g. stopping a movement after a few turns}	F16H35/00	F16H35/00		155
F16H35/008	8	{for variation of rotational phase relationship, e.g. angular relationship between input and output shaft}	F16H35/00	F16H35/00		282
F16H35/02	8	for conveying rotary motion with cyclically varying velocity ratio	F16H35/02	F16H35/02		765
F16H35/06	8	Gearings designed to allow relative movement between supports thereof without ill effects&#160; (special means compensating for misalignment of axes&#160;F16H1/26,&#160;F16H1/48)	F16H35/06	F16H35/06		56
F16H35/08	8	for adjustment of members on moving parts from a stationary place	F16H35/08	F16H35/08		20
F16H35/10	8	Arrangements or devices for absorbing overload or preventing damage by overload	F16H35/10	F16H35/10		1283
F16H2035/103	9	{with drive interruption by structural failure of overload preventing means, e.g. using shear pins}	F16H35/10	F16H35/10		149
F16H2035/106	9	{Monitoring of overload}	F16H35/10	F16H35/10		38
F16H35/12	8	Transmitting mechanisms with delayed effect	F16H35/12	F16H35/12		22
F16H35/14	8	Mechanisms with only two stable positions, e.g. acting at definite angular positions	F16H35/14	F16H35/14		194
F16H35/16	8	Mechanisms for movements or movement relations conforming to mathematical formulae	F16H35/16	F16H35/16		116
F16H35/18	8	Turning devices for rotatable members, e.g. shafts	F16H35/18	F16H35/18		218
F16H37/00	7	Combinations of mechanical gearings, not provided for in groups F16H1/00 - F16H35/00(combinations of mechanical gearing with fluid clutches or fluid gearing F16H47/00)	F16H37/00	F16H37/00		1504
F16H37/02	8	comprising essentially only toothed or friction gearings	F16H37/02	F16H37/02		1019
F16H37/021	9	{toothed gearing combined with continuously variable friction gearing}	F16H37/02	F16H37/02		720
F16H37/022	10	{the toothed gearing having orbital motion}	F16H37/02	F16H37/02		734
F16H2037/023	10	{the combined gearing being provided with at least two forward and one reverse ratio in a serially arranged sub-transmission}	F16H37/02	F16H37/02		146
F16H2037/025	10	{having continuously variable friction gearing, i.e. CVT, in which the ratio coverage is used more than once to produce the overall transmission ratio coverage, e.g. by shift to end of range, then change ratio in sub-transmission and shift CVT through range once again}	F16H37/02	F16H37/02		73
F16H2037/026	10	{Layouts with particular features of reversing gear, e.g. to achieve compact arrangement}	F16H37/02	F16H37/02		103
F16H37/027	9	{toothed gearing combined with a gear using endless flexible members for reversing rotary motion only (F16H37/06 takes precedence)}	F16H37/02	F16H37/02		95
F16H2037/028	9	{having two distinct forward drive ratios and one reverse drive ratio arranged in series with a continuously variable transmission unit}	F16H37/02	F16H37/02		16
F16H37/04	9	Combinations of toothed gearings only (F16H37/06 takes precedence)	F16H37/04	F16H37/04		615
F16H37/041	10	{for conveying rotary motion with constant gear ratio}<br><br><u>WARNING</u><br> This group is not complete pending a reorganisation; see also subgroups of F16H1/00	F16H37/04	F16H37/04		663
F16H37/042	10	{change gear transmissions in group arrangement}	F16H37/04	F16H37/04		551
F16H37/043	11	{without gears having orbital motion}	F16H37/04	F16H37/04		598
F16H2037/044	12	{comprising a separate gearing unit for shifting between forward or reverse}	F16H37/04	F16H37/04		86
F16H2037/045	12	{comprising a separate gearing unit for shifting between high and low ratio range}	F16H37/04	F16H37/04		160
F16H37/046	11	{with an additional planetary gear train, e.g. creep gear, overdrive}	F16H37/04	F16H37/04		1185
F16H2037/047	10	{comprising one or more orbital gear sets coaxial with a first shaft and having more than one drive connection to a second shaft parallel to the first shaft}	F16H37/04	F16H37/04		53
F16H2037/048	10	{Combinations of parallel shaft and orbital motion gearing, wherein the orbital motion gearing has more than one connection with the parallel shaft gearing}	F16H37/04	F16H37/04		87
F16H2037/049	10	{Forward-reverse units with forward and reverse gears for achieving multiple forward and reverse gears, e.g. for working machines}	F16H37/04	F16H37/04		155
F16H37/06	9	with a plurality of driving or driven shafts; with arrangements for dividing torque between two or more intermediate shafts	F16H37/06	F16H37/06		271
F16H37/065	10	{with a plurality of driving or driven shafts (F16H37/0806 takes precedence)}	F16H37/06	F16H37/06		863
F16H37/08	10	with differential gearing	F16H37/08	F16H37/08		726
F16H37/0806	11	{with a plurality of driving or driven shafts}	F16H37/08	F16H37/08		417
F16H37/0813	12	{with only one input shaft}	F16H37/08	F16H37/08		518
F16H37/082	13	{and additional planetary reduction gears}	F16H37/08	F16H37/08		469
F16H37/0826	12	{with only one output shaft}	F16H37/08	F16H37/08		238
F16H37/0833	11	{with arrangements for dividing torque between two or more intermediate shafts, i.e. with two or more internal power paths}	F16H37/08	F16H37/08		381
F16H37/084	12	{at least one power path being a continuously variable transmission, i.e. CVT}	F16H37/08	F16H37/08		322
F16H37/0846	13	{CVT using endless flexible members}	F16H37/08	F16H37/08		565
F16H37/0853	13	{CVT using friction between rotary members having a first member of uniform effective diameter cooperating with different parts of a second member}	F16H37/08	F16H37/08		335
F16H37/086	13	{CVT using two coaxial friction members cooperating with at least one intermediate friction member}	F16H37/08	F16H37/08		650
F16H2037/0866	13	{Power-split transmissions with distributing differentials, with the output of the CVT connected or connectable to the output shaft}	F16H37/08	F16H37/08		796
F16H2037/0873	14	{with switching means, e.g. to change ranges}	F16H37/08	F16H37/08		527
F16H2037/088	13	{Power-split transmissions with summing differentials, with the input of the CVT connected or connectable to the input shaft}	F16H37/08	F16H37/08		934
F16H2037/0886	14	{with switching means, e.g. to change ranges}	F16H37/08	F16H37/08		799
F16H2037/0893	13	{characterised in that the ratio of the continuously variable transmission is different from zero when the output shaft speed is zero}	F16H37/08	F16H37/08		46
F16H37/10	11	at both ends of intermediate shafts	F16H37/10	F16H37/10		77
F16H2037/101	12	{Power-split transmissions with one differential at each end of a continuously variable transmission, i.e. CVT}	F16H37/10	F16H37/10		157
F16H2037/102	12	{the input or output shaft of the transmission is connected or connectable to two or more differentials}	F16H37/10	F16H37/10		432
F16H2037/103	12	{Power-split transmissions with each end of a CVT connected or connectable to a planetary gear set having four or more connections, e.g. a Ravigneaux set}	F16H37/10	F16H37/10		203
F16H2037/104	12	{Power-split transmissions with at least one end of a CVT connected or connectable to two or more differentials}	F16H37/10	F16H37/10		361
F16H2037/105	12	{characterised by number of modes or ranges, e.g. for compound gearing}	F16H37/10	F16H37/10		
F16H2037/106	13	{with switching means to provide two variator modes or ranges}	F16H37/10	F16H37/10		291
F16H2037/107	13	{with switching means to provide three variator modes or ranges}	F16H37/10	F16H37/10		68
F16H2037/108	13	{with switching means to provide four or more variator modes or ranges}	F16H37/10	F16H37/10		49
F16H37/12	8	Gearings comprising primarily toothed or friction gearing, links or levers, and cams, or members of at least two of these types (gearings with cranks, eccentrics, or like members fixed to one rotary member and guided along tracks on the other F16H21/14; crank or eccentric gearings with cams or additional guides, or with members having rolling contact F16H21/28, F16H21/30)	F16H37/12	F16H37/12		1654
F16H37/122	9	{for interconverting rotary motion and oscillating motion}	F16H37/12	F16H37/12		559
F16H37/124	9	{for interconverting rotary motion and reciprocating motion}	F16H37/12	F16H37/12		1664
F16H37/126	10	{Guiding mechanism using levers combined with gearings for straight line output movement, e.g. by using gears or pulleys with ratio 2:1}	F16H37/12	F16H37/12		74
F16H2037/128	9	{Generating reciprocating motion by a planetary gear (ratio 2:1) using endless flexible members}	F16H37/12	F16H37/12		32
F16H37/14	9	the movements of two or more independently-moving members being combined into a single movement	F16H37/14	F16H37/14		98
F16H37/16	9	with a driving or driven member which both rotates or oscillates on its axis and reciprocates	F16H37/16	F16H37/16		272
F16H39/00	7	Rotary fluid gearing using pumps and motors of the volumetric type, i.e. passing a predetermined volume of fluid per revolution (control of exclusively fluid gearing F16H61/38)	F16H39/00	F16H39/00		312
F16H2039/005	8	{comprising arrangements or layout to change the capacity of the motor or pump by moving the hydraulic chamber of the motor or pump}	F16H39/00	F16H39/00		72
F16H39/01	8	Pneumatic gearing; Gearing working with subatmospheric pressure	F16H39/01	F16H39/01		122
F16H39/02	8	with liquid motors at a distance from liquid pumps	F16H39/02	F16H39/02		640
F16H39/04	8	with liquid motor and pump combined in one unit	F16H39/04	F16H39/04		136
F16H39/06	9	pump and motor being of the same type	F16H39/06	F16H39/06		247
F16H39/08	10	each with one main shaft and provided with pistons reciprocating in cylinders	F16H39/08	F16H39/08		188
F16H39/10	11	with cylinders arranged around, and parallel or approximately parallel to the main axis of the gearing	F16H39/10	F16H39/10		133
F16H2039/105	12	{at least one pair of motors or pumps sharing a common swash plate}	F16H39/10	F16H39/10		22
F16H39/12	12	with stationary cylinders	F16H39/12	F16H39/12		31
F16H39/14	12	with cylinders carried in rotary cylinder blocks or cylinder-bearing members	F16H39/14	F16H39/14		604
F16H39/16	11	with cylinders arranged perpendicular to the main axis of the gearing	F16H39/16	F16H39/16		145
F16H39/18	12	the connections of the pistons being at the outer ends of the cylinders	F16H39/18	F16H39/18		111
F16H39/20	12	the connections of the pistons being at the inner ends of the cylinders	F16H39/20	F16H39/20		112
F16H39/22	10	with liquid chambers shaped as bodies of revolution concentric with the main axis of the gearing	F16H39/22	F16H39/22		70
F16H39/24	11	with rotary displacement members, e.g. provided with axially or radially movable vanes passing movable sealing members	F16H39/24	F16H39/24		94
F16H39/26	10	with liquid chambers not shaped as bodies of revolution or shaped as bodies of revolution eccentric to the main axis of the gearing	F16H39/26	F16H39/26		17
F16H39/28	11	with liquid chambers formed in rotary members	F16H39/28	F16H39/28		42
F16H39/30	11	with liquid chambers formed in stationary members	F16H39/30	F16H39/30		19
F16H39/32	12	with sliding vanes carried by the rotor	F16H39/32	F16H39/32		150
F16H39/34	10	in which a rotor on one shaft co-operates with a rotor on another shaft	F16H39/34	F16H39/34		41
F16H39/36	11	toothed-gear type	F16H39/36	F16H39/36		107
F16H39/38	11	Displacement screw-pump type	F16H39/38	F16H39/38		7
F16H39/40	10	Hydraulic differential gearings, e.g. having a rotary input housing with interconnected liquid chambers for both outputs	F16H39/40	F16H39/40		13
F16H39/42	9	pump and motor being of different types	F16H39/42	F16H39/42		124
F16H41/00	7	Rotary fluid gearing of the hydrokinetic type (control of exclusively fluid gearing F16H61/38)	F16H41/00	F16H41/00		177
F16H41/02	8	with pump and turbine connected by conduits or ducts	F16H41/02	F16H41/02		83
F16H41/04	8	Combined pump-turbine units	F16H41/04	F16H41/04		565
F16H41/22	9	Gearing systems consisting of a plurality of hydrokinetic units operating alternatively, e.g. made effective or ineffective by filling or emptying or by mechanical clutches	F16H41/22	F16H41/22		117
F16H41/24	8	Details	F16H41/24	F16H41/24		1543
F16H2041/243	9	{Connections between pump shell and cover shell of the turbine}	F16H41/24	F16H41/24		187
F16H2041/246	9	{relating to one way clutch of the stator}	F16H41/24	F16H41/24		678
F16H41/26	9	Shape of runner blades or channels with respect to function	F16H41/26	F16H41/26		625
F16H41/28	9	with respect to manufacture, e.g. blade attachment	F16H41/28	F16H41/28		594
F16H2041/285	10	{of stator blades}	F16H41/28	F16H41/28		120
F16H41/30	9	relating to venting, lubrication, cooling, circulation of the cooling medium	F16H41/30	F16H41/30		549
F16H41/32	8	Selection of working fluids	F16H41/32	F16H41/32		17
F16H43/00	7	Other fluid gearing, e.g. with oscillating input or output	F16H43/00	F16H43/00		518
F16H43/02	8	Fluid gearing actuated by pressure waves	F16H43/02	F16H43/02		89
F16H45/00	7	Combinations of fluid gearings for conveying rotary motion with couplings or clutches&#160; (gearing systems consisting of a plurality of hydrokinetic units operating alternatively&#160;F16H41/22)<br><br><u>NOTE</u><br><br>Clutches for varying working conditions in fluid torque-converters are regarded as part of the torque converter	F16H45/00	F16H45/00		497
F16H2045/002	8	{comprising a clutch between prime mover and fluid gearing}	F16H45/00	F16H45/00		356
F16H2045/005	8	{comprising a clutch between fluid gearing and the mechanical gearing unit}	F16H45/00	F16H45/00		320
F16H2045/007	8	{comprising a damper between turbine of the fluid gearing and the mechanical gearing unit}	F16H45/00	F16H45/00		80
F16H45/02	8	with mechanical clutches for bridging a fluid gearing of the hydrokinetic type (control of torque converter lock-up clutches F16H61/14)	F16H45/02	F16H45/02		3100
F16H2045/0205	9	{two chamber system, i.e. without a separated, closed chamber specially adapted for actuating a lock-up clutch}	F16H45/02	F16H45/02		491
F16H2045/021	9	{three chamber system, i.e. comprising a separated, closed chamber specially adapted for actuating a lock-up clutch}	F16H45/02	F16H45/02		543
F16H2045/0215	9	{Details of oil circulation}	F16H45/02	F16H45/02		324
F16H2045/0221	9	{with damping means}	F16H45/02	F16H45/02		473
F16H2045/0226	10	{comprising two or more vibration dampers}	F16H45/02	F16H45/02		621
F16H2045/0231	11	{arranged in series}	F16H45/02	F16H45/02		506
F16H2045/0236	10	{with axial dampers, e.g. comprising a ramp system}	F16H45/02	F16H45/02		25
F16H2045/0242	10	{with viscous dampers}	F16H45/02	F16H45/02		33
F16H2045/0247	10	{having a turbine with hydrodynamic damping means}	F16H45/02	F16H45/02		362
F16H2045/0252	10	{having a damper arranged on input side of the lock-up clutch}	F16H45/02	F16H45/02		167
F16H2045/0257	10	{having a pump adapted for use as a secondary mass of the damping system}	F16H45/02	F16H45/02		38
F16H2045/0263	10	{the damper comprising a pendulum}	F16H45/02	F16H45/02		387
F16H2045/0268	10	{the damper comprising a gearing}	F16H45/02	F16H45/02		123
F16H2045/0273	9	{characterised by the type of the friction surface of the lock-up clutch}	F16H45/02	F16H45/02		90
F16H2045/0278	10	{comprising only two co-acting friction surfaces}	F16H45/02	F16H45/02		632
F16H2045/0284	10	{Multiple disk type lock-up clutch}	F16H45/02	F16H45/02		772
F16H2045/0289	10	{Details of friction surfaces of the lock-up clutch}	F16H45/02	F16H45/02		209
F16H2045/0294	10	{Single disk type lock-up clutch, i.e. using a single disc engaged between friction members}	F16H45/02	F16H45/02		1104
F16H47/00	7	Combinations of mechanical gearing with fluid clutches or fluid gearing	F16H47/00	F16H47/00		219
F16H47/02	8	the fluid gearing being of the volumetric type	F16H47/02	F16H47/02		1083
F16H2047/025	9	{the fluid gearing comprising a plurality of pumps or motors}	F16H47/02	F16H47/02		137
F16H47/04	9	the mechanical gearing being of the type with members having orbital motion	F16H47/04	F16H47/04		2261
F16H2047/045	10	{the fluid gearing comprising a plurality of pumps or motors}	F16H47/04	F16H47/04		308
F16H47/06	8	the fluid gearing being of the hydrokinetic type	F16H47/06	F16H47/06		999
F16H47/065	9	{the mechanical gearing comprising gearing of the friction or endless flexible member type}	F16H47/06	F16H47/06		181
F16H47/07	9	using two or more power-transmitting fluid circuits&#160; (F16H47/10&#160;takes precedence)	F16H47/07	F16H47/07		198
F16H47/08	9	the mechanical gearing being of the type with members having orbital motion	F16H47/08	F16H47/08		1460
F16H47/085	10	{with at least two mechanical connections between the hydrokinetic gearing and the mechanical gearing}	F16H47/08	F16H47/08		735
F16H47/10	10	using two or more power-transmitting fluid circuits	F16H47/10	F16H47/10		75
F16H47/12	10	the members with orbital motion having vanes interacting with the fluid	F16H47/12	F16H47/12		103
F16H48/00	7	Differential gearings (cooling or lubricating of differential gearing F16H57/04)<br><br><u>NOTE</u><br><br>When classifying in this main group, in the absence of an indication to the contrary, classification is made in all appropriate places.	F16H48/00	F16H48/00		121
F16H2048/02	8	{Transfer gears for influencing drive between outputs}	F16H48/00	F16H48/02		42
F16H2048/04	9	{having unequal torque transfer between two outputs}	F16H48/00	F16H48/04		39
F16H48/05	8	Multiple interconnected differential sets	F16H48/05	F16H48/05		199
F16H48/06	8	with gears having orbital motion	F16H48/06	F16H48/06		829
F16H48/08	9	comprising bevel gears	F16H48/08	F16H48/08		5092
F16H2048/082	10	{characterised by the arrangement of output shafts}	F16H48/08	F16H48/08		584
F16H2048/085	10	{characterised by shafts or gear carriers for orbital gears}	F16H48/08	F16H48/08		904
F16H2048/087	10	{characterised by the pinion gears, e.g. their type or arrangement}	F16H48/08	F16H48/08		319
F16H48/10	9	with orbital spur gears	F16H48/10	F16H48/10		1631
F16H2048/102	10	{with spur gears engaging face gears}	F16H48/10	F16H48/10		148
F16H2048/104	10	{characterised by two ring gears}	F16H48/10	F16H48/10		262
F16H2048/106	10	{characterised by two sun gears}	F16H48/10	F16H48/10		825
F16H48/11	10	having intermeshing planet gears	F16H48/11	F16H48/11		1070
F16H48/12	8	without gears having orbital motion	F16H48/12	F16H48/12		1113
F16H48/14	9	with cams	F16H48/14	F16H48/14		161
F16H48/142	10	{consisting of linked clutches using axially movable inter-engaging parts}	F16H48/14	F16H48/14		103
F16H48/145	11	{with friction clutching members}	F16H48/14	F16H48/14		70
F16H48/147	10	{with driven cam followers or balls engaging two opposite cams}	F16H48/14	F16H48/14		191
F16H48/16	9	with freewheels	F16H48/16	F16H48/16		543
F16H48/18	9	with fluid gearing	F16H48/18	F16H48/18		150
F16H48/19	9	consisting of two linked clutches	F16H48/19	F16H48/19		265
F16H48/20	8	Arrangements for suppressing or influencing the differential action, e.g. locking devices	F16H48/20	F16H48/20		570
F16H2048/201	9	{with means directly braking the orbital gears}	F16H48/20	F16H48/20		155
F16H2048/202	9	{using freewheel clutches}	F16H48/20	F16H48/20		51
F16H2048/204	9	{Control of arrangements for suppressing differential actions}	F16H48/20	F16H48/20		990
F16H2048/205	10	{using the steering as a control parameter}	F16H48/20	F16H48/20		91
F16H2048/207	10	{using torque sensors}	F16H48/20	F16H48/20		54
F16H2048/208	10	{using flywheels}	F16H48/20	F16H48/20		23
F16H48/22	9	using friction clutches or brakes	F16H48/22	F16H48/22		2075
F16H48/24	9	using positive clutches or brakes	F16H48/24	F16H48/24		1241
F16H48/26	9	using fluid action, e.g. viscous clutches	F16H48/26	F16H48/26		232
F16H2048/265	10	{with a fluid throttling means}	F16H48/26	F16H48/26		21
F16H48/27	9	using internally-actuatable fluid pressure, e.g. internal pump types	F16H48/27	F16H48/27		395
F16H48/28	9	using self-locking gears or self-braking gears	F16H48/28	F16H48/28		197
F16H2048/282	10	{using the axial movement of axially movable bevel gears}	F16H48/28	F16H48/28		42
F16H48/285	10	with self-braking intermeshing gears having parallel axes and having worms or helical teeth	F16H48/285	F16H48/285		304
F16H48/29	10	with self-braking intermeshing gears having perpendicular arranged axes and having worms or helical teeth	F16H48/29	F16H48/29		191
F16H48/295	9	using multiple means for force boosting	F16H48/295	F16H48/295		354
F16H48/30	9	using externally-actuatable means	F16H48/30	F16H48/30		1434
F16H2048/305	10	{using manual actuators}	F16H48/30	F16H48/30		448
F16H48/32	10	using fluid pressure actuators	F16H48/32	F16H48/32		616
F16H48/34	10	using electromagnetic or electric actuators	F16H48/34	F16H48/34		970
F16H2048/343	11	{using a rotary motor}	F16H48/34	F16H48/34		220
F16H2048/346	11	{using a linear motor}	F16H48/34	F16H48/34		381
F16H48/36	8	characterised by intentionally generating speed difference between outputs	F16H48/36	F16H48/36		608
F16H2048/362	9	{using a continuously variable transmission}	F16H48/36	F16H48/36		32
F16H2048/364	9	{using electric or hydraulic motors}	F16H48/36	F16H48/36		382
F16H2048/366	9	{using additional non-orbital gears in combination with clutches or brakes}	F16H48/36	F16H48/36		65
F16H2048/368	9	{using additional orbital gears in combination with clutches or brakes}	F16H48/36	F16H48/36		170
F16H48/38	8	Constructional details (the outer casing comprising the differential and supporting input and output shafts F16H57/037)	F16H48/38	F16H48/38		1218
F16H2048/382	9	{Methods for manufacturing differential gearings}	F16H48/38	F16H48/38		480
F16H2048/385	9	{of the ring or crown gear}	F16H48/38	F16H48/38		640
F16H2048/387	9	{Shields or washers}	F16H48/38	F16H48/38		276
F16H48/40	9	characterised by features of the rotating cases	F16H48/40	F16H48/40		2452
F16H2048/405	10	{characterised by features of the bearing of the rotating case}	F16H48/40	F16H48/40		470
F16H48/42	9	characterised by features of the input shafts, e.g. mounting of drive gears thereon	F16H48/42	F16H48/42		484
F16H2048/423	10	{characterised by bearing arrangement}	F16H48/42	F16H48/42		808
F16H2048/426	11	{characterised by spigot bearing arrangement, e.g. bearing for supporting the free end of the drive shaft pinion}	F16H48/42	F16H48/42		442
F16H49/00	7	Other gearings	F16H49/00	F16H49/00		450
F16H49/001	8	{Wave gearings, e.g. harmonic drive transmissions}	F16H49/00	F16H49/00		2843
F16H2049/003	9	{Features of the flexsplines therefor}	F16H49/00	F16H49/00		512
F16H49/005	8	{Magnetic gearings with physical contact between gears}	F16H49/00	F16H49/00		349
F16H2049/006	8	{Wave generators producing a non-elliptical shape of flexsplines, i.e. with a qualified different shape than elliptical}	F16H49/00	F16H49/00		84
F16H2049/008	8	{Linear wave gearings, i.e. harmonic type gearing imposing a strain wave to a straight flexible member engaging a second member with different pitch to generate linear motion thereof}	F16H49/00	F16H49/00		40
F16H51/00	7	Levers of gearing mechanisms	F16H51/00	F16H51/00		140
F16H51/02	8	adjustable	F16H51/02	F16H51/02		58
F16H53/00	7	Cams or cam-followers, e.g. rollers for gearing mechanisms	F16H53/00	F16H53/00		242
F16H53/02	8	Single-track cams for single-revolution cycles; Camshafts with such cams	F16H53/02	F16H53/02		313
F16H53/025	9	{characterised by their construction, e.g. assembling or manufacturing features}	F16H53/02	F16H53/02		743
F16H53/04	9	Adjustable cams	F16H53/04	F16H53/04		414
F16H53/06	8	Cam-followers (F16H53/08 takes precedence)	F16H53/06	F16H53/06		608
F16H53/08	8	Multi-track cams, e.g. for cycles consisting of several revolutions; Cam-followers specially adapted for such cams	F16H53/08	F16H53/08		87
F16H55/00	7	Elements with teeth or friction surfaces for conveying motion; Worms, pulleys or sheaves for gearing mechanisms (of screw-and-nut gearing F16H25/00)	F16H55/00	F16H55/00		171
F16H55/02	8	Toothed members; Worms	F16H55/02	F16H55/02		241
F16H55/06	9	Use of materials; Use of treatments of toothed members or worms to affect their intrinsic material properties	F16H55/06	F16H55/06		2428
F16H2055/065	10	{Moulded gears, e.g. inserts therefor}	F16H55/06	F16H55/06		470
F16H55/08	9	Profiling	F16H55/08	F16H55/08		1519
F16H55/0806	10	{Involute profile}	F16H55/08	F16H55/08		420
F16H55/0813	11	{Intersecting-shaft arrangement of the toothed members}	F16H55/08	F16H55/08		72
F16H55/082	11	{Skewed-shaft arrangement of the toothed members, i.e. non-intersecting shafts}	F16H55/08	F16H55/08		24
F16H55/0826	10	{Novikov-Wildhaber profile}	F16H55/08	F16H55/08		129
F16H55/0833	10	{Flexible toothed member, e.g. harmonic drive}	F16H55/08	F16H55/08		252
F16H55/084	10	{Non-circular rigid toothed member, e.g. elliptic gear}	F16H55/08	F16H55/08		113
F16H55/0846	10	{Intersecting-shaft arrangement of the toothed members (F16H55/0813, F16H55/0826, F16H55/0833, F16H55/084 take precedence)}	F16H55/08	F16H55/08		149
F16H55/0853	10	{Skewed-shaft arrangement of the toothed members (F16H55/082, F16H55/0826, F16H55/0833, F16H55/084 take precedence)}	F16H55/08	F16H55/08		94
F16H2055/086	10	{Silent gear profiles}	F16H55/08	F16H55/08		116
F16H2055/0866	10	{Profiles for improving radial engagement of gears, e.g. chamfers on the tips of the teeth}	F16H55/08	F16H55/08		125
F16H55/0873	10	{for improving axial engagement, e.g. a chamfer at the end of the tooth flank}	F16H55/08	F16H55/08		114
F16H55/088	10	{with corrections on tip or foot of the teeth, e.g. addendum relief for better approach contact}	F16H55/08	F16H55/08		184
F16H55/0886	10	{with corrections along the width, e.g. flank width crowning for better load distribution}	F16H55/08	F16H55/08		170
F16H2055/0893	10	{for parallel shaft arrangement of toothed members}	F16H55/08	F16H55/08		314
F16H55/10	9	Constructively simple tooth shapes, e.g. shaped as pins, as balls	F16H55/10	F16H55/10		591
F16H55/12	9	with body or rim assembled out of detachable parts	F16H55/12	F16H55/12		1089
F16H55/14	9	Construction providing resilience or vibration-damping (F16H55/06 takes precedence)	F16H55/14	F16H55/14		1399
F16H55/16	10	relating to teeth only	F16H55/16	F16H55/16		265
F16H55/17	9	Toothed wheels (worm wheels F16H55/22; chain wheels F16H55/30)	F16H55/17	F16H55/17		4620
F16H55/171	10	{Toothed belt pulleys}	F16H55/17	F16H55/17		519
F16H2055/173	10	{Crown gears, i.e. gears have axially arranged teeth}	F16H55/17	F16H55/17		175
F16H2055/175	10	{specially adapted for easy repair, e.g. exchange of worn teeth}	F16H55/17	F16H55/17		112
F16H2055/176	10	{Ring gears with inner teeth}	F16H55/17	F16H55/17		543
F16H2055/178	10	{combined with clutch means, e.g. gear with integrated synchroniser clutch}	F16H55/17	F16H55/17		126
F16H55/18	10	Special devices for taking up backlash {(for gears having orbital motion F16H1/2863)}	F16H55/18	F16H55/18		1168
F16H2055/185	11	{using compound gears with coincident teeth of different material, e.g. laminated construction of metal and elastomeric gear layers, where elastic layer is slightly oversized}	F16H55/18	F16H55/18		60
F16H55/20	11	for bevel gears	F16H55/20	F16H55/20		148
F16H55/22	9	for transmissions with crossing shafts, especially worms, worm-gears	F16H55/22	F16H55/22		1119
F16H55/24	10	Special devices for taking up backlash	F16H55/24	F16H55/24		726
F16H55/26	9	Racks	F16H55/26	F16H55/26		665
F16H55/28	10	Special devices for taking up backlash	F16H55/28	F16H55/28		243
F16H2055/281	11	{Cylindrical or half-cylindrical bushings around the rack, e.g. using special wedges to reduce play}	F16H55/28	F16H55/28		52
F16H55/283	11	{using pressure yokes}	F16H55/28	F16H55/28		774
F16H55/285	12	{with rollers or balls to reduce friction}	F16H55/28	F16H55/28		114
F16H55/286	12	{with asymmetric layout of the yoke}	F16H55/28	F16H55/28		19
F16H55/288	12	{comprising two or more pressure yokes}	F16H55/28	F16H55/28		9
F16H55/30	9	Chain-wheels	F16H55/30	F16H55/30		1897
F16H55/303	10	{for round linked chains, i.e. hoisting chains with identical links}	F16H55/30	F16H55/30		301
F16H2055/306	10	{with means providing resilience or vibration damping in chain sprocket wheels}	F16H55/30	F16H55/30		384
F16H55/32	8	Friction members	F16H55/32	F16H55/32		137
F16H2055/325	9	{characterized by roughness or hardness of friction surface}	F16H55/32	F16H55/32		27
F16H55/34	9	Non-adjustable friction discs	F16H55/34	F16H55/34		183
F16H55/36	9	Pulleys (with features essential for adjustment F16H55/52)	F16H55/36	F16H55/36		3117
F16H2055/363	10	{with special means or properties for lateral tracking of the flexible members running on the pulley, e.g. with crowning to keep a belt on track}	F16H55/36	F16H55/36		143
F16H2055/366	10	{with means providing resilience or vibration damping}	F16H55/36	F16H55/36		1237
F16H55/38	10	Means or measures for increasing adhesion	F16H55/38	F16H55/38		674
F16H55/40	10	with spokes (F16H55/48 takes precedence)	F16H55/40	F16H55/40		167
F16H55/42	10	Laminated pulleys	F16H55/42	F16H55/42		144
F16H55/44	10	Sheet-metal pulleys	F16H55/44	F16H55/44		654
F16H55/46	10	Split pulleys	F16H55/46	F16H55/46		472
F16H55/48	10	manufactured exclusively or in part of non-metallic material, e.g. plastics&#160; (F16H55/38,&#160;F16H55/42,&#160;F16H55/46&#160;take precedence)	F16H55/48	F16H55/48		497
F16H55/49	10	Features essential to V-belts pulleys	F16H55/49	F16H55/49		241
F16H55/50	10	Features essential to rope pulleys	F16H55/50	F16H55/50		864
F16H55/52	9	Pulleys or friction discs of adjustable construction	F16H55/52	F16H55/52		231
F16H55/54	10	of which the bearing parts are radially adjustable	F16H55/54	F16H55/54		738
F16H55/56	10	of which the bearing parts are relatively axially adjustable	F16H55/56	F16H55/56		1506
F16H55/563	11	{actuated by centrifugal masses}	F16H55/56	F16H55/56		371
F16H55/566	11	{only adjustable when pulley is stationary}	F16H55/56	F16H55/56		244
F16H57/00	7	General details of gearing (of screw-and-nut gearing F16H25/00; of fluid gearing F16H39/00 - F16H43/00)	F16H57/00	F16H57/00		964
F16H57/0006	8	{Vibration-damping or noise reducing means specially adapted for gearings (devices for varying tension of belts, ropes or chains with damping means F16H7/0829; toothed members with construction providing vibration damping F16H55/14; reducing vibrations or noise of the gearbox casing F16H57/028; suppression of vibrations or noise of gear selectors F16H59/0208; control of hydrostatic fluid gearing preventing or reducing vibrations or noise F16H61/4183)}	F16H57/00	F16H57/00		2134
F16H2057/0012	9	{for reducing drive line oscillations}	F16H57/00	F16H57/00		217
F16H57/0018	8	{Shaft assemblies for gearings (camshafts with single track cams F16H53/02)}	F16H57/00	F16H57/00		645
F16H57/0025	9	{with gearing elements rigidly connected to a shaft, e.g. securing gears or pulleys by specially adapted splines, keys or methods}	F16H57/00	F16H57/00		1413
F16H57/0031	9	{with gearing elements rotatable supported on the shaft (F16H57/021 takes precedence)}	F16H57/00	F16H57/00		330
F16H57/0037	9	{Special features of coaxial shafts, e.g. relative support thereof}	F16H57/00	F16H57/00		356
F16H2057/0043	8	{Mounting or adjusting transmission parts by robots}	F16H57/00	F16H57/00		29
F16H2057/005	8	{Mounting preassembled units, i.e. using pre-mounted structures to speed up final mounting process}	F16H57/00	F16H57/00		140
F16H2057/0056	8	{Mounting parts arranged in special position or by special sequence, e.g. for keeping particular parts in his position during assembly}	F16H57/00	F16H57/00		387
F16H2057/0062	8	{Tools specially adapted for assembly of transmissions}	F16H57/00	F16H57/00		253
F16H2057/0068	8	{Repairing of transmissions by using repair kits}	F16H57/00	F16H57/00		39
F16H2057/0075	8	{Modifying standard transmissions from manufacturer, e.g. by adding an extension for additional ratios}	F16H57/00	F16H57/00		47
F16H2057/0081	8	{Fixing of, or adapting to transmission failure}	F16H57/00	F16H57/00		91
F16H2057/0087	8	{Computer aided design [CAD] specially adapted for gearing features; Analysis of gear systems}	F16H57/00	F16H57/00		240
F16H2057/0093	8	{Means or measures for transport, shipping or packaging}	F16H57/00	F16H57/00		79
F16H57/01	8	Monitoring wear or stress of gearing elements, e.g. for triggering maintenance	F16H57/01	F16H57/01		700
F16H2057/012	9	{of gearings}	F16H57/01	F16H57/01		350
F16H2057/014	9	{of friction elements in transmissions}	F16H57/01	F16H57/01		144
F16H2057/016	9	{Monitoring of overload conditions}	F16H57/01	F16H57/01		100
F16H2057/018	9	{Detection of mechanical transmission failures}	F16H57/01	F16H57/01		189
F16H57/02	8	Gearboxes; Mounting gearing therein<br><br><u>NOTE</u><br><br> When classifying in this group, in the absence of an indication to the contrary, classification is made in all appropriate subgroups.	F16H57/02	F16H57/02		5574
F16H57/02004	9	{the gears being positioned relative to one another by rolling members or by specially adapted surfaces on the gears, e.g. by a rolling surface with the diameter of the pitch circle}	F16H57/02	F16H57/02		377
F16H2057/02008	9	{characterised by specific dividing lines or planes of the gear case}	F16H57/02	F16H57/02		225
F16H2057/02013	9	{Extension units for gearboxes, e.g. additional units attached to a main gear}	F16H57/02	F16H57/02		360
F16H2057/02017	9	{characterised by special features related to the manufacturing of the gear case, e.g. special adaptations for casting}	F16H57/02	F16H57/02		259
F16H2057/02021	9	{with means for adjusting alignment}	F16H57/02	F16H57/02		131
F16H2057/02026	9	{Connection of auxiliaries with a gear case; Mounting of auxiliaries on the gearbox}	F16H57/02	F16H57/02		462
F16H2057/0203	9	{the gearbox is associated or combined with a crank case of an engine}	F16H57/02	F16H57/02		348
F16H2057/02034	9	{Gearboxes combined or connected with electric machines}	F16H57/02	F16H57/02		2620
F16H2057/02039	9	{Gearboxes for particular applications}	F16H57/02	F16H57/02		541
F16H2057/02043	10	{for vehicle transmissions}	F16H57/02	F16H57/02		2529
F16H2057/02047	11	{Automatic transmissions}	F16H57/02	F16H57/02		904
F16H2057/02052	11	{Axle units; Transfer casings for four wheel drive}	F16H57/02	F16H57/02		704
F16H2057/02056	11	{for utility vehicles, e.g. tractors or agricultural machines}	F16H57/02	F16H57/02		574
F16H2057/0206	11	{for commercial vehicles, e.g. buses or trucks}	F16H57/02	F16H57/02		237
F16H2057/02065	11	{for motorcycles or squads}	F16H57/02	F16H57/02		241
F16H2057/02069	10	{for industrial applications}	F16H57/02	F16H57/02		719
F16H2057/02073	11	{Reduction gearboxes for industry}	F16H57/02	F16H57/02		355
F16H2057/02078	10	{for wind turbines}	F16H57/02	F16H57/02		332
F16H2057/02082	10	{for application in vehicles other than propelling, e.g. adjustment of parts}	F16H57/02	F16H57/02		352
F16H2057/02086	9	{Measures for reducing size of gearbox, e.g. for creating a more compact transmission casing}	F16H57/02	F16H57/02		1844
F16H2057/02091	9	{Measures for reducing weight of gearbox}	F16H57/02	F16H57/02		621
F16H2057/02095	9	{Measures for reducing number of parts or components}	F16H57/02	F16H57/02		379
F16H57/021	9	Shaft support structures, e.g. partition walls, bearing eyes, casing walls or covers with bearings	F16H57/021	F16H57/021		6453
F16H2057/0213	10	{Support of worm gear shafts}	F16H57/021	F16H57/021		1002
F16H2057/0216	10	{Intermediate shaft supports, e.g. by using a partition wall}	F16H57/021	F16H57/021		226
F16H57/022	10	Adjustment of gear shafts or bearings (for compensating misalignment of axes of toothed gearings without orbital motion F16H1/26; for compensating misalignment of axes of planetary gears F16H1/48)	F16H57/022	F16H57/022		895
F16H2057/0221	11	{Axial adjustment}	F16H57/022	F16H57/022		463
F16H2057/0222	11	{Lateral adjustment}	F16H57/022	F16H57/022		244
F16H2057/0224	12	{using eccentric bushes}	F16H57/022	F16H57/022		186
F16H2057/0225	11	{with means for adjusting alignment}	F16H57/022	F16H57/022		89
F16H2057/0227	11	{Assembly method measuring first tolerances or position and selecting mating parts accordingly, e.g. special sized shims for transmission bearings}	F16H57/022	F16H57/022		70
F16H2057/0228	11	{Mounting with rough tolerances and fine adjustment after assembly}	F16H57/022	F16H57/022		55
F16H57/023	9	Mounting or installation of gears or shafts in the gearboxes, e.g. methods or means for assembly	F16H57/023	F16H57/023		9964
F16H2057/0235	10	{specially adapted to allow easy accessibility and repair}	F16H57/023	F16H57/023		680
F16H57/025	9	Support of gearboxes, e.g. torque arms, or attachment to other devices	F16H57/025	F16H57/025		1609
F16H57/027	9	characterised by means for venting gearboxes, e.g. air breathers	F16H57/027	F16H57/027		2023
F16H57/028	9	characterised by means for reducing vibration or noise	F16H57/028	F16H57/028		2354
F16H57/029	9	characterised by means for sealing the gearboxes, e.g. to improve airtightness	F16H57/029	F16H57/029		3458
F16H57/03	9	characterised by means for reinforcing gearboxes, e.g. ribs	F16H57/03	F16H57/03		587
F16H57/031	9	characterised by covers or lids for gearboxes	F16H57/031	F16H57/031		2140
F16H57/032	9	characterised by the materials used	F16H57/032	F16H57/032		603
F16H2057/0325	10	{Moulded casings made from plastic}	F16H57/032	F16H57/032		78
F16H57/033	9	Series gearboxes, e.g. gearboxes based on the same design being available in different sizes or gearboxes using a combination of several standardised units	F16H57/033	F16H57/033		759
F16H2057/0335	10	{Series transmissions of modular design, e.g. providing for different transmission ratios or power ranges}	F16H57/033	F16H57/033		226
F16H57/035	9	Gearboxes for gearing with endless flexible members	F16H57/035	F16H57/035		636
F16H57/037	9	Gearboxes for accommodating differential gearings (rotating cases for differential gearings F16H48/40)	F16H57/037	F16H57/037		1747
F16H57/038	9	Gearboxes for accommodating bevel gears (F16H57/037 takes precedence)	F16H57/038	F16H57/038		904
F16H57/039	9	Gearboxes for accommodating worm gears	F16H57/039	F16H57/039		1501
F16H57/04	8	Features relating to lubrication or cooling {or heating}(control of lubrication or cooling in hydrostatic gearing F16H61/4165)	F16H57/04	F16H57/04		3283
F16H57/0401	9	{using different fluids, e.g. a traction fluid for traction gearing and a lubricant for bearings or reduction gears}	F16H57/04	F16H57/04		95
F16H57/0402	9	{Cleaning of lubricants, e.g. filters or magnets}	F16H57/04	F16H57/04		566
F16H57/0404	10	{Lubricant filters}	F16H57/04	F16H57/04		1697
F16H57/0405	9	{Monitoring quality of lubricant or hydraulic fluids}	F16H57/04	F16H57/04		405
F16H57/0406	9	{Absorption elements for lubricants, e.g. oil felts}	F16H57/04	F16H57/04		198
F16H57/0408	9	{Exchange, draining or filling of transmission lubricant}	F16H57/04	F16H57/04		758
F16H57/0409	9	{characterised by increasing efficiency, e.g. by reducing splash losses}	F16H57/04	F16H57/04		638
F16H57/041	9	{Coatings or solid lubricants, e.g. anti-seize layers or pastes}	F16H57/04	F16H57/04		350
F16H57/0412	9	{Cooling or heating; Control of temperature}	F16H57/04	F16H57/04		1663
F16H57/0413	10	{Controlled cooling or heating of lubricant; Temperature control therefor}	F16H57/04	F16H57/04		1948
F16H57/0415	10	{Air cooling or ventilation; Heat exchangers; Thermal insulations}	F16H57/04	F16H57/04		968
F16H57/0416	11	{Air cooling or ventilation}	F16H57/04	F16H57/04		1232
F16H57/0417	11	{Heat exchangers adapted or integrated in the gearing}	F16H57/04	F16H57/04		1284
F16H57/0419	11	{Thermal insulations}	F16H57/04	F16H57/04		50
F16H57/042	9	{Guidance of lubricant}	F16H57/04	F16H57/04		948
F16H57/0421	10	{on or within the casing, e.g. shields or baffles for collecting lubricant, tubes, pipes, grooves, channels or the like}	F16H57/04	F16H57/04		1438
F16H57/0423	11	{Lubricant guiding means mounted or supported on the casing, e.g. shields or baffles for collecting lubricant, tubes or pipes}	F16H57/04	F16H57/04		1961
F16H57/0424	11	{Lubricant guiding means in the wall of or integrated with the casing, e.g. grooves, channels, holes}	F16H57/04	F16H57/04		1664
F16H57/0426	11	{Means for guiding lubricant into an axial channel of a shaft}	F16H57/04	F16H57/04		548
F16H57/0427	10	{on rotary parts, e.g. using baffles for collecting lubricant by centrifugal force}	F16H57/04	F16H57/04		1164
F16H57/0428	11	{Grooves with pumping effect for supplying lubricants}	F16H57/04	F16H57/04		225
F16H57/043	10	{within rotary parts, e.g. axial channels or radial openings in shafts}	F16H57/04	F16H57/04		2379
F16H57/0431	11	{Means for guiding lubricant directly onto a tooth surface or to foot areas of a gear, e.g. by holes or grooves in a tooth flank}	F16H57/04	F16H57/04		596
F16H57/0432	10	{Lubricant guiding means on or inside shift rods or shift forks}	F16H57/04	F16H57/04		83
F16H57/0434	9	{relating to lubrication supply, e.g. pumps; Pressure control}	F16H57/04	F16H57/04		2506
F16H57/0435	10	{Pressure control for supplying lubricant; Circuits or valves therefor}	F16H57/04	F16H57/04		1533
F16H57/0436	10	{Pumps}	F16H57/04	F16H57/04		1386
F16H57/0438	11	{Pumps of jet type, e.g. jet pumps with means to inject high pressure fluid to the suction area thereby supercharging the pump or means reducing cavitations}	F16H57/04	F16H57/04		66
F16H57/0439	11	{using multiple pumps with different power sources or a single pump with different power sources, e.g. one and the same pump may selectively be driven by either the engine or an electric motor}	F16H57/04	F16H57/04		205
F16H57/0441	10	{Arrangements of pumps}	F16H57/04	F16H57/04		1164
F16H57/0442	10	{for supply in case of failure, i.e. auxiliary supply}	F16H57/04	F16H57/04		167
F16H57/0443	10	{for supply of lubricant during tilt or high acceleration, e.g. problems related to the tilt or extreme acceleration of the transmission casing and the supply of lubricant under these conditions}	F16H57/04	F16H57/04		248
F16H57/0445	10	{for supply of different gearbox casings or sections}	F16H57/04	F16H57/04		339
F16H57/0446	10	{the supply forming part of the transmission control unit, e.g. for automatic transmissions}	F16H57/04	F16H57/04		426
F16H57/0447	9	{Control of lubricant levels, e.g. lubricant level control dependent on temperature}	F16H57/04	F16H57/04		647
F16H57/0449	10	{Sensors or indicators for controlling the fluid level}	F16H57/04	F16H57/04		434
F16H57/045	9	{Lubricant storage reservoirs, e.g. reservoirs in addition to a gear sump for collecting lubricant in the upper part of a gear case}	F16H57/04	F16H57/04		2046
F16H57/0452	10	{Oil pans}	F16H57/04	F16H57/04		483
F16H57/0453	10	{Section walls to divide a gear sump}	F16H57/04	F16H57/04		202
F16H57/0454	10	{Sealings between different partitions of a gearing or to a reservoir (means for sealing gearboxes F16H57/029)}	F16H57/04	F16H57/04		162
F16H57/0456	9	{Lubrication by injection; Injection nozzles or tubes therefor (oil mist or spray lubrication F16H57/0458)}	F16H57/04	F16H57/04		1201
F16H57/0457	9	{Splash lubrication}	F16H57/04	F16H57/04		1375
F16H57/0458	9	{Oil-mist or spray lubrication; Means to reduce foam formation}	F16H57/04	F16H57/04		87
F16H57/046	10	{Oil-mist or spray lubrication}	F16H57/04	F16H57/04		224
F16H57/0461	10	{Means to reduce foam formation}	F16H57/04	F16H57/04		37
F16H57/0463	9	{Grease lubrication; Drop-feed lubrication}	F16H57/04	F16H57/04		152
F16H57/0464	10	{Grease lubrication}	F16H57/04	F16H57/04		433
F16H57/0465	10	{Drop-feed lubrication}	F16H57/04	F16H57/04		134
F16H57/0467	9	{Elements of gearings to be lubricated, cooled or heated}	F16H57/04	F16H57/04		226
F16H57/0468	10	{Shift rods or shift forks}	F16H57/04	F16H57/04		80
F16H57/0469	10	{Bearings or seals}	F16H57/04	F16H57/04		443
F16H57/0471	11	{Bearing}	F16H57/04	F16H57/04		2035
F16H57/0472	11	{Seals}	F16H57/04	F16H57/04		223
F16H57/0473	10	{Friction devices, e.g. clutches or brakes}	F16H57/04	F16H57/04		774
F16H57/0475	10	{Engine and gearing, i.e. joint lubrication or cooling or heating thereof}	F16H57/04	F16H57/04		239
F16H57/0476	10	{Electric machines and gearing, i.e. joint lubrication or cooling or heating thereof}	F16H57/04	F16H57/04		1129
F16H57/0478	10	{Synchromesh devices}	F16H57/04	F16H57/04		186
F16H57/0479	10	{Gears or bearings on planet carriers}	F16H57/04	F16H57/04		1383
F16H57/048	9	{Type of gearings to be lubricated, cooled or heated}	F16H57/04	F16H57/04		89
F16H57/0482	10	{Gearings with gears having orbital motion}	F16H57/04	F16H57/04		1250
F16H57/0483	11	{Axle or inter-axle differentials}	F16H57/04	F16H57/04		1652
F16H57/0484	11	{with variable gear ratio or for reversing rotary motion}	F16H57/04	F16H57/04		301
F16H57/0486	11	{with fixed gear ratio&#160; (axle or inter-axle differentials&#160;F16H57/0483)}	F16H57/04	F16H57/04		802
F16H57/0487	10	{Friction gearings}	F16H57/04	F16H57/04		197
F16H57/0489	11	{with endless flexible members, e.g. belt CVTs}	F16H57/04	F16H57/04		574
F16H57/049	11	{of the toroid type}	F16H57/04	F16H57/04		201
F16H57/0491	11	{of the cone ring type}	F16H57/04	F16H57/04		20
F16H57/0493	10	{Gearings with spur or bevel gears&#160; (axle or inter-axle differentials with spur or bevel gears&#160;F16H57/0483)}	F16H57/04	F16H57/04		745
F16H57/0494	11	{with variable gear ratio or for reversing rotary motion}	F16H57/04	F16H57/04		541
F16H57/0495	11	{with fixed gear ratio}	F16H57/04	F16H57/04		760
F16H57/0497	10	{Screw mechanisms}	F16H57/04	F16H57/04		861
F16H57/0498	10	{Worm gearings}	F16H57/04	F16H57/04		486
F16H57/05	9	of chains	F16H57/05	F16H57/05		689
F16H57/08	8	of gearings with members having orbital motion	F16H57/08	F16H57/08		4170
F16H57/082	9	{Planet carriers}	F16H57/08	F16H57/08		3784
F16H2057/085	9	{Bearings for orbital gears}	F16H57/08	F16H57/08		1323
F16H2057/087	9	{Arrangement and support of friction devices in planetary gearings, e.g. support of clutch drums, stacked arrangements of friction devices}	F16H57/08	F16H57/08		327
F16H57/10	9	Braking arrangements	F16H57/10	F16H57/10		811
F16H57/12	8	Arrangements for adjusting or for taking-up backlash not provided for elsewhere	F16H57/12	F16H57/12		1813
F16H2057/121	9	{using parallel torque paths and means to twist the two path against each other}	F16H57/12	F16H57/12		113
F16H2057/122	10	{by using two independent drive sources, e.g. electric motors}	F16H57/12	F16H57/12		58
F16H2057/123	9	{using electric control means}	F16H57/12	F16H57/12		103
F16H2057/125	9	{Adjustment of backlash during mounting or assembly of gearing}	F16H57/12	F16H57/12		248
F16H2057/126	9	{Self-adjusting during operation, e.g. by a spring}	F16H57/12	F16H57/12		202
F16H2057/127	10	{using springs}	F16H57/12	F16H57/12		476
F16H2057/128	9	{using axial positioning of gear wheel with addendum modification on gear width, i.e. backlash is compensated by axial positioning of a slightly conical gear wheel}	F16H57/12	F16H57/12		38
F16H59/00	7	Control inputs to {control units of} change-speed- or reversing-gearings for conveying rotary motion	F16H59/00	F16H59/00		351
F16H2059/003	8	{Detecting or using driving style of a driver, e.g. for adapting shift schedules}	F16H59/00	F16H59/00		205
F16H2059/006	8	{Overriding automatic control}	F16H59/00	F16H59/00		341
F16H59/02	8	Selector apparatus<br><br><u>NOTE</u><br><br>Selection apparatus of general applicability or of interest apart from its use in control of gearings conveying rotary motion is also classified in subclass G05G	F16H59/02	F16H59/02		2206
F16H59/0204	9	{for automatic transmissions with means for range selection and manual shifting, e.g. range selector with tiptronic}	F16H59/02	F16H59/02		1211
F16H59/0208	9	{with means for suppression of vibrations or reduction of noise}	F16H59/02	F16H59/02		920
F16H59/0213	9	{with sealing means, e.g. against entry of dust}	F16H59/02	F16H59/02		520
F16H59/0217	9	{with electric switches or sensors not for gear or range selection, e.g. for controlling auxiliary devices}	F16H59/02	F16H59/02		715
F16H2059/0221	9	{for selecting modes, e.g. sport, normal, economy}	F16H59/02	F16H59/02		323
F16H2059/0226	10	{for selecting particular shift speeds, e.g. a fast shift speed with aggressive gear change}	F16H59/02	F16H59/02		37
F16H2059/023	9	{Selectors for gearings using voice control}	F16H59/02	F16H59/02		16
F16H2059/0234	9	{Selectors for gearings using foot control}	F16H59/02	F16H59/02		141
F16H2059/0239	9	{Up- and down-shift or range or mode selection by repeated movement}	F16H59/02	F16H59/02		541
F16H2059/0243	10	{with push buttons, e.g. shift buttons arranged on steering wheel}	F16H59/02	F16H59/02		164
F16H2059/0247	10	{with lever or paddle behind steering wheel}	F16H59/02	F16H59/02		191
F16H2059/0252	9	{with means for initiating skip or double gear shifts, e.g. by moving selection lever beyond a threshold}	F16H59/02	F16H59/02		52
F16H2059/0256	9	{Levers for forward-reverse selection only, e.g. for working machines having a separate lever for switching between forward and reverse mode}	F16H59/02	F16H59/02		80
F16H2059/026	9	{Details or special features of the selector casing or lever support}	F16H59/02	F16H59/02		1065
F16H2059/0265	10	{Selector lever support with pivot axis offset, e.g. support by four bar linkage to create pivoting centre outside the mechanism}	F16H59/02	F16H59/02		68
F16H2059/0269	10	{Ball joints or spherical bearings for supporting the lever}	F16H59/02	F16H59/02		481
F16H2059/0273	10	{Cardan or gimbal type joints for supporting the lever}	F16H59/02	F16H59/02		98
F16H59/0278	9	{Constructional features of the selector lever, e.g. grip parts, mounting or manufacturing}	F16H59/02	F16H59/02		2782
F16H2059/0282	10	{Lever handles with lock mechanisms, e.g. for allowing selection of reverse gear or releasing lever from park position}	F16H59/02	F16H59/02		538
F16H2059/0286	10	{with range or splitter selector on selector lever}	F16H59/02	F16H59/02		104
F16H2059/0291	9	{comprising safety means for preventing injuries in case of accidents}	F16H59/02	F16H59/02		118
F16H2059/0295	9	{with mechanisms to return lever to neutral or datum position, e.g. by return springs}	F16H59/02	F16H59/02		498
F16H59/04	9	Ratio selector apparatus	F16H59/04	F16H59/04		1002
F16H59/041	10	{consisting of a final output mechanism, e.g. ratio selector being directly linked to a shift fork}	F16H59/04	F16H59/04		185
F16H59/042	10	{comprising a final actuating mechanism}	F16H59/04	F16H59/04		774
F16H59/044	10	{consisting of electrical switches or sensors}	F16H59/04	F16H59/04		980
F16H59/045	10	{consisting of fluid valves}	F16H59/04	F16H59/04		254
F16H2059/047	10	{with essentially straight linear movement for gear selection, e.g. straight selection movement using detent mechanism for improving feeling}	F16H59/04	F16H59/04		126
F16H2059/048	10	{with means for unlocking select or shift movement to allow access to reverse gear position}	F16H59/04	F16H59/04		140
F16H59/06	10	the ratio being infinitely variable	F16H59/06	F16H59/06		209
F16H2059/065	11	{Inching pedals for setting the ratio of a hydrostatic transmission}	F16H59/06	F16H59/06		26
F16H59/08	9	Range selector apparatus	F16H59/08	F16H59/08		1043
F16H2059/081	10	{using knops or discs for rotary range selection}	F16H59/08	F16H59/08		530
F16H2059/082	10	{for different transmission modes}	F16H59/08	F16H59/08		226
F16H2059/083	11	{Overdrive or overdrive cut-off}	F16H59/08	F16H59/08		58
F16H2059/084	11	{Economy mode}	F16H59/08	F16H59/08		147
F16H2059/085	11	{Power mode}	F16H59/08	F16H59/08		166
F16H2059/086	11	{Adaptive mode, e.g. learning from the driver}	F16H59/08	F16H59/08		78
F16H2059/087	11	{Winter mode, e.g. to start on snow or slippery surfaces}	F16H59/08	F16H59/08		39
F16H2059/088	11	{Fast forward-reverse-sequence, e.g. rocking mode}	F16H59/08	F16H59/08		208
F16H59/10	10	comprising levers	F16H59/10	F16H59/10		1971
F16H59/105	11	{consisting of electrical switches or sensors}	F16H59/10	F16H59/10		1768
F16H59/12	10	comprising push button devices	F16H59/12	F16H59/12		565
F16H59/14	8	Inputs being a function of torque or torque demand	F16H59/14	F16H59/14		1004
F16H59/141	9	{of rate of change of torque or torque demand}	F16H59/14	F16H59/14		251
F16H2059/142	9	{of driving resistance calculated from weight, slope, or the like}	F16H59/14	F16H59/14		216
F16H2059/144	9	{characterised by change between positive and negative drive line torque, e.g. torque changes when switching between coasting and acceleration}	F16H59/14	F16H59/14		100
F16H2059/145	9	{being a function of power demand of auxiliary devices}	F16H59/14	F16H59/14		32
F16H2059/147	9	{Transmission input torque, e.g. measured or estimated engine torque}	F16H59/14	F16H59/14		437
F16H2059/148	9	{Transmission output torque, e.g. measured or estimated torque at output drive shaft}	F16H59/14	F16H59/14		203
F16H59/16	9	Dynamometric measurement of torque	F16H59/16	F16H59/16		332
F16H59/18	9	dependent on the position of the accelerator pedal	F16H59/18	F16H59/18		1253
F16H2059/183	10	{Rate of change of accelerator position, i.e. pedal or throttle change gradient}	F16H59/18	F16H59/18		320
F16H2059/186	10	{Coasting}	F16H59/18	F16H59/18		321
F16H59/20	10	Kickdown	F16H59/20	F16H59/20		453
F16H59/22	10	Idle position	F16H59/22	F16H59/22		219
F16H59/24	9	dependent on the throttle opening	F16H59/24	F16H59/24		1162
F16H59/26	9	dependent on pressure	F16H59/26	F16H59/26		46
F16H59/28	10	Gasifier pressure in gas turbines	F16H59/28	F16H59/28		14
F16H59/30	10	Intake manifold vacuum	F16H59/30	F16H59/30		92
F16H59/32	10	Supercharger pressure in internal combustion engines	F16H59/32	F16H59/32		43
F16H59/34	9	dependent on fuel feed	F16H59/34	F16H59/34		44
F16H59/36	8	Inputs being a function of speed	F16H59/36	F16H59/36		885
F16H2059/363	9	{Rate of change of input shaft speed, e.g. of engine or motor shaft}	F16H59/36	F16H59/36		122
F16H2059/366	9	{Engine or motor speed}	F16H59/36	F16H59/36		1065
F16H59/38	9	of gearing elements	F16H59/38	F16H59/38		413
F16H2059/385	10	{Turbine speed}	F16H59/38	F16H59/38		618
F16H59/40	10	Output shaft speed	F16H59/40	F16H59/40		871
F16H2059/405	10	{Rate of change of output shaft speed or vehicle speed}	F16H59/40	F16H59/40		162
F16H59/42	10	Input shaft speed	F16H59/42	F16H59/42		820
F16H2059/425	11	{Rate of change of input or turbine shaft speed}	F16H59/42	F16H59/42		215
F16H59/44	9	dependent on machine speed {, e.g. the vehicle speed}(F16H59/46 takes precedence)	F16H59/44	F16H59/44		2204
F16H2059/443	10	{Detecting travel direction, e.g. the forward or reverse movement of the vehicle}	F16H59/44	F16H59/44		110
F16H2059/446	10	{Detecting vehicle stop, i.e. the vehicle is at stand still, e.g. for engaging parking lock}	F16H59/44	F16H59/44		121
F16H59/46	9	dependent on a comparison between speeds	F16H59/46	F16H59/46		729
F16H2059/462	10	{Detecting synchronisation, i.e. speed difference is approaching zero}	F16H59/46	F16H59/46		125
F16H2059/465	10	{Detecting slip, e.g. clutch slip ratio}	F16H59/46	F16H59/46		197
F16H2059/467	11	{of torque converter}	F16H59/46	F16H59/46		349
F16H59/48	8	Inputs being a function of acceleration	F16H59/48	F16H59/48		743
F16H59/50	8	Inputs being a function of the status of the machine, e.g. position of doors or safety belts	F16H59/50	F16H59/50		424
F16H2059/503	9	{Axle-load distribution}	F16H59/50	F16H59/50		10
F16H2059/506	9	{Wheel slip}	F16H59/50	F16H59/50		219
F16H59/52	9	dependent on the weight of the machine, e.g. change in weight resulting from passengers boarding a bus	F16H59/52	F16H59/52		304
F16H2059/525	10	{the machine undergoing additional towing load, e.g. by towing a trailer}	F16H59/52	F16H59/52		32
F16H59/54	9	dependent on signals from the brakes, e.g. parking brakes	F16H59/54	F16H59/54		1159
F16H59/56	9	dependent on signals from the main clutch	F16H59/56	F16H59/56		376
F16H59/58	9	dependent on signals from the steering	F16H59/58	F16H59/58		173
F16H59/60	8	Inputs being a function of ambient conditions	F16H59/60	F16H59/60		153
F16H2059/605	9	{Traffic stagnation information, e.g. traffic jams}	F16H59/60	F16H59/60		43
F16H59/62	9	Atmospheric pressure	F16H59/62	F16H59/62		83
F16H59/64	9	Atmospheric temperature	F16H59/64	F16H59/64		81
F16H59/66	9	Road conditions, e.g. slope, slippery	F16H59/66	F16H59/66		994
F16H2059/663	10	{Road slope}	F16H59/66	F16H59/66		819
F16H2059/666	10	{Determining road conditions by using vehicle location or position, e.g. from global navigation systems [GPS]}	F16H59/66	F16H59/66		264
F16H59/68	8	Inputs being a function of gearing status	F16H59/68	F16H59/68		878
F16H2059/6807	9	{Status of gear-change operation, e.g. clutch fully engaged}	F16H59/68	F16H59/68		786
F16H2059/6815	9	{Post shift value of gearing, i.e. calculated or estimated parameters after shift is completed, e.g. estimated output torque after shift is performed}	F16H59/68	F16H59/68		43
F16H2059/6823	9	{Sensing neutral state of the transmission}	F16H59/68	F16H59/68		363
F16H2059/683	9	{Sensing pressure in control systems or in fluid-controlled devices, e.g. by pressure sensors}	F16H59/68	F16H59/68		323
F16H2059/6838	9	{Sensing gearing status of hydrostatic transmissions}	F16H59/68	F16H59/68		35
F16H2059/6846	10	{the flow in hydrostatic transmissions circuits, e.g. high, low or differential pressures}	F16H59/68	F16H59/68		42
F16H2059/6853	10	{the state of the transmission units, i.e. motor or pump capacity, e.g. for controlled shifting of range gear}	F16H59/68	F16H59/68		93
F16H2059/6861	10	{the pressures, e.g. high, low or differential pressures}	F16H59/68	F16H59/68		249
F16H2059/6869	10	{the pump speed}	F16H59/68	F16H59/68		26
F16H2059/6876	10	{the motor speed}	F16H59/68	F16H59/68		73
F16H2059/6884	10	{Sensing or calculating the pump torque}	F16H59/68	F16H59/68		10
F16H2059/6892	10	{Sensing or calculating the motor torque}	F16H59/68	F16H59/68		15
F16H59/70	9	dependent on the ratio established	F16H59/70	F16H59/70		1306
F16H2059/702	10	{Rate of change of gear ratio, e.g. for triggering clutch engagement}	F16H59/70	F16H59/70		29
F16H2059/704	10	{Monitoring gear ratio in CVT&apos;s}	F16H59/70	F16H59/70		104
F16H2059/706	10	{Monitoring gear ratio in stepped transmissions, e.g. by calculating the ratio from input and output speed}	F16H59/70	F16H59/70		159
F16H2059/708	10	{Sensing reverse gear, e.g. by a reverse gear switch}	F16H59/70	F16H59/70		63
F16H59/72	9	dependent on oil characteristics, e.g. temperature, viscosity	F16H59/72	F16H59/72		1332
F16H2059/725	10	{Sensing or calculating temperature of oil in friction devices, e.g. wet clutches, to prevent overheating of friction linings}	F16H59/72	F16H59/72		165
F16H59/74	8	Inputs being a function of engine parameters (F16H59/14 takes precedence)	F16H59/74	F16H59/74		381
F16H2059/743	9	{using engine performance or power for control of gearing}	F16H59/74	F16H59/74		128
F16H2059/746	9	{Engine running state, e.g. on-off of ignition switch}	F16H59/74	F16H59/74		286
F16H59/76	9	Number of cylinders operating	F16H59/76	F16H59/76		23
F16H59/78	9	Temperature	F16H59/78	F16H59/78		268
F16H61/00	7	Control functions within {control units of} change-speed- or reversing-gearings for conveying rotary motion {; Control of exclusively fluid gearing, friction gearing, gearings with endless flexible members or other particular types of gearing}	F16H61/00	F16H61/00		1355
F16H61/0003	8	{Arrangement or mounting of elements of the control apparatus, e.g. valve assemblies or snapfittings of valves; Arrangements of the control unit on or in the transmission gearbox}	F16H61/00	F16H61/00		382
F16H61/0006	9	{Electronic control units for transmission control, e.g. connectors, casings or circuit boards}	F16H61/00	F16H61/00		572
F16H61/0009	9	{Hydraulic control units for transmission control, e.g. assembly of valve plates or valve units}	F16H61/00	F16H61/00		1344
F16H2061/0012	8	{Transmission control for optimising power output of driveline}	F16H61/00	F16H61/00		164
F16H2061/0015	8	{Transmission control for optimising fuel consumptions}	F16H61/00	F16H61/00		522
F16H2061/0018	8	{Transmission control for optimising exhaust emissions}	F16H61/00	F16H61/00		76
F16H61/0021	8	{Generation or control of line pressure}	F16H61/00	F16H61/00		1774
F16H61/0025	9	{Supply of control fluid; Pumps therefor}	F16H61/00	F16H61/00		1169
F16H61/0028	10	{using a single pump driven by different power sources}	F16H61/00	F16H61/00		135
F16H61/0031	10	{using auxiliary pumps, e.g. pump driven by a different power source than the engine}	F16H61/00	F16H61/00		936
F16H2061/0034	10	{Accumulators for fluid pressure supply; Control thereof}	F16H61/00	F16H61/00		418
F16H2061/0037	9	{characterised by controlled fluid supply to lubrication circuits of the gearing}	F16H61/00	F16H61/00		699
F16H2061/004	8	{Venting trapped air from hydraulic systems}	F16H61/00	F16H61/00		129
F16H2061/0043	8	{Cleaning of hydraulic parts, e.g. removal of an orifice clogging}	F16H61/00	F16H61/00		45
F16H2061/0046	8	{Details of fluid supply channels, e.g. within shafts, for supplying friction devices or transmission actuators with control fluid}	F16H61/00	F16H61/00		228
F16H2061/005	8	{Supply of electric power, e.g. batteries for back up supply}	F16H61/00	F16H61/00		52
F16H2061/0053	8	{Initializing the parameters of the controller}	F16H61/00	F16H61/00		108
F16H2061/0056	8	{Powering down of the controller}	F16H61/00	F16H61/00		9
F16H61/0059	8	{Braking of gear output shaft using simultaneous engagement of engaging means, e.g. clutches or brakes, applied for different gear ratios}	F16H61/00	F16H61/00		298
F16H2061/0062	8	{Modifying an existing transmission control from a manufacturer for improvement or adaptation, e.g. by replacing a valve or an electric part}	F16H61/00	F16H61/00		67
F16H2061/0065	8	{Modifying or tuning an existing transmission control for racing, e.g. adaptation of valves for very fast shifting}	F16H61/00	F16H61/00		26
F16H2061/0068	8	{Method or means for testing of transmission controls or parts thereof}	F16H61/00	F16H61/00		191
F16H2061/0071	9	{Robots or simulators for testing control functions in automatic transmission}	F16H61/00	F16H61/00		44
F16H2061/0075	8	{characterised by a particular control method}	F16H61/00	F16H61/00		250
F16H2061/0078	9	{Linear control, e.g. PID, state feedback or Kalman}	F16H61/00	F16H61/00		276
F16H2061/0081	9	{Fuzzy logic}	F16H61/00	F16H61/00		172
F16H2061/0084	9	{Neural networks}	F16H61/00	F16H61/00		71
F16H2061/0087	9	{Adaptive control, e.g. the control parameters adapted by learning}	F16H61/00	F16H61/00		1047
F16H2061/009	9	{using formulas or mathematic relations for calculating parameters}	F16H61/00	F16H61/00		234
F16H2061/0093	9	{using models to estimate the state of the controlled object}	F16H61/00	F16H61/00		106
F16H2061/0096	9	{using a parameter map}	F16H61/00	F16H61/00		460
F16H61/02	8	characterised by the signals used<br><br><u>NOTE</u><br><br> Control units where gearshift is controlled by an electric circuit, are classified in F16H61/0202<br> Control units where gearshift is controlled by hydraulic signals and a subfunction, e.g. kickdown, is controlled by an electric circuit, are classified in F16H61/0262 with indexing of the electric features 	F16H61/02	F16H61/02		1558
F16H61/0202	9	{the signals being electric}	F16H61/02	F16H61/02		726
F16H61/0204	10	{for gearshift control, e.g. control functions for performing shifting or generation of shift signal}	F16H61/02	F16H61/02		1884
F16H61/0206	11	{Layout of electro-hydraulic control circuits, e.g. arrangement of valves}	F16H61/02	F16H61/02		1462
F16H2061/0209	12	{with independent solenoid valves modulating the pressure individually for each clutch or brake}	F16H61/02	F16H61/02		185
F16H61/0211	12	{characterised by low integration or small number of valves}	F16H61/02	F16H61/02		246
F16H61/0213	11	{characterised by the method for generating shift signals}	F16H61/02	F16H61/02		3492
F16H2061/0216	12	{Calculation or estimation of post shift values for different gear ratios, e.g. by using engine performance tables}	F16H61/02	F16H61/02		274
F16H2061/0218	12	{Calculation or estimation of the available ratio range, i.e. possible gear ratios, e.g. for prompting a driver with a display}	F16H61/02	F16H61/02		88
F16H2061/022	12	{Calculation or estimation of optimal gear ratio, e.g. best ratio for economy drive or performance according driver preference, or to optimise exhaust emissions}	F16H61/02	F16H61/02		304
F16H2061/0223	12	{Generating of new shift maps, i.e. methods for determining shift points for a schedule by taking into account driveline and vehicle conditions}	F16H61/02	F16H61/02		173
F16H2061/0225	12	{Modifying of shift maps by manual control, e.g. by learning values from the driver during manual shift mode}	F16H61/02	F16H61/02		59
F16H2061/0227	12	{Shift map selection, i.e. methods for controlling selection between different shift maps, e.g. to initiate switch to a map for up-hill driving}	F16H61/02	F16H61/02		348
F16H2061/023	12	{Drive-off gear selection, i.e. optimising gear ratio for drive off of a vehicle}	F16H61/02	F16H61/02		153
F16H2061/0232	12	{Selecting ratios for bringing engine into a particular state, e.g. for fast warming up or for reducing exhaust emissions}	F16H61/02	F16H61/02		130
F16H2061/0234	12	{Adapting the ratios to special vehicle conditions}	F16H61/02	F16H61/02		310
F16H2061/0237	13	{Selecting ratios for providing engine braking}	F16H61/02	F16H61/02		109
F16H2061/0239	13	{Selecting ratios for preventing or cancelling wheel slip}	F16H61/02	F16H61/02		46
F16H2061/0241	12	{Adapting the ratio to special transmission conditions, e.g. shifts during warming up phase of transmission when fluid viscosity is high}	F16H61/02	F16H61/02		69
F16H2061/0244	12	{Adapting the automatic ratio to direct driver requests, e.g. manual shift signals or kick down}	F16H61/02	F16H61/02		166
F16H61/0246	11	{characterised by initiating reverse gearshift}	F16H61/02	F16H61/02		287
F16H61/0248	10	{Control units where shifting is directly initiated by the driver, e.g. semi-automatic transmissions}	F16H61/02	F16H61/02		371
F16H61/0251	10	{Elements specially adapted for electric control units, e.g. valves for converting electrical signals to fluid signals}	F16H61/02	F16H61/02		821
F16H2061/0253	11	{Details of electro hydraulic valves, e.g. lands, ports, spools or springs}	F16H61/02	F16H61/02		343
F16H2061/0255	11	{Solenoid valve using PWM or duty-cycle control}	F16H61/02	F16H61/02		337
F16H2061/0258	11	{Proportional solenoid valve}	F16H61/02	F16H61/02		229
F16H2061/026	11	{On-off solenoid valve}	F16H61/02	F16H61/02		388
F16H61/0262	9	{the signals being hydraulic}	F16H61/02	F16H61/02		1188
F16H61/0265	10	{for gearshift control, e.g. control functions for performing shifting or generation of shift signals}	F16H61/02	F16H61/02		299
F16H61/0267	11	{Layout of hydraulic control circuits, e.g. arrangement of valves}	F16H61/02	F16H61/02		618
F16H61/0269	12	{characterised by low integration or small number of valves}	F16H61/02	F16H61/02		359
F16H61/0272	11	{characterised by initiating reverse gearshift}	F16H61/02	F16H61/02		117
F16H61/0274	10	{Control units where shifting is directly initiated by the driver, e.g. semi-automatic transmissions}	F16H61/02	F16H61/02		388
F16H61/0276	10	{Elements specially adapted for hydraulic control units, e.g. valves}	F16H61/02	F16H61/02		526
F16H2061/0279	11	{Details of hydraulic valves, e.g. lands, ports, spools or springs}	F16H61/02	F16H61/02		282
F16H2061/0281	11	{Rotary shift valves, e.g. with a rotary moveable spool for supply of fluid to different channels}	F16H61/02	F16H61/02		50
F16H61/0283	11	{Governor valves}	F16H61/02	F16H61/02		111
F16H61/0286	11	{Manual valves}	F16H61/02	F16H61/02		154
F16H2061/0288	11	{Relay valve, e.g. valve arranged between shift valve and servo}	F16H61/02	F16H61/02		69
F16H61/029	11	{Throttle valves}	F16H61/02	F16H61/02		157
F16H61/0293	9	{the signals being purely mechanical}	F16H61/02	F16H61/02		1670
F16H61/0295	10	{Automatic gear shift control, e.g. initiating shift by centrifugal forces}	F16H61/02	F16H61/02		257
F16H61/0297	10	{Gear shift control where shifting is directly initiated by the driver, e.g. semi-automatic transmissions}	F16H61/02	F16H61/02		16
F16H61/04	8	Smoothing ratio shift	F16H61/04	F16H61/04		2416
F16H61/0403	9	{Synchronisation before shifting}	F16H61/04	F16H61/04		1659
F16H2061/0407	10	{by control of clutch in parallel torque path}	F16H61/04	F16H61/04		250
F16H2061/0411	10	{by control of shaft brakes}	F16H61/04	F16H61/04		216
F16H2061/0414	10	{by retarder control}	F16H61/04	F16H61/04		30
F16H2061/0418	10	{by using different synchronisation devices simultaneously, e.g. for faster synchronisation}	F16H61/04	F16H61/04		65
F16H2061/0422	10	{by an electric machine, e.g. by accelerating or braking the input shaft}	F16H61/04	F16H61/04		505
F16H2061/0425	9	{Bridging torque interruption}	F16H61/04	F16H61/04		164
F16H2061/0429	10	{by torque supply with a clutch in parallel torque path}	F16H61/04	F16H61/04		139
F16H2061/0433	10	{by torque supply with an electric motor}	F16H61/04	F16H61/04		210
F16H61/0437	9	{by using electrical signals (F16H61/0403 and F16H61/061 take precedence)}	F16H61/04	F16H61/04		1421
F16H2061/044	9	{when a freewheel device is disengaged or bridged}	F16H61/04	F16H61/04		105
F16H2061/0444	9	{during fast shifting over two gearsteps, e.g. jumping from fourth to second gear}	F16H61/04	F16H61/04		313
F16H2061/0448	10	{using a particular sequence of gear ratios or friction members}	F16H61/04	F16H61/04		81
F16H2061/0451	9	{during swap-shifts, i.e. gear shifts between different planetary units, e.g. with double transitions shift involving three or more friction members}	F16H61/04	F16H61/04		106
F16H2061/0455	9	{during shifts involving three or more shift members, e.g. release of 3-4 clutch, 2-4 brake and apply of forward clutch C1}	F16H61/04	F16H61/04		82
F16H2061/0459	9	{using map for shift parameters, e.g. shift time, slip or pressure gradient, for performing controlled shift transition and adapting shift parameters by learning}	F16H61/04	F16H61/04		282
F16H2061/0462	9	{by controlling slip rate during gear shift transition}	F16H61/04	F16H61/04		124
F16H2061/0466	9	{Smoothing shift shock by apply or release of band brake servos, e.g. overlap control of band brake and a clutch or vice versa}	F16H61/04	F16H61/04		65
F16H2061/047	9	{by preventing or solving a tooth butt situation upon engagement failure due to misalignment of teeth}	F16H61/04	F16H61/04		262
F16H2061/0474	9	{by smoothing engagement or release of positive clutches; Methods or means for shock free engagement of dog clutches}	F16H61/04	F16H61/04		425
F16H2061/0477	9	{by suppression of excessive engine flare or turbine racing during shift transition}	F16H61/04	F16H61/04		150
F16H2061/0481	9	{during range shift from drive (D) or reverse (R) to neutral (N)}	F16H61/04	F16H61/04		128
F16H2061/0485	9	{during range shift from neutral (N) to reverse (R)}	F16H61/04	F16H61/04		183
F16H2061/0488	9	{during range shift from neutral (N) to drive (D)}	F16H61/04	F16H61/04		315
F16H2061/0492	9	{for high engine torque, e.g. during acceleration or uphill driving}	F16H61/04	F16H61/04		94
F16H2061/0496	9	{for low engine torque, e.g. during coasting, sailing or engine braking}	F16H61/04	F16H61/04		127
F16H61/06	9	by controlling rate of change of fluid pressure	F16H61/06	F16H61/06		309
F16H61/061	10	{using electric control means}	F16H61/06	F16H61/06		1635
F16H2061/062	11	{for controlling filling of clutches or brake servos, e.g. fill time, fill level or pressure during filling}	F16H61/06	F16H61/06		375
F16H2061/064	11	{for calibration of pressure levels for friction members, e.g. by monitoring the speed change of transmission shafts}	F16H61/06	F16H61/06		208
F16H61/065	10	{using fluid control means}	F16H61/06	F16H61/06		430
F16H61/067	11	{using an accumulator}	F16H61/06	F16H61/06		341
F16H61/068	11	{using an orifice control valve (F16H61/067 takes precedence)}	F16H61/06	F16H61/06		184
F16H61/08	9	Timing control	F16H61/08	F16H61/08		821
F16H2061/085	10	{Timing of auxiliary gear shifts}	F16H61/08	F16H61/08		27
F16H61/10	8	Controlling shift hysteresis	F16H61/10	F16H61/10		340
F16H61/12	8	Detecting malfunction or potential malfunction, e.g. fail safe (in control of hydrostatic gearing F16H61/4192){; Circumventing or fixing failures}	F16H61/12	F16H61/12		3690
F16H2061/1204	9	{for malfunction caused by simultaneous engagement of different ratios resulting in transmission lock state or tie-up condition}	F16H61/12	F16H61/12		209
F16H2061/1208	9	{with diagnostic check cycles; Monitoring of failures}	F16H61/12	F16H61/12		1200
F16H2061/1212	10	{Plausibility checks; Counting means for repeated failures}	F16H61/12	F16H61/12		127
F16H2061/1216	10	{Display or indication of detected failures}	F16H61/12	F16H61/12		450
F16H2061/122	9	{Avoiding failures by using redundant parts}	F16H61/12	F16H61/12		357
F16H2061/1224	9	{Adapting to failures or work around with other constraints, e.g. circumvention by avoiding use of failed parts}	F16H61/12	F16H61/12		485
F16H2061/1228	9	{Fixing failures by repairing failed parts, e.g. loosening a sticking valve}	F16H61/12	F16H61/12		55
F16H2061/1232	9	{Bringing the control into a predefined state, e.g. giving priority to particular actuators or gear ratios}	F16H61/12	F16H61/12		609
F16H2061/1236	10	{using fail priority valves}	F16H61/12	F16H61/12		67
F16H2061/124	9	{Limiting the input power, torque or speed}	F16H61/12	F16H61/12		196
F16H2061/1244	9	{Keeping the current state}	F16H61/12	F16H61/12		171
F16H2061/1248	9	{Resuming normal operation}	F16H61/12	F16H61/12		58
F16H2061/1252	9	{Fail safe valves}	F16H61/12	F16H61/12		64
F16H2061/1256	9	{characterised by the parts or units where malfunctioning was assumed or detected}	F16H61/12	F16H61/12		104
F16H2061/126	10	{the failing part is the controller}	F16H61/12	F16H61/12		118
F16H2061/1264	11	{Hydraulic parts of the controller, e.g. a sticking valve or clogged channel}	F16H61/12	F16H61/12		360
F16H2061/1268	11	{Electric parts of the controller, e.g. a defect solenoid, wiring or microprocessor}	F16H61/12	F16H61/12		488
F16H2061/1272	10	{the failing part is a part of the final output mechanism, e.g. shift rods or forks}	F16H61/12	F16H61/12		119
F16H2061/1276	10	{the failing part is a friction device, e.g. clutches or brakes}	F16H61/12	F16H61/12		233
F16H2061/128	11	{the main clutch}	F16H61/12	F16H61/12		82
F16H2061/1284	10	{the failing part is a sensor}	F16H61/12	F16H61/12		490
F16H2061/1288	10	{the failing part is an actuator}	F16H61/12	F16H61/12		188
F16H2061/1292	10	{the failing part is the power supply, e.g. the electric power supply}	F16H61/12	F16H61/12		195
F16H2061/1296	10	{the failing part is an electric machine forming part of the transmission}	F16H61/12	F16H61/12		26
F16H61/14	8	Control of torque converter lock-up clutches	F16H61/14	F16H61/14		921
F16H61/141	9	{using means only actuated by centrifugal force}	F16H61/14	F16H61/14		38
F16H61/142	10	{the means being hydraulic valves}	F16H61/14	F16H61/14		60
F16H61/143	9	{using electric control means}	F16H61/14	F16H61/14		1641
F16H2061/145	10	{for controlling slip, e.g. approaching target slip value}	F16H61/14	F16H61/14		420
F16H2061/146	10	{for smoothing gear shift shock}	F16H61/14	F16H61/14		136
F16H2061/147	10	{during engine braking, e.g. to attenuate gear clunk when torque direction is changed}	F16H61/14	F16H61/14		34
F16H61/148	9	{using mechanical control means}	F16H61/14	F16H61/14		40
F16H61/16	8	Inhibiting&#160; {or initiating} &#160;shift during unfavourable conditions&#160; {, e.g. preventing forward-reverse shift at high vehicle speed, preventing engine overspeed} &#160; (F16H61/18 takes precedence)	F16H61/16	F16H61/16		1636
F16H2061/161	9	{by checking feasibility of shifts, i.e. determine if requested shift can be successfully completed and post shift values are in an acceptable range}	F16H61/16	F16H61/16		247
F16H2061/163	9	{Holding the gear for delaying gear shifts under unfavorable conditions, e.g. during cornering}	F16H61/16	F16H61/16		246
F16H2061/165	9	{Preventing reverse gear shifts if vehicle speed is too high for safe shifting}	F16H61/16	F16H61/16		105
F16H2061/166	9	{Preventing or initiating shifts for preventing stall or overspeed of engine}	F16H61/16	F16H61/16		166
F16H2061/168	9	{Forced shifts into neutral for safety reasons, e.g. in case of transmission failure or emergency braking}	F16H61/16	F16H61/16		166
F16H61/18	8	Preventing unintentional or unsafe shift {, e.g. preventing manual shift from highest gear to reverse gear}	F16H61/18	F16H61/18		1537
F16H2061/185	9	{Means, e.g. catches or interlocks, for preventing unintended shift into reverse gear}	F16H61/18	F16H61/18		382
F16H61/20	8	Preventing gear creeping {; Transmission control during standstill, e.g. hill hold control}	F16H61/20	F16H61/20		580
F16H2061/202	9	{Active creep control for slow driving, e.g. by controlling clutch slip}	F16H61/20	F16H61/20		57
F16H2061/205	9	{Hill hold control, e.g. with torque converter or a friction device slightly engaged to keep vehicle stationary}	F16H61/20	F16H61/20		180
F16H2061/207	9	{by neutral control}	F16H61/20	F16H61/20		203
F16H61/21	8	Providing engine brake control	F16H61/21	F16H61/21		726
F16H2061/213	9	{for emergency braking, e.g. for increasing brake power in emergency situations}	F16H61/21	F16H61/21		30
F16H2061/216	9	{by using exhaust brakes}	F16H61/21	F16H61/21		13
F16H61/22	8	Locking {of the control input devices}(constructional features of locking or disabling mechanisms F16H63/34)	F16H61/22	F16H61/22		1185
F16H2061/223	9	{Electrical gear shift lock, e.g. locking of lever in park or neutral position by electric means if brake is not applied; Key interlock, i.e. locking the key if lever is not in park position}	F16H61/22	F16H61/22		416
F16H2061/226	9	{Manual distress release of the locking means for shift levers, e.g. to allow towing of vehicle in case of breakdown}	F16H61/22	F16H61/22		65
F16H61/24	8	Providing feel, e.g. to enable selection	F16H61/24	F16H61/24		1442
F16H2061/241	9	{Actuators providing feel or simulating a shift gate, i.e. with active force generation for providing counter forces for feed back}	F16H61/24	F16H61/24		199
F16H2061/242	9	{Mechanical shift gates or similar guiding means during selection and shifting}	F16H61/24	F16H61/24		334
F16H2061/243	9	{Cams or detent arrays for guiding and providing feel}	F16H61/24	F16H61/24		252
F16H2061/245	9	{Ramp contours for generating force threshold, e.g. cams or pushers for generating additional resistance for a reverse path}	F16H61/24	F16H61/24		70
F16H2061/246	9	{Additional mass or weight on shift linkage for improving feel}	F16H61/24	F16H61/24		229
F16H2061/247	9	{Detents for range selectors}	F16H61/24	F16H61/24		180
F16H2061/248	9	{with audible signals for providing selection or shift feed back}	F16H61/24	F16H61/24		32
F16H61/26	8	Generation or transmission of movements for final actuating mechanisms<br><br><u>NOTE</u><br><br> The generation or transmission of movements comprising only the selector apparatus, is classified in group F16H59/00. <br> The generation or transmission of movements, when part of the final output mechanisms, is classified in group F16H63/00. 	F16H61/26	F16H61/26		740
F16H61/28	9	with at least one movement of the final actuating mechanism being caused by a non-mechanical force, e.g. power-assisted	F16H61/28	F16H61/28		846
F16H61/2807	10	{using electric control signals for shift actuators, e.g. electro-hydraulic control therefor&#160; (F16H61/30,&#160;F16H61/32&#160;take precedence)}	F16H61/28	F16H61/28		728
F16H61/2815	11	{with a control using only relays and switches}	F16H61/28	F16H61/28		28
F16H2061/2823	10	{Controlling actuator force way characteristic, i.e. controlling force or movement depending on the actuator position, e.g. for adapting force to synchronisation and engagement of gear clutch}	F16H61/28	F16H61/28		373
F16H2061/283	10	{Adjustment or calibration of actuator positions, e.g. neutral position}	F16H61/28	F16H61/28		274
F16H2061/2838	10	{Arrangements with single drive motor for selecting and shifting movements, i.e. one motor used for generating both movements}	F16H61/28	F16H61/28		85
F16H2061/2846	10	{Arrangements of actuators for enabling jump shifting for skipping of gear ratios}	F16H61/28	F16H61/28		17
F16H2061/2853	10	{Electromagnetic solenoids}	F16H61/28	F16H61/28		145
F16H2061/2861	10	{Linear motors}	F16H61/28	F16H61/28		32
F16H2061/2869	10	{Cam or crank gearing}	F16H61/28	F16H61/28		143
F16H2061/2876	10	{Racks}	F16H61/28	F16H61/28		84
F16H2061/2884	10	{Screw-nut devices}	F16H61/28	F16H61/28		260
F16H2061/2892	10	{other gears, e.g. worm gears, for transmitting rotary motion to the output mechanism}	F16H61/28	F16H61/28		185
F16H61/30	10	Hydraulic {or pneumatic} motors {or related fluid control means} therefor	F16H61/30	F16H61/30		1973
F16H2061/301	11	{for power assistance, i.e. servos with follow up action}	F16H61/30	F16H61/30		274
F16H2061/302	12	{with variable force amplification, e.g. force is depending on selected gear or on actuator force (non-linear amplification)}	F16H61/30	F16H61/30		28
F16H2061/304	11	{using telemotors, i.e. systems with master cylinder and linked shift actuator without external pressure source}	F16H61/30	F16H61/30		73
F16H2061/305	11	{Accumulators for fluid supply to the servo motors, or control thereof}	F16H61/30	F16H61/30		91
F16H2061/307	11	{Actuators with three or more defined positions, e.g. three position servos}	F16H61/30	F16H61/30		220
F16H2061/308	11	{Modular hydraulic shift units, i.e. preassembled actuator units for select and shift movements adapted for being mounted on transmission casing}	F16H61/30	F16H61/30		193
F16H61/32	10	Electric motors&#160; {, actuators or related electrical control means} &#160;therefor	F16H61/32	F16H61/32		2552
F16H2061/323	11	{for power assistance, i.e. servos with follow up action}	F16H61/32	F16H61/32		227
F16H2061/326	11	{Actuators for range selection, i.e. actuators for controlling the range selector or the manual range valve in the transmission}	F16H61/32	F16H61/32		673
F16H61/34	9	comprising two mechanisms, one for the preselection movement, and one for the shifting movement (F16H61/36 takes precedence)	F16H61/34	F16H61/34		259
F16H61/36	9	with at least one movement being transmitted by a cable	F16H61/36	F16H61/36		1054
F16H61/38	8	Control of exclusively fluid gearing	F16H61/38	F16H61/38		151
F16H61/40	9	hydrostatic	F16H61/40	F16H61/40		1488
F16H61/4008	10	Control of circuit pressure	F16H61/4008	F16H61/4008		323
F16H61/4017	11	Control of high pressure, e.g. avoiding excess pressure by a relief valve	F16H61/4017	F16H61/4017		327
F16H61/4026	11	Control of low pressure	F16H61/4026	F16H61/4026		71
F16H61/4035	10	Control of circuit flow	F16H61/4035	F16H61/4035		407
F16H61/4043	10	Control of a bypass valve	F16H61/4043	F16H61/4043		467
F16H61/4052	11	by using a variable restriction, e.g. an orifice valve	F16H61/4052	F16H61/4052		92
F16H61/4061	10	Control related to directional control valves, e.g. change-over valves, for crossing the feeding conduits	F16H61/4061	F16H61/4061		306
F16H61/4069	10	Valves related to the control of neutral, e.g. shut off valves	F16H61/4069	F16H61/4069		81
F16H61/4078	10	Fluid exchange between hydrostatic circuits and external sources or consumers	F16H61/4078	F16H61/4078		132
F16H61/4096	11	with pressure accumulators	F16H61/4096	F16H61/4096		387
F16H61/4104	11	Flushing, e.g. by using flushing valves or by connection to exhaust	F16H61/4104	F16H61/4104		122
F16H61/4131	11	Fluid exchange by aspiration from reservoirs, e.g. sump	F16H61/4131	F16H61/4131		50
F16H61/4139	11	Replenishing or scavenging pumps, e.g. auxiliary charge pumps	F16H61/4139	F16H61/4139		221
F16H61/4148	10	Open loop circuits	F16H61/4148	F16H61/4148		285
F16H61/4157	10	Control of braking, e.g. preventing pump over-speeding when motor acts as a pump	F16H61/4157	F16H61/4157		602
F16H61/4165	10	Control of cooling or lubricating	F16H61/4165	F16H61/4165		340
F16H61/4174	10	Control of venting, e.g. removing trapped air	F16H61/4174	F16H61/4174		41
F16H61/4183	10	Preventing or reducing vibrations or noise, e.g. avoiding cavitations	F16H61/4183	F16H61/4183		145
F16H61/4192	10	Detecting malfunction or potential malfunction, e.g. fail safe	F16H61/4192	F16H61/4192		183
F16H61/42	10	involving adjustment of a pump or motor with adjustable output or capacity	F16H61/42	F16H61/42		1170
F16H61/421	11	Motor capacity control by electro-hydraulic control means, e.g. using solenoid valves	F16H61/421	F16H61/421		477
F16H61/423	11	Motor capacity control by fluid pressure control means	F16H61/423	F16H61/423		511
F16H61/425	11	Motor capacity control by electric actuators	F16H61/425	F16H61/425		124
F16H61/427	11	Motor capacity control by mechanical control means, e.g. by levers or pedals	F16H61/427	F16H61/427		120
F16H61/431	11	Pump capacity control by electro-hydraulic control means, e.g. using solenoid valves	F16H61/431	F16H61/431		612
F16H61/433	11	Pump capacity control by fluid pressure control means	F16H61/433	F16H61/433		628
F16H61/435	11	Pump capacity control by electric actuators	F16H61/435	F16H61/435		128
F16H61/437	11	Pump capacity control by mechanical control means, e.g. by levers or pedals	F16H61/437	F16H61/437		376
F16H61/438	11	Control of forward-reverse switching, e.g. control of the swash plate causing discharge in two directions	F16H61/438	F16H61/438		90
F16H61/439	11	Control of the neutral position, e.g. by zero tilt rotation holding means	F16H61/439	F16H61/439		209
F16H61/44	10	with more than one pump or motor in operation	F16H61/44	F16H61/44		437
F16H61/444	11	by changing the number of pump or motor units in operation	F16H61/444	F16H61/444		256
F16H61/448	11	Control circuits for tandem pumps or motors	F16H61/448	F16H61/448		317
F16H61/452	11	Selectively controlling multiple pumps or motors, e.g. switching between series or parallel	F16H61/452	F16H61/452		193
F16H61/456	11	Control of the balance of torque or speed between pumps or motors	F16H61/456	F16H61/456		372
F16H61/46	10	Automatic regulation in accordance with output requirements	F16H61/46	F16H61/46		1536
F16H61/461	11	{not involving a variation of the output capacity of the main pumps or motors}	F16H61/46	F16H61/46		90
F16H61/462	11	for achieving a target speed ratio	F16H61/462	F16H61/462		315
F16H61/465	11	for achieving a target input speed	F16H61/465	F16H61/465		354
F16H61/468	11	for achieving a target input torque	F16H61/468	F16H61/468		107
F16H61/47	11	for achieving a target output speed	F16H61/47	F16H61/47		757
F16H61/472	11	for achieving a target output torque	F16H61/472	F16H61/472		536
F16H61/475	11	for achieving a target power, e.g. input power or output power	F16H61/475	F16H61/475		143
F16H61/478	11	for preventing overload, e.g. high pressure limitation	F16H61/478	F16H61/478		122
F16H61/48	9	hydrodynamic	F16H61/48	F16H61/48		102
F16H61/50	10	controlled by changing the flow, force, or reaction of the liquid in the working circuit, while maintaining a completely filled working circuit	F16H61/50	F16H61/50		127
F16H61/52	11	by altering the position of blades	F16H61/52	F16H61/52		66
F16H61/54	12	by means of axially-shiftable blade runners	F16H61/54	F16H61/54		167
F16H61/56	12	to change the blade angle	F16H61/56	F16H61/56		289
F16H61/58	11	by change of the mechanical connection of, or between, the runners	F16H61/58	F16H61/58		87
F16H61/60	12	exclusively by the use of freewheel clutches	F16H61/60	F16H61/60		94
F16H61/62	12	involving use of a speed-changing gearing or of a clutch in the connection between runners (F16H61/60 takes precedence; combinations of fluid gearings for conveying rotary motion with mechanical clutches for bridging a fluid gearing of the hydrokinetic type F16H45/02)	F16H61/62	F16H61/62		132
F16H61/64	10	controlled by changing the amount of liquid in the working circuit	F16H61/64	F16H61/64		184
F16H61/66	8	specially adapted for continuously variable gearings (control of exclusively fluid gearing F16H61/38)	F16H61/66	F16H61/66		1259
F16H2061/6601	9	{with arrangements for dividing torque and shifting between different ranges}	F16H61/66	F16H61/66		47
F16H2061/6602	9	{with at least two dynamo-electric machines for creating an electric power path inside the transmission device, e.g. using generator and motor for a variable power torque path}	F16H61/66	F16H61/66		28
F16H2061/6603	10	{characterised by changing ratio in the mechanical gearing}	F16H61/66	F16H61/66		66
F16H2061/6604	9	{Special control features generally applicable to continuously variable gearings}	F16H61/66	F16H61/66		111
F16H2061/6605	10	{Control for completing downshift at hard braking}	F16H61/66	F16H61/66		48
F16H2061/6607	10	{Controls concerning lubrication or cooling}	F16H61/66	F16H61/66		25
F16H2061/6608	10	{Control of clutches, or brakes for forward-reverse shift}	F16H61/66	F16H61/66		240
F16H2061/6609	10	{Control of clutches or brakes in torque split transmissions}	F16H61/66	F16H61/66		25
F16H2061/661	10	{Conjoint control of CVT and drive clutch}	F16H61/66	F16H61/66		48
F16H2061/6611	10	{Control to achieve a particular driver perception, e.g. for generating a shift shock sensation}	F16H61/66	F16H61/66		50
F16H2061/6612	11	{for engine braking}	F16H61/66	F16H61/66		45
F16H2061/6614	10	{Control of ratio during dual or multiple pass shifting for enlarged ratio coverage}	F16H61/66	F16H61/66		65
F16H2061/6615	10	{Imitating a stepped transmissions}	F16H61/66	F16H61/66		104
F16H2061/6616	11	{the shifting of the transmission being manually controlled}	F16H61/66	F16H61/66		76
F16H2061/6617	10	{Manual control of CVTs while continuously varying the ratio}	F16H61/66	F16H61/66		17
F16H2061/6618	10	{Protecting CVTs against overload by limiting clutch capacity, e.g. torque fuse}	F16H61/66	F16H61/66		91
F16H61/662	9	with endless flexible members	F16H61/662	F16H61/662		1188
F16H2061/66204	10	{Control for modifying the ratio control characteristic}	F16H61/662	F16H61/662		45
F16H2061/66209	11	{dependent on ambient conditions}	F16H61/662	F16H61/662		15
F16H2061/66213	11	{dependent on driver&apos;s choice}	F16H61/662	F16H61/662		20
F16H2061/66218	11	{dependent on control input parameters other than ambient conditions or driver&apos;s choice}	F16H61/662	F16H61/662		39
F16H2061/66222	11	{the ratio is varied in order to reduce surface wear of belt or pulley}	F16H61/662	F16H61/662		9
F16H61/66227	10	{controlling shifting exclusively as a function of speed and torque}	F16H61/662	F16H61/662		109
F16H61/66231	10	{controlling shifting exclusively as a function of speed}	F16H61/662	F16H61/662		23
F16H61/66236	11	{using electrical or electronic sensing or control means}	F16H61/662	F16H61/662		64
F16H61/6624	11	{using only hydraulical and mechanical sensing or control means}	F16H61/662	F16H61/662		52
F16H61/66245	11	{using purely mechanical sensing or control means}	F16H61/662	F16H61/662		321
F16H61/6625	10	{controlling shifting exclusively as a function of torque}	F16H61/662	F16H61/662		218
F16H61/66254	10	{controlling of shifting being influenced by a signal derived from the engine and the main coupling}	F16H61/662	F16H61/662		432
F16H61/66259	11	{using electrical or electronical sensing or control means}	F16H61/662	F16H61/662		1037
F16H61/66263	11	{using only hydraulical and mechanical sensing or control means}	F16H61/662	F16H61/662		155
F16H61/66268	11	{using purely mechanical sensing or control means}	F16H61/662	F16H61/662		41
F16H61/66272	10	{characterised by means for controlling the torque transmitting capability of the gearing}	F16H61/662	F16H61/662		1070
F16H2061/66277	11	{by optimising the clamping force exerted on the endless flexible member}	F16H61/662	F16H61/662		128
F16H2061/66281	11	{by increasing the line pressure at the occurrence of input torque peak}	F16H61/662	F16H61/662		42
F16H2061/66286	10	{Control for optimising pump efficiency}	F16H61/662	F16H61/662		86
F16H2061/6629	10	{Detection of slip for determining level of wear}	F16H61/662	F16H61/662		18
F16H2061/66295	10	{characterised by means for controlling the geometrical interrelationship of pulleys and the endless flexible member, e.g. belt alignment or position of the resulting axial pulley force in the plane perpendicular to the pulley axis}	F16H61/662	F16H61/662		110
F16H61/664	9	Friction gearings	F16H61/664	F16H61/664		627
F16H2061/6641	10	{Control for modifying the ratio control characteristic}	F16H61/664	F16H61/664		19
F16H2061/6642	11	{dependent on ambient conditions}	F16H61/664	F16H61/664		2
F16H2061/6643	11	{dependent on driver&apos;s choice}	F16H61/664	F16H61/664		15
F16H2061/6644	11	{dependent on control input parameters other than ambient conditions or driver&apos;s choice}	F16H61/664	F16H61/664		9
F16H61/6645	10	{controlling shifting exclusively as a function of speed and torque}	F16H61/664	F16H61/664		79
F16H61/6646	10	{controlling shifting exclusively as a function of speed}	F16H61/664	F16H61/664		158
F16H61/6647	10	{controlling shifting exclusively as a function of torque}	F16H61/664	F16H61/664		152
F16H61/6648	10	{controlling of shifting being influenced by a signal derived from the engine and the main coupling}	F16H61/664	F16H61/664		366
F16H61/6649	10	{characterised by the means for controlling the torque transmitting capability of the gearing}	F16H61/664	F16H61/664		209
F16H61/68	8	specially adapted for stepped gearings	F16H61/68	F16H61/68		249
F16H61/682	9	with interruption of drive	F16H61/682	F16H61/682		572
F16H61/684	9	without interruption of drive	F16H61/684	F16H61/684		323
F16H61/686	10	with orbital gears	F16H61/686	F16H61/686		1242
F16H61/688	10	with two inputs, e.g. selection of one of two torque-flow paths by clutches	F16H61/688	F16H61/688		1860
F16H61/70	8	specially adapted for change-speed gearing in group arrangement, i.e. with separate change-speed gear trains arranged in series, e.g. range or overdrive-type gearing arrangements	F16H61/70	F16H61/70		497
F16H61/702	9	{using electric or electrohydraulic control means}	F16H61/70	F16H61/70		625
F16H61/705	9	{using hydraulic and mechanical control means}	F16H61/70	F16H61/70		96
F16H61/707	9	{using only mechanical control means}	F16H61/70	F16H61/70		6
F16H63/00	7	Control outputs {from the control unit} to change-speed- or reversing-gearings for conveying rotary motion {or to other devices than the final output mechanism}	F16H63/00	F16H63/00		120
F16H2063/005	8	{Preassembled gear shift units for mounting on gear case}	F16H63/00	F16H63/00		152
F16H63/02	8	Final output mechanisms therefor; Actuating means for the final output mechanisms	F16H63/02	F16H63/02		208
F16H2063/025	9	{Final output mechanisms for double clutch transmissions}	F16H63/02	F16H63/02		252
F16H63/04	9	a single final output mechanism being moved by a single final actuating mechanism	F16H63/04	F16H63/04		331
F16H63/06	10	the final output mechanism having an indefinite number of positions	F16H63/06	F16H63/06		56
F16H63/062	11	{electric or electro-mechanical actuating means}	F16H63/06	F16H63/06		238
F16H63/065	11	{hydraulic actuating means}	F16H63/06	F16H63/06		276
F16H63/067	11	{mechanical actuating means}	F16H63/06	F16H63/06		350
F16H63/08	9	Multiple final output mechanisms being moved by a single common final actuating mechanism	F16H63/08	F16H63/08		126
F16H63/10	10	the final actuating mechanism having a series of independent ways of movement, each way of movement being associated with only one final output mechanism	F16H63/10	F16H63/10		46
F16H63/12	11	two or more ways of movement occurring simultaneously	F16H63/12	F16H63/12		15
F16H63/14	10	the final output mechanisms being successively actuated by repeated movement of the final actuating mechanism	F16H63/14	F16H63/14		215
F16H63/16	10	the final output mechanisms being successively actuated by progressive movement of the final actuating mechanism	F16H63/16	F16H63/16		193
F16H63/18	11	the final actuating mechanism comprising cams	F16H63/18	F16H63/18		1334
F16H63/20	10	with preselection and subsequent movement of each final output mechanism by movement of the final actuating mechanism in two different ways, e.g. guided by a shift gate	F16H63/20	F16H63/20		1034
F16H2063/202	11	{using cam plates for selection or shifting, e.g. shift plates with recesses or groves moved by a selector extension}	F16H63/20	F16H63/20		96
F16H2063/204	11	{the gear shift lever being the immediate final actuating mechanism, e.g. the shift finger being a part of the gear shift lever}	F16H63/20	F16H63/20		16
F16H63/206	11	{the final output mechanisms being mounted coaxially on a single shaft, e.g. mono rail shift mechanism}	F16H63/20	F16H63/20		129
F16H2063/208	11	{using two or more selecting fingers}	F16H63/20	F16H63/20		272
F16H63/22	11	the final output mechanisms being simultaneously moved by the final actuating mechanism	F16H63/22	F16H63/22		61
F16H63/24	9	each of the final output mechanisms being moved by only one of the various final actuating mechanisms	F16H63/24	F16H63/24		130
F16H63/26	10	some of the movements of the final output mechanisms being caused by another final output mechanism	F16H63/26	F16H63/26		20
F16H63/28	9	two or more final actuating mechanisms moving the same final output mechanism	F16H63/28	F16H63/28		78
F16H63/285	10	{with a first final actuating member applying a force to two or more final output members and a second final actuating member locking in position another final output member}	F16H63/28	F16H63/28		19
F16H63/30	9	Constructional features of the final output mechanisms	F16H63/30	F16H63/30		2808
F16H63/3003	10	{Band brake actuating mechanisms}	F16H63/30	F16H63/30		286
F16H2063/3006	11	{moved by a non-mechanical force}	F16H63/30	F16H63/30		13
F16H63/3009	10	{the final output mechanisms having elements remote from the gearbox}	F16H63/30	F16H63/30		177
F16H63/3013	10	{the final output mechanism being characterised by linkages converting movement, e.g. into opposite direction by a pivoting lever linking two shift rods}	F16H63/30	F16H63/30		155
F16H63/3016	10	{Final output mechanisms varying the leverage or force ratio}	F16H63/30	F16H63/30		95
F16H63/302	10	{Final output mechanisms for reversing}	F16H63/30	F16H63/30		614
F16H63/3023	10	{the final output mechanisms comprising elements moved by fluid pressure (band brake actuating mechanisms F16H63/3003)}	F16H63/30	F16H63/30		972
F16H63/3026	11	{comprising friction clutches or brakes (band brake actuating mechanisms F16H63/3003)}	F16H63/30	F16H63/30		759
F16H2063/303	12	{the friction member is actuated and released by applying pressure to different fluid chambers}	F16H63/30	F16H63/30		73
F16H2063/3033	12	{the brake is actuated by springs and released by a fluid pressure}	F16H63/30	F16H63/30		75
F16H2063/3036	12	{the clutch is actuated by springs and released by a fluid pressure}	F16H63/30	F16H63/30		56
F16H63/304	10	{the final output mechanisms comprising elements moved by electrical or magnetic force (band brake actuating mechanisms F16H63/3003)}	F16H63/30	F16H63/30		1088
F16H63/3043	11	{comprising friction clutches or brakes}	F16H63/30	F16H63/30		191
F16H2063/3046	11	{using electromagnetic clutch for coupling gear wheel to shaft}	F16H63/30	F16H63/30		106
F16H2063/305	11	{using electromagnetic solenoids}	F16H63/30	F16H63/30		226
F16H2063/3053	11	{using linear motors}	F16H63/30	F16H63/30		64
F16H2063/3056	11	{using cam or crank gearing}	F16H63/30	F16H63/30		299
F16H2063/3059	11	{using racks}	F16H63/30	F16H63/30		66
F16H2063/3063	11	{using screw devices}	F16H63/30	F16H63/30		226
F16H2063/3066	11	{using worm gears}	F16H63/30	F16H63/30		113
F16H63/3069	10	{Interrelationship between two or more final output mechanisms}	F16H63/30	F16H63/30		202
F16H2063/3073	11	{final output mechanisms mounted on a single shaft}	F16H63/30	F16H63/30		61
F16H2063/3076	10	{Selector shaft assembly, e.g. supporting, assembly or manufacturing of selector or shift shafts; Special details thereof}	F16H63/30	F16H63/30		728
F16H2063/3079	10	{Shift rod assembly, e.g. supporting, assembly or manufacturing of shift rails or rods; Special details thereof}	F16H63/30	F16H63/30		714
F16H2063/3083	10	{Shift finger arrangements, e.g. shape or attachment of shift fingers}	F16H63/30	F16H63/30		301
F16H2063/3086	10	{Shift head arrangements, e.g. forms or arrangements of shift heads for preselection or shifting}	F16H63/30	F16H63/30		252
F16H2063/3089	10	{Spring assisted shift, e.g. springs for accumulating energy of shift movement and release it when clutch teeth are aligned}	F16H63/30	F16H63/30		478
F16H2063/3093	10	{Final output elements, i.e. the final elements to establish gear ratio, e.g. coupling sleeves or other means establishing coupling to shaft}	F16H63/30	F16H63/30		861
F16H2063/3096	11	{Sliding keys as final output elements; Details thereof}	F16H63/30	F16H63/30		273
F16H63/32	10	Gear shift yokes, {e.g. shift forks}	F16H63/32	F16H63/32		2647
F16H2063/321	11	{characterised by the interface between fork body and shift rod, e.g. fixing means, bushes, cams or pins}	F16H63/32	F16H63/32		553
F16H2063/322	11	{characterised by catches or notches for moving the fork}	F16H63/32	F16H63/32		209
F16H2063/324	11	{characterised by slide shoes, or similar means to transfer shift force to sleeve}	F16H63/32	F16H63/32		360
F16H2063/325	11	{Rocker or swiveling forks, i.e. the forks are pivoted in the gear case when moving the sleeve}	F16H63/32	F16H63/32		243
F16H2063/327	11	{essentially made of sheet metal}	F16H63/32	F16H63/32		146
F16H2063/328	11	{essentially made of plastics, e.g. injection molded}	F16H63/32	F16H63/32		46
F16H63/34	10	Locking or disabling mechanisms	F16H63/34	F16H63/34		1116
F16H63/3408	11	{the locking mechanism being moved by the final actuating mechanism}	F16H63/34	F16H63/34		561
F16H63/3416	11	{Parking lock mechanisms or brakes in the transmission}	F16H63/34	F16H63/34		1186
F16H63/3425	12	{characterised by pawls or wheels}	F16H63/34	F16H63/34		939
F16H63/3433	13	{Details of latch mechanisms, e.g. for keeping pawls out of engagement}	F16H63/34	F16H63/34		554
F16H63/3441	12	{Parking locks engaging axially}	F16H63/34	F16H63/34		176
F16H63/345	12	{using friction brakes, e.g. a band brakes}	F16H63/34	F16H63/34		135
F16H63/3458	12	{with electric actuating means, e.g. shift by wire}	F16H63/34	F16H63/34		244
F16H63/3466	13	{using electric motors}	F16H63/34	F16H63/34		652
F16H63/3475	13	{using solenoids}	F16H63/34	F16H63/34		275
F16H63/3483	12	{with hydraulic actuating means}	F16H63/34	F16H63/34		664
F16H63/3491	12	{Emergency release or engagement of parking locks or brakes}	F16H63/34	F16H63/34		422
F16H63/36	11	Interlocking devices	F16H63/36	F16H63/36		673
F16H63/38	10	Detents	F16H63/38	F16H63/38		1377
F16H63/40	8	comprising signals other than signals for actuating the final output mechanisms	F16H63/40	F16H63/40		795
F16H63/42	9	Ratio indicator devices	F16H63/42	F16H63/42		1499
F16H2063/423	10	{Range indicators for automatic transmissions, e.g. showing selected range or mode}	F16H63/42	F16H63/42		397
F16H2063/426	10	{with means for advising the driver for proper shift action, e.g. prompting the driver with allowable selection range of ratios}	F16H63/42	F16H63/42		280
F16H63/44	9	Signals to the control unit of auxiliary gearing	F16H63/44	F16H63/44		461
F16H63/46	9	Signals to a clutch outside the gearbox	F16H63/46	F16H63/46		1134
F16H63/48	9	Signals to a parking brake {or parking lock; Control of parking locks or brakes being part of the transmission}	F16H63/48	F16H63/48		770
F16H63/483	10	{Circuits for controlling engagement of parking locks or brakes}	F16H63/48	F16H63/48		291
F16H63/486	10	{Common control of parking locks or brakes in the transmission and other parking brakes, e.g. wheel brakes}	F16H63/48	F16H63/48		98
F16H63/50	9	Signals to an engine or motor	F16H63/50	F16H63/50		929
F16H63/502	10	{for smoothing gear shifts}	F16H63/50	F16H63/50		1294
F16H2063/504	10	{for bringing engine into special condition by transmission control, e.g. by changing torque converter characteristic to modify engine set point to higher engine speed for better acceleration performance}	F16H63/50	F16H63/50		61
F16H2063/506	10	{for engine torque resume after shift transition, e.g. a resume adapted to the driving style}	F16H63/50	F16H63/50		76
F16H2063/508	10	{for limiting transmission input torque, e.g. to prevent damage of transmission parts}	F16H63/50	F16H63/50		96
F16H2200/00	7	Transmissions for multiple ratios	CPCONLY	F16H2200/00		84
F16H2200/0004	8	comprising a power take off shaft	CPCONLY	F16H2200/0004		163
F16H2200/0008	8	specially adapted for front-wheel-driven vehicles	CPCONLY	F16H2200/0008		231
F16H2200/0013	8	specially adapted for rear-wheel-driven vehicles	CPCONLY	F16H2200/0013		123
F16H2200/0017	8	specially adapted for four-wheel-driven vehicles	CPCONLY	F16H2200/0017		181
F16H2200/0021	8	specially adapted for electric vehicles	CPCONLY	F16H2200/0021		2046
F16H2200/0026	8	comprising at least one creep low gear, e.g. additional gear for extra low speed or creeping	CPCONLY	F16H2200/0026		170
F16H2200/003	8	characterised by the number of forward speeds	CPCONLY	F16H2200/003		123
F16H2200/0034	9	the gear ratios comprising two forward speeds	CPCONLY	F16H2200/0034		2275
F16H2200/0039	9	the gear ratios comprising three forward speeds	CPCONLY	F16H2200/0039		880
F16H2200/0043	9	the gear ratios comprising four forward speeds	CPCONLY	F16H2200/0043		1568
F16H2200/0047	9	the gear ratios comprising five forward speeds	CPCONLY	F16H2200/0047		1268
F16H2200/0052	9	the gear ratios comprising six forward speeds	CPCONLY	F16H2200/0052		2302
F16H2200/0056	9	the gear ratios comprising seven forward speeds	CPCONLY	F16H2200/0056		1219
F16H2200/006	9	the gear ratios comprising eight forward speeds	CPCONLY	F16H2200/006		1850
F16H2200/0065	9	the gear ratios comprising nine forward speeds	CPCONLY	F16H2200/0065		1311
F16H2200/0069	9	the gear ratios comprising ten forward speeds	CPCONLY	F16H2200/0069		945
F16H2200/0073	9	the gear ratios comprising eleven forward speeds	CPCONLY	F16H2200/0073		271
F16H2200/0078	9	the gear ratio comprising twelve or more forward speeds	CPCONLY	F16H2200/0078		464
F16H2200/0082	8	characterised by the number of reverse speeds	CPCONLY	F16H2200/0082		377
F16H2200/0086	9	the gear ratios comprising two reverse speeds	CPCONLY	F16H2200/0086		968
F16H2200/0091	9	the gear ratios comprising three reverse speeds	CPCONLY	F16H2200/0091		415
F16H2200/0095	9	the gear ratios comprising four reverse speeds	CPCONLY	F16H2200/0095		188
F16H2200/20	8	Transmissions using gears with orbital motion	CPCONLY	F16H2200/20		103
F16H2200/2002	9	characterised by the number of sets of orbital gears	CPCONLY	F16H2200/2002		30
F16H2200/2005	10	with one sets of orbital gears	CPCONLY	F16H2200/2005		1735
F16H2200/2007	10	with two sets of orbital gears	CPCONLY	F16H2200/2007		2887
F16H2200/201	10	with three sets of orbital gears	CPCONLY	F16H2200/201		2627
F16H2200/2012	10	with four sets of orbital gears	CPCONLY	F16H2200/2012		2481
F16H2200/2015	10	with five sets of orbital gears	CPCONLY	F16H2200/2015		239
F16H2200/2017	10	with six sets of orbital gears	CPCONLY	F16H2200/2017		39
F16H2200/202	9	characterised by the type of Ravigneaux set	CPCONLY	F16H2200/202		63
F16H2200/2023	10	using a Ravigneaux set with 4 connections	CPCONLY	F16H2200/2023		891
F16H2200/2025	10	using a Ravigneaux set with 5 connections	CPCONLY	F16H2200/2025		186
F16H2200/2028	10	using a Ravigneaux set with 6 connections	CPCONLY	F16H2200/2028		23
F16H2200/203	9	characterised by the engaging friction means not of the freewheel type, e.g. friction clutches or brakes	CPCONLY	F16H2200/203		88
F16H2200/2033	10	with one engaging means	CPCONLY	F16H2200/2033		238
F16H2200/2035	10	with two engaging means	CPCONLY	F16H2200/2035		1213
F16H2200/2038	10	with three engaging means	CPCONLY	F16H2200/2038		589
F16H2200/2041	10	with four engaging means	CPCONLY	F16H2200/2041		737
F16H2200/2043	10	with five engaging means	CPCONLY	F16H2200/2043		1532
F16H2200/2046	10	with six engaging means	CPCONLY	F16H2200/2046		2358
F16H2200/2048	10	with seven engaging means	CPCONLY	F16H2200/2048		713
F16H2200/2051	10	with eight engaging means	CPCONLY	F16H2200/2051		186
F16H2200/2053	10	with nine engaging means	CPCONLY	F16H2200/2053		86
F16H2200/2056	10	with ten engaging means	CPCONLY	F16H2200/2056		49
F16H2200/2058	10	with eleven engaging means	CPCONLY	F16H2200/2058		35
F16H2200/2061	10	with twelve engaging means	CPCONLY	F16H2200/2061		21
F16H2200/2064	10	using at least one positive clutch, e.g. dog clutch	CPCONLY	F16H2200/2064		1004
F16H2200/2066	10	using one freewheel mechanism	CPCONLY	F16H2200/2066		370
F16H2200/2069	10	using two freewheel mechanism	CPCONLY	F16H2200/2069		126
F16H2200/2071	10	using three freewheel mechanism	CPCONLY	F16H2200/2071		392
F16H2200/2074	10	using four freewheel mechanism	CPCONLY	F16H2200/2074		39
F16H2200/2076	10	using at least five freewheel mechanism	CPCONLY	F16H2200/2076		14
F16H2200/2079	9	using freewheel type mechanisms, e.g. freewheel clutches	CPCONLY	F16H2200/2079		56
F16H2200/2082	10	one freewheel mechanisms	CPCONLY	F16H2200/2082		460
F16H2200/2084	10	two freewheel mechanisms	CPCONLY	F16H2200/2084		140
F16H2200/2087	10	three freewheel mechanisms	CPCONLY	F16H2200/2087		54
F16H2200/2089	10	four freewheel mechanisms	CPCONLY	F16H2200/2089		37
F16H2200/2092	10	at least five freewheel mechanisms	CPCONLY	F16H2200/2092		24
F16H2200/2094	9	using positive clutches, e.g. dog clutches	CPCONLY	F16H2200/2094		947
F16H2200/2097	9	comprising an orbital gear set member permanently connected to the housing, e.g. a sun wheel permanently connected to the housing	CPCONLY	F16H2200/2097		1896
F16H2300/00	7	Determining of new ratio	CPCONLY	F16H2300/00		2
F16H2300/02	8	Computing a new ratio	CPCONLY	F16H2300/02		16
F16H2300/14	8	Selecting a state of operation, e.g. depending on two wheel or four wheel drive mode	CPCONLY	F16H2300/14		94
F16H2300/18	8	Determining the range	CPCONLY	F16H2300/18		55
F16H2302/00	7	Determining the way or trajectory to new ratio, e.g. by determining speed, torque or time parameters for shift transition	CPCONLY	F16H2302/00		42
F16H2302/02	8	Optimizing the way to the new ratio	CPCONLY	F16H2302/02		17
F16H2302/04	8	Determining a modus for shifting	CPCONLY	F16H2302/04		97
F16H2302/06	8	Determining timing parameters of shifting, e.g. start of shifting	CPCONLY	F16H2302/06		53
F16H2306/00	7	Shifting	CPCONLY	F16H2306/00		590
F16H2306/14	8	Skipping gear shift	CPCONLY	F16H2306/14		180
F16H2306/18	8	Preparing coupling or engaging of future gear	CPCONLY	F16H2306/18		96
F16H2306/20	8	Timing of gear shifts	CPCONLY	F16H2306/20		105
F16H2306/21	9	for auxiliary gear shifts	CPCONLY	F16H2306/21		5
F16H2306/22	8	Swap shifting	CPCONLY	F16H2306/22		10
F16H2306/24	8	Interruption of shift, e.g. if new shift is initiated during ongoing previous shift	CPCONLY	F16H2306/24		98
F16H2306/30	8	characterised by the way or trajectory to a new ratio, e.g. by performing shift according to a particular algorithm or function	CPCONLY	F16H2306/30		40
F16H2306/32	8	Preparing the opening or release of the torque transmitting element	CPCONLY	F16H2306/32		18
F16H2306/36	8	Filling the dead volume of actuators	CPCONLY	F16H2306/36		33
F16H2306/40	8	Shifting activities	CPCONLY	F16H2306/40		97
F16H2306/42	9	Changing the input torque to the transmission	CPCONLY	F16H2306/42		176
F16H2306/44	9	Removing torque from current gears	CPCONLY	F16H2306/44		334
F16H2306/46	9	Uncoupling of current gear	CPCONLY	F16H2306/46		189
F16H2306/48	9	Synchronising of new gear	CPCONLY	F16H2306/48		342
F16H2306/50	9	Coupling of new gear	CPCONLY	F16H2306/50		135
F16H2306/52	9	Applying torque to new gears	CPCONLY	F16H2306/52		282
F16H2306/54	9	Synchronising engine speed to transmission input speed	CPCONLY	F16H2306/54		192
F16H2312/00	7	Driving activities	CPCONLY	F16H2312/00		38
F16H2312/02	8	Driving off	CPCONLY	F16H2312/02		453
F16H2312/022	9	Preparing to drive off	CPCONLY	F16H2312/022		142
F16H2312/04	8	Holding or hillholding	CPCONLY	F16H2312/04		119
F16H2312/06	8	Creeping	CPCONLY	F16H2312/06		100
F16H2312/08	8	Rocking	CPCONLY	F16H2312/08		63
F16H2312/09	8	Switching between forward and reverse	CPCONLY	F16H2312/09		87
F16H2312/10	8	Inching	CPCONLY	F16H2312/10		28
F16H2312/12	8	Parking	CPCONLY	F16H2312/12		122
F16H2312/14	8	Going to, or coming from standby operation, e.g. for engine start-stop operation at traffic lights	CPCONLY	F16H2312/14		395
F16H2312/16	8	Coming to a halt	CPCONLY	F16H2312/16		58
F16H2312/18	8	Strong or emergency braking	CPCONLY	F16H2312/18		30
F16H2312/20	8	Start-up or shut-down	CPCONLY	F16H2312/20		117
F16H2342/00	7	Calibrating	CPCONLY	F16H2342/00		59
F16H2342/02	8	Calibrating shift or range movements	CPCONLY	F16H2342/02		102
F16H2342/04	8	Calibrating engagement of friction elements	CPCONLY	F16H2342/04		128
F16H2342/042	9	Point of engagement	CPCONLY	F16H2342/042		92
F16H2342/044	9	Torque transmitting capability	CPCONLY	F16H2342/044		105
F16H2342/06	8	Determining which part to calibrate or timing of calibrations	CPCONLY	F16H2342/06		21
F16H2342/10	8	Calibrating valves	CPCONLY	F16H2342/10		33
F16H2700/00	7	Transmission housings and mounting of transmission components therein; Cooling; Lubrication; Flexible suspensions, e.g. floating frames	CPCONLY	F16H2700/00		424
F16H2700/02	8	Transmissions, specially for working vehicles	CPCONLY	F16H2700/02		1113
F16H2700/04	9	Starting devices or devices to start turning of shafts	CPCONLY	F16H2700/04		1
F16H2700/06	8	Protections for shifting mechanical transmissions	CPCONLY	F16H2700/06		53
F16H2702/00	7	Combinations of two or more transmissions	CPCONLY	F16H2702/00		341
F16H2702/02	8	Mechanical transmissions with planetary gearing combined with one or more other mechanical transmissions	CPCONLY	F16H2702/02		196
F16H2702/04	9	Combinations of a speed-change mechanism without planetary gearing with a differential for driving a vehicle drive axle	CPCONLY	F16H2702/04		421
F16H2702/06	8	Combinations of transmissions with parallel force splitting paths having same output	CPCONLY	F16H2702/06		98
F16H2704/00	7	Control mechanisms and elements applying a mechanical movement	CPCONLY	F16H2704/00		9
F16H2704/02	8	Speed-change devices wherein the control lever actuates directly sliding gears pivoting around two non-parallel axis	CPCONLY	F16H2704/02		43
F16H2704/04	8	Speed-change devices with an intermediary mechanism placed between control member and actuator	CPCONLY	F16H2704/04		45
F16H2706/00	7	Rotary transmissions with mechanical energy accumulation and recovery without means for automatic selfregulation essentially based on spring action or inertia	CPCONLY	F16H2706/00		312
F16H2708/00	7	Control devices for speed-changing geared mechanisms, e.g. specially adapted couplings for synchronising devices, devices to simplify control, control of auxiliary gearboxes	CPCONLY	F16H2708/00		59
F16H2708/02	8	only the toothed wheels remain engaged	CPCONLY	F16H2708/02		85
F16H2708/04	9	the control being mechanical	CPCONLY	F16H2708/04		148
F16H2708/06	9	the control being hydraulic or pneumatic	CPCONLY	F16H2708/06		182
F16H2708/08	9	the control being electric	CPCONLY	F16H2708/08		4
F16H2708/10	8	only the toothed wheels may be disengaged	CPCONLY	F16H2708/10		31
F16H2708/12	9	the control being mechanical	CPCONLY	F16H2708/12		130
F16H2708/14	9	the control being hydraulic or pneumatic	CPCONLY	F16H2708/14		25
F16H2708/16	8	wherein the gearing is not described or not essential	CPCONLY	F16H2708/16		31
F16H2708/18	9	the control being mechanical	CPCONLY	F16H2708/18		58
F16H2708/20	9	the control being hydraulic or pneumatic	CPCONLY	F16H2708/20		180
F16H2708/22	9	the control being electric	CPCONLY	F16H2708/22		24
F16H2708/24	8	with a preselection system, mainly semi-automatic, e.g. with automatic preselection, but controlled at the intended moment, with force amplification	CPCONLY	F16H2708/24		156
F16H2708/26	9	only the toothed wheels remain engaged	CPCONLY	F16H2708/26		
F16H2708/28	9	only the toothed wheels may be disengaged	CPCONLY	F16H2708/28		88
F16H2710/00	7	Control devices for speed-change mechanisms, the speed change control is dependent on function parameters of the gearing	CPCONLY	F16H2710/00		111
F16H2710/02	8	Control dependent on speed and torque, wherein only the toothed wheels remain engaged, control being mechanical	CPCONLY	F16H2710/02		43
F16H2710/04	8	Control dependent on speed	CPCONLY	F16H2710/04		122
F16H2710/06	9	only the toothed wheels remain engaged	CPCONLY	F16H2710/06		13
F16H2710/08	10	the control being mechanical	CPCONLY	F16H2710/08		231
F16H2710/10	10	the control being hydraulic or pneumatic	CPCONLY	F16H2710/10		65
F16H2710/12	10	the control being electric	CPCONLY	F16H2710/12		24
F16H2710/14	8	Control dependent on speed, wherein only the toothed wheels may be disengaged, control being mechanical	CPCONLY	F16H2710/14		20
F16H2710/16	8	the gearing is not described or not essential	CPCONLY	F16H2710/16		25
F16H2710/18	9	the control being mechanical	CPCONLY	F16H2710/18		18
F16H2710/20	9	the control being hydraulic or pneumatic	CPCONLY	F16H2710/20		124
F16H2710/22	9	the control being electric	CPCONLY	F16H2710/22		111
F16H2710/24	8	Control dependent on torque	CPCONLY	F16H2710/24		64
F16H2710/26	9	wherein only the toothed wheels remain engaged, the control being mechanical	CPCONLY	F16H2710/26		69
F16H2712/00	7	Mechanisms for changing direction	CPCONLY	F16H2712/00		132
F16H2712/02	8	Automatic control, e.g. for an alternating movement	CPCONLY	F16H2712/02		181
F16H2712/04	8	the control being hydraulic or pneumatic	CPCONLY	F16H2712/04		161
F16H2712/06	8	only with toothed wheels or friction wheels	CPCONLY	F16H2712/06		131
F16H2712/08	9	only the toothed wheels may be disengaged	CPCONLY	F16H2712/08		124
F16H2712/10	9	with a combination of engaged and disengageable toothed wheels	CPCONLY	F16H2712/10		23
F16H2714/00	7	Different types speed-changing mechanisms for toothed gearing	CPCONLY	F16H2714/00		80
F16H2714/02	8	only with toothed wheels remaining engaged	CPCONLY	F16H2714/02		516
F16H2714/04	8	with specially adapted devices	CPCONLY	F16H2714/04		321
F16H2716/00	7	Control devices for speed-change mechanisms of planetary gearings, with toothed wheels remaining engaged, e.g. also for devices to simplify the control or for synchronising devices combined with control devices	CPCONLY	F16H2716/00		167
F16H2716/02	8	the control being mechanical	CPCONLY	F16H2716/02		306
F16H2716/04	8	the control being hydraulic or pneumatic	CPCONLY	F16H2716/04		193
F16H2716/06	9	Circuits thereof	CPCONLY	F16H2716/06		110
F16H2716/08	8	the control being electric	CPCONLY	F16H2716/08		201
F16H2716/10	8	only the toothed wheels may be disengaged, the control being mechanical	CPCONLY	F16H2716/10		33
F16H2716/12	8	with preselection system, mainly semi-automatic, e.g. with automatic preselection, but controlled at the intended moment, with force amplification	CPCONLY	F16H2716/12		35
F16H2716/14	9	only with toothed wheels remaining engaged	CPCONLY	F16H2716/14		57
F16H2718/00	7	Mechanisms for speed-change of planetary gearing, the speed change control being dependent on function parameters of the gearing	CPCONLY	F16H2718/00		53
F16H2718/02	8	Control dependent on speed and torque, wherein only the toothed wheels remain engaged	CPCONLY	F16H2718/02		30
F16H2718/04	9	the control being mechanical	CPCONLY	F16H2718/04		88
F16H2718/06	9	the control being hydraulic or pneumatic	CPCONLY	F16H2718/06		22
F16H2718/08	8	Control dependent on speed	CPCONLY	F16H2718/08		22
F16H2718/10	9	only the toothed wheels remain engaged	CPCONLY	F16H2718/10		30
F16H2718/12	10	the control being mechanical	CPCONLY	F16H2718/12		259
F16H2718/14	10	the control being hydraulic or pneumatic	CPCONLY	F16H2718/14		140
F16H2718/16	10	the control being electric	CPCONLY	F16H2718/16		51
F16H2718/18	8	Control dependent on torque	CPCONLY	F16H2718/18		20
F16H2718/20	9	only the toothed wheels remain engaged	CPCONLY	F16H2718/20		20
F16H2718/22	10	the control being mechanical	CPCONLY	F16H2718/22		152
F16H2718/24	10	the control being hydraulic or pneumatic	CPCONLY	F16H2718/24		54
F16H2718/26	10	the control being electric	CPCONLY	F16H2718/26		16
F16H2720/00	7	Different types of speed-change gear mechanisms	CPCONLY	F16H2720/00		177
F16H2720/02	8	Gears with a non-circular rolling curve or gears with special teeth	CPCONLY	F16H2720/02		74
F16H2720/04	8	Combining a planetary speed-change gearing with a motor vehicle drive axle differential	CPCONLY	F16H2720/04		46
