B64G   1/00  \	0	0	3D140	B64G   1/00	90	ҹΡΣ	Cosmonautic vehicles [3]
B64G   1/00  A	0	0	3D140	B64G   1/00	97	å	Rockets
B64G   1/00  B	0	1	3D140	B64G   1/00	79	ƹ	Fuselages
B64G   1/00  C	0	1	3D140	B64G   1/00	106	Υ	Nozzles
B64G   1/00  E	0	1	3D140	B64G   1/00	104		control of thrust direction
B64G   1/00  F	0	1	3D140	B64G   1/00	175	ư֤ηħΤ	Characterised by types of power units
B64G   1/00  S	0	1	3D140	B64G   1/00	35	֥ӥå	Suborbital rockets
B64G   1/00  Z	0	0	3D140	B64G   1/00	141	¾Τ	Others
B64G   1/00 200 \	1	1	3D140	B64G   1/00	110	Ǥ夲ƥ	Launch systems
B64G   1/00 250 \	2	2	3D140	B64G   1/00	41	ȯ	Launching from the air
B64G   1/00 270 \	2	2	3D140	B64G   1/00	73	ƻ	Orbital transition
B64G   1/10  \	1	1	3D140	B64G   1/10	404	͹αֹҹΡʥڡȥ£ǣˡΣ	Artificial satellites; Systems of such satellites; Interplanetary vehicles (space shuttles B64G 1/14) [2006.01]
B64G   1/10 100 \	2	2	3D140	B64G   1/10	292	̿̿Ϣȣ£	Communications satellites(communications related H04B7/185)
B64G   1/10 200 \	2	2	3D140	B64G   1/10	56	¬̱ʹˡƥǣӡ	Positioning satellites(navigation systems G01S)
B64G   1/10 300 \	2	2	3D140	B64G   1/10	111	ϵ¬	Earth observation satellites
B64G   1/10 328 \	3	3	3D140	B64G   1/10	227	ŪʤѤ	Using optical means
B64G   1/10 335 \	3	3	3D140	B64G   1/10	69	졼Ѥ	Using radar
B64G   1/10 342 \	3	3	3D140	B64G   1/10	22	ݳؤäŬ礷	Specially adapted for meteorology
B64G   1/10 400 \	2	2	3D140	B64G   1/10	17	ʳ	Space science
B64G   1/10 457 \	3	3	3D140	B64G   1/10	19	ŷʸؤäŬ礷	Specially adapted for astronomy
B64G   1/10 464 \	3	3	3D140	B64G   1/10	58	ۤޤ֤õäŬ礷	Specifically adapted for interplanetary, solar or interstellar exploration
B64G   1/10 471 \	4	4	3D140	B64G   1/10	52	ޤϤɽ̤õΤΦ	Planetary landers designed to explore the surfaces of planets, moons or comets
B64G   1/10 500 \	2	2	3D140	B64G   1/10	176	ݼѱ	Satellite for maintenance or service
B64G   1/10 600 \	2	2	3D140	B64G   1/10	377	󥹥ƥ졼ʷ֡	Constellation (groups and patterns)
B64G   1/10 700 \	2	2	3D140	B64G   1/10	36	⥸塼뼰αƥ	Spaceship systems consisting of modules
B64G   1/12  \	2	2	3D140	B64G   1/12	6	ͤξäΡΣ	manned [3]
B64G   1/14  \	1	1	3D140	B64G   1/14	97	ڡȥΣ	Space shuttles [3]
B64G   1/16  \	1	1	3D140	B64G   1/16	79	ϵγξʪΣ	Extraterrestrial cars [2006.01]
B64G   1/22  \	1	1	3D140	B64G   1/22	987	ҹΤʤޤϡҹΤäŬ礷ʡΣ	Parts of, or equipment specially adapted for fitting in or to, cosmonautic vehicles [3]
B64G   1/22 100 \	2	2	3D140	B64G   1/22	6	СŸ	Mechanisms for releasing and deploying
B64G   1/22 100 A	2	0	3D140	B64G   1/22	47	е	Mechanism for releasing
B64G   1/22 100 B	2	1	3D140	B64G   1/22	759	Ÿ㡥ӤŸ	Mechanisms for deployment, e.g. for deployment of solar batteries
B64G   1/22 100 C	2	2	3D140	B64G   1/22	595	ޤꤿ߾֤ޤŸ֤ݻ	Holding mechanisms in folded or unfolded states
B64G   1/22 100 Z	2	0	3D140	B64G   1/22	31	¾Τ	Others
B64G   1/22 224 \	2	2	3D140	B64G   1/22	62	ĥ¤	Inflatable structures
B64G   1/22 300 \	2	2	3D140	B64G   1/22	119	ƥ󥰤ħΤ	Characterized by coatings
B64G   1/22 428 \	2	2	3D140	B64G   1/22	188	ȿưαƶ	Decreasing the effects of high-frequency vibration
B64G   1/24  \	2	2	3D140	B64G   1/24	67	ͶƳޤΤ֡㡥ΤΤΡΣ	Guiding or controlling apparatus, e.g. for attitude control [2006.01]
B64G   1/24  A	2	0	3D140	B64G   1/24	81	۸ޤѤΡʥ顼ʤɿʤħΤΣ£ǣ	Utilising solar-light pressure or solar-wind pressure(characterized by its propulsion, e.g. solar sail B64G1/40)
B64G   1/24  Z	2	0	3D140	B64G   1/24	283	¾Τ	Others
B64G   1/24 200 \	3	3	3D140	B64G   1/24	506	ƻħ	Characterized by the orbits
B64G   1/24 400 \	3	3	3D140	B64G   1/24	858	ΤΤ	To control the attitude
B64G   1/24 545 \	4	4	3D140	B64G   1/24	197	楢르ꥺ	Attitude control algorithms
B64G   1/24 647 \	4	4	3D140	B64G   1/24	8	üŪ楳󥻥ץȡ㡥͹ǽѤ	Concepts of advanced control, e.g. using artificial intelligence
B64G   1/26  \	3	3	3D140	B64G   1/26	11	åȤѤΡΣ	using jets [3]
B64G   1/26  A	3	0	3D140	B64G   1/26	76	åȤѤ	Being used for rockets
B64G   1/26  B	3	0	3D140	B64G   1/26	228	͹Ѥ	Being used for satellites
B64G   1/26  C	3	1	3D140	B64G   1/26	161	ƻΤΤ	for controlling orbits
B64G   1/26  Z	3	0	3D140	B64G   1/26	30	¾Τ	Others
B64G   1/28  \	3	3	3D140	B64G   1/28	266	ޤϥ㥤̤ѤΡΣ	using inertia or gyro effect [3]
B64G   1/28  A	3	0	3D140	B64G   1/28	72	ΰưѤ	Utilising movement of weights
B64G   1/28  C	3	0	3D140	B64G   1/28	50	ۥޤϻٻ	mounting or supporting wheels
B64G   1/28  D	3	0	3D140	B64G   1/28	24	ĤΥۥΤߤѤ	utilising only single wheel
B64G   1/28  E	3	0	3D140	B64G   1/28	26	ξ㸡Сξк	detection of, measures against breakdown
B64G   1/28  F	3	0	3D140	B64G   1/28	116	¾֤ʻѤ	being used with other control devices
B64G   1/28  Z	3	0	3D140	B64G   1/28	26	¾Τ	Others
B64G   1/28 100 \	4	4	3D140	B64G   1/28	359	ԥ꼰赡	Spin-stabilized aircrafts
B64G   1/28 300 \	4	4	3D140	B64G   1/28	261	ꥢۥѤ	Using reaction wheels
B64G   1/28 500 \	4	4	3D140	B64G   1/28	201	󥿥ۥѤ	Using momentum wheels
B64G   1/28 600 \	4	4	3D140	B64G   1/28	101	ȥ⡼ȥ㥤ΣãͣǡϤѤ	Using Control Moment Gyroscopes [CMG]
B64G   1/28 800 \	4	4	3D140	B64G   1/28	94	㥤פ󥵡ȤѤ	Using gyroscopes as attitude determination sensors
B64G   1/32  \	3	3	3D140	B64G   1/32	156	ϵ弧ѤΡΣ	using earth's magnetic field [3]
B64G   1/34  \	3	3	3D140	B64G   1/34	45	Ϸ٤ѤΡΣ	using gravity gradient [3]
B64G   1/36  \	3	3	3D140	B64G   1/36	160	󥵡㡥ۥ󥵡ʿ󥵡ѤΡΣ	using sensors, e.g. sun-sensors, horizon sensors [3]
B64G   1/36  A	3	0	3D140	B64G   1/36	37	󥵡Ѥ	Using inertial sensors
B64G   1/36  B	3	0	3D140	B64G   1/36	41	ȥ󥵡Ѥ	Using radio-wave sensors
B64G   1/36  Z	3	0	3D140	B64G   1/36	208	¾Τ	Others
B64G   1/36 100 \	4	4	3D140	B64G   1/36	284	󥵡Ѥ	Using star sensors
B64G   1/36 300 \	4	4	3D140	B64G   1/36	391	ۥ󥵡Ѥ	Using solar sensors
B64G   1/36 500 \	4	4	3D140	B64G   1/36	377	ʿ󥵡ޤϵ奻󥵡Ѥ	Using earth horizon sensors or earth sensors
B64G   1/36 600 \	4	4	3D140	B64G   1/36	42	ϥ󥵡Ѥ	Using magnetic force sensors
B64G   1/36 800 \	4	4	3D140	B64G   1/36	4	ϥ󥵡Ѥ	Using gravity sensors
B64G   1/38  \	3	3	3D140	B64G   1/38	6	ưθꡤ㡥ưΣ	damping of oscillations, e.g. nutation dampers [3]
B64G   1/38  A	3	0	3D140	B64G   1/38	90	ǽưŪ˸ꤵ	Damping actively
B64G   1/38  B	3	1	3D140	B64G   1/38	74	ư򸺿ꤵ	damping nutation
B64G   1/38  Z	3	0	3D140	B64G   1/38	107	¾Τ	Others
B64G   1/40  \	2	2	3D140	B64G   1/40	164	֤֤ޤŬѡΣ	Arrangements or adaptations of propulsion systems [2006.01]
B64G   1/40 100 \	3	3	3D140	B64G   1/40	296	ǳѤΡʤ켫Σƣˣ	Using liquid fuels (per se F02K9/42)
B64G   1/40 200 \	3	3	3D140	B64G   1/40	486	ʺޥ󥯡ʺޤ򶡵뤹Ρʰ̣ƣˣ	Propellant tanks ; for feeding propellants (in general F02K9/44)
B64G   1/40 300 \	3	3	3D140	B64G   1/40	180	ǳѤΡʤ켫Σƣˣ	Using solid fuels (per se F02K9/72)
B64G   1/40 400 \	4	4	3D140	B64G   1/40	23	ϥ֥åɥåȥ󥸥ʤ켫Σƣˣ	Hybrid rocket engines (per se F02K9/72)
B64G   1/40 500 \	3	3	3D140	B64G   1/40	166	ޤϥץ饺ޥ󥸥㡥ۡ륹饹ʤ켫Σƣȣ	Ion or plasma engines, e.g. hall thruster (per se F03H1/00)
B64G   1/40 600 \	3	3	3D140	B64G   1/40	46	åȤ¾Υ쥸ȥå	arcjet and other resistojet
B64G   1/40 700 \	3	3	3D140	B64G   1/40	53	顼	Solar sailing
B64G   1/40 800 \	3	3	3D140	B64G   1/40	13	ϱ赡	Propulsion of nuclear spacecraft
B64G   1/40 900 \	3	3	3D140	B64G   1/40	103	¾α赡ʥƥࡤ㡥ɥ饹ҥå	Other spacecraft propulsion systems, e.g. cold gas jet thrusters, optical rockets
B64G   1/42  \	2	2	3D140	B64G   1/42	152	ư϶륷ƥ֤ޤŬѡΣ	Arrangements or adaptations of power supply systems [2006.01]
B64G   1/42 100 \	3	3	3D140	B64G   1/42	13	۸ȯ	Non-solar power generation
B64G   1/42 120 \	4	4	3D140	B64G   1/42	16	ȯ	Atomic power generation
B64G   1/42 130 \	4	4	3D140	B64G   1/42	11	ǳ	Fuel cells
B64G   1/42 200 \	3	3	3D140	B64G   1/42	57	ư¢	Energy storage
B64G   1/42 260 \	4	4	3D140	B64G   1/42	13	ե饤ۥ	Flywheels
B64G   1/42 270 \	4	4	3D140	B64G   1/42	7	Ǯ¢	Thermal power storage
B64G   1/42 300 \	3	3	3D140	B64G   1/42	230	ʬӴ	Distribution and management of electric power
B64G   1/44  \	3	3	3D140	B64G   1/44	193	ռͤѡ㡥Ÿǽӥ쥤Σ	using radiation, e.g. deployable solar arrays [2006.01]
B64G   1/44  A	3	0	3D140	B64G   1/44	141	Ӥ	Direction control of solar cells
B64G   1/44  Z	3	0	3D140	B64G   1/44	338	¾Τ	Others
B64G   1/44 300 \	4	4	3D140	B64G   1/44	545	ӥ	Arrays of solar cells
B64G   1/44 600 \	4	4	3D140	B64G   1/44	32	Ǯȯ	Solar thermal power generation
B64G   1/46  \	2	2	3D140	B64G   1/46	35	Ķޤ¸֤Ѥ֤֤ޤŬѡΣ	Arrangements or adaptations of devices for control of environment or living conditions [2006.01]
B64G   1/48  \	3	3	3D140	B64G   1/48	32	絤򰷤ΤΡʣ£ǣͥˡΣ	for treatment of the atmosphere (B64G 1/50 takes precedence) [2006.01]
B64G   1/50  \	3	3	3D140	B64G   1/50	367	٤椹뤿ΤΡΣ	for temperature control [2006.01]
B64G   1/50  A	3	0	3D140	B64G   1/50	45	ֳдΤѴ	Radiation coolers for infra-red detectors
B64G   1/50  C	3	0	3D140	B64G   1/50	102	ޥ롼ФѤ	Using thermal louvers
B64G   1/50  Z	3	0	3D140	B64G   1/50	402	¾Τ	Others
B64G   1/50 300 \	4	4	3D140	B64G   1/50	191	饸ѥͥ	Radiator Panels
B64G   1/50 600 \	4	4	3D140	B64G   1/50	254	ҡȥѥ	Heat pipes
B64G   1/52  \	2	2	3D140	B64G   1/52	137	ݸޤ϶۵֡¸ΡΣ	Protection, safety or emergency devices; Survival aids [2006.01]
B64G   1/52 525 \	3	3	3D140	B64G   1/52	9	̿	Life-saving aids
B64G   1/54  \	3	3	3D140	B64G   1/54	58	ФɸΣ	Protection against radiation [2006.01]
B64G   1/54 300 \	4	4	3D140	B64G   1/54	9	Ȱݸ	For protecting crews
B64G   1/54 600 \	4	4	3D140	B64G   1/54	51	Żҵä	Shielding electronic equipment
B64G   1/56  \	3	3	3D140	B64G   1/56	92	Фޤϥڡǥ֥ФɸΣ	Protection against meteoroids or space debris [2006.01]
B64G   1/58  \	3	3	3D140	B64G   1/58	374	Ǯݸ㡥ǮáΣ	Thermal protection, e.g. heat shields  (thermal insulation in general F16L 59/00) [2006.01]
B64G   1/60  \	2	2	3D140	B64G   1/60	66	ȤޤϾҤεｻߡΣ	Crew or passenger accommodations [3]
B64G   1/62  \	2	2	3D140	B64G   1/62	156	ϵ絤˺뤿֡®ޤΦ֡Σ	Systems for re-entry into the earth's atmosphere; Retarding or landing devices [3]
B64G   1/64  \	2	2	3D140	B64G   1/64	710	ҹΤη硦ʬΥΤޤϤʡ㡥ɥå󥰤Τ֡Σ	Systems for coupling or separating cosmonautic vehicles or parts thereof, e.g. docking arrangements [3]
B64G   1/64  C	2	0	3D140	B64G   1/64	73	Ρե󥰤ʬΥ	separation of nose fairing
B64G   1/64  Z	2	0	3D140	B64G   1/64	147	¾Τ	Others
B64G   1/64 100 \	3	3	3D140	B64G   1/64	267	ʴ֤ޤϥڥɤη硦ʬΥΤΤ	For coupling and separating Interstage or payload
B64G   1/64 143 \	4	4	3D140	B64G   1/64	44	ʣαΤΤ	For multiple satellites
B64G   1/64 500 \	3	3	3D140	B64G   1/64	367	ʬΥħ	Characterized by separation
B64G   1/64 600 \	3	3	3D140	B64G   1/64	336	ɥå󥰥ƥޤϥǥ֡ƥ	Docking systems or rendezvous systems
B64G   1/64 800 \	3	3	3D140	B64G   1/64	76	ƥ	Space tethers
B64G   1/66  \	2	2	3D140	B64G   1/66	16	¾ʬवʤ״֤ޤŬѡΣ	Arrangements or adaptations of apparatus or instruments, not otherwise provided for [2006.01]
B64G   1/66  A	2	0	3D140	B64G   1/66	392	״ޤϴ¬֤֤ޤŬ	Arrangements or adaptations of apparatus or observation devices
B64G   1/66  B	2	0	3D140	B64G   1/66	255	ŵޤŻҵ֤ޤŬ	Arrangements or adaptations of electric instruments or electronic instruments
B64G   1/66  C	2	0	3D140	B64G   1/66	407	ƥʤ֤ޤŬ	Arrangements or adaptations of antennas
B64G   1/66  Z	2	0	3D140	B64G   1/66	589	¾Τ	Others
B64G   1/68  \	3	3	3D140	B64G   1/68	84	Фޤϥڡǥ֥긡δΣ	of meteoroid or space debris detectors [3, 2006.01]
B64G   3/00  \	0	0	3D140	B64G   3/00	635	ҹΤδ¬ޤסΣ	Observing or tracking cosmonautic vehicles [2006.01]
B64G   4/00  \	0	0	3D140	B64G   4/00	128	絤ǻѤ뤿ä˹פ줿Σ	Tools specially adapted for use in space [3]
B64G   4/00 105 \	1	1	3D140	B64G   4/00	260	ǻѤܥåȥޥ˥ԥ졼ƥ	Robot manipulator systems used in the outer space
B64G   5/00  \	0	0	3D140	B64G   5/00	319	ҹΤΤϾ㡥ȯ㡤ǳ֡ʣ£ǣͥ	Ground equipment for vehicles, e.g. starting towers, fuelling arrangements (B64G 3/00 takes precedence)
B64G   5/00 105 \	1	1	3D140	B64G   5/00	13	ȯͤΤ	Facilities for sea launch
B64G   6/00  \	0	0	3D140	B64G   6/00	52	Σ	Space suits [3]
B64G   7/00  \	0	0	3D140	B64G   7/00	65	֤Υߥ졼㡥ȰĴҤ뤿ΤΡΣ	Simulating cosmonautic conditions, e.g. for conditioning crews [2006.01]
B64G   7/00  A	0	0	3D140	B64G   7/00	214	̵֤̾뤿Τ	For obtaining zero-gravity state
B64G   7/00  B	0	0	3D140	B64G   7/00	97	ǮĶΥߥ졼	Simulation of heat environments
B64G   7/00  C	0	0	3D140	B64G   7/00	133	Τλʣޤϣ¤ͥ	Tests for cosmonautic vehicles (A or B takes precedence)
B64G   7/00  Z	0	0	3D140	B64G   7/00	65	¾Τ	Others
B64G   7/00 105 \	1	1	3D140	B64G   7/00	113		Vacuum chambers
B64G  99/00  \	0	0	3D140	B64G  99/00	93	Υ֥饹¾Υ롼פʬवʤΣ	Subject matter not provided for in other groups of this subclass
