F25B   1/00  \	0	0	3L090	F25B   1/00	126	Բĵեˤ밵̼ץȤޤϥƥʣƣ£ƣ£ƣ£ƣ£ƣ£ͥˡΣ	Compression machines, plant or systems with non-reversible cycle (F25B 3/00, F25B 5/00, F25B 6/00, F25B 7/00, F25B 9/00 take precedence) [5]
F25B   1/00  A	0	0	3L090	F25B   1/00	87	ĤζŽ̴ϩȿĤξȯϩȤʻĤ	with both several condenser circuits and several evaporator circuits
F25B   1/00  B	0	0	3L090	F25B   1/00	229	̵Ž̴ȯ浪ӵʬΥʾΤΤδ֤֡㡥㺹⤿֡ħΡ̾ȯŽ̴ؤεʬΥ֣Ρաӡ̵ؤεʬΥ֣	arrangement between at least two compressors, condensers, evaporators, and vapor-liquid separators, e.g. characterized by arrangement with level differences (arrangement of vapor-liquid separators to evaporators and condensers 39/00N, 39/02U, 39/04S; arrangement of vapor-liquid separators to compressors 43/00)
F25B   1/00  D	0	0	3L090	F25B   1/00	242	˥ĥȲħ	Characterized by unitization
F25B   1/00  Y	0	0	3L090	F25B   1/00	26	ʴ	refrigerants with fine powder mixed
F25B   1/00  Z	0	0	3L090	F25B   1/00	423	¾Τ	Others
F25B   1/00 101 \	1	1	3L090	F25B   1/00	13	ХѥϩĤΡʣͥ	with bypass circuits (6/00, 6/02, 6/04, 1/05, 3, 311, 331, 351, 387, and 391 take precedence)
F25B   1/00 101 D	1	0	3L090	F25B   1/00	428	ȯХѥ	bypassing evaporators
F25B   1/00 101 E	1	0	3L090	F25B   1/00	954	ȯȸ㡥ĥۤޤϥԥݥ֡ȤХѥΡĥۤޤϥԥݥ֤ΤߤХѥΣ	evaporators and pressure reducers, e.g. bypassing expansion valves or capillary tubes (bypassing only expansion valves or capillary tubes 304)
F25B   1/00 101 F	1	0	3L090	F25B   1/00	566	̵Хѥ	bypassing compressors
F25B   1/00 101 G	1	0	3L090	F25B   1/00	525	Ž̴ХѥΡ㡥Ž̲ϩΰХѥ	bypassing condensers, e.g. bypassing a part of the condensation circuit
F25B   1/00 101 H	1	0	3L090	F25B   1/00	685	Ž̴ȸ㡥ĥۤޤϥԥݥ֡ȤХѥ	condensers and pressure reducers, e.g. bypassing expansion valves or capillary tubes
F25B   1/00 101 J	1	0	3L090	F25B   1/00	363	ʣΥХѥϩĤ	with a plurality of bypass circuits
F25B   1/00 101 Z	1	0	3L090	F25B   1/00	683	¾Τ	Others
F25B   1/00 303 \	1	1	3L090	F25B   1/00	268	ħΡʣͥ衤ǮĤΣ	characterized by the dehumidification cycle (6/00, 6/02, 6/04, and 1/053 take precedence, with reheaters 29/00, 391)
F25B   1/00 304 \	1	1	3L090	F25B   1/00	14	ήʤħΡ㡥ĥۤޤϰ̵̤ʣͥ衤ĥۼΣ	characterized by the flow rate control means, e.g. expansion valve control or compressor intake amount control (6/00, 6/02, 6/04, 1/053, and 351 take precedence, expansion valve 41.06)
F25B   1/00 304 A	1	0	3L090	F25B   1/00	186	Ž̴ȾȯȤδ֤ߤ㡥ĥۤޤϥԥݥ֡ˤ	pressure reducers mounted between condensers and evaporators, e.g. by expansion valves or capillary tubes
F25B   1/00 304 B	1	1	3L090	F25B   1/00	172	ήϩѤΤΡ㡥ԥݥ	flow path sectional area fixed, e.g. capillary tubes
F25B   1/00 304 C	1	2	3L090	F25B   1/00	117	ޤȥԥݥޤȤǮ򴹤	refrigerants and refrigerants in capillary tubes exchanging heat
F25B   1/00 304 D	1	1	3L090	F25B   1/00	328	ήϩѤѤΤΡ㡥ۤγĤˤꥭԥݥ֤򤹤ΤޤĥۡήϩѤΤΤȲѤΤΤȤξĤΣ	flow path sectional area variable, e.g. capillary tubes selected by opening or closing the valve or expansion valves (with both flow path sectional areas fixed and variable A)
F25B   1/00 304 E	1	2	3L090	F25B   1/00	161	ư̵ޤŸξ֤ˤήϩѤѤΡ㡥̵β٤ˤΡ̣ͥ	flow path sectional area variable depending on the motor, compressor, lubricant, or power state, e.g. depending on compressor temperature (F takes precedence)
F25B   1/00 304 F	1	2	3L090	F25B   1/00	549	̵ǽήȤȹ礻ħΡ㡥̵βžˤĥۤγ٤Ѥ	characterized by combination of compressor capacity control and flow rate control, e.g. the aperture of the expansion valve variable depending on the number of revolutions of the compressor
F25B   1/00 304 G	1	2	3L090	F25B   1/00	251	ޤξ֤ΤߤˤήϩѤѤ	flow path sectional area changed only by the refrigerant state
F25B   1/00 304 H	1	3	3L090	F25B   1/00	695	٤ޤϰϤΤߤˤ	only by temperature or pressure
F25B   1/00 304 J	1	4	3L090	F25B   1/00	55	ԥݥ֤ޤϳٸĥۤѤΡ̣СѡҤͥ	using capillary tubes or expansion valves with the aperture fixed (P. Q, and R take precedence)
F25B   1/00 304 K	1	4	3L090	F25B   1/00	173	ĲټĥۤѤΡ̣СѡҤͥ	using temperature expansion valves having temperature sensitive cylinders (P, Q, and R take precedence)
F25B   1/00 304 L	1	4	3L090	F25B   1/00	781	ưĥۡǮżĥۤѤΡ̣СѡҤͥ	using motor expansion valves and thermoelectric expansion valves (P, Q, and R take precedence)
F25B   1/00 304 P	1	4	3L090	F25B   1/00	661	ⰵ¦β٤ޤϰϤΤߤˤΡ̣Ҥͥ	by temperature or pressure on the high pressure side (R takes precedence)
F25B   1/00 304 Q	1	4	3L090	F25B   1/00	434	ⰵ¦㰵¦β٤ޤϰϤΤߤˤΡ㡥Ϻˤĥۤγ٤ѤΡĥۤζѰɤⰵ¦ޤ㰵¦ڴΡ̣Ҥͥ	only by temperature or pressure on the high pressure side and low pressure side, e.g. the aperture of the expansion valve being varied by the pressure difference, the equalizing tube of the temperature sensitive expansion valve being switched to the high pressure side or low pressure side (R takes precedence)
F25B   1/00 304 R	1	4	3L090	F25B   1/00	191	޴֤ǮХѥɤޤϵʬΥ³ƳдɤӱƳдɤΰƳдɤβ٤ޤϰϤˤ	by temperature or pressure of one derivation tube of the gas derivation tube and liquid derivation tube connected to the heat exchange unit between refrigerants, bypass tube, or vapor-liquid separator
F25B   1/00 304 S	1	2	3L090	F25B   1/00	340	Ǯʪβ٤ΤߤˤήϩѤѤΡ㡥ޤϳ	flow path sectional area being changed only by the temperature of heated and cooled articles, e.g. room temperature or air temperature
F25B   1/00 304 T	1	2	3L090	F25B   1/00	317	ޤξ֤Ǯʪβ٤Ȥȹ礻ΤߤˤήϩѤѤ	flow path sectional area being changed only by a combination of the refrigerant state and the temperature of heated and cooled articles
F25B   1/00 304 W	1	0	3L090	F25B   1/00	365	ȯȰ̵Ȥδ֤ߤήʤˤ	by the flow rate control means mounted between the evaporator and compressor
F25B   1/00 304 Z	1	0	3L090	F25B   1/00	460	¾Τ	Others
F25B   1/00 311 \	1	1	3L090	F25B   1/00	4	󥸥ʤħΡ㡥¿ʣͥ	characterized by the injection means, e.g. multi-effect cycle (6/00, 6/02, 6/04, and 1/053 take precedence)
F25B   1/00 311 A	1	0	3L090	F25B   1/00	145	ʬΥޤ򥤥󥸥ϩƳΡӱޤޤϵպޤ򥤥󥸥ϩƳΡ̣Ĥͥ	gas refrigerant subjected to vapor-liquid separation being  introduced into the injection circuit and liquid refrigerant or vapor and liquid mixed refrigerant being introduced into the injection circuit (D takes precedence)
F25B   1/00 311 B	1	1	3L090	F25B   1/00	603	ʬΥޤ򥤥󥸥ϩƳΡ㡥󥸥	gas refrigerant subjected to vapor-liquid separation being  introduced into the injection circuit, e.g. gas injection
F25B   1/00 311 C	1	1	3L090	F25B   1/00	732	ޤޤϵպޤ򥤥󥸥ϩƳΡ㡥ե󥸥	gas refrigerant subjected to vapor-liquid separation being  introduced into the injection circuit, e.g. liquid injection
F25B   1/00 311 D	1	0	3L090	F25B   1/00	138	ʬΥޤ򥤥󥸥ϩƳΤȡޤϱޤޤϵպޤ򥤥󥸥ϩƳΤȰ̵ǽʤȤȹ礻ħ	Characterized by a combination of gas refrigerant subjected to vapor-liquid separation being  introduced into the injection circuit or liquid refrigerant or vapor and liquid mixed refrigerant being introduced into the injection circuit and the compressor capacity control means
F25B   1/00 311 E	1	1	3L090	F25B   1/00	77	ʬΥޤ򥤥󥸥ϩƳ	gas refrigerant subjected to vapor-liquid separation being  introduced into the injection circuit
F25B   1/00 311 Z	1	0	3L090	F25B   1/00	175	¾Τ	Others
F25B   1/00 321 \	1	1	3L090	F25B   1/00	122	ǮѼʤħΤΡʣͥ	characterized by the auxiliary heating cooling means (311 and 351 take precedence)
F25B   1/00 321 A	1	0	3L090	F25B   1/00	656	ޤѤΡ㡥ѤΡ̣áȤͥ表ѴＫΣ	cooling refrigerants, e.g. overcooling (C and H take precedence; overcooling device 40/02)
F25B   1/00 321 B	1	0	3L090	F25B   1/00	780	ޤǮΡ㡥ݥѥҡݥȤΡ̣áȤͥ表ݥѥҡݥΣޤλȯּΣ	heating refrigerants, e.g. super heating (C and H take precedence; super heater 40/60; devices for evaporating residue of liquid refrigerants 43/00)
F25B   1/00 321 C	1	0	3L090	F25B   1/00	664	ǮˤޤǮޤѤ	heating or cooling refrigerants by heat storage devices
F25B   1/00 321 H	1	0	3L090	F25B   1/00	70	̵ưޤ浡ǮޤѤ	heating or cooling the compressor, motor, lubricant, or control device
F25B   1/00 321 J	1	1	3L090	F25B   1/00	357	Ǯ	heating
F25B   1/00 321 K	1	1	3L090	F25B   1/00	284	Ѥ	cooling
F25B   1/00 321 L	1	2	3L090	F25B   1/00	479	ޤѤѤΡ㡥ȾƳǻҤѤΡޤǮ򴹤̤ޤѤơ㡥ҡݥȥѥפѤơѤ	cooling using refrigerants, e.g. cooling semiconductor elements; using another refrigerant which is heat-exchanged with the refrigerant, e.g. cooling using heat pipes
F25B   1/00 321 M	1	3	3L090	F25B   1/00	177	̵ưޤϽѤ	cooling the compressor, motor, or lubricant
F25B   1/00 321 N	1	4	3L090	F25B   1/00	135	ޤưƳưѤΡ̣Ѥͥ	introducing refrigerants into the motor chamber and cooling the motor (Q takes precedence)
F25B   1/00 321 P	1	5	3L090	F25B   1/00	62	ǽХޤѤưƳưѤ塢Ž̴ήΡ㡥ǥݥѥҡݥȤΡ̥ǥݥѥҡݥΣ	cooling discharged gas refrigerants, introducing into the motor chamber, and cooling the motor and then supplying them to the condenser,
F25B   1/00 321 Q	1	4	3L090	F25B   1/00	97	̵Ǯ򴹴Ĥ	with a heat exchanger in the compressor
F25B   1/00 321 R	1	5	3L090	F25B   1/00	38	ޤϥݥפˤǮ򴹴ޤή	supplying refrigerants to the heat exchanger by the ejector or pump
F25B   1/00 321 S	1	4	3L090	F25B   1/00	127	ѴĤΡ̣Ѥͥ	with a lubricant cooler (Q takes precedence)
F25B   1/00 321 Z	1	0	3L090	F25B   1/00	71	¾Τ	Others
F25B   1/00 331 \	2	2	3L090	F25B   1/00	14	޴֤Ǯ򴹤	heat exchange between refrigerants
F25B   1/00 331 A	2	0	3L090	F25B   1/00	33	ưѤΡ㡥ޤȤǮ򴹤ˤǥݥѥҡݥȤΡ̥ǥݥѥҡݥΣ	cooling the motor, e.g. desuperheating by heat exchange with refrigerants (desuperheaters per se 40/04)
F25B   1/00 331 B	2	0	3L090	F25B   1/00	94	ޤȥХѥϩޤȤǮ򴹤Ρ㡥ְ֤¦ХѥΡ̣ͥ	heat exchange between refrigerants and refrigerants of the bypass circuit, e.g. bypassing the intermediate pressure side between pressure reducers (A takes precedence)
F25B   1/00 331 C	2	1	3L090	F25B   1/00	123	㰵¦Хѥ	bypassing the low pressure side
F25B   1/00 331 D	2	1	3L090	F25B   1/00	216	ⰵ¦Хѥ	bypassing the high pressure side
F25B   1/00 331 E	2	2	3L090	F25B   1/00	1058	Хѥϩޤȹⰵ¦ޤȤǮ򴹤Ρ㡥ѤΡ̲ѴＫΣ	the reduced refrigerant of the bypass circuit and the refrigerant on the high pressure side exchanging heat, e.g. overcooling (overcooling device 40/02)
F25B   1/00 331 F	2	3	3L090	F25B   1/00	38	Хѥϩ̵Ĥ	having an auxiliary compressor in the bypass circuit
F25B   1/00 331 G	2	0	3L090	F25B   1/00	169	ݥޤǮ򴹤Ρ̥ݥΣ	exchanging heat with refrigerants in the accumulator (accumulator 43/00)
F25B   1/00 331 Z	2	0	3L090	F25B   1/00	1193	¾Τ	Others
F25B   1/00 341 \	1	1	3L090	F25B   1/00	17	ưħ	Characterized by start and stop control
F25B   1/00 341 A	1	0	3L090	F25B   1/00	72	ư߿Ϥ븡оݤμħ	Characterized by the kind of detection objects outputting a start or stop signal
F25B   1/00 341 B	1	1	3L090	F25B   1/00	73	ޤξ֤Τߡ㡥դξ	only the refrigerant stage, e.g. vapor and liquid state
F25B   1/00 341 C	1	2	3L090	F25B   1/00	307	١ϤΤ	only temperature and pressure
F25B   1/00 341 D	1	3	3L090	F25B   1/00	191	㰵¦β١ϤΤ	only temperature and pressure on the low pressure side
F25B   1/00 341 F	1	1	3L090	F25B   1/00	109	Ǯʪξ֤Τߡ㡥٤ޤ	only heated and cooled article state, e.g. temperature or wind rate
F25B   1/00 341 G	1	2	3L090	F25B   1/00	118	ʪξ֤Τ	only cooled article state
F25B   1/00 341 H	1	1	3L090	F25B   1/00	75	ޤξ֤ʪξ֤Ȥȹ礻Τ	only a combination of the refrigerant state and cooled article state
F25B   1/00 341 J	1	1	3L090	F25B   1/00	156	Ÿξ֡㡥ưαžή	power state, e.g. running current of the motor
F25B   1/00 341 K	1	1	3L090	F25B   1/00	147	̵ޤϤưξ֡㡥̵٤ޤϲẓ̌ʤͥ	state of the compressor or its motor, e.g. compressor temperature or number of revolutions (J takes precedence)
F25B   1/00 341 L	1	1	3L090	F25B   1/00	91	ξ	lubricant state
F25B   1/00 341 M	1	1	3L090	F25B   1/00	31	Ǯʪѥե󡤥ݥפޤϤưξ̣֡ʤͥ	state of the heated and cooled article fan, pump, or its motor (J takes precedence)
F25B   1/00 341 P	1	0	3L090	F25B   1/00	178	ưħΡ̣֤ͥ	characterized by start control (V takes precedence)
F25B   1/00 341 Q	1	1	3L090	F25B   1/00	111	̵ǽȤδطħ	Characterized by the relationship with compressor capacity control
F25B   1/00 341 R	1	2	3L090	F25B   1/00	296	žˤ	by engine speed control
F25B   1/00 341 S	1	1	3L090	F25B   1/00	163	ƻưħΡ̣Ѥͥ	characterized by restart control (Q takes precedence)
F25B   1/00 341 T	1	2	3L090	F25B   1/00	155	ˤ	by timer control
F25B   1/00 341 U	1	0	3L090	F25B   1/00	272	ħΡ̣֤ͥ	characterized by stop control (V takes precedence)
F25B   1/00 341 V	1	0	3L090	F25B   1/00	314	Ĥΰ̵ޤϰ̼ĤΤλưħ	Characterized by start and stop control of a device having several compressors or compression chambers
F25B   1/00 341 Z	1	0	3L090	F25B   1/00	44	¾Τ	Others
F25B   1/00 351 \	2	2	3L090	F25B   1/00	15	ư߻̵ʳεħΡ㡥߻˹ⰵ¦㰵¦ޤήΤ˻ߤ	characterized by operation of devices other than the compressors at start or stop, e.g. preventing flow of refrigerants from the high pressure side to the low pressure side at stop
F25B   1/00 351 A	2	0	3L090	F25B   1/00	201	ư߻ήޤήϩڴħΡ̣ӡԡդͥ	characterized by refrigerant flow rate control or flow path switching at start or stop (S, T, and U take precedence)
F25B   1/00 351 B	2	1	3L090	F25B   1/00	237	߻˾ȯؤή˻ߤΡ㡥ȯ¦˳ۡи¦˵ջۤߤΡ̣Ǥͥ	prevention of refrigerant flow into the evaporator at stop, e.g. a switching valve mounted on the inlet side of the evaporator and a check valve mounted on the outlet side (G takes precedence)
F25B   1/00 351 C	2	2	3L090	F25B   1/00	94	ۤˤ	by differential valves
F25B   1/00 351 D	2	1	3L090	F25B   1/00	129	߻˹㰵Х󥹤Ρ̣Ǥͥ	balancing high pressure and low pressure at stop (G takes precedence)
F25B   1/00 351 E	2	2	3L090	F25B   1/00	169	ХѥϩˤΡ̣Ƥͥ衤ΤߤХѥΣġ	by the bypass circuit (F takes precedence, bypassing only the pressure reducer D)
F25B   1/00 351 F	2	2	3L090	F25B   1/00	28	ۤˤ	by differential valves
F25B   1/00 351 G	2	1	3L090	F25B   1/00	87	߻˾ȯؤή˻ߤȤȤ˹㰵Х󥹤	preventing refrigerants from entering the evaporator at stop and balancing the high pressure and low pressure
F25B   1/00 351 H	2	2	3L090	F25B   1/00	34	ۤˤ	by differential valves
F25B   1/00 351 J	2	1	3L090	F25B   1/00	145	ưή椹	flow rate control at start
F25B   1/00 351 K	2	2	3L090	F25B   1/00	369	Ž̴ȾȯȤδ֤ߤˤή椹	flow rate control by the pressure reducer mounted between the condenser and evaporator
F25B   1/00 351 N	2	1	3L090	F25B   1/00	355	ХѥϩΡ̣Ťͥ表ư˸ΤߤХѥΣˡ	operating the bypass circuit (E takes precedence; bypassing only the pressure reducer at start)
F25B   1/00 351 S	2	0	3L090	F25B   1/00	187	ᤷħ	Characterized by returning of lubricants
F25B   1/00 351 T	2	0	3L090	F25B   1/00	278	Ǯ򴹼ʤħΡ㡥եβž椹	characterized by the operation of the heat exchange means, e.g. controlling the number of revolutions of the fan
F25B   1/00 351 U	2	0	3L090	F25B   1/00	296	ǮѼʤħΡ㡥߻˰̵Ǯ	characterized by the operation of the auxiliary heating and cooling means, e.g. heating the compressor at stop
F25B   1/00 351 V	2	1	3L090	F25B   1/00	55	ήϩڴޤήˤΡ㡥ưưХѥ	by refrigerant flow path switching or flow rate control, e.g. bypassing the motor chamber at start
F25B   1/00 351 Z	2	0	3L090	F25B   1/00	92	¾Τ	Others
F25B   1/00 361 \	1	1	3L090	F25B   1/00	38	̵ǽȤδطħΡʰ̵ǽ̤ϣƣ£	characterized by the relationship with compressor capacity control (compressor capacity control in general F04B 49/00)
F25B   1/00 361 A	1	0	3L090	F25B   1/00	540	žˤΡ̣á̡Фͥ	by the number of revolutions (C, L, and P take precedence)
F25B   1/00 361 B	1	0	3L090	F25B   1/00	45	ǥݥƥˤΡ̡̣Фͥ	by the duty ratio (L and P take precedence)
F25B   1/00 361 C	1	0	3L090	F25B   1/00	126	ưˤΡ㡥˿ѴˤΡ̣¡̡Фͥ	by the motor, e.g. by conversion of the number of poles (B, L, and P take precedence)
F25B   1/00 361 D	1	1	3L090	F25B   1/00	1460	Сݥˤ	by the inverter
F25B   1/00 361 G	1	0	3L090	F25B   1/00	210	ǽϲѰ̵ˤΡ̣¡̡Фͥ	by the capacity variable compressor (B, L, and P take precedence)
F25B   1/00 361 H	1	1	3L090	F25B   1/00	207	ݥϩˤ	by the release circuit
F25B   1/00 361 J	1	0	3L090	F25B   1/00	550	Ĥΰ̼ĤΤޤϰ̵ˤΡ㡥ۤʤ̤ΰ̵ȹ礻ˤǽ椹Ρ̡̣Фͥ	by having several compression chambers or compressors, e.g. capacity control by a combination of compressors having different capacities (L and P take precedence)
F25B   1/00 361 L	1	0	3L090	F25B   1/00	361	Ĥǽʤȹ礻ˤΡ㡥̸ΰ̵ȥСݥΰ̵Ȥȹ礻	by a combination of several capacity control means, e.g. a combination of capacity-fixed compressors and inverter control compressors
F25B   1/00 361 P	1	0	3L090	F25B   1/00	302	̵ǽ¾μʡ㡥ХѥϩȤȹ礻ĥۤȤȹ礻ơ󥸥ϩȤȹ礻ġ	a combination of compressor capacity control and control of other means, e.g. bypass circuit (a combination with expansion valve control 304F, a combination with injection circuit control 311D)
F25B   1/00 361 Q	1	1	3L090	F25B   1/00	260	Ž̼ʤޤϾȯʤȤȹ礻㡥̵žȶŽ̴եžȤ椹	a combination with condensation means or evaporation means control, e.g. controlling the number of revolutions of the compressor and the number of revolutions of the condenser fan
F25B   1/00 361 Z	1	0	3L090	F25B   1/00	88	¾Τ	Others
F25B   1/00 371 \	2	2	3L090	F25B   1/00	6	̤μࡤ㡥޲٤ޤϰϡħ	Characterized by the control amount kind, e.g. refrigerant temperature or pressure
F25B   1/00 371 A	2	0	3L090	F25B   1/00	99	ޤξ֤Τߡ㡥ݥα̹⤵̣ʤͥ	only the refrigerant state, e.g. liquid level of the accumulator (J takes precedence)
F25B   1/00 371 B	2	1	3L090	F25B   1/00	847	٤ޤϰϡ㡥٤Ӱ	temperature or pressure, e.g. temperature and pressure
F25B   1/00 371 C	2	2	3L090	F25B   1/00	507	ϤΤ	only pressure
F25B   1/00 371 E	2	0	3L090	F25B   1/00	123	Ǯʪξ֡Ǯʪѥե󡤥ݥפޤϤưξ̣֡Τͥ	heated and cooled article state; state of the heated and cooled article fan, pump, or its motor (N takes precedence)
F25B   1/00 371 F	2	1	3L090	F25B   1/00	631	٤Τߡ㡥ޤϳ	only temperature, e.g. room temperature or air temperature
F25B   1/00 371 J	2	0	3L090	F25B   1/00	216	ޤξ֤Ǯʪξ֤Ȥȹ礻Τ	only a combination of the refrigerant state and heated and cooled article state
F25B   1/00 371 M	2	0	3L090	F25B   1/00	248	̵ޤϤưξ֡㡥̵β٤ޤϱžΨ̣Τͥ	state of lubricant, compressor, or its motor, e.g. temperature of the compressor or running rate (N takes precedence)
F25B   1/00 371 N	2	0	3L090	F25B   1/00	292	Ÿξ֡㡥ưαžή	power state, e.g. running current of the motor
F25B   1/00 371 Z	2	0	3L090	F25B   1/00	197	¾Τ	Others
F25B   1/00 381 \	1	1	3L090	F25B   1/00	7	Ž̼ʤħΡ㡥Ž̴եʣͥ衤Ž̴ＫΣ	characterized by the condensation means, e.g. condenser fan control (101 and 351 take precedence, condenser 39/04)
F25B   1/00 381 A	1	0	3L090	F25B   1/00	122	估Ž̴	air cooling condenser
F25B   1/00 381 B	1	1	3L090	F25B   1/00	66	ѤĤ	with a damper
F25B   1/00 381 C	1	1	3L090	F25B   1/00	98	ĤΥեĤΡ̣¤ͥ	with several fans (B takes precedence)
F25B   1/00 381 D	1	1	3L090	F25B   1/00	951	ե̣¡äͥ	fan control (B and C take precedence)
F25B   1/00 381 G	1	0	3L090	F25B   1/00	288	ȯŽ̴	evaporation type condenser
F25B   1/00 381 H	1	0	3L090	F25B   1/00	409	估Ž̴	water cooling condenser
F25B   1/00 381 J	1	1	3L090	F25B   1/00	116	޲٤ޤϰϤ˱ѿ̤Ѥ	cooling water amount being changed according to the refrigerant temperature or pressure
F25B   1/00 381 Z	1	0	3L090	F25B   1/00	138	¾Τ	Others
F25B   1/00 383 \	1	1	3L090	F25B   1/00	753	ȯʤħΡ㡥ȯեʣͥ衤ȯＫΣ	characterized by the evaporation means, e.g. evaporator fan control (101 and 351 take precedence, evaporator 39/02)
F25B   1/00 385 \	1	1	3L090	F25B   1/00	35	޽۴ʤħΡ㡥ίƴѤ޽۴̤椹	characterized by the refrigerant circulation amount control means, e.g. refrigerant circulation amount being controlled using a liquid collection vessel
F25B   1/00 385 A	1	0	3L090	F25B   1/00	130	ίƴޤȴޤȤǮ򴹤	the refrigerant in the liquid collection vessel and refrigerant in the tube being exchanged with heat
F25B   1/00 385 Z	1	0	3L090	F25B   1/00	836	¾Τ	Others
F25B   1/00 387 \	1	1	3L090	F25B   1/00	4	ᤷʤħΡʣͥ	characterized by the oil return means (321 and 351 take precedence)
F25B   1/00 387 A	1	0	3L090	F25B   1/00	354	ⰵ¦ʬΥ򰵽̵᤹	lubricant separated on the high pressure side being returned to the compressor
F25B   1/00 387 B	1	1	3L090	F25B   1/00	606	Хѥϩˤ򰵽̵¦᤹	lubricant being returned to the intake tube of the compressor by the bypass circuit
F25B   1/00 387 D	1	0	3L090	F25B   1/00	163	㰵¦ʬΥ򰵽̵᤹	lubricant separated on the low pressure side being returned to the compressor
F25B   1/00 387 E	1	1	3L090	F25B   1/00	85	ʬΥФǮ	lubricant separated and extracted being heated
F25B   1/00 387 F	1	1	3L090	F25B   1/00	123	̵᤹Ρ̣Ťͥ表¦᤹Σġ	returning into the compressor (E takes precedence; returning to the intake pipe)
F25B   1/00 387 G	1	1	3L090	F25B   1/00	191	ݥʬΥΡ̣šƤͥ	separating by the accumulator (E and F take precedence)
F25B   1/00 387 J	1	0	3L090	F25B   1/00	123	̵ǽʬΥΡ̵ǽ۴Ĥ	separating lubricant by the compressor; circulating lubricant in the compressor
F25B   1/00 387 K	1	0	3L090	F25B   1/00	524	Ĥΰ̵ĤΡ̣̤ͥ	with several compressors
F25B   1/00 387 L	1	0	3L090	F25B   1/00	322	̵ޤή´ή̤Ѥ뤳Ȥˤ򰵽̵᤹	returning lubricant to the compressor by changing the flow rate by the compressor or flow rate controller
F25B   1/00 387 Z	1	0	3L090	F25B   1/00	265	¾Τ	Others
F25B   1/00 389 \	1	1	3L090	F25B   1/00	3	ƽ۴ļʤħΡ㡥Ž̴ﲼήޤ򥨥ˤŽ̴ήήΡʣͥ	characterized by the recirculation means, e.g. flowing refrigerant in the down stream of the condenser to the upstream of the condenser by the executor (321 takes precedence)
F25B   1/00 389 A	1	0	3L090	F25B   1/00	800	ˤ	by the executor
F25B   1/00 389 Z	1	0	3L090	F25B   1/00	87	¾Τ	Others
F25B   1/00 391 \	1	1	3L090	F25B   1/00	643	ޤ򥵥⡤㡥մ˰Ū˲ʤħΡ㡥ݥץʽŶΤޤƴ㡥ܥ١˲Σ	characterized by the means for temporarily collecting refrigerants in the cycle, e.g. in the liquid receiver, e.g. pump down (collecting refrigerant in the collection vessel for filling, e.g. in a cylinder 45/00)
F25B   1/00 396 \	1	1	3L090	F25B   1/00	9	üޤŬॵιħΤ	characterised by composition of freezing cycle suitable for special cooling medium
F25B   1/00 396 A	1	0	3L090	F25B   1/00	1751	ޤΤߤѤΡ㡥ȣƣäѤΡ̼ޤΤߤѤΣá	Use of alternative refrigerant, e.g. use of HFC[C is natural refrigerant]
F25B   1/00 396 B	1	1	3L090	F25B   1/00	1652	ʨޤѤΡ㡥ң	Use of non-azeotropic mixed refrigerant, e.g. R4 - -
F25B   1/00 396 C	1	0	3L090	F25B   1/00	143	ޤΤߤѤ	Use of natural refrigerant
F25B   1/00 396 D	1	1	3L090	F25B   1/00	3367	úǤѤ	Use of carbon dioxide
F25B   1/00 396 E	1	1	3L090	F25B   1/00	885	úǤѤ	Use of hydrocarbon
F25B   1/00 396 F	1	2	3L090	F25B   1/00	166	Ѥ	Use of ethane
F25B   1/00 396 G	1	2	3L090	F25B   1/00	545	ץѥѤ	Use of propane
F25B   1/00 396 H	1	2	3L090	F25B   1/00	103	֥Ѥ	Use of butane
F25B   1/00 396 J	1	3	3L090	F25B   1/00	360	֥Ѥ	Use of isobutane
F25B   1/00 396 K	1	2	3L090	F25B   1/00	25	ڥ󥿥Ѥ	Use of pentane
F25B   1/00 396 L	1	3	3L090	F25B   1/00	6	ڥ󥿥Ѥ	Use of iso-pentane
F25B   1/00 396 M	1	2	3L090	F25B   1/00	6	إѤ	Use of hexanes
F25B   1/00 396 R	1	1	3L090	F25B   1/00	352	˥Ѥ	Use of ammonia
F25B   1/00 396 S	1	1	3L090	F25B   1/00	175	Ѥ	Use of water
F25B   1/00 396 T	1	1	3L090	F25B   1/00	218	ʾμޤ򺮹礷ޤѤ	Use of cooling medium mixed more than two kinds of natural refrigerants
F25B   1/00 396 U	1	0	3L090	F25B   1/00	380	ޤȼޤ򺮹礷ޤѤ	Use of cooling medium mixed alternative refrigerant with natural refrigerant
F25B   1/00 396 Z	1	0	3L090	F25B   1/00	1823	¾Τ	Others
F25B   1/00 397 \	1	1	3L090	F25B   1/00	2	ĤΩħΡʥݥɣ	characterized by several independent cycles (cascade 7/00)
F25B   1/00 397 A	1	0	3L090	F25B   1/00	302	Υޤ¾ΥޤѤޤϥݥѥҡݥȤ	overcooling or superheating the other cycle refrigerant by one cycle refrigerant
F25B   1/00 397 B	1	0	3L090	F25B   1/00	136	֤³ǽʤ	cycles capable of being connected
F25B   1/00 397 C	1	0	3L090	F25B   1/00	293	Ǯ򴹴֤ޤϹ¤ħΡ̣¤ͥ	characterized by arrangement or structure of the heat exchanger (A and B take precedence)
F25B   1/00 397 E	1	0	3L090	F25B   1/00	444	̣¤ͥ	control (A and B take precedence)
F25B   1/00 397 Z	1	0	3L090	F25B   1/00	189	¾Τ	Others
F25B   1/00 399 \	1	1	3L090	F25B   1/00	3	޽۴ĥȤȹ礻ħΡ㡥۴ĥȹ礻	characterized by the combination with the refrigerant circulation cycle, e.g. combined with the natural circulation cycle
F25B   1/00 399 A	1	0	3L090	F25B   1/00	249	̼ΰ޽۴ĥѤ	using a part of the compression type cycle for the refrigerant circulation cycle
F25B   1/00 399 B	1	1	3L090	F25B   1/00	162	޽۴ĥ뤬޲Ǯ֤Ĥ	the refrigerant circulation cycle having a refrigerant heater
F25B   1/00 399 C	1	2	3L090	F25B   1/00	162	۴ļΤ	natural circulation type
F25B   1/00 399 D	1	2	3L090	F25B   1/00	287	̼ΰ̵޽۴ĥѤ	a compressor of the compression type cycle being used for the refrigerant circulation cycle
F25B   1/00 399 Y	1	0	3L090	F25B   1/00	2645	޽۴ĥ뤬̼뤫ΩƤ	the refrigerant circulation cycle being independent of the compression type cycle
F25B   1/00 399 Z	1	0	3L090	F25B   1/00	89	¾Τ	Others
F25B   1/02  \	1	1	3L090	F25B   1/02	10	ԥȥ󼰰̵ˤΡʣƣ£ͥ	with compressor of reciprocating-piston type (F25B 1/10 takes precedence)
F25B   1/02  A	1	0	3L090	F25B   1/02	88	ư̵ˤ	by the vibration type compressor
F25B   1/02  Z	1	0	3L090	F25B   1/02	257	¾Τ	Others
F25B   1/04  \	1	1	3L090	F25B   1/04	11	ž̵ˤΡʣƣ£ͥ	with compressor of rotary type (F25B 1/10 takes precedence)
F25B   1/04  A	1	0	3L090	F25B   1/04	261	ݥ밵̵ʳΰ̵ˤ	by compressors other than the scroll compressor
F25B   1/04  B	1	1	3L090	F25B   1/04	74	̵ǽȤδطħ	Characterized by the relationship with compressor capacity control
F25B   1/04  C	1	2	3L090	F25B   1/04	30	ݥϩˤ	by the release circuit
F25B   1/04  E	1	1	3L090	F25B   1/04	96	󥸥ʤĤ	with the injection means
F25B   1/04  J	1	1	3L090	F25B   1/04	65	̵ưѤΡ㡥ǥݥѥҡݥȤΡ̣Ťͥ表ǥݥѥҡݥΡ	cooling the compressor, motor, and oil, e.g. (E takes precedence; desuperheaters per se 40/40)
F25B   1/04  L	1	1	3L090	F25B   1/04	52	̵߻˾ȯؤή˻ߤ	preventing refrigerant from flowing into the evaporator at stop of the compressor
F25B   1/04  Y	1	0	3L090	F25B   1/04	461	ݥ밵̵ˤ	by the scroll compressor
F25B   1/04  Z	1	0	3L090	F25B   1/04	119	¾Τ	Others
F25B   1/047  \	2	2	3L090	F25B   1/047	1	塼ΤΡΣ	of screw type [5]
F25B   1/047  P	2	0	3L090	F25B   1/047	58	̵ǽȤδطħΡ̣Ҥͥ	Characterized by the relationship with compressor capacity control (R takes precedence)
F25B   1/047  R	2	0	3L090	F25B   1/047	113	󥸥ʤĤ	with the injection means
F25B   1/047  T	2	0	3L090	F25B   1/047	189	ᤷޤѤ	returning oil or cooling oil
F25B   1/047  V	2	0	3L090	F25B   1/047	33	̵ưѤΡ̣Ҥͥ	cooling the compressor and motor (R takes precedence)
F25B   1/047  W	2	0	3L090	F25B   1/047	25	ήħΡ㡥ĥۤδӶѰɤ򥹥ݰ̵ǽ¦֤	characterized by flow rate control, e.g. the temperature sensitive cylinder of the temperature sensitive expansion valve and equalizing tube being arranged on the discharge side of the screw compressor
F25B   1/047  Z	2	0	3L090	F25B   1/047	63	¾Τ	Others
F25B   1/053  \	2	2	3L090	F25B   1/053	9	ܼΤΡΣ	of turbine type [5]
F25B   1/053  A	2	0	3L090	F25B   1/053	108	Ĥΰ̵ĤΡĤΩĤ	with several compressors; with several independent cycles
F25B   1/053  B	2	0	3L090	F25B   1/053	80	ХѥϩĤ	with the bypass circuit
F25B   1/053  C	2	0	3L090	F25B   1/053	124	ᤷޤϽѤ	returning lubricant or cooling lubricant
F25B   1/053  D	2	0	3L090	F25B   1/053	92	ưѤ	cooling motors
F25B   1/053  J	2	0	3L090	F25B   1/053	90	̣Ĥͥ	control (A to D take precedence)
F25B   1/053  K	2	1	3L090	F25B   1/053	24	̵ǽȤδطħΡ㡥ǥեݥ١ݥˤΡ̣¤ͥ	Characterized by the relationship with compressor capacity control, e.g. by the defuse vane (A and B take precedence)
F25B   1/053  L	2	2	3L090	F25B   1/053	43	žˤΡ̣ͤͥ	by the number of revolutions (M takes precedence)
F25B   1/053  M	2	2	3L090	F25B   1/053	36	žȵ۹١ݥޤϵ۹ѤȤȹ礻ˤ	by a combination of the number of revolutions and intake vane or intake damper
F25B   1/053  N	2	2	3L090	F25B   1/053	89	۹١ݥޤϵ۹ѤˤΡ̣ͤͥ	by the intake vane or intake damper (M takes precedence)
F25B   1/053  Z	2	0	3L090	F25B   1/053	302	¾Τ	Others
F25B   1/06  \	1	1	3L090	F25B   1/06	138	åȼ̵ˤΡ㡥ðΤѤΡʣƣ£ͥ	with compressor of jet type, e.g. using liquid under pressure (F25B 1/10 takes precedence)
F25B   1/08  \	2	2	3L090	F25B   1/08	21	ðѤ	using vapour under pressure
F25B   1/10  \	1	1	3L090	F25B   1/10	8	¿ʰ̤ˤΡʥɼƣ£	with multi-stage compression (with cascade operation F25B 7/00)
F25B   1/10  A	1	0	3L090	F25B   1/10	130	ĤζŽ̴ϩĤ	with several condenser circuits
F25B   1/10  B	1	0	3L090	F25B   1/10	191	ñʤޤ¿ʰڴʤĤΡ̣ͥ	with a single-stage or multi-stage compression switching means (A takes precedence)
F25B   1/10  C	1	0	3L090	F25B   1/10	80	ư߻ħΡ̣¤ͥ	characterized by control at start or stop (A and B take precedence)
F25B   1/10  D	1	0	3L090	F25B   1/10	101	̵ǽȤδطħΡ̣¡äͥ	Characterized by the relationship with compressor capacity control (A, B, and C take precedence)
F25B   1/10  E	1	0	3L090	F25B   1/10	340	󥸥ʤĤ	with the injection means
F25B   1/10  F	1	0	3L090	F25B   1/10	50	ưѤ	cooling motors
F25B   1/10  G	1	0	3L090	F25B   1/10	161	Ѥޤ᤹	cooling or returning lubricant
F25B   1/10  H	1	0	3L090	F25B   1/10	198	ĥˤ갵̵ưΡ㡥Ž̴ȯ֤ĥݥӥˤ̵ư	driving the compressor by the expander, e.g. driving the auxiliary compressor by the expansion turbine between the condenser and evaporator
F25B   1/10  J	1	0	3L090	F25B   1/10	74	ΰۤʤ밵̵ȹ礻ΡȰ̵Ȥȹ礻Ρ¿ʰ̤ǤϤʤΣ	combined with compressors of different types; combined with executors and compressors (not multi-stage compression 1/00 389)
F25B   1/10  P	1	0	3L090	F25B   1/10	208	¿ʰ̰ḥ̂ʤͥ	one-stage expansion of multi-stage compression (A to J take precedence)
F25B   1/10  Q	1	1	3L090	F25B   1/10	148	Хѥϩޤ򰵽̵֤Ƴ	reduced refrigerant of the bypass circuit being introduced between compressors
F25B   1/10  R	1	2	3L090	F25B   1/10	270	޴֤Ǯ򴹤Ρ㡥ݥɥΥޥ	heat exchange between refrigerants, e.g. closed economizer cycle
F25B   1/10  S	1	0	3L090	F25B   1/10	271	¿ʰ¿ĥ㡥Υޥ̣ʤͥ	multi-stage compression and multi-stage expansion, e.g. economizer cycle (A to J take precedence)
F25B   1/10  Z	1	0	3L090	F25B   1/10	216	¾Τ	Others
F25B   3/00  \	0	0	3L090	F25B   3/00	44	Ǽž̼ʤ̵Ž̵Ӿȯ郎ñΤȤƲž	Self-contained rotary compression machines, i.e. with compressor, condenser, and evaporator rotating as a single unit
F25B   5/00  \	0	0	3L090	F25B   5/00	8	Ĥξȯϩ㡥̤βѤʤΡİ̼ץȤޤϥƥʥɼƣ£	Compression machines, plant, or systems, with several evaporator circuits, e.g. for varying refrigerating capacity (with cascade operation F25B 7/00)
F25B   5/00  A	0	0	3L090	F25B   5/00	320	ǮޤĤ	with a heat accumulator or cool accumulator
F25B   5/00  B	0	0	3L090	F25B   5/00	174	ήϩڴʤħ	Characterized by the refrigerant flow path switching means
F25B   5/00  C	0	1	3L090	F25B   5/00	85	ˢ̥Х֥ͥݥפˤ	by the bubble pump
F25B   5/00  D	0	0	3L090	F25B   5/00	39	󥸥ϩͭ	with the injection circuit
F25B   5/00  Z	0	0	3L090	F25B   5/00	98	¾Τ	Others
F25B   5/00 102 \	1	1	3L090	F25B   5/00	76	ͭΡʺǮˤΣ	with the dehumidification cycle (by the reheater 29/00 391)
F25B   5/00 301 \	1	1	3L090	F25B   5/00	1	̵ǽȤδطħΡʰ̵ǽ̤ϣƣ£	Characterized by the relationship with compressor capacity control (compressor capacity control in general F04B 49/00)
F25B   5/00 301 A	1	0	3L090	F25B   5/00	28	̵ǽ̲Ѽʤͭ	with the compressor discharge amount changing means
F25B   5/00 301 B	1	1	3L090	F25B   5/00	157	ʣ̵ˤ	by a plurality of compressors
F25B   5/00 301 C	1	1	3L090	F25B   5/00	126	̵žѼʤͭΡ̣¤ͥ	with the compressor engine speed changing means (B takes precedence)
F25B   5/00 301 D	1	1	3L090	F25B   5/00	31	̵˥ݥݡݥȤߤ	compressor with release port mounted
F25B   5/00 301 E	1	1	3L090	F25B   5/00	10	̵Ϥ椹	controlling compressor intake pressure
F25B   5/00 301 Z	1	0	3L090	F25B   5/00	29	¾Τ	Others
F25B   5/00 308 \	1	1	3L090	F25B   5/00	188	ȯľ󤪤³	connecting evaporators in series and in parallel
F25B   5/00 309 \	1	1	3L090	F25B   5/00	93	ޤħΡ㡥ʨޤѤ	characterized by refrigerants, e.g. using non-azeotrope mixed refrigerant
F25B   5/02  \	1	1	3L090	F25B   5/02	45	֤줿ΡΣ	arranged in parallel [5]
F25B   5/02  A	1	0	3L090	F25B   5/02	194	̡ްϤ椹	controlling the refrigerant amount and refrigerant pressure
F25B   5/02  B	1	0	3L090	F25B   5/02	411	ή̤ʬۤ椹	controlling distribution of the refrigerant flow rate
F25B   5/02  C	1	0	3L090	F25B   5/02	272	ȯι¤֤ħ	Characterized by the structure and arrangement of evaporators
F25B   5/02  Z	1	0	3L090	F25B   5/02	267	¾Τ	Others
F25B   5/02 510 \	2	2	3L090	F25B   5/02	6	¿ѤΤΡʣͥ	for many rooms (530 takes precedence)
F25B   5/02 510 A	2	0	3L090	F25B   5/02	66	̵ư߻ʤħ	Characterized by the control means at start or stop of the compressor
F25B   5/02 510 B	2	1	3L090	F25B   5/02	21	̵κƵưٱ䤵Ρ̣äͥ	delaying restart of the compressor (C takes precedence)
F25B   5/02 510 C	2	1	3L090	F25B   5/02	9	̵ߡƵư˰ϥХ󥹤Ԥ	balancing the pressure at stop and restart of the compressor
F25B   5/02 510 D	2	2	3L090	F25B   5/02	32	Хѥήϩˤ	by the bypass flow path
F25B   5/02 510 E	2	2	3L090	F25B   5/02	26	μ˥ĥȤޤή	supplying refrigerants in the unit in the chamber during stop
F25B   5/02 510 F	2	1	3L090	F25B   5/02	11	̵߻˹ⰵ¦㰵¦ȤǤ	interrupting the high pressure side and low pressure side at stop of the compressor
F25B   5/02 510 G	2	0	3L090	F25B   5/02	66	޽۴̡ްϤʤħΡ	characterized by the control means for the refrigerant circulation amount and refrigerant pressure
F25B   5/02 510 H	2	1	3L090	F25B   5/02	62	ίˤ	by the liquid collector
F25B   5/02 510 J	2	1	3L090	F25B   5/02	83	ХѥήϩˤΡ̣Ȥͥ	by the bypass flow path (H takes precedence)
F25B   5/02 510 K	2	0	3L090	F25B   5/02	51	޴֤Ǯ򴹤ԤΡ㡢ѴĤΡ	exchanging heat between refrigerants, e.g. with overcooling devices
F25B   5/02 510 L	2	0	3L090	F25B   5/02	167	ʣȯαžħ	Characterized by running control of a plurality of evaporators
F25B   5/02 510 M	2	1	3L090	F25B   5/02	36	ȯαž̤ͥߤ	priority being given to running of evaporators
F25B   5/02 510 N	2	1	3L090	F25B   5/02	19	ʣȯȯƱ	synchronizing start and stop of a plurality of evaporators
F25B   5/02 510 P	2	1	3L090	F25B   5/02	52	Ǯ򴹴եǽħ	Characterised by the capacity control of heat exchangers and fans
F25B   5/02 510 Q	2	0	3L090	F25B   5/02	147	ήϩڴʤħ	Characterized by the refrigerant flow path switching means
F25B   5/02 510 R	2	0	3L090	F25B   5/02	73	۴ɤ³ħ	Characterized by the connectors of refrigerant pipes
F25B   5/02 510 Z	2	0	3L090	F25B   5/02	95	¾Τ	Others
F25B   5/02 520 \	3	3	3L090	F25B   5/02	9	ʤħ	Characterized by the pressure reducing means
F25B   5/02 520 A	3	0	3L090	F25B   5/02	49	٤˱Ƹʤ椹	controlling the pressure reducing means according to the load
F25B   5/02 520 B	3	1	3L090	F25B   5/02	69	ȯαž˱Ƹʤ椹Ρ̣äͥ	controlling the pressure reducing means according to the number of running evaporators (C takes precedence)
F25B   5/02 520 C	3	1	3L090	F25B   5/02	55	ޤβ١ϤΤƸʤ椹	detecting the temperature and pressure of refrigerants and controlling the pressure reducing means
F25B   5/02 520 D	3	2	3L090	F25B   5/02	138	㰵¦޲١Ϥޤ޲Ǯ٤Τ	detecting the refrigerant temperature and pressure on the low pressure side or overheating temperature of refrigerants
F25B   5/02 520 E	3	1	3L090	F25B   5/02	18	ίˤ޽۴̤ȼ	accompanied by control of the refrigerant circulation amount by the liquid collector
F25B   5/02 520 F	3	1	3L090	F25B   5/02	32	ƾȯήή̤ۤʤ褦椹	controlling the refrigerant flow rate into each evaporator so as to be different from each other
F25B   5/02 520 G	3	0	3L090	F25B   5/02	8	̵ư߻˸ʤ椹	controlling the pressure reducing means at start and stop of the compressor
F25B   5/02 520 H	3	0	3L090	F25B   5/02	14	ʤ޴ɤȤδ֤Ǯ򴹤	exchanging heat between the pressure reducing means and cooling pipes
F25B   5/02 520 J	3	0	3L090	F25B   5/02	19	ʤι¤ħ	Characterized by the structure of the pressure reducing means
F25B   5/02 520 K	3	1	3L090	F25B   5/02	10	ʤήʬۼۤȤΤˤʤĤƤ	the pressure reducing means being integrated with the refrigerant flow rate distribution means
F25B   5/02 520 Z	3	0	3L090	F25B   5/02	36	¾ΤΡ̵죵ڢڡ	others (old 5/00 305A to 305Z R new 5/025, 20A to 20Z)
F25B   5/02 530 \	2	2	3L090	F25B   5/02	9	ȯ٤ۤʤ	different evaporation temperature
F25B   5/02 530 A	2	0	3L090	F25B   5/02	142	̼ʤħ	Characterized by the compression means
F25B   5/02 530 B	2	0	3L090	F25B   5/02	137	ȯ٤ۤʤ¢ѾȯΡ㡢¢ѾȯѾȯΡ̣ͥ͡	with an evaporator for refrigerator being different in evaporation temperature, e.g. with evaporators for cold storage and evaporators for freezing (A takes precedence)
F25B   5/02 530 C	2	1	3L090	F25B   5/02	127	ή̡ްϤʤħ	Characterized by the control means for the refrigerant flow rate and refrigerant pressure
F25B   5/02 530 D	2	1	3L090	F25B   5/02	144	ήϩڴʤħ	Characterized by control of the refrigerant flow path switching means
F25B   5/02 530 E	2	2	3L090	F25B   5/02	33	ȯޤή̤ͥߤ	priority of supplying of refrigerants to evaporators being given
F25B   5/02 530 F	2	3	3L090	F25B   5/02	72	㲹ȯͥ褹	low temperature evaporators take precedence
F25B   5/02 530 G	2	3	3L090	F25B   5/02	21	ⲹȯͥ褹	high temperature evaporators take precedence
F25B   5/02 530 H	2	2	3L090	F25B   5/02	47	ȯޤŪήΡ̣šǤͥ	supplying refrigerants to evaporators in an alternative way (E to G take precedence)
F25B   5/02 530 J	2	1	3L090	F25B   5/02	37	¾	other controls
F25B   5/02 530 K	2	0	3L090	F25B   5/02	55	ȯ٤ۤʤ˼ѾȯΡ̣ͥ	with air conditioning evaporators different in evaporation temperature (A takes precedence)
F25B   5/02 530 L	2	0	3L090	F25B   5/02	187	˼Ѿȯ¢ѾȯΡ̣ͥ	with air conditioning evaporators and cold storage evaporators (A takes precedence)
F25B   5/02 530 Z	2	0	3L090	F25B   5/02	131	¾ΤΡ̵죵ڢڡ	others (old 5/00 306A to 306Z R new 5/025, 30A to 30Z)
F25B   5/04  \	1	1	3L090	F25B   5/04	11	ľ֤줿ΡΣ	arranged in series [5]
F25B   5/04  A	1	0	3L090	F25B   5/04	307	޽۴ļʤħΡ㡢۴ĥݥפѤΡ	characterized by the refrigerant circulation means, e.g. using ejectors and circulation pumps
F25B   5/04  B	1	0	3L090	F25B   5/04	465	ȯ٤ۤʤΡ̣ͥ	different evaporation temperature (A takes precedence)
F25B   5/04  Z	1	0	3L090	F25B   5/04	378	¾Τ	Others
F25B   6/00  \	0	0	3L090	F25B   6/00	44	ĤζŽ̴ϩİ̼ץȤޤϥƥΣ	Compression machines, plant, or systems, with several condenser circuits [5]
F25B   6/02  \	1	1	3L090	F25B   6/02	13	֤줿ΡΣ	arranged in parallel [5]
F25B   6/02  H	1	0	3L090	F25B   6/02	169	Ž̴ȿŽ̴Ȥʤ	comprising air cooling condensers and water cooling condensers
F25B   6/02  J	1	0	3L090	F25B   6/02	195	¿ѡ̣Ȥͥ	for many chambers (H takes precedence)
F25B   6/02  Z	1	0	3L090	F25B   6/02	451	¾Τ	Others
F25B   6/04  \	1	1	3L090	F25B   6/04	20	ľ֤줿ΡΣ	arranged in series [5]
F25B   6/04  B	1	0	3L090	F25B   6/04	102	Ž̴֤˵ʬΥߤ	with vapor-liquid separators between condensers
F25B   6/04  C	1	0	3L090	F25B   6/04	203	Ž̴ȿŽ̴Ȥʤ	comprising air cooling condensers and water cooling condensers
F25B   6/04  D	1	0	3L090	F25B   6/04	21	Ž̴郎ɥѤ	water cooling condensers using drain water
F25B   6/04  Z	1	0	3L090	F25B   6/04	623	¾Τ	Others
F25B   7/00  \	0	0	3L090	F25B   7/00	16	ɷΰ̼ץȤޤϥƥࡤʤİʾβϩĤΤǡϩζŽ̴ȯǮβϩξȯ˵ۼΡʣƣ£ͥˡΣ	Compression machines, plants or systems, with cascade operation, i.e. with two or more circuits, the heat from the condenser of one circuit being absorbed by the evaporator of the next circuit (F25B 9/00 takes precedence) [1, 2006.01]
F25B   7/00  A	0	0	3L090	F25B   7/00	247	ʨޤѤΡ㡥ޥݥɥǥ󥵤ĤΡ̣Ĥͥ	using non-azeotrope mixed refrigerants, e.g. with mixed refrigerant cascade condensers (D takes precedence)
F25B   7/00  D	0	0	3L090	F25B   7/00	965	ĤΩĤΡ¾ΥǲѤޤϥݥѥҡݥȤΣ	with several independent cycles (overcooled or superheated in other cycles 1/00 397)
F25B   7/00  E	0	1	3L090	F25B   7/00	200	̵ħ	Characterized by control of compressors
F25B   7/00  Z	0	0	3L090	F25B   7/00	145	¾Τ	Others
F25B   9/00  \	0	0	3L091	F25B   9/00	37	ʤɤʨƭĵΤޤˤ̼ץȤޤϥƥ	Compression machines, plant, or systems, in which the refrigerant is air or other gas of low boiling point
F25B   9/00  A	0	0	3L091	F25B   9/00	344	޶롤ޤϰ	refrigerant supply, collection, or compression devices
F25B   9/00  B	0	0	3L091	F25B   9/00	143		pipes
F25B   9/00  D	0	0	3L091	F25B   9/00	570	̺	cold accumulators (reproducers)
F25B   9/00  F	0	0	3L091	F25B   9/00	237	Ǯݥ	heat shielding devices
F25B   9/00  G	0	0	3L091	F25B   9/00	190	Խʪ	impurities removal devices
F25B   9/00  H	0	0	3L091	F25B   9/00	411	ݥɥإĥɤޤϥݥɥѥͥ	cold heads or cold panels
F25B   9/00  J	0	0	3L091	F25B   9/00	242	Ǯ򴹴	heat exchangers
F25B   9/00  K	0	1	3L091	F25B   9/00	80	ƶŽ	for recondensation
F25B   9/00  Y	0	0	3L091	F25B   9/00	59	ޤѤ	using mixing refrigerants
F25B   9/00  Z	0	0	3L091	F25B   9/00	859	¾Τ	Others
F25B   9/00 301 \	1	1	3L091	F25B   9/00	537		air cycle
F25B   9/00 311 \	1	1	3L091	F25B   9/00	698	ѥ륹ɤѤ	using pulse pipes
F25B   9/00 395 \	1	1	3L091	F25B   9/00	20	ݥ롦ȥॽ󥵥¾ΥȤĤΡ㡥ͽ䥵ĥݥ롦ȥॽ󥵥	with Joule-Thomson cycle and other cycles, e.g. Joule-Thomson cycle having precooling cycle
F25B   9/00 395 A	1	0	3L091	F25B   9/00	63		control
F25B   9/00 395 Z	1	0	3L091	F25B   9/00	139	¾Τ	Others
F25B   9/02  \	1	1	3L091	F25B   9/02	2	塼롦ȥॽ̤ѤΡܥƥå̤Ѥ	using Joule-Thompson effect; using vortex effect
F25B   9/02  A	1	0	3L091	F25B   9/02	109	ݥ롦ȥॽۤξή¦ޤȲή¦ޤȤ餻Ǯ򴹴Ǯ򴹤Ρ㡥ֳд	refrigerants on the upstream side of the Joule-Thomson valve and refrigerants on the downstream side being exchanged in heat by spiral heat exchangers, e.g. for cooling infrared ray detectors
F25B   9/02  B	1	0	3L091	F25B   9/02	47	ĶήưإꥦѤ	using superfluid helium
F25B   9/02  C	1	0	3L091	F25B   9/02	116	ͽħ	Characterized by precooling
F25B   9/02  D	1	0	3L091	F25B   9/02	38	ޤղѤ	cooling refrigerants in the liquefied gas tank
F25B   9/02  E	1	0	3L091	F25B   9/02	33	ݥ롦ȥॽۤħ	Characterized by the Joule-Thomson valve
F25B   9/02  J	1	0	3L091	F25B   9/02	135	̣Ĥͥ	control (A to D take precedence)
F25B   9/02  K	1	1	3L091	F25B   9/02	42	ݥ롦ȥॽۤγ٤Ѥ	changing the aperture of the Joule-Thomson valve
F25B   9/02  Z	1	0	3L091	F25B   9/02	171	¾Τ	Others
F25B   9/04  \	2	2	3L091	F25B   9/04	202	ܥƥå̤ѤΡΣ	using vortex effect [5]
F25B   9/06  \	1	1	3L091	F25B   9/06	8	ĥѤΡʣƣ£ͥˡΣ	using expanders (F25B 9/10 takes precedence) [5]
F25B   9/06  A	1	0	3L091	F25B   9/06	69	ưΤ	of the reciprocating motion type
F25B   9/06  B	1	1	3L091	F25B   9/06	38	ưϵۼ֤ħ	Characterized by the power absorber
F25B   9/06  C	1	1	3L091	F25B   9/06	94	ӵۤħ	Characterized by intake and exhaust valves
F25B   9/06  D	1	1	3L091	F25B   9/06	55	ԥȥޤϥħ	Characterized by pistons or cylinders
F25B   9/06  E	1	1	3L091	F25B   9/06	22	ݥħ	Characterized by sealing
F25B   9/06  J	1	0	3L091	F25B   9/06	69	ưΤ	of the rotary type
F25B   9/06  K	1	1	3L091	F25B   9/06	249	ĥݥӥˤ	by expansion turbines
F25B   9/06  L	1	2	3L091	F25B   9/06	101	ĥӥι¤	the structure of expansion turbines
F25B   9/06  Z	1	0	3L091	F25B   9/06	75	¾Τ	Others
F25B   9/08  \	1	1	3L091	F25B   9/08	36	ѤΡʣƣ£ͥˡΣ	using ejectors (F25B 9/10 takes precedence) [5]
F25B   9/10  \	1	1	3L091	F25B   9/10	2	ĤʤĤΡΣ	with several cooling stages [5]
F25B   9/10  A	1	0	3L091	F25B   9/10	20	Ĥ	with ejectors
F25B   9/10  B	1	1	3L091	F25B   9/10	7	ĤΥĤ	with several ejectors
F25B   9/10  Z	1	0	3L091	F25B   9/10	31	¾Τ	Others
F25B   9/12  \	1	1	3L091	F25B   9/12	68	ȣ塽ȣѤΡΣ	using <sup>3</sup>He-<sup>4</sup>He dilution [5]
F25B   9/14  \	1	1	3L091	F25B   9/14	8	Ѥ줿롤㡥󥰥롤ħΤΡΣ	characterised by the cycle used, e.g. Stirling cycle [5]
F25B   9/14  A	1	0	3L091	F25B   9/14	34	ưΤ	of the rotation type
F25B   9/14  Z	1	0	3L091	F25B   9/14	53	¾Τ	Others
F25B   9/14 510 \	2	2	3L091	F25B   9/14	0	ưΤ	of the reciprocating motion type
F25B   9/14 510 A	2	0	3L091	F25B   9/14	209	֣ͥ	VM cycle
F25B   9/14 510 B	2	0	3L091	F25B   9/14	340	ԥȥޤϥħ	Characterized by pistons or cylinders
F25B   9/14 510 C	2	0	3L091	F25B   9/14	192	ݥħ	Characterized by sealing
F25B   9/14 510 Z	2	0	3L091	F25B   9/14	133	¾Τ	Others
F25B   9/14 520 \	3	3	3L091	F25B   9/14	9	ݥ󥰥ʣͥ表ݥ󥰥󥸥ˤ갵̵ưΣ	stirring cycle (540 takes precedence; driving compressors by the stirring engine 27/00)
F25B   9/14 520 A	3	0	3L091	F25B   9/14	268	ǥץݥԥȥĤ	with displacer pistons
F25B   9/14 520 B	3	1	3L091	F25B   9/14	147	ץĥȼΤ	of the split type
F25B   9/14 520 E	3	0	3L091	F25B   9/14	131	ԥȥưʤħ	Characterized by the piston moving means
F25B   9/14 520 F	3	1	3L091	F25B   9/14	395	˥⡼Ѥ	using linear motors
F25B   9/14 520 Z	3	0	3L091	F25B   9/14	652	¾Τ	Others
F25B   9/14 530 \	3	3	3L091	F25B   9/14	8	եݥɡޥޥۥ󥵥ʣͥ	Giford-McMahon cycle (540 takes precedence)
F25B   9/14 530 A	3	0	3L091	F25B   9/14	74	ۡ㡥ۤγĤޤ֡ħ	Characterized by valves, e.g. opening or closing of valves
F25B   9/14 530 B	3	1	3L091	F25B   9/14	115	꡼ۤѤ	using rotary valves
F25B   9/14 530 C	3	1	3L091	F25B   9/14	51	饤ۤѤ	using slide valves
F25B   9/14 530 Z	3	0	3L091	F25B   9/14	487	¾Τ	Others
F25B   9/14 540 \	3	3	3L091	F25B   9/14	150	ĤΥĤ	with several cycles
F25B  11/00  \	0	0	3L091	F25B  11/00	34	ӥ㡥ӥ󡤤Ѥ̼ץȤޤϥƥ	Compression machines, plant, or systems, using turbines, e.g. gas turbines
F25B  11/02  \	1	1	3L091	F25B  11/02	4	ĥȤѤΡʣƣ£ͥˡΣ	as expanders (F25B 9/06 takes precedence) [5]
F25B  11/02  A	1	0	3L091	F25B  11/02	285	Ž̴ȾȯȤδ֤ĥߤ	expanders being mounted between condensers and evaporators
F25B  11/02  B	1	1	3L091	F25B  11/02	329	ĥνϤǰ̵ư	driving compressors by the output of expanders
F25B  11/02  C	1	0	3L091	F25B  11/02	22	̵ȶŽ̴Ȥδ֤ޤϾȯȰ̵Ȥδ֤ĥߤ	expanders being mounted between compressors and condensers or between evaporators and compressors
F25B  11/02  D	1	0	3L091	F25B  11/02	29	̵Ž̴ޤϾȯΥХѥϩˡޤϥ󥸥ϩĥߤ	expanders being mounted in compressors, condensers, or the bypass circuit of evaporators or in the injection circuit
F25B  11/02  Z	1	0	3L091	F25B  11/02	48	¾Τ	Others
F25B  11/04  \	2	2	3L091	F25B  11/04	8	󿴼ΤΡΣ	centrifugal type [5]
F25B  13/00  \	0	0	3L092	F25B  13/00	110	ĵե̼ץȤޤϥƥʽƣ£	Compression machines, plant, or systems, with reversible cycle (defrosting cycles F25B 47/02)
F25B  13/00  A	0	0	3L092	F25B  13/00	709	ޤħΡ㡥ʨޤѤ	characterized by refrigerants, e.g. using non-azeotrope mixed refrigerants
F25B  13/00  J	0	0	3L092	F25B  13/00	1311	ʻưޤ߻ħΣĴµƣƣ	control (characterized by control at start or stop 361; controlling air conditioning devices F24F 11/02)
F25B  13/00  K	0	1	3L092	F25B  13/00	564	Ǯ򴹴ޤϤΥե椹	controlling heat exchangers or their fans
F25B  13/00  M	0	1	3L092	F25B  13/00	1171	̵椹	controlling compressors
F25B  13/00  N	0	1	3L092	F25B  13/00	1453	ʤ椹	controlling the pressure reducing means
F25B  13/00  P	0	0	3L092	F25B  13/00	299	ιʤޤϺħ	Characterized by cycle component parts or details
F25B  13/00  Q	0	1	3L092	F25B  13/00	215	ʬΥħΡ̵ʬΥΣ޽۴̤͡	characterized by the vapor-liquid separation mechanism (vapor-liquid separation mechanism 43/00; controlling refrigerant circulation amount M)
F25B  13/00  R	0	1	3L092	F25B  13/00	490	Ǯ򴹴ޤϥե󤢤뤤Ϥδطħ	Characterized by heat exchangers or fans or the relationship between them
F25B  13/00  S	0	0	3L092	F25B  13/00	685	žݥڴħ	Characterized by the running mode switching mechanism
F25B  13/00  U	0	0	3L092	F25B  13/00	461	ʣβĵհ̼ĤΡʣΰ̵ĤΡʣԲĵեĤΣԲĵհ̼Ȳĵհ̼ȤĤΣڡ	with a plurality of reversible compression cycles; with a plurality of compressors (with a plurality of non-reversible cycles 1/00 397; with non-reversible compression cycles and reversible compression cycles 25/00Z)
F25B  13/00  Z	0	0	3L092	F25B  13/00	210	¾Τ	Others
F25B  13/00 103 \	1	1	3L092	F25B  13/00	221	ͭ	with dehumidification cycles
F25B  13/00 104 \	1	1	3L092	F25B  13/00	2609	ޥ	multi-type
F25B  13/00 311 \	1	1	3L092	F25B  13/00	521	󥸥ϩͭ	with injection circuits
F25B  13/00 321 \	1	1	3L092	F25B  13/00	264	ǮѼʤͭΡʣͥ	with the auxiliary heating and cooling means
F25B  13/00 331 \	2	2	3L092	F25B  13/00	16	޴֤Ǯ򴹤	exchanging heat between refrigerants
F25B  13/00 331 A	2	0	3L092	F25B  13/00	342	ѴݥѡݥҡݥݤĤΡ̣¤ͥ	with overcooling devices and superheaters (B takes precedence)
F25B  13/00 331 B	2	0	3L092	F25B  13/00	200	̵ɤǮ򴹤	exchanging heat with the intake pipe of the compressor
F25B  13/00 331 Z	2	0	3L092	F25B  13/00	89	¾Τ	Others
F25B  13/00 341 \	2	2	3L092	F25B  13/00	19	޲ǮʤͭΡʣͥ	with the refrigerant heating means (331 takes precedence)
F25B  13/00 341 A	2	0	3L092	F25B  13/00	335	ȯޤ϶Ž̴Ǯ	heating evaporators or condensers
F25B  13/00 341 B	2	0	3L092	F25B  13/00	331	ϩ޲ǮĤΡ̸𤵤ʤޤǮȯΣ޲Ǯĥǻ۰ʳμʤڴ򤹤ΤϣʤɤΣƹܻȡ޲ǮＫΣ޲Ǯļ˥ĥȣƣƣ֡	with refrigerant heaters in the circuit (heating and evaporating refrigerants not via the pressure reducer 1/00 399; the switching operation being performed by means other than the 4-way valve in the cycle having refrigerant heaters, see each item in 29/00 such as 29/00 321; refrigerant heaters 41/00A; outside-chamber units having refrigerant heaters F24F 5/00V)
F25B  13/00 341 C	2	1	3L092	F25B  13/00	330	޲Ǯ郎Ǯ򴹴ľ󤵤줿Ρ̣Ťͥ	refrigerant heaters being arranged in outside-chamber heat exchangers in series (E takes precedence)
F25B  13/00 341 D	2	1	3L092	F25B  13/00	395	޲Ǯ郎Ǯ򴹴󤵤줿Ρ̣Ťͥ	refrigerant heaters being arranged in outside-chamber heat exchangers in parallel (E takes precedence)
F25B  13/00 341 E	2	1	3L092	F25B  13/00	606	桤㡥޽۴̤޲ǮĶĴµƣƣ١	control, e.g. controlling the refrigerant circulation amount (controlling air conditioning devices having refrigerant heaters F24 11/02 102Y)
F25B  13/00 341 Z	2	0	3L092	F25B  13/00	43	¾Τ	Others
F25B  13/00 351 \	1	1	3L092	F25B  13/00	1485	Ǯϩͭ	with the heat accumulation circuit
F25B  13/00 361 \	1	1	3L092	F25B  13/00	521	ưޤ߻ħ	Characterized by control at start or stop
F25B  13/00 371 \	1	1	3L092	F25B  13/00	517	ʤħ	Characterized by the pressure reducing means
F25B  15/00  \	0	0	3L093	F25B  15/00	25	Ϣ³ư弰ץȤޤϥƥࡤ㡥ۼ	Sorption machines, plant, or systems, operating continuously, e.g. absorption type
F25B  15/00  A	0	0	3L093	F25B  15/00	68	ʬΥ줿ޤð	pressurizing separated refrigerants
F25B  15/00  B	0	0	3L093	F25B  15/00	466	ޡӤޤϼޤħΤ	Characterized by refrigerants and/or sorption agents
F25B  15/00  C	0	0	3L093	F25B  15/00	142	šŸѷѤΤ	also for single and double effects
F25B  15/00  D	0	0	3L093	F25B  15/00	188	ʾμ弰ൡȤ߹礻	combined with 2 or more sorption refrigerators
F25B  15/00  E	0	0	3L093	F25B  15/00	65	ѤޤϼưѤȤƻѤΡ̣šŤͥ	used for ships and automobiles (301E and 303E take precedence)
F25B  15/00  F	0	0	3L093	F25B  15/00	276	ѷϤħΤΡ̣ͥ	characterized by the cooling system (306 takes precedence)
F25B  15/00  G	0	1	3L093	F25B  15/00	70	䲹ήϩڤ괹뤳ȤǤ	switching the cold water path
F25B  15/00  Z	0	0	3L093	F25B  15/00	569	¾Τ	Others
F25B  15/00 101 \	1	1	3L093	F25B  15/00	17	ŸѤΤΡʣͥ	single effects (103 takes precedence)
F25B  15/00 102 \	1	1	3L093	F25B  15/00	148	¿ŸѤΤΡʣͥ	multiple effects (103 takes precedence)
F25B  15/00 103 \	1	1	3L093	F25B  15/00	0	ϱդϤǽ۴Ĥ	solutions circulating by the gravity
F25B  15/00 104 \	1	1	3L093	F25B  15/00	2	ȯβǮ̤ħΤ	Characterized by control of heating amount of generators
F25B  15/00 301 \	1	1	3L093	F25B  15/00	1	ŸѤΤΡʣͥ	single effects (305 and 306 take precedence)
F25B  15/00 301 A	1	0	3L093	F25B  15/00	290	ϱդޤޤήϩü	specific arrangement of the flow path of solutions or refrigerants
F25B  15/00 301 B	1	0	3L093	F25B  15/00	331	Ǯ򴹴ħΤ	Characterized by arrangement of heat exchangers
F25B  15/00 301 C	1	0	3L093	F25B  15/00	99	մħΤ	Characterized by arrangement of liquid receivers
F25B  15/00 301 E	1	0	3L093	F25B  15/00	378	ǮħΤΡ㡥ʾǮѤΡ̥ܥ鼫Σ	characterized by the heat source, e.g. with two or more heat sources (boiler 33/00)
F25B  15/00 301 J	1	0	3L093	F25B  15/00	100	ʾΥܥ顤ۼȯޤ϶Ž̴ѤΡŸѤΤΣ	using two or more boilers, absorbers, sorbers, evaporators, or condensers (double effects 303)
F25B  15/00 301 K	1	1	3L093	F25B  15/00	53	ܥޤ϶Ž̴郎ʾǤ	two or more boilers or condensers
F25B  15/00 301 L	1	1	3L093	F25B  15/00	149	ȯޤϵۼ郎ʾǤ	two or more evaporators or absorbers
F25B  15/00 301 Z	1	0	3L093	F25B  15/00	166	¾Τ	Others
F25B  15/00 303 \	1	1	3L093	F25B  15/00	2	ŸѤΤΡʣͥ	double effects (305 and 306 take precedence)
F25B  15/00 303 A	1	0	3L093	F25B  15/00	394	ϱդޤޤήϩü	special arrangement of solution or refrigerant flow paths
F25B  15/00 303 B	1	0	3L093	F25B  15/00	448	Ǯ򴹴ħΤ	Characterized by arrangement of heat exchangers
F25B  15/00 303 C	1	0	3L093	F25B  15/00	100	մħΤ	Characterized by arrangement of liquid receivers
F25B  15/00 303 E	1	0	3L093	F25B  15/00	290	ǮħΤΡ㡥ʾǮѤǤΡ̥ܥ鼫Σ	characterized by the heat source. e.g. with two or more heat sources (boiler 33/00)
F25B  15/00 303 J	1	0	3L093	F25B  15/00	267	ʾΥܥ⤷ϣʾεۼȯޤ϶Ž̴Ѥ	using three or more boilers or two or more absorbers, sorbers, evaporators, or condensers
F25B  15/00 303 Z	1	0	3L093	F25B  15/00	155	¾Τ	Others
F25B  15/00 305 \	1	1	3L093	F25B  15/00	2	ϱդϤǽ۴ĤΡʣͥ	solutions circulating by the gravity (306 takes precedence)
F25B  15/00 305 A	1	0	3L093	F25B  15/00	67	ϱդޤޤήϩü	special arrangement of solution or refrigerant flow paths
F25B  15/00 305 B	1	0	3L093	F25B  15/00	21	Ǯ򴹴ħΤ	Characterized by arrangement of heat exchangers
F25B  15/00 305 C	1	0	3L093	F25B  15/00	41	մħΤ	Characterized by arrangement of liquid receivers
F25B  15/00 305 Z	1	0	3L093	F25B  15/00	18	¾Τ	Others
F25B  15/00 306 \	1	1	3L093	F25B  15/00	8	ħΤ	Characterized by control
F25B  15/00 306 A	1	0	3L093	F25B  15/00	396	ൡץȤޤϥƥεưޤߡ㡥	start or stop of refrigerators, plant, or systems e.g. controlling the number
F25B  15/00 306 B	1	0	3L093	F25B  15/00	21	ⰵƨۤ	arrangement of high pressure release valves
F25B  15/00 306 C	1	0	3L093	F25B  15/00	562	Ǯ椹Ρ̣ʡˡҡؤͥ	controlling the heat source (J, K, R, and X take precedence)
F25B  15/00 306 D	1	1	3L093	F25B  15/00	111	Ǯεưޤ	start or stop of the heat source
F25B  15/00 306 E	1	1	3L093	F25B  15/00	220	ʾǮѤ	using two or more heat sources
F25B  15/00 306 J	1	0	3L093	F25B  15/00	97	ϱաޤޤήΤήȹ礻	a combination of flow rate control of solutions, refrigerants, or cooling fluids
F25B  15/00 306 K	1	0	3L093	F25B  15/00	349	ϱդή	solution flow rate control
F25B  15/00 306 N	1	1	3L093	F25B  15/00	289	ݥפˤ椹	controlling by pumps
F25B  15/00 306 P	1	1	3L093	F25B  15/00	221	Хѥήϩή̤椹	controlling the flow rate of the bypass flow path
F25B  15/00 306 Q	1	1	3L093	F25B  15/00	139	ϱե٥椹뤳Ȥˤή̤椹	controlling the flow rate by controlling the solution level
F25B  15/00 306 R	1	0	3L093	F25B  15/00	350	ޤή	controlling the refrigerant flow rate
F25B  15/00 306 U	1	1	3L093	F25B  15/00	85	ݥפˤ椹	controlling by pumps
F25B  15/00 306 V	1	1	3L093	F25B  15/00	192	ϱդޤ򶡵뤹ۤѤ	using valves for supplying refrigerants in the solution
F25B  15/00 306 W	1	1	3L093	F25B  15/00	29	Ǯ򴹴Ѥ	using hot water heat exchangers
F25B  15/00 306 X	1	0	3L093	F25B  15/00	351	ήΤή	controlling the flow rate of cooling fluids
F25B  15/00 306 Z	1	0	3L093	F25B  15/00	462	¾Τ	Others
F25B  15/02  \	1	1	3L093	F25B  15/02	9	ԳѤʤΡʣƣ£ƣ£ƣ£ͥ	without inert gas (F25B 15/12, F25B 15/14, F25B 15/16 take precedence)
F25B  15/04  \	2	2	3L093	F25B  15/04	309	ϱդȯ륢˥ޤȤ	the refrigerant being ammonia evaporated from aqueous solution
F25B  15/06  \	2	2	3L093	F25B  15/06	44	ϱա㡥ࡤȯޤȤ	the refrigerant being water vapour evaporated from a salt solution, e.g. lithium bromide
F25B  15/08  \	2	2	3L093	F25B  15/08	1	βޤȤ	the refrigerant being sulfuric acid
F25B  15/09  \	2	2	3L093	F25B  15/09	7	ǲʪФ줿ǤޤȤΡΣ	the refrigerant being hydrogen desorbed from a hydride [5]
F25B  15/10  \	1	1	3L093	F25B  15/10	2	ԳˤΡʣƣ£ƣ£ƣ£ͥ	with inert gas (F25B 15/12, F25B 15/14, F25B 15/16 take precedence)
F25B  15/10  A	1	0	3L093	F25B  15/10	33	ϱդޤޤήϩü	special arrangement of flow paths of solutions or refrigerants
F25B  15/10  B	1	0	3L093	F25B  15/10	20	Ǯ򴹴ħΤ	Characterized by arrangement of heat exchangers
F25B  15/10  C	1	0	3L093	F25B  15/10	9	մħΤ	Characterized by arrangement of liquid receivers
F25B  15/10  Z	1	0	3L093	F25B  15/10	110	¾Τ	Others
F25B  15/12  \	1	1	3L093	F25B  15/12	0	ƵۼͭΡʣƣ£ͥ	with resorber (F25B 15/14 takes precedence)
F25B  15/14  \	1	1	3L093	F25B  15/14	66	ƩѤ	using osmosis
F25B  15/16  \	1	1	3L093	F25B  15/16	8	ǥץ󥵥Ѥ	using desorption cycle
F25B  17/00  \	0	0	3L093	F25B  17/00	11	ַư弰ץȤޤϥƥࡤ㡥ۼޤϵ弰	Sorption machines, plant, or systems, operating intermittently, e.g. absorption or adsorption type
F25B  17/02  \	1	1	3L093	F25B  17/02	157	ۼޤޤϵޤվ㡥ǤΡʣƣ£ͥ	the absorbent or adsorbent being a liquid, e.g. brine (F25B 17/10 takes precedence)
F25B  17/04  \	2	2	3L093	F25B  17/04	15	İʾΥܥ餬ߤ˺ư	with two or more boilers operating alternately
F25B  17/06  \	2	2	3L093	F25B  17/06	1	ưޤϲžǽ˥ܥ餪Ӿȯ郎¤Ƥ	with the boiler and evaporator built-up as a unit in a tiltable or revolving arrangement
F25B  17/08  \	1	1	3L093	F25B  17/08	17	ۼޤޤϵޤΡ㡥ǤΡʣƣ£ͥˡΣ	the absorbent or adsorbent being a solid, e.g. salt (F25B 17/12 takes precedence) [5]
F25B  17/08  A	1	0	3L093	F25B  17/08	190	ݥ׼ʤޤݥ۴ĤΡ̣Ƥͥ	loop type, e.g. refrigerants circulating in the loop (F takes precedence)
F25B  17/08  B	1	1	3L093	F25B  17/08	223	İʾΥܥ餬ߤ˺ư	two or more boilers operating alternately
F25B  17/08  C	1	0	3L093	F25B  17/08	277	ưʤܤΥѥޤưΡ̣Ƥͥ	reciprocating motion, e.g. refrigerants moving in one pipe back and forth (F takes precedence)
F25B  17/08  D	1	1	3L093	F25B  17/08	121	Ž̴Ρ̣Ťͥ	with condensers (E takes precedence)
F25B  17/08  E	1	1	3L093	F25B  17/08	186	İʾΥܥ餬ߤ˺ư	two or more boilers operating alternately
F25B  17/08  F	1	0	3L093	F25B  17/08	46	ưޤϲưߤ˥ܥ餪Ӿȯ郎¤Ƥ	boilers and evaporators being manufactured so as to freely react or rotate
F25B  17/08  Z	1	0	3L093	F25B  17/08	470	¾Τ	Others
F25B  17/10  \	1	1	3L093	F25B  17/10	4	ǮαϱդѤ	using the endothermic solution of salt
F25B  17/12  \	1	1	3L093	F25B  17/12	4	ǲʪοФѤΡΣ	using desorption of hydrogen from a hydride [5]
F25B  17/12  K	1	0	3L093	F25B  17/12	79	ʣȿϤͭ	with a plurality of reaction systems
F25B  17/12  L	1	1	3L093	F25B  17/12	99	ʣȿϤδϩΩƤ	pipes of a plurality of reaction systems being independent
F25B  17/12  M	1	0	3L093	F25B  17/12	78	°ǲʪΤưΤޤ϶°ƴ郎ưޤϲžߤˤʤĤƤ	metal hydrogen compounds moving or metal vessels being inclined or rotating freely
F25B  17/12  N	1	0	3L093	F25B  17/12	47	ǮħΤ	Characterized by the heating source
F25B  17/12  P	1	0	3L093	F25B  17/12	155	㡥°ƴ	details, e.g. metal vessels
F25B  17/12  Q	1	0	3L093	F25B  17/12	119	桦Ĵ	control and adjustment
F25B  17/12  Z	1	0	3L093	F25B  17/12	180	¾Τ	Others
F25B  19/00  \	0	0	3L094	F25B  19/00	11	޾βԤʤȯѤץȤޤϥƥ	Machines, plant, or systems, using evaporation of a refrigerant but without recovery of the vapour
F25B  19/00  A	0	0	3L094	F25B  19/00	180	ˤƾȯΡ̥ˤ۰ΡѤΤޤΡ	articles being evaporated under reduced pressure (sucked and depressurized by the ejector, 19/02, 19/04; using the ejector and collecting refrigerants, 1/06, 1/08)
F25B  19/00  Z	0	0	3L094	F25B  19/00	187	¾Τ	Others
F25B  19/02  \	1	1	3L094	F25B  19/02	91	ήΥåȡ㡥ΥåȡѤ	using fluid jet, e.g. of steam
F25B  19/04  \	2	2	3L094	F25B  19/04	99	Υåȡ㡥ΥåȡѤ	using liquid jet, e.g. of water
F25B  21/00  \	0	0	3L094	F25B  21/00	17	ŵޤϼ̤ѤץȤޤϥƥ	Machines, plant, or systems, using electric or magnetic effects
F25B  21/00  A	0	0	3L094	F25B  21/00	798	̤ѤΡ̥ŤˤΣڡ	using the magnetic effect (by corona discharge Z)
F25B  21/00  Z	0	0	3L094	F25B  21/00	92	¾Τ	Others
F25B  21/02  \	1	1	3L094	F25B  21/02	97	ڥ̤ѤΡå󥰥ϥ̤ѤΡΣ	using Peltier effect; using Nernst-Ettinghausen effect [1, 2006.01]
F25B  21/02  A	1	0	3L094	F25B  21/02	747	ڥ̤ѤΡƱ̤ѤĴ˥ĥȣƣƣƱ̤Ѥ˼֣£ȣסƱ̤Ѥ¢ˣƣģס	using the Peltier effect (units in the air conditioning room using the effect F24F 1/00 351; automobile coolers using the effect B 60 H 1/32 102W; refrigerators using the effect F25D 11/00 101W)
F25B  21/02  D	1	1	3L094	F25B  21/02	143	ҡݥȥѥפˤǮ	heat transfer by heat pips
F25B  21/02  E	1	1	3L094	F25B  21/02	49	¿żΤ	by the multiple type
F25B  21/02  F	1	1	3L094	F25B  21/02	221	桤	control, safety
F25B  21/02  G	1	1	3L094	F25B  21/02	56	ήΤβǮѡʡġƤͥ	heating or cooling liquids (@D to F take precedence)
F25B  21/02  H	1	2	3L094	F25B  21/02	158	ΤβǮ	heating or cooling gases
F25B  21/02  J	1	3	3L094	F25B  21/02	9	ΤβǮ	heating gases
F25B  21/02  K	1	3	3L094	F25B  21/02	177	Τ	cooling gases
F25B  21/02  L	1	4	3L094	F25B  21/02	178	Ž̡ʥڥ̤Ѥ֡£ģ	dehumidification; condensation (dehumidification devices using the Peltier effect B 01 D 53/26 @A)
F25B  21/02  M	1	2	3L094	F25B  21/02	195	ΤβǮ	heating or cooling liquids
F25B  21/02  N	1	3	3L094	F25B  21/02	37	ΤβǮ	heating liquids
F25B  21/02  P	1	4	3L094	F25B  21/02	11	ȯü	evaporation; moistening
F25B  21/02  Q	1	3	3L094	F25B  21/02	211	Τѡƣģ	cooling liquids (water cooler F25D 11/00, 102)
F25B  21/02  R	1	1	3L094	F25B  21/02	150	ΤβǮ	heating or cooling solids
F25B  21/02  S	1	2	3L094	F25B  21/02	12	ΤβǮ	heating solids
F25B  21/02  T	1	2	3L094	F25B  21/02	199	Τ	cooling solids
F25B  21/02  Z	1	0	3L094	F25B  21/02	124	¾Τ	Others
F25B  21/04  \	2	2	3L094	F25B  21/04	77	ĵդΤΡΣ	reversible [5]
F25B  23/00  \	0	0	3L094	F25B  23/00	25	롼ףƣ£ƣ£ޤʤñκưͼ㡥Ūռ͸̤ѤΡĵץȤޤϥƥ	Machines, plant, or systems, with a single mode of operation not covered by groups F25B 1/00-F25B 21/00, e.g. using selective radiation effect
F25B  23/00  A	0	0	3L094	F25B  23/00	36	ϲǮѤΡ̵ΤθΤؤεޤϵΤαΤؤεۼȼʤȿǮѤΣѴƣģ	using the dissolution heat (using the reaction heat caused by sorption of gases to solids or absorption of gases to liquids 15/00, 17/00; radiation cooler F25D 31/00
F25B  23/00  Z	0	0	3L094	F25B  23/00	196	¾Τ	Others
F25B  25/00  \	0	0	3L094	F25B  25/00	9	롼ףƣ£ƣ£ΣİʾΥ롼פ°ưͼȤ߹碌εץȤޤϥƥΣ	Machines, plants or systems, using a combination of modes of operation covered by two or more of the groups F25B 1/00-F25B 23/00 [1, 2006.01]
F25B  25/00  A	0	0	3L094	F25B  25/00	70	ڥ̤ޤϥĥ󥰥ϥ̤Ѥưͼ¾κưͼȤȤ߹碌	a combination of the operation mode using the Peltier effect or Ettinghausen effect with other operation modes
F25B  25/00  B	0	0	3L094	F25B  25/00	40	̤Ѥưͼ¾κưͼȤȤ߹碌	a combination of the operation mode using the magnetic effect with other operation modes
F25B  25/00  Z	0	0	3L094	F25B  25/00	143	¾Τ	Others
F25B  25/02  \	1	1	3L094	F25B  25/02	11	̡弰ץȤޤϥƥ	Compression-sorption machines, plants, or systems
F25B  25/02  A	1	0	3L094	F25B  25/02	320	̡ݵۼΤΡ̰̼ư륨󥸥ǮѤۼ룲ˡ	of the compression - absorption type (absorption type cycle using waste heat of the engine driving the compression type cycle 27/02 k)
F25B  25/02  B	1	1	3L094	F25B  25/02	144	̼ȵۼȤϢ̤ƱޤήƤΡ㡥̵ȯľߤ줿	compression type cycle and absorption type cycle being connected and same refrigerant flowing, e.g. compressors connected to the generator in series
F25B  25/02  C	1	2	3L094	F25B  25/02	10	ȵۼȤȤ߹碌Ρۥͥ륮Ѥ뤽Τ褦ʤΣΡǮѤ뤽Τ褦ʤΣΡ¾ΰ̼Ȥ¿ʤȤ߹碌ΣȤ߹碌Σڡ	a combination of the ejector and the absorption type cycle (using solar energy 27/00N; using waste heat 27/02N; ejectors and other compression type cycles being combined in multi-stage 1/10; those devices combined in parallel 1/00Z)
F25B  25/02  Z	1	0	3L094	F25B  25/02	110	¾Τ	Others
F25B  27/00  \	0	0	3L094	F25B  27/00	83	üʥͥ륮Ѥ뵡ץȤޤϥƥʣƣ£ͥ	Machines, plant, or systems, using particular sources of energy (F25B 30/06 takes precedence)
F25B  27/00  A	0	0	3L094	F25B  27/00	784	󥸥ˤ갵̵ưΡϡϤ뤤ϿϤˤưΣڡǳؤѤĴ˥ĥȣƣƣء	driving compressors by the engine (driving by wind force, wave force, or human force Z; units outside the air conditioning room using an internal-combustion engine F24F 5/00X)
F25B  27/00  B	0	1	3L094	F25B  27/00	684	桤̣áͥ	control, safety (C to F take precedence)
F25B  27/00  C	0	1	3L094	F25B  27/00	208	ѡޤϹҶΥ󥸥ˤ갵̵ưΡ̣ġƤͥ表󥸥ˤư˼֣£ȣǡԡ	driving compressors by engines of automobiles, ships, or planes (D to F take precedence; automobile coolers driven by engines B 60 H 1/32 102G, T)
F25B  27/00  D	0	1	3L094	F25B  27/00	47	ǳݥӥ󥨥󥸥ˤ갵̵ưΡॵιʤȤƥݥӥѤΣӵݥӥˤ갵̵ưΣ̡	driving compressors by internal-combustion gas turbine engines (turbines used as a component part of the freezing cycle 11/00; driving compressors by exhaust gas turbines 27/02L)
F25B  27/00  E	0	1	3L094	F25B  27/00	148	ǳء㡥ݥ󥰥󥸥󡤥󥭥󥵥ͤˤ갵̵ưΡ̳ǳؤ𤷤ۥͥ륮ǰ̵ưΣ̡	driving compressors by external-combustion engines, e.g. stirring engine, ranking cycle (driving compressors by solar energy via external-combustion engines L)
F25B  27/00  F	0	2	3L094	F25B  27/00	71	ॵϢ̤Ʊޤή󥭥󥵥ˤ갵̵ưΡॵ˸ۤεǽͤ륿ݥӥͭΣ	driving compressors by the ranking cycle which is connected to the freezing cycle and in which the same refrigerant flows (with turbines functioning as pressure reducing valves in the freezing cycle 11/00)
F25B  27/00  G	0	0	3L094	F25B  27/00	51	ήΰ㡥ͤˤ갵̵ư	driving compressors by the fluid pressure, e.g. oil pressure
F25B  27/00  H	0	0	3L094	F25B  27/00	323	ۥͥ륮ѤΡϡϤѤΣڡ	using solar energy (using wind force and wave force Z)
F25B  27/00  J	0	1	3L094	F25B  27/00	180	ॵޤľͤǲǮΡ̡̣Τͥ	heating refrigerants in the freezing cycle by direct input (L to N take precedence)
F25B  27/00  K	0	2	3L094	F25B  27/00	121	桤	control, safety
F25B  27/00  L	0	1	3L094	F25B  27/00	148	弰㡥ۼͤΤΡ̣Τͥ	sorption type, e.g. absorption type (N takes precedence)
F25B  27/00  M	0	1	3L094	F25B  27/00	160	ۥͥ륮ˤ갵̵ưΡ㡥󥭥󥵥Ѥۥͥ륮ˤưΡӤˤΡ̣Τͥ	driving compressors by solar energy, e.g. driving by solar energy using the ranking cycle; by solar cells (N takes precedence)
F25B  27/00  N	0	1	3L094	F25B  27/00	16	ˤ	by ejectors
F25B  27/00  P	0	0	3L094	F25B  27/00	373	ǮϲǮޤǮѤΡϲǮޤϹⲹǤʤǮѤҡݥȥݥףԡϤλĤǮѤΣʡڡ	using hot spring heat, underground heat, or geothermal heat (heat pumps using underground heat or geothermal heat being not hot 30/60; using heat of remaining hot water of a bath 27/02J to Z)
F25B  27/00  Q	0	0	3L094	F25B  27/00	72	ǳѱղ㡥Իԥѣ̣ΣǡͤǮѤΡ̤ǮѤ֣ƣģơ	using cooling heat of liquefied gas for fuel, e.g. town gas LNG (coolers using this cooling heat F25D 3/10F)
F25B  27/00  R	0	0	3L094	F25B  27/00	101	Ѥ°ʤͥ륮ʣѤΡ㡥ǮȿǮȤڴѤ	using a plurality of energy sources not belonging to A to Q, e.g. switching the air heat source and water heat source
F25B  27/00  Z	0	0	3L094	F25B  27/00	201	¾Τ	Others
F25B  27/02  \	1	1	3L094	F25B  27/02	88	Ǯ㡥ǳؤǮѤ	using waste heat, e.g. from internal-combustion engines
F25B  27/02  A	1	0	3L094	F25B  27/02	244	ｻ֤ޤϤ֡㡥΢Ἴͤ䵤ǮѤΡ̣ʡФͥ表ζ֤˼Ʊ˹ԤʤΣ	using waste heat of heating and cooling air of the residence space or similar space, e.g. garret, bath room (J to P take precedence; air conditioning of these spaces being executed at the same time 29/00 361)
F25B  27/02  B	1	0	3L094	F25B  27/02	21	ǮѤΡ̣ʡФͥ表Ž̴ǮѤΣ̵ǮѤΣġ͡ҡʡ֡ʤɤΣγƹܻȡȯǮѤĴƣƣ	using waste heat of lighting fixtures (J to P take precedence; using waste heat of condensers 29/00 351 to 441; using waste heat of compressors 1/00 306D, see each item in 1.00 to 13/00 such as 1/00 321M to 321R, 1/04J, 04V, 13/00 341, central air conditioning using generated heat of lighting fixtures F24F 3/056)
F25B  27/02  C	1	0	3L094	F25B  27/02	377	󥸥ǮѤ  ʡʡФͥ表̵򥨥󥸥ǶưΤϣͥ	using waste heat of engines (@J to P take precedence; driving compressors by engines 27/00, @A takes precedence)
F25B  27/02  D	1	1	3L094	F25B  27/02	178	桤̣šȤͥ	control, safety (E to H take precedence)
F25B  27/02  E	1	1	3L094	F25B  27/02	61	Ρ㡥ѿ˥󥸥ҤΡ̣ǡȤͥ	immersing engines in freezing media, e.g. cooling water (G and H take precedence)
F25B  27/02  F	1	1	3L094	F25B  27/02	512	󥸥ǮॵޤǮΡ㡥󥸥ǮǾȯǮΡ̣ǡȤͥ	heating refrigerants in the freezing cycle by waste heat of engines, e.g. heating evaporators by waste heat of engines (G and H take precedence)
F25B  27/02  U	1	2	3L094	F25B  27/02	137	Ǯ¦Ǯ򴹴ˤޤ򥨥󥸥ǮɲòǮ	additionally heating refrigerants in the heat exchanger on the external heat source side by waste heat of engines
F25B  27/02  V	1	2	3L094	F25B  27/02	24	ݥʬΥ쥷ݥФˤޤ򥨥󥸥ǮǲǮ	heating refrigerants in the accumulator, vapor-liquid separator, and receiver by waste heat of engines
F25B  27/02  G	1	1	3L094	F25B  27/02	114	ѡޤϹҶΥ󥸥ǮѤΡ̣Ȥͥ	using waste heat of engines of automobiles, ships, or planes (H takes precedence)
F25B  27/02  H	1	1	3L094	F25B  27/02	85	ǳء㡥ݥ󥰥󥸥󡤥󥭥󥵥ͤǮѤ	using waste heat of external-combustion engines
F25B  27/02  J	1	0	3L094	F25B  27/02	203	弰㡥ǵ¢͵ץȤޤϥƥǥͥ륮ǮѤ	using waste heat for the energy source in sorption machines, e.g. hydrogen absorption type, plant, or systems
F25B  27/02  K	1	1	3L094	F25B  27/02	733	ۼץȤޤϥƥǥͥ륮ǮѤΡ̣Τͥ	using waste heat for the energy source in sorption machines, plant, or systems (N takes precedence)
F25B  27/02  L	1	0	3L094	F25B  27/02	103	Ǯˤ갵̵ư뵡ץȤޤϥƥࡤ㡥ǮѤΥݥӥˤ갵̵ưΡ̣Τͥ	machines, plant, or systems for driving compressors by waste heat, e.g. driving compressors by turbines using waste heat (N takes precedence)
F25B  27/02  N	1	0	3L094	F25B  27/02	80	ѤץȤޤϥƥǥͥ륮ǮѤΡ̥ѤץȤޤϥƥ༫Σ	using waste heat for the energy source in machines using ejectors, plant, or systems (machines, plant, or systems using ejectors 1/06, 1/08)
F25B  27/02  P	1	0	3L094	F25B  27/02	22	եĥѤץȤޤϥƥǥͥ륮ǮѤ	using waste heat for the energy source in machines using flash tanks , plant, or systems
F25B  27/02  Q	1	0	3L094	F25B  27/02	204	ӱդǮȤ	using waste liquids as a heat source
F25B  27/02  R	1	0	3L094	F25B  27/02	114	ӵǮȤ  ʥ󥸥ӵǮȤΤϡá	using exhaust air as a heat source
F25B  27/02  Z	1	0	3L094	F25B  27/02	267	¾Τ	Others
F25B  29/00  \	0	0	3L094	F25B  29/00	117	ǮȤȤߤ碌ƥࡤ㡥ߤޤƱ˺ưΡΣ	Combined heating and refrigeration systems, e.g. operating alternately or simultaneously [5]
F25B  29/00 301 \	1	1	3L094	F25B  29/00	40	̼ѤǮȤ߹碌ƥʣͥ	a system combining heating and freezing using the compression type cycle (431 and 441 take precedence)
F25B  29/00 311 \	2	2	3L094	F25B  29/00	68	Ǯ¦¦ȤߤѤΡʣͥ	using the heating side and the freezing side alternately (351 takes precedence)
F25B  29/00 321 \	3	3	3L094	F25B  29/00	120	˼˼Ȥߤ˹ԤʤΡʰ̼ĵե뼫Σ¿Ū˼Ѥĵե룱	heating and cooling alternately (compression type reversible cycle 13/00; reversible cycle using for air conditioning of many rooms in an alternative way)
F25B  29/00 331 \	4	4	3L094	F25B  29/00	154	˼˼Ȥߤ˹ԤʤΡʾ˼ŷ˼ȤƱ˹ԤʤΣ	floor heating and cooling alternately (floor heating and ceiling heating alternately at the same time 361)
F25B  29/00 341 \	3	3	3L094	F25B  29/00	26	Ǯ˼Ȥߤ˹Ԥʤ	water heating and cooling alternately
F25B  29/00 351 \	2	2	3L094	F25B  29/00	426	Ǯ¦¦ȤƱѤΡ㡥ॷݥݥζŽ̴ȯǮŹ˼Ѥ	using the heating side and freezing side at the same time, e.g. using generated heat of condensers in freezing showcases for heating stores
F25B  29/00 361 \	3	3	3L094	F25B  29/00	19	ǮȿѤȤƱ˹ԤʤΡ˼˼ȤƱ˹Ԥʤ	water heating and water cooling at the same time; heating and cooling at the same time
F25B  29/00 361 A	3	0	3L094	F25B  29/00	402	ۤˤήϩڴ	switching the refrigerant flow path by the 4-way valve
F25B  29/00 361 B	3	0	3L094	F25B  29/00	376	۰ʳμʤˤǮ򴹴ȯŽ̴ڴѤ	using heat exchangers to switch evaporators and condensers each other by means other than the 4-way valve
F25B  29/00 361 Z	3	0	3L094	F25B  29/00	328	¾Τ	Others
F25B  29/00 371 \	3	3	3L094	F25B  29/00	5	Ǯ˼ȤƱ˹Ԥʤ	water heating and water cooling at the same time
F25B  29/00 371 A	3	0	3L094	F25B  29/00	71	۰ʳμʤˤǮ򴹴ȯŽ̴ڴѤΡ̤Τ褦ʤΤ桤ơ	using heat exchangers to switch evaporators and condensers each other by means other than the 4-way valve (control and safety for that, F)
F25B  29/00 371 B	3	0	3L094	F25B  29/00	197	ۤĤΡ̤Τ褦ʤΤ桤ơ	with 4-way valves (control and safety for that, F)
F25B  29/00 371 C	3	1	3L094	F25B  29/00	90	ֿޡ	[figure]
F25B  29/00 371 D	3	1	3L094	F25B  29/00	98	ֿޡ	[figure]
F25B  29/00 371 E	3	1	3L094	F25B  29/00	77	ʣλۤĤΡ̤Τ褦ʲĵհ̼뼫Σӡ	with a plurality of 4-way valves (such reversible compression type cycle 13/00S)
F25B  29/00 371 F	3	0	3L094	F25B  29/00	161	桤	control, safety
F25B  29/00 371 G	3	1	3L094	F25B  29/00	34	ޤѤΡޤϵȽ̥ǡݥˤ̣ȡͥ	using timers; control by the time or season discrimination data (H and J take precedence)
F25B  29/00 371 H	3	1	3L094	F25B  29/00	29	˼˾ȯ郎ǲǮ륷ƥ	controlling the system that evaporators are heated by supplied hot water during heating
F25B  29/00 371 J	3	1	3L094	F25B  29/00	42	ͥޤ˼ͥ豿ž	running that hot water supply or air conditioning takes precedence
F25B  29/00 371 Z	3	0	3L094	F25B  29/00	135	¾Τ	Others
F25B  29/00 381 \	3	3	3L094	F25B  29/00	81	ѤȤκƲǮȤƱ˹Ԥʤ	air cooling and reheating at the same time
F25B  29/00 391 \	4	4	3L094	F25B  29/00	28	ѻ˽ԤʤΡʽκƲǮԤʤʤΣ	dehumidification at the time of air cooling (not reheating air after dehumidification 1/00 303, 13/00 103)
F25B  29/00 391 A	4	0	3L094	F25B  29/00	110	Ǯ򴹴㡥Ǯħ	Characterized by the heat exchanger, e.g. reheaters
F25B  29/00 391 Z	4	0	3L094	F25B  29/00	228	¾Τ	Others
F25B  29/00 401 \	5	5	3L094	F25B  29/00	43	˼βǮѤȽȤߤ˹ԤʤΡʣͥ	heating, water heating and cooling, and dehumidification alternately (411 takes precedence)
F25B  29/00 411 \	5	5	3L094	F25B  29/00	0	˼ȽȤߤ˹Ԥʤ	cooling and dehumidification alternately
F25B  29/00 411 A	5	0	3L094	F25B  29/00	177	ľ󥿥סʤǮȼǮ򴹴Ȥľߤ줿Ρ㡥ֿޡ	direct type, e.g. reheaters and outside-room heat exchangers being mounted in series, e.g. [figure]
F25B  29/00 411 B	5	1	3L094	F25B  29/00	405	˼Ǯ㰵ޤήȯȤƵǽ뤳κǮ¾μȯȤľǤΡ㡥ֿޡ	during cooling, low pressure refrigerants entering the reheater and the reheater functioning as an evaporator and evaporators in other rooms being arranged in series
F25B  29/00 411 C	5	2	3L094	F25B  29/00	84	˼ȽȤǺǮޤήդˤʤΡ㡥ֿޡ	the refrigerant flowing directions in the reheater at the time of cooling and dehumidification being reverse, e.g. [figure]
F25B  29/00 411 D	5	1	3L094	F25B  29/00	88	˼Ǯ㰵ޤήȯȤƵǽ뤳κǮ¾μȯȤǤΡ㡥ֿޡ	during cooling, low pressure refrigerants entering the reheater and the reheater functioning as an evaporator and evaporators in other rooms being arranged in parallel
F25B  29/00 411 E	5	0	3L094	F25B  29/00	207	󥿥סʤ˼ޤϽˤƹⰵޤǮȼǮ򴹴ξޤϤ줫˿ʬΡ㡥ֿޡ	parallel type, e.g. during cooling or dehumidification, high pressure refrigerants being distributed in both or either one of the reheater and outside-room heat exchanger, e.g. [figure]
F25B  29/00 411 F	5	1	3L094	F25B  29/00	20	˼Ǯ򴹴̲帺줿㰵ޤǮήȯȤƵǽ뤳κǮ¾μȯȤľǤΡ㡥ֿޡ	during cooling, after passing the outside-room heat exchanger, the lower pressure refrigerant depressurized flowing into the reheater and the reheater functioning as an evaporator and other inside-room evaporators being arranged in series, e.g. [figure]
F25B  29/00 411 G	5	1	3L094	F25B  29/00	42	˼Ǯ򴹴̲帺줿㰵ޤǮήȯȤƵǽ뤳κǮ¾μȯȤǤΡ㡥ֿޡ	during cooling, after passing the outside-room heat exchanger, the lower pressure refrigerant depressurized flowing into the reheater and the reheater functioning as an evaporator and other inside-room evaporators being arranged in parallel, e.g. [figure]
F25B  29/00 411 H	5	0	3L094	F25B  29/00	128	ʣμǮ򴹴ĥסʬΤ뼼Ǯ򴹴ĥס̣Ǥͥ	type having a plurality of outside-room exchangers; type having outside-room heat exchangers with intermediate branch ports (A to G take precedence)
F25B  29/00 411 J	5	0	3L094	F25B  29/00	11	ॵ㰵ޤˤǮԤʤס̣Ǥͥ	type reheating by low pressure refrigerants of the freezing cycle (A to G take precedence)
F25B  29/00 411 K	5	0	3L094	F25B  29/00	2	⢫ڴǽǮ򴹴Ѥ륿ס̣Ǥͥ	heat exchangers capable of switching inside-room and outside-room each other (A to G take precedence)
F25B  29/00 411 L	5	0	3L094	F25B  29/00	57	Ǯ˥ޤήʤΡ㡥ҡݥȥѥפѤƺƲǮ	no cycle refrigerants flowing into the reheater, e.g. reheating using the heat bypass
F25B  29/00 411 Z	5	0	3L094	F25B  29/00	36	¾Τ	Others
F25B  29/00 421 \	1	1	3L094	F25B  29/00	148	弰㡥ۼѤǮȤ߹碌ƥʣͥ	sorption type, e.g. absorption type, systems combined with heating and freezing using the cycle (431 and 441 take precedence)
F25B  29/00 431 \	1	1	3L094	F25B  29/00	14	ʣΥѤǮȤ߹碌ƥࡨʣǽи뤤ϵİ̵ޤʣΰ̵ˤǮȤ߹碌ƥ	systems combined with heating and freezing using a plurality of cycles; systems combined with heating and freezing by a compressor or a plurality of compressors having a plurality of discharge ports and intake ports
F25B  29/00 431 A	1	0	3L094	F25B  29/00	65	ѤȤκƲǮȤԤʤ	cooling and reheating air
F25B  29/00 431 Z	1	0	3L094	F25B  29/00	189	¾Τ	Others
F25B  29/00 441 \	2	2	3L094	F25B  29/00	186	ݥɷΤΡʤΥζŽ̴ȯǮ¾Υξȯ˵ۼ륿פΤΡʥݥɷ̼뼫Σ	of the cascade type, i.e. of the type that a condenser generated heat of one cycle being absorbed in an evaporator of other cycles (cascade compression type cycle 7/00)
F25B  30/00  \	0	0	3L094	F25B  30/00	28	ҡȥݥסʣƣ£ƣ£ƣ£ͥˡΣ	Heat pumps (F25B 1/00-F25B 25/00, F25B 29/00 take precedence) [5, 2006.01]
F25B  30/02  \	1	1	3L094	F25B  30/02	15	̼ΤΡΣ	of the compression type [5]
F25B  30/02  A	1	0	3L094	F25B  30/02	79	Ἴޤ	for bath rooms or bath tubs
F25B  30/02  B	1	0	3L094	F25B  30/02	91	ռ˼ѡ㡥˼	for radiation heating, e.g. for floor heating
F25B  30/02  C	1	0	3L094	F25B  30/02	71	ͻ	for melting snow
F25B  30/02  F	1	0	3L094	F25B  30/02	489	ѡ̣ͥ	for supplying hot water (A takes precedence)
F25B  30/02  G	1	1	3L094	F25B  30/02	162	ĤοǮǮ򴹴Ĥ	with several heat exchangers for heating water
F25B  30/02  H	1	1	3L094	F25B  30/02	493	̣Ǥͥ	control (G takes precedence)
F25B  30/02  J	1	2	3L094	F25B  30/02	117	̵ǽ	compressor capacity control
F25B  30/02  K	1	2	3L094	F25B  30/02	37	ŵҡݥ	electric heater control
F25B  30/02  Z	1	0	3L094	F25B  30/02	240	¾Τ	Others
F25B  30/04  \	1	1	3L094	F25B  30/04	23	弰ΤΡΣ	of the sorption type [5]
F25B  30/04 510 \	2	2	3L094	F25B  30/04	6	ŸѤΤΡʣͥ衤梪	single effect (530 takes precedence, control R 15/00 306)
F25B  30/04 510 A	2	0	3L094	F25B  30/04	131	裲ҡݥȥݥס㡥ȯǮήΤ	2nd class heat pumps, e.g. heat source fluids being sent to evaporators
F25B  30/04 510 B	2	0	3L094	F25B  30/04	34	Ǯ򴹴ħΤ	Characterized by the hot water heat exchanger
F25B  30/04 510 C	2	0	3L094	F25B  30/04	158	ϱդޤޤήϩڤ괹뤳ȤǤ	solution or refrigerant flowing paths capable of being switched
F25B  30/04 510 Z	2	0	3L094	F25B  30/04	137	¾Τ	Others
F25B  30/04 520 \	2	2	3L094	F25B  30/04	0	ŸѤΤΡʣͥ衤梪	double effects (530 takes precedence, control R 15/00 306)
F25B  30/04 520 B	2	0	3L094	F25B  30/04	57	Ǯ򴹴ħΤ	Characterized by the hot water heat exchanger
F25B  30/04 520 C	2	0	3L094	F25B  30/04	89	Ʊդޤޤήϩڤ괹뤳ȤǤ	solution or refrigerant flowing paths capable of being switched
F25B  30/04 520 Z	2	0	3L094	F25B  30/04	53	¾Τ	Others
F25B  30/04 530 \	2	2	3L094	F25B  30/04	48	ϱդϤǽ۴Ĥ	solutions circulating by the gravity
F25B  30/06  \	1	1	3L094	F25B  30/06	9	㲹ǮħΤΡΣ	characterised by the source of low potential heat [5]
F25B  30/06  T	1	0	3L094	F25B  30/06	537	ϲǮޤϹⲹǤʤǮѤҡݥȥݥס̤ǮѤॷƥޤϹⲹǮѤҡݥȥݥףС	heat pumps using underground heat or geothermal heat being not hot (freezing systems using these heat sources or heat pumps using high geothermal heat 27/00P)
F25B  30/06  Z	1	0	3L094	F25B  30/06	89	¾Τ	Others
F25B  31/00  \	0	0	3L095	F25B  31/00	13	̵֡Σ	Compressor arrangements [1, 2006.01]
F25B  31/00  A	0	0	3L095	F25B  31/00	228	ʣΰ̵֡ʣ̵ϣʡʡλưϣ֡Σγƹܻȡ	arrangement of a plurality of compressors (capacity control of a plurality of compressors 1/00 361J, 13/00J,  start control thereof, see each item in 1/00 to 13/00 such as 1/00 341V, 13/00 361, etc.
F25B  31/00  B	0	0	3L095	F25B  31/00	96	մȯޤ϶Ž̴ؤΰ̵̣֡ͥ表ηħΤʤ̵ѣ̵ؤʤμդ˼֤ˤ밵̵֤ȼդ£ȣǡ¢ˤˤ밵̵֤ȼդƣģȡĴ˥ĥȤؤΰ̵֤ȼդƣƣա	arrangement of compressors in liquid receivers, evaporators, or condensers (A takes precedence; cooling of compressors whose cycle type is not characterized 1/00 321; mounting of electrical parts to compressors 49/00 351; arrangement and mounting of compressors in vehicle coolers B 60 H 1/32G; arrangement and mounting of compressors in refrigerators F25D 19/00H; arrangement and mounting of compressors in units outside the air conditioning room F24F 5/00U)
F25B  31/00  Z	0	0	3L095	F25B  31/00	188	¾Τ	Others
F25B  31/02  \	1	1	3L095	F25B  31/02	10	⡼Ȱ̵ȤñΤˤʤäƤ	of motor-compressor units
F25B  31/02  A	1	0	3L095	F25B  31/02	59	ʣΰ̵֡ѥ쥷ץ̵ƣ£Τɲɿꡤѣƣ£ɿٻƣ£ơǡѥݥݼ̵ƣãΤξòꡤѣƣã󿴼̵ƣġ	arrangement of a plurality of compressors (refrigerant reciprocating compressors F04B 25/00 to 41/06; sound-proof, vibration-proof, lubrication, and cooling for it F04B 39/00 to 39/06; vibration-proof support thereof F04B 39/00 102F, 102G; freezing rotary compressors F04C 18/00 to 29/00; sound arrest for it, lubrication, and cooling F04C 29/00 to 29/06; centrifugal compressors F04D)
F25B  31/02  Z	1	0	3L095	F25B  31/02	276	¾Τ	Others
F25B  33/00  \	0	0	3L096	F25B  33/00	19	ܥ顨ʥ饤ίʵۼѥܥƣ£	Boilers; Analysers; Rectifiers (boiler-absorbers F25B 35/00)
F25B  33/00  A	0	0	3L096	F25B  33/00	109	ί	fractionator
F25B  33/00  B	0	0	3L096	F25B  33/00	130	ൡѤΥܥ	boilers for small refrigerators
F25B  33/00  Z	0	0	3L096	F25B  33/00	785	¾	Others
F25B  35/00  \	0	0	3L096	F25B  35/00	24	ۼѥܥ顤ʤۼޤϵ˻ѤǤܥ	Boiler-absorbers, i.e. boilers usable for absorption or adsorption
F25B  35/02  \	1	1	3L096	F25B  35/02	9	վޡ㡥塤Ѥ	using a liquid as sorbent, e.g. brine
F25B  35/04  \	1	1	3L096	F25B  35/04	209	ξޤѤ	using a solid as sorbent
F25B  37/00  \	0	0	3L096	F25B  37/00	797	ۼʵۼѥܥƣ£ˡΣ	Absorbers; Adsorbers (boiler-absorbers F25B 35/00) [1, 2006.01]
F25B  39/00  \	0	0	3L095	F25B  39/00	19	ȯŽ̴	Evaporators; Condensers
F25B  39/00  A	0	0	3L095	F25B  39/00	94	ΤľܲǮѤΡ̣ˡӤͥ	directly heating and cooling gas (K to S take precedence)
F25B  39/00  B	0	1	3L095	F25B  39/00	113	եĤΡ㡥žΤΡ	with fins, e.g. rotary type
F25B  39/00  C	0	2	3L095	F25B  39/00	652	طʤʿ޴ɤȥեؤȤߤ˽Ťͤ	laminating type, i.e. flat refrigerant pipes and fin layers being laminated alternately
F25B  39/00  D	0	2	3L095	F25B  39/00	639	ե󷿡ʤʿľΥե޴ɤ̤Ƥ	cross fin type, i.e. refrigerant pipes passing through flat fins
F25B  39/00  E	0	3	3L095	F25B  39/00	491	إĥޤʬ۴ĥե	cross fin type having a header or refrigerant distributor
F25B  39/00  F	0	1	3L095	F25B  39/00	65	ե⤿ʤʿľΤΡ㡥ݥܥɷѥץ󥷡ݥȷ	flat shape having no fins, e.g. roll bond type, pipe-on sheet type
F25B  39/00  G	0	0	3L095	F25B  39/00	231	ΤľܲǮѤΡ̣ˡӤͥ	directly heating and cooling liquids (K to S take precedence)
F25B  39/00  H	0	1	3L095	F25B  39/00	98	륢ɥݥַ	shell and tube type
F25B  39/00  J	0	0	3L095	F25B  39/00	15	ΤȱΤȤξľܲǮѤΡ㡥ڴΤΡҡݥȥѥפˤΡ̣ˡӤͥ	directly heating and cooling both gases and liquids, e.g. switching type; by heat pipes (K to S take precedence)
F25B  39/00  K	0	0	3L095	F25B  39/00	272	弰㡥ۼͤͭʤ	intrinsic to the sorption type, e.g. absorption type
F25B  39/00  L	0	0	3L095	F25B  39/00	116	ı㡥ԥݥ֡͡ѥסήɤޤϥͥݤȤδϢħ	Characterized by the relationship with the expansion mechanism, e.g. capillary tubes, suction pipes, refrigerant flow-in pipes, or connectors
F25B  39/00  M	0	1	3L095	F25B  39/00	131	إĥݡʬ۴ľȯޤ϶Ž̴ıȤδϢħ	Characterized by the relationship of headers, evaporators having refrigerant distributors or condensers with the expansion mechanism
F25B  39/00  N	0	0	3L095	F25B  39/00	121	ίᡤմʬΥݥɥ饤ޤϥ륻ѥݥȤδϢħ	Characterized by the relationship with refrigerant collectors, liquid receivers, vapor-liquid separators, accumulators, driers, or oil separators
F25B  39/00  P	0	0	3L095	F25B  39/00	118	դޤɽ̽ħ	Characterized by coating of members or the surface treatment
F25B  39/00  Q	0	0	3L095	F25B  39/00	202	޴ؤʪĥޤϥʡݥեħΡޥѥפι¤ħ	Characterized by inserts in the refrigerant pipes and wick or inner fins; characterized by the refrigerant pipe structure
F25B  39/00  R	0	0	3L095	F25B  39/00	29	ޤݤħΡޤν󣴣	characterized by dusting or cleaning (dusting of refrigerants 43/00)
F25B  39/00  S	0	0	3L095	F25B  39/00	30	ŵŪʡŪʤޤϲÿʤˤȯŽ̤¥ʡ㡥ĶȿưˤΡŪѤޤϲǮʤˤȯŽ̤¥	promotion of evaporation and condensation by the electric means, magnetic means, or vibration means, e.g. by ultrasonic vibration; promotion of evaporation and condensation by the auxiliary cooling or heating means
F25B  39/00  Z	0	0	3L095	F25B  39/00	124	¾Τ	Others
F25B  39/02  \	1	1	3L095	F25B  39/02	27	ȯ	Evaporators
F25B  39/02  A	1	0	3L095	F25B  39/02	83	ΤľѤΡ̣ҡ٤ͥ表Τ˱ƶȯϣγƹܤ򻲾ȡ	directly cooling gas (R to Y take precedence); for control of evaporators affecting the whole cycles, see  each item in 1/00 to 29/00)
F25B  39/02  B	1	1	3L095	F25B  39/02	105	եĤΡ㡥ž뤤Ͽ˾եĤ	with fins, e.g. with rotary or needle-shaped fins
F25B  39/02  C	1	2	3L095	F25B  39/02	1024	طʤʿ޴ɤȥեؤȤߤ˽Ťͤ	laminating type, i.e. flat refrigerant pipes and fin layers being laminated alternately
F25B  39/02  D	1	3	3L095	F25B  39/02	271	عطʤʿ޴ɤʤŤ͡δ֤˥եؤϤΡ̣Ṭ̌ͥ͡ƣƣä⻲ȡ	meandering laminating type, i.e. flat refrigerant pipes being bent and overlaid and fin layers being inserted between them (E takes precedence) (see F28F 9/02, 301C)
F25B  39/02  E	1	3	3L095	F25B  39/02	488	طȯˤŽ̿ӽեι¤ħطȯ̿ƿݥƥ󥰤ħΣ֡	draining of condensed water in laminating type evaporators; laminating type evaporators characterized by the fin structure (characterized by hydrophilic coating V)
F25B  39/02  F	1	2	3L095	F25B  39/02	296	ե󷿡ʤʿľΥե޴ɤ̤Ƥ	cross fin type, i.e. refrigerant pipes passing through flat fins
F25B  39/02  G	1	3	3L095	F25B  39/02	346	إĥޤʬ۴ĥե󷿾ọ̇ȡʤͥ表ʬ۴ＫΣá	cross fin type evaporators having headers or refrigerant distributors (H and J take precedence; refrigerant distributors 41/00C)
F25B  39/02  H	1	3	3L095	F25B  39/02	441	ե󷿾ȯΤͽɤޤˤܤŤޤηڸ	prevention of frost falling for cross fin type evaporators or reduction in clogging due to frost falling
F25B  39/02  J	1	3	3L095	F25B  39/02	360	ե󷿾ȯˤ塤Ž̿ӽ㡥Ž̿ɻߡ̿ƿݥƥ󥰤ħΣ֡	draining of defrosting water and condensed water in cross fin type evaporators, e.g. prevention of scattering of condensed water (characterized by hydrophilic coating)
F25B  39/02  K	1	1	3L095	F25B  39/02	234	եʤʿľȯ㡥ݥܥɷȯ	flat evaporators having no fins, e.g. roll bond type evaporators
F25B  39/02  L	1	2	3L095	F25B  39/02	146	ѥץ󥷡ݥȷ	pipe-on sheet type
F25B  39/02  M	1	0	3L095	F25B  39/02	314	ΤľѤΡ㡥֥饤ѤΡ̣ҡ٤ͥ表ʴγΤľѤΣڡ	directly cooling liquids, e.g. cooling brine (R to Y take precedence; directly cooling powder and grain Z)
F25B  39/02  N	1	1	3L095	F25B  39/02	146	륢ɥݥַ	shell and tube type
F25B  39/02  P	1	2	3L095	F25B  39/02	198	ޤαƤ륷륢ɥݥַȯ̥ݥ֤¿ˤդħΣ֡	shell and tube type evaporators that refrigerants being stored in the shell (
F25B  39/02  Q	1	0	3L095	F25B  39/02	31	ΤȱΤȤξľѤΡ㡥ڴΤΡҡݥȥѥפˤΡ̣ҡͥ	directly cooling both gases and liquids, e.g. switching type; by heat pipes (R and Y take precedence)
F25B  39/02  R	1	0	3L095	F25B  39/02	466	弰㡥ۼͤͭʤ	intrinsic to the sorption type, e.g. absorption type
F25B  39/02  S	1	0	3L095	F25B  39/02	320	ı㡥ԥݥ֡͡ѥסήɤޤϥͥȤδϢħ	Characterized by the relationship with the expansion mechanism, e.g. capillary tubes, suction pipes, refrigerant flow-in pipes, or connectors
F25B  39/02  T	1	1	3L095	F25B  39/02	224	إĥޤʬήͭñ뤤ʣξȯıȤδϢħ	Characterized by the relationship of headers or  single or plural evaporators having refrigerant distributors with the expansion mechanism
F25B  39/02  U	1	0	3L095	F25B  39/02	203	ίᡤմʬΥݥɥ饤ޤϥ륻ѥݥȤδϢħ	Characterized by the relationship with refrigerant collectors, liquid receivers, vapor-liquid separators, accumulators, driers, or oil separators
F25B  39/02  V	1	0	3L095	F25B  39/02	269	դޤɽ̽ħ	Characterized by coating of members or the surface treatment
F25B  39/02  W	1	0	3L095	F25B  39/02	205	޴ؤʪĥޤϥʡݥեħΡ޴ɤι¤ħΡ㡥޴ɤȯиǺ٤ΡդħΣ֡	Characterized by inserts in the refrigerant pipes and wick or inner fins; characterized by the refrigerant pipe structure, e.g. refrigerant pipes being thick at the inlet of evaporators and thin at the outlet (characterized by coating materials V)
F25B  39/02  X	1	0	3L095	F25B  39/02	63	ޤݤħΡŵŪʡŪʤޤϲÿʤˤȯ¥ʡ㡥ĶȿưˤΡŪʲǮʡ㡥ŵҡݥˤȯ¥ʡ̶Ž̿ɻѥե륿šʡ١ޤν󣴣	characterized by dusting or cleaning; promotion of evaporation by the electric means, magnetic means, or vibration means, e.g. by ultrasonic vibration; promotion of evaporation by the auxiliary heating means, e.g. electric heaters (condensed water scattering prevention filters E, J, and Y; dusting of refrigerants 43/00)
F25B  39/02  Y	1	0	3L095	F25B  39/02	168	طե󷿰ʳξȯˤͽɡˤܤŤޤηڸޤϽ塤Ž̿ӽ̿ƿݥƥ󥰤ħΣ֡	prevention of frost falling in evaporators other than  laminating type and cross fin type evaporators, reduction in clogging due to frost falling, or draining of defrosting water and condensed water (characterized by hydrophilic coating V; defrosting  47/00)
F25B  39/02  Z	1	0	3L095	F25B  39/02	200	¾Τ	Others
F25B  39/04  \	1	1	3L095	F25B  39/04	25	Ž̴	Condensers
F25B  39/04  A	1	0	3L095	F25B  39/04	128	ΤľܲǮΡ̣ѡ٤ͥ表Τ˱ƶŽ̴ϡγƹܻȡŽ̴եϡˤʤɤΡγƹܻȡ	directly heating gas (Q to Y take precedence); for control of evaporators affecting the whole cycles, see  each item in 1/00 to 29/00; for control of condenser fans, see each item in 1/00 to 29/00 such as 1/00, 381, 13/00K)
F25B  39/04  B	1	1	3L095	F25B  39/04	118	եĤΡ㡥ž뤤ϥ磻ݥեĤ	with fins, e.g. with rotary or wire fins
F25B  39/04  C	1	2	3L095	F25B  39/04	584	طʤʿ޴ɤȥեؤȤߤ˽Ťͤ	laminating type, i.e. flat refrigerant pipes and fin layers being overlaid alternately
F25B  39/04  D	1	3	3L095	F25B  39/04	110	عطʤʿ޴ɤʤŤ͡δ֤˥եؤϤ	meandering laminating type, i.e. flat refrigerant pipes being bent and laid and fin layers being inserted between them
F25B  39/04  E	1	2	3L095	F25B  39/04	201	ե󷿡ʤʿľΥե޴ɤ̤Ƥ	cross fin type, i.e. refrigerant pipes passing through flat fins
F25B  39/04  F	1	3	3L095	F25B  39/04	163	إĥޤʬ۴ĥե󷿶Ž̴	cross fin type condensers having headers or refrigerant distributors
F25B  39/04  G	1	1	3L095	F25B  39/04	64	ե⤿ʤʿľŽ̴㡥ݥܥɷޤϥѥץ󥷡ݥȷŽ̴	flat condensers having no fins, e.g. roll bond type or pipe-on sheet type condensers
F25B  39/04  H	1	0	3L095	F25B  39/04	377	ΤľܲǮΡ㡥֥饤ǮΡ̣ѡͥ表ʴγΤľܲǮΡڡǮν۴ĥݥפ桤ˤʤɤΡγƹܻȡ	directly heating liquids, e.g. heating brine (Q to Y take precedence; directly heating powder and grain , Z; controlling of heated liquid circulation pumps, see each item in 1/00 to 29/00 such as 1/00, 381, 13/00K)
F25B  39/04  J	1	1	3L095	F25B  39/04	251	륢ɥݥַ㡥ѿѥפι¤ħΡ̲ѥѥפħΡ١	shell and tube type, e.g. characterized by the structure of cooling water pipes (characterized by overcooling pipes, Y)
F25B  39/04  K	1	1	3L095	F25B  39/04	157	ŴɤޤϣŴɷ	double or triple pipe type
F25B  39/04  L	1	0	3L095	F25B  39/04	69	ΤȱΤȤξľܲǮΡ㡥ڴΤΡҡݥȥѥפˤΡ̣ѡ٤ͥ表ڴ棱áȡ	directly heating both gases and liquids, e.g. switching type; by heat pipes (Q to Y take precedence; switching control 1/00 305 C, H)
F25B  39/04  M	1	0	3L095	F25B  39/04	100	Ž̴ɽ̤οξȯˤѤΡ㡥ӺٴɸݤˤƳ夹Ρ̣ѡ٤ͥ	cooled by evaporation of water from the condenser surface, e.g. introducing water by the capillary phenomenon (Q to Y take precedence)
F25B  39/04  N	1	1	3L095	F25B  39/04	602	ۡʮ̸ޤϤήˤŽ̴ɽ̤˿򤫤Ρ̻ۿ۴ĥݥפϣˤʤɤΣƹܤ򻲾ȡ	spraying water on the condenser surface by scattering, spraying, or pouring water (for control of scattering water circulation pumps, see each item in 1/00 to 13/00 such as 1/00, 381, 13/00K)
F25B  39/04  P	1	2	3L095	F25B  39/04	93	žΤˤ	scattering water by the body of rotation
F25B  39/04  Q	1	0	3L095	F25B  39/04	140	弰㡥ۼͤͭʤΡ̣ҡ٤ͥ	intrinsic to sorption type, e.g. absorption type (R to Y take precedence)
F25B  39/04  R	1	0	3L095	F25B  39/04	97	ı㡥ԥݥ֡͡ѥסήɤޤϥͥȤδϢħ	Characterized by the relationship with the expansion mechanism, e.g. capillary tubes, suction pipes, refrigerant flow-in pipes, or connectors
F25B  39/04  S	1	0	3L095	F25B  39/04	711	ίᡤմʬΥݥɥ饤ޤϥ륻ѥݥȤδϢħ	Characterized by the relationship with refrigerant collectors, liquid receivers, vapor-liquid separators, accumulators, driers, or oil separators
F25B  39/04  T	1	0	3L095	F25B  39/04	72	դޤɽ̽ħ	Characterized by coating of members or the surface treatment
F25B  39/04  U	1	0	3L095	F25B  39/04	174	޴ؤʪĥޤϥʡݥեħΡ޴ɤι¤ħΡ㡥޴ɤŽ̴иǺ٤ΡդħΣԡѿѥפħΣȡˡ	Characterized by inserts in the refrigerant pipes and wick or inner fins; characterized by the refrigerant pipe structure, e.g. refrigerant pipes being thick at the inlet of evaporators and thin at the outlet (characterized by ^ materials T; characterized by cooling water pipes H to K)
F25B  39/04  V	1	0	3L095	F25B  39/04	126	ޤݤħΡޤν󡤣͡ܤŤޤ긡Ρ	characterized by dusting or cleaning (dusting of refrigerants 43/00) (clogging detection, 49/00)
F25B  39/04  W	1	0	3L095	F25B  39/04	31	ŵŪʡŪʤޤϲÿʤˤŽ̤¥ʡ㡥Ṳ̋뤤ĶȿưˤΡŪѼʤˤŽ̤¥ʡ̱ޤΰŽ̴˼Ž̤¥ʤԲĵհ̼룱	promotion of condensation by the electric means, magnetic means, or vibration means, e.g. by electrostatic potential or ultrasonic vibration; promotion of condensation by the auxiliary cooling means (non-reversible compression cycle returning a part of liquid refrigerants to the condenser inlet and promoting condensation 1/00 389)
F25B  39/04  X	1	0	3L095	F25B  39/04	30	ѵζŽ̴ؤ֤ȼդ̽ѤħΤԲĵհ̼룱ӡ֡ǡ	arrangement and mounting of the lubricant cooling mechanism in condensers (non-reversible compression cycle that lubricant cooling is characterized 1/00 321S, 1/04V, 1/10G)
F25B  39/04  Y	1	0	3L095	F25B  39/04	279	ѵζŽ̴ؤ֤ȼդ̲ѴħΤ밵̼ϡšʤɤΡγƹܻȡѴＫΡСѡ	arrangement and mounting of the overcooling mechanism in condensers (compression cycle that over cooling devices are characterized, see each item in 1/00 to 13/00 such as 1/00, 321A, 331E, 397, 13/00, 331A; over cooling devices, 41/00P, Q)
F25B  39/04  Z	1	0	3L095	F25B  39/04	171	¾Τ	Others
F25B  40/00  \	0	0	3L095	F25B  40/00	0	ѴǥѡҡޤϥѡҡΣ	Subcoolers, desuperheaters or superheaters [5]
F25B  40/00  V	0	0	3L095	F25B  40/00	381	ⰵޤ㰵ޤȤǮ򴹤Ρ̤Τ褦Ǯ򴹤ħ밵̼룱	high pressure refrigerants and low pressure refrigerants exchanging heat (compression cycle characterized by such heat exchange 1/00 331, 13/00 331)
F25B  40/00  W	0	0	3L095	F25B  40/00	28	ԥݥ֤㰵ޤȤǮ򴹤Ρ̤Τ褦Ǯ򴹤ħ밵̼Բĵե룱á	capillary tubes and low pressure refrigerants exchanging heat (compression type non-reversible cycle characterized by such heat exchange 1/00 304C)
F25B  40/00  Z	0	0	3L095	F25B  40/00	20	¾Τ	Others
F25B  40/02  \	1	1	3L095	F25B  40/02	1	ѴΣ	Subcoolers [5]
F25B  40/02  Q	1	0	3L095	F25B  40/02	42	估ΤΡξȯˤѤΡ̲ѴħΤ밵̼롤ţʤɤΣγƹܻȡѴħ¿ʰ̼롤ҡŽ̴ؤβѵ֤ȼդ١	of the liquid cooling type; cooled by evaporation of water (compression cycle that over cooling devices are characterized, see each item in 1/00 to 13/00 such as 1/00, 321A, 331E, 397, 13/00, 321; multi-stage compression cycle characterized by intermediate coolers, 1/10R; arrangement and mounting of the overcooling mechanism in condensers, 39/04Y)
F25B  40/02  Z	1	0	3L095	F25B  40/02	102	¾Τ	Others
F25B  40/04  \	1	1	3L095	F25B  40/04	0	ǥѡҡΣ	Desuperheaters [5]
F25B  40/04  S	1	0	3L095	F25B  40/04	14	估ΤΡ㡥Ž̿ˤѤΡξȯˤѤΡ̥ǥݥѡݥҡݥħ밵̼ϣСʡʤɤΣγƹܻȡѴħ¿ʰ̼룱ҡ	of the liquid cooling type, e.g. cooled by condensed water; cooled by evaporation of water (for compression-type cycles characterized by desuperheaters, see each item in 1/00 to 13/00 such as 1/00 321A, P, 1/04J, 13/00 331A; multi-stage compression type cycles characterized by intermediate coolers, 1/10R)
F25B  40/04  Z	1	0	3L095	F25B  40/04	35	¾Τ	Others
F25B  40/06  \	1	1	3L095	F25B  40/06	28	ѡҡΣ	Superheaters [5]
F25B  41/00  \	0	0	3L095	F25B  41/00	32	ήν۴֡Σ	Fluid-circulation arrangements [2021.01]
F25B  41/10  \	1	1	3L095	F25B  41/10	4	ŵƩѤΡΣ	using electro-osmosis [2021.01]
F25B  41/20  \	1	1	3L095	F25B  41/20	0	ۤ֡㡥ۤޤήۤ֡ĥۣƣ£ˡΣ	Disposition of valves, e.g. of on-off valves or flow control valves (expansion valves F25B 41/31) [2021.01]
F25B  41/20  A	1	0	3L095	F25B  41/20	290	̵ߤϢưĤȤʤꡤޤΰư˻ߤۤ	Arrangement of the valves closing at the same time as stop of compressors and preventing refrigerants from moving
F25B  41/20  B	1	1	3L095	F25B  41/20	119	̵߻ˤޤεή˻ߤΤߤտޤΡ㡥ջۤˤ	intended to prevent back-flow of refrigerants when compressors stop, e.g. by check valves
F25B  41/20  C	1	0	3L095	F25B  41/20	77	̵ߤϢưƳȤʤۤ֡㡥̵߻˹ⰵ¦㰵¦ȤѰ	Arrangement of the valves which open at the same time as stop of compressors , e.g., equalizing the pressure on the high pressure side and low pressure side when compressors stop
F25B  41/20  D	1	0	3L095	F25B  41/20	215	۾ʰϤޤϲ٤ˤ곫Ĥۤ	Arrangement of valves opening or closing under abnormal pressure or at abnormal temperature
F25B  41/20  Z	1	0	3L095	F25B  41/20	1034	¾Τ	Others
F25B  41/22  \	2	2	3L095	F25B  41/22	276	ȯȰ̵Ȥδ֤ߤ줿ΡΣ	between evaporator and compressor [2021.01]
F25B  41/24  \	2	2	3L095	F25B  41/24	581	ॵΰ㡥ʬʬΥ뤿ĺۤ֡Σ	Arrangement of shut-off valves for disconnecting a part of the refrigerant cycle, e.g. an outdoor part [2021.01]
F25B  41/26  \	2	2	3L095	F25B  41/26	2	ήήžۤ֡Σ	of fluid flow reversing valves [2021.01]
F25B  41/26  A	2	0	3L095	F25B  41/26	803	ۤˤ	by a four-way valve
F25B  41/26  B	2	0	3L095	F25B  41/26	104	ʾۤˤ	by a five- or more way valve
F25B  41/26  Z	2	0	3L095	F25B  41/26	269	¾Τ	Others
F25B  41/28  \	2	2	3L095	F25B  41/28	64	弰äŬΡΣ	specially adapted for sorption cycles [2021.01]
F25B  41/30  \	1	1	3L095	F25B  41/30	407	ĥʡ֡Σ	Expansion means; Dispositions thereof [2021.01]
F25B  41/31  \	2	2	3L095	F25B  41/31	326	ĥۡΣ	Expansion valves [2021.01]
F25B  41/315  \	3	3	3L095	F25B  41/315	33	եȤˤưΡΣ	actuated by floats [2021.01]
F25B  41/32  \	3	3	3L095	F25B  41/32	351	ΰʳήĤΡ㡥ΤХѥ륪եΤˤĤΡΣ	having flow rate limiting means other than the valve member, e.g. having bypass orifices in the valve body [2021.01]
F25B  41/325  \	3	3	3L095	F25B  41/325	274	ʾΤĤΡΣ	having two or more valve members [2021.01]
F25B  41/33  \	3	3	3L095	F25B  41/33	308	ήΰ㡥ޤΰϡˤưΤĤΡΣ	with the valve member being actuated by the fluid pressure, e.g. by the pressure of the refrigerant [2021.01]
F25B  41/335  \	4	4	3L095	F25B  41/335	4	ե𤷤ƶưΡΣ	via diaphragms [2021.01]
F25B  41/335  A	4	0	3L095	F25B  41/335	229	եʬħ	characterised by the diaphragm part
F25B  41/335  B	4	0	3L095	F25B  41/335	332	եफΤؤζưãħΡ㡥ۺưޤϤΥ	characterised by the mechanism to transfer driving forces from the diaphragm to the valve body, e.g. a valve working bar or its seal
F25B  41/335  C	4	0	3L095	F25B  41/335	361	Τޤۺ¤ħ	characterised by the valve body or the valve seat
F25B  41/335  D	4	0	3L095	F25B  41/335	212	ĴХͤħΡХͰĴħΡ㡥ǮĴ	characterised by adjustment springs; Characterised by the mechanisms to adjust the pressure of springs, e.g., the mechanisms to adjust superheat degree
F25B  41/335  E	4	0	3L095	F25B  41/335	391	ήΰΤưΡ㡥ήΰŵҡˤѹ	activating the valve body by the fluid pressure in the temperature sensitive cylinder, e.g. changing the fluid pressure in the temperature sensitive cylinder by electric heaters
F25B  41/335  F	4	1	3L095	F25B  41/335	258	ѰΤΡ㡥ȯи¦ްѤƶѰ	of the external pressure equalizing type, e.g., equalizing the pressure by use of the refrigerant pressure on the outlet side of the evaporator
F25B  41/335  Z	4	0	3L095	F25B  41/335	691	¾Τ	Others
F25B  41/34  \	3	3	3L095	F25B  41/34	214	ŵŪʡ㡥ť奨ˤưΤĤΡΣ	with the valve member being actuated by electric means, e.g. by piezo-electric actuators [2021.01]
F25B  41/345  \	4	4	3L095	F25B  41/345	369	ΥɤˤưΡΣ	by solenoids [2021.01]
F25B  41/35  \	4	4	3L095	F25B  41/35	953	ž⡼㡥ƥåԥ󥰥⡼ˤưΡΣ	by rotary motors, e.g. by stepping motors [2021.01]
F25B  41/355  \	4	4	3L095	F25B  41/355	100	Х᥿ǻҡǻҤޤǮĥǻҤŵǮˤưΡΣ	by electric heating of bimetal elements, shape memory elements or heat expanding elements [2021.01]
F25B  41/36  \	3	3	3L095	F25B  41/36	84	ήΡ㡥ޡαƶХ᥿ǻҤޤϷǻҤˤưΤĤΡΣ	with the valve member being actuated by bimetal elements or shape-memory elements influenced by fluids, e.g. by the refrigerant [2021.01]
F25B  41/37  \	2	2	3L095	F25B  41/37	464	ԥ塼֡Σ	Capillary tubes [2021.01]
F25B  41/375  \	3	3	3L095	F25B  41/375	120	񹳤ħΡ㡥´Σ	characterised by a variable restriction, e.g. restrictors made of shape memory alloy [2021.01]
F25B  41/38  \	2	2	3L095	F25B  41/38	391	ĵեäŬΡ㡥ĥ´Σ	specially adapted for reversible cycles, e.g. bidirectional expansion restrictors [2021.01]
F25B  41/385  \	2	2	3L095	F25B  41/385	112	Ʊξȯ˻ήϩߤ줿ʾĥʤ֡Σ	Dispositions with two or more expansion means arranged in parallel on a refrigerant line leading to the same evaporator [2021.01]
F25B  41/39  \	2	2	3L095	F25B  41/39	183	ľߤ줿ʾĥʤ֡ʤƱξȯ˻ήϩǤ¿ĥΣ	Dispositions with two or more expansion means arranged in series, i.e. multi-stage expansion, on a refrigerant line leading to the same evaporator [2021.01]
F25B  41/40  \	1	1	3L095	F25B  41/40	4	ήήϩ֡Σ	Fluid line arrangements [2021.01]
F25B  41/40  A	1	0	3L095	F25B  41/40	936	òɿưεۼޤ̮ưɻ	Sound arresting, vibration prevention, vibration absorption, prevention of refrigerants' pulsation
F25B  41/40  B	1	0	3L095	F25B  41/40	481	ɤ֤ȼդ	Arrangement and mounting of pipes
F25B  41/40  C	1	1	3L095	F25B  41/40	87	ĤȤɤޤϥ٥֤ȼդ	Arrangement and mounting of flexible pipes or bellows
F25B  41/40  D	1	0	3L095	F25B  41/40	501	ɷѼꡤ㡥ܷѼꡤ֤ȼդ	Arrangement and mounting of pipe joints, e.g., welding joints
F25B  41/40  E	1	1	3L095	F25B  41/40	243	ʬΥൡѴɷѼ	Separation type pipe joints for freezing machines
F25B  41/40  F	1	0	3L095	F25B  41/40	30	ޤϴü	Arrangement of plugs or pipe end seals
F25B  41/40  G	1	0	3L095	F25B  41/40	173	弰äŬ	specially adapted for sorption cycles
F25B  41/40  Z	1	0	3L095	F25B  41/40	309	¾Τ	Others
F25B  41/42  \	2	2	3L095	F25B  41/42	1168	ʬήޤϹή㡥ʬήϩޤϹήΣ	Arrangements for diverging or converging flows, e.g. branch lines or junctions [2021.01]
F25B  41/45  \	3	3	3L095	F25B  41/45	298	ʬήξή¦ή椹Ρ㡥ήȯ¤ĤΡΣ	for flow control on the upstream side of the diverging point, e.g. with spiral structure for generating turbulence [2021.01]
F25B  41/48  \	3	3	3L095	F25B  41/48	139	ʬήβή¦ήϩ񹳤椹Ρ㡥եˤΡΣ	for flow path resistance control on the downstream side of the diverging point, e.g. by an orifice [2021.01]
F25B  43/00  \	0	0	3L097	F25B  43/00	6	ΤޤϱΤʬΥޤ֡ʥʥ饤ޤίˤΣƣ£ˡޤλȯ֡㡥ǮˤΡʣƣ£ͥˡΣ	Arrangements for separating or purifying gases or liquids (in analysers or rectifiers F25B 33/00); Arrangements for vaporising the residuum of liquid refrigerant, e.g. by heat (F25B 40/00 takes precedence) [5]
F25B  43/00  A	0	0	3L097	F25B  43/00	238	դʬΥΡ㡥㰵¦εʬΥȹⰵ¦εʬΥȤΤΤ	separating vapor and fluid, e.g. the vapor-liquid separator on the low pressure side and the vapor-liquid separator on the high pressure side being integrated
F25B  43/00  B	0	1	3L097	F25B  43/00	457	㰵¦ߤΡ㡤ݥ	mounted on the low pressure side, e.g. accumulators
F25B  43/00  C	0	2	3L097	F25B  43/00	271	ʬΥμդħΡ㡥̵ؤμդ	characterized by mounting of vapor-liquid separators, e.g. mounting to compressors
F25B  43/00  D	0	2	3L097	F25B  43/00	670	¤ħΡޤ¤ˡħ	Characterized by the internal structure; characterized by materials or the manufacturing method
F25B  43/00  E	0	3	3L097	F25B  43/00	477	ɤηޤ֤ħ	Characterized by the shape or arrangement of pipes
F25B  43/00  F	0	3	3L097	F25B  43/00	111	̸μʤĤ	with the refrigerant amount detection means
F25B  43/00  G	0	2	3L097	F25B  43/00	317	ǮޤѼʤĤΡ㡥ʬΥޤȹⰵޤȤǮ򴹤Ρ̥ݥȥ쥷ݥФȤΤΤΣ	with the heating or cooling means, e.g. the refrigerant in the vapor-liquid separator and high pressure refrigerant exchanging heat (accumulators and receivers being integrated A)
F25B  43/00  H	0	2	3L097	F25B  43/00	103	ưޤɻ߼ʤĤ	with the vibration or noise isolation means
F25B  43/00  J	0	2	3L097	F25B  43/00	44	ǮޤǮʤĤ	with the adiabatic or heat accumulation means
F25B  43/00  K	0	2	3L097	F25B  43/00	152	ȯξή¦ޤϾȯߤ	mounted on the upstream side of evaporators or between evaporators
F25B  43/00  L	0	1	3L097	F25B  43/00	1009	ⰵ¦ߤΡ㡥쥷ݥС̥ɥ饤μդħΡաȥ饹ĤΡޤϰۤĤΡ	mounted on the high pressure side, e.g. receivers (characterized by mounting of driers, V; with side glasses, 49/02, 530; with soluble plugs or safety valves, 49/02, 540)
F25B  43/00  M	0	2	3L097	F25B  43/00	317	ʬΥμդħ	Characterized by mounting of vapor-liquid separators
F25B  43/00  N	0	2	3L097	F25B  43/00	148	ǮޤѼʤĤΡ㡥ʬΥޤ㰵ޤȤǮ򴹤	with the heating or cooling means, e.g. e.g. the refrigerant in the vapor-liquid separator and low pressure refrigerant exchanging heat
F25B  43/00  R	0	1	3L097	F25B  43/00	226	ߤ	mounted between depressurizers
F25B  43/00  S	0	0	3L097	F25B  43/00	456	ޤʬʬΥΡ㡥ɥ饤	separating water from refrigerants, e.g. driers
F25B  43/00  T	0	1	3L097	F25B  43/00	157	޼Ǽƴμդħ	Characterized by mounting of desiccant storage vessels
F25B  43/00  U	0	1	3L097	F25B  43/00	252	ⰵ¦εʬΥ˥ɥ饤ߤ	driers mounted in the vapor-liquid separator on the high pressure side
F25B  43/00  V	0	0	3L097	F25B  43/00	206	ޤʪ㡥ߡʬΥΡ㡥Фˤ°ʴ夹	separation of foreign substances, e.g. dust, from refrigerants, e.g. metal powder attracted by magnets
F25B  43/00  W	0	1	3L097	F25B  43/00	446	ե륿ޤϥȥݥʤˤ	by filters or strainers
F25B  43/00  Y	0	0	3L097	F25B  43/00	101	弰ͭΤ	intrinsic to the sorption type
F25B  43/00  Z	0	0	3L097	F25B  43/00	169	¾Τ	Others
F25B  43/02  \	1	1	3L097	F25B  43/02	37	ޤʬΥ	for separating lubricants from the refrigerant
F25B  43/02  A	1	0	3L097	F25B  43/02	927	ⰵ¦ǽʬΥ	separating lubricants on the high pressure side
F25B  43/02  D	1	0	3L097	F25B  43/02	128	㰵¦ǽʬΥ	separating lubricants on the low pressure side
F25B  43/02  E	1	1	3L097	F25B  43/02	110	ݥʬΥ	separating by accumulators
F25B  43/02  F	1	2	3L097	F25B  43/02	22	ĤΥݥĤ	with several accumulators
F25B  43/02  G	1	2	3L097	F25B  43/02	21	¤ޤ̸	stirring or atomizing
F25B  43/02  H	1	2	3L097	F25B  43/02	141	иɤ³ᤷɤĤ	with lubricant return pipes connected to the outlet pipes
F25B  43/02  J	1	2	3L097	F25B  43/02	195	иɤ˽ᤷĤ	with lubricant return holes in outlet pipes
F25B  43/02  M	1	0	3L097	F25B  43/02	123	̵ǽʬΥ	separating lubricants in compressors
F25B  43/02  N	1	0	3L097	F25B  43/02	187		collecting lubricants
F25B  43/02  Z	1	0	3L097	F25B  43/02	94	¾Τ	Others
F25B  43/04  \	1	1	3L097	F25B  43/04	5	ԶŽ̥	for withdrawing non-condensible gases
F25B  43/04  A	1	0	3L097	F25B  43/04	539	弰ͭΤ	intrinsic to the sorption type
F25B  43/04  Z	1	0	3L097	F25B  43/04	313	¾Τ	Others
F25B  45/00  \	0	0	3L097	F25B  45/00	32	ޤνŶޤӽ	Arrangements for charging or discharging refrigerant
F25B  45/00  A	0	0	3L097	F25B  45/00	797	޲̼֡մޤŪ˲Σ	refrigerant collectors (collecting refrigerants in liquid receivers temporarily 1/00 391)
F25B  45/00  B	0	0	3L097	F25B  45/00	352	޽Ỵ̂֡Ȥͥ	refrigerant filling device (A and H take precedence)
F25B  45/00  C	0	1	3L097	F25B  45/00	178	̣Ĥͥ	control (D takes precedence)
F25B  45/00  D	0	1	3L097	F25B  45/00	221	޽Ŷ̸μʤĤ	with the refrigerant filling amount detection means
F25B  45/00  F	0	1	3L097	F25B  45/00	348	޽ŶѤۤޤϴ	valves or tubes for filling refrigerants
F25B  45/00  H	0	0	3L097	F25B  45/00	183	ޤϽŶ	oil collecting or filling devices
F25B  45/00  Z	0	0	3L097	F25B  45/00	224	¾Τ	Others
F25B  47/00  \	0	0	3L097	F25B  47/00	5	¾Υ֥饹ʬवʤޤ忩ɻߤޤϽԤ	Arrangements for preventing or removing deposits or corrosion, not provided for in another subclass
F25B  47/00  A	0	0	3L097	F25B  47/00	253	̼Τ	of the compression type
F25B  47/00  B	0	0	3L097	F25B  47/00	116	弰Τ	of the sorption type
F25B  47/00  Z	0	0	3L097	F25B  47/00	32	¾Τ	Others
F25B  47/02  \	1	1	3L097	F25B  47/02	7	Σ	Defrosting cycles [5]
F25B  47/02  A	1	0	3L097	F25B  47/02	67	ĤξȯϩĤ	with several evaporator circuits
F25B  47/02  B	1	0	3L097	F25B  47/02	45	ˤΡ㡥ʮ̸ˤ	by scattering water, e.g. by spraying hot water
F25B  47/02  C	1	0	3L097	F25B  47/02	46	ŪʤˤΡѤʤˤ	by the mechanical means; by the means using the air pressure
F25B  47/02  D	1	0	3L097	F25B  47/02	267	ǮʤˤΡ̣ͥ	by the heating means (A takes precedence)
F25B  47/02  E	1	1	3L097	F25B  47/02	353	ȯؤŵҡݥ֤ȼդ	arrangement and mounting of electric heaters to evaporators
F25B  47/02  F	1	0	3L097	F25B  47/02	108	ǮˤΡ̣Ĥͥ	by refrigerant heat (D takes precedence)
F25B  47/02  G	1	1	3L097	F25B  47/02	78	¾Τ𤷤Ǯ	transferring refrigerant heat via other media
F25B  47/02  H	1	0	3L097	F25B  47/02	107	եݥױžˤ	by operating fans and cooling water pumps
F25B  47/02  Z	1	0	3L097	F25B  47/02	97	¾Τ	Others
F25B  47/02 510 \	2	2	3L097	F25B  47/02	5	̵žƹԤΡʣͥ	by operating compressors (560 takes precedence)
F25B  47/02 510 A	2	0	3L097	F25B  47/02	147	ĤξȯϩĤ	with several evaporator circuits
F25B  47/02 510 B	2	0	3L097	F25B  47/02	14	ˤ	by scattering water
F25B  47/02 510 C	2	0	3L097	F25B  47/02	20	ŪʤˤΡ㡢̵οưˤ	by the mechanical means, e.g. by vibration of compressors
F25B  47/02 510 D	2	0	3L097	F25B  47/02	93	ǮʤˤΡ̣ͥ	by the heating means (A takes precedence)
F25B  47/02 510 E	2	1	3L097	F25B  47/02	153	üǮ㡥󥸥Ǯޤϰ̵Ǯˤ	by special heat sources, e.g. by waste heat of engines or heat of compressors
F25B  47/02 510 F	2	0	3L097	F25B  47/02	71	ȯˤΡ㡥Хѥϩˤ椹	by evaporation temperature control, e.g. controlling by the bypass circuit
F25B  47/02 510 G	2	1	3L097	F25B  47/02	33	Ǯ򴹼ʤˤ	by the heat exchange means
F25B  47/02 510 H	2	2	3L097	F25B  47/02	76	եˤ	by fans
F25B  47/02 510 J	2	1	3L097	F25B  47/02	136	ήʤˤΡ㡥ȯȰ̵Ȥδ֤ߤۤˤ	by the flow rate control means, e.g. by control valves mounted between evaporators and compressors
F25B  47/02 510 K	2	1	3L097	F25B  47/02	78	̵ǽʤˤ	by the compressor capacity control means
F25B  47/02 510 Y	2	0	3L097	F25B  47/02	16	ȯޤϥɥХʳ	defrosting other than evaporators or drain vans
F25B  47/02 510 Z	2	0	3L097	F25B  47/02	33	¾Τ	Others
F25B  47/02 520 \	3	3	3L097	F25B  47/02	3	ⲹޤˤ	by hot refrigerants
F25B  47/02 520 A	3	0	3L097	F25B  47/02	48	ĤΩĤ	with several independent cycles
F25B  47/02 520 B	3	0	3L097	F25B  47/02	177	ĤξȯϩĤΡ̣ͥ表ȯѤΤ߹ԤȯĤΣġ	with several evaporator circuits (A takes precedence; with auxiliary evaporators performing the evaporation operation only during defrosting D)
F25B  47/02 520 C	3	0	3L097	F25B  47/02	232	Ž̴ȾȯȤδ֤ήϩ񹳤򾮤Ρ㡥ԥݥ֤Хѥ	making the flow path resistance between condensers and evaporators smaller, e.g. bypassing capillary tubes
F25B  47/02 520 D	3	1	3L097	F25B  47/02	73	ޤȯȯĤ	with auxiliary evaporators evaporating refrigerants after defrosting
F25B  47/02 520 E	3	0	3L097	F25B  47/02	55	Ǯ򴹼ʤĤΡ̣äͥ	with the auxiliary heat exchange means
F25B  47/02 520 F	3	1	3L097	F25B  47/02	130	Ǯ򴹼ʤǾȯޤϥɥѥǮ	heating evaporators or drain vans by the auxiliary heat exchange means
F25B  47/02 520 G	3	2	3L097	F25B  47/02	38	¾Τ𤷤ơ㡥ҡݥȥѥפ𤷤ơȯޤϥɥѥǮ	heating evaporators or drain vans via other media, e.g. heat pipes
F25B  47/02 520 Z	3	0	3L097	F25B  47/02	99	¾Τ	Others
F25B  47/02 530 \	4	4	3L097	F25B  47/02	11	ۥĥȥХѥˤ	by hot gas bypasses
F25B  47/02 530 A	4	0	3L097	F25B  47/02	80	¿ʰ̼Τ	multi-stage compression type
F25B  47/02 530 B	4	0	3L097	F25B  47/02	161	ñʰ̼ΤΡ̣٤ͥ	single-stage compression type (Y takes precedence)
F25B  47/02 530 C	4	1	3L097	F25B  47/02	234	ۥĥȥХѥϩħΡ̣ġͤͥ表ۥĥȥХѥϩǮ򴹴ĤΣšۥĥȥХѥϩήС	characterized in the hot gas bypass circuit (D and M take precedence; the hot gas bypass circuit having a heat exchanger E; flow rate control of the hot gas bypass circuit P)
F25B  47/02 530 D	4	1	3L097	F25B  47/02	208	ĤΥۥĥȥХѥϩĤΡۥĥȥХѥϩȥХѥϩȤĤ	with several hot gas bypass circuits; with hot gas bypass circuits and bypass circuits
F25B  47/02 530 E	4	1	3L097	F25B  47/02	38	Ǯ򴹼ʤĤΡ̣̤ͥ	with the auxiliary heat exchange means (L takes precedence)
F25B  47/02 530 F	4	2	3L097	F25B  47/02	78	Ǯ򴹼ʤǾȯǮ	heating evaporators by the auxiliary heat exchange means
F25B  47/02 530 G	4	2	3L097	F25B  47/02	78	Ǯ򴹼ʤǥɥѥǮ	heating drain vans by the auxiliary heat exchange means
F25B  47/02 530 H	4	2	3L097	F25B  47/02	51	ޤȯǾȯΡ̣ˤͥ	evaporating refrigerants after defrosting by the auxiliary evaporators (K takes precedence)
F25B  47/02 530 J	4	3	3L097	F25B  47/02	46	޴֤Ǯ򴹤ˤȯǾȯ	evaporating auxiliary evaporators by heat exchange between refrigerants
F25B  47/02 530 K	4	2	3L097	F25B  47/02	237	ǮĤ	with heat accumulators
F25B  47/02 530 L	4	1	3L097	F25B  47/02	105	ǮʤĤΡ㡥̵۹¦ŵҡݥߤ	with the auxiliary heating means, e.g. electric heaters mounted on the intake side of compressors
F25B  47/02 530 M	4	1	3L097	F25B  47/02	102	ȯΥۥĥȥƳսޤήޤϥۥĥȥήȯηħ	Characterized by hot gas introducing parts of evaporators or flowing direction or shape of evaporators flowing hot gas
F25B  47/02 530 P	4	1	3L097	F25B  47/02	296	ħΡ̣ġͤͥ	characterized by control (D to M take precedence)
F25B  47/02 530 Q	4	2	3L097	F25B  47/02	167	Ͻλ	Control  before and after the start and end of defrosting
F25B  47/02 530 R	4	3	3L097	F25B  47/02	43	ݥץ	pump down control
F25B  47/02 530 S	4	2	3L097	F25B  47/02	133	Ǯ򴹼ʤ桤㡥Ž̴ե	heat exchange means control, e.g. condenser fan control
F25B  47/02 530 Y	4	0	3L097	F25B  47/02	43	ɹѤΤ	for ice machines
F25B  47/02 530 Z	4	0	3L097	F25B  47/02	26	¾Τ	Others
F25B  47/02 540 \	5	5	3L097	F25B  47/02	2	ĤξȯϩĤ	with several evaporator circuits
F25B  47/02 540 A	5	0	3L097	F25B  47/02	43	ĤΩĤ	with several independent cycles
F25B  47/02 540 B	5	0	3L097	F25B  47/02	76	ȯϩľΤ	evaporator circuits in series
F25B  47/02 540 C	5	0	3L097	F25B  47/02	78	ȯϩΤ	evaporator circuits in parallel
F25B  47/02 540 D	5	1	3L097	F25B  47/02	127	ƾȯŪ˥ۥĥȥƳ	hot gas being introduced selectively into each evaporator
F25B  47/02 540 E	5	1	3L097	F25B  47/02	8	˾ȯľ³	evaporators being connected in series during defrosting
F25B  47/02 540 F	5	2	3L097	F25B  47/02	65	ξȯǶŽ̤¾ξȯǾȯ	condensed by one evaporator and evaporated by the other evaporator
F25B  47/02 540 G	5	3	3L097	F25B  47/02	148	Ž̤ޤϾȯȯߤ򤹤	selectively selecting evaporators to be condensed or evaporated
F25B  47/02 540 H	5	4	3L097	F25B  47/02	34	ħ	Characterized by control
F25B  47/02 540 J	5	5	3L097	F25B  47/02	37	Ͻλޤ¾ξȯؤνڴħ	Characterized by control before and after the start or end of defrosting or control before and after switching defrosting to other evaporators
F25B  47/02 540 K	5	5	3L097	F25B  47/02	21	Ǯ򴹼ʤħ	Characterized by control of the heat exchange means
F25B  47/02 540 Z	5	0	3L097	F25B  47/02	7	¾Τ	Others
F25B  47/02 550 \	4	4	3L097	F25B  47/02	625	եˤ	by the reverse cycle
F25B  47/02 550 A	4	0	3L097	F25B  47/02	151	ĤΩĤ	with several independent cycles
F25B  47/02 550 B	4	0	3L097	F25B  47/02	123	ž˿ĤζŽ̴ϩĤ	with several condenser circuits during the frost falling operation
F25B  47/02 550 C	4	0	3L097	F25B  47/02	168	ž˿ĤξȯϩĤ	with several evaporator circuits during the frost falling operation
F25B  47/02 550 D	4	0	3L097	F25B  47/02	193	ϩĤ	with the hot water supply circuit
F25B  47/02 550 E	4	0	3L097	F25B  47/02	105	Ǯ򴹼ʤĤΡ㡥ɥѥǮǮ򴹴Ĥ	with the auxiliary heat exchange means, e.g. with the heat exchanger for heating drain vans
F25B  47/02 550 F	4	1	3L097	F25B  47/02	216	Ǯޤ޴֤Ǯ򴹴Ĥ	with heat accumulators or heat exchangers between refrigerants
F25B  47/02 550 G	4	0	3L097	F25B  47/02	155	ǮʤĤ	with the auxiliary heating means
F25B  47/02 550 H	4	0	3L097	F25B  47/02	312	ХѥϩĤΡ̸ΤߤХѥϩĤΣˡ	with the bypass circuit (with a circuit for bypassing only depressurizers)
F25B  47/02 550 J	4	0	3L097	F25B  47/02	51	󥸥ʤĤ	with the injection means
F25B  47/02 550 K	4	0	3L097	F25B  47/02	241	ήʤħΡ̥ݥץС	characterized by the flow rate control means (pump down control P)
F25B  47/02 550 P	4	0	3L097	F25B  47/02	328	ħΡ̣ˤͥ	characterized by control (A to K take precedence)
F25B  47/02 550 Q	4	1	3L097	F25B  47/02	216	̵ޤư	control of compressors or motors
F25B  47/02 550 R	4	1	3L097	F25B  47/02	255	եޤϥѤ	control of fans or dampers
F25B  47/02 550 Z	4	0	3L097	F25B  47/02	170	¾Τ	Others
F25B  47/02 560 \	2	2	3L097	F25B  47/02	193	ʾΰۤʤˤ	by two or more different defrosting cycles
F25B  47/02 570 \	2	2	3L097	F25B  47/02	7	̤桤㡥Τˤ	common control, e.g. control by frost falling detection
F25B  47/02 570 A	2	0	3L097	F25B  47/02	205	ĤΩޤϾȯϩĤΤħ	Characterized by having several independent cycles or evaporator circuits
F25B  47/02 570 B	2	0	3L097	F25B  47/02	62	ϽλμޤϽϽλθоݤμħ	Characterized by the kind of defrosting start or end signal or the kind of detection objects of start or end of defrosting
F25B  47/02 570 C	2	1	3L097	F25B  47/02	70	ưޤ߻	at the time of start or stop
F25B  47/02 570 D	2	1	3L097	F25B  47/02	262	ޡ㡥ž֤ޤϱžΨޤϻ̣šҤȥޤȤȹ礻Ϥ줾졤šҤͥ	timer, e.g. the running time, or running rate, or time (a combination of E to R and timer, E to R take precedence)
F25B  47/02 570 E	2	1	3L097	F25B  47/02	120	ޤɹξ֡㡥ˤ̤Ѳ	state of frost or ice, e.g. changes in the light receiving amount
F25B  47/02 570 F	2	1	3L097	F25B  47/02	109	̵ưޤϤŸξ֡㡥̵βžޤưαžή̾ȯѥեαžήȡŽ̴ѥեαžήǡ	compressors, motors thereof, or power state, e.g. the number of revolutions of compressors or running current of motors (running current of evaporator fans H; running current of condenser fans G)
F25B  47/02 570 G	2	1	3L097	F25B  47/02	92	Ǯʪξ֡㡥Ǯʪѥե󡤥ݥסưޤϤŸξ	state of heated articles, e.g. state of heated article fans, pumps, their motors, or power sources
F25B  47/02 570 H	2	1	3L097	F25B  47/02	149	ʪξ֡㡥ʪѥե󡤥ݥסưޤϤŸξ֡㡥եαžή	state of cooled articles, e.g. air temperature; state of cooled article fans, pumps, their motors, or power sources
F25B  47/02 570 J	2	2	3L097	F25B  47/02	53	ʪβ٤ޤϼ٤Τߡ̣Ҥͥ	only temperature or humidity of cooled articles (R takes precedence)
F25B  47/02 570 K	2	3	3L097	F25B  47/02	154	٤Τߡ㡥	only temperature, e.g. air temperature
F25B  47/02 570 L	2	1	3L097	F25B  47/02	29	ޤξ	state of refrigerants
F25B  47/02 570 M	2	2	3L097	F25B  47/02	650	٤ޤϰϤΤߡ㡥٤ȥޤȤȹ礻ޤϲ٤λŪѲ̡̣Ҥͥ	only temperature or pressure, e.g. a combination of temperature and timer or change amount of temperature with time (R takes precedence)
F25B  47/02 570 R	2	1	3L097	F25B  47/02	308	ޤβ٤ޤϰϤʪβ٤ޤϼ١㡥Ǯ򴹴β٤ȳȤκ	temperature pressure of refrigerants and temperature or humidity of cooled articles, e.g. difference between the temperature of heat exchangers outside the room and air temperature
F25B  47/02 570 W	2	0	3L097	F25B  47/02	170	̵ǽħ	Characterized by compressor capacity control
F25B  47/02 570 Z	2	0	3L097	F25B  47/02	132	¾Τ	Others
F25B  49/00  \	0	0	3L097	F25B  49/00	27	ޤϰ֤֤ȼդΣ	Arrangement or mounting of control or safety devices [1, 2006.01]
F25B  49/00  A	0	0	3L097	F25B  49/00	125	ǽ¬ꡤ	capacity measurement, testing machines
F25B  49/00  B	0	0	3L097	F25B  49/00	54	ɽ	display device
F25B  49/00  C	0	0	3L097	F25B  49/00	6	ò	fire extinguishers
F25B  49/00  D	0	0	3L097	F25B  49/00	55	Ÿ	power source
F25B  49/00  Z	0	0	3L097	F25B  49/00	159	¾Τ	Others
F25B  49/02  \	1	1	3L097	F25B  49/02	17	̼ץȤޤϥƥΤΤΡΣ	for compression type machines, plant or systems [5]
F25B  49/02  A	1	0	3L097	F25B  49/02	288	ǽ¬ꡤ	capacity measurement, testing machines
F25B  49/02  B	1	0	3L097	F25B  49/02	125	ɽ	display device
F25B  49/02  C	1	0	3L097	F25B  49/02	18	ò	fire extinguishers
F25B  49/02  D	1	0	3L097	F25B  49/02	328	Ÿ	power source
F25B  49/02  Z	1	0	3L097	F25B  49/02	367	¾Τ	Others
F25B  49/02 510 \	2	2	3L097	F25B  49/02	20	޾ָ֤֤ȼդǮʪָ֤֤ȼդʣͥ	arrangement and mounting of refrigerant state detector; arrangement and mounting of heated and cooled article state detector (520, 530, and 550 take precedence)
F25B  49/02 510 A	2	0	3L097	F25B  49/02	318	ٸ	temperature detectors
F25B  49/02 510 B	2	1	3L097	F25B  49/02	387	Ǯ򴹴˼դ	attachments to heat exchangers
F25B  49/02 510 C	2	1	3L097	F25B  49/02	440	޴ɤ˼դ	attachments to refrigerant pipes
F25B  49/02 510 D	2	2	3L097	F25B  49/02	42	޴	inserts into refrigerant pipes
F25B  49/02 510 F	2	0	3L097	F25B  49/02	454	ϸ	pressure detectors
F25B  49/02 510 H	2	0	3L097	F25B  49/02	61	ݥѥҡݥȸ	super heat detectors
F25B  49/02 510 K	2	0	3L097	F25B  49/02	130	վָ֡㡥եХĥ	vapor-liquid state detectors, e.g. liquid bag detection
F25B  49/02 510 Z	2	0	3L097	F25B  49/02	169	¾Τ	Others
F25B  49/02 520 \	2	2	3L097	F25B  49/02	8	̤β­ޤϳ측֤֤ȼդʣͥ表Ŷ˽Ŷ̤򸡽ФΣ	arrangement and mounting of detectors of too-many or little refrigerant amount and leakage of refrigerants (530 takes precedence; detecting the filled refrigerant amount during filling 45/00)
F25B  49/02 520 A	2	0	3L097	F25B  49/02	246	ޤξ֤Τߤˤ긡ФΡ̣ȡˡͤͥ	detection only by the refrigerant state (H, K, and M take precedence)
F25B  49/02 520 B	2	1	3L097	F25B  49/02	259	ϤΤߤΤˤ	only by pressure
F25B  49/02 520 C	2	1	3L097	F25B  49/02	248	٤ΤߤˤΡ̣ġŤͥ	only by temperature (D and E take precedence)
F25B  49/02 520 D	2	1	3L097	F25B  49/02	185	٤ˤ	by overcooling temperature
F25B  49/02 520 E	2	1	3L097	F25B  49/02	201	Ǯ٤ˤ	by overheating temperature
F25B  49/02 520 F	2	1	3L097	F25B  49/02	275	դξ֤ˤΡ㡥հ̡ˢޤϼ	by the liquid state, e.g. liquid level, bubbles, or dampness
F25B  49/02 520 H	2	0	3L097	F25B  49/02	218	Ǯʪξ֤ˤ긡ФΡޤξ֤Ǯʪξ֤Ȥˤ긡ФΡ㡥ްϤỵ̄ˤͥ	detecting by the state of heated and cooled articles; detecting by the state of refrigerants and the state of heated and cooled articles, e.g. refrigerant pressure and air temperature (K takes precedence)
F25B  49/02 520 K	2	0	3L097	F25B  49/02	143	̵ưޤŸξ֤ˤ긡Ф	detecting by the state of compressors, motors, or power sources
F25B  49/02 520 M	2	0	3L097	F25B  49/02	1326	ϳޤΤ	detecting leaked refrigerants
F25B  49/02 520 Z	2	0	3L097	F25B  49/02	354	¾Τ	Others
F25B  49/02 530 \	2	2	3L097	F25B  49/02	6	ȥ饹֤ȼդ	arrangement and mounting of side glasses
F25B  49/02 530 A	2	0	3L097	F25B  49/02	113	쥷ݥФ˼դ	mounted to receivers
F25B  49/02 530 Z	2	0	3L097	F25B  49/02	110	¾Τ	Others
F25B  49/02 540 \	2	2	3L097	F25B  49/02	257	򡤰֤ۤȼդ	arrangement and mounting of soluble plugs and safety valves
F25B  49/02 550 \	2	2	3L097	F25B  49/02	206	Խʪ֡㡥ʬд֤ȼդʣͥ	detectors of impurities in refrigerants and oil, e.g. arrangement and mounting of water detectors (530 takes precedence)
F25B  49/02 560 \	2	2	3L097	F25B  49/02	390	ʡ㡥̵ݸ֤֡ȼդʰ̵ݸְ̤ϣƣ£	electrical parts, e.g. arrangement and mounting of compressor protective devices (protective devices for compressors in general F04B 49/10)
F25B  49/02 570 \	2	2	3L097	F25B  49/02	6	۾︡ɽ֤֤ȼդʣͥ	arrangement and mounting of error detection display devices (510 to 560 take precedence)
F25B  49/02 570 A	2	0	3L097	F25B  49/02	392	̵ưޤŸΰ۾򸡽ɽ	detecting and displaying errors of compressors, motors, or power sources
F25B  49/02 570 B	2	0	3L097	F25B  49/02	175	Ǯ򴹴ΰ۾򸡽ɽ	detecting and displaying errors of heat exchangers
F25B  49/02 570 C	2	0	3L097	F25B  49/02	157	ήΰ۾򸡽ɽ	detecting and displaying errors of flow rate controllers
F25B  49/02 570 D	2	0	3L097	F25B  49/02	167	дΰ۾򸡽ɽ	detecting and displaying errors of detectors
F25B  49/02 570 Z	2	0	3L097	F25B  49/02	618	¾Τ	Others
F25B  49/04  \	1	1	3L097	F25B  49/04	302	弰ץȤޤϥƥΤΤΡΣ	for sorption type machines, plant or systems [5]
