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11. 发明公开

KR1020150137687A 지열을 이용한 냉난방 시스템 有权
标题翻译：空气调节器使用地热
公开(公告)号：KR1020150137687A
公开(公告)日：2015-12-09
申请号：KR1020140065980
申请日：2014-05-30
申请人： 주식회사 에너솔라
发明人： 박기주 , 이국원
IPC分类号： F25B30/06 , F25B13/00 , F25B49/00 , F28D20/00 , F24J3/08 , F24J2/34
CPC分类号： Y02E10/10 , Y02E10/40 , Y02E60/142 , Y02E70/30 , F25B30/06 , F25B27/00 , F25B49/02 , F25B2313/002 , F25B2313/0213 , F25B2700/21
摘要： 본발명은실내기에냉난방을공급하는히트펌프; 지중에매설되어지열과열교환이이루어지며, 일측에냉매가유입되는입구가형성되고, 타측에냉매가배출되는출구가형성되어내부에냉매가유동하는복수개의단위포트를구비하는지중열교환기; 상기단위포트를직렬또는병렬로연결하여냉매의흐름을제어하여상기히트펌프로공급하는제어유닛; 상기히트펌프를통하여고온또는저온의냉매를저장하는축열부및 상기제어유닛과축열부사이에개재되어상기제어유닛을통해유동하는냉매와상기축열부내부의냉매를선택적으로열교환시키는보조열교환부를포함하는것을특징으로하는지열을이용한냉난방시스템을제공한다.
摘要翻译：本发明涉及一种使用地面热的冷却和加热系统，包括：一个用于向室内单元供热或冷的热泵; 嵌入地下的地下热交换器用于交换地面热，并且包括具有用于引入形成在一侧的制冷剂的入口的多个单元端口和用于排出形成在另一侧的制冷剂的出口，以使制冷剂在内部流动; 控制单元，用于控制制冷剂的流动并通过串联或并联连接单元端口将制冷剂流供给热泵; 用于通过热泵存储高温或低温制冷剂的储热部件; 以及辅助热交换部，其插入在所述控制单元和所述蓄热部之间，以选择性地与流过所述控制单元的制冷剂和所述储热部内的制冷剂进行热交换。

12. 发明授权

KR100586989B1 냉난방 공조시스템 및 그 제어방법 有权
标题翻译：用于冷却和加热的空调系统及其控制方法
公开(公告)号：KR100586989B1
公开(公告)日：2006-06-08
申请号：KR1020040063180
申请日：2004-08-11
申请人： 삼성전자주식회사
发明人： 김승철 , 서형준 , 이준표 , 정재효 , 최정철
IPC分类号： F24F11/00 , F25B1/00 , F25B41/04
CPC分类号： F25B27/02 , F24F2110/12 , F25B13/00 , F25B2313/0213 , F25B2313/02523 , F25B2313/02741 , F25B2500/31 , F25B2700/1931 , F25B2700/1933 , F25B2700/2104 , F25B2700/2106 , Y02A30/274
摘要： 본 발명은 냉난방 공조시스템 및 그 제어방법에 관한 것이다. 본 발명에 따른 냉난방 공조시스템은 실내열교환부와, 실외열교환부와, 상기 실내열교환부 및 상기 실외열교환부와 폐루프를 형성하며 냉매를 압축시키는 압축기와, 상기 압축기를 구동시키는 압축기구동부를 포함한다. 또한, 냉난방 공조시스템은 실외 온도를 감지하는 실외온도센서와; 상기 압축기로부터 토출되는 냉매의 압력을 감지하는 고압센서와; 상기 압축기로 유입되는 냉매의 압력을 감지하는 저압센서와; 상기 실내열교환부와 상기 실외열교환부 사이의 냉매관과 상기 압축기 입구 측의 냉매관을 연결하는 바이패스배관과; 상기 바이패스배관을 개폐하는 바이패스밸브와; 난방운전시 상기 실외온도센서에 의해 감지된 실외 온도가 소정의 기준온도 이하인 상태에서, 상기 저압센서에 의해 감지된 압력이 소정의 목표저압 이하인 경우 상기 바이패스밸브를 개방시키고, 상기 고압센서에 의해 감지된 압력이 소정의 목표고압을 초과하는 경우 상기 바이패스밸브를 폐쇄시키는 제어부를 포함하는 것을 특징으로 한다. 이에 의하여, 저온 난방 운전시 난방 능력을 향상시킬 수 있다.

13. 发明授权

KR100569547B1 냉동 장치 有权
标题翻译： 냉동장치
公开(公告)号：KR100569547B1
公开(公告)日：2006-04-10
申请号：KR1020047006842
申请日：2003-07-22
申请人： 다이킨 고교 가부시키가이샤
发明人： 마츠오카히로무네 , 미즈타니카즈히데
IPC分类号： F25B1/00
CPC分类号： F25B13/00 , F25B40/02 , F25B2313/006 , F25B2313/021 , F25B2313/0213 , F25B2313/023 , F25B2313/0233 , F25B2313/0272 , F25B2313/0311 , F25B2400/13 , F25B2400/16 , F25B2400/18 , F25B2500/07 , F25B2700/191
摘要： A refrigeration equipment includes a vapor compression type of refrigerant circuit that prevents a decline in refrigeration ability in user side heat exchangers when the refrigerant condensed by a heat source side heat exchanger is reduced in pressure and sent to the user side heat exchangers. An air conditioner includes a refrigerant liquid junction line and a refrigeration gas junction line, a heat source side expansion valve, a cooler, and a first pressure detection mechanism. The heat source side expansion valve reduces the pressure of the refrigerant that is condensed in the heat source side heat exchanger and sent to the user side heat exchangers. The cooler cools the refrigerant that is condensed in the heat source side heat exchanger and sent to the user side heat exchangers. The first pressure detection mechanism detects the pressure of the refrigerant after the pressure thereof has been reduced by the heat source side expansion valve.
摘要翻译：本发明的制冷装置具备蒸气压缩式制冷剂回路，该蒸气压缩式制冷剂回路在由热源侧热交换器冷凝的制冷剂减压并向用户侧热交换器输送时，防止用户侧热交换器的制冷能力下降。本发明提供一种空调机，其包括制冷剂液体合流管路和制冷剂气体合流管路，热源侧膨胀阀，冷却器以及第一压力检测机构。热源侧膨胀阀减小在热源侧热交换器中冷凝并传送至用户侧热交换器的制冷剂的压力。冷却器对在热源侧热交换器中冷凝的制冷剂进行冷却并送往利用侧热交换器。第一压力检测机构检测通过热源侧膨胀阀减压后的制冷剂的压力。

14. 发明公开

KR1020040084698A 폐열 회수식 공기 조화 장치 失效
标题翻译：冷却回路，冷却回路，废热回收换热器和冷却预热换热器的废热回收空调
公开(公告)号：KR1020040084698A
公开(公告)日：2004-10-06
申请号：KR1020040019520
申请日：2004-03-23
申请人： 아이신세이끼가부시끼가이샤
发明人： 야마모또미찌히꼬
IPC分类号： F25B27/02
CPC分类号： Y02A30/274 , Y02B30/52 , Y02P80/152 , F25B27/02 , F25B41/04 , F25B47/02 , F25B2313/0213 , F25B2400/0411 , F25B2600/2507 , F25B2600/2519
摘要： PURPOSE: A waste heat recovery air conditioner is provided to perform defrosting process effectively and secure the high COP(Coefficient Of Performance) by using waste heat from an engine. CONSTITUTION: A waste heat recovery air conditioner is composed of an engine(90), a coolant circuit(10), a cooling circuit(20), a waste heat recovery heat exchanger(30), and a cooling preheating heat exchanger(31). The coolant circuit comprises a compressor(11) driven by the engine to compress coolant; a first heat exchanger(12) coupled with the compressor; an expansion valve(16) connected to the first heat exchanger; and a second heat exchanger(13) linked with the expansion valve to flow the coolant back to the compressor. The cooling circuit comprises a cooling unit(23) for transmitting waste heat output from the engine to cooling fluid; a radiator(21) connected with the cooling unit to emit the waste heat transmitted to the cooling fluid to the air; and a cooling fluid pump(24) for circulating the cooling fluid between the cooling unit and the radiator. The waste heat recovery heat exchanger for transmitting some of the waste heat from the engine to the coolant comprises a first coolant operating chamber(30a) coupled with the second heat exchanger in parallel in the coolant circuit; a first cooling fluid operating chamber(30b) coupled with the radiator of the cooling circuit in parallel or in series; and a heat transfer wall(30c) dividing the first coolant operating chamber and the first cooling fluid operating chamber. The coolant preheating heat exchanger for transmitting the waste heat of the engine to the coolant flowing into the second heat exchanger comprises a second cooling fluid operating chamber(31b) coupled with the radiator of the cooling circuit and/or with the waste heat recovery heat exchanger in series or in parallel; a second coolant operating chamber(31a) linked between the expansion valve of the coolant circuit and the second heat exchanger; and a heat transfer wall(31c) for dividing the second cooling fluid operating chamber and the second coolant operating chamber.
摘要翻译：目的：提供废热回收空调，以有效地进行除霜过程，并通过使用发动机的废热确保高COP（性能）。构成：余热回收空调由发动机（90），冷却剂回路（10），冷却回路（20），废热回收热交换器（30）和冷却预热用热交换器（31）构成，。冷却剂回路包括由发动机驱动以压缩冷却剂的压缩机（11）与压缩机联接的第一热交换器（12）; 连接到第一热交换器的膨胀阀（16）; 和与膨胀阀连接的第二热交换器（13），以将冷却剂流回压缩机。冷却回路包括用于将从发动机输出的废热传递到冷却流体的冷却单元（23）散热器（21），其与所述冷却单元连接，以向所述空气发射传递到所述冷却流体的废热; 以及用于在冷却单元和散热器之间循环冷却流体的冷却流体泵（24）。用于将来自发动机的一些废热传递到冷却剂的废热回收热交换器包括在冷却剂回路中并联连接第二热交换器的第一冷却剂操作室（30a）与冷却回路的散热器并联或串联连接的第一冷却流体操作室（30b）; 以及分隔第一冷却剂操作室和第一冷却流体操作室的传热壁（30c）。用于将发动机的废热传递到流入第二热交换器的冷却剂的冷却剂预热热交换器包括与冷却回路的散热器和/或废热回收热交换器连接的第二冷却流体操作室（31b）串联或并联; 连接在冷却剂回路的膨胀阀和第二热交换器之间的第二冷却剂操作室（31a）和用于分割第二冷却流体操作室和第二冷却剂操作室的传热壁（31c）。

15. 发明公开

KR1020030019226A 가스 히트 펌프식 공기 조화 장치, 엔진 냉각수 가열 장치및 가스 히트 펌프식 공기 조화 장치의 운전 방법 失效
标题翻译：气体热泵型空调系统，发动机冷却水加热装置及气体热泵型空调系统的运行方法
公开(公告)号：KR1020030019226A
公开(公告)日：2003-03-06
申请号：KR1020020051784
申请日：2002-08-30
申请人： 미츠비시 쥬고교 가부시키가이샤
发明人： 가사기츠카사 , 구니타히라쿠 , 모리시마류지 , 야마기시가즈오
IPC分类号： F25B30/00
CPC分类号： F25B27/00 , F25B13/00 , F25B41/04 , F25B2313/0213 , F25B2313/0233 , F25B2313/0252 , F25B2313/0253 , F25B2327/00 , F25B2500/31 , Y02P80/152
摘要： PURPOSE: To provide a gas heat pump type air conditioning device capable of further improving heating capacity during a low outside air temperature. CONSTITUTION: In a gas heat pump type air conditioning system constituted that a refrigerating cycle is formed by circulating a refrigerant by a compressor 11 where a gas engine GE is a drive source. A waste heat is recovered to engine cooling water from exhaust gas, discharged from the gas engine GE by an exhaust gas heat exchanger 34, and by heating a refrigerant by the engine cooling water, heating capacity is increased, a bypass flow passage 36 provided with a flow rate control valve 37 is formed at an engine cooling water line 30 on the side situated downstream of the gas engine. A heating device 40 for an engine cooling water is situated in the bypass flow passage 36.
摘要翻译：目的：提供一种能够在低外部空气温度下进一步提高加热能力的气体热泵式空调装置。构成：在气体热泵式空调系统中，构成通过气体发动机GE是驱动源的压缩机11使制冷剂循环而形成制冷循环。废气通过排气热交换器34从废气中回收到来自燃气发动机GE的发动机冷却水，并且通过发动机冷却水加热制冷剂，加热能力增加，设置有旁路流路36 在位于燃气发动机下游侧的发动机冷却水管线30上形成有流量控制阀37。用于发动机冷却水的加热装置40位于旁通流路36中。

16. 发明公开

KR1020110076558A 히트펌프식 냉온수발생장치 无效
标题翻译：使用热泵的热和冷水发生装置
公开(公告)号：KR1020110076558A
公开(公告)日：2011-07-06
申请号：KR1020090133302
申请日：2009-12-29
申请人： 홍창의
发明人： 홍창의 , 박인철
IPC分类号： F25B30/02 , F25B41/04 , F24D15/04
CPC分类号： Y02B30/12 , F25B30/02 , F25B41/04 , F25B41/062 , F25B2313/0213
摘要： PURPOSE: A heat pump type cold and hot water generator is provided to control the temperature of a refrigerator for heat exchange with the outside air in connection with a decrease in the outdoor temperature to prevent defrost from being generated in a heat exchanger. CONSTITUTION: A heat pump type cold and hot water generator includes a compressor(10), a first heat exchanger(20), a first expansion valve(30), a second heat exchanger(40), a compensation heat exchange(36), a first valve(11), a second expansion valve(47), and a third heat exchanger(46). The first heat exchanger transfer the heat of a refrigerant coming out from the compressor to water to generate hot water. The first expansion valve expands the refrigerant heat-exchanged in the first heat exchanger. The compensation heat exchanger evaporates refrigerant by using a part of the hot water generated in the first heat exchanger. The third heat exchanger generates cold water through heat exchange with the refrigerant passing through the second expansion valve.
摘要翻译：目的：提供一种热泵式冷热水发生器，用于控制与外部空气进行热交换的冰箱的温度，同时降低室外温度，以防止在热交换器中产生除霜。构成：一种热泵式冷热水发生器，包括压缩机（10），第一热交换器（20），第一膨胀阀（30），第二热交换器（40），补偿热交换器（36）第一阀（11），第二膨胀阀（47）和第三热交换器（46）。第一热交换器将从压缩机出来的制冷剂的热量传递给水以产生热水。第一膨胀阀膨胀在第一热交换器中热交换的制冷剂。补偿热交换器通过使用在第一热交换器中产生的一部分热水来蒸发制冷剂。第三热交换器通过与通过第二膨胀阀的制冷剂进行热交换而产生冷水。

17. 发明公开

KR1020110022182A 순환수 온도 상승용 열교환기를 구비한 히트펌프 시스템 有权
标题翻译：具有热交换器的热泵系统，用于从热源增加输入热泵的温度
公开(公告)号：KR1020110022182A
公开(公告)日：2011-03-07
申请号：KR1020090079637
申请日：2009-08-27
申请人： 대한공조(주) , 한국생산기술연구원
发明人： 김태규 , 김부겸 , 김영률 , 김근배
IPC分类号： F25B30/06 , F25B13/00 , F24D15/04 , F24J3/08
CPC分类号： Y02E10/10 , F25B30/02 , F25B9/008 , F25B2313/002 , F25B2313/0213 , F25B2313/02731 , F25B2313/02742 , F25B2341/065 , F25B2600/2507
摘要： PURPOSE: A heat pump system with a heat exchanger for increasing the temperature of circulating water is provided to improve heating performance by the increment of the temperature of circulating water and the evaporation temperature in an evaporator. CONSTITUTION: A heat pump system(10) comprises an underground heat exchanger(210), a solenoid valve(310), a pump(110), a load heat exchanger(220), a heat exchanger(240) for increasing the temperature of circulating water, a heat source heat exchanger(250), an internal heat exchanger(230), an expansion device(400), a first four-way valve(320), and a second four-way valve(330). The underground heat exchanger exchanges the heat between circulating water and ground heat. The solenoid valve changes the flow direction of the circulating water. The pump transfers the circulating water to the solenoid valve. The load heat exchanger exchanges the heat between refrigerant and water circulating an indoor air conditioner(500). The heat exchanger for increasing the temperature of circulating water exchanges heat between the refrigerant and the circulating water. The heat-exchanger in a heat source exchanges the refrigerant and the circulating water. The internal heat exchanger exchanges heat between high temperature refrigerant and low-temperature refrigerant. The expansion device expands the refrigerant.
摘要翻译：目的：提供一种具有用于提高循环水温度的热交换器的热泵系统，以通过循环水的温度升高和蒸发器中的蒸发温度来提高加热性能。构成：热泵系统（10）包括地下热交换器（210），电磁阀（310），泵（110），负载热交换器（220），用于增加温度的热交换器（240）循环水，热源热交换器（250），内部热交换器（230），膨胀装置（400），第一四通阀（320）和第二四通阀（330）。地下热交换器在循环水和地热之间交换热量。电磁阀改变循环水的流动方向。泵将循环水转移到电磁阀。负载热交换器在制冷剂与循环室内空调的水（500）之间交换热量。用于提高循环水温度的热交换器在制冷剂和循环水之间交换热量。热源中的热交换器交换制冷剂和循环水。内部热交换器在高温制冷剂和低温制冷剂之间交换热量。膨胀装置膨胀制冷剂。

18. 发明公开

KR1020060014585A 냉난방 공조시스템 및 그 제어방법 有权
标题翻译：空调和空调系统及其控制方法
公开(公告)号：KR1020060014585A
公开(公告)日：2006-02-16
申请号：KR1020040063180
申请日：2004-08-11
申请人： 삼성전자주식회사
发明人： 김승철 , 서형준 , 이준표 , 정재효 , 최정철
IPC分类号： F24F11/00 , F25B1/00 , F25B41/04
CPC分类号： F25B27/02 , F24F2110/12 , F25B13/00 , F25B2313/0213 , F25B2313/02523 , F25B2313/02741 , F25B2500/31 , F25B2700/1931 , F25B2700/1933 , F25B2700/2104 , F25B2700/2106 , Y02A30/274
摘要： An air conditioner for heating or cooling a space is disclosed. It includes a compressor (6), an indoor heat exchanger (1) located in said space and an outdoor heat exchanger (2) connected together in a refrigeration circuit. The air conditioner further comprising a control unit (28) for controlling the flow of refrigerant through said refrigeration circuit and a bypass conduit (29) to divert refrigerant that has flowed through the indoor heat exchanger during a heating operation back to the compressor when an outdoor temperature sensed by an outdoor temperature sensor (25) is at or below a predetermined outdoor reference temperature and, when a refrigerant pressure sensed by a low pressure sensor (26) is at or below a predetermined pressure.
摘要翻译：本发明涉及一种制冷/制热空调系统及其控制方法。根据本发明的HVAC系统包括用于形成室内热交换器和室外热交换器和所述室内热交换器和所述室外热交换器和一个闭环并压缩制冷剂，压缩机驱动单元用于驱动压缩机的压缩机。制冷/制热空调系统包括用于感测室外温度的室外温度传感器; 高压传感器，用于感测从压缩机排出的制冷剂的压力; 低压传感器，用于感测流入压缩机的制冷剂的压力; 将室内热交换单元和室外热交换单元之间的制冷剂管连接到压缩机入口侧的制冷剂管的旁通管; 用于打开/关闭旁通管的旁通阀; 在室外温度比加热操作期间由室外温度传感器检测到预先确定的基准温度条件，等于或小于在由低压压力传感器小于预定目标低压与打开旁通阀等于或小于检测到的压力，由上述高压传感器并且当检测到的压力超过预定的目标高压时关闭旁通阀。这使得可以改善低温加热操作中的加热性能。

19. 发明公开

KR1020040006366A 히트 펌프 시스템 失效
标题翻译：热泵系统
公开(公告)号：KR1020040006366A
公开(公告)日：2004-01-24
申请号：KR1020020040622
申请日：2002-07-12
申请人： 진금수
发明人： 진금수
IPC分类号： F25B30/04
CPC分类号： F25B30/04 , F25B2313/0213 , F25B2400/17 , F28D2020/0078
摘要： PURPOSE: A heat pump system using air as a heat source is provided to increase a coefficient of performance by favorably evaporating refrigerant liquid in an outdoor heat exchanger if the air temperature is low in a cooling operation and to increase the coefficient of performance by dry-saturating and overheating-vaporizing refrigerant steam flowed into a compressor. CONSTITUTION: A heat pump system is composed of a basic cooling circuit(1), a heat storage(10), a heat exchanger(20), a heat pipe(30), and first and second heat exchangers(40,41). The basic cooling circuit successively couples a compressor(2), a 4-way valve(3), an indoor heat exchanger(4), a cooling expansion valve(5), a heating expansion valve(6), and an outdoor heat exchanger(7) to a conduit(8) and couples the 4-way valve and the compressor to a suction conduit(9). The heat storage is disposed between the cooling and heating expansion valves to fill a heat medium(12) and to embed a latent heat storing material(13) and a re-condensing heat exchanger(11) installed between the cooling and heating expansion valves. The heat exchanger is connected to the heat storage with a return pipe(22) mounted with a supply pipe(21) and a circulating pump(23) and is installed to the suction side of the outdoor heat exchanger. The heat pipe has an evaporating unit(31) installed to the outer periphery of the re-condensing heat exchanger and a radiating unit(32) connected to the evaporating unit by a connecting pipe(33) and positioned out of the heat storage. The first and second heat exchangers are mounted with parallel to the suction conduit and embedded in the radiating unit and the heat storage to optionally act to the temperature of the refrigerant steam sucked into the compressor.
摘要翻译：目的：提供一种使用空气作为热源的热泵系统，如果在制冷运转中的空气温度较低，并且通过干式运转来提高性能系数，通过有利地蒸发室外热交换器中的制冷剂液体来提高性能系数，饱和和过热 - 蒸发的制冷剂蒸汽流入压缩机。构成：热泵系统由基本冷却回路（1），储热器（10），热交换器（20），热管（30）和第一和第二热交换器（40,41）组成。基本冷却回路依次连接压缩机（2），四通阀（3），室内热交换器（4），冷却膨胀阀（5），加热膨胀阀（6）和室外热交换器（7）连接到导管（8），并将四通阀和压缩机耦合到吸入管道（9）。储热器设置在冷却和加热膨胀阀之间，以填充热介质（12）并且嵌入安装在冷却和加热膨胀阀之间的潜热蓄热材料（13）和再冷凝热交换器（11）。热交换器通过安装有供给管（21）和循环泵（23）的回流管（22）与蓄热器连接，并安装在室外热交换器的吸入侧。热管具有安装在再冷凝热交换器的外周的蒸发单元（31）和通过连接管（33）连接到蒸发单元并位于储热器外部的散热单元（32）。第一和第二热交换器平行于吸入管道安装并嵌入在辐射单元中，并且热存储器可选地作用于吸入压缩机的制冷剂蒸汽的温度。

20. 发明公开

KR1020040006365A 히트 펌프 시스템 失效
标题翻译：热泵系统
公开(公告)号：KR1020040006365A
公开(公告)日：2004-01-24
申请号：KR1020020040621
申请日：2002-07-12
申请人： 진금수
发明人： 진금수
IPC分类号： F25B30/04
CPC分类号： F25B30/04 , F25B2313/0213 , F28D2020/0078
摘要： PURPOSE: A heat pump system is provided to increase a coefficient of performance by smoothly evaporating refrigerant liquid in an outdoor heat exchanger when the air temperature is low in a heating operation and to additionally increase the coefficient of performance by dry-saturating and overheating-vaporizing refrigerant steam flowed to a compressor. CONSTITUTION: A heat pump system is composed of a basic cooling circuit(1), a hot water heating circuit(10), a heat storage(20), a heat exchanger(30), a heat pipe(40), and first and second heat exchangers(50,51). The basic cooling circuit successively connects a compressor(2), a 4-way valve(3), an indoor heat exchanger(4), a cooling expansion valve(5), a heating expansion valve(6), and an outdoor heat exchanger(7) to a conduit(8) and connects the 4-way valve and the compressor to a suction conduit(9). The hot water heating circuit is connected between the compressor and the 4-way valve. The heat storage is installed between the cooling and heating expansion valves of the conduit to charge a heat medium(21) and the heat storage includes a heating heat-exchanger(23) connected to the hot water heating circuit and a re-condensing heat exchanger(22) disposed between the cooling and heating expansion valves. The heat exchanger is connected to the heat storage with a return pipe(32) having a supply pipe(31) and a circulating pump(33) and is installed to the suction side of the outdoor heat exchanger. The heat pipe includes an evaporating unit(41) installed to the outer periphery of the re-condensing heat exchanger and a radiating unit(42) connected to the evaporating unit by a connecting pipe(43) and positioned out of the heat storage. The first and second heat exchangers are mounted with parallel to the suction conduit and embedded in the radiating unit and the heat storage to selectively act to the temperature of the refrigerant steam sucked into the compressor.
摘要翻译：目的：提供一种热泵系统，通过在加热运转中空气温度低的情况下平滑地蒸发室外热交换器中的制冷剂液体而提高性能系数，并通过干饱和和过热汽化来额外提高性能系数制冷剂蒸汽流到压缩机。构成：热泵系统由基本冷却回路（1），热水加热回路（10），储热器（20），热交换器（30），热管（40）第二热交换器（50,51）。基本冷却回路依次连接压缩机（2），四通阀（3），室内热交换器（4），冷却膨胀阀（5），加热膨胀阀（6）和室外热交换器（7）连接到导管（8），并将四通阀和压缩机连接到吸入管道（9）。热水加热回路连接在压缩机和四通阀之间。蓄热器安装在导管的冷却和加热膨胀阀之间以对热介质（21）充电，并且储热器包括连接到热水加热回路的加热热交换器（23）和再冷凝热交换器（22）设置在冷却和加热膨胀阀之间。热交换器通过具有供给管（31）和循环泵（33）的回流管（32）与蓄热器连接，并安装在室外热交换器的吸入侧。热管包括安装在再冷凝热交换器的外周的蒸发单元（41）和通过连接管（43）连接到蒸发单元并且定位在储热器外部的辐射单元（42）。第一和第二热交换器平行于吸入管道安装并嵌入在辐射单元中，并且储热器选择性地作用于吸入压缩机的制冷剂蒸汽的温度。

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