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    • 2. 发明授权
    • 하이브리드 열교환기를 구비한 히트펌프식 냉난방시스템
    • 具有混合式热交换器的热泵式冷却/加热系统
    • KR101446921B1
    • 2014-10-06
    • KR1020130146885
    • 2013-11-29
    • 주식회사 삼영
    • 박지선박희문임현묵심경종
    • F24J3/08F24H4/00F24J2/04F25B30/06
    • Y02E10/44F24H4/00F25B30/06
    • The present invention relates to a heat pump type air-conditioning system having hybrid heat exchangers. According to the present invention, the heat pump type air-conditioning system includes an outdoor heat exchanger and a natural energy heat exchanger and selects one, which has higher efficiency of exchanging heat from two exchangers to operate selected one. Therefore, the heat pump type air-conditioning system has increased efficiency of air conditioning. More specifically, temperature measuring devices are installed on the outdoor heat exchanger and the natural energy heat exchanger, respectively. Therefore, the heat pump type air-conditioning system measures the temperature and selects the exchanger based on the temperature in order to operate. In winter, the system is operated with the exchanger at the relatively higher temperature. In summer, the system is operated with the exchanger at the relatively lower temperature. Thereby, the heat pump type air-conditioning system has optimized heat efficiency.
    • 本发明涉及具有混合式热交换器的热泵式空调系统。 根据本发明,热泵式空调系统包括室外热交换器和自然能热交换器,并且选择一个具有较高效率的来自两个交换器的热量来操作所选择的热交换器。 因此,热泵式空调系统提高了空调效率。 更具体地,温度测量装置分别安装在室外热交换器和自然能热交换器上。 因此,热泵式空调系统测量温度,并根据温度选择换热器进行操作。 在冬天,系统在相对较高的温度下与交换器一起运行。 在夏季,系统在相对较低的温度下与交换器一起运行。 因此,热泵式空调系统具有优化的热效率。
    • 3. 发明授权
    • 히트펌프 사이클을 이용한 난방장치
    • 加热器使用热泵循环
    • KR101444739B1
    • 2014-09-26
    • KR1020120127530
    • 2012-11-12
    • 성명제
    • 성명제
    • F24H4/00F24H9/20F25B47/02F24D15/04F25B30/02
    • Y02B30/12
    • 히트펌프 사이클을 이용한 난방장치가 개시된다. 본 발명에 따른 히트펌프 사이클을 이용한 난방장치는, 열교환기; 상기 열교환기에 회수된 1차측 냉매가 일측으로 유입되고, 증발/응축 실외기에서 냉각된 과냉각된 2차측 냉매가 타측으로 유입되어 열교환되는 과냉도 조절부; 상기 과냉도 조절부에서 가열된 2차측 냉매를 압축시키는 콤프레샤; 상기 과냉도 조절부를 통과한 후 냉각된 1차측 냉매를 과냉각시키는 증발/응축 실외기; 상기 증발/응축 실외기로부터 과냉각된 1차측 냉매를 기체와 액체로 분리시키고, 기체화된 냉매를 2차측 냉매로 하여 과냉도 조절부로 공급하고, 액체 냉매는 증발/응축 실외기로 공급하는 기수분리기;를 포함하여 구성된다.
      이에 따르면 증발/응축 실외기의 냉매 인출측 배관에 설치된 기수분리기에 의해 배관 내의 기체상태 냉매와 액체상태 냉매를 분리시켜 기체상태 냉매의 흐름을 촉진할 수 있고, 흐름이 저하된 액체상태 냉매는 특히 저온 상태일때 더욱 흐름이 나빠지므로 냉매순환펌프에 의해 흐름 상태를 촉진시킬 수 있도록 하여 전열능력이 향상될 수 있는 효과가 있다.
    • 4. 发明公开
    • 열교환 시스템
    • 热交换器和冷却系统
    • KR1020140047793A
    • 2014-04-23
    • KR1020120113918
    • 2012-10-15
    • 우정석
    • 우정석
    • F25B29/00F24H4/00F25B27/00
    • The present invention relates to a heat exchanging system comprising: a first heat exchanger for exchanging heat with water of 38 to 42°C; a receiver tank for preventing pulsation generated to refrigerant during heat-exchange in the first heat exchanger and separating air so as to enable a smooth movement; an expansion tank which changes while expanding and contracting according to temperature rise and drop of the refrigerant in a circulation system of the refrigerant transferred through a backflow preventing check valve from the receiver tank to absorb a changed volume and prevent overflow or intrusion of air; a condenser connected through the backflow preventing check valve from the expansion tank to carry out heat exchange with the outside air; a first three-way valve for selectively supplying the refrigerant of the expansion tank or the refrigerant of the second heat exchanger to the condenser; a compressor connected with the condenser through a second three-way valve to compress refrigerant of a low temperature into refrigerant of a high-temperature and high-pressure state to supply the refrigerant of the high-temperature and high-pressure state to the first heat exchanger through the second three-way valve; the second three-way valve for supplying the refrigerant of the condenser to the first heat exchanger or for supplying the refrigerant of the high-temperature and high-pressure to the condenser in a state where the refrigerant is supplied from the compressor to the first heat exchanger; and a second heat exchanger directly connected to the compressor for receiving the refrigerant of the high-temperature and high-pressure to carry out heat exchange with water of 10 to 15°C.
    • 本发明涉及一种热交换系统,包括:第一热交换器,用于与38至42℃的水进行热交换; 接收罐,用于防止在第一热交换器中热交换期间制冷剂产生的脉动,并分离空气,以便平稳运动; 膨胀箱,其根据通过防止止回阀从接收罐传递的制冷剂的循环系统中的制冷剂的温度升高和下降而发生膨胀和收缩,以吸收变化的体积并防止空气的溢出或侵入; 冷凝器通过来自膨胀箱的防回流止回阀与外部空气进行热交换; 第一三通阀,用于选择性地将膨胀箱的制冷剂或第二热交换器的制冷剂供应到冷凝器; 通过第二三通阀与冷凝器连接的压缩机,将低温制冷剂压缩成高温高压状态的制冷剂,将高温高压状态的制冷剂供给到第一热量 交换器通过第二个三通阀; 第二三通阀,用于将冷凝器的制冷剂供给到第一热交换器,或者在制冷剂从压缩机供给到第一热量的状态下将高温高压的制冷剂供给到冷凝器 器; 以及与压缩机直接连接的第二热交换器,用于接收高温高压的制冷剂,以与10至15℃的水进行热交换。
    • 5. 发明授权
    • 히트펌프 사이클을 이용한 난방장치
    • 使用循环热泵的加热系统
    • KR101372265B1
    • 2014-03-11
    • KR1020120098755
    • 2012-09-06
    • 김재철성명제
    • 성명제김재철
    • F24H4/00F25B47/02F24H9/20F25B30/02F24D17/02F24D15/04
    • F24H4/00F24D15/04F24D17/02F24H9/20F25B30/02F25B47/02Y02B30/12
    • Disclosed is a heating apparatus using a heat pump cycle. The heat pump system including a compressor, a condenser connected to the compressor, an expansion valve connected to the condenser; an outdoor heat exchanger connected to the expansion valve, and a four-way valve for selecting the flowing direction of refrigerants according to the present invention has an inlet-side refrigerant pipe and an outlet-side refrigerant pipe connected to the outdoor heat exchanger to circulate the refrigerants and comprises a vaporized liquid separator formed on the outlet-side refrigerant pipe to separate refrigerants in a gaseous state from refrigerant in a liquid state; a bypass pipe having one end part connected to the lower part of the vaporized liquid separator and having the other end part connected to the inlet-side refrigerant pipe of the outdoor heat exchanger; and a refrigerant circulation pump formed on the bypass pipe and configured to recover the refrigerants in a liquid state in the vaporized liquid separator and to transfer the refrigerant in a liquid state to the inlet-side refrigerant pipe. Accordingly, the present invention can facilitate the flow of the refrigerants in a gaseous state by separating the refrigerants in a gaseous state and the refrigerants in a liquid state in a pipe via the vaporized liquid separator installed on the outlet-side refrigerant pipe of the outdoor heat exchanger. And the present invention can improve heat transfer efficiency by facilitating the flowing state of the refrigerants via the refrigerant circulation pump because the refrigerants in a liquid state having a degraded flow has a flow degraded further at low temperatures.
    • 公开了一种使用热泵循环的加热装置。 该热泵系统包括压缩机,连接到压缩机的冷凝器,连接到冷凝器的膨胀阀; 与膨胀阀连接的室外热交换器和根据本发明的用于选择制冷剂的流动方向的四通阀具有连接到室外热交换器的入口侧制冷剂管和出口侧制冷剂管,以循环 制冷剂,并且包括形成在出口侧制冷剂管道上的气化液体分离器,以将气态的制冷剂与液态的制冷剂分离; 旁通管,其一端部与汽化液分离器的下部连接,另一端部与室外热交换器的入口侧制冷剂管连接; 以及制冷剂循环泵,其形成在所述旁通管上并且构造成在所述气化液分离器中回收液态的制冷剂,并将所述制冷剂以液态转移到所述入口侧制冷剂配管。 因此,本发明可以通过将室内的制冷剂分离成管状的制冷剂,通过将安装在室外的出口侧制冷剂管上的蒸发的液体分离器分离成管状的液态制冷剂来促进气态的制冷剂的流动 热交换器。 并且本发明可以通过促进制冷剂经由制冷剂循环泵的流动状态来提高传热效率,因为具有降低流量的液态的制冷剂在低温下进一步劣化。
    • 6. 发明授权
    • 냉난방 장치
    • 冷却或加热装置
    • KR101221819B1
    • 2013-01-14
    • KR1020100081078
    • 2010-08-20
    • 임성호
    • 임성호
    • F24D15/04F16L37/12F25B29/00F24H4/00
    • 냉난방 장치가 개시된다. 냉난방 장치는 제 1 방향으로 연장되며 냉수 또는 온수를 공급하는 송수관; 상기 송수관으로부터 상기 제 1 방향과 교차하는 제 2 방향으로 연장되는 접속관; 상기 접속관을 둘러싸며, 상기 송수관과 연결되는 하나 이상의 모세관; 상기 모세관을 통과한 냉수 또는 온수를 배출하기 위한 배수관; 및 상기 모세관을 둘러싸며, 상기 접속관에 체결되는 연결구를 포함하고, 상기 접속관에는, 상기 접속관의 외주면에 배치되며 고리 형상을 가지는 제 1 걸림부가 구비되고, 상기 연결구에는, 상기 모세관의 외경에 대응되는 내경을 가지는 연결관; 및 상기 연결관의 외주면에 구비되며, 상기 제 1 걸림부에 체결가능하도록 돌출된 형상의 제 2 걸림부가 포함되고, 상기 연결관이 상기 제 1 걸림부에 안착된 상태에서 상기 제 2 걸림부가 상기 제 1 걸림부에 걸리며, 상기 제 2 걸림부에서, 상기 연결관의 끝단에 대응하는 부분에는 홈이 형성되는 것을 특징으로 한다.
    • 7. 发明公开
    • 급수장치
    • 供水设备
    • KR1020120136854A
    • 2012-12-20
    • KR1020110056037
    • 2011-06-10
    • 삼성전자주식회사
    • 김성구
    • F24D17/02F24D19/10F24H4/00F24D19/08
    • F24D17/02F24D2220/0235F24D2220/0242F24F3/06F24F5/0096F24F2203/021F25B7/00F25B13/00F25B25/005
    • PURPOSE: A water supply device is provide to supply hot water with proper temperature by generating second hot water, for which the temperature is higher than the temperature of first hot water. CONSTITUTION: A water supply device comprises an outdoor unit(10) and a cascade unit(20). The outdoor unit is placed outside. The cascade unit generates second hot water in which the temperature is higher than the temperature of first hot water by receiving refrigerant from the outdoor unit. The outdoor unit comprises a first compressor(11) and a first heat exchanger(12). The heat exchange between first refrigerant and outside air occurs in the first heat exchanger. The cascade unit comprises a second compressor(21), a second heat exchanger(22), a third heat exchanger(23), and a fourth heat exchanger.
    • 目的:提供一种供水装置,通过产生温度高于第一热水温度的第二热水来提供适当温度的热水。 构成:供水装置包括室外单元(10)和级联单元(20)。 室外机放在室外。 级联单元通过从室外机接收制冷剂而产生温度高于第一热水的温度的第二热水。 室外机包括第一压缩机(11)和第一热交换器(12)。 在第一热交换器中发生第一制冷剂和外部空气之间的热交换。 级联单元包括第二压缩机(21),第二热交换器(22),第三热交换器(23)和第四热交换器。
    • 8. 实用新型
    • 성에 제거용 급탕기
    • 热水器除霜结构
    • KR2020090010397U
    • 2009-10-13
    • KR2020080004668
    • 2008-04-08
    • (주)미디어씨에이씨
    • 정택기
    • F24H4/02F24H4/00F25B30/00
    • Y02B30/12
    • 본 고안의 성에 제거용 급탕기는 냉매가스를 고온.고압으로 압축하는 압축기와, 상기 고온.고압의 냉매가스를 액화시켜 고온.고압의 냉매액체로 변환시켜 열교환시키는 실내교환기와, 상기 냉매액체를 감압시켜 실온에서 증발이 일어나도록 냉매액체를 중온.저압으로 변환하는 팽창밸브와, 상기 중온.저압의 냉매액체를 냉매기체로 변환시켜 외부의 증발 잠열을 흡수하여 열교환시키는 증발기와, 상기 팽창밸브에서 증발기로 연결되는 라인에서 도관을 분기시켜 증발기 내부에 장착한 성에제거관과 연결하되, 상기 도관에는 전자식 개폐밸브를 설치하여 증발기에서 성에가 발생시 전자식 개폐밸브의 개방에 의해 팽창밸브에서 증발기로 공급되는 중온.저압의 냉매액체 중 일부를 성에 제거관으로 유입시켜 중온의 열을 발생함으로써, 증발기에서 발� �된 성에를 제거할 수 있도록 구성한다.
      급탕기, 성에, 제거, 압축기, 실내교환기, 팽창밸브, 증발기
    • 9. 发明公开
    • 히트펌프시스템을 이용하여 100℃이상의 고온의 온수를얻는 방법
    • 空值
    • KR1020080101299A
    • 2008-11-21
    • KR1020070047880
    • 2007-05-15
    • 이상하
    • 이상하
    • F24H4/02F24H4/00F25B30/02
    • A method for obtaining the warm water of the high temperature is provided to obtain the warm water or the warmth from the heat pump system over 100deg.C. A method for obtaining the warm water of the high temperature includes an evaporation tube room is maintained with vacuum and here the water is put in within the heat pump and if the ambient temperature is the vacuum boil deep fade, the evaporation tube room(1) is heated with the warm water heated with the low temperature boiling heat pump of the whole history, an evaporation tube room of the hard flogging heat pump being heated and the steam vapor being obtained and compressing the steam vapor to compressor, it sends to the condensing chamber(4), compressed over 1 pressure(atm) with the measure drawing lock continuity and the since then generated heat was visited to the condensing chamber outside to the water and it heat-transmits, and the evaporation tube room is maintained with vacuum and here the water is put in within the heat pump and if the ambient temperature is the vacuum boil point or more, the vacuum pump is operated and it maintains, the steam vapor is generated and it condenses this steam vapor and the evaporation tube room sends to the condensing chamber furnace.
    • 提供一种获得高温温水的方法,以获得热水或热泵系统的温度超过100℃。 用于获得高温温水的方法包括蒸发管室保持真空,并且这里水被放入热泵内,并且如果环境温度是真空沸腾深度褪色,则蒸发管室(1) 用整个历史的低温沸腾热泵加热的温水加热,加热硬捣碎热泵的蒸发管室,得到蒸气蒸汽并将蒸气压缩成压缩机,送至冷凝 室(4),压力超过1压力(atm),测量拉伸锁定的连续性,然后产生的热量被访问到冷凝室外面,并进行热传递,蒸发管室保持真空, 在这里,水被放入热泵内,如果环境温度是真空沸点或更高,则真空泵运行并保持,产生蒸气蒸汽 使蒸汽蒸气和蒸发管室送到冷凝室炉。