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公开(公告)号:US20090031737A1
公开(公告)日:2009-02-05
申请号:US11922579
申请日:2006-07-03
申请人: Takeo Ueno , Masaaki Takegami , Koichi Kita , Kenji Tanimoto , Yoshinari Oda , Kazuyoshi Nomura , Azuma Kondo
发明人: Takeo Ueno , Masaaki Takegami , Koichi Kita , Kenji Tanimoto , Yoshinari Oda , Kazuyoshi Nomura , Azuma Kondo
CPC分类号: F25B13/00 , F25B1/10 , F25B47/025 , F25B2313/006 , F25B2313/0233 , F25B2313/02741 , F25B2400/0401 , F25B2400/075 , F25B2400/13 , F25B2400/22
摘要: A refrigerant circuit (20) includes a low stage compressor (101, 102, 121, 122), a high stage compressor (41, 42, 43), an outdoor heat exchanger (44) and a utilization side heat exchanger (83, 93). During a defrosting operation of the refrigeration system (10), the high stage compressor (41, 42, 43) is driven. Refrigerant discharged from the high stage compressor (41, 42, 43) is pumped into the utilization side heat exchanger (83, 93) to heat frost on it from its inside. Thereafter, the refrigerant evaporates in the outdoor heat exchanger (44), is then compressed by the high stage compressor (41, 42, 43) and is sent again to the utilization side heat exchanger (83, 93).
摘要翻译: 制冷剂回路20包括低级侧压缩机101,102,121,122,高级侧压缩机41,42,43,室外热交换器44和利用侧热交换器83,93 )。 在制冷系统(10)的除霜运转中驱动高级压缩机(41,42,43)。 从高级压缩机(41,42,43)排出的制冷剂被泵送到利用侧热交换器(83,93)中以从其内部加热霜。 此后,制冷剂在室外热交换器44中蒸发,然后被高级侧压缩机41,42,43压缩,再次送到利用侧热交换器83,393。
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公开(公告)号:US20080110199A1
公开(公告)日:2008-05-15
申请号:US11794319
申请日:2005-12-22
申请人: Masaaki Takegami , Satoru Sakae , Kenji Tanimoto , Kazuyoshi Nomura , Yoshinari Oda , Azuma Kondo
发明人: Masaaki Takegami , Satoru Sakae , Kenji Tanimoto , Kazuyoshi Nomura , Yoshinari Oda , Azuma Kondo
IPC分类号: F25B1/00
CPC分类号: F25B5/02 , F25B2400/22 , F25B2500/01
摘要: The loss of refrigerant pressure which is caused in a return-side interconnecting piping line (19) comprising return-side interconnecting piping lines respectively extending from outlet ports (24, 34, 44) of single-stage side utilization units (12, 13, 14) to an inlet port (61) of a heat source unit (11) is set such that the lowest valued refrigerant pressure loss is caused by a said return-side interconnecting piping line of the return-side interconnecting piping line (19) that is connected to the lowest of the single-stage side utilization units (12, 13, 14) in compartment preset temperature.
摘要翻译: 在包括分别从单级侧利用单元(12,13,13)的出口(24,34,44)延伸的回流侧互连管道的回流侧互连管路(19)中引起的制冷剂压力的损失, 14)到热源单元(11)的入口(61)被设定为使得最低值的制冷剂压力损失由返回侧互连管道(19)的所述返回侧互连管道引起, 在室内预设温度下连接到最低级的单级侧利用单元(12,13,14)。
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公开(公告)号:US20070245768A1
公开(公告)日:2007-10-25
申请号:US11661609
申请日:2005-09-02
申请人: Satoru Sakae , Takenori Mezaki , Masaaki Takegami , Kazuyoshi Nomura , Azuma Kondo , Yoshinari Oda
发明人: Satoru Sakae , Takenori Mezaki , Masaaki Takegami , Kazuyoshi Nomura , Azuma Kondo , Yoshinari Oda
IPC分类号: F25B43/02
CPC分类号: F25B31/004 , F25B1/10 , F25B13/00 , F25B2313/007 , F25B2313/02741 , F25B2400/0751 , F25B2400/22 , F25B2500/01 , F25B2600/021 , Y02B30/741
摘要: A pressure regulating valve (71) is connected to the discharge side of a low stage compressor (55) to make the pressure in the suction side of high stage compressors (11, 12) lower than the pressure in a dome of the low stage compressor (55). Further, an oil return path (72) is connected to the dome of the low stage compressor (55) at one end and to the suction side of the high stage compressors (11, 12) by bypassing the pressure regulating valve (71) at the other end. With this configuration, refrigeration oil accumulated in the dome of the low stage compressor (55) is returned to the high stage compressors (11, 12).
摘要翻译: 压力调节阀71连接到低压侧压缩机55的排出侧,使高压侧压缩机11,11的吸入侧的压力低于低压侧压缩机的圆顶的压力 (55)。 此外,通过绕压压力调节阀(71)在一端和高压侧压缩机(11,12)的吸入侧将回油通路72连接到低压侧压缩机55的顶盖, 另一端 利用这种结构,积聚在低压侧压缩机(55)的圆顶中的冷冻机油回到高级侧压缩机(11,12)。
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公开(公告)号:US20070074523A1
公开(公告)日:2007-04-05
申请号:US10577011
申请日:2005-09-02
申请人: Masaaki Takegami , Satoru Sakae , Kenji Tanimoto , Kazuyoshi Nomura , Azuma Kondo , Yoshinari Oda
发明人: Masaaki Takegami , Satoru Sakae , Kenji Tanimoto , Kazuyoshi Nomura , Azuma Kondo , Yoshinari Oda
CPC分类号: F25B13/00 , F25B1/10 , F25B47/02 , F25B2313/0231 , F25B2400/075 , F25B2400/22
摘要: A refrigerator circuit (110) and a freezing circuit (30) are connected to an outdoor circuit (40) in parallel in a refrigerant circuit (20), and a freezer circuit (130) and a booster circuit (140) are connected in series in the freezing circuit (30). The booster circuit (140) includes a booster compressor (141) and three-way switching mechanisms (142, 160). During cooling operation of a freezing heat exchanger (131), first operation is performed in the three-way switching mechanisms (142, 160) so that the refrigerant evaporated in the freezing heat exchanger (131) is compressed in the booster compressor (141) and is sucked into a variable capacity compressor (41). During defrosting of the freezing heat exchanger (131), second operation is performed in the three-way switching mechanisms (142, 160) so that the refrigerant evaporated in the refrigeration heat exchanger (111) is compressed in the booster compressor (141), is supplied to the freezing heat exchanger (131), and then, is sent back to the refrigeration heat exchanger (111).
摘要翻译: 冰箱回路(110)和冷冻回路(30)在制冷剂回路(20)中并联连接到室外回路(40),冷冻回路(130)和升压回路(140)串联连接 在冷冻回路(30)中。 升压电路(140)包括增压压缩机(141)和三通切换机构(142,160)。 在冷冻热交换器(131)的制冷运转时,在三通切换机构(142,160)中进行第一操作,使得在冷冻热交换器(131)中蒸发的制冷剂在增压压缩机141中被压缩, 并被吸入变容量压缩机(41)。 在冷冻热交换器(131)的除霜期间,在三通切换机构(142,160)中进行第二操作,使得在增压压缩机(141)中在制冷用热交换器(111)中蒸发的制冷剂被压缩, 供给到冷冻热交换器(131),然后被送回制冷用热交换器(111)。
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公开(公告)号:US20100139312A1
公开(公告)日:2010-06-10
申请号:US11989308
申请日:2006-07-20
CPC分类号: F25B13/00 , F25B2313/0231 , F25B2313/02743 , F25B2400/075 , F25B2400/16 , F25B2400/22 , F25B2500/31 , F25B2600/021 , F25B2600/2519 , F25B2700/1931 , Y02B30/741
摘要: A refrigeration apparatus (1) is disclosed which is provided with multiple systems of utilization-side heat exchangers (20, 30, 40) and in which liquid-side interunit piping lines (53, 54, 55) are combined into a single liquid-side interunit piping line in multiple systems of liquid lines. When the refrigeration apparatus (1) provides space heating of 100% heat recovery without the use of an outdoor heat exchanger (15), the flow of refrigerant in a refrigerant circuit (50) is stabilized even when the temperature of outside air is low, thereby preventing the capacity to provide refrigeration from decreasing. In addition, in order to prevent shutdown of the refrigeration apparatus (1) due to malfunction, a liquid refrigerant inflow passageway (66) is connected to a heat source-side liquid pipe (62) of an outdoor unit (10), the heat source-side liquid pipe (62) being connected to an integrated liquid pipe (53) of the liquid-side interunit piping lines (53, 54, 55), and to an inlet port of the a receiver (17), and a switch valve (SV1) capable of being on-off controlled is disposed in the liquid refrigerant inflow passageway (66).
摘要翻译: 公开了一种制冷装置(1),其具有多个利用侧热交换器系统(20,30,40),其中液体侧管路管线(53,54,55)组合成单个液 - 液体管道系统中的侧面管路系统。 当制冷装置(1)在不使用室外热交换器(15)的情况下提供100%热回收的空间加热时,即使外部空气的温度低,制冷剂回路(50)中的制冷剂流也稳定, 从而防止提供制冷的能力下降。 此外,为了防止制冷装置(1)由于故障而关闭,液体制冷剂流入通路(66)与室外机(10)的热源侧液体管道(62)连接,热量 源极侧液体管道(62)连接到液体侧管路管线(53,54,55)的集成液体管道(53)和接收器(17)的入口端口,开关 能够开关控制的阀(SV1)配置在液体制冷剂流入通路(66)中。
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公开(公告)号:US20090282848A1
公开(公告)日:2009-11-19
申请号:US12302478
申请日:2007-05-25
CPC分类号: F25B13/00 , F25B1/10 , F25B2313/0231 , F25B2313/0233 , F25B2313/02743 , F25B2313/0314 , F25B2400/0751 , F25B2400/19 , F25B2400/22 , F25B2600/2513 , F25B2700/04
摘要: In a refrigerant circuit (20), an air conditioning unit (12), a cold-storage showcase (13), and a freeze-storage showcase (14) are connected in parallel to an outdoor unit (11). When placing an indoor heat exchanger (71) of the air conditioning unit (12) in the thermo-off state, a degree-of-opening control means (101) provides control so that an indoor expansion valve (72) is placed in the fully closed state. Thereafter, the degree-of-opening control means (101) detects the accumulated amount of refrigerant within the indoor heat exchanger (71) and then adjusts the degree of opening of the indoor expansion valve (72) depending on the refrigerant amount detected.
摘要翻译: 在制冷剂回路(20)中,空调单元(12),冷藏陈列柜(13)和冷冻陈列柜(14)并联连接到室外机组(11)。 当将空调单元(12)的室内热交换器(71)放置在热关闭状态时,开度控制装置(101)提供控制,使得室内膨胀阀(72)被放置在 完全关闭状态。 此后,开度控制装置(101)检测室内热交换器(71)内的制冷剂的累积量,然后根据检测出的制冷剂量调节室内膨胀阀(72)的开度。
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公开(公告)号:US5548019A
公开(公告)日:1996-08-20
申请号:US368654
申请日:1995-01-04
申请人: Shoichi Kawakami , Toru Okamoto , Nobuyuki Miyazaki , Bunji Uchino , Kazuyoshi Nomura , Hiroyuki Kato
发明人: Shoichi Kawakami , Toru Okamoto , Nobuyuki Miyazaki , Bunji Uchino , Kazuyoshi Nomura , Hiroyuki Kato
CPC分类号: C09D175/00 , C08F8/30 , C08G18/6279 , C08G18/706 , C08F2800/20
摘要: An aqueous coating composition comprising a polyisocyanate compound and a fluorine-containing copolymer having hydroxyl groups, wherein the fluorine-containing copolymer having hydroxyl groups is a copolymer comprising 20-80 mol % of polymer units derived from a fluoroolefin and 0.1-25 mol % of polymer units derived from a monomer having a hydrophilic site, said polyisocyante compound and said fluorine-containing copolymer both being dispersed in water.
摘要翻译: 一种包含多异氰酸酯化合物和含羟基的含氟共聚物的水性涂料组合物,其中具有羟基的含氟共聚物是包含20-80摩尔%的衍生自氟烯烃的聚合物单元和0.1-25摩尔% 衍生自具有亲水部位的单体的聚合物单元,所述聚异氰酸酯化合物和所述含氟共聚物都分散在水中。
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公开(公告)号:US06722156B2
公开(公告)日:2004-04-20
申请号:US10162703
申请日:2002-06-06
申请人: Kenji Tanimoto , Takeo Ueno , Masaaki Takegami , Kazuyoshi Nomura
发明人: Kenji Tanimoto , Takeo Ueno , Masaaki Takegami , Kazuyoshi Nomura
IPC分类号: F25B110
CPC分类号: F25B1/10 , F25B13/00 , F25B31/006 , F25B2313/0231 , F25B2313/0232 , F25B2313/0233 , F25B2313/02331 , F25B2400/0751 , F25B2400/22 , F25B2600/021 , Y02B30/741
摘要: A refrigeration system includes a chiller unit and a freezer unit. The freezer unit is provided with a freezing compressor for compressing a refrigerant in a total of two stages together with a compressor in an outdoor unit. The freezing compressor is formed by an inverter compressor. An oil separator is disposed on the discharge pipe of the freezing compressor. On the inlet pipe of the freezing compressor, a heat exchanger is provided for cooling an inverter with an refrigeration oil separated by the oil separator and a suction refrigerant.
摘要翻译: 制冷系统包括制冷机组和冷冻机组。 冷冻装置设有冷冻压缩机,用于将室内机组中的压缩机与总共两级的制冷剂一起压缩。 冷冻压缩机由变频压缩机形成。 油分离器设置在冷冻压缩机的排出管上。 在冷冻压缩机的入口管上设置热交换器,用于通过由油分离器和吸入制冷剂分离的冷冻机油来冷却逆变器。
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公开(公告)号:US06698217B2
公开(公告)日:2004-03-02
申请号:US10362625
申请日:2003-02-24
IPC分类号: F25B700
CPC分类号: F25B41/04 , F25B13/00 , F25B49/005 , F25B2400/075 , F25B2400/22 , F25B2500/06 , F25B2600/021 , F25D11/022 , Y02B30/741 , Y02B40/32
摘要: An object of the present invention is to continue operation as it is without inducing any degradation of performance of a compressor even if one of compressors is broken down in a refrigeration apparatus which can freely cool or warm the inside of a room, cool a refrigerating show case and cool a freezing show case. A refrigeration apparatus (1) comprises a non-inverter compressor (2A), a first inverter compressor (2B) and a second inverter compressor (2C). If the first inverter compressor (2B) is broken down during a cooling/freezing operation in which a cooling operation is performed by an inside heat exchanger (41), a refrigerating heat exchanger (45) and a freezing heat exchanger (51), the operation is continued by opening a solenoid valve (7a) disposed on a first sub pipe (23).
摘要翻译: 本发明的目的是继续操作,而不会导致压缩机的性能降低,即使在可以自由地冷却或温暖房间内部的制冷装置中压缩机中的一个被分解,冷却冷藏展示 案例并冷静一个冷冻展示柜。 制冷装置(1)包括非变换器压缩机(2A),第一变频压缩机(2B)和第二变频压缩机(2C)。 如果在内部热交换器(41),制冷热交换器(45)和冷冻热交换器(51)进行制冷运转的冷/冷运转时,第一变频压缩机(2B)被分解, 通过打开设置在第一副管道(23)上的电磁阀(7a)来继续操作。
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