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1. 发明授权

US11060769B2 Refrigerator 有权
公开(公告)号：US11060769B2
公开(公告)日：2021-07-13
申请号：US16199950
申请日：2018-11-26
申请人： LG ELECTRONICS INC.
发明人： Minkyu Oh
IPC分类号： F25B1/00 , F25B1/02 , F25B1/04 , F25B1/047 , F25B1/053 , F25B1/06 , F25B1/08 , F25B1/10 , F25B3/00 , F25B5/00 , F25B5/02 , F25B5/04 , F25B6/00 , F25B6/02 , F25B6/04 , F25B7/00 , F25B9/00 , F25B9/02 , F25B9/04 , F25B9/06 , F25B9/08 , F25B9/10 , F25B9/12 , F25B9/14 , F25B11/00 , F25B11/02 , F25B11/04 , F25B13/00 , F25B15/00 , F25B15/02 , F25B15/04 , F25B15/06 , F25B15/08 , F25B15/09 , F25B15/10 , F25B15/12 , F25B15/14 , F25B15/16 , F25B17/00 , F25B17/02 , F25B17/04 , F25B17/06 , F25B17/08 , F25B17/10 , F25B17/12 , F25B19/00 , F25B19/02 , F25B19/04 , F25B21/00 , F25B21/02 , F25B21/04 , F25B23/00 , F25B25/00 , F25B25/02 , F25B27/00 , F25B27/02 , F25B29/00 , F25B30/00 , F25B30/02 , F25B30/04 , F25B30/06 , F25B31/00 , F25B31/02 , F25B33/00 , F25B35/00 , F25B35/02 , F25B35/04 , F25B37/00 , F25B39/00 , F25B39/02 , F25B39/04 , F25B40/00 , F25B40/02 , F25B40/04 , F25B40/06 , F25B41/00 , F25B41/10 , F25B41/20 , F25B41/22 , F25B41/24 , F25B41/26 , F25B41/28 , F25B41/30 , F25B41/31 , F25B41/315 , F25B41/32 , F25B41/325 , F25B41/33 , F25B41/335 , F25B41/34 , F25B41/345 , F25B41/35 , F25B41/355 , F25B41/36 , F25B41/37 , F25B41/375 , F25B41/38 , F25B41/385 , F25B41/39 , F25B41/40 , F25B41/42 , F25B41/45 , F25B41/48 , F25B43/00 , F25B43/02 , F25B43/04 , F25B45/00 , F25B47/00 , F25B47/02 , F25B49/00 , F25B49/02 , F25B49/04 , F25D31/00 , F25D17/06 , F25D17/04
摘要： A refrigerator includes a main body that has a storage chamber and a drying chamber; a thermoelectric module that includes a heat absorber and a heat dissipater; a cooling fan that circulates air in the storage chamber to the heat absorber and the storage chamber; a heat-dissipating fan that blows air to the heat dissipater; an air guide that has a passage for guiding air heated by the heat dissipater to the drying chamber; a heater that is disposed in the passage; and a damper that controls a flow of air in the passage between the heat-dissipating fan and the heater. Heat of the heat dissipater transfers to the drying chamber through the passage of the air guide and the damper, thereby being able to dry an object to be dried.

2. 发明授权

US09469407B2 Fluid temperature control installation for rotorcraft, associating a system for cooling a power plant with a system for heating a cabin 有权
标题翻译：用于旋翼航空器的流体温度控制装置，将用于冷却发电厂的系统与用于加热舱室的系统相关联
公开(公告)号：US09469407B2
公开(公告)日：2016-10-18
申请号：US13741551
申请日：2013-01-15
申请人： AIRBUS HELICOPTERS
发明人： Vincent Pomme
IPC分类号： F25B27/00 , B64D13/08 , B64D13/06 , F25B9/06 , F25B19/02
CPC分类号： B64D13/08 , B64D13/06 , B64D2013/0648 , B64D2013/0674 , F25B9/065 , F25B19/02 , F25B2309/005 , Y02T50/56
摘要： A fluid temperature control installation for a rotorcraft, the installation comprising a system for cooling a main transmission (3) and a system for temperature control of the ambient air (32) of a cabin (16). A heat exchanger (8) is fitted with a bladeless ventilator (9). A source air stream (11) generated by an accessory compressor (5) driven by the main transmission (3) passes through the heat exchanger (8) where it takes heat. The source air stream (11) is distributed selectively to the bladeless ventilator (9) to generate a cooling air stream (13) passing through the heat exchanger (8), and/or is distributed to the cabin (16) after passing through the heat exchanger (8) in order to heat the ambient air (32) of the cabin.
摘要翻译：一种用于旋翼航空器的流体温度控制装置，该装置包括用于冷却主变速器（3）的系统和用于温度控制舱室（16）的环境空气（32）的系统。热交换器（8）装有无风扇通风机（9）。由主变速器（3）驱动的辅助压缩机（5）产生的原料气流（11）通过热交换器（8）。源气流（11）选择性地分配到无风扇通风机（9）以产生通过热交换器（8）的冷却空气流（13），和/或在通过所述热交换器热交换器（8），以便加热舱室的环境空气（32）。

3. 发明授权

US08910486B2 Expander for stirling engines and cryogenic coolers 有权
标题翻译：用于斯特林发动机和低温冷却器的膨胀机
公开(公告)号：US08910486B2
公开(公告)日：2014-12-16
申请号：US12841280
申请日：2010-07-22
申请人： Uri Bin-Nun , Jose Pascual Sanchez , Xiaoyuan Lei , Usha Virk
发明人： Uri Bin-Nun , Jose Pascual Sanchez , Xiaoyuan Lei , Usha Virk
IPC分类号： F25B9/00 , F25B19/02 , F25B9/14
CPC分类号： F25B9/14 , F02G2250/31 , F25B2309/003
摘要： The invention is directed to an improved cryogenic cooler with an expander where the regenerator matrix is decoupled from the displacer or piston, thereby allowing the design of each to be optimized substantially independently. The regenerator matrix is preferably positioned spaced apart from the displacer and can be designed to enhance thermal exchanges and flow rates of the working gas. In one embodiment, the regenerator matrix has a serpentine shape or U-shape disposed around the displacer and the cold finger. Preferably, the regenerator matrix is static. The thermal lengths of the cold finger and/or the displacer can be extended by minimizing their geometrical lengths. Additionally, the structural integrity or stiffness of the cold finger and/or displacer can be strengthened.
摘要翻译：本发明涉及一种具有膨胀器的改进的低温冷却器，其中再生器基体与置换器或活塞脱耦接，从而允许各自的设计基本独立地优化。再生器基体优选地与置换器间隔开，并且可以设计成增强工作气体的热交换和流速。在一个实施例中，再生器基体具有围绕置换器和冷指状物设置的蛇形形状或U形形状。优选地，再生器矩阵是静态的。冷指和/或置换器的热长度可以通过使其几何长度最小化来延长。此外，可以加强冷指和/或置换器的结构完整性或刚度。

4. 发明授权

US07841193B2 Refrigerant flow-amount controlling device and ejector refrigerant cycle system using the same 有权
标题翻译：制冷剂流量控制装置和使用其的喷射器制冷剂循环系统
公开(公告)号：US07841193B2
公开(公告)日：2010-11-30
申请号：US11708165
申请日：2007-02-15
申请人： Shin Nishida , Takayuki Sugiura , Hirotsugu Takeuchi
发明人： Shin Nishida , Takayuki Sugiura , Hirotsugu Takeuchi
IPC分类号： F25B19/02
CPC分类号： F25B41/00 , B60H2001/3298 , F25B5/00 , F25B9/008 , F25B40/00 , F25B2309/061 , F25B2341/0011 , F25B2341/0012 , F25B2341/0013 , F25B2500/18 , F25B2600/023 , F25B2700/19
摘要： A refrigerant flow-amount controlling device for an ejector refrigerant cycle system includes an ejector having a nozzle for decompressing refrigerant of a first stream of a branch portion, a first evaporator for evaporating refrigerant flowing out of the ejector, a throttle member for decompressing refrigerant of a second stream of the branch portion, a second evaporator disposed downstream of the throttle member and upstream of a refrigerant suction portion of the ejector, and an adjusting mechanism having a temperature-sensitive deformation member that is deformed in accordance with a variation in a refrigerant temperature of the cycle system to adjust one refrigerant passage area of the nozzle portion and the throttle means. The adjusting mechanism can be provided to adjust a flow ratio of a refrigerant amount decompressed by the nozzle portion of the ejector and a refrigerant amount drawn into the refrigerant suction port of the ejector.
摘要翻译：喷射器制冷剂循环系统的制冷剂流量控制装置包括具有用于对分支部分的第一流的制冷剂进行减压的喷嘴的喷射器，用于蒸发从喷射器流出的制冷剂的第一蒸发器，用于使流出喷射器的制冷剂减压的节流部件分支部分的第二流，设置在节流部件的下游并且在喷射器的制冷剂吸入部分的上游的第二蒸发器，以及具有根据制冷剂变化而变形的温度敏感变形部件的调节机构循环系统的温度来调节喷嘴部分和节流装置的一个制冷剂通道面积。可以设置调节机构，以调节由喷射器的喷嘴部减压的制冷剂量和吸入喷射器的制冷剂吸入口的制冷剂量的流量比。

5. 发明授权

US07354434B2 Method of controlling the temperature of gasses passing through a Joule-Thomson orifice 失效
标题翻译：控制通过焦耳汤姆森孔口的气体温度的方法
公开(公告)号：US07354434B2
公开(公告)日：2008-04-08
申请号：US11097306
申请日：2005-04-04
申请人： Roni Zvuloni , Mordechai Bliweis , Doris Schechter , Uri Amir , James McGlone
发明人： Roni Zvuloni , Mordechai Bliweis , Doris Schechter , Uri Amir , James McGlone
IPC分类号： A61B18/18 , F25B19/02
CPC分类号： A61B18/02 , A61B2017/00084 , A61B2017/00101 , A61B2017/22002 , A61B2017/22051 , A61B2018/00041 , A61B2018/0022 , A61B2018/0212 , A61B2018/0262 , F25B9/02
摘要： The present invention relates to apparatus, systems, and methods utilizing cryogenic cooling in an angioplasty balloon catheter for treatment of arterial stenosis and prevention of restenosis. More particularly, the present invention relates to an angioplasty balloon catheter utilizing expansion of compressed gas to effect Joule-Thomson cooling of an angioplasty balloon, and optionally further incorporating external temperature sensors utilizable to identify a locus for treatment of arterial stenosis. The present invention further relates to angioplasty treatment systems incorporating such a catheter, and to cryogenic angioplasty methods for treating arterial stenosis and discouraging restenosis.
摘要翻译：本发明涉及在用于治疗动脉狭窄和预防再狭窄的血管成形术球囊导管中利用低温冷却的装置，系统和方法。更具体地说，本发明涉及利用压缩气体的扩张来实现血管成形术球囊的焦耳 - 汤姆森冷却的血管成形术球囊导管，并且可选地还包括可用于识别用于治疗动脉狭窄的部位的外部温度传感器。本发明还涉及包含这种导管的血管成形术治疗系统以及用于治疗动脉狭窄和阻止再狭窄的低温血管成形术方法。

6. 发明授权

US07340908B2 Refrigerant cycle device for vehicle 有权
标题翻译：车辆制冷循环装置
公开(公告)号：US07340908B2
公开(公告)日：2008-03-11
申请号：US11284179
申请日：2005-11-21
申请人： Hiroshi Oshitani , Katsuya Kusano , Hirokazu Imai , Hirotsugu Takeuchi , Mika Saito
发明人： Hiroshi Oshitani , Katsuya Kusano , Hirokazu Imai , Hirotsugu Takeuchi , Mika Saito
IPC分类号： F25B19/02 , F25B1/06
CPC分类号： B60H1/00571 , B60H2001/3297 , B60H2001/3298 , F25B41/00 , F25B2309/061 , F25B2341/0012 , F25B2400/12 , F25B2600/023
摘要： A vapor-compression refrigerant cycle device includes an ejector, a first evaporator for evaporating refrigerant flowing out of a pressure-increasing portion of the ejector, a second evaporator for evaporating refrigerant to be drawn into a refrigerant suction port of the ejector. In the refrigerant cycle device, a refrigerant suction pipe is connected to a refrigerant outlet of the second evaporator and the refrigerant suction port of the ejector, and the surface of the refrigerant suction pipe is covered by an insulating member. Furthermore, the ejector, the first evaporator, the second evaporator and the refrigerant suction pipe are arranged in a passenger compartment of the vehicle.
摘要翻译：蒸汽压缩式制冷剂循环装置包括喷射器，用于蒸发从喷射器的增压部分流出的制冷剂的第一蒸发器，用于蒸发要吸入喷射器的制冷剂吸入口的制冷剂的第二蒸发器。在制冷剂循环装置中，制冷剂吸入管连接到第二蒸发器的制冷剂出口和喷射器的制冷剂吸入口，制冷剂吸入管的表面被绝缘构件覆盖。此外，喷射器，第一蒸发器，第二蒸发器和制冷剂吸入管布置在车辆的乘客舱中。

7. 发明申请

US20070180852A1 Ejector refrigerant cycle device and control method thereof 审中-公开
标题翻译：喷射式制冷剂循环装置及其控制方法
公开(公告)号：US20070180852A1
公开(公告)日：2007-08-09
申请号：US11637976
申请日：2006-12-13
申请人： Takayuki Sugiura , Hirotsugu Takeuchi
发明人： Takayuki Sugiura , Hirotsugu Takeuchi
IPC分类号： F25B19/02 , F25B1/06
CPC分类号： F25B41/00 , B60H2001/3298 , F25B9/008 , F25B2309/061 , F25B2341/0012 , F25B2400/23 , F25B2600/2515
摘要： An ejector refrigerant cycle device includes an ejector that has a nozzle portion for reducing pressure of refrigerant on a downstream side of a radiator to expand the refrigerant, and a refrigerant suction port from which refrigerant is drawn by a high-velocity refrigerant flow jetted from the nozzle portion, an evaporator that evaporates refrigerant and flows out the evaporated refrigerant to the refrigerant suction port, a flow amount changing unit that changes a refrigerant flow amount flowing into the evaporator, and a pressure abnormality detecting portion for detecting a pressure abnormality of a high-pressure refrigerant on an upstream side of the nozzle portion. In the ejector refrigerant cycle device, when the pressure abnormality detecting portion detects the pressure abnormality, the flow amount changing unit makes the refrigerant flow amount flowing into the evaporator larger than that in a normal pressure state of the high-pressure refrigerant.
摘要翻译：喷射器制冷剂循环装置包括喷射器，喷射器具有喷嘴部分，用于降低散热器下游侧的制冷剂的压力以使制冷剂膨胀;以及制冷剂吸入口，制冷剂从其从该喷嘴部分喷射的高速制冷剂流喷嘴部分，蒸发制冷剂并将蒸发的制冷剂流出到制冷剂吸入口的蒸发器，改变流入蒸发器的制冷剂流量的流量改变单元和用于检测高压异常的压力异常检测部分在喷嘴部的上游侧压制冷剂。在喷射器制冷剂循环装置中，当压力异常检测部检测到压力异常时，流量变更单元使流入蒸发器的制冷剂流量大于高压制冷剂的常压状态。

8. 发明申请

US20070028646A1 Ejector refrigeration cycle 有权
标题翻译：喷射器制冷循环
公开(公告)号：US20070028646A1
公开(公告)日：2007-02-08
申请号：US11497032
申请日：2006-07-31
申请人： Hiroshi Oshitani , Hirotsugu Takeuchi , Haruyuki Nishijima , Makoto Ikegami , Naoki Yokoyama
发明人： Hiroshi Oshitani , Hirotsugu Takeuchi , Haruyuki Nishijima , Makoto Ikegami , Naoki Yokoyama
IPC分类号： F25B19/02 , F25B1/06
CPC分类号： F25B41/00 , B60H2001/3298 , F25B40/00 , F25B41/067 , F25B2341/0012 , F25B2341/0661 , F25B2400/052 , F25B2500/11
摘要： A branch passage, which is branched at a point on an upstream side of an ejector, is connected to a refrigerant suction inlet of the ejector. An evaporator is arranged in the branch passage, and a capillary tube is arranged on an upstream side of the evaporator.
摘要翻译：在喷射器的上游侧的点分支的分支通路与喷射器的制冷剂吸入口连接。蒸发器设置在分支通道中，毛细管布置在蒸发器的上游侧。

9. 发明申请

US20070028630A1 Ejector-type cycle 有权
标题翻译：喷射式循环
公开(公告)号：US20070028630A1
公开(公告)日：2007-02-08
申请号：US11500260
申请日：2006-08-07
申请人： Etsuhisa Yamada , Hirotsugu Takeuchi , Haruyuki Nishijima
发明人： Etsuhisa Yamada , Hirotsugu Takeuchi , Haruyuki Nishijima
IPC分类号： F25B19/02 , F25B1/06
CPC分类号： F25B41/00 , B60H2001/3298 , F25B5/00 , F25B2341/0011 , F25B2341/0013
摘要： An ejector-type cycle with refrigeration ability improved by utilizing an evaporator efficiently is provided. An ejector-type cycle (50, 60), for exchanging heat using a refrigerant, comprises: a compressor (1) for compressing the refrigerant; a condenser (2) for condensing the compressed refrigerant, a first orifice (3) arranged downstream of the condenser; an ejector (6) arranged downstream of the first orifice and capable of exhibiting a sucking force at the inlet (64) thereof; a first evaporator (7) for exchanging heat with an external fluid by passing the refrigerant and having a refrigerant outlet connected to the inlet (64) of the ejector; a dryness degree adjusting mechanism (4) interposed between the first orifice and the ejector and connected to the ejector and the first evaporator so as to supply the refrigerant thereto, and a second orifice (5) arranged downstream of and connected to the dryness degree adjusting mechanism.
摘要翻译：提供了一种利用蒸发器有效提高制冷能力的喷射式循环。一种用于使用制冷剂进行热交换的喷射器型循环（50,60），包括：用于压缩制冷剂的压缩机（1）; 用于冷凝压缩的制冷剂的冷凝器（2），布置在冷凝器下游的第一孔（3）喷射器（6），其布置在所述第一孔口的下游并且能够在其入口（64）处显示吸力; 第一蒸发器（7），其通过使制冷剂通过并且具有连接到喷射器的入口（64）的制冷剂出口与外部流体进行热交换; 干燥度调节机构（4），其插入在所述第一孔口和所述喷射器之间并连接到所述喷射器和所述第一蒸发器以便供应制冷剂;以及第二孔口（5），布置在所述干燥度调节机制。

10. 发明申请

US20050245943A1 Method of controlling the temperature of gasses passing through a Joule-Thomson orifice 失效
标题翻译：控制通过焦耳汤姆森孔口的气体温度的方法
公开(公告)号：US20050245943A1
公开(公告)日：2005-11-03
申请号：US11097306
申请日：2005-04-04
申请人： Roni Zvuloni , Mordechai Bliweis , Doris Schechter , Uri Amir , James McGlone
发明人： Roni Zvuloni , Mordechai Bliweis , Doris Schechter , Uri Amir , James McGlone
IPC分类号： A61F7/00 , A61B17/00 , A61B17/22 , A61B17/42 , A61B17/46 , A61B18/02 , A61B18/18 , A61D1/10 , A61F7/12 , A61M25/00 , F25B9/02 , F25B19/02
CPC分类号： A61B18/02 , A61B2017/00084 , A61B2017/00101 , A61B2017/22002 , A61B2017/22051 , A61B2018/00041 , A61B2018/0022 , A61B2018/0212 , A61B2018/0262 , F25B9/02
摘要： The present invention relates to apparatus, systems, and methods utilizing cryogenic cooling in an angioplasty balloon catheter for treatment of arterial stenosis and prevention of restenosis. More particularly, the present invention relates to an angioplasty balloon catheter utilizing expansion of compressed gas to effect Joule-Thomson cooling of an angioplasty balloon, and optionally further incorporating external temperature sensors utilizable to identify a locus for treatment of arterial stenosis. The present invention further relates to angioplasty treatment systems incorporating such a catheter, and to cryogenic angioplasty methods for treating arterial stenosis and discouraging restenosis.
摘要翻译：本发明涉及在用于治疗动脉狭窄和预防再狭窄的血管成形术球囊导管中利用低温冷却的装置，系统和方法。更具体地说，本发明涉及利用压缩气体的扩张来实现血管成形术球囊的焦耳 - 汤姆森冷却的血管成形术球囊导管，并且可选地还包括可用于识别用于治疗动脉狭窄的部位的外部温度传感器。本发明还涉及包含这种导管的血管成形术治疗系统以及用于治疗动脉狭窄和阻止再狭窄的低温血管成形术方法。

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