公开(公告)号：US08973394B2

公开(公告)日：2015-03-10

申请号：US12655815

申请日：2010-01-07

申请人： Etsuhisa Yamada ,  Haruyuki Nishijima ,  Tomohiko Nakamura ,  Gouta Ogata ,  Hiroshi Oshitani ,  Ryoko Awa ,  Tatsuhiko Nishino ,  Mika Gocho

发明人： Etsuhisa Yamada ,  Haruyuki Nishijima ,  Tomohiko Nakamura ,  Gouta Ogata ,  Hiroshi Oshitani ,  Ryoko Awa ,  Tatsuhiko Nishino ,  Mika Gocho

IPC分类号： F25B15/00 ,  F25B41/00 ,  F25B5/00

CPC分类号： F25B41/00 ,  F25B5/00 ,  F25B2341/0011 ,  F25B2341/0013 ,  F25B2500/01 ,  F25B2500/18

摘要： In an evaporator unit, a first evaporator is coupled to an ejector to evaporate refrigerant flowing out of the ejector, a second evaporator is coupled to a refrigerant suction port of the ejector to evaporate the refrigerant to be drawn into the refrigerant suction port, a flow amount distributor is located to adjust a flow amount of the refrigerant distributed to the nozzle portion and a flow amount of the refrigerant distributed to the second evaporator, and a throttle mechanism is provided between the flow amount distributor and the second evaporator to decompress the refrigerant flowing into the second evaporator. The flow amount distributor is adapted as a gas-liquid separation portion and as a refrigerant distribution portion for distributing separated refrigerant into the nozzle portion and the second evaporator. Furthermore, the flow amount distributor and the ejector are arranged in line in a longitudinal direction of the ejector.

摘要翻译： 在蒸发器单元中，第一蒸发器联接到喷射器以蒸发从喷射器流出的制冷剂，第二蒸发器联接到喷射器的制冷剂吸入口，以蒸发要吸入制冷剂吸入口的制冷剂，流动 位于分配器的位置以调节分配到喷嘴部分的制冷剂的流量和分配到第二蒸发器的制冷剂的流量，并且在流量分配器和第二蒸发器之间设置有节流机构，以减压流动的制冷剂 进入第二蒸发器。 流量分配器适用于气液分离部分和用于将分离的制冷剂分配到喷嘴部分和第二蒸发器中的制冷剂分配部分。 此外，流量分配器和喷射器沿喷射器的纵向方向排成一列。

公开(公告)号：US20100175422A1

公开(公告)日：2010-07-15

申请号：US12655815

申请日：2010-01-07

申请人： Etsuhisa Yamada ,  Haruyuki Nishijima ,  Tomohiko Nakamura ,  Gouta Ogata ,  Hiroshi Oshitani ,  Ryoko Awa ,  Tatsuhiko Nishino ,  Mika Gocho

发明人： Etsuhisa Yamada ,  Haruyuki Nishijima ,  Tomohiko Nakamura ,  Gouta Ogata ,  Hiroshi Oshitani ,  Ryoko Awa ,  Tatsuhiko Nishino ,  Mika Gocho

IPC分类号： F25B43/00 ,  F25B41/06

CPC分类号： F25B41/00 ,  F25B5/00 ,  F25B2341/0011 ,  F25B2341/0013 ,  F25B2500/01 ,  F25B2500/18

摘要： In an evaporator unit, a first evaporator is coupled to an ejector to evaporate refrigerant flowing out of the ejector, a second evaporator is coupled to a refrigerant suction port of the ejector to evaporate the refrigerant to be drawn into the refrigerant suction port, a flow amount distributor is located to adjust a flow amount of the refrigerant distributed to the nozzle portion and a flow amount of the refrigerant distributed to the second evaporator, and a throttle mechanism is provided between the flow amount distributor and the second evaporator to decompress the refrigerant flowing into the second evaporator. The flow amount distributor is adapted as a gas-liquid separation portion and as a refrigerant distribution portion for distributing separated refrigerant into the nozzle portion and the second evaporator. Furthermore, the flow amount distributor and the ejector are arranged in line in a longitudinal direction of the ejector.

摘要翻译： 在蒸发器单元中，第一蒸发器联接到喷射器以蒸发从喷射器流出的制冷剂，第二蒸发器联接到喷射器的制冷剂吸入口，以蒸发要吸入制冷剂吸入口的制冷剂，流动 位于分配器的位置以调节分配到喷嘴部分的制冷剂的流量和分配到第二蒸发器的制冷剂的流量，并且在流量分配器和第二蒸发器之间设置有节流机构，以减压流动的制冷剂 进入第二蒸发器。 流量分配器适用于气液分离部分和用于将分离的制冷剂分配到喷嘴部分和第二蒸发器中的制冷剂分配部分。 此外，流量分配器和喷射器沿喷射器的纵向方向排成一列。

公开(公告)号：US20120318894A1

公开(公告)日：2012-12-20

申请号：US13593542

申请日：2012-08-24

申请人： Gouta Ogata ,  Haruyuki Nishijima ,  Etsuhisa Yamada ,  Mika Gocho

发明人： Gouta Ogata ,  Haruyuki Nishijima ,  Etsuhisa Yamada ,  Mika Gocho

IPC分类号： B05B1/00

CPC分类号： F25B41/00 ,  B60H2001/3298 ,  F04F5/10 ,  F04F5/24 ,  F04F5/54 ,  F25B2341/0012 ,  F25B2500/01

摘要： In an ejector, a refrigerant passage of a nozzle for decompressing and expanding refrigerant includes a throat portion in which a refrigerant passage sectional area is most reduced, a first taper portion arranged downstream of the throat portion to gradually enlarge the refrigerant passage sectional area, a second taper portion arranged downstream of the first taper portion to gradually enlarge the refrigerant passage sectional area, and an end taper portion arranged in a range from an outlet side of the second taper portion to a refrigerant jet port to gradually enlarge the refrigerant passage sectional area. Furthermore, a second expanding angle at the outlet side of the second taper portion is larger than the first expanding angle at the outlet side of the first taper portion, and an end expanding angle at the outlet side of the end taper portion is smaller than the second expanding angle.

摘要翻译： 在喷射器中，用于减压和膨胀制冷剂的喷嘴的制冷剂通道包括其中制冷剂通道截面积最小的喉部，设置在喉部部分下游的第一锥形部分，以逐渐增大制冷剂通道截面面积，a 第二锥形部分，其布置在第一锥形部分的下游，以逐渐增大制冷剂通道截面积;以及端部锥形部分，其从第二锥形部分的出口侧到制冷剂喷射口布置，以逐渐增大制冷剂通道截面面积 。 此外，第二锥形部的出口侧的第二扩径角大于第一锥形部的出口侧的第一扩张角，端部锥部的出口侧的端部扩展角小于 第二扩张角度。

公开(公告)号：US20090229305A1

公开(公告)日：2009-09-17

申请号：US12380791

申请日：2009-03-04

申请人： Etsuhisa Yamada ,  Haruyuki Nishijima ,  Gouta Ogata ,  Mika Gocho ,  Kenta Kayano

发明人： Etsuhisa Yamada ,  Haruyuki Nishijima ,  Gouta Ogata ,  Mika Gocho ,  Kenta Kayano

IPC分类号： F25B1/06 ,  F25B39/02

CPC分类号： F25B41/00 ,  F25B2341/0011 ,  F25B2500/19

摘要： A vapor compression refrigerating cycle apparatus includes a compressor, a radiator, first and second throttle devices, a flow distributor, an ejector, a suction passage, and first and second evaporators. The flow distributor separates refrigerant decompressed through the first throttle device into a first passage and a second passage. The first passage is in communication with a nozzle portion of the ejector. The second passage is in communication with a suction portion of the ejector through the suction passage. The second throttle device and the second evaporator are disposed on the suction passage. The flow distributor is configured to be capable of adjusting a ratio of a flow rate of refrigerant passing through the second passage to a flow rate of refrigerant passing through the first passage in accordance with a heat load of at least one of the radiator, the first evaporator and the second evaporator.

摘要翻译： 蒸汽压缩式制冷循环装置包括压缩机，散热器，第一和第二节流装置，流量分配器，喷射器，吸入通道以及第一和第二蒸发器。 流量分配器将通过第一节流装置减压的制冷剂分离成第一通道和第二通道。 第一通道与喷射器的喷嘴部分连通。 第二通道通过抽吸通道与喷射器的抽吸部分连通。 第二节流装置和第二蒸发器设置在吸入通道上。 流量分配器被配置为能够根据散热器中的至少一个的热负荷来调节通过第二通道的制冷剂的流量与通过第一通道的制冷剂的流量的比率，第一 蒸发器和第二蒸发器。

公开(公告)号：US20110061423A1

公开(公告)日：2011-03-17

申请号：US12807313

申请日：2010-09-01

申请人： Gouta Ogata ,  Haruyuki Nishijima ,  Etsuhisa Yamada ,  Mika Gocho

发明人： Gouta Ogata ,  Haruyuki Nishijima ,  Etsuhisa Yamada ,  Mika Gocho

IPC分类号： F25B1/06 ,  A62C31/02

CPC分类号： F25B41/00 ,  B60H2001/3298 ,  F04F5/10 ,  F04F5/24 ,  F04F5/54 ,  F25B2341/0012 ,  F25B2500/01

摘要： In an ejector, a refrigerant passage of a nozzle for decompressing and expanding refrigerant includes a throat portion in which a refrigerant passage sectional area is most reduced, a first taper portion arranged downstream of the throat portion to gradually enlarge the refrigerant passage sectional area, a second taper portion arranged downstream of the first taper portion to gradually enlarge the refrigerant passage sectional area, and an end taper portion arranged in a range from an outlet side of the second taper portion to a refrigerant jet port to gradually enlarge the refrigerant passage sectional area. Furthermore, a second expanding angle at the outlet side of the second taper portion is larger than the first expanding angle at the outlet side of the first taper portion, and an end expanding angle at the outlet side of the end taper portion is smaller than the second expanding angle.

摘要翻译： 在喷射器中，用于减压和膨胀制冷剂的喷嘴的制冷剂通道包括其中制冷剂通道截面积最小的喉部，设置在喉部部分下游的第一锥形部分，以逐渐增大制冷剂通道截面面积，a 第二锥形部分，其布置在第一锥形部分的下游，以逐渐增大制冷剂通道截面积;以及端部锥形部分，其从第二锥形部分的出口侧到制冷剂喷射口布置，以逐渐增大制冷剂通道截面面积 。 此外，第二锥形部的出口侧的第二扩径角大于第一锥形部的出口侧的第一扩张角，端部锥部的出口侧的端部扩展角小于 第二扩张角度。

公开(公告)号：US20090232665A1

公开(公告)日：2009-09-17

申请号：US12381336

申请日：2009-03-11

申请人： Mika Gocho ,  Yoshiaki Takano ,  Haruyuki Nishijima ,  Gouta Ogata ,  Etsuhisa Yamada ,  Teruyuki Hano ,  Kenta Kayano

发明人： Mika Gocho ,  Yoshiaki Takano ,  Haruyuki Nishijima ,  Gouta Ogata ,  Etsuhisa Yamada ,  Teruyuki Hano ,  Kenta Kayano

IPC分类号： F04F5/00

CPC分类号： F25B41/00 ,  F04F5/04 ,  F25B9/008 ,  F25B2309/061 ,  F25B2341/0011 ,  F25B2500/01

摘要： An ejector includes a nozzle for decompressing a fluid in any one state of a gas-liquid state, a liquid state and a super-critical state, and a body portion having a fluid suction port and a mixing and pressurizing portion. The ejector is provided with a suction passage through which a fluid drawn from the fluid suction port flows into the mixing and pressurizing portion. The suction passage is changed such that the fluid drawn from the fluid suction port is decompressed in the suction passage in iso-entropy. Alternatively, the suction passage is changed such that a flow velocity of the fluid flowing into the mixing and pressurizing portion from the suction passage is substantially equal to a flow velocity of the fluid flowing from a jet port of the nozzle into the mixing and pressurizing portion, or is equal to or larger than the sound velocity.

摘要翻译： 喷射器包括用于在气液状态，液态和超临界状态的任何一种状态下对流体进行减压的喷嘴和具有流体吸入口和混合和加压部分的主体部分。 喷射器设置有吸入通道，从流体吸入口抽出的流体流过该吸入通道流入混合和加压部分。 改变吸入通道，使得从吸入口抽出的流体在吸入通道中以等熵被减压。 或者，吸入通道被改变，使得从吸入通道流入混合和加压部分的流体的流速基本上等于从喷嘴的喷口流入混合和加压部分的流体的流速 ，或者等于或大于声速。

公开(公告)号：US20090229306A1

公开(公告)日：2009-09-17

申请号：US12380792

申请日：2009-03-04

申请人： Etsuhisa Yamada ,  Haruyuki Nishijima ,  Gouta Ogata ,  Mika Gocho ,  Hideya Matsui

发明人： Etsuhisa Yamada ,  Haruyuki Nishijima ,  Gouta Ogata ,  Mika Gocho ,  Hideya Matsui

IPC分类号： F25B1/06 ,  F25B39/02

CPC分类号： F25B41/00 ,  F25B40/00 ,  F25B2341/0011 ,  F25B2500/19

摘要： A vapor compression refrigerating cycle apparatus includes a compressor, a radiator, a first decompressing device, a second decompressing device, a flow distributor, an ejector, and a suction-side evaporator. The vapor compression refrigerating cycle apparatus is configured such that refrigerant pressure (P0) at an inlet of the first decompressing device, refrigerant pressure (P) at an inlet of a nozzle portion of the ejector, refrigerant pressure (P2) at an outlet of the nozzle portion satisfy a pressure relationship of 0.1×(P0−P2)≦(P0−P)≦0.6×(P0−P2). Alternative to or in addition to the pressure relationship, the vapor compression refrigerating cycle apparatus is configured such that a dryness of refrigerant at the inlet of the nozzle portion is in a range between 0.003 and 0.14.

摘要翻译： 蒸汽压缩式制冷循环装置包括压缩机，散热器，第一减压装置，第二减压装置，流量分配器，喷射器和吸入侧蒸发器。 蒸汽压缩式制冷循环装置，其特征在于，所述第一减压装置的入口处的制冷剂压力（P0），所述喷射器的喷嘴部的入口处的制冷剂压力（P），所述排出口的出口处的制冷剂压力（P2） 喷嘴部分满足0.1×（P0-P2）<=（P0-P）<= 0.6×（P0-P2）的压力关系。 蒸气压缩式制冷循环装置是与压力关系相关的或除了压力关系之外的构造，使得喷嘴部的入口处的制冷剂的干燥度在0.003〜0.14的范围内。

公开(公告)号：US20090229304A1

公开(公告)日：2009-09-17

申请号：US12380754

申请日：2009-03-03

申请人： Gouta Ogata ,  Haruyuki Nishijima ,  Etsuhisa Yamada ,  Mika Gocho ,  Hideya Matsui ,  Kenta Kayano ,  Teruyuki Hano

发明人： Gouta Ogata ,  Haruyuki Nishijima ,  Etsuhisa Yamada ,  Mika Gocho ,  Hideya Matsui ,  Kenta Kayano ,  Teruyuki Hano

IPC分类号： F25B1/06 ,  B05B1/34

CPC分类号： F25B41/00 ,  B60H2001/3298 ,  F25B5/04 ,  F25B2341/0012 ,  F25B2500/01

摘要： An ejector device includes a nozzle having an inner wall surface defining a circular cross-sectional fluid passage extending from an inlet to a jet port. Furthermore, the fluid passage has a throat portion at a position between the inlet and the jet port, and a passage expanding portion in which the cross-sectional area of the fluid passage is enlarged from the throat portion as toward downstream. The passage expanding portion includes a middle portion in which the inner wall surface is expanded in a fluid flow direction by a first expanding angle, and an outlet portion from a downstream end of the middle portion to the jet port, in which the inner wall surface is expanded in the fluid flow direction by a second expanding angle that is larger than the first expanding angle. The ejector device can be suitably used for a refrigeration cycle apparatus.

摘要翻译： 喷射器装置包括具有内壁表面的喷嘴，该内壁表面限定从入口延伸到喷射口的圆形横截面流体通道。 此外，流体通道在入口和喷射口之间的位置处具有喉部，并且具有通道扩张部，其中流体通道的横截面积朝向下游从喉部扩大。 通道膨胀部分包括一中间部分，其中内壁表面在流体流动方向上扩张第一扩展角，以及出口部分，其从中间部分的下游端到喷射口，其中内壁表面 在流体流动方向上扩大比第一扩展角大的第二扩展角。 喷射装置可适用于制冷循环装置。

公开(公告)号：US08191383B2

公开(公告)日：2012-06-05

申请号：US12380754

申请日：2009-03-03

申请人： Gouta Ogata ,  Haruyuki Nishijima ,  Etsuhisa Yamada ,  Mika Gocho ,  Hideya Matsui ,  Kenta Kayano ,  Teruyuki Hano

发明人： Gouta Ogata ,  Haruyuki Nishijima ,  Etsuhisa Yamada ,  Mika Gocho ,  Hideya Matsui ,  Kenta Kayano ,  Teruyuki Hano

IPC分类号： F25B1/06

CPC分类号： F25B41/00 ,  B60H2001/3298 ,  F25B5/04 ,  F25B2341/0012 ,  F25B2500/01

摘要： An ejector device includes a nozzle having an inner wall surface defining a circular cross-sectional fluid passage extending from an inlet to a jet port. Furthermore, the fluid passage has a throat portion at a position between the inlet and the jet port, and a passage expanding portion in which the cross-sectional area of the fluid passage is enlarged from the throat portion as toward downstream. The passage expanding portion includes a middle portion in which the inner wall surface is expanded in a fluid flow direction by a first expanding angle, and an outlet portion from a downstream end of the middle portion to the jet port, in which the inner wall surface is expanded in the fluid flow direction by a second expanding angle that is larger than the first expanding angle. The ejector device can be suitably used for a refrigeration cycle apparatus.

摘要翻译： 喷射器装置包括具有内壁表面的喷嘴，该内壁表面限定从入口延伸到喷射口的圆形横截面流体通道。 此外，流体通道在入口和喷射口之间的位置处具有喉部，并且具有通道扩张部，其中流体通道的横截面积朝向下游从喉部扩大。 通道膨胀部分包括一中间部分，其中内壁表面在流体流动方向上扩张第一扩展角，以及出口部分，其从中间部分的下游端到喷射口，其中内壁表面 在流体流动方向上扩大比第一扩展角大的第二扩展角。 喷射装置可适用于制冷循环装置。

公开(公告)号：US08523091B2

公开(公告)日：2013-09-03

申请号：US13593542

申请日：2012-08-24

申请人： Gouta Ogata ,  Haruyuki Nishijima ,  Etsuhisa Yamada ,  Mika Gocho

发明人： Gouta Ogata ,  Haruyuki Nishijima ,  Etsuhisa Yamada ,  Mika Gocho

IPC分类号： B01B1/04

CPC分类号： F25B41/00 ,  B60H2001/3298 ,  F04F5/10 ,  F04F5/24 ,  F04F5/54 ,  F25B2341/0012 ,  F25B2500/01

摘要： In an ejector, a refrigerant passage of a nozzle for decompressing and expanding refrigerant includes a throat portion in which a refrigerant passage sectional area is most reduced, a first taper portion arranged downstream of the throat portion to gradually enlarge the refrigerant passage sectional area, a second taper portion arranged downstream of the first taper portion to gradually enlarge the refrigerant passage sectional area, and an end taper portion arranged in a range from an outlet side of the second taper portion to a refrigerant jet port to gradually enlarge the refrigerant passage sectional area. Furthermore, a second expanding angle at the outlet side of the second taper portion is larger than the first expanding angle at the outlet side of the first taper portion, and an end expanding angle at the outlet side of the end taper portion is smaller than the second expanding angle.

摘要翻译： 在喷射器中，用于减压和膨胀制冷剂的喷嘴的制冷剂通道包括其中制冷剂通道截面积最小的喉部，设置在喉部部分下游的第一锥形部分，以逐渐增大制冷剂通道截面面积，a 第二锥形部分，其布置在第一锥形部分的下游，以逐渐增大制冷剂通道截面积;以及端部锥形部分，其从第二锥形部分的出口侧到制冷剂喷射口布置，以逐渐增大制冷剂通道截面面积 。 此外，第二锥形部的出口侧的第二扩径角大于第一锥形部的出口侧的第一扩张角，端部锥部的出口侧的端部扩展角小于 第二扩张角度。