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1.发明授权Expander-integrated compressor and refrigeration-cycle apparatus with the same 失效膨胀机一体式压缩机和制冷循环装置相同公开(公告)号:US08104307B2
公开(公告)日:2012-01-31
申请号:US12438232
申请日:2007-08-21
申请人: Hiroshi Hasegawa , Takeshi Ogata , Masaru Matsui , Atsuo Okaichi , Masanobu Wada , Yasufumi Takahashi
发明人: Hiroshi Hasegawa , Takeshi Ogata , Masaru Matsui , Atsuo Okaichi , Masanobu Wada , Yasufumi Takahashi
CPC分类号: F04C23/003 , F01C13/04 , F04B39/02 , F04C23/008 , F04C23/02 , F04C29/023 , F04C29/025 , F04C2240/603 , F04C2240/809
摘要: An expander-integrated compressor (5A) has a compression mechanism (21) for compressing a refrigerant and an expansion mechanism (22) for expanding the refrigerant. The compression mechanism (21) is located above the expansion mechanism (22) inside a closed casing (10) and shares a rotating shaft (36) with the expansion mechanism (22). An oil pump (37) is provided at the lower end of the rotating shaft (36). The oil pump (37) is immersed in oil in an oil reservoir (15). Usually, the oil is placed in the oil reservoir (15) in such a manner that the oil level (OL) is located above a lower end portion (34e) of a vane (34a) of a first expansion section (30a). More preferably, the oil is placed in such a manner that the expansion mechanism (22) is immersed in the oil. An oil supply passage (38) for guiding the oil to the compression mechanism (21) is formed inside the rotating shaft (36). A suction port (37a) of the oil pump (37) is provided below the lower end portion (34e) of the vane (34a).
摘要翻译: 膨胀机一体式压缩机5A具有用于压缩制冷剂的压缩机构21和用于使制冷剂膨胀的膨胀机构22。 压缩机构21位于密闭壳体10的内部的膨胀机构22的上方,与膨胀机构22共用旋转轴36。 在旋转轴(36)的下端设有油泵(37)。 油泵(37)浸入油储存器(15)中。 通常,将油以使油位(OL)位于第一膨胀部(30a)的叶片(34a)的下端部(34e)的上方的方式配置在储油器(15)中。 更优选地,油以膨胀机构(22)浸入油中的方式设置。 在旋转轴(36)的内部形成有用于将油引导到压缩机构(21)的供油通路(38)。 油泵(37)的吸入口(37a)设置在叶片(34a)的下端部(34e)的下方。
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公开(公告)号:US08056361B2
公开(公告)日:2011-11-15
申请号:US12438395
申请日:2007-08-06
申请人: Masaru Matsui , Hiroshi Hasegawa , Atsuo Okaichi , Takeshi Ogata , Masanobu Wada , Yasufumi Takahashi
发明人: Masaru Matsui , Hiroshi Hasegawa , Atsuo Okaichi , Takeshi Ogata , Masanobu Wada , Yasufumi Takahashi
CPC分类号: F01C1/3564 , F01C11/002 , F01C21/108 , F04C2250/10 , F25B1/04 , F25B1/10
摘要: A multi-stage rotary-type fluid machine may be configured as what is called a two-stage rotary expander, in which a refrigerant expands in an expansion chamber having a first discharge side space (115b) of a first cylinder (105), a second suction side space (116a) of a second cylinder (106), and a communication hole (104a) for allowing communication between the two spaces (115b, 116a). The first cylinder (105) and the second cylinder (106) are partitioned by an intermediate plate (104). The communication hole (104a) is formed so as to penetrate through the intermediate plate (104). The opening shape and location of the communication hole (104a) are set so that direct blow-through of the refrigerant from a suction port (105b) to a discharge port (106b) cannot occur at any rotation angle of a shaft (103).
摘要翻译: 多级旋转式流体机械可以被构造为所谓的两级旋转式膨胀机,其中制冷剂在具有第一气缸(105)的第一排出侧空间(115b)的膨胀室中膨胀, 第二气缸(106)的第二吸入侧空间(116a)和用于允许两个空间(115b,116a)之间的连通的连通孔(104a)。 第一气缸(105)和第二气缸(106)由中间板(104)分隔开。 连通孔(104a)形成为穿过中间板(104)。 连通孔(104a)的开口形状和位置被设定为使得制冷剂从吸入口(105b)到排出口(106b)的直接吹胀不会发生在轴(103)的任何旋转角度。
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公开(公告)号:US20090297382A1
公开(公告)日:2009-12-03
申请号:US12302151
申请日:2007-04-24
申请人: Atsuo Okaichi , Yasufumi Takahashi , Hiroshi Hasegawa , Masaru Matsui , Takeshi Ogata , Masanobu Wada
发明人: Atsuo Okaichi , Yasufumi Takahashi , Hiroshi Hasegawa , Masaru Matsui , Takeshi Ogata , Masanobu Wada
CPC分类号: F01C11/004 , F01C1/3564 , F01C11/008 , F01C21/04 , F04C18/0215 , F04C23/008 , F04C2240/809
摘要: The expander-compressor unit 70 includes the closed casing 1, the expansion mechanism 4 disposed in the closed casing 1 in such a manner that a surrounding space thereof is filled with the oil 60, the compression mechanism 2 disposed in the closed casing 1 in such a manner that the compression mechanism is positioned higher than the oil level 60p, the shaft 5 for coupling the compression mechanism 2 and the expansion mechanism 4 to each other, and the oil flow suppressing member 50 disposed in the surrounding space of the expansion mechanism 4 so that the space 55a filled with the oil 60 is formed between the expansion mechanism 4 and the oil flow suppressing member 50.
摘要翻译: 膨胀机一体式压缩机70包括:封闭壳体1,膨胀机构4,其设置在密闭容器1内,使其周围的空间填充有油60,压缩机构2设置在密闭容器1内 压缩机构的位置高于油位60p,用于将压缩机构2和膨胀机构4联接的轴5以及设置在膨胀机构4的周围空间中的油流动抑制部件50 使得在膨胀机构4和油流动抑制构件50之间形成有填充有油60的空间55a。
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公开(公告)号:US08177532B2
公开(公告)日:2012-05-15
申请号:US12302151
申请日:2007-04-24
申请人: Atsuo Okaichi , Yasufumi Takahashi , Hiroshi Hasegawa , Masaru Matsui , Takeshi Ogata , Masanobu Wada
发明人: Atsuo Okaichi , Yasufumi Takahashi , Hiroshi Hasegawa , Masaru Matsui , Takeshi Ogata , Masanobu Wada
CPC分类号: F01C11/004 , F01C1/3564 , F01C11/008 , F01C21/04 , F04C18/0215 , F04C23/008 , F04C2240/809
摘要: The expander-compressor unit 70 includes the closed casing 1, the expansion mechanism 4 disposed in the closed casing 1 so that a surrounding space thereof is filled with the oil, the compression mechanism 2 disposed in the closed casing 1 so as to be positioned higher than the oil level, the shaft 5 for coupling the compression mechanism and the expansion mechanism 4 to each other, and the oil flow suppressing member 50 disposed in the surrounding space of the expansion mechanism 4 so that the space 55a filled with the oil is formed between the expansion mechanism 4 and the oil flow suppressing member 50. Thereby the flow of the oil filling the inner reserving space 55a is suppressed, and thus, heat transfer from the high temperature oil to the low temperature expansion mechanism can be reduced.
摘要翻译: 膨胀机一体型压缩机70包括:封闭壳体1,膨胀机构4,设置在密闭容器1中,使其周围的空间充满油,压缩机构2设置在密闭容器1内,使其位于更高的位置 形成用于将压缩机构和膨胀机构4连结的轴5和设置在膨胀机构4的周围空间中的油流抑制部件50,从而形成填充有油的空间55a 膨胀机构4与油流量抑制部件50之间。因此,能够抑制填充内部储存空间55a的油的流动,能够降低从高温油向低温膨胀机构的传热。
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5.发明申请公开(公告)号:US20100180628A1
公开(公告)日:2010-07-22
申请号:US12438232
申请日:2007-08-21
申请人: Hiroshi Hasegawa , Takeshi Ogata , Masaru Matsui , Atsuo Okaichi , Masanobu Wada , Yasufumi Takahashi
发明人: Hiroshi Hasegawa , Takeshi Ogata , Masaru Matsui , Atsuo Okaichi , Masanobu Wada , Yasufumi Takahashi
CPC分类号: F04C23/003 , F01C13/04 , F04B39/02 , F04C23/008 , F04C23/02 , F04C29/023 , F04C29/025 , F04C2240/603 , F04C2240/809
摘要: An expander-integrated compressor (5A) has a compression mechanism (21) for compressing a refrigerant and an expansion mechanism (22) for expanding the refrigerant. The compression mechanism (21) is located above the expansion mechanism (22) inside a closed casing (10) and shares a rotating shaft (36) with the expansion mechanism (22). An oil pump (37) is provided at the lower end of the rotating shaft (36). The oil pump (37) is immersed in oil in an oil reservoir (15). Usually, the oil is placed in the oil reservoir (15) in such a manner that the oil level (OL) is located above a lower end portion (34e) of a vane (34a) of a first expansion section (30a). More preferably, the oil is placed in such a manner that the expansion mechanism (22) is immersed in the oil. An oil supply passage (38) for guiding the oil to the compression mechanism (21) is formed inside the rotating shaft (36). A suction port (37a) of the oil pump (37) is provided below the lower end portion (34e) of the vane (34a).
摘要翻译: 膨胀机一体式压缩机5A具有用于压缩制冷剂的压缩机构21和用于使制冷剂膨胀的膨胀机构22。 压缩机构21位于密闭壳体10的内部的膨胀机构22的上方,与膨胀机构22共用旋转轴36。 在旋转轴(36)的下端设有油泵(37)。 油泵(37)浸入油储存器(15)中。 通常,将油以使油位(OL)位于第一膨胀部(30a)的叶片(34a)的下端部(34e)的上方的方式配置在储油器(15)中。 更优选地,油以膨胀机构(22)浸入油中的方式设置。 在旋转轴(36)的内部形成有用于将油引导到压缩机构(21)的供油通路(38)。 油泵(37)的吸入口(37a)设置在叶片(34a)的下端部(34e)的下方。
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公开(公告)号:US20090241581A1
公开(公告)日:2009-10-01
申请号:US12091838
申请日:2006-10-25
申请人: Hiroshi Hasegawa , Masaru Matsui , Atsuo Okaichi , Takeshi Ogata , Masanobu Wada
发明人: Hiroshi Hasegawa , Masaru Matsui , Atsuo Okaichi , Takeshi Ogata , Masanobu Wada
CPC分类号: F01C20/16 , F01C1/3564 , F01C11/002 , F01C11/008 , F01C13/04 , F25B1/04 , F25B9/008 , F25B9/06 , F25B2309/061
摘要: An expander of the present invention includes a plurality of suction ports for guiding a working fluid to a working chamber, and the plurality of suction ports includes a first suction port (71) and a second suction port (73) with a differential pressure valve (72). The ratio R2 of time length of an expansion process of expanding the working fluid in the working chamber to time length of a suction process in which the working fluid is sucked into the working chamber (55a) from the first suction port (71) and the second suction port (73) by opening the differential pressure valve (72) is smaller than the ratio R1 of the time length of the expansion process to a suction process in which the working fluid is sucked into the working chamber (55a) only from the first suction port (71) by closing the differential pressure valve (72).
摘要翻译: 本发明的扩张器包括多个用于将工作流体引导到工作室的吸入口,并且多个吸入口包括具有差压阀的第一吸入口(71)和第二吸入口(73) 72)。 将工作室中的工作流体膨胀的膨胀过程的时间长度与从第一吸入口(71)吸入工作室(55a)的吸入过程的时间长度和 通过打开差压阀72的第二吸入口73小于膨胀过程的时间长度与其中工作流体仅从工作室55a吸入工作室55a的吸入过程的比率R1 第一吸入口(71),通过关闭差压阀(72)。
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7.发明授权公开(公告)号:US08127567B2
公开(公告)日:2012-03-06
申请号:US11994299
申请日:2006-05-17
申请人: Takeshi Ogata , Hiroshi Hasegawa , Masaru Matsui , Atsuo Okaichi , Tomoichiro Tamura , Masanobu Wada
发明人: Takeshi Ogata , Hiroshi Hasegawa , Masaru Matsui , Atsuo Okaichi , Tomoichiro Tamura , Masanobu Wada
IPC分类号: F25B43/02
CPC分类号: F01C1/3564 , F04C11/006 , F04C18/0215 , F04C23/008 , F04C29/0057 , F04C29/0071 , F04C29/023 , F04C2240/60
摘要: An oil supply passage (68) is formed inside a rotating shaft (56) of a compression mechanism (21). An oil supply passage (38) is formed inside a rotating shaft (36) of an expansion mechanism (22). A boss portion (81) is provided at a lower end of the rotating shaft (56). A shaft portion (82) that is engaged in the boss portion (81) is provided at an upper end of the rotating shaft (36). The circumference of a coupling part (80), which includes the boss portion (81) and the shaft portion (82) is covered by an upper bearing (42) of the expansion mechanism (22). The upper bearing (42) supports both the rotating shaft (36) and the rotating shaft (56).
摘要翻译: 在压缩机构(21)的旋转轴(56)的内部形成有供油通路(68)。 在膨胀机构(22)的旋转轴(36)的内部形成有供油通路(38)。 在旋转轴(56)的下端设置有凸台部(81)。 在旋转轴(36)的上端设有与凸部(81)卡合的轴部(82)。 包括凸起部分(81)和轴部分(82)的连接部分(80)的周边由膨胀机构(22)的上轴承(42)覆盖。 上轴承(42)支撑旋转轴(36)和旋转轴(56)。
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公开(公告)号:US20100242531A1
公开(公告)日:2010-09-30
申请号:US12438395
申请日:2007-08-06
申请人: Masaru Matsui , Hiroshi Hasegawa , Atsuo Okaichi , Takeshi Ogata , Masanobu Wada , Yasufumi Takashi
发明人: Masaru Matsui , Hiroshi Hasegawa , Atsuo Okaichi , Takeshi Ogata , Masanobu Wada , Yasufumi Takashi
IPC分类号: F25B1/04 , F01C1/356 , F01C11/00 , F04C23/00 , F04C18/356
CPC分类号: F01C1/3564 , F01C11/002 , F01C21/108 , F04C2250/10 , F25B1/04 , F25B1/10
摘要: A multi-stage rotary-type fluid machine may be configured as what is called a two-stage rotary expander, in which a refrigerant expands in an expansion chamber having a first discharge side space (115b) of a first cylinder (105), a second suction side space (116a) of a second cylinder (106), and a communication hole (104a) for allowing communication between the two spaces (115b, 116a). The first cylinder (105) and the second cylinder (106) are partitioned by an intermediate plate (104). The communication hole (104a) is formed so as to penetrate through the intermediate plate (104). The opening shape and location of the communication hole (104a) are set so that direct blow-through of the refrigerant from a suction port (105b) to a discharge port (106b) cannot occur at any rotation angle of a shaft (103).
摘要翻译: 多级旋转式流体机械可以被构造为所谓的两级旋转式膨胀机,其中制冷剂在具有第一气缸(105)的第一排出侧空间(115b)的膨胀室中膨胀, 第二气缸(106)的第二吸入侧空间(116a)和用于允许两个空间(115b,116a)之间的连通的连通孔(104a)。 第一气缸(105)和第二气缸(106)由中间板(104)分隔开。 连通孔(104a)形成为穿过中间板(104)。 连通孔(104a)的开口形状和位置被设定为使得制冷剂从吸入口(105b)到排出口(106b)的直接吹胀不会发生在轴(103)的任何旋转角度。
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公开(公告)号:US20100107680A1
公开(公告)日:2010-05-06
申请号:US11994299
申请日:2006-05-17
申请人: Takeshi Ogata , Hiroshi Hasegawa , Masaru Matsui , Atsuo Okaichi , Tomoichiro Tamura , Masanobu Wada
发明人: Takeshi Ogata , Hiroshi Hasegawa , Masaru Matsui , Atsuo Okaichi , Tomoichiro Tamura , Masanobu Wada
CPC分类号: F01C1/3564 , F04C11/006 , F04C18/0215 , F04C23/008 , F04C29/0057 , F04C29/0071 , F04C29/023 , F04C2240/60
摘要: An oil supply passage (68) is formed inside a rotating shaft (56) of a compression mechanism (21). An oil supply passage (38) is formed inside a rotating shaft (36) of an expansion mechanism (22). A boss portion (81) is provided at a lower end of the rotating shaft (56). A shaft portion (82) that is engaged in the boss portion (81) is provided at an upper end of the rotating shaft (36). The circumference of a coupling part (80), which includes the boss portion (81) and the shaft portion (82) is covered by an upper bearing (42) of the expansion mechanism (22). The upper bearing (42) supports both the rotating shaft (36) and the rotating shaft (56).
摘要翻译: 在压缩机构(21)的旋转轴(56)的内部形成有供油通路(68)。 在膨胀机构(22)的旋转轴(36)的内部形成有供油通路(38)。 在旋转轴(56)的下端设置有凸台部(81)。 在旋转轴(36)的上端设有与凸部(81)卡合的轴部(82)。 包括凸起部分(81)和轴部分(82)的联接部分(80)的周边由膨胀机构(22)的上轴承(42)覆盖。 上轴承(42)支撑旋转轴(36)和旋转轴(56)。
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公开(公告)号:US20110225999A1
公开(公告)日:2011-09-22
申请号:US12671861
申请日:2009-06-01
CPC分类号: F25B1/10 , F25B9/06 , F25B2309/061 , F25B2400/14 , F25B2400/23 , F25B2600/2513 , F25B2700/2109 , F25B2700/21151 , F25B2700/21152 , F25B2700/2117
摘要: A refrigeration cycle apparatus 100 includes a low-pressure compressor 113, a high-pressure compressor 101, a radiator 103, a gas-liquid separator 107, an expansion valve 109, an expander 105 and an evaporator 111. The low-pressure compressor 113 and the expander 105 are coupled by a shaft 116, and the low-pressure compressor 113 is driven using power recovered by the expander 105 from a refrigerant. The low-pressure compressor 113 and the high-pressure compressor 101 are serially connected by an intermediate-pressure flow path 114. The gas-liquid separator 107 and the intermediate-pressure flow path 114 are connected by the reciprocating flow path 115. The reciprocating flow path 115 is configured to allow the refrigerant to circulate bidirectionally. It is possible to regulate the refrigerant flow rate in the reciprocating flow path 115 by controlling the opening degree of the expansion valve 109.
摘要翻译: 制冷循环装置100包括低压压缩机113,高压压缩机101,散热器103,气液分离器107,膨胀阀109,膨胀机105和蒸发器111.低压压缩机113 并且膨胀机105通过轴116联接,并且使用由膨胀机105从制冷剂回收的功率驱动低压压缩机113。 低压压缩机113和高压压缩机101通过中压流路114串联连接。气液分离器107和中压流路114通过往复流动路径115连接。往复运动 流路115被配置为允许制冷剂双向循环。 可以通过控制膨胀阀109的开度来调节往复流动路径115中的制冷剂流量。
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