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公开(公告)号:US07097437B2
公开(公告)日:2006-08-29
申请号:US10489919
申请日:2002-09-20
IPC分类号: F03C2/00
CPC分类号: F01C21/005 , F01B13/068 , F01C1/3446 , F01C11/006 , F01C21/0836 , F02B53/00 , F02G5/00 , Y02T10/166
摘要: A rotary fluid machine is provided that includes a rotor chamber (14), a rotor (41), vanes (48) guided by vane channels formed in the rotor (41), and pistons (47) slidably fitted in cylinders (44) provided in the rotor (41). Rollers (71) provided on support shafts (48d) of the vane (48) are rollably engaged with annular channels (74) of a casing (11) so as to interconvert reciprocation of the pistons (47) and rotational movement of the rotor (41). By capturing water of a hydrostatic bearing, which supports the vane (48) in the vane channel in a floating state, by a U-shaped lubricating water guide channel (43g) formed on the end face of a rotor segment (43) and discharging it into the annular channels (74), the water is prevented from flowing into the rotor chamber (14) and decreasing the temperature of steam, thereby preventing the output of the rotary fluid machine from being degraded.
摘要翻译: 提供了一种旋转流体机械,其包括转子室(14),转子(41),由形成在转子(41)中的叶片通道引导的叶片(48)和可滑动地装配在气缸(44)中的活塞(47) 在转子(41)中。 设置在叶片(48)的支撑轴(48d)上的滚子(71)与壳体(11)的环形通道(74)滚动接合,以便将活塞(47)的往复运动和转子的旋转运动 (41)。 通过捕获在浮动状态下通过形成在转子段(43)的端面上的U形润滑水引导通道(43g)以浮动状态支撑叶片(48)的静压轴承的水和 将其排放到环形通道(74)中,防止水流入转子室(14)并降低蒸汽的温度,从而防止旋转流体机械的输出降低。
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公开(公告)号:US20050031480A1
公开(公告)日:2005-02-10
申请号:US10489919
申请日:2002-09-20
IPC分类号: F01K7/00 , F01B13/06 , F01C1/344 , F01C11/00 , F01C21/00 , F01C21/08 , F02B53/00 , F02G5/00 , F03C2/00
CPC分类号: F01C21/005 , F01B13/068 , F01C1/3446 , F01C11/006 , F01C21/0836 , F02B53/00 , F02G5/00 , Y02T10/166
摘要: A rotary fluid machine is provided that includes a rotor chamber (14), a rotor (41), vanes (48) guided by vane channels formed in the rotor (41), and pistons (47) slidably fitted in cylinders (44) provided in the rotor (41). Rollers (71) provided on support shafts (48d) of the vane (48) are rollably engaged with annular channels (74) of a casing (11) so as to interconvert reciprocation of the pistons (47) and rotational movement of the rotor (41). By capturing water of a hydrostatic bearing, which supports the vane (48) in the vane channel in a floating state, by a U-shaped lubricating water guide channel (43g) formed on the end face of a rotor segment (43) and discharging it into the annular channels (74), the water is prevented from flowing into the rotor chamber (14) and decreasing the temperature of steam, thereby preventing the output of the rotary fluid machine from being degraded.
摘要翻译: 提供了一种旋转流体机械,其包括转子室(14),转子(41),由形成在转子(41)中的叶片通道引导的叶片(48)和可滑动地装配在气缸(44)中的活塞(47) 在转子(41)中。 设置在叶片(48)的支撑轴(48d)上的辊(71)与壳体(11)的环形通道(74)滚动接合,以便将活塞(47)的往复运动和转子的旋转运动 41)。 通过捕获在浮动状态下在叶片通道中支撑叶片(48)的静水轴承的水通过形成在转子段(43)的端面上的U形润滑水引导通道(43g)并排出 进入环形通道(74),防止水流入转子室(14)并降低蒸汽的温度,从而防止旋转流体机械的输出降低。
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公开(公告)号:US20050076641A1
公开(公告)日:2005-04-14
申请号:US10489911
申请日:2002-09-20
CPC分类号: F01B13/06 , F01B13/068 , F02B53/00
摘要: A rotary fluid machine is provided that includes a rotor chamber (14), a rotor (41), vanes (48) guided by vane channels formed in the rotor (41), and pistons (47) slidably fitted in cylinders (44) provided in the rotor (41). Rollers (71), which have a greaseless bearing structure and are provided on support shafts (48d) of the vane (48), are rollably engaged with annular channels (74) of a casing (11) so as to interconvert reciprocation of the pistons (47) and rotational movement of the rotor (41). By guiding water for a hydrostatic bearing that supports the vane (48) in the vane channel in a floating state from a recess (48e) of the vane (48) to a hydrostatic bearing (71) of the roller (71) via water passages (W19 to W22), an outer member (71b) of the roller (71) is supported in a floating manner relative to an inner member (71a).
摘要翻译: 提供了一种旋转流体机械,其包括转子室(14),转子(41),由形成在转子(41)中的叶片通道引导的叶片(48)和可滑动地装配在气缸(44)中的活塞(47) 在转子(41)中。 具有无油轴承结构并设置在叶片(48)的支撑轴(48d)上的辊(71)与壳体(11)的环形通道(74)滚动接合,以便将活塞 (47)和转子(41)的旋转运动。 通过引导水作为静压轴承,其以悬浮状态将翼片通道中的叶片(48)从叶片(48)的凹部(48e)支撑到辊(71)的静压轴承(71),经由水通道 (W19〜W22),辊(71)的外部构件(71b)相对于内部构件(71a)以浮动方式被支撑。
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公开(公告)号:US06945050B2
公开(公告)日:2005-09-20
申请号:US10489911
申请日:2002-09-20
CPC分类号: F01B13/06 , F01B13/068 , F02B53/00
摘要: A rotary fluid machine is provided that includes a rotor chamber (14), a rotor (41), vanes (48) guided by vane channels formed in the rotor (41), and pistons (47) slidably fitted in cylinders (44) provided in the rotor (41). Rollers (71), which have a greaseless bearing structure and are provided on support shafts (48d) of the vane (48), are rollably engaged with annular channels (74) of a casing (11) so as to interconvert reciprocation of the pistons (47) and rotational movement of the rotor (41). By guiding water for a hydrostatic bearing that supports the vane (48) in the vane channel in a floating state from a recess (48e) of the vane (48) to a hydrostatic bearing (71) of the roller (71) via water passages (W19 to W22), an outer member (71b) of the roller (71) is supported in a floating manner relative to an inner member (71a).
摘要翻译: 提供了一种旋转流体机械,其包括转子室(14),转子(41),由形成在转子(41)中的叶片通道引导的叶片(48)和可滑动地装配在气缸(44)中的活塞(47) 在转子(41)中。 具有无油轴承结构并设置在叶片(48)的支撑轴(48d)上的辊(71)与壳体(11)的环形通道(74)滚动接合,以便互相转换 活塞(47)和转子(41)的旋转运动。 通过引导水进行静压轴承,该静压轴承以悬浮状态将叶片通道中的叶片(48)从叶片(48)的凹部(48e)通过水从滚子(71)的静压轴承(71)支撑 通道(W 19至W 22),辊(71)的外部构件(71b)相对于内部构件(71a)以浮动方式被支撑。
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公开(公告)号:US20050031479A1
公开(公告)日:2005-02-10
申请号:US10489914
申请日:2002-09-20
IPC分类号: F01K7/00 , F01B13/06 , F01C1/344 , F01C19/02 , F01C19/10 , F01C21/04 , F01C21/08 , F02B53/00 , F04C18/344 , F04C27/00 , F16J15/447 , F01C19/00
CPC分类号: F04C27/001 , F01B13/06 , F01B13/061 , F01B13/068 , F01C1/3446 , F01C19/02 , F01C21/04 , F01C21/08 , F01C21/0836 , F01C21/0872 , F01C21/0881 , F02B53/00 , F04C18/3446
摘要: A rotary fluid machine is provided that includes a rotor chamber (14) formed in a casing, a rotor (41) rotatably housed within the rotor chamber (14), a plurality of vane channels (49) formed radially in the rotor (41), a plurality of vanes (48) slidably supported in the respective vane channels (49), vane chambers (75) defined between adjacent vanes (48), and an intake port (90) and an exhaust port (91) for supplying and discharging a gas-phase working medium to and from the vane chambers (75). A labyrinth (43g) provided on the outer peripheral face of the rotor (41) prevents the gas-phase working medium from leaking in a region in which there is a large difference in pressure between adjacent vane chambers (75) that are in between the trailing edge of the exhaust port (91) and the leading edge of the intake port (90).
摘要翻译: 提供了一种旋转流体机械,其包括形成在壳体中的转子室(14),可旋转地容纳在转子室(14)内的转子(41),在转子(41)中径向形成的多个叶片通道(49) ,可滑动地支撑在各个叶片通道(49)中的多个叶片(48),限定在相邻叶片(48)之间的叶片室(75)和用于供给和排出的进气口(90)和排气口(91) 来自所述叶片室(75)的气相工作介质。 设置在转子(41)的外周面上的迷宫(43g)防止气相工作介质在相邻叶片室(75)之间的压力差大的区域内泄漏, 排气口(91)的后缘和进气口(90)的前缘。
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公开(公告)号:US07040872B2
公开(公告)日:2006-05-09
申请号:US10363645
申请日:2001-09-04
申请人: Tsuneo Endoh , Haruhiko Komatsu , Ryuji Sano , Kensuke Honma , Yasunari Kimura , Tsutomu Takahashi , Yuichiro Tajima , Hiroshi Ichikawa
发明人: Tsuneo Endoh , Haruhiko Komatsu , Ryuji Sano , Kensuke Honma , Yasunari Kimura , Tsutomu Takahashi , Yuichiro Tajima , Hiroshi Ichikawa
CPC分类号: F01B13/061 , F01B13/068 , F01C1/3446 , F01C21/0836 , F02B53/00 , F02G5/00 , Y02T10/166
摘要: Pistons (41) are slidably received in a plurality of cylinders (39) disposed radially in a rotor (31), and a plurality of vanes (42) cooperating with the pistons (41) are disposed radially in the rotor (31), so that a vane chamber (54) is defined between a pair of the adjacent vanes (42). The radial movements of each of the pistons (41) and each of the vanes (42) are substantially stopped, so that the volumes of each of the cylinders (39) and each of the vane chambers (54) are not changed, for a period from the end of an exhaust stroke at which a gas-phase working medium is discharged from the cylinder (39) and the vane chamber (54) to the start of an intake stroke at which the supplying of the gas-phase working medium is started. Thus, it is possible to prevent the generation of a water hammer phenomenon due to a liquid-phase working medium confined in the cylinder (39) and the vane chamber (54).
摘要翻译: 活塞(41)可滑动地容纳在径向设置在转子(31)中的多个气缸(39)中,并且与活塞(41)配合的多个叶片(42)径向设置在转子(31)中,因此 在一对相邻叶片(42)之间限定叶片室(54)。 每个活塞(41)和每个叶片(42)的径向运动基本上停止,使得每个气缸(39)和每个叶片室(54)的体积不变,对于 气相工作介质从气缸(39)和叶片室(54)排出到排气冲程结束的时段到进气冲程开始时,气相工作介质的供给为 开始了 因此,可以防止由于限定在气缸(39)和叶片室(54)中的液相工作介质而产生水锤现象。
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公开(公告)号:US20050025633A1
公开(公告)日:2005-02-03
申请号:US10739151
申请日:2003-12-19
IPC分类号: F01K23/06 , F01B21/04 , F01C1/344 , F01C11/00 , F01C19/00 , F01C19/02 , F01C21/08 , F01K23/10 , F04B1/12 , F04B27/08
CPC分类号: F01C11/006 , F01C1/3446 , F01C19/005 , F01C19/02 , F01C21/0836
摘要: A rotating fluid machine has first energy converting means including cylinders and pistons, and second energy converting means including vanes emerging from and submerging into a rotor in the radial direction. A gaseous phase working medium having leaked out of the higher pressure first energy converting means to a reservoir is effectively utilized instead of being discarded wastefully by feeding the leaked gaseous phase working medium to the lower pressure second energy converting means via a one-way valve and a junction chamber. Moreover, when the pressure in the reservoir is lower than that in the junction chamber, the one-way valve obstructs the gaseous phase working medium from flowing back, thereby preventing the efficiency of the second energy converting means from deteriorating.
摘要翻译: 旋转流体机械具有包括气缸和活塞的第一能量转换装置,以及第二能量转换装置,其包括从径向方向上出现并浸没在转子中的叶片。 有效地利用从较高压力的第一能量转换装置泄漏到贮存器的气相工作介质,而不是通过单向阀向泄漏的气相工作介质供给低压第二能量转换装置而浪费废弃, 连接室。 此外,当储存器中的压力低于接合室中的压力时,单向阀阻碍气相工作介质的回流,从而防止第二能量转换装置的效率降低。
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公开(公告)号:US20050019161A1
公开(公告)日:2005-01-27
申请号:US10489641
申请日:2002-09-20
IPC分类号: F01L33/02 , F01B13/06 , F01C1/344 , F01C11/00 , F01C20/14 , F01C21/02 , F01C21/08 , F01C21/18 , F01K7/00 , F02B53/00 , F04B1/047 , F04B53/00 , F04B53/10 , F04C18/344 , F01D25/00
CPC分类号: F01C21/18 , F01B13/061 , F01B13/068 , F01C1/3446 , F01C11/006 , F01C21/08 , F02B53/00 , F04B1/047 , F04C2230/602 , F04C2240/601 , F04C2240/605
摘要: A rotary fluid machine is provided that includes a rotor rotatably housed within a casing, a hollow rotating shaft (113) that rotates integrally with the rotor, and a fixed shaft (102) that is relatively rotatably fitted into the inner periphery of the rotating shaft (113); wherein the fixed shaft (102) is floatingly supported in the casing via a fixed shaft support spring (95) having an alignment action. When rotational runout of the rotor is transmitted to the fixed shaft (102) via the rotating shaft (113), the alignment action of the fixed shaft support spring (95) suppresses the rotational runout of the rotor, and any increase in the frictional resistance in a sliding section between the rotating shaft (113) and the fixed shaft (102) and the occurrence of abnormal wear can be prevented effectively, and the leakage of steam from a rotary valve (V) provided on the sliding surfaces of the rotating shaft (113) and the fixed shaft (102) can be reduced.
摘要翻译: 本发明提供一种旋转流体机械,其具有可旋转地容纳在壳体内的转子,与转子一体地旋转的中空旋转轴(113),以及相对旋转自如地嵌合在旋转轴的内周的固定轴 (113); 其中所述固定轴(102)经由具有对准作用的固定轴支撑弹簧(95)浮动地支撑在所述壳体中。 当转子的旋转跳动通过旋转轴(113)传递到固定轴(102)时,固定轴支撑弹簧(95)的对准作用抑制转子的旋转跳动,并且摩擦阻力的任何增加 在旋转轴(113)和固定轴(102)之间的滑动部分中,可以有效地防止异常磨损的发生,并且蒸汽从设置在旋转轴的滑动表面上的旋转阀(V)泄漏 (113)和固定轴(102)可以减小。
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公开(公告)号:US07083402B2
公开(公告)日:2006-08-01
申请号:US10739149
申请日:2003-12-19
CPC分类号: F01C1/3446 , F01C19/10 , F01C21/04 , F01C21/0809
摘要: A rotating fluid machine is provided with a rotor chamber, a rotor accommodated in the rotor chamber, and vanes guided by vane grooves formed in the rotor. A U-shaped vane seal is held by a seal holding groove formed in the end face of each of the vanes. The opposite ends of the vane seal are fitted into slits in seal ancillary members which are fitted into engaging holes formed in the end faces of each of the vanes. The seal ancillary members are pressed by springs toward the inner circumferential face of the rotor chamber. The pressure of a gaseous phase working medium introduced into the bottom parts of the seal holding grooves is restrained from leaking out of the ends of the vane seal by the seal ancillary members. Thus, sealing performance can be secured by pressing the vane seal against the inner circumferential face of the rotor chamber.
摘要翻译: 旋转流体机器设置有转子室,容纳在转子室中的转子和由形成在转子中的叶片槽引导的叶片。 U形叶片密封件由形成在每个叶片的端面中的密封件保持槽保持。 叶片密封件的相对端装配在密封辅助构件中的狭缝中,该辅助构件装配到形成在每个叶片的端面中的接合孔中。 密封辅助构件被弹簧压向转子室的内周面。 引入到密封保持槽的底部的气相工作介质的压力被密封辅助构件限制在叶片密封件的端部之外。 因此,可以通过将叶片密封件压靠在转子室的内周面来确保密封性能。
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公开(公告)号:US20050087066A1
公开(公告)日:2005-04-28
申请号:US10489653
申请日:2002-09-20
IPC分类号: F01L15/08 , F01B1/06 , F01B13/06 , F01C1/344 , F01C11/00 , F01C19/08 , F01C21/18 , F01K7/00 , F01K23/06 , F02G5/00 , F04C18/344
CPC分类号: F01C21/18 , F01B1/0603 , F01B13/061 , F01B13/068 , F01C1/3446 , F01C11/006 , F02G5/00 , F04C2230/60 , F04C2240/60 , F04C2240/605 , F05C2203/08 , Y02T10/166
摘要: A rotary fluid machine is provided that includes a rotor rotatably housed within a casing, a hollow rotating shaft (113) that rotates integrally with the rotor, and a fixed shaft (102) that is relatively rotatably fitted into the inner periphery of the rotating shaft (113); in which the rotating shaft (113) is formed by shrink-fitting an outer sleeve (21) made of metal around the outer periphery of an inner sleeve (85) made of ceramic, etc. having a lower coefficient of thermal expansion than that of metal, and the fixed shaft (102) is formed by shrink-fitting an outer sleeve (88) made of metal around the outer periphery of an inner sleeve (87) made of ceramic, etc. having a lower coefficient of thermal expansion than that of metal. Since thermal expansion of the outer sleeves (21, 88) fitted around the outer peripheries of the inner sleeves (85, 87) is suppressed due to residual tensile stress of the outer sleeves (21, 88), intimate contact between the outer sleeves (21, 88) and the inner sleeves (85, 87) can be maintained.
摘要翻译: 本发明提供一种旋转流体机械,其具有可旋转地容纳在壳体内的转子,与转子一体地旋转的中空旋转轴(113),以及相对旋转自如地嵌合在旋转轴的内周的固定轴 (113); 其中,旋转轴(113)通过将由金属制成的外套筒(21)收缩配合在由陶瓷等制成的内套筒(85)的外周面上,所述外套筒(21)的热膨胀系数比 金属,并且固定轴(102)通过将由金属制成的外部套筒(88)收缩配合在由陶瓷等制成的内套筒(87)的外周面上而形成,所述外套筒具有较低的热膨胀系数等。 的金属。 由于由于外套筒(21,88)的残余拉伸应力,装配在内套筒(85,87)的外周的外套筒(21,88)的热膨胀被外部套筒(21,88)的紧密接触 可以保持内套筒(85,87)。
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