| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 流体设备 | CN201380014059.X | 2013-03-13 | CN104169527A | 2014-11-26 | 和田博文; 中村慎二; 田中雄太 |
| 本发明涉及一种流体设备(29A),该流体设备(29A)具有壳体部(56)、外壳部(54)和涡盘(51、52),其中,壳体部包括供处于高压的加热蒸汽的工作流体流入的吸入端口(55),外壳部包括排出端口(53),利用从吸入端口(55)吸入的工作流体对所述涡盘进行驱动,将处于低压的工作流体排出到排出端口(53)。在流体设备(29A)中,将包括旁通路(81)和打开或关闭旁通路(81)的阀机构(83)的旁通部(80)夹持在壳体部(56)与外壳部(54)之间,其中,旁通路(81)将工作流体绕过涡盘(51、52)引导到排出端口(53)。阀机构(83)是使阀芯沿转轴(28)的径向移位的电磁阀,使线圈(83d)的收容部分露出在壳体部(56)及外壳部(54)的外部。藉此能够抑制加工复杂化,且能抑制轴向长度扩大,并能够一体地设置旁通部(80)。 | ||||||
| 2 | 流体機械 | JP2012057347 | 2012-03-14 | JP5969227B2 | 2016-08-17 | 和田 博文; 中村 慎二; 田中 雄太 |
| 3 | Fluid machine | JP2012057347 | 2012-03-14 | JP2013189931A | 2013-09-26 | WADA HIROBUMI; NAKAMURA SHINJI; TANAKA YUTA |
| PROBLEM TO BE SOLVED: To enable a bypass passage and a valve mechanism for opening-closing the bypass passage to be integrally provided, while restraining expansion of a length in the axial direction, by restraining complication of processing, in a fluid machine.SOLUTION: A fluid machine includes a casing section 56 having a suction port 55 for making an operating fluid of becoming high pressure heated vapor flow in, a housing section 54 having a discharge port 53, and a driving section (scrolls 51 and 52) driven by the operating fluid sucked in from the suction port 55 and discharging the operating fluid of becoming low pressure to the discharge port 53, and is formed with a bypass passage 81 for guiding the operating fluid sucked in from the suction port 55 to the discharge port 53 by bypassing the driving section (the scrolls 51 and 52), and a bypass section 80 having a valve mechanism 83 for opening-closing the bypass passage 81, is held between the casing section 56 and the housing section 54. | ||||||
| 4 | VARIABLE VOLUME RATIO COMPRESSOR | US15649556 | 2017-07-13 | US20180017060A1 | 2018-01-18 | Paul Nemit, JR. |
| A compressor and method for controlling the volume ratio of a compressor is provided. The compressor includes a an intake passage, a discharge passage and a compression mechanism, the compression mechanism being positioned to receive vapor from the intake passage and provide compressed vapor to the discharge passage. At least one opening is positioned in the compression mechanism to bypass a portion of the vapor in the compression mechanism to the discharge passage, the at least one opening being sized and positioned to automatically vary a volume ratio in the compressor in response to a varying pressure differential between the intake passage and the discharge passage. | ||||||
| 5 | Fluid Machine | US14385454 | 2013-03-13 | US20150033744A1 | 2015-02-05 | Hirofumi Wada; Shinji Nakamura; Yuuta Tanaka |
| A fluid machine (29A) including: a casing section (56) including a suction port (55); a housing section (54) including a discharge port (53); and scrolls (51, 52) driven by a working fluid suctioned from the suction port (55). In the fluid machine (29A), a bypass section (80), which includes a bypass passage (81) guiding the working fluid to the discharge port (53) while allowing the working fluid to bypass the scrolls (51, 52) and a valve mechanism (83) opening and closing the bypass passage (81), is supported between the casing section (56) and the housing section (54). The valve mechanism (83) is a solenoid valve which displaces a valve body in a radial direction of a rotating shaft (28), and an accommodating portion of a coil (83d) is exposed to the outside of the casing section (56) and the housing section (54). | ||||||
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