子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 81 | 用于密封外壳的底板 | CN01101290.0 | 2001-01-17 | CN1160515C | 2004-08-04 | 哈里·克伦德宁 |
| 一种用于安装一个压缩机的底板包括一安装板、一对向上延伸的凸缘、一对向下延伸的凸缘和一向上延伸的安装凸缘。利用安装凸缘通过被固定至压缩机的外壳而固定压缩机。当使用串联式压缩机装置时,这对向上延伸的凸缘为一对导轨提供了间隙,在不必改进底板的情况下,所述导轨与串联式压缩机互相连接。在一实施例中,底板被熔焊或钎焊到该导轨。在另一实施例中,一组护孔环使底板定位在导轨上,且通过螺栓将底板连接到导轨。在另一实施例中,一组护孔环将底板定位并固定到导轨上。 | ||||||
| 82 | 用于密封外壳的底板 | CN200310120227.1 | 2001-01-17 | CN1512063A | 2004-07-14 | 哈里·克伦德宁 |
| 一种用于安装一个压缩机的底板包括一安装板、一对向上延伸的凸缘、一对向下延伸的凸缘和一向上延伸的安装凸缘。利用安装凸缘通过被固定至压缩机的外壳而固定压缩机。当使用串联式压缩机装置时,这对向上延伸的凸缘为一对导轨提供了间隙,在不必改进底板的情况下,所述导轨与串联式压缩机互相连接。在一实施例中,底板被熔焊或钎焊到该导轨。在另一实施例中,一组护孔环使底板定位在导轨上,且通过螺栓将底板连接到导轨。在另一实施例中,一组护孔环将底板定位并固定到导轨上。 | ||||||
| 83 | 流体泵 | CN03125516.7 | 2003-09-09 | CN1495362A | 2004-05-12 | 藏本觉; 川口真广; 山本真也; 星野伸明; 桑原卫 |
| 一种流体泵包括壳体,驱动源,转动单元和泵装置。该驱动源容纳于壳体内并且包括一用以旋转的转动部件。该转动单元包括转动部件和转轴,该转动单元可操作地连接到转动部件上用以旋转。该转动单元形成接合部分用以与壳体外制备的维护工具接合。该泵装置位于壳体内,并根据转轴的旋转进行操作。允许装置形成于壳体内,用以允许维护工具与接合部分接合,从而使得维护工具面对该接合部分。在维护工具和接合部分接合的状态下通过旋转维护工具从而使转轴进行旋转。 | ||||||
| 84 | 无油涡轮压缩机 | CN97119641.9 | 1997-09-19 | CN1111652C | 2003-06-18 | 椎木和明; 川野勇; 川端夏树; 铃木昭 |
| 冷却鼓风机安装在双端马达的一个轴端,皮带轮安装在另一个轴端。主管道位于冷却鼓风机的进气侧,与压缩机元件的冷却空气出口串连。在外壳的左右两侧有两个冷却空气通道。冷却空气从外壳上方被吸入,流经压缩机元件,在冷却鼓风机处呈U形转向,冷却冷却器,然后从外壳的上端排出。压缩机元件、冷却器、管道等安装在双端马达包括冷却鼓风机在内的轴向长度范围之内,并且安装在双端马达之上。因此,就可以减少冷却空气量,降低排气流速,因而可降低噪音。 | ||||||
| 85 | 减振性能得到改善的旋转压缩机组件 | CN00133623.1 | 2000-11-29 | CN1341812A | 2002-03-27 | 金振燮 |
| 一种旋转压缩机组件,该组件可有效地减少旋转压缩机组件工作时产生的振动和噪声。压缩机固定安装在支撑板上。减振件嵌入支撑板上的相应的支撑孔内并对支撑板进行支撑,使之与安装面保持一定间隔。支撑孔的几何中心的设置应使其与包括有附属收集器的旋转压缩机的重心重合。因此,负荷均匀地加在每个减振件上,并且对旋转压缩机进行稳定的支撑,从而可以有效地减少与压缩机工作有关的振动和噪声。 | ||||||
| 86 | 螺杆压缩机 | CN01108913.X | 2001-02-28 | CN1332322A | 2002-01-23 | 高桥一树; 鹤诚司; 谷山实; 三浦治雄 |
| 一种集装单元式螺杆压缩机,包括低压级压缩机和高压级压缩机。来自电动马达的原动力通过增速器传递给两个压缩机。由低压级压缩机压缩、加热使温度升高的排出气体通过中间冷却器冷却。由高压级压缩机压缩、加热使温度升高的排出气体通过后冷却器冷却。中间冷却器的壳体、后冷却器的壳体与增速器壳体制成一体,由此减少了组件的数目。由中间冷却器和后冷却器形成的冷却器部分与增速器壳体隔开,因此,可防止压缩空气所产生的热量传递给增速器壳体。 | ||||||
| 87 | 用于密封外壳的底板 | CN01101290.0 | 2001-01-17 | CN1316597A | 2001-10-10 | 哈里·克伦德宁 |
| 一种用于安装一个压缩机的底板包括一安装板、一对向上延伸的凸缘、一对向下延伸的凸缘和一向上延伸的安装凸缘。利用安装凸缘通过被固定至压缩机的外壳而固定压缩机。当使用串联式压缩机装置时,这对向上延伸的凸缘为一对导轨提供了间隙,在不必改进底板的情况下,所述导轨与串联式压缩机互相连接。在一实施例中,底板被熔焊或钎焊到该导轨。在另一实施例中,一组护孔环使底板定位在导轨上,且通过螺栓将底板连接到导轨。在另一实施例中,一组护孔环将底板定位并固定到导轨上。 | ||||||
| 88 | 无油涡轮压缩机 | CN97119641.9 | 1997-09-19 | CN1182175A | 1998-05-20 | 椎木和明; 川野勇; 川端夏树; 铃木昭 |
| 冷却鼓风机安装在双端马达的一个轴端,皮带轮安装在另一个轴端。主管道位于冷却鼓风机的进气侧,与压缩机元件的冷却空气出口串连。在外壳的左右两侧有两个冷却空气通道。冷却空气从外壳上方被吸入,流经压缩机元件,在冷却鼓风机处呈U形转向,冷却冷却器,然后从外壳的上端排出。压缩机元件、冷却器、管道等安装在双端马达包括冷却鼓风机在内的轴向长度范围之内,并且安装在双端马达之上。因此,就可以减少冷却空气量,降低排气流速,因而可降低噪音。 | ||||||
| 89 | 压缩机 | CN91105098.1 | 1991-07-15 | CN1022853C | 1993-11-24 | 平野隆久; 饭尾孝征 |
| 本发明公开了一种压缩机。它由装有压缩装置的壳体和带装配件的盖件组成,壳体的周边表面上有一个与吸气室相通的吸气腔和一个与排气室相通的排气腔,通过将盖件紧固到壳体上使吸气腔和排气腔密闭,装配件分别与吸气腔和排气腔相通。 | ||||||
| 90 | 真空设备 | CN85106797 | 1985-09-10 | CN85106797A | 1986-06-10 | 西格弗里德·舒恩瓦尔德; 诺伯特·施米德; 汉斯·乔治·特罗扬 |
| 本发明涉及一个真空设备,它有一个使用辅助液体工作的真空泵。其后接有一与液体冷却器相接的粗分离和一细分离器,其改善辅助液体从气体中分离情况的途径如下:粗分离器(7)和细分离器(19)结构上分开安装,载有残余辅助液体(33)的气体经过气体冷却器(13)被送至细分离器(19),这两个冷却器的尺寸大小,应能保证气体的冷却温度远远低于辅助液体(33)的排出温度。 | ||||||
| 91 | Refrigerant Compressor System | US16013036 | 2018-06-20 | US20180298905A1 | 2018-10-18 | Christian Scharer; Thomas Varga |
| Refrigerant compressor installation comprising at least three compressors which are arranged in parallel between an intake conduit and a pressure conduit and which each comprise a lubricant sump unit, wherein the compressors, when in operation, work in such a way that the respective pressures in the respective lubricant sump units of the respective compressors form a pressure cascade according to which the compressors have a successively slightly decreasing pressure in the respective lubricant sump unit in a defined cascade sequence, and wherein the lubricant sump units are connected to each other in a manner corresponding to the cascade sequence by way of a lubricant conduit system for lubricant transport, and wherein each lubricant sump unit comprises a port to which is connected an insert element which on the one hand establishes communication with the lubricant conduit system and on the other hand is configured such that it predetermines, for the respective lubricant sump unit, a lubricant level from which lubricant is transported to the lubricant sump unit that follows next in the cascade sequence. | ||||||
| 92 | ROTARY COMPRESSOR HAVING TWO CYLINDERS | US16003991 | 2018-06-08 | US20180291899A1 | 2018-10-11 | Hiroaki NAKAI; Hirofumi YOSHIDA; Shingo OYAGI; Yu SHIOTANI; Tsuyoshi KARINO |
| A rotary compressor having two cylinders includes crankshaft having first eccentric portion and second eccentric portion connected to each other by connecting portion. The rotary compressor further includes two compressive elements that compress working fluid in cylinder as first piston inserted over first eccentric portion eccentrically rotates in accordance with rotation of crankshaft. Further, first piston inserted over first eccentric portion undergoes assembly by being inserted over first eccentric portion through second eccentric portion. Further, a releasing portion is provided at each of outer diameter portions of first eccentric portion and second eccentric portion. | ||||||
| 93 | CO-ROTATING COMPRESSOR | US15425266 | 2017-02-06 | US20180223843A1 | 2018-08-09 | Roy J. Doepker; Robert C. Stover |
| A compressor may include first and second scroll members, first and second bearing housings, and a motor assembly. The first scroll member includes a first end plate and a first spiral wrap extending from the first end plate. The second scroll member includes a second end plate and a second spiral wrap extending from the second end plate and intermeshed with the first spiral wrap to define compression pockets therebetween. The first bearing housing supports the first scroll member for rotation about a first rotational axis. The second bearing housing may support the second scroll member for rotation about a second rotational axis that is parallel to and offset from the first rotational axis. The motor assembly may be disposed axially between the first and second bearing housings and may include a rotor attached to the first scroll member. The rotor may surround the first and second end plates. | ||||||
| 94 | Air compression apparatus | US14704312 | 2015-05-05 | US10041494B2 | 2018-08-07 | Toru Mizufune; Masaru Kuromitsu; Akira Takahashi; Tatsuo Miyauchi |
| The present application discloses an air compression apparatus mounted on a vehicle. The air compression apparatus includes a first air compressor configured to generate first compressed air, a first cooling fan configured to send first cooling wind in a first direction to cool the first air compressor, and a second air compressor aligned with the first air compressor in a second direction intersecting with the first direction. The second air compressor generates second compressed air. | ||||||
| 95 | Coupling structure for vacuum exhaust device and vacuum exhaust system | US13988219 | 2011-11-16 | US09273568B2 | 2016-03-01 | Toshio Suzuki; Tomonari Tanaka; Kouji Shibayama; Masatomo Okamoto |
| Provided is a coupling structure for vacuum exhaust devices each including a pump chamber and a casing that demarcates the pump chamber. The coupling structure includes a first end surface formed on a first side of the casing, and a second end surface formed on the second side of the casing, the second side being the opposite side of the first side. The casing of a first vacuum exhaust device and the casing of a second vacuum exhaust device among a plurality of vacuum exhaust devices are arranged to be directly superposed on each other such that the first end surface provided to the first vacuum exhaust device and the second end surface provided to the second vacuum exhaust device come into contact with each other. By fastening the first end surface and the second end surface, the first vacuum exhaust device and the second vacuum exhaust device are connected to each other such that gas can flow between the casing of the first vacuum exhaust device and the casing of the second vacuum exhaust device. | ||||||
| 96 | Pump Assembly and Method for Evacuating a Vapor-Filled Chamber | US14762005 | 2014-01-16 | US20150361979A1 | 2015-12-17 | Heiner Kösters; Matthias Tamm; Daniel Schütze |
| The invention relates to an assembly comprising a vacuum pump and a chamber, wherein a suction tract extends between the chamber and the vacuum pump. The vacuum pump is a liquid ring machine. According to the invention, a liquid outlet is arranged in the suction tract in order to add liquid to gas sucked in from the chamber. The invention further relates to a method for evacuating a chamber filled with vapor. According to the invention, the vapor is condensed by introducing additional liquid into the suction tract, thus by co-condensation. By supplying liquid selectively only when liquid is required for the condensation of the vapor, water is saved. | ||||||
| 97 | COUPLING STRUCTURE FOR VACUUM EXHAUST DEVICE AND VACUUM EXHAUST SYSTEM | US13988219 | 2011-11-16 | US20130280062A1 | 2013-10-24 | Toshio Suzuki; Tomonari Tanaka; Kouji Shibayama; Masatomo Okamoto |
| Provided is a coupling structure for vacuum exhaust devices each including a pump chamber and a casing that demarcates the pump chamber. The coupling structure includes a first end surface formed on a first side of the casing, and a second end surface formed on the second side of the casing, the second side being the opposite side of the first side. The casing of a first vacuum exhaust device and the casing of a second vacuum exhaust device among a plurality of vacuum exhaust devices are arranged to be directly superposed on each other such that the first end surface provided to the first vacuum exhaust device and the second end surface provided to the second vacuum exhaust device come into contact with each other. By fastening the first end surface and the second end surface, the first vacuum exhaust device and the second vacuum exhaust device are connected to each other such that gas can flow between the casing of the first vacuum exhaust device and the casing of the second vacuum exhaust device. | ||||||
| 98 | Vacuum pump with a multi-sectional housing | US12001909 | 2007-12-12 | US08303269B2 | 2012-11-06 | Juergen Metzger; Juergen Wagner; Stefan Saenger |
| A vacuum pump for producing low or high vacuum has a housing having a gas inlet and a gas outlet, a pumping system located in the housing, a motor for driving the pumping system, and a control electronics for controlling operation of the pump and likewise located in the housing, with the pumping system and the control electronics being located in separate housing sections of the housing. | ||||||
| 99 | Vane compressor with improved vanes | US12342766 | 2008-12-23 | US08257072B2 | 2012-09-04 | Hirotada Shimaguchi; Yoshinobu Maemura |
| A vane-type compressor includes: a cylinder block; a rotor rotating within the cylinder block; vane slots provided on the rotor; vanes each provided slidably within each of the vane slots; coil springs provided within the vane slots for pushing the vanes; guide pins each provided along each of the coil springs and directly fixed on the vanes or the rotor; and guide holes each provided for each of the guide pins and formed on the rotor or the vane. The guide holes are formed on the vanes in case where the guide pins are directly fixed on the rotor. Alternatively, the guide holes are formed on the rotor in case where the guide pins are directly fixed on the vanes. The compressor prevents chattering of the vanes and also prevents a complex structure and cost rise. | ||||||
| 100 | Screw compressor | US11367380 | 2006-03-06 | US08231363B2 | 2012-07-31 | Hitoshi Nishimura; Tomoo Suzuki; Hiroshi Ohta |
| A screw compressor comprising: a low pressure stage compressor body; a high pressure stage compressor body that further compresses a compressed air compressed by the low pressure stage compressor body; pinion gears for example, respectively, provided on, for example, a male rotor of the low pressure stage compressor body and, for example, a male rotor of the high pressure stage compressor body; a motor; a bull gear for example, provided on a rotating shaft of the motor; and an intermediate shaft supported rotatably and provided with a pinion gear, which meshes with the bull gear, and a bull gear, which meshes with the pinion gears. Thereby, it is possible to make the motor relatively low in rotating speed while inhibiting the gears from being increased in diameter, thus enabling achieving reduction in cost. | ||||||
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