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    • 2. 发明专利
    • Pneumatic device
    • 气动装置
    • JP2010144828A
    • 2010-07-01
    • JP2008322599
    • 2008-12-18
    • Ckd Corpシーケーディ株式会社
    • FUSHIHARA OSAMUFUKAMACHI TETSUYASATO KIMIYAKITAGAWA YASUAKI
    • F15B11/06F04F5/18F15B15/14F15B21/04
    • PROBLEM TO BE SOLVED: To suppress generation of abrasion powder from a second rod packing positioned in a tip side of a rod than an accumulation part, and to reduce power consumption.
      SOLUTION: The pneumatic device 11 is equipped with an air cylinder 13, and an ejector 38 provided outside the air cylinder 13. The rod 20 is pierced through an end wall part 15 of a cylinder housing 16. A through-hole 21 of the end wall part 15 pierced by the rod 20 is provided with a first rod packing 23, the accumulation part 26, and the second rod packing 29 in sequence from a second cylinder chamber 19 side. Air in the accumulation part 26 is sucked by the ejector 38. When the ejector 38 is sucking in the air in the accumulation part 26, force i a separating direction with respect to the rod 20 acts on an inner circumference side lip part 31 of the second rod packing 29, and the inner circumference side lip part 31 of the second rod packing 29 is deformed in a direction separating away from the rod 20.
      COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:抑制来自位于棒的末端侧的第二棒状填料从累积部产生磨损粉末,并降低功耗。 解决方案:气动装置11配备有气缸13和设置在气缸13外部的喷射器38.杆20穿过气缸壳体16的端壁部分15.穿孔21 由杆20刺穿的端壁部分15由第二气缸室19侧依次设置有第一杆密封件23,积聚部件26和第二杆密封件29。 积存部26中的空气被喷射器38吸引。当喷射器38吸入积聚部26中的空气时,相对于杆20的分离方向的力作用在第二个的内周侧唇部31上 杆状填料29,第二棒状填料29的内周侧唇部31沿远离杆20的方向变形。(C)2010,JPO&INPIT
    • 4. 发明专利
    • Steam ejector
    • 蒸汽喷射器
    • JP2008019814A
    • 2008-01-31
    • JP2006193458
    • 2006-07-14
    • Tlv Co Ltd株式会社テイエルブイ
    • OKAMOTO MASAKATSU
    • F04F5/18
    • PROBLEM TO BE SOLVED: To provide an inexpensive steam ejector which does not require a re-evaporation tank, electricity and high pressure air source and the like and can be installed easily.
      SOLUTION: A steam pipe 8 is connected with a suction chamber 2 of the ejector via a pressure-reducing valve 1. A diffuser 4 of the ejector is connected with an outlet pipe 11. An end of a conduit 5 is connected with a middle part of the outlet pipe 11 and the other end is connected with a secondary side pressure detection port 3 of the pressure-reducing valve 1. A suction chamber 2 of the ejector is connected with a vapor-liquid separator 13. As steam pressure detected by the conduit 5 is maintained at a predetermined constant pressure by the pressure-reducing valve 1 as a self-operated pressure regulating valve and no driving source such as electricity and high pressure air are required, the steam ejector is inexpensive and simple.
      COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:提供一种廉价的蒸汽喷射器,其不需要再蒸发箱,电和高压空气源等,并且可以容易地安装。

      解决方案:蒸汽管8经由减压阀1与喷射器的吸入室2连接。喷射器的扩散器4与出口管11连接。导管5的端部与 出口管11的中部,另一端与减压阀1的二次侧压力检测口3连接。喷射器的吸入室2与气液分离器13连接。作为蒸汽压力 由导管5检测出的压力由作为自动调压阀的减压阀1维持在规定的恒定压力,不需要诸如电力和高压空气的驱动源,蒸汽喷射器便宜且简单。 版权所有(C)2008,JPO&INPIT

    • 8. 发明专利
    • Pressure boost method and device therefor with use of air bubble pump
    • 压力增压方法和使用空气泡沫泵的装置
    • JPS6159000A
    • 1986-03-26
    • JP17832984
    • 1984-08-29
    • Hitachi Ltd
    • YAMAZAKI HARUYUKISHIINA KOJISAKAGUCHI HARUICHIRO
    • F04F5/18F04F1/18
    • F04F1/18
    • PURPOSE:To enhance the capacity of each of a plurality of pumps in a group connected in series and make it possible to take out vapor, by separating vapor from a discharged gas-liquid two phase stream from each evaporating pipe while liquid is fed into a downcomer pipe and by then feeding the liquid into a next stage evaporating pipe. CONSTITUTION:A plurality of air bubble pumps U1-U4 in a group are laid, each being composed of an condensing chamber 4 incorporating a cooling means 3, an evaporating pipe 3, a downcomer pipe 2 and a communication means 8 for communicating the lower end of the downcomer pipe 2 with an evaporating pipe 1 in the next stage air bubble pump. With this arrangement, a working fluid system 102 introduced into the air bubble pump U1 is heat-exchanged with a heat source fluid system 101 to be turned into a boiled two phase stream. Thereafter, the stream is subjected to gas-liquid separation, and vapor is liquefied by a cooling pipe and then is fed into the downcomer pipe 2 together with the other fluid. The working fluid in the downcomer pipe 2 is introduced into the evaporating pipe 1 in the next stage pump through the communication means 8. With the repetition of these steps the working liquid is successively boosted up, and is discharged from the final stage pump. With this arrangement the boost-up capacity of each air bubble pump may be increased to make it possible to greatly boost up the generated pressure in total.
    • 目的:为了提高串联连接的组中的多个泵中的每一个的容量,并且通过从每个蒸发管的排出的气液两相流中分离蒸汽,并且可以将液体送入 然后将液体送入下一级蒸发管。 构成:一组放置多个气泡泵U1-U4,每个由组合有冷却装置3的冷凝室4,蒸发管3,降液管2和连通装置8组成,用于连通下端 在下一级气泡泵中具有蒸发管1的降液管2。 利用这种布置,引入到气泡泵U1中的工作流体系统102与热源流体系统101进行热交换,以变成煮沸的两相流。 然后,将该物流进行气液分离,通过冷却管使蒸气液化,然后与其他流体一起进入下降管2。 降液管2中的工作流体通过连通装置8被引入下一级泵中的蒸发管1中。随着这些步骤的重复,工作液体依次升高,并从最终级泵排出。 通过这种布置,可以增加每个气泡泵的升压能力,使得可以大大提高产生的压力。