SU1263909A1 - Membrane compressor - Google Patents

Abstract

MEMBRANE COMPRESSOR mainly for closed systems of irrigation and water supply, comprising a housing with a membrane, a section to the drive and working chambers, and a hydraulic actuator in the form of an ejector, the active nozzle of which is connected to a pressure source passive to the drive chamber, and A shut-off valve is installed at the outlet, characterized in that, in order to improve efficiency and simplify the design, the pressure source is designed as a transport pipeline connected to the shut-off valve outlet and fitted with a lock o-regul1fuyuschim body raspolozhennsh between the connection point to the active line of the nozzle and the check valve membrane and kinematically linked with the latter.

Description

112 The invention relates to a compressor engineering and can be used in membrane compressors used primarily for closed irrigation systems and water supply. The aim of the invention is to increase the economy and simplify the design. The drawing schematically shows a membrane compressor. The diaphragm compressor contains a housing 1 with a membrane 2, which separates it into drive 3 and working 4 chambers and a hydraulic actuator made in the form of an ejector 5, the active nozzle 6 of which is connected to a pressure source, a passive nozzle 7 to the drive chamber 3, and a shut-off valve 8. At the same time, the pressure source is implemented in the form of a transport pipeline 9 connected to the inlet of the shut-off valve 8 and provided with a shut-off and regulating body 10 located between the points of connection to the pipeline 9 of the active nozzle 6 and the shut-off valve and 8, and membrane 2 is kinematically associated with the latter. The compressor also contains a suction 11 and discharge 12 valves, a rod 13, rigidly connected to the membrane 2 and a lever 14, pivotally connected to the rod 13. The compressor operates as follows. By selecting the hydraulic resistance of the valve body 10. The fluid is supplied from the transport pipe 9 to the active nozzle 6 of the ejector 5, the fluid is drawn out of the drive chamber 3 and fed through the passive nozzle 7 and the open shut-off valve 8 to the pipe 9. At the same time, the membrane 2 in the housing 1 moves to the bottom dead center, increasing the volume of the working chamber 4. The pressure in the chamber 4 is reduced, and the gas is injected through the suction valve 11, then through a kinematic connection (not shown) from the diaphragm 2, through the rod 13 rigidly connected with it and the lever 14 pivotally connected to the latter, the check valve 8 is closed. The pressure in the drive chamber 3 increases as a result of the intake. fluid through the nozzle 6 ejector 5. Under the action of this pressure, the membrane 2 moves to the top dead center, compressing and releasing gas through the valve 12. The use of a membrane compressor in this design in the absence of special energy sources to drive it increases the efficiency and simplifies the design .

Claims (1)

MEMBRANE COMPRESSOR mainly for indoor irrigation and water supply systems, comprising a housing with a membrane separating it into a drive and a working chamber, and a hydraulic actuator made in the form of an ejector, the active nozzle of which is connected to a pressure source, a passive drive chamber, and a shut-off valve is installed at the outlet, characterized in that, in order to increase efficiency and simplify the design, the pressure source is made in the form of a transport pipeline connected to the output of the shut-off valve and equipped with a shut-off Uhlir body located between the places of connection to the active line of the nozzle and the check valve membrane and is kinematically coupled with S latter. SU „, .1263909 A 1 1263909