SU812961A1 - High-pressure compressor - Google Patents

Description

(54) HIGH PRESSURE COMPRESSOR

This invention relates to a compressor industry.

Known compressors are known. Containing a head in the form of a housing with a step-plunger placed in it, a multi-layer compression chamber with an internal bushing, a blow-off piston with a hydraulic seal piston, an injection cavity, and a drive rod fl.

However, in this compressor the plunger is placed in the compression chamber with a small gap, which reduces reliability.

The purpose of the invention is to increase reliability.

This goal is achieved by the fact that the actuator stem is provided with a clamping device for periodically interacting with the plunger, a cavity is made in the head housing, and a low-pressure gas source is connected to the latter, and the housing is provided with an annular protrusion located in the cavity and in contact with the plunger end face.

The clamping device can be made in the form of a spring-loaded bushing installed on the rod, which is in contact with the end of the plunger, and in the

The latter is made a cavity connected by means of a valve with the cavity of the body and communicated with the atmosphere.

On the outer surface of the inner sleeve there is an alcohol groove connected to the injection cavity.

The drawing shows the compressor, a longitudinal section.

Claims (3)

The compressor contains a head in the form of a housing 1 with a stepped plunger 2 located in it, a multilayer compression chamber 3 with an internal sleeve 4, which forms an injection cavity 6 with the hydraulic seal piston 5, and a drive rod 7. The actuator stem 7 is provided with a pressure device for periodically interacting with the plunger 2, a cavity 8 is provided in the head housing 1, and a low-pressure gas source is connected to the latter; the housing 1 is provided with an annular protrusion 9 located in the cavity 8 and in contact with the end face 10 of the plunger 2. The clamping device is designed as a spring-loaded sleeve 11 mounted on the rod 7, which is in contact with the end face 10 of the plunger 2, and in the latter there is a CAVITY 12 connected by a valve 13 with the cavity 8 of the housing 1 and connected with the atmosphere by channels 14 and 15. On the outer surface of the inner sleeve 4 there is a spiral groove 16 connected to the pressure cavity 6. The cavity 8 is connected to a low pressure gas source by channel 17. Polo be 12 communicated with the cavity 8 rope 18. The sleeve 11 is biased by a spring 19. The compressor operates sleduk Dim manner. During compression, the scraper 7 moves until the sleeve 11 contacts with the end face 10 of the plunger 2. During this process, pressure is released through the valve 13 and the channels 14 and 15 to the atmosphere. In this case, the rod 7 is tightly pressed with the plunger 2. When the rod 7 is reversed, its connector with the plunger 2 occurs when it interacts with the starter 9. After the suction process is completed, the initial movement takes place due to gas pressure in cavity 8, which ensures reducing the time of compression and with the same leakage leads to an increase in the gap between the plunger 2 and the compression chamber 3, and hence increase the reliability. With increasing pressure in the discharge cavity 6, and hence in the spiral groove 16, a discharge chamber 3, the multilayer compression. Claim 1. A high-pressure compressor comprising a head in the form of a housing with a stepped plunger disposed therein, a multi-layer compression chamber with an internal bushing forming a pressure cavity with the hydraulic piston piston, and a drive rod, characterized by the fact that in order to increase reliability the actuator is provided with a clamping device for periodic interactions with the plunger, a cavity is made in the head body and a low-pressure gas source is connected to the latter, and the body is provided with an annular protrusion m in the cavity and in contact with the end of the plunger. 2. A compressor according to Claim 1, characterized in that the clamping device is designed as a spring-loaded sleeve mounted on the stem in contact with the end of the plunger, and in the latter there is a cavity connected through the valve to the housing cavity and communicated with the atmosphere. 3. Compressor according to claim 1, characterized in that a helical groove connected to the discharge cavity is formed on the outer surface of the inner sleeve. Sources of information taken into consideration n {w examination 1. USSR author's certificate No. 310569, cl. F 04 B 37/12, 1970. G7 ten ABOUT