SU573609A1 - Compressor with fluid transmitting link - Google Patents

Description

The invention relates to the field of compressor engineering. . A pneumatic pump is known that contains a float chamber with an inlet and an outlet for the bones, between which there is a flat gate valve and a rigid cap connected thereto. The presence of a significant dead volume reduces the performance of this pump. Another liquid piston compressor is also known, which contains a float chamber with an inlet pipe and an outlet for a liquid that is blocked by a gate valve connected to a rod mounted in a cylindrical guide and equipped with float limit switches 2 Such a compressor is the closest to proposed by the technical entity. However, it has a large dead volume, and the presence of an inlet nozzle that does not overlap during all the pressure and injection pressure in the float chamber at the moment of opening the discharge window increases the time that the fluid is drained from the chamber, which reduces the efficiency of the compressor. The aim of the invention is to increase the efficiency of the compressor. This is achieved by the fact that the chamber is connected by pipelines with containers whose height is equal to the height of the liquid in the chamber, and the valve is cylindrical and inside it is a piston fixedly mounted on the inlet pipe whose outlet end is located coaxially with the outlet window. The rod can be made with an axial channel, which communicates the chamber with the atmosphere, and the upper travel stop of the float is movably mounted on the rod and serves as a stop for the channel. In Fig.1 schematically shows a compressor with a liquid piston, a longitudinal section; figure 2 - the upper part of the rod with the travel stop of the float. The compressor contains a float chamber 1 with an inlet pipe 2 and an outlet window 3 for the liquid, which is blocked by a valve 4 connected to the rod 5 installed in the cylindrical guide 6 and equipped with travel stops 7 and 8 of the float 9. Chamber 1 with pipes 10 to II connected to capacitance 12, height

which is equal to the height of the fluid in the chamber 1. The valve 4 is cylindrical and inside it is a piston 13 fixedly mounted on the inlet 2, the output end of which is located coaxially with the outlet window 3. The rod 5 is made with an axial channel 14, which communicates the chamber 1 with the atmosphere, a, the upper limit stop of stroke 8 of the float 9 is movably mounted on the rod 5 by means of grooves 15 and serves as a shut-off element of the channel 14,

The stop 8 is provided with a spring 16. In the upper part of the stem 5, an opening 17 is made, in which spring-loaded balls 18 are placed, and an annular groove 19 is made in the cylindrical guide 6. The float chamber 1 is provided with a suction valve 20 and a discharge 21

The compressor with a liquid piston operates as follows.

With the discharge port 3 closed by the cylindrical valve 4, flowing through the inlet pipe 2 into the float chamber 1 and the tank 12, the pipeline 10 displaces the compressed air through the discharge valve 21.

At the end of the compression, the float 9, overcoming the force of the spring 16, lifts the travel stop 8 and the float chamber 1 is connected to the atmosphere through the slots 15 and channel 14 in the stem 5.

The pressure in the float chamber 1 is compared with atmospheric. After stroke limiter 8 rises to the height of grooves 15, the float, .9 raises rod 5 until balls 18 fall into annular groove 19. Cylinder valve 4 opens outlet port 3 and closes inlet 2, Liquid level in chamber 1 and the capacitance 12 is lowered and the suction valve 20 opens and the upper limit stop 8, by the action of the spring 16, closes the channel 14 in the rod

When the float 9 reaches the lower limit stop 7 under the action of its weight, the balls 18 exit the annular canal 19, the rod 5 lowers and the valve 4 connected to it closes the outlet port 3 and opens the inlet nozzle 2. Then the cycle is turned.

Connecting to the float chamber 1 tanks 12 reduces the dead volume of the compressor. Execution of the slide 4, which closes the inlet 2 during the suction, is cylindrical, as well as the execution of the stem 5

with an axial channel 14 communicating the chamber 1 at the end of compression with the atmosphere, reduces the time it takes to drain the liquid from the float chamber 1, which generally increases the efficiency of the compressor.

Claims (2)

Invention Formula - 1. A liquid-screw compressor containing a float chamber with an inlet pipe and an outlet for a liquid blocked by a valve connected to a rod installed in a cylindrical guide and provided with float limit switches, in order to increase efficiency, the chamber is connected by pipelines with tanks having a height equal to the height 0 lifting the fluid in the chamber, and the valve is cylindrical and inside it there is a piston fixedly mounted on the inlet pipe, the output end of which is located coaxially in the inlet window. 2. The compressor according to claim 1, is also distinguished by the fact that the rod is made with an axial channel that communicates the chamber with the atmosphere, and the upper travel stop of the float is movably mounted on the rod and serves as a locking member of the channel. Sources of information taken into account in the examination: 5 - Logs I.L. Air pumps, m., Mashinostroenie, 1962, p. 172, p. 64. 2. US patent 2012605, cl. 417-101, 1935. t / .vSSXX