CS241901B1 - Equipment for relieving and regulating the power of the piston compressor - Google Patents

Abstract

The device relates to the field of piston compressors. It solves the problem of relieving and regulating the compressor output by pushing the suction valve sealing plate away in a more advantageous manner. The essence of the solution lies in the fact that the suction valve sealing plate rests with the inner side of the annulus on the inner seat formed in the horizontal part of the cylinder liner. The outer part of the annulus of the sealing plate rests on the outer valve seat formed by the annular part of the hydraulic piston, which is slidably guided by the inner wall of the cylindrical collar of the valve plate in the direction of the suction valve sealing plate stroke and back. The upward movement is provided by springs resting on the bottom of the hydraulic cylinder from the outside. The downward movement is created by oil pressure on the inner bottom of the hydraulic piston. Coil springs stored in the buffer, which is part of the valve plate, press the sealing plate into both seats during operation.

Description

BACKGROUND OF THE INVENTION The present invention relates to a device for relieving and regulating the power of a reciprocating compressor by forcing the sealing plate of an intake valve. In most cases, reciprocating compressors use a variety of devices to relieve and regulate performance, the common feature of which is the use of pins which, by means of a control intervention, push the sealing plate of the suction valve away from the seat. This ensures that the compressors are lowered. Decommissioning the individual cylinders then allows the compressor to be regulated. The necessary force on the pins is exerted by the pressure oil through the hydraulic cylinder with the piston.

A drawback of these types of control device designs is that they require the complex manufacture of cylinder liners with drilled or cast suction holes and the machining of the valve seat for the sealing plate. The sealing plate is stressed by the pin pressure, which reduces its service life. Mechanical devices are expensive and are in hard to reach parts of the compressor. It is therefore very difficult to remedy possible failures, as it involves the removal of the cylinder liners and other series of parts.

These drawbacks are eliminated to a large extent by the design of the device for attenuating and regulating the performance of the piston compressor according to the invention, but in the upper part of the piston compressor casing a coaxial cylindrical space enclosed from above by a valve plate forms at the same time a bumper for the intake valve sealing plate. The valve plate forms with its inner crown the upper guide of the cylinder insert, the horizontal part of which forms the inner seat of the suction valve. The cylindrical outer collar of the valve plate forms a ring-shaped hydraulic piston with its inner wall. Its upper surface is the outer seat of the intake valve. The bottom of the hydraulic piston bears from the outside of the springs with a higher contact force than they should

241 901 sealing plate spring elements embedded in the bumper. The outer collar of the valve plate is sealed to the compressor housing and to the annular part of the hydraulic piston. Between the valve plate collar and the inner part of the bottom of the hydraulic piston there is a pressure oil supply outlet.

The design of the apparatus for relieving and regulating the power of a reciprocating compressor according to the invention has many advantages. First, it allows the progressive production of plain cylinder liners without seat flange with drilled or cast suction holes. Another advantage is that the suction cross section in the cylinder liner is enlarged. The solution creates good accessibility to equipment parts and valves. The short strokes of the hydraulic system in the stroke size of the intake valve sealing plate create conditions for minimal wear on the sealing surfaces. This is also associated with increased service life and, due to the small number of parts, reduced labor and material savings. This positively affects the economic side of production.

The attached figure shows an exemplary embodiment of a device for pushing and regulating the power of a reciprocating compressor according to the invention. A vertical section of the refrigerant compressor casing with its own assembly is shown. In the left half of FIG. 1, the suction valve is shown open and in the right half of FIG.

In the bore of the compressor casing there is a cylinder liner 2, the recess of which is fitted with a snap ring 5, which bears on the lower machined part of the casing 7. In the upper part of the casing 5 a coaxial cylindrical space is formed. 4, which simultaneously forms a bumper 5 for the inlet valve sealing plate 6. The cylinder liner 2 is pressed into the housing 1 by the inner crown part of the valve plate 4 and at the same time guided in its upper part. The horizontal upper part of the cylinder liner 2 forms the inner valve seat 7. The cylindrical outer collar 8 of the valve plate 4 forms, with its inner wall, a guide for the annular portion 9 of the hydraulic piston 10, the horizontal upper surface of which is the outer valve seat 11. At the bottom of the hydraulic piston 10, the outer sides of the spring 12 have a greater contact force than the coil springs 15 of the sealing plate 6 housed in the bumper 5. The collar 8 of the valve plate 4 is sealed with sealing rings 14 relative to the housing. 8

241 901 and the inner part of the bottom of the hydraulic pit 10 accommodates the outlet of the pressure oil supply 15. The valve plate 4 is adequately pressed into the working position by means of the fasteners 16 and nuts 17 mounted on the screws 18 drilled in the housing body. For the sake of completeness of the assembly, the discharge valve 19, its pressure springs 29 and the lid 21 are also shown.

The function of the device results from the left and right half of the picture. The springs 12 (left half of FIG.) Overcome the lower pressure of the coil springs 13 so that the annular portion 9 of the hydraulic piston 10 is lifted. The outer seat 11 of the annular portion 9 lifts the inlet valve seal plate S to the bumper 5 of the valve plate 4. The inlet valve is open, does not work, and allows the compressor to start lightly. After starting the compressor (right half of the figure), the pressurized oil supplied by the pipeline moves from the distributor above the bottom of the hydraulic piston 10 downwards until the cylinder liner 2 is fitted. The intake valve sealing plate 6 is pressed by the inner ring on the inner valve seat 7 and the outer valve seat 11 by means of coil springs 13. The two seats 7, 11 are flush. The suction valve is closed. The compressor starts working.

Claims (1)

OBJECT OF THE INVENTION 241 901 A device for relieving and regulating the performance of a reciprocating compressor by depressing the intake valve sealing plate, From the upper part of the compressor casing (1) a coaxial cylindrical space enclosed from above by a valve plate (4) is formed along the outer periphery of the cylinder liner (2), which simultaneously forms a bumper (5) for the suction valve sealing plate 4) with its inner crown forms the upper guide of the cylindrical flakes (2), the upper horizontal part of which forms the inner seat (7) of the suction valve, while the cylindrical outer collar (8) of the valve plate (4) of the hydraulic piston (10), the upper surface of which is the outer seat (11) of the suction valve, while the bottom of the hydraulic piston (10) bears from the outside of the spring (12) with a higher contact force. the springs (13) mounted in the bumper (5), the collar (8) of the valve plate (4) being both relative to the compressor housing (1) and to the annular part (9) of the hydraulic The outlet (15) of the pressure oil supply (15) from the distributor is mounted between the collar (8) of the valve plate (4) and the inner part of the bottom of the hydraulic piston (10).