SU310569A1 - HIGH-PRESSURE HYDRAULIC COMPRESSOR - Google Patents

Description

Basically auth. St. No. 293137 describes a high pressure hydraulic compressor for liquid and gas. It contains an actuator, a crank-crank mechanism and a head, in the body of which a plunger with a seal and a discharge valve are located. Moreover, the head is made integral, with a multilayer compression chamber, a seat for the discharge valve and a piston seal, and is equipped with a hydraulic seal with a piston, which has an annular sealing lip. The plunger seal is made in the form of a set of bushings or a single sleeve with a sealing cone, which passes into the mechanical seal and channels connecting the external surface of the sleeve with its internal cavity at the base of the conical part.

The purpose of the invention is to increase the service life of the compressor and simplify its design.

Therefore, in the proposed compressor, the multi-layer compression chamber is a system of concentric sleeves with an annular cavity connected to the discharge line from the end, located between the inner sleeve and the unit of hydraulic support sleeves fastened together, and the annular cavity is connected to the discharge line by means of annular and radial channels, made in the seal on the skeleton of the hydraulic piston.

FIG. 1 schematically shows the head of the proposed compressor; in fig. 2 — compression chamber design; in fig. 3 is a view along arrow A in FIG. 2

The head of the compressor is made of composite and includes a housing 1, a multilayer chamber 2 of compression, a cylinder 3 of a hydraulic lock, a piston 4

water seal, plunger b with sealing sleeve 6 n discharge valve 7.

The multi-layer compression chamber is made in the form of a system of concentric bushings with a cavity 8 connected to the discharge line from the end, located between the inner sleeve 9 and the block 10, which are held together by hydraulic support bushings. The sleeve 9 and the block 10 have the same height and are in direct contact with the driver on the piston 4 of the hydraulic lock and the sealing sleeve 6. For the hydraulic support of the internal sleeve 9, the cavity 8 is connected to the discharge line by means of an annular 11 and 12 radial channels supply of the IB agent being compressed. cavity 8 from the end of chamber 13 located directly behind the discharge valve 7. Centering of the sleeve 9 relative to the block 10

The hydraulic seal nude 4 comes from two pressure generators of pump 15 through a check valve 16 and multiplier 17, which has a differential piston 18. The smaller and larger ends of the piston 18 are affected by the compressor discharge pressure and seal pressure applied to the hydraulic seal piston.

The proposed compressor works as follows.

The agent being compacted enters through the channel in the cornea 1 into the channels of the sealing sleeve biv, when the plunger 5 is in the lower position, it fills the working volume of the compression chamber 2. When moving upward, the plunger, reaching the base of the conical part of the sealing sleeve, closes its channels and compresses the agent. When the pressure of the compressed agent exceeds the pressure behind the valve 7, the latter opens, passing the compressed agent through the channels of the piston 4 of the hydraulic lock to the consumer EO. At the same time, the compressed agent enters through the channels 11 and 12 into the cavity 8, creating hydraulic support for the sleeve 9.

Thus, during the operation of the compressor, the sleeve 9 is unloaded from alternating loads and undergoes compressive stress, which increases its service life. Block 10 is also not subject to alternating loads, since it perceives a constant pressure of a compressed agent. Bringing the agent into the cavity from the end allows increasing the durability of the compression chamber due to the absence of transverse bores, which is

voltage concentrators.

The sealing pressure to the piston 4 of the air seal is supplied in two stages. When the compressor starts, the initial seal is created when the passos 15 are shown. After the compressor starts, the multiplier 17 comes on and as the pressure increases, the pressure automatically increases.

Subject invention

Claims (2)

1.Hydraulic high pressure compressor auth. St. No. 293137, distinguished by the fact that, in order to increase the service life, the multi-layer compression chamber is designed as a system of concentric sleeves with an annular cavity connected to the discharge line located between the inner sleeve and the block of hydraulic sleeves attached to each other. support 2. A compressor according to claim 1, characterized in that, in order to simplify the structure, the annular cavity is connected to the discharge line by means of an annular and radial channels made in the sealing lip of the hydraulic seal piston. -.Sh ;; k; o4 ::. | h - §-l -: r Bud