SU510613A1 - Hydraulic Shock Absorber - Google Patents

Description

The invention can find application in the oil industry.

A device is known for damping hydraulic shocks in main pipelines operating in pumping mode "from pump to pump" in which case a safety valve and a control unit with two cavities located above it and connected to an air-hydraulic cap are installed above it.

The proposed device differs from limestone in that the air-hydraulic cap. It consists of two chambers connected through a throttle, the bottom of which is connected to the pipeline and one cavity of the control unit and filled with the pumped medium, the separation and working fluids. control unit and filled with working fluid and gas. The choke is made in the form of a piston with a rod interacting with a ball locking element. This makes it possible to increase the reliability of the device in operation.

FIG. 1 shows schematically the described device; on fng. 2 shows a choke section.

The device contains an air-hydraulic cap 1, divided by a partition 2 into two chambers - lower A, filled 1; the first pumped medium, for example, oil, separating fluid (antifreeze) and working fluid, Hs example with kerosene, and upper B, filled with working fluid and gas. Chamber B is connected by pipe nozzle 3 through part II to cavity B of control unit 5 above piston 6. Part of chamber A filled with kerosene is connected by pipe 7 through valve 8 to cavity G of control unit under

the piston 6, and through the pipe 9 through the throttle 10 with the chamber Bis cavity B. The control unit is equipped with a partition 11, and the piston 6 with a rod 12 with a locking member 13 and a spring 14.

Under the control unit, a safety valve 15 is installed with a shut-off element 16 and a spring 17. The upper part of chamber A is connected 1a by a branch pipe 18 and a bevel; a sleeve 19 with a cavity D of a safety valve under

shut-off valve IG and branch pipe 20 with valves. 21 with cavity E of the safety valve. Under the valve body 16, a container 22 is made, communicating with a pipe 23 with a mucus reservoir 24. A cavity D is connected with a main pipeline 25 pipe nozzles 26 with a valve 27.

The throttle 10 (see Fig. 2) includes a housing 28 with an upper cone-shaped part and a saddle 2 2. In the lower part of the throttles cylinder 30 is spaced out with the porn 31 and the stem 32, interconnecting with the ball locking organ: ohm 33, installed: n: o in the directors 34. Through the channel a to the cavity of the cylinder 30::; pumped under pressure , the minimum worker in the pipeline 25 and the receiving DZ (see. 1).

The device works in the following way.

The pumped medium enters through the pipes 26 and 20 in the cavity D and the Safety valve 15, which iodine is closed by the action of the spring 17 and times). Impulvs pressure through the pipe 18 enters the chamber A. air-hydraulic cap 1 and then through the pipe 7 into the cavity G of the control unit. Once the ip is impulse dailepn through the pipe 9 through the throttle 10 and pipe 3 enters the cavity B of the control unit and into the chamber B of the air-hydraulic-hydraulic cap. The control unit piston 6 presses the locking member 13 to the seat.

With a sharp increase in pressure, the piston 32 of the piston 31 of the throttle 10 lifts the ball valve 33 and presses it to the seat 29. As a result, a differential pressure occurs in the control unit, the piston 6 with the valve 13 rises, and the fluid from the cavity C enters the chamber B by compressing the gas, and the liquid from the cavity E of the safety valve 15 is discharged through the pipes 36 and 23 into the tank 24.

Under the action of the differential pressure on the piston 16, a safety valve opens.

; | K1 of the dowel from the pipeline 25 chorosis capacity 22 and the pipe 23 is discharged into the tank 24.

After shlranshshalpl pressure) in kamerera L and L I1TOK 32 Drossel 10 op. Can. expression: ia; oT (: -H pressure in cavities. x C and D, pre.Yu.crushing valve for), stops the discharge of the medium from the 1p pipeline.

Formula li 3 o b e e n i

Claims (2)

1. VcTpoiicTBo for ranienHH hydraulic racks, blows in main pipelines, working in pumping mode "from pump to pump, in the case of which fuse protection is installed; I-body valve and located above the bottom control with two cavities connected to the pipeline and air -Hydraulic cap, differs by the fact that, with no increase in the reliability of the device in operation, the air-hydraulic cap is shaped in the form of two chambers connected through a choke, the bottom of which is connected to the pipeline and to one cavity of the control unit ij and filled perekach1: Vai medium and separating the working fluids, and the upper is connected to another unit and -iravleni cavity filled with liquid and gas. 2. A device according to claim 1, characterized in that the throttle has a mouth; a spherical locking element is juvny and an IOROT PORPSH acting on it, play the pressure of the pumped medium. uz.2