RU41831U1 - HYDRAULIC SHOCK ABSORBER - Google Patents

Abstract

The utility model relates to the field of mechanical engineering and can be used to protect against pressure shocks pressure piping systems transporting various liquids, including contaminated ones. The objective of the proposed utility model is to increase the reliability of the damper and expand its scope for shock protection of pressure pipelines transporting not only clean water, but also other liquids containing various impurities and contaminants. The technical result is achieved by the fact that in a shock absorber comprising a housing with a drain line, inside which a relief valve is installed, which is tightly adjacent to the seat and spring-loaded relative to the piston, over which there is a cavity filled with liquid medium and connected through a pulse tube through a throttling element with a separator environments, made in the form of a bellows shell, in the lower part of the housing under the seat of the relief valve there is a cavity in communication with the protected pipeline, in which is fixed n a medium separator, moreover, the liquid medium filling the cavity above the piston and the medium separator is homogeneous, and the drain line is installed perpendicular to the axis of the damper above the valve seat.

Description

The utility model relates to the field of mechanical engineering and can be used to protect against pressure shocks pressure piping systems transporting various liquids, including contaminated ones.

Known damper valve for hydraulic shocks, comprising a housing with a hole for discharging water, inside of which there is a poppet valve that opens when significant pressure increases in the system and spring-loaded relative to the piston, over which there is a cavity filled with pumped liquid and connected through a connecting tube through a throttling element with a cavity in the lower part of the damper (Dikarevsky V.S., Zyryanov V.P., Tatura A.E. Shockproof protection of closed irrigation networks. - Moscow: Kolos, 1981, p. 25).

This device is mainly used for shockproof protection of pressure pipelines operating in clean water, which limits the scope of use of this damper valve due to the presence of rapidly clogging parts in its design (connecting pipe with a throttling element).

The closest device of the same purpose to the proposed facility is a shock absorber containing a housing installed on the pipeline section with windows for discharging fluid and a drain line, inside of which there is a relief valve with a tapered seating surface that opens when significant pressure increases in the system occur, and a piston spring-loaded relative to the relief valve, with the formation

cavity filled with antifreeze fluid, where pressure from the pipeline is transmitted through the medium separator with a throttling element, the drain line is installed vertically downward and aligned with the relief valve in a live section of the pipeline, and the medium separator is made in the form of a bellows shell and fixed along the axis of the pipeline. (USSR author's certificate N1583695, F 16 K 47/02, F 16 L 55/02, 1990). This device is taken as a prototype of the proposed utility model.

For reasons that impede the use of the known device for protection against pressure-hardening pressure pipelines supplying, including contaminated liquids, is the possibility of clogging the damper with the impurities contained in the transported liquid. The hydraulic shock absorber adopted as a prototype is more often used to protect pressure piping systems operating at low temperatures. In this regard, the absorber with the drain line is placed in a live section of the pipeline, which creates additional hydraulic resistance in the operating mode, and also complicates the routine inspections and repair of such a damper, since it requires the interruption of fluid supply through the pipeline for an appropriate period of time.

These shortcomings prevent the widespread use of this damper for pressure piping systems for various purposes, including those transporting domestic and industrial wastewater.

The objective of the proposed utility model is to increase the reliability of the damper and expand its scope for shock protection of pressure pipelines transporting not only clean water, but also other liquids containing various

impurities and pollution, as well as reducing the hydraulic resistance of the pressure system and improving the conditions for routine inspections and repair of the damper.

The technical result is achieved by the fact that in a shock absorber comprising a housing with a drain line, inside which a relief valve is installed, which is tightly adjacent to the seat and spring-loaded relative to the piston, over which there is a cavity filled with liquid medium and connected through a pulse tube through a throttling element with a separator environments, made in the form of a bellows shell, in the lower part of the housing under the seat of the relief valve there is a cavity in communication with the protected pipeline, in which is fixed n a medium separator, moreover, the liquid medium filling the cavity above the piston and the medium separator is homogeneous, and the drain line is installed perpendicular to the axis of the damper above the valve seat.

The drawing shows a General view of the shock absorber with its installation on the protected pipeline. The damper comprises a housing 1 with a drain line 2, mounted on the branch pipe 3 of the protected pipeline 4 through the valve 5. Inside the housing there is a relief valve 6, which is tightly adjacent to the seat 7 and spring-loaded relative to the piston 8, over which there is a cavity 9 connected by a pulse tube 10 through a throttling element 11 with a medium separator 12, made in the form of a bellows shell. The system cavity 9 - bellows 12 is filled with a homogeneous liquid medium (for example, machine oil). In the lower part of the device under the seat 7 of the relief valve 6 there is a cavity 13 in which the media separator 12 is fixed. The drain line 2 is installed perpendicular to the axis of the damper above the seat 7 of the relief valve 6.

The shock absorber works as follows.

Under normal operating conditions and operating pressure in the pipeline 4, the valve 6 is pressed tightly against the seat 7 due to the pressure transmitted from the media separator 11 to the cavity 9 and acting on the piston 8, spring-loaded relative to the valve 6. The hydraulic load pressing the valve 6 to the seat 7, due to the fact that its area is less than the area of the piston 8.

With water hammer, the pressure in the pipe 4 under the valve 6 increases. At the same time, the media separator 11 is fixed in the cavity 12. The pressure is transmitted to the cavity 9 with some delay due to the stable hydraulic resistance of the throttling element 11 in the impulse tube 10 to the movement of the fluid filling the medium separator 12 - cavity 9. Due to the indicated delay, the pressure on the valve 6 from the side of the pressure pipe 4 for a short time exceeds the pressure acting on the piston 8 from the side of the cavity 9. The valve b rises, and part of the liquid from the pipe Yes 4 along the discharge pipe 3 is discharged along the drain line 2. In this case, the pressure in the pipeline 4 decreases, the valve 6 closes and the discharge of liquid stops.

A change in pressure in the pipeline 4 during a water hammer causes the valve 6 to open and close in the optimal mode when the damper is used in pressure systems that transport both pure water and other liquids containing various impurities and impurities. The installation of a damper on the branch pipe 3 of the protected pipeline 4 does not cause significant hydraulic resistance in the pressure system, and also makes it possible to carry out routine inspections and repairs of the damper without violating the operating mode of the pressure line.

The utility model relates to differential absorbers with a hydraulic load, so the device only responds to a significant pressure difference. The same damper successfully operates at different pressures, it can be installed immediately for a group of pumps with different parameters, and no special adjustment of the device is required, since it is carried out automatically in accordance with the pressure change.

Such a damper can be installed both in the building of the pumping station with the discharge of discharged liquid into the receiving tank, and in any well along the length of the pipeline with the discharge of liquid into the wet compartment. The volume of fluid discharged by the valve is usually small and amounts to several tens of liters.

Claims (1)

A hydraulic shock absorber comprising a housing with a drain line, inside which a relief valve is installed, which is tightly attached to the seat and spring-loaded relative to the piston, over which there is a cavity filled with liquid medium and connected by a pulse tube through a throttling element with a medium separator made in the form of a bellows shell characterized in that in the lower part of the housing under the seat of the relief valve there is a cavity in communication with the protected pipeline, in which the media separator is fixed, it liquid medium filling the cavity above the piston and a spacer medium is homogeneous, and a drain line mounted above the axis perpendicular to the absorber the relief valve seat.