SU976210A1 - Device for damping hydraulic shock - Google Patents

Description

BACKGROUND OF THE INVENTION The invention relates to damping devices that occur in pipelines during sudden pump stops.

A device for damping hydraulic shock is known in whose case, provided with a tap, a rotary butterfly valve is attached, which is connected to a damper mechanism, which is moved in the tap and acts on the fixation element of the known device, is complicated in design and is not reliable enough, since the damper mechanism is associated with a butterfly valve, in connection with which the bias is possible and the dimensions of the device are increased.

The aim of the invention is to improve the design and increase reliability.

The goal is achieved by the fact that the damper mechanism is made in the form of a camera mounted on a disk gate with a calibrated hole in the wall and placed in an x1mera elastic cylinder with a hard bottom, and a channel is made in the rotary disk gateway blocked by an elastic cylinder

The drawing shows the proposed device.

The device comprises a housing 1, in the cavity of which a disk valve 2 is installed with channel 3, a damper mechanism including a chamber 4 with a cylinder 5 located inside with elastic walls 6, a hard bottom 7 and a lid with a calibrated orifice 8. At that, chamber 4 is at a disk gate 2 forms two cavities A and B with varying volumes. Moreover, channel 3 is blocked by cylinder 5, while bottom 7 is larger than the area of the disk gate ring 2. Moreover, in the upper extreme point of the disk valve 2 a lock is installed in the form of an electromagnet 9, obm TCA is included in the circuit of the pump motor.

Hydraulic shock absorber works as follows.

Claims (1)

When you turn on the pump, the fluid flow inside the housing 1 acts on the bottom 7 of the cylinder 5 and the disk shutter ring 2, but since the area of the bottom 7 is greater than the area of the ring of the disk shutter 2, the flow of liquid moves the bottom 7 all the way down, compressing the elastic wall 6. the fluid from cavity A through the calibrated orifice 8 flows into cavity C. As a result, channel 3 opens, and the liquid from cavity C partially flows into the cavity D. With a further increase in the pressure of the fluid flow created by the pump, the disk shutter 2, together with the damping mechanism including the chamber 4, moves to the upper position to the electromagnet 9, which sharply attracts the cylinder head 5 and tightly closes the calibrated orifice 8, since the cylinder head 5 serves as a bark electromagnet 9. In addition, the winding of electromagnet 9 is included in the motor circuit of the pump, so they are turned on and off at the same time. When the pump is suddenly turned off, the electromagnet 9 is softened and the valve 2, together with the damping mechanism, returns to the lower position under the influence of their weight and the reverse flow of fluid in the pipeline. In this case, the disk shutter ring 2 is tightly pressed against the seat so that the reverse flow fluid ne. It flows from the upstream to the downstream only through channel 3 until it is completely blocked by cylinder 5. Moreover, the time for blocking channel 3 is regulated by the filling time. cavity A of the cylinder 5 with a liquid through the calibrated orifice 8 on the lid of the chamber 4. After filling the cavity A, the cavity B is equivalently reduced to the minimum volume, at which channel 3 completely closes with cylinder 5. Thus, during channel 3 closure 5, after the pump is turned off, a partial flush of backflow liquid occurs. The result is a hydraulic shock in the pipeline that occurs when the pump is suddenly turned off. The technical and economic effect of the invention is to simplify the design and increase the reliability of the device. Claim device Hydraulic shock absorbing device, in the case of which, provided with a tap, is mounted a rotary butterfly valve connected to a damper mechanism moved in the tap and acting on the fixation element, characterized in that, in order to simplify the design and increase reliability, the damper the mechanism is made in the form of a camera mounted on a disk shutter with a calibrated hole in the wall and an elastic cylinder with a rigid bottom placed in the chamber, and in a rotary disk shutter The channel blocked by the elastic cylinder is flax. Sources of information taken into account in the examination 1. USSR author's certificate 815415, cl. F 16 L 55/02, 1979.