SU1643840A1 - Check valve - Google Patents

Abstract

The invention relates to pumping engineering and makes it possible to increase the reliability of a non-return valve in operation by extending the range of valve closure under reduced fluid pressure. The saddle 3 is made at the bottom of the body 1. The disc spool 5 is made together with the fairing 8, reinforced with a rod 9 passing through the spool lifting limiter 5. The saddle 3 is designed as a protruding truncated cone with an annular surface on a smaller base. In the spool 5 is made annular groove 6

Description

Extreme position

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different diameters tsrtsov. In the groove 6, a resiliently loaded flat elastic ring 7 is cantilevered. The ring 7 is installed on the basis of the groove 6 with radial tension and with the possibility of an elastic turn in the plane of the groove 6 its console. The invention relates to pump construction, in particular, to the design of receiving check valves of centrifugal pumping stations .

The purpose of the invention is to increase the reliability of operation by expanding the range of locking the valve under reduced fluid pressure.

FIG. 1 shows a check valve in a closed receiving state, a cross section; in fig. 2 - the same, in the closed working state.

The check valve consists of a stacked housing 1 made of injection molded plastic — polyethylene, at the bottom of which concentric with the inlet 2 is a saddle 3 in the form of a protruding hollow truncated cone with a flat annular surface 4 on a smaller base. Inside the housing 1, a spool 5 with an annular groove 6 and a ring 7 cantileverly placed therein is freely placed. The spool 5 of a mushroom shape is made of hard rubber together with a fairing 8, reinforced by a rod 9 with a nut 10 passing through the spool lifting stop 11. The valve is provided with a filter 12. The ring 7 is made of flat elastic rubber with an inner diameter smaller than the diameter of the base of the groove 6.

Due to radial tension when mounted on the die 5 and disproportionate stretching, the ring 7 assumes a bell-shaped shape towards the smaller end of the groove 6 inclined at an angle, for example, corresponding to the taper of the saddle.

The console part of the ring 7 is made with the possibility of turning in the plane of the groove of the spool 5. Due to the elastic properties of the material, the tapered part of the ring 7 fits the smaller mountaineer of the groove 6 of the spool 5.

The valve with a thread on the upper part of the housing 1 is screwed onto the pump suction pipe and vertically immersed with it into the working medium, for example, a water tank. With this cantilever part, the ring 7 rests on the conical surface of the saddle (due to the excessive weight of the spool) and fits it.

Before starting the pump through a filling device connected to the suction

parts. Under the action of an operating overpressure exceeding the elastic forces of the ring 7, the cantilever parts unfold and the ring 7 is clamped between the flat surfaces of the saddle 3 and the large diameter of the groove 6. 2 Il.

the pipe is filled with a volume of water filling the space above the bottom of the housing to the pump.

Under the action of overpressure caused by a column of filled fluid and the weight of spool 5, the console part of the ring 7 moves along the lateral surface of the saddle and, due to its elasticity and elasticity, compresses the surface of the saddle with an increase in proportion to the increasing excess pressure, blocking the flow of water into the tank.

When the pump is started, a vacuum is created over the spool 5, and an overpressure (external) causes the spool 5 to rise above the saddle 3, i.e. the valve opens and fluid flows from the reservoir.

When the pump is stopped, the valve closes, i.e. Above the spool 5, an excess working pressure is created due to a residual column of fluid in the pipeline, which is many times the excess pressure when the fluid is poured before starting. Under the action of this working pressure, exceeding the elastic force of the ring 7, the cantilever parts of the ring unfold in the groove 6 of the spool 5, and the ring 7 is clamped between the flat surfaces of the saddle 7 and the larger diameter of the spool 5. And the excess pressure (external) during suction water also provides a reversal of the ring 7, which reduces the hydraulic resistance during operation of the pump.

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Claims (1)

Invention Formula A check valve comprising a housing with a seat, a disk spool with a fairing and a spool lift limiter, characterized in that, in order to increase reliability of operation, the saddle is made in the form of a protruding truncated cone with an annular surface on a smaller base, an annular groove with different diameters of the ends is made in the spool, and an elastically loaded flat elastic ring mounted on the base of the groove with a radial tension and with elastic turn in the plane of the grooves of its console parts. FIG. 2