SU859560A1 - Apparatus for interrupting liquid jet - Google Patents

Description

(54) DEVICE FOR BREAKING A JET FLUID

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The image relates to mechanical engineering, in particular, to devices for breaking a jet of liquid, and can be used in production-drinking water supply systems to ensure the preservation of pressure during a jet break and control of system parameters.

A known tank for bursting a jet includes an open tank, a float valve and a piping system.

The drawback of the device is that in order to provide operating parameters in the system, additional installation of the feeder is required, and the pressure of the fluid in the supply network is not used.

The closest to the proposed technical essence and the achieved result is a device that includes a sealed tank communicated with a source of compressed air, to the upper part of which a fluid supply pipe is connected, and to the lower part - a discharge pipeline equipped with stop valves 1.

There is no possibility of obtaining stable parameters of the fluid exiting the device when the parameters fluctuate in

The supply network, as well as their regulation, limits the scope of application of the known device for jet breaking.

The purpose of the invention is to increase the stability of operation when pressure fluctuates in the supply line and to provide pressure control in the discharge line.

The goal is achieved by the fact that a cylindrical container installed in the upper part of the reservoir to break the jet

.Q and designed to regulate the intake and outflow of fluid, is provided with two coaxial pistons, and its lower end, which is connected to the reservoir, is provided with windows.

15 The drawing shows a device for bursting a jet of liquid, a general view.

The device for bursting a jet of fluid consists of a hermetic tank 1 communicated with the atmosphere through a tube 2 having taps 3 and 4 and pointers 5

20 levels. To the top of the tank is connected to the pipeline 6 for supplying fluid, equipped with a check valve 7, a valve 8 and a shut-off device 9, and

the lower one has a discharge pipe 10 having a check valve 11 and a valve 12. In the upper part of the tank 1 there is a cylindrical container connected to a liquid source by a pipe 13, equipped with a shut-off device 14 and a check valve 15, and with the atmosphere through a tube 16 having device 17 and check valve 18.

The cylindrical tank consists of a cylinder 19, in the lower part of which discharge ports 20 and lower stops 21 of the free gear 22 are made, and in the middle part - upper limit stop 23 of the free piston 22. The drive pist 24 is connected via a hollow rod 25 to the drive (not shown ). The free piston 22 has a shaft 26 centrally entering the hollow rod 25 and the drive piston 24 with the possibility of axial movement. A seal 27 is made between the rod 26 and the hollow rod 25. The check valves 28 are installed on the windows of the cylinder 19. There is a seal 29 between the cylinder 19 and the drive valve.

The device for bursting the jet works as follows.

The tank 1 is supported from the fluid and filled with air when the valves 8 and 12 are closed and the valves 3 and 4 are open. Then the valves 3 and 4 close and open the valve 8 on the supply pipe 6. The fluid from the network enters the tank 1 and compresses the existing there is air in it. When the compressed air pressure is equalized with the pressure in the supply network, the flow of liquid is stopped. With a steady-state pressure of fluid in the supply network after opening the valve 12 on the discharge pipe 10, the system works without switching on the cylindrical container, and the amount of fluid flowing through the supply line into the tank corresponds to the amount of liquid decreasing through the discharge pipe 10. Pressure on the output of the device is equal to the pressure of the fluid in the supply network. When the pressure of the fluid in the inlet pipe 6 decreases, the check valve 7 prevents air from the tank 1 into the inlet network, while to maintain the liquid parameters when the jet breaks through a pressure sensor installed on the inlet pipe (not shown), it automatically turns on The cylindrical container with the forces 22 and 24 is closed, the locking device 9 is closed, and the locking device 14 is opened. The cylindrical container provides forced supply of fluid to the tank 1.

During the operation of the cylindrical tank during the movement of the drive surface 24

upward, the liquid from the supply pipe 6 is sucked through the valve 15 into the upper part of the cylinder 19, while the free piston 22 under the action of compressed air in the tank 1 with the closed valves 28 of the windows 20 goes up to the upper position limiter 23.

A breakthrough of compressed air into the atmosphere prevents sealing 27 on the brush 26. When the drive unit 24 moves downward, the liquid filling the interpickled space acts on the free piston 22, moving it down to the lower limiter 21, the non-return valve 15 is closed, and the liquid is discharged openings 20 with check valves 28 are injected into reservoir 1. Seal 29 between the actuator 24 and the cylinder 19 prevents fluid from leaking behind the actuator piston 24.

When the driving piston 24 moves upward, the free piston 22 under the action of compressed air of the tank 1 returns upwards to the restrictor 23, while the check valves 28 of the discharge ports 20 cut off the air access from the tank to the interstitial space. Then the cycle repeats.

If it is necessary to increase the pressure of the fluid at the outlet of the device, regardless of the pressure in the supply network, atmospheric air is pumped into the reservoir 1 by means of a piston feeder, which flows through the tube 16 and the check valve 18, and the locking device 17 opens.

The operation of the piston feeder is automated by means of pressure sensors (not shown) depending on the pressure of the liquid in the supply pipe 6 and the reservoir 1. The performance of the piston feeder is controlled by changing the operating mode of the drive (not shown).

In the present invention, the reliability of operation is high with a wide range of fluid pressure differences in the supply and waste line x.

Claims (1)

Invention Formula A device for bursting a jet of fluid, containing a sealed tank connected to a source of compressed air with a cylindrical container installed in its upper part, supply and discharge pipelines with shut-off valves, characterized in that, in order to increase the stability of operation during pressure fluctuations in the supply line and providing pressure regulation in