SU1124260A1 - Device for adjusting liquid consumption - Google Patents

Abstract

1. A DEVICE FOR REGULATING THE FLOW OF THE CAPACITY, containing a chamber connected to the reservoir through an inlet, located in the lower part of the chamber, the upper part of which is connected to the control channel, and a liquid discharge unit, in order to expand the field of application and ensure reliability devices, a vertical pipe is installed in the chamber, the upper end of which is connected to the gas volume of the chamber, the lower end is connected to the liquid outlet unit, and a slotted shaped hole is formed on its side surface e. ; C with IC 4; yoo o

Description

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2. A device according to claim 1, characterized in that, in order to reliably shut off the fluid flow, the lower boundary of the slotted shaped hole is located above the level of the inlet nozzle.

3. A device according to claim 1, characterized in that the fluid withdrawing unit is made in the form of a float valve.

one

The invention relates to automatic control systems and can be used to control the flow rates of liquids in various sectors of the national economy.

A device for regul. Liquid flow in pipelines, contains an actuator and a regulator consisting of a housing with fixed seats and a movable plunger with a stem 1. The main disadvantages of the known device are design complexity due to the use of actuators and their mechanical connection with the regulator. , unsatisfactory reliability due to the possibility of fluid leaks through the gland seals of the output rod, gusting of the membranes, separation of the plungers, mechanical damage; rosselnoy pairs resulting from their reaction with drosselir1uemoy liquid, significant equipment cost.

The closest in technology to the present invention is a device containing a supply tank and a chamber with an outlet nozzle, the lower part of which is equipped with a hydraulic shutter, and the upper part of the chamber is connected to a source of compressed air .23.

The disadvantages of this device are the limited scope and low reliability. These drawbacks are due to the fact that the known device provides only a quadratic dependence of the flow rate of the liquid through the outflow hole, depending on the charging effect; allows the possibility of gas passes through the gland seal tube input into the supply tank; requires a mechanical device for moving the piezometer tube; In addition, the device may rub the tube and its misalignment in the guide sleeve; it is permissible to work predominantly with consumable tanks at atmospheric pressure.

0 The purpose of the invention is to expand the field of application and increase the reliability of the device, as well as reliable shut-off of the fluid flow.

The goal is achieved

5 by the fact that in the device for controlling the flow rate of the reservoir containing the chamber connected to the tank through the inlet port located in the lower part of the chamber, the upper part

0 which is connected to the control channel, and a liquid outlet unit, a vertical branch pipe is installed in the chamber, the upper end of which is connected to the gas volume of the chamber, the lower 5th SRI - with the liquid outlet unit, and a slotted profiled hole is on its side surface.

. In addition, the lower boundary of the slotted hole is located above the damage of the inlet nozzle, and the fluid drainage unit is designed as a float gate.

The location of the profiled orifice (outflow) in the wall of the vertical nozzle provides the dependence of the fluid flow both on the magnitude of the fluid level before the outflow cross section and on its area, which changes simultaneously with the variation of the fluid, allowing the desired flow characteristic to be realized. 3 In FIG. 1 is a schematic of a device for controlling fluid flow; in fig. 2 - the same, the variant with the node drainage in the form of a hydraulic seal. The device for controlling the flow of fluid contains a container 1, a chamber 2 with an inlet nozzle 3 and a drainage unit A in the form of a hydraulic (float) valve, a control channel 5, a vertical nozzle 6 with a slotted shaped opening 7. The presence of a fluid removal unit makes it possible to create control pressure in chamber 2 and device nozzle 6; fluid withdrawal from the nozzle and preventing gas from escaping with it. In addition, the pressure in the tank 1 is varied to automatically stabilize the fluid flow rate at a variable level. a control channel connected to the gas volume of the chamber, depending on the target and current value of the hydrostatic column 7 of the fluid in the chamber (elements of the automatic control are not shown in the drawing). The device works as follows. Compressed air through control channel 5 is supplied to chamber 2, creating control pressure in it. The same pressure is established in manifold 6, the upper end of which is connected to the gas volume of chamber 2. Equal pressures in gas volumes of chamber 2 and manifold 6 provide the dependence of the flow rate through hole 7 only from level h pa5 in chamber 2 and the area fpas of expiration. The gas volume is retained in the pipe 6 by a column of liquid in the hydraulic seal pipe. Under the action of the hydrostatic pressure, determined by the liquid levels L f and h p in the tank 1 and chamber 2, respectively, and the control pressure 604, the required flow rate of the tank 1 through pipe 3 into the chamber 2 is established. Under the action of hydrostatic pressure the current height of the fluid in chamber 2, the same amount of fluid from chamber 2 through the slotted shaped hole 7 and flows along the pipe walls (left) of the hydraulic seal, and through the other pipe (right) or the float valve flows the same amount in the liquid. The change in the consumption of zhdarkosti is achieved by changing the control pressure P, ' p. When changing (increasing), a change (decrease) in hpc, 6 column and outflow area of aperture 7 occurs, which leads to a change (decrease) in the flow rate of fluid from chamber 2 through aperture 7 to hydraulic lock 4 and, accordingly, to its output. In this case, in the chamber 2, such a value of the level Lp is established at which the pressure p (hp - hp) - Rupr provides the flow rate from the supply tank through the pat- er, the side 3, equal to the flow rate through the shaped opening. To stop the outflow of fluid, increase until the height of the liquid column becomes zero. At the same time (.. To reliably stop the flow of fluid, the level in chamber 2 is set below the lower section of the profiled orifice. Under conditions of varying levels and / or pressure in the gas volume of capacity 1, stabilization of a predetermined flow rate can be provided by fluids in chamber 2 by varying the control pressure P ,,, „p. The invention provides a reduction in the cost of the device for controlling the flow of fluid.

Claims (3)

1. DEVICE FOR REGULATING THE FLOW FLOW, containing a chamber connected to the tank through an inlet pipe located in the lower part of the chamber, the upper part of which is connected to the control channel, and a fluid drainage unit, characterized in that, in order to expand the scope and increase reliability device, a vertical pipe is installed in the chamber, the upper end of which is connected to the gas volume of the chamber, the lower end to the fluid outlet, and a slotted shaped hole is made on its side surface. Q e 2. The device according to π. 1, characterized in that, in order to reliably shut off the fluid flow, the lower boundary of the slotted shaped hole is located above the level of the inlet pipe. 3. The device according to claim 1, characterized in that the fluid drainage unit is made in the form of a float shutter.