SU717732A1 - Flowrate regulator - Google Patents

Description

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,; The invention relates to the field of tomato regulation of tomato regulation and can be used for automatic aajp and GO | K DSEH thermal networks.

A device for controlling the flow rate is known, which contains an ovo installed between the inlet and outlet pipework; the diaphragm valve, the control cavity of which is connected via an adjustable choke to the inlet pipe and water and directly to the membrane amplifier, is submembrane and supramembrane cavity of the valve. OUTPUT by pipeline respectively before and after the diaphragm Sh.

: However, in this device it is possible to change the modes of operation. ; -: The purpose of the Invention is to expand the functionality of the device.

This is achieved by the fact that in the hydraulic channel connecting submembas an equal cavity of the amplifier with an output

pipeline, installed throttles with bypass channels, in which the valves are installed in the stationary valves of the nozzle-type pattern.

The schematic diagram shows the design of the device for flow control.

The device contains a diaphragm valve 3 installed between the inlet 1 at the outlet 2 of the piping 6 | W and the control cavity 4 ″. to

These are connected to the outlet pipe 2, respectively, before and after the diaphragm 9 installed on it. In the hydraulic channel 10 connecting the membrane cavity 7 of the amplifier 6 to the output pipe 2 ycTaHOBfleJs of junction points 11–13 with each other channel 14 and 15, in which were installed “Station 1” n 17 controllable damper-type damper valves. The device also contains a start button 18 and an emergency mode relay 19. Diaphragm valve 3 contains a saddle 20, a diaphragm with a hard center 21, controls 4, submembrane chamber 22, a channel 23 with an adjustable choke 5. Amplifier 6 contains a nozzle 24 sec. 25, a diaphragm with a rigid centerbm 26, a spring J7, an adjusting plug 2y with a nut 29, a magnetic winding 30 with a core 31. The start button 18 has an electromagnetic winding 32, a spring 33, a rod with a flap 34 and a nozzle 35. Emergency relay 19 contains nozzle 36, membrane with a hard center 37, pr and 38, the adjusting screw 39. The valves 16 and 17 are connected to the cores 40 and 41, - pressed springs 42 and 43 and equipped with electromagnetic: windings 44 and 45. RnanaHbi 16 and 17 block the nozzles 46 and 47. The supramembrane cavity 8 of the amplifier 6 is connected by a hydraulic channel 48 to an inlet pipe 2. Before the adjustable throttle 5 is installed, the filter screen 49 is mounted. The device works as follows. In the pre-start state, when fluid is injected into the device, the inlet pressure is set in the cavity 4, taK as nozzles 35 and 36 of the start button and the emergency mode relay are covered by the action of the corresponding springs. Under the action of the input pressure force in the control cavity 4, the membrane with a rigid center 21 reliably covers the seat 20 of the membrane valve 3. When exposed (mechanically or electrically tensioned USUSS), the trigger button 18 is removed from the nozzle 35, and the submembrane cavity 7 amplifier 6 through choke 11, submembrannu) the cavity of emergency mode relay 19, chokes 12 and 13, channel 10 is connected to the output pipeline 2. Due to flow in the indicated flow system, amplifier 6 is installed and supported in sub-membrane cavity 7 zhivaets pressure defined by spring force 27. The pressure in claim 4 olosti vvodnog becomes less hard center of pressure and the membrane 21 extends from the seat 2 O, and the membrane valve 3 is set at to. Pensation forces on this membrane. Changing the hydraulic resistances of the adjustable throttle 5, throttles 12 and 13, and tightening the spring 27 leads to a change in pressure in half 4 of the diaphragm valve 3, which changes the flow through the regulator c. the force of changing the equilibrium position of the membrane with a rigid center 21 relative to the saddle 20. Thus, by adjusting the throttles 5, or by turning the nut 29 on i: the rod 28, you can manually change the flow through the device. The remote change in the flow rate through the device is carried out smoothly by changing the ultrasonic voltage on the winding 30 with the core. 31, or discretely applying voltages O to windings 44 and 45 with 4O and 41 cores. Discreteness of the tuning | KI is provided by shunting the chokes 12 and 13 by bypass channels 14 and 15. In the absence of the need for manual tuning, the remote tuning node with throttles 12 and 13 can be set to simplify in front of the amplifier, replace-. 5. If the device needs to operate at emergency pressure with precision, the remote tuning unit should be placed between amplifier 6 and emergency mode relay 19, the output of which should be connected by channel 10 directly to output pipe 2. If there is flow through the diaphragm valve 3 9, a pressure differential is established, - P, the corresponding pressure differential is also established on the diaphragm 26 of the booster 6. Accidentally increasing the flow through the device leads to an increase in The differential pressure across the diaphragm 9 and on the membrane 26, which moves upward, compresses the spring 27 to a new equilibrium state. The nozzle 24 is shut off by a shutter 25. The pressure in cavity 4 rises. The rigid center 21, falling down, covers the saddle 20 and is fixed in a new equilibrium position relative to this saddle, when on the membrane with a rigid center 2.1 there is a compensation of forces corresponding to a reduction in flow rate to. given value. Accidental reduction in flow also results in the recovery of the target flow rate in the described & sequence sequence. In this way /, the device maintains a fluid flow near a predetermined value. When an unacceptable (emergency) down

Claims (1)

Formula and .3 is also found by me. A device for controlling the flow rate, comprising a membrane valve installed between 5 inlet and outlet pipelines, the control cavity of which is connected via an adjustable throttle to the inlet pipe and directly to the membrane amplifier * 10 whose submembrane and supmembrane cavities are connected to the outlet pipe before and after the diaphragm installed on it characterized in that, in order races ¹⁵ extension functionality device in the hydraulic channel connecting submembrane an amplifier cavity with an outlet pipe, throttles with bypass channels are installed, ²⁰ 2 in which remotely controlled nozzle-damper valves * are installed.