SU1474602A1 - Water flow rate controller - Google Patents

Abstract

The invention relates to water management. The aim of the invention is to increase the operational reliability of the device. The goal is achieved by the fact that in the device containing the shut-off element 1, the actuator 2, the sensor 5 of the controlled parameter, the sensor 11 of the start and end of the irrigation, the valve 9, additionally contain separation vessels 19 and 20, each of which is made of concentric elastic containers the inner ones of which are connected to the distributor 9, and the outer ones - to the channels 15 of the control pressure and the switching units 32 and 33. 2 Cp. f-ly, 2 ill.

Description

The invention relates to water management and can be used to automatically control the flow or water level in irrigation canals.

The aim of the invention is to increase the operational reliability of the device.

1 shows the device in the Closed position; FIG. 2 - the same, in the Open position.

The device includes a shut-off element 1, an actuator 2 connected with it from the upper 3 and lower 4 cavities, a sensor 5 of an adjustable parameter, mounted in the receiving tank 6 and connected via a rod 7 to the spool 8 of the distributor 9 with a limiting stop 10. The device comprises a start and end irrigation sensor 11 mounted in the sprinkler 12 associated with the distributor 9 and spring-loaded cylindrical 13 and flat 14 springs. The device comprises a control pressure channel 15, which is fed through the filter 16 by the liquid from the water outlet pipe 17. The distributor rod 7 of the distributor 9 is equipped with sealing bellows 18.

The device also contains two separation vessels 19 and 20, each of which is made of two elastic containers placed concentrically to each other, and contain internal elastic containers 21 о. Dispenser 9 is in communication with channels 22 with actuator 2. Internal elastic containers 21 are connected to drain 23 and the pressure input 24 of the distributor 9 through check valves 25-28. The internal cavities of the elastic containers 21, the distributor 9 and the actuator 2 are filled with a chemically neutral viscous working fluid 29. The external tanks 30 and 31 communicate either with the control pressure channels 15 or with the switching nodes 32 and 33, the drain is installed at each of them. valves 34 and 35, the rods of which are associated with a yoke 36 located on the axis 37 and a spring-loaded spring 38 fixed at one end below the axis 37, which ensures an unstable balance of the rocker arms

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36 at the intersection of the perpendicular axes of the spring 38 and the shaft 36.

The spring 38 is fixed with the ability to control the force by moving the screw 39 while rotating the nut 40. This allows the control pressure to be adjusted. The capacitances of the switching units 32 and 33 are connected to the control pressure channel 15 through normally closed valves 41 and 42 rigidly mounted on movable outlets the valves 34 and 35, the actuators of which are in contact with the beam 36, kinematically connected with the actuator 2. On the control pressure channel 15, chokes 43 and 44 are installed, regulating the time for olneni capacitances of nodes 32 and 33 shift. The yoke 36 is equipped with a stop 45 0

The device works as follows.

When the water level in the sprinkler 12 drops below the minimum (sprinkler turned on), the sensor 11 starts and ends irrigation, acting on the cylindrical 13 and flat 14 springs, flips them to the upper position, together with the pressure input 24 with the lower cavity 4 of the actuator 2, and drain 23 - with the upper cavity 3. Through the control pressure channel 15, water flows through the open valve 41 into the elastic container of the switching unit 32, and from there into the cavity of the external container 30 of the separation vessel 19, is forced out of its internal elastic container 21, the working fluid 29 through the open non-return valve 25 (the check valves 26 and 27 are closed) to the pressure inlet 24 of the distributor 9. At the same time, the working fluid 29 from the drain 23 through the open non-return valve 28 moves to another elastic container 21 of the separation vessel 20, since the cavity of the outer container 31 is in communication with the atmosphere through the open switching unit 33. The locking member 1 opens, the stop 45 releases the yoke 36. In this case, the drain valve 34 of the switching unit 32, closed by the rocker 36 with the spring 38, moves and transfers the rocker 36 when the axis of the spring 38 intersects perpendicular to the axis 37 of the rocker arm 36. The drain the valve 35 opens the valve 42, and the drain valve 34 opens and closes the valve 41. The supply of the working fluid 29 from the internal elastic container 21 of the separation vessel 19 is stopped, while the check valves 25 and 26 are closed. The working fluid 29 from the drain 23 through the open non-return valve 27 moves into the electrolytic tank 21 of the separating vessel 19, since the cavity of the external tank 30 communicates with the atmosphere through the open drain valve 34, and the position of the spool 8 relative to the distributor 9 has not changed. As the pressure rises in the cavity of the outer tank 31, the check valve 26 opens and the working body 29 from the inner elastic tank 21 of the separating vessel 20 moves to the lower cavity 4 of the actuator 2. The oscillation of the rocker arm 36 repeats continuously with the lug 45 released.

1 cyclically opens until the flow rate to the sprinkler 12, controlled by the float sensor 5 in the receiving tank 6, reaches the target.

Upon reaching a predetermined level of water in the receiving tank 6, the mass of the float sensor 5 is facilitated by the buoyancy of the liquid. The rod 7 of the distributor 9 raises the valve 8, separating the upper 3 and lower 4 cavities of the actuator

2, respectively, with a drain 23 and a pressure input 24. In this case, the locking member 1 is installed in a stationary state. With an increase in the pressure of the water outlet pipe 17, the flow through the locking member 1 increases, raising the level in the receiving tank 6. At the same time, the float sensor 5 changes its position, lifting up. The spool 8 of the distributor 9 rises up, together with the pressure inlet 24 and the drain 23, respectively, with the upper 3 and lower 4 cavities of the actuator 2. The locking body 1 is cyclically covered, reducing the flow rate to the predetermined one. At the same time, the float sensor 5

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skaets down. The valve 7 of the distributor 9 lowers the spool 8, separating the upper 3 and lower 4 cavities of the actuator 2, respectively, with the pressure input 24 and the drain 23. The locking member 1 is set in a stationary state. When the pressure in the outlet pipe 17 decreases, the flow through the shut-off element 1 decreases, lowering the level in the receiving tank 6. The float sensor 5 changes its position, lowering down and acting through the rod 7 on the valve 8 of the distributor 9. Pressure input 24 and drain 23 communicate respectively, from the lower 4 and upper 3 cavities of the actuating mechanism 2. The locking member 1 cyclically opens, increasing the flow rate to the desired one. The float sensor 5 rises up and through the rod 7 of the distributor 9 raises the valve 8, separating the upper 3 and lower 4 cavities of the actuator 2 with the drain 23 and the pressure input 24. The locking member 1 is set in a stationary state.

When the level in the sprinkler 12 reaches its maximum value (the sprinkler has turned off), the float sensor 11 of the beginning and end of irrigation reduces its expansion effect on the cylindrical 13 and flat 14 springs and moves them to the lower position. The distributor 9 goes down, together with the pressure input 24 and the drain 23, respectively, with the upper 3 and lower 4 cavities of the actuator 2. The locking member 1 is cyclically closed. The water supply to the sprinkler 12 is stopped. The level drop in the receiving tank 6 does not disturb the communication of the pressure inlet 24 and discharge 23, respectively, with the upper 3 and lower 4 cavities of the actuator. mechanism 2, since the float sensor 5 rests on the limiting abutment 10. The stop 45 locks the rocker 36. One of the arms of the rocker arm 36 remains in contact, for example with the drain valve 34 and the normally closed valve 41. The oscillation process of the rocker arm 36 stops. Here, the control pressure channel 15 through the open valve 41 communicates with the switching unit 32. Since the drain valve 34 is closed, the fluid pressure from the switching unit 32 enters the cavity of the outer container 30 of the separating vessel 19. From the inner elastic container 21 of the same separating vessel, a chemically neutral viscous working fluid 29 through the open non-return valve 25 (the check valves 26 and 27 are closed ) constantly acts through the pressure input 24 of the distributor 9 on the upper cavity 3 of the actuator 2. The lower cavity 4 through the drain 23 and the check valve 28 communicates with the internal elastic container 21 of the separating-g. vessel 20, the cavity of the outer vessel 31 which communicates with the atmosphere through the open drain valve 35. The valve 42 thus closed. The locking member 1 is kept in the closed state until the float sensor 11 of the beginning and end of irrigation transfers the cylindrical 13 and flat 14 springs to the upper position.

The presence of a device actuation zone (hatched in Figures 1 and 2), determined by the maximum and minimum water levels in the sprinkler 12, eliminates the frequent false activation of the device caused by filtration and evaporation of water in the sprinkler 12 (when the sprinkler is off).

Level control in the receiving tank 6 allows water to be supplied to the sprinkler 12 at a predetermined flow range.

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Claims (3)

1. A device for controlling the flow of water, containing a shut-off element mounted on the water outlet pipe and connected to the actuator, an adjustable parameter sensor connected through a rod with the distributor in communication with the actuator, the start and end of the irrigation sensor associated with the distributor case, characterized in that 5 increase the operational reliability of the device, it contains separation vessels, each of which is made of two elastic containers placed concentrically one 0 OTHER, the inner ones of which are connected to the distributor through non-return valves, the outer tanks communicate with the corresponding control pressure channels and nodes 5 switches, on the drain of each of which drain valves are installed, the rods of which are connected to the rocker arm, which is in contact with the actuators of the valves installed on the control pressure channels, the rocker arm being kinematically connected to the actuator. 2. A device according to claim 1, characterized in that the distributor and actuating mechanisms are filled with a chemically neutral viscous working fluid. 3. A device according to claim 1, characterized in that the distributor rod is provided with sealing bellows. 0 five 0 / jr jTjrj // / ffyy / T Z / U / 7U 7 1 7/7 / / / / / UU7 1 / А...///// // /./..A./ Fi8.Ј