SU211114A1 - DEVICE FOR REGULATING WATER LEVELS IN THE IRRIGATION CHANNEL - Google Patents

Description

Devices are known for adjusting the water levels in the irrigation canal, including a shutter with a horizontal axis of rotation, the internal cavity of which through the openings B of its casing, covered by elastic membranes, communicates with the upper and lower tails.

However, to power such devices with a complicated construction, electric power is needed.

In the proposed device for providing pulsed operation, the elastic membranes are connected with other elastic membranes by means of pipelines filled with liquid.

These membranes are mounted to floats in open-bottom containers, which, through pipes that are also filled with liquid, communicate with a source of compressed air and a float located in a variable level pool.

FIG. 1 shows a diagram of the described device; in fig. 2 - shutter with which the water level in the downstream is maintained.

The device includes a container 1, open at the bottom and fixed on axis 2, a lever 3 rigidly connected to the container, limiters 4 strokes of the container, a lever 5 pivotally located on axis 6 which is fixed to a sealed

The container 7, in turn, is fixedly hinged on the axis 8. To the container 7 is attached a rod 9 connected to the membrane 10, which through a pipe 11 filled with liquid is connected to the membranes 12 and 13, in capacity smaller membranes 10 and closing the holes 14 and 15 containers 16 and 17. They contain membranes 18 and 19 moving by floats 20 and 21. The movement of these membranes is transmitted through pipelines 22 and 23, filled with bulk, to membranes 24, 25 in gate 26.

On axis 27, with the help of which an adjustable level is set, a float 2c is fixed, which has a free play in a small range of guides 29. On the stem 30 of the float there is a fixed disk 31.

When the float is moved up, the disk 31 rests on the lever 32 fixed on the axis 55, or in the lever 34 fixed on the axis 35 if the float moves down. The lever 32 in the initial position is pulled by the spring 36 and presses the membrane 37 inward. This membrane is connected through a flexible pipe 38, filled with liquid, with a membrane 39, blocking the opening 40, from which air flows. The lever 34 is attracted by a spring 41 and presses on the membrane 42, which is connected through a flexible pipe 43 to a membrane 44 blocking the opening 45. Air enters the openings 40 and 45 through an air duct 5, on which is located the valve 47 regulating the flow of air coming from the generator through the air duct 48. This air also enters through the valve 49 through the air duct 50 into the tank 1. The described device with the float 28 is located in the well 5 / connected through the opening 52 with an adjustable tail supporting the level 53. Minimum level 54, below which the device does not work, is defined an upper position capacity / (shown in phantom in the drawing).

At low adjustable levels, the device needs to be buried.

In the initial position, the air from the generator through the valve 49 through the air duct 50 enters the tank /, which is gradually filled with air. Its buoyancy increases, and it begins to rise, resting the lever 3 on the lever 5, and gradually pulls back the membrane 10, opening the openings M and 15 containers 16 and 17, from which the air escapes, if there is one.

Gradually, the force of the lever 3 increases, and it disengages from the lever 5. Due to the sharp drop in the force on the lever 3 and the large buoyancy of the tank /, due to the volume of air inside it, it sharply rises. At the same time, all the air from the tank 1 escapes, and the PSD with its own weight begins to fall down. As soon as lever 3 disengages from lever 5, container 7 presses diaphragm 10 upwards, closing openings 14 and 15 with diaphragms 12 and 13. When lowering / lowering the lever 3, the lever 5 will move the lever 5, but as far as lever 5 goes up (it is fixed on axis 6), then capacity 1 will occupy its original position. The period of raising and lowering the capacitance / determines the cycle time between pulses. During operation of the device, the cycle is repeated.

If the water level in the pool is equal to the set point, then the holes 40 and 45 are closed. There is no air in the tanks 1 and 17, the floats 20 and 21 press on the membranes 18 and 19, and the membranes 24 and 25 close the openings in the gate 26.

When the water level in the sensor gauge increases, if the downstream level is adjusted, the float 28 rises and the disk 31 raises the lever 32, overcoming the resistance of the spring 36 and pulling the diaphragm 37 out. Hole 40 will open, and air will begin to flow into tank 16. As soon as air gets below float 20, it will drop under its own weight and the membrane 18 will be pulled down. As a result of this, a 24-volt membrane is nets and will open an opening to the headwater. Water will begin to flow into the gate, and it will be lowered due to a decrease in buoyancy and will reduce the water flow to the lower pool.

The membrane 24 will be retracted until the hole 14 is opened, covered by the membrane 12, then the air from the tank 16 is released, the float presses the membrane 18 up and closes the hole in the gate. The opening time in the gate will determine the pulse time. If the target level has not been established in one pulse, then the device will work again after a pause and will again close the shutter. When the predetermined level is reached, the membrane 37 is pressed and the opening 40 is closed, air will not enter the container 16 and the position of the shutter 26 will not change.

When the water level in the sensor gauge decreases, the float 28 will lower, lever 34 will not have membrane 42 and will open hole 45. Air will begin to flow into tank 17, and when it fills below float 21, membrane 19 will go down. The diaphragm 25 will open the hole in the gate 26 to the lower reach, the water from the closure will begin to flow and the flow to the lower reach will increase. When opening the hole 15, the air from the tank 17 will come out, the float 21 will rise and press the membrane 19 upward, blocking the membrane 25 with an opening in the gate. The cycle will repeat until a predetermined level is reached, when the membrane 44 does not cover the opening 45.

The duration of the pulse and pause is regulated by means of gates 47 and 49.

In the case of using the described device for controlling motors of electrified valves, the signal from the membranes 24 and 25 through additional auxiliary contacts is fed into the control circuit of the electric motor.

Subject invention

A device for adjusting the water levels in the irrigation canal, including a shutter with a horizontal axis of rotation, the internal cavity of which through openings in its housing, covered by elastic membranes, communicates with the upper and lower pools, characterized in that, in order to enable pulsed operation, elastic membranes by means of pipelines filled with liquid, are connected to other elastic membranes installed on floats in containers open at the bottom which, through pipelines also filled the fluid communicates with a compressed air source and a float located at a controlled level pool.

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