SU1208154A2 - Arrangement for regulating water flow in vertical drainage holes - Google Patents

Description

one

The invention relates to the control of the mode of operation of the amelioration and water supply systems and can be used in vertical drainage installations during their automation.

The purpose of the invention is to increase the reliability of the pumping unit by eliminating water hammer.

The drawing shows a diagram of the device

 An asynchronous electric drive 1 with a pump unit 2 on the shaft is connected to an alternating current source 3 via a thyristor controller 4 "The latter is connected to the control unit 5, which has an anode 6 and a cathode 7 group. A voltage proportional to the speed of rotation is supplied from the speed sensor 8 to the input of the comparison node 9, to the second input of which, through the closing 10 and disconnecting 11 contacts of the voltage relay 12, are connected the outputs of the setting device 13 of the rotation speed and, o, d, and the setting device 14 of the rotation speed of the variable-speed electric drive. The sensors 14 connected to the output of the sensor 15, the presence of sand in the pumped water, the relay coil 12 is turned on to drive the date-ball-8 rotational speed

The output of the comparison unit 9 is connected to the inputs of the control unit 5. At the same time, the output of the setpoint 18 of the braking intensity is connected to the input of the anode group 6 of the control unit 5 through the closing contact 16 of the reverse flow sensor 17

electric drive u

Thor

The device works as follows

When the actuator 1 is connected to the current source 3 at the time of start-up, the voltage of the sensor 8 is speedy zero and the voltage from the unit 14 of rotational speed of the electric drive with a variable setpoint is fed to the input of control unit 5 of the anode 6 and cathode 7 groups, whose control pulses The regulator 4 thyristors 4 In this case, the contact 16 of the sensor 17 of the reverse flow is closed and the brake decelerator 18 is disconnected. As the drive 1 is heated, the voltage of the speed limiter 8 increases, thus bringing

0 5 0

five

0

five

five

542

rotational speed of electric drive 1 is given

The presence of a correction signal from the sensor 15 presence of sand in water reduces the speed of rotation of the electric drive 1, as this decreases the voltage of the setpoint 14 of the rotation speed of the electric drive with a variable setting

This decrease occurs until the sanding stops. At the same time, the rotation speed of the electric drive 1 of the pump unit 2 decreases. If there is no signal from the sand sensor 15, the voltage of the setting device 14 increases, which leads to an increase in the rotation speed of the electric drive 1 Upon completion of the soft start of the well, the relay 12 is triggered, its closing contact 10 connects the speed setting device 13 to the node 9 of the comparison with a constant voltage

The magnitude of the voltage U, g and the response voltage of the relay are set corresponding to the nominal rotation speed of the electric drive 1, then the pump unit operates at the nominal speed.

At the same time, the anodic 6 and the cathode 7 of the thyristor group of the regulator 4 are locked and the drive of the electric drive 1 o occurs. The remaining water in the pipeline starts to flow back, the reverse flow sensor 17 turns on, closes the contact 16 and the voltage from sensor 18 electric drive braking intensity Unlocking pulses appear in the anode group 6 of the thyristor controller 4, the rectified current is applied to the windings of the asynchronous electric drive 1, as a result of which it is dynamically braked the water in the pressure pipe going back to the well gradually decreases

At a certain speed of the reverse flow of water in the pipeline, the sensor 17 of the oblate flow turns off and opens the contact, 16, with

3 1208154

this removes the dynamic braking of the reverse flow switch of the drive unit 1, increases the pendulum

backflow rate, rainbow relay In the system can be

contact 16 is closed, a time delay occurs in

dynamic braking Process5 voltage supply from sensor 18

repeats until the water deceleration rate for block 5

in the pipeline will not disappear In the control

Claims (1)

DEVICE FOR REGULATING WATER CONSUMPTION IN VERTICAL DRAINAGE WELLS No. 1142624, characterized in that, in order to increase the reliability of the pump installation by eliminating water hammer, it further comprises an electric drive braking intensity adjuster and a water return flow sensor installed in the pressure pipe, the make contact of which is connected between the output of the electric drive’s braking intensifier and input of the thyristor controller control unit. SU „, 1208154