SU1620684A1 - Device for control pumping works - Google Patents

Abstract

The invention relates to pumping engineering, in particular, to devices for automatic control of pumping stations. The aim of the invention is to ensure equality between the required schedule for the water supply of the pumping station and its replenishment by smoothly adjusting the performance of the pumping station. The device contains starting devices 5, 6 of electric drives 3, 4, block 7 for selecting the sequence of starting unregulated pumping units 2, frequency converter 8 with control device 9 of frequency converter 8, comparison unit 19, adder 18, water flow sensors 11, 12 installed on the discharge pipelines 15 pumping units 1, 2, pressure valves 13, 14 and blocks 16, 17 control them. The device makes it possible to rationally use water and energy resources by saving irrigation water and electricity. 1 il. "(L

Description

The invention relates to a pump engineering industry, in particular to devices for automatically controlling pumping stations, and can be used in machine irrigation systems.

The aim of the invention is to ensure equality between the required water supply schedule of the pumping station and its implementation by main regulation of the productivity of the pumping station.

The drawing shows a block diagram of a device for automatic control of a pumping station.

The pump station contains one adjustable and the remaining unregulated pumping units 1 and 2 with electric drives 3 and 4. The control device contains starting devices 5 and 6 of electric drives 3 and 4, a unit 7 for selecting the startup sequence of unregulated pump units 2, connected to starting devices 6 of electric drives 4, frequency converter 8, the input of which is connected to the starting device 5 of the electric drive 3, and the output is connected to the electric drive 3 of the adjustable pump unit 1, the control device 9 of the frequency converter 8, connected to the input of the frequency converter 8, and a water flow adjuster 10 connected to the input of the starting device of the electric drive of the adjustable pump unit. The device also includes flow sensors 11 and 12 and pressure valves 13 and 14 installed on individual pipelines 15, moreover, the water flow sensor 11 of the adjustable pump unit 1 is connected to a unit 7 for selecting the start of non-regulated pump units, pressure valve units 16 and 17, the inputs of which connected to the starting devices 5 and 6 of the electric drives, the adder 18, to the input of which the flow sensors 11 and 12 are connected, and the comparison unit 19, the inputs of which are connected to the outputs of the adder 18 and the master 10, and the output - with the control device Property 9 of the converter.

The device operates as follows.

By means of the adjuster 10 flow sets the desired flow rate of the pumping station. At the same time, commands are sent to the starting device 5 and, through the comparison unit 19, to the control device 9 of the converter. The starting device 5 connects the converter 8, the electric drive 3 of the adjustable pump unit 1 is started, and then the pressure valve 13 installed on the pipeline 15 is opened by the command of the pressure valve control unit 16.

A signal proportional to the amount of water flow rate pump 1, from the flow sensor 11 enters through the adder 18 to the comparison unit 19 and then from it to the input of the control device 9, the latter changes the frequency of the transducer 8 and, as a result, the rotation speed of the electric drive 5 yes 3 adjustable pump unit 1, ensuring the required compliance of the water flow to the water supply schedule at this stage of regulation.

In the case of a code, the required value of the water supply of the pumping station, set by θ by the water flow rate adjuster 10, exceeds the nominal flow rate (productivity) of the pump unit 1, the signal generated by the flow sensor 11, reaching its maximum value, leads to 15 triggering of the unit 7 of the order of starting the pump units 2, the corresponding starting device 6 and the control unit 17 of the pressure valve control, one of the electric drives 4 of the uncontrolled pump units 2 is started and its valve 14 is opened on the discharge pipe 15. The growing signal from the corresponding water flow sensor 12 enters the adder 18, where, after the operation of summing the latter with a signal from the water flow sensor 11, the resulting signal is fed to the input of the comparison unit 19. The mismatch signal, obtained by comparing the signal that sets the required pumping station supply from the setter 10, with a signal proportional to the actual value of the supplied flow rate by the pump units taken from the adder 18, is fed to the input of the control device 9, changes the frequency of the converter 8 and smoothly reduces the speed rotation of the electric drive 3, thereby reducing the flow (capacity) of the adjustable pump 1 to bring the flow rate of the water pumped by the pumping station into line with gr Afik its filing.

If, however, the required flow rate of the pumping station, determined by the adjuster 10, is higher than the nominal performance values of both functioning pumping units 1, 2, then from the flow sensor 11, a signal equal to the maximum value and proportional to the actual value of the nominal capacity is again sent to the unit 7 for selecting the startup sequence of the pumping units 2 pump unit 1. In this case, the process of connecting the subsequent electric drive 4 to the unregulated pump unit 2 is put into operation.

Disconnecting the pump units 1 and 2 is carried out by command from the setpoint 10 of the water flow, and the disabling of the unregulated pump unit 2 occurs when the signal level of the sensor 11 of the water flow is equal to the minimum set value determined by the lower limit of the control range of the electric drive 3.

Automatic control of the water supply process of pumping stations of machine irrigation systems by smoothly changing the performance of one of the pumps by means of a controlled electric drive will allow rational use of hydropower resources by saving irrigation water at each control stage and reducing the specific rate of electric energy consumption per unit volume of pumped water.

Claims (1)

Claim A control unit for a pumping station, including one adjustable pump unit with an adjustable electric drive and discharge pipe and unregulated pump units with electric drives and pressure pipelines, containing actuators for starting electric drives, a unit for selecting the sequence for starting unregulated pump units connected to starting devices for electric drives, a frequency converter, an input, an input which is connected to the starting device of the electric drive, and the output - with the electric drive of the pumping unit, a frequency converter control device connected to the input of the frequency converter, and a water flow controller connected to the input of the electric drive control device of the adjustable pump, characterized in that, in order to ensure equality between the required pumping schedule of the pumping station and its implementation by stepless regulation of the performance of the pumping station, the device is equipped with flow sensors and pressure valves installed on the discharge pipelines, moreover, the water flow sensor of the adjustable pump unit is connected to the start sequence selection unit, pressure gate valve control units, the inputs of which are connected to electric actuators, the adder, to which the flow sensors are connected, and the comparison unit, the inputs of which are connected to the output of the adder and the master, and the output is with the control device of the converter.