SU1236152A1 - System for controlling wind-driven electric plant - Google Patents

Description

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The invention relates to wind power engineering, and more specifically to wind power plant control systems containing pumping units and operating in areas with a cold climate.

The purpose of the invention is to increase the reliability of the installation in the winter.

The drawing shows a schematic diagram of the device.

The control system of a wind power plant with pump 1 contains an electric generator 2 with a voltage regulator 3, a switch 4 with a pump 1 with a control, it has power inputs and outputs and water level sensors 5. The control system further comprises OR 6 and 7 blocks, a threshold device 8, a start key 9 with control and main inputs and outputs, an ice generation sensor 10, an electric heater 11, an electric heater switch 12 with control and power inputs and outputs, and sensors 5 and 10 are connected to the inputs of both blocks OR 6 and 7, the output of one of which (block OR 6) is connected to the control input of the switch 12, to the power output of which the electrical heater 11 is connected, and the output of the other block OR 7 is connected to the control input key 9 run ka, the main input of which is connected through the threshold device 8 to the output of the voltage regulator 3. A generator 13 current sensor 13 with control and measuring inputs and outputs and a current relay 14 is inserted into the control system, and the control output of the current sensor 13 is connected via the current relay 14 to the input of the OR block 7, the output of which is connected to the control input of the start key 9. An auxiliary switch 15 with a control and main inputs and an output and a delay unit 16 are also added to the control system, and the voltage regulator 3 has an additional input, the main input of the auxiliary switch 15 and the input of the delay block 16 connected to the output of the start key 9, and the output of the delay unit 16 is connected to the control inputs of the switch 4 and auxiliary switch 15, and the output of the latter is connected to the auxiliary input of the voltage regulator 3.

36152

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The device works as follows. When the operating wind speed appears, the voltage at the output of the regulator 3, the voltage of the electric generator 2 reaches the value at which the threshold device 8 is triggered and at its output a signal comes through the normally close start key 9 to the delay block 16 and through normally closed auxiliary key 15 to the auxiliary input of the regulator 3 voltage. In this way, the electric generator 2 is transferred to a forced mode of operation. After 1-2 seconds, the delay block 16 transmits a signal to the control input of the switch 4 of pump 1, as a result of which the power circuit of the commutator 4 closes and the pump 1 starts. At the same time, the auxiliary switch 15 is activated and the control signal is removed from the voltage regulator 3, the installation goes into normal operation mode, ensuring

rise of water from the source.

In the case of ice formation, the sensors 10 are triggered and signals are received at the inputs of the blocks OR 6 and 7. As a result, the block OR 7 closes the start key 9, while the delay block 16 is de-energized, removed

the control signal from the switch 4 and the pump 1 is turned off, and the OR 6 unit outputs the control signal to the switch 12 of the electric heaters 11, its power contacts are closed and the electric heaters 11 are turned on. After melting the ice, the sensors 10 turn off and the pump starts one.

In the event of a tank overflow with water, sensors of level 5 are triggered. At the same time, the OR 6 and 7 blocks emit signals to the control inputs of the start key 9 and the switch 12, which causes the switch 4 to open, the pump 1 to stop and the electric heaters 11 to be turned on.

Installation works on water heating.

In case of overloads of the pump motor, the current relay 4 is activated and a signal is sent to the input of the block OR 7. Block OR 7 opens the key 9 start, which leads to the opening of the switch 4 and turn on the pump 1.

Claims (3)

1. MANAGEMENT SYSTEM A WIND POWER PLANT with a pump, containing an electric generator with a voltage regulator, a pump commutator with control and power inputs and outputs, water level sensors, characterized in that, in order to increase the reliability of the installation in winter, two OR modules are introduced into the system, a threshold device, a start key with control and main inputs and outputs, an ice formation sensor, an electric heater and an electric heater switch with control and power inputs and outputs, the sensors being connected to the inputs of both units OR, the output of one of which is connected to the control input of the switch, the electric heater is connected to the power output, and the output of the other block OR is connected to the control input of the start key, the main input of which is connected through the threshold device to the output of the voltage regulator, and the output of the start key is connected with the control input of the pump switch. 2. The system by π. 1, characterized in that it additionally includes a generator current sensor with control and measuring inputs and an output and a current relay, the control output of the current sensor being connected through a current relay to the input of the OR block, the output of which is connected to the control input of the start key. 3. The system according to π. 1, characterized in that it additionally includes an auxiliary key with control and main inputs and an output and a delay unit, and the voltage regulator has an additional input, and the main input of the auxiliary key and the input of the delay unit are connected to the output of the start key, the output of the delay unit is connected to control inputs of the switch and auxiliary key, and the output of the latter is to the additional input of the voltage regulator. bs o Si u