SU1474320A1 - Wind motor-generator-water lifter - Google Patents

Abstract

The invention relates to wind power and allows an increase in plant efficiency. The generator 2 of the wind-electric unit 1 is connected via a multi-unit switching unit 3 to the multi-unit electro-hydraulic unit 4. The automatic control circuit 5 comprises series-connected multi-unit units 6 and 7 respectively. comparison and output relays. The output of the wind speed sensor 8 is connected via a common point to the information inputs of block 6, and the outputs of block 7 to the control inputs of block 3. The number of elements of blocks 3,4,6 and 7 is determined by the value proportional to the difference of the nominal power of unit 1 at the calculated wind speed and unit capacity 1 at min. operating speed of the wind, and inversely proportional to the rated power of the element of block 4. At a certain wind speed, not a few outputs of blocks 6 and 7 appear to control signals of block 3, and as many elements of block 4 are connected to generator 2 as are necessary to ensure optimal generator load . 1 il.

Description

The invention relates to wind energy and can be used in wind-electric water-lifting installations.

The purpose of the invention is to increase the efficiency of a wind-electric water-lifting installation.

The drawing shows a diagram of a wind power installation.

The wind-electric water-lifting installation comprises a wind-electric unit 1, the generator 2 of which is connected via a multi-element switching unit 3 to a multi-element electro-hydraulic unit 4, an automatic control circuit 5 consisting of series-connected multi-element comparison unit 6 and an output relay unit 7, the outputs of which are connected to the control inputs of the unit 3 switching, wind speed sensor 8, the output of which is connected through a common point to the information inputs of block 6, and the number of elements of unit 4,, of switching units 3, 7 and 6, output relays and comparisons are respectively determined by the value of the proportional difference between the rated power of the wind power unit 1 at the calculated wind speed and the power of the wind power unit 1 ¹ at the minimum operating wind speed, and inversely proportional to the rated power of the electro-hydraulic element block 4.

Wind electric lifting installation works as follows.

If the wind speed is less than the minimum value at which the operation of the wind-electric water-lifting installation is ensured, the wind-electric unit 1 the elements of the switching unit 3 will be in the "Disabled" position.

When the wind speed increases and its minimum value is exceeded, at which the operation of the wind-electric water-lifting installation will be ensured at one or several outputs of blocks 6 and 7, depending on the wind speed, control signals of the switching unit 3 will appear, and the corresponding number of elements will be connected to the generator 2 electro-hydraulic unit 4, providing optimal load of the generator 2.

Claims (1)

Claim A wind-electric water-lifting installation, comprising a wind-electric unit, the generator of which is connected via a multi-element switching unit to a multi-element electro-hydraulic unit, and an automatic control circuit consisting of series-connected multi-element comparison unit and an output relay unit, the outputs of which are connected to the control inputs of the switching unit, characterized in that , in order to increase the efficiency of the wind power installation, the automatic control circuit is equipped with a speed sensor and wind, the output of which is connected through a common point to the information inputs of the comparison unit, and the number of elements of the electro-hydraulic unit, switching units, output relays and comparisons is determined by a value proportional to the difference between the rated power of the wind power unit at the calculated wind speed and power of the wind power unit at a minimum operating wind speed and inversely proportional to the rated power of the element of the electro-hydraulic unit.