SU1735786A1 - Electric motor load tester - Google Patents

Abstract

The invention relates to electrical engineering and can be used in devices for controlling the load of electric motors of multi-motor mechanisms, for example, mining combines. The aim of the invention is to increase the speed of control. The introduction of a maximum signal extraction unit 6, a second switch 7, a threshold element 8, a key 9, a comparator 10, a level converter 11 and a decoder 12 into the device made it possible to control the load of the most loaded electric motors and to signal the limit loads. In comparator 10, the signal of the next load sensor 1 of the second switch 7 is compared with the maximum signal from sensors 1 coming from unit 6. The operating motors are indicated by the turn-on indicator 5, the number of the load-loaded motor is determined by the comparator 10 and the decoder 12 and is displayed by the indicator 4, the value the load of the most loaded electric motor is determined using the maximum signal extraction unit 6 and the level converter 11 and is displayed on the indicator DEFINITION 3. At the limit load level via a threshold element 8 and a key 9 is changed mode indicator 3 loading. 1 hp f-ly, 1 ill. Ј VI GO SL VI 00 Camping

Description

The invention relates to electrical engineering and can be used in devices for controlling the load of electric motors of multi-motor mechanisms, for example, mining combines.

The purpose of the invention is to increase the control efficiency by ensuring the load control of the most loaded electric motor.

The drawing shows a functional diagram of the device.

The device contains load sensors 1 according to the number of monitored motors, the outputs of which are connected to the inputs of the first switch 2, the load indicator 3, the motor number indicator 4, the motor start indicator 5, the inputs of which are connected to the corresponding outputs of the load sensors 1, the selection block 6 of the maximum signal, the inputs which is connected to the outputs of the first switch 2 and the inputs of the second switch 7. The output of the maximum signal extraction unit 6 is connected to the input of the threshold element 8, the output of which is It is connected to the second key input 9, the first input of which is connected to the last output d of the second switch 7, and the output of the key 9 to the common output of the load indicator 3. The output of block 6 is also connected to the second input of the comparator 10, the first input of which is connected to the information output of the second switch 7 and to the input of a level converter 11, the outputs of which are connected to the inputs of the load indicator 3. The output of the comparator 10 is connected to the common output of the indicator 4 of the electric motor number, the inputs of which are connected to the outputs of the decoder 12 of the electric motor number, the inputs of which are connected to the corresponding outputs of the second switch 7.

The second switch 7 contains a generator 13, the output of which is connected to the input of the counter 14, the outputs of which are connected to the outputs of the switch 7 and the control inputs of the multiplexer 15, the information inputs of which are connected to the inputs of the switch 7, and the output of the multiplexer 15 to the information output of the switch 7.

The device works as follows.

The voltages from the load sensors 1 are applied to the voltages of the electric motor starting indicator 5, in which the corresponding light-emitting diode is ignited. At the same time, signals from load sensors 1 are fed through the first switch 2 to the inputs of the maximum signal extracting unit 6. At the output of block 6, a signal equal to the largest of the inputs appears. This signal is then fed to the input of a level converter 11, in which the input signal is quantized at given levels and converted into each code output signal that controls the operation of the load indicator 3. Indicator 3 flashes with preset

discreteness of the measured value of the load of the motor, for example, in the range of 60-160% of the rated load current.

If the load level is any

the motor reaches a dangerous value, for example, a level of 1.8-2.0 IHOM, triggers threshold element 8, which will turn on key 9. Through key 9, a sequence of pulses arriving at its

The first input from the counter 14 of the second switch 7 will act on the load indicator 3, and the diode of this indicator, which is still lit up, will start to operate in a pulsed mode (with interruption of luminescence), thereby attracting (together with a sound or other light indication) attention of the operator to the fact that the load on one or several electric motors has reached a dangerous level and

it is necessary to take measures to eliminate the causes of motor overload. The output signals of the load sensors 1 are also fed to the inputs of the second switch 7, whose multiplexer 15, controlled by the output pulses of the counter 14, sequentially outputs to the information output of the switch 7 input signals from the load sensors 1. Further, these signals arrive at the first input of the comparator 10,

in which they are compared with the signal corresponding to the highest load level of all electric motors. When these signals coincide, the output of the comparator 10 in this clock appears

the signal acting on the overall output of the indicator 4 numbers of the motor. In the same cycle of the second switch 7, one of the inputs of the indicator 4 receives a signal from the decoder 12, which converts the binary code of the counter 14, corresponding to the number of the polled motor, to the decimal code. This signal turns on the light emitting diode of the indicator 4 with the sequence number corresponding to the number of the most loaded electric motor. If the highest load level is simultaneously on several electric motors, then on the indicator 4 diodes will be lit, corresponding to all these electric motors,

and the load indicator 3 will show one value of the highest load level.

The device has a selective control mode in which, using the switches of the first switch 2, it is possible to serially connect only one of the load sensors 1 and, accordingly, control the load of only one electric motor.

Thus, in the proposed device, by introducing a maximum signal extraction unit, a second switch, a comparator, a threshold element, a key, a level converter, and a decoder, the control efficiency and ease of operation are increased.

Claims (2)

1. A device for controlling the load of an electric motor, comprising load sensors according to the number of monitored motors, whose outputs are connected to the inputs of the first switch, the motor number indicator, the switch-on indicator of the electric motors and the load indicator, characterized in that a maximum signal extraction unit, a second switch, a comparator, a threshold element, a key, a level converter and a decoder for the motor number, whose outputs are connected S with the inputs of the motor number indicator, the common output of which is connected to the output of the comparator, the first input of which is connected to the information output of the second switch and the second input to the inputs of the level converter, threshold element and the output of the maximum signal selection unit whose inputs are connected to the outputs of the first switch and the inputs of the second switch, the outputs of which are connected to the corresponding inputs of the decoder of the motor number, the last of which is connected to the first key input, the second input One of which is connected to the output of the threshold element, the output of the key is connected to the common output of the load indicator, the inputs of which are connected to the outputs of the level converter, and the inputs of the indicator of turning on the electric motors are connected to the outputs of the load sensors. 2. Device pop. 1, characterized in that the second switch is designed as a series-connected generator, counter and multiplexer, with the multiplexer information inputs connected to the inputs of the second switch, the multiplexer output connected to the information output of the second switch, and the outputs of the counter connected to the outputs of the second switch.