JPS6220787B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an improvement in a speed control device for an electric motor using a thyristor.

Conventionally, in motor speed control circuits configured using thyristors, there is a resonance point between the pulsating torque and the mechanical system at a certain speed of the motor, so it is necessary to prevent this resonance point from falling within the speed control range. Changes are being made to the moment of inertia, spring constant, etc. of mechanical systems. However, it is difficult to change these moments of inertia and spring constants, and there is a problem in that it requires an extremely large amount of labor.

Therefore, as a result of various studies to overcome the above-mentioned difficulties, the inventors detected the speed of the electric motor,
In a motor speed control circuit configured to perform speed control by supplying this speed signal together with a set speed signal from a variable speed setting device to an automatic speed regulator, the upper limit speed N _H of the speed range corresponding to the resonance point of the pulsating torque is determined. , and lower limit speed N _L are respectively set by the setting device, and when the motor speed reaches the lower limit speed N _L when the motor speed is increased by the variable speed setting device, the upper limit speed N _H is supplied to the automatic speed regulator. When the motor speed is lowered by the variable speed setting device, the motor speed is set to the upper limit speed N _H
When the motor reaches the resonance point of pulsating torque, the lower limit speed N _L is supplied to the automatic speed regulator, so that when the motor reaches the resonance point of pulsating torque, the resonance speed can be automatically escaped and smooth speed adjustment can be performed. I found out.

In addition, when the speed of the motor is not adjusted, that is, when the variable speed setting device is not operating, and the speed of the motor changes within the resonance range due to temperature changes, etc., the resonance speed is calculated as appropriate and automatic adjustment is performed. It has been found that by feeding the speed regulator, the motor speed can be moved away from the resonant speed in the same manner as before.

SUMMARY OF THE INVENTION It is therefore a general object of the present invention to provide an improved motor speed control system using a thyristor that can be electrically adjusted to prevent the motor from operating at a resonant speed based on the resonance point of the pulsating torque. is to provide speed control device.

In order to achieve the above object, the present invention provides an apparatus for controlling the speed of an electric motor by supplying a signal obtained by detecting the speed of the electric motor and a signal from a variable speed setter to an automatic speed regulator. A speed setting device that sets an upper speed limit and a lower speed limit based on the resonance point of the pulsating torque, and a speed jump width setting device for jumping to one of the speeds determined from the upper speed limit and the lower limit speed, an arithmetic unit that compares and calculates the upper and lower limit speeds of the speed setter and the speed signal of the motor; and an output of each of the arithmetic units when the speed of the motor matches the resonance speed regardless of the variable speed setter. an integrator that selectively integrates a signal; a switch device that controls the output of the speed jump width setter when adjusting the speed increase or deceleration of the variable speed setter based on the output of each of the arithmetic units; and each of the arithmetic units; and a switch device that controls the output of each of the arithmetic units when disabling the adjustment of the variable speed setter based on the output of the variable speed setter, and when the speed of the motor matches the resonance speed, the speed jump width is adjusted. The present invention is characterized in that the setting device and the output signal of the integrator are respectively input to an automatic speed regulator.

Next, embodiments of the motor speed control device according to the present invention will be described in detail below with reference to the accompanying drawings.

In FIG. 1, reference number 10 indicates an induction motor whose speed is controlled, the speed of this motor 10 is detected by a pulse generator 12, and this speed detection signal is a speed setting signal set by a variable speed setting device 14. It is also supplied to an automatic speed regulator 16 to adjust the speed of the electric motor 10.
Note that a motor-driven rheostat is preferably used as the variable speed setting device 14.

The above-described configuration is a basic control circuit implemented in a conventional motor speed control circuit, but in the present invention, in order to prevent the motor speed from operating at a predetermined resonance speed, the following is implemented. measures will be taken. That is, the predetermined speed range N _L to N _H corresponds to the resonance point of the pulsating torque of the electric motor 10.
The upper limit speed N _H is determined by the speed setters 18 and 20, respectively.
and the lower limit speed N _L are set. The speed setting signals set by these speed setting devices 18 and 20 are sent to the comparison calculators 22 and 24, respectively, to the pulse generator 1.
It is configured to be input together with the speed detection signal N _M of the electric motor 10 detected in step 2. Further, the speed setting signals of the speed setting devices 18 and 20 are both input to a speed jump width setting device 26, and the output of this speed jump width setting device 26 is transmitted to the automatic speed regulator 16 via a switch device 28. Configure to input.

The switch device 28 includes the comparison calculator 2.
2 and 24 through comparators 30 and 32, respectively.
AND circuits 34 and 36, and a switch device 28 corresponding to the outputs of these AND circuits 34 and 36
selectively open/close operations. The AND circuit 34 is configured to supply a command signal for adjusting the speed of the variable speed setter 14 to reduce the speed, and the AND circuit 36 is configured to supply a command signal for adjusting the speed to increase.

Further, the outputs of the comparators 22 and 24 are supplied to an integrator 42 via switch devices 38 and 40, respectively, and the output of the integrator 42 is input to the automatic speed regulator 16. In this case, the outputs of the comparators 30 and 32 are supplied to an AND circuit 44, the outputs of the comparison calculators 22 and 24 are supplied to a comparator 46, and the AND circuit 44
The output of the variable speed setter 1 and the output of the comparator 46
AND circuits 48 and 4, respectively, with the inactivation command signals
50, and corresponding to the outputs of these AND circuits 48 and 50, the switch device 3
8 and 40 are configured to selectively perform opening/closing operations.

Next, the operation of the apparatus of the present invention having the above-described configuration will be explained. Now, when adjusting the variable speed setter 14 to increase the speed N _M of the electric motor 10, if the speed N _M reaches the lower limit set value N _L of the speed setter 20, the comparator 22 calculates the following equation. The calculation shown is performed.

N _H −N _M =N _H −N _L (1) Furthermore, the comparator 24 performs the calculation shown in the following equation.

N _L −N _M =N _L −N _L =0 (2) Then, the variable speed setter 14 is connected to the AND circuit 36.
Since the speed increase adjustment command signal Sup is supplied,
The switch device 28 closes, and as a result, the automatic speed regulator 16 is supplied with the contents (N _H -N _L ) of the speed jump width setter 26, and the speed of the motor 10 becomes the upper limit set value N _H.

Also, adjust the variable speed setting device 14 to
When decreasing the speed N _M of 0, if the speed N _M reaches the upper limit set value N _H of the speed setter 18, the comparator 22 performs the calculation shown in the following equation.

N _H −N _M =N _H −N _H =0 (3) Furthermore, the comparator 24 performs the calculation shown in the following equation.

N _L = N _M = N _L −N _H ………(4) Then, the variable speed setter 14 is connected to the AND circuit 34.
Since the deceleration adjustment command signal Sdn is supplied,
The switch device 28 is opened, and as a result, the supply of the contents ( _NH - N _L ) of the speed jump width setting device 26 that have been input to the automatic speed regulator 16 is cut off, and the speed of the electric motor 10 is set to the lower limit set value N _L become.

As is clear from the above, according to the device of the present invention, when the speed of the electric motor 10 reaches the resonance point of the pulsating torque, the resonance speed can be automatically avoided.

Furthermore, in the device of the present invention, if the speed of the electric motor 10 changes within the resonance speed range based on the resonance point of the pulsating torque due to a cause such as a temperature change while the variable speed setting device 14 is not being adjusted,
The speed component that falls within the resonant speed range due to the action of the comparators 30, 32, and 46 is calculated by the integrator 42, and the calculated output is supplied to the automatic speed regulator 16 to escape the speed of the motor 10 from the resonant speed. can be done. In this case, the comparator 30 performs a comparison operation as shown in the following equation, N _H −N _M 0 (5), and the comparator 32 performs a comparison operation as shown in the following equation, N _L − N _M 0 (6) Then, the comparator 43 performs the comparison operation shown in the following equation.

Therefore, when the adjustment of the variable speed setting device 14 is inactive, the inactivation command signal Sst is supplied to the AND circuits 48 and 50, and one of the switch devices 38 and 40 is closed and the integrator 42 is closed. performs an integral operation, and the obtained integral value is input to the automatic speed regulator 16.

Although the embodiment described above is configured as a digital circuit, if high accuracy is not required, it can be configured as an analog circuit as shown in FIG.

That is, in FIG. 2, the induction motor 10
The speed of the motor is detected by a tachometer generator 52, and this speed detection signal is supplied via a rectifier 54 to an automatic speed regulator 16 together with a speed setting signal set by a variable speed setter 14. The speed signal detected by the tachogenerator 52 is configured to be supplied to a comparator 58 together with the output of a speed setter 56 that sets a resonance speed corresponding to the resonance point of the pulsating torque of the electric motor 10. When the speed reaches the resonant speed, the output of the comparator 58 activates the relay 60 and closes the normally open contact 60a that cooperates with the relay 60 to change the contents of the speed jump width setting device 62 to the automatic speed regulator. 16 to configure the speed of the motor 10 to escape the resonant speed. In this embodiment as well, when the adjustment of the variable speed setter 14 is disabled and the speed of the motor 10 changes within the resonance speed range for some reason, the integrator or the like is used to adjust the speed of the motor 10. It is of course possible to configure the speed to escape from the resonant speed.

According to the device of the present invention, operation at resonant speed can be easily achieved by simply configuring the electric circuit, without changing the design of the mechanical system, which has conventionally been taken as a means to avoid the resonance point of pulsating torque. This can be avoided to achieve smooth speed control of the motor.

Furthermore, even if the resonance point of the pulsating torque shifts as a result of changes to the mechanical system, the device of the present invention can simply change the speed setting to avoid the resonance point.
Avoiding operation at resonant speeds can be easily addressed.

Therefore, in the conventional motor speed control device,
In addition to avoiding the resonance point of pulsating torque by changing the design of the mechanical system, if the calculated value and the actual value differ, such as when the calculation results show that there is a resonance point outside the control range, By adding this, smooth speed control of the electric motor can be achieved with simple operation.

The device of the present invention can be applied not only to pump control, blower control, etc. used in water and sewerage systems, but also to electric motor speed control devices using thyristors that do not require strict speed control.

Although the preferred embodiments of the present invention have been described above, it goes without saying that various design changes can be made without departing from the spirit of the present invention.

[Brief explanation of the drawing]

FIG. 1 is a circuit diagram showing one embodiment of a motor speed control device according to the present invention, and FIG. 2 is a circuit diagram showing another embodiment. 10... Electric motor, 12... Pulse generator, 14... Variable speed setting device, 16... Automatic speed regulator, 18, 20... Speed setting device, 22, 24
... Comparison calculator, 26 ... Speed jump width setting device, 28 ... Switch device, 30, 32 ... Comparator, 34, 36 ... AND circuit, 38, 40 ...
Switch device, 42...Integrator, 44...AND
Circuit, 46... Comparator, 48, 50... AND circuit, 52... Tachometer generator, 54... Rectifier, 56... Speed setting device, 58... Comparator, 60
...Relay, 62...Speed jump width setting device.

Claims (1)

[Claims] 1. In a device that controls the speed of an electric motor by supplying a signal obtained by detecting the speed of the electric motor and a signal from a variable speed setter to an automatic speed regulator, a speed setting device for setting an upper limit speed and a lower limit speed, respectively, based on the upper limit speed and the lower limit speed; a speed jump width setting device for jumping to one of the speeds determined from the upper speed limit and the lower limit speed; and an upper limit of the speed setting device. A computing unit that compares and calculates the speed and the lower limit speed with the speed signal of the motor, and selectively integrates the output signal of each computing unit when the speed of the motor matches the resonance speed regardless of the variable speed setting device. a switch device that controls the output of the speed jump width setter when adjusting the speed increase or deceleration of the variable speed setter based on the output of each of the arithmetic units; A switch device is provided to control the output of each of the arithmetic units when the adjustment of the variable speed setter is disabled, and when the speed of the motor matches the resonance speed, the speed jump width setter and the integrator are controlled. A speed control device for an electric motor, characterized in that the output signal of the motor is configured to be input to an automatic speed regulator.