KR20150019343A - Geared encoder motor and the control system thereof - Google Patents

Abstract

The present invention relates to a geared encoder motor and a control system thereof. The geared encoder motor can prevent the generation of normal noise generated from a power source. For this, an error due to backlash generated by the coupling of gears by installing an encoder to the shaft of a motor is minimized; and the RPM and torque angle of the motor are accurately controlled. A separate power source to an encoder motor and a PCB is applied. In a geared encoder motor installed in a rectangular housing, it includes a motor which a gear attached to one side of a shaft in the housing, and a disk plate in the other side of the shaft; a PCB which includes a signal transmission part which includes a photo interrupter of detecting a signal related to the rotation of the motor in one side of the disk plate of the motor, and transmits the signal detected by the photo interrupter, a signal calculation output part of calculating a signal inputted from the signal transmission part, a control part of controlling a power source part by a signal outputted from the signal calculation output part, and a power supply part of outputting a voltage controlled by the control part to a power source supply part; a reduction gear which is coupled with the gear attached to the shaft of the motor; and a power gear coupled with the reduction gear.

Description

[0001] Geared encoder motor and its control system [0002]

The present invention relates to a geared motor and a control system thereof. More particularly, the present invention relates to a geared motor and a control system thereof, and more particularly, And more particularly, to a geared motor and a control system thereof that can precisely control an angle and separately supply a power supply to an encoder motor and a PCB to prevent generation of a normal noise generated from the power supply.

Generally, a geared motor is used by connecting a wheel or a shaft to a final reduction gear after decelerating to a first reduction gear, a second reduction gear and a plurality of other gears while a pinion gear is inserted in a motor shaft.

However, when a geared motor that does not have feedback on information about the number of revolutions or rotation angles of the motor is used as a driving unit of a precision mechanical device such as a robot, when the motor is operated and stopped, There is a problem that the angle can not be accurately controlled.

The weight of the robot and the inertia acting on the robot drive depend on the type and state of the robot. Therefore, in precision machinery such as a robot, the motor is controlled by feeding back information on the driving of the motor in accordance with the dynamic change.

In the case where such feedback is not provided, the motor can be controlled by supplying power excessively, but the durability of the motor is degraded, and the driving state of the robot or the precision machinery can not be precisely controlled.

To solve this problem, a geared motor with an encoder of Korean Utility Model Laid-Open No. 20-2008- 0001537 has a pinion gear 601 which is fixedly rotated and fixed to a shaft of a motor 801; A first reduction gear 602 that receives rotational force from the pinion gear 601 and rotates idle with the rotation shaft; A secondary reduction gear 603 which receives rotational force from the primary reduction gear 602 and rotates fixedly with the encoder rotation shaft 606 by interference fit; And a final deceleration (604) that receives rotational force from the second reduction gear (603) and rotates idle with the rotation axis pin (605), and the encoder rotation axis (604) fixedly rotating with the second reduction gear 606 is a geared motor that is fixed to the encoder disk plate 703 and rotates and an encoder for generating a feedback signal by installing a photointerrupter 702 on one side of the rotating disk plate 703 .

In the geared motor equipped with such an encoder, an encoder for detecting the number of revolutions of the pinion gear, the first reduction gear, and the second reduction gear is coupled to transmit the power, and the second reduction gear is provided to rotate the second reduction gear, Since the encoder senses the number of revolutions by sensing the number of revolutions while the encoder is engaged with the 2nd reduction gear, it is impossible to measure the error due to the backlash generated in the pinion gear and the first reduction gear, There is a problem that the number of revolutions and the angle of rotation of the motor can not be accurately controlled.

In addition, since a photointerlog is provided in the interior to detect only the feedback signal data, and the arithmetic unit for calculating this signal is installed separately from the motor, the noise sensed by the motor is transmitted on the line passing through the arithmetic unit, There are also problems to be brought.

Korean Utility Model Publication No. 20-2008-0001537 (published on June 06, 2008)

SUMMARY OF THE INVENTION It is an object of the present invention to provide a geared encoder motor capable of measuring an error range of a rotation number or a rotation angle of a motor that minimizes an error caused by a backlash by providing an encoder on an axis of the motor. And a control system therefor.

It is another object of the present invention to provide an electronic circuit having an arithmetic unit for measuring and calculating an error range with respect to the number of revolutions or rotation angles of a motor in the interior of a motor so that a signal sensed by the motor is transmitted So that no error is generated in the calculation result, and a control system thereof.

  In order to achieve the above object, according to the present invention, there is provided a motor comprising a housing having a rectangular shape and a motor having a shaft at a central portion on one side of the housing, gears attached to one side of the shaft, A PCB having a photo interrupter for sensing a signal on one side and a constant voltage current portion for controlling a static voltage and having an arithmetic unit for storing and analyzing a signal of the photointerruptor, And a power gear meshing with the reduction gear and the primary reduction gear and having a power transmission shaft disposed at the center thereof.

In addition, the disk plate of the motor has two through holes at an angle of 90 °, and the PCB plate is provided with photo interrupters corresponding to the through holes.

According to the geared encoder motor and the control system thereof according to the present invention, since the encoder is provided on the shaft of the motor, the error caused by the backlash caused by the gear and gear meshing is minimized, The control of the mechanical device can be more accurately performed, and since the power is separately supplied to the encoder motor and the encoder circuit, it is possible to prevent the normal noise generated by the power supply.

In the geared encoder motor of the present invention, an electronic circuit for measuring the number of revolutions and the rotation angle at which the motor is rotated and outputting a signal therefrom is installed inside the motor to prevent line noise from occurring There is also an effect.

1 is a cutaway perspective view showing a conventional geared encoder motor.
2 is a cutaway perspective view showing a geared encoder motor according to the present invention.
3 is a view showing a disc plate and a photo interrupter of an encoder motor according to the present invention;
4 is a circuit diagram of a control system for controlling a geared encoder motor according to the present invention.
5 is a block diagram of a control system for controlling a geared encoder motor according to the present invention

These and other objects and novel features of the present invention will become more apparent from the description of the present specification and the accompanying drawings.

It is to be understood that the terminology used in the description and the appended claims should not be construed as limited to a conventional or dictionary sense and should not be construed as defining the concept of a term appropriately in order for the inventor to best explain his or her invention The present invention should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention.

Hereinafter, embodiments of the configuration according to the present invention will be described with reference to the accompanying drawings.

2 is a cutaway perspective view showing a geared encoder motor according to the present invention.

As shown in FIG. 2, the geared motor of the present invention includes a rectangular housing 10 and a shaft 22 at a central portion on one side of the inside of the housing 10, with a gear 23 on one side of the shaft A photo interrupter 32 for sensing a signal on one side of the disc plate 24 of the motor 20 and a constant voltage circuit unit 33 for regulating the static voltage are provided on the other side of the motor 20, A PCB 30 provided with an operation unit 34 for storing and analyzing a signal of the photointerruptor 32 and a gear 23 attached to a shaft 22 of the encoder motor 20, And a power gear 50 meshing with the first reduction gear 40 and the power transmission shaft 52 at the center.

The geared motor 1 having such a structure is provided with a first reduction gear 40 meshed with a gear 23 provided on a shaft 22 of the motor 20 and a first reduction gear 40 meshed with the first reduction gear 40, And a power gear (50).

Here, the gear 23, the first reduction gear 40, and the power gear 50 cause an error due to the backlash caused by the engagement of the gear and the gear.

That is, when a large number of gears are engaged to transmit power, that is, as the number of gears increases, errors due to backlash increase.

A disc plate 24 is provided on the shaft 22 of the motor 20 so as to minimize the error caused by the backlash and output accurate data of the number of revolutions and the rotation angle of the motor, And a porter interrupter 32 for detecting the rotation of the porter interrupter 32, thereby minimizing an error caused by backlash.

That is, it is possible to control the motor more accurately when the robot 20 is driven or the precision mechanical device is driven by measuring the rotation number and the rotation angle of the motor 20.

In order to obtain signal data for the above driving distances, two through holes 24-1, 24-2 having an angle of, for example, 90 degrees are formed in the disc plate 24 of the motor 20 as shown in FIG. And the PCB 30 is provided with the photo interrupters 32-1 and 32-2 so as to correspond to the through holes 24-1 and 24-2 of the disc plate 24, respectively.

That is, the distance between the two through holes 24-1 and 24-2 formed in the disc plate 24 of the motor 20 is determined by the photo interrupter 32 disposed on the PCB 30, The phases A and B of phase A are outputted at 90 ° and the phase B is outputted at the phase of A and the phases of the phases are outputted in the order of the reverse direction and the reverse direction. Calculate the angle.

Here, the rotation angle can be calculated by inversely calculating the time until the motor stops after generation of the A-phase signal or B-phase signal. Separate sensing is necessary to confirm the stop of the motor.

In the present invention, since the disk plate 24 is directly connected to the shaft of the motor 20, errors due to backlash are not generated.

In the system for measuring the rotation speed and the rotation angle of the geared encoder motor 1 as described above, the first power supply unit 101 and the second power supply unit 102 are installed in the motor 20 and the PCB 30, A power supply unit 100 for supplying power to the constant voltage circuit unit 33; A rotation unit 200 having a disk plate 24 provided on a shaft 22 of the motor 20 and rotated when the motor 20 is rotated by the power supplied from the power supply unit 100; The number of rotations and the rotation angle of the disk plate 24 of the motor 20 are detected by the photointerrupter 32 provided on the PCB 30 and the two signal data having the phase difference A signal transmission unit 300 for receiving the signal from the photo interrupter 32 and outputting it to the signal operation output unit 400; The signal calculation and output unit 400 stores the signal data sent from the signal transmission unit 300 and analyzes the inputted signal data with the phase difference between the A phase and the B phase to determine the forward rotation or the reverse rotation of the motor 20 A signal calculation output unit 400 for discriminating the number of revolutions and the number of revolutions of the A-phase or B-phase, and outputting signals of A-phase and B-phase and signals of the motor 20 in the forward and reverse directions; The rotation number and the rotation angle of the geared encoder motor including the control unit 500 for controlling the power source to be supplied from the first power supply unit 101 to the motor 20 are measured according to the output signal from the signal calculation output unit 400 And rotates at a necessary number of revolutions and a rotation angle.

The system for measuring the number of revolutions and the rotation angle using the geared encoder motor 1 is provided with a power supply unit 100 including a first power supply unit 101 and a second power supply unit 102, The first power supply unit 101 and the second power supply unit 102 supply power to the motor 20 and the constant voltage circuit unit 33, respectively.

The power supplied to the motor 20 is supplied to the first power supply unit 101 for controlling the speed and the rotation speed of the motor 20 so that a voltage of 0 to 7 V or -7 to 0 V is supplied to the motor 20, The second power supply unit 102 supplies DC 3.6 to 12 V to the constant voltage circuit unit 33 and the constant voltage circuit unit 33 supplies the constant voltage of DC 3.3 V to the signal transmission unit 300 to the signal calculation output section 400 (corresponding to the operation section 34 in FIG. 2) and the photo interrupter 32 to the respective circuits except for the motor 20.

When the motor 20 rotates, the disk plate 24 of the rotary part 200 rotates and photo sensing is performed by the photo interrupter 32 provided on the PCB 30, Signal data is sent out from the signal transmission unit 300. That is, the A-phase and B-phase signals having a phase difference of 90 degrees are detected by the photo interrupter 32 and the signals are sent to the signal operation output unit 400 provided in the PCB 30.

In this way, the signal calculation output unit 400 receiving two signal data from the signal transmission unit 300 stores and processes two signal data, and outputs three signals of the A phase signal, the B phase signal, and the forward / And sends the signal data to the control unit 500.

The control unit 500 receiving the signal data controls the power to be supplied by the first power supply unit 101 from these signals.

20: motor 24: disk plate
32: Photointerrupter 33: Constant voltage circuit
100: power supply unit 200:
300: signal transmitting unit 400: signal calculation output unit
500:

Claims (5)

A geared encoder motor installed in a rectangular housing,
On the inside of the housing,
A motor to which a gear is attached to one side of the shaft and a disk plate is provided on the other side of the shaft;
And a photo interrupter for sensing a signal related to the rotation of the motor at one side of the disk plate of the motor, wherein the signal transmission unit transmits a signal sensed by the photo interrupter, A PCB having a signal operation output unit for outputting a signal output from the signal operation output unit, a control unit for controlling the power supply unit by a signal output from the signal operation output unit, and a power supply unit for outputting a voltage controlled by the control unit;
A reduction gear meshed with the gear attached to the shaft of the motor;
And a power gear meshed with the reduction gear.
The method according to claim 1,
Wherein two holes are formed in a disc plate of the motor so as not to be symmetrical with a center of the disc plate, and a photo interrupter is provided on a PCB plate at a position corresponding to the through hole.
3. The method of claim 2,
Wherein an output signal of the photo interrupter generated by the two through holes when the disk plate is rotated is used as a signal for calculating a rotation number and a rotation angle of the motor and calculating a rotation direction of the motor Geared Encoder Motor.
The method according to claim 1,
Wherein the power supply unit includes a first power supply unit and a second power supply unit, the first power supply unit supplies power only to the motor, and the second power supply unit supplies power to all electronic circuits except the motor Features a geared encoder motor.
A control system for controlling a geared encoder motor,
A power supply unit for supplying power to the PCB provided with a circuit for supplying and controlling the power of the encoder motor and the encoder motor by the first power supply unit and the second power supply unit;
A rotation unit for rotating the shaft of the encoder motor and rotating the disk plate provided in the encoder motor by applying power to the encoder motor in the power supply unit;
A signal transmission unit for detecting two signals having a phase difference for calculating a rotation number and a rotation angle of the disk plate provided in the rotation unit by the photo interrupter and transmitting the phase signal data;
A signal operation output unit for storing and analyzing signal data sent from the signal transmission unit in an operation unit and outputting three signals;
And a control unit for controlling power of a power supply unit that supplies power to the motor according to an output signal from the signal operation output unit.

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