KR20160078193A - Integrated encoder and brake motor rotation control device - Google Patents

Abstract

The present invention relates to a device for braking and maintaining stoppage of motor rotation having an integrated encoder and brake. The device for braking and maintaining stoppage of motor rotation having an integrated encoder and brake comprises: a brake means formed on a shaft of a motor to brake or maintain stoppage of rotation of the shaft; an encoder sensor formed on the brake means to measure a rotational speed of the shaft and transmit measurement information; a PCB to collect the measurement information transmitted from the encoder sensor to transmit the measurement information to an external control device, and control brake torque of the brake means; and a case mounted and fixed on the motor, in which the PCB is embedded. The encoder sensor for measuring the rotational speed of the shaft and transmitting the measurement information is integrated into the brake means formed on the shaft of the motor to brake or maintain stoppage of rotation of the shaft to provide a rotation control device to conveniently install the rotation control device by firstly machining the diameter of the motor shaft to reduce time and manpower for installation to improve productivity for a product and reduce costs of the product to secure price competitiveness of the product and minimize the size of the product to secure versatile application of the product beyond installation limitations.

Description

[0001] INTEGRATED ENCODER AND BRAKE [0002] Motor rotation control device [0003]

[0001] The present invention relates to an encoder and a brake-integrated motor rotating braking and stopping device, and more particularly, to a motor-brake braking and stopping device which measures the rotational speed of a motor by means of a brake means formed on a shaft of the motor, And a rotation control device in which an encoder sensor for transmitting the measurement information is integrally formed, it is possible to easily install the rotation control device through the primary diameter machining of the motor shaft, thereby reducing the time and manpower required for installation, Encoder and brake integrated type motor which can secure price competitiveness of product by reducing product cost and to minimize product size to ensure product versatility by avoiding installation constraint Rotary braking and stopping maintenance ≪ / RTI >

2. Description of the Related Art Generally, a motor is a power generating device that generates power by receiving power and transmits the generated torque through a shaft, and is widely used in various mechanical devices and industrial fields.

Here, when it is required to output a rotational force varying according to the situation from the motor, an encoder sensor for detecting the rotational speed of the motor and a rotational speed of the motor based on the measurement information measured by the encoder sensor, And a brake means for braking or stopping the motor when it is necessary to stop the motor.

However, the encoder sensor and the brake means of the rotary braking and stopping device provided in the conventional motor are respectively installed on the shaft of the motor. In order to install the brake means on the shaft in general, a primary machining of the shaft diameter is required, Since a second machining of the shaft diameter is required to install the encoder sensor, a large number of machining steps are required to install the brake means and the encoder sensor, The productivity is lowered, the unit price is increased, and the price competitiveness of the product is lowered.

In addition, since the encoder sensor and the brake means provided in the conventional motor are respectively installed on the shaft, the size of the motor (product) provided with the encoder sensor and the brake means is increased, There was a problem that it was low.

SUMMARY OF THE INVENTION The present invention has been proposed in order to solve all of the above problems, and it is an object of the present invention to provide a braking device which is formed on a shaft of a motor and which brakes the rotation of the motor, Since the rotation control device is integrally formed with the encoder sensor for transmitting information, it is possible to easily install the rotation control device through the primary diameter machining of the motor shaft, thereby reducing the time and manpower required for the installation, In addition to being able to secure the price competitiveness of the product by reducing the unit price of the product, it is possible to minimize the size of the product and to avoid the restriction of the installation and to secure the versatility of the product. .

According to an aspect of the present invention, there is provided an apparatus for rotating and stopping a motor with an encoder and a brake, comprising: brake means formed on a shaft of a motor to stop or maintain a rotation of a shaft; An encoder sensor for measuring the rotation speed of the shaft and transmitting the measurement information, a control unit for transmitting the measurement information transmitted from the encoder sensor to an external control device and controlling the brake torque of the brake unit, And a case coupled to the motor and housing the PCB therein.

The brake unit may include an annular metal brake plate formed on a shaft of the motor and rotating together with the shaft, a magnetic force generator positioned near the lower portion of the brake plate and generating a magnetic force when power is supplied, And a lining pad which is located at an upper portion of the magnetic force generator and whose position is controlled by the magnetic force generator and is elastically coupled to the lower portion of the brake plate by a spring,

When power is supplied to the magnetic force generator through the PCB for controlling the operation of the magnetic force generator to generate magnetic force, the lining pad is pulled downward to interfere with contact between the lining pad and the brake plate to induce smooth rotation of the shaft and,

The lining pad is restored and raised by elasticity of the spring when the magnetic force generation is released due to the interruption of the power supply of the magnetic force generator, so that the lining pad is brought into contact with the lower portion of the brake plate to brak down or stop the rotation of the shaft,

The PCB is installed with the magnetic force generator, and the case closes and protects the PCB installed in the magnetic force generator.

The encoder sensor may include a plurality of encoding marks formed at an equal interval with respect to a center of the brake plate at an edge portion of the brake plate and a plurality of encoding marks formed on the magnetic force generator, A reception unit formed on the magnetic force generator and configured to receive a beam irradiated by the transmission unit and transmit the reception information to the PCB, And a fixing groove for guiding the bridging portion and the receiving portion to be stably fixed inwardly and intentionally, so that the braking means and the encoder sensor are integrally formed.

The encoding mark may be formed on the surface of the brake plate in any one of a groove, a perforation, and a printing.

As described above, according to the encoder-and-brake integrated type motor rotating braking and stopping holding device according to the present invention, the rotation speed of the motor is measured on the brake means formed on the shaft of the motor for braking the rotation of the motor, And a rotation control device in which an encoder sensor for transmitting the measurement information is integrally formed, it is possible to easily install the rotation control device through the primary diameter machining of the motor shaft, thereby reducing the time and manpower required for installation, Not only can the price of the product be reduced, the cost competitiveness of the product can be secured, and the size of the product can be minimized.

1 is a perspective view of an encoder and brake integrated type motor rotating braking and stopping and maintaining apparatus according to an embodiment of the present invention;
Fig. 2 is an exploded perspective view of the encoder-and-brake integrated motor rotating braking and stopping and holding apparatus shown in Fig.
Fig. 3 is a use state diagram of the encoder-and-brake integrated motor rotating braking and stopping and holding apparatus shown in Fig. 1

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is an exploded perspective view of a motor rotating braking and stopping device according to a preferred embodiment of the present invention; Fig. Detailed descriptions of well-known functions and constructions that may be unnecessarily obscured by the gist of the present invention will be omitted.

1 to 3 illustrate an encoder and a brake integrated type motor rotating braking and stopping apparatus according to an embodiment of the present invention. FIG. 1 is a block diagram of an encoder and a brake integrated motor rotating braking and stopping apparatus Fig. 2 is an exploded perspective view of the encoder-and-brake integrated motor rotary braking and stopping retention device shown in Fig. 1, Fig. 3 is a use state diagram of the encoder and brake integrated motor rotating braking and stopping retention device shown in Fig. Respectively.

As shown in the figure, the encoder-and-brake integrated motor rotary braking and stopping and holding apparatus 100 according to the embodiment of the present invention includes a brake means 10, an encoder sensor 20, a PCB 30, And a case 40.

1 and 2, the brake means 10 is formed on the shaft 1a of the motor 1 to brak or stop the rotation of the shaft 1a,

An annular metal brake plate 11 formed on the shaft 1a of the motor 1 and rotated together with the shaft 1a and a lower metal plate 11 positioned near the lower portion of the brake plate 11, A magnetic force generator 12 for generating a magnetic force when the magnetic force is generated by the magnetic force generator 12 and a magnetic force generator 12 positioned above the magnetic force generator 12 and controlled by the magnetic force generator 12, And a lining pad (13) elastically engaged and frictionally contacted to the lower portion of the brake plate (11).

3B, when the rotation of the shaft 1 a of the motor 1 is braked through the brake means 10 or when stopping is required, the power supplied to the magnetic force generator 12 is cut off to generate a magnetic force The lining pad 13 is naturally restored and lifted by the elasticity of the spring 2 to be brought into contact with the lower portion of the brake plate 11 so as to brak or stop the rotation of the shaft 1a.

At this time, the magnetic force generator 12 operates through the control of the PCB 30 to be hounded to control the brake torque of the brake plate 11 and the lining pad 13.

3C, when the rotation of the shaft 1 a of the motor 1 is requested, the magnetic force generator 12 is supplied with electric power through the PCB 30, which controls the operation of the magnetic force generator 12, The magnetic force of the magnetic force generator 12 is generated so that the lining pad 13 is pulled downward due to the magnetic force to interfere with the contact between the lining pad 13 and the brake plate 11, Thereby inducing smooth rotation.

The method of braking or stopping the rotation of the shaft by raising and lowering the lining pad 13 by the magnetic force of the magnetic force generator 12 and rubbing against the upper brake plate 11 is known as a conventional motor 1, And the detailed description thereof will be omitted.

As shown in FIGS. 1 and 2, the encoder sensor 20 is formed in the brake means 10 to measure the rotational speed of the shaft 1a and to transmit the measurement information,

A plurality of encoding marks 21 formed at an equal interval with respect to the center of the brake plate 11 at an edge portion of the brake plate 11 and formed on the magnetic force generator 12, (22) for irradiating a beam to the encoding mark (21) formed on the magnetic force generator (11), and a beam forming unit (22) formed on the magnetic force generator (12) A receiving portion 23 for transmitting the received information to the PCB 30 and a fixing groove formed on the magnetic force generator 12 for guiding the transmitting portion 22 and the receiving portion 23 to be stably inwardly fixed 24).

That is, the encoding mark 21 of the encoder sensor 20 is formed on the brake plate 11 of the brake means 10, and the transmitter 22 and the receiver 23 are connected to the magnetic force generator 12, The motor 1 is provided on the upper surface of the motor shaft 1 so that the structure of the encoder sensor 20 is integrated with the structure of the brake means 10, ), It is possible to minimize the time and manpower required for machining, and the installation work is completed by installing the brake means 10 integrally mounted with the encoder sensor 20 The time and manpower required for the installation of the separate encoder sensor can be saved, and the processing and manufacturing convenience of the product can be provided.

3A, the beam output from the transmitting unit 22 of the encoder sensor 20 is reflected on the encoding mark 21 and output to the receiving unit 23, and the output beam is received The receiving unit 23 transmits the received information to the PCB 30 to recognize the rotation speed of the shaft 1 a of the motor 1 in the PCB 30.

Meanwhile, the encoding mark 21 may be formed on the surface of the brake plate 11 by any method selected from grooves, perforations, and printing, but it is not limited thereto.

2, the PCB 30 collects measurement information transmitted from the encoder sensor 20 and transmits the measurement information to an external control device (not shown) Controls the brake torque of the brake means (10) through a control command of the device so as to brake the rotation of the shaft (1a) or to maintain the stop.

Here, the PCB 30 is installed with the magnetic force generator 12, and the case 40, which is to be installed later, protects the PCB 30 installed in the magnetic force generator 12 and protects the PCB 30.

1 and 2, the case 40 is fixedly coupled to the motor 1, and the PCB 30 is internally closed to stably protect the PCB 30 from foreign substances such as impact and dust. .

The encoder and brake integrated type motor rotating braking and stopping and holding apparatus 100 of the present invention having the above-described components is formed on the shaft 1a of the motor 1 to brak down or stop the rotation of the motor 1 And the encoder sensor 20 that measures the rotational speed of the motor 1 and transmits the measurement information to the brake means 10 is provided integrally with the motor 1, The rotation control device can be easily installed through the first diameter processing of the product, thereby reducing the time and manpower required for the installation, thereby improving the productivity of the product, reducing the unit cost of the product, So that it is possible to secure the versatility of use of the product.

The encoder-and-braking-type motor rotating braking and stopping and holding apparatus 100 according to the embodiment having the above-described configuration controls the rotation speed of the shaft 1a of the motor 1 as follows.

3A, when the shaft 1a of the motor 1 is rotated, the brake plate 11 of the brake means 10 mounted on the shaft 1a is rotated together with the shaft 1a At this time, a beam irradiated to the encoding mark 21 formed on the brake plate 11 at the transmitting portion 22 of the encoder sensor 20 is reflected on the encoding mark 21 and transmitted to the receiving portion 23, The receiving unit 23 for receiving the transmitted beam transmits the received information to the PCB 30. The PCB transmits the received information to an external control device (not shown) ) To recognize the rotational speed of the shaft 1a.

3B, when a braking command for the rotation of the shaft 1a of the motor 1 is transmitted to the PCB 30 through the external jogging device, the PCB 30 is rotated by the braking means The lining pad 13 can be smoothly lifted and lowered by the elasticity of the spring 2 by releasing the power supply to the magnetic force generator 12 of the lining pad 13, The rotation of the shaft 1a is braked or stopped by the contact friction of the shaft 11.

Conversely, if smooth rotation of the shaft 1 a of the motor 1 is required through an external control device, as shown in FIG. 3C, the magnetic force generated by the magnetic force generator 12 through the PCB 30, The magnetic force of the magnetic force generator 12 is generated by supplying power to the generator 12 so that the lining pad 13 is pulled downward due to the magnetic force to interfere with the contact between the lining pad 13 and the brake plate 11. [ Thereby inducing smooth rotation of the shaft 1a.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limiting the scope of the invention as defined by the appended claims. You will understand the point. It goes without saying that variations can be made by those skilled in the art without departing from the spirit of the present invention. Accordingly, the scope of claim of the present invention is not limited within the scope of the detailed description, but will be defined by the following claims and technical ideas thereof.

1. Motor 1a. shaft
2. Spring
10. Brake means 11. Brake plate
12. Magnetic generator 13. Lining pad
20. Encoder sensor 21. Encoding mark
22. Transmitter 23. Receiver
24. Fixed Grooves 30. PCB
40. Case
100. Encoder and brake integrated type motor Rotary braking and stopping device

Claims (4)

A brake means 10 formed on the shaft 1a of the motor 1 for braking or holding the rotation of the shaft 1a;
An encoder sensor (20) formed on the brake means (10) for measuring a rotation speed of the shaft (1a) and transmitting the measurement information;
A PCB 30 for collecting measurement information transmitted from the encoder sensor 20 and transmitting the measurement information to an external control device and controlling break torque of the brake means 10; And
A case 40 fixedly coupled to the motor 1 and having the PCB 30 therein; And an encoder and a brake integrated type motor rotating braking and stopping device.
The method according to claim 1,
The brake means (10)
An annular metal brake plate 11 formed on the shaft 1a of the motor 1 and rotated together with the shaft 1a,
A magnetic force generator 12 positioned near the lower portion of the brake plate 11 and generating a magnetic force when power is supplied,
The magnetic force generator 12 is positioned above the magnetic force generator 12 and is controlled in position by the magnetic force generator 12. The magnetic force generator 12 is elastically coupled to the magnetic force generator 12 by a spring 2, And a lining pad (13)
When power is supplied to the magnetic force generator 12 through the PCB 30 that controls the operation of the magnetic force generator 12 and a magnetic force is generated, the lining pad 13 is pulled downward, Thereby preventing contact of the brake plate 11 and inducing smooth rotation of the shaft 1a,
When the power supply to the magnetic force generator 12 is cut off and the generation of the magnetic force is released, the lining pad 13 is restored and lifted by the elasticity of the spring 2 to contact the lower portion of the brake plate 11, To maintain the stop,
Wherein the PCB (30) is mounted with the magnetic force generator (12) mounted thereon, and the case (40) closes and protects the PCB (30) installed in the magnetic force generator (12) Braking and stopping devices.
3. The method of claim 2,
The encoder sensor (20)
A plurality of encoding marks 21 formed at equal intervals on the edge of the brake plate 11 with reference to the center of the brake plate 11,
A transmission part 22 formed on the magnetic force generator 12 and configured to irradiate a beam to the encoding mark 21 formed on the brake plate 11,
A reception unit 23 formed on the magnetic force generator 12 and receiving a beam irradiated by the transmission unit 22 and transmitting the reception information to the PCB 30;
And a fixing groove (24) formed on the magnetic force generator (12) for guiding the transmitting portion (22) and the receiving portion (23) to be stably inwardly fixed,
And the encoder sensor (20) is integrally formed on the brake means (10).
The method of claim 3,
The encoding mark (21)
Wherein the braking plate (11) is formed on the surface of the braking plate (11) by any one method selected from among grooves, perforations, and printing.

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