KR102077187B1 - Vibration and temperature sensor for motors - Google Patents

Abstract

The present invention relates to a structure for measuring the temperature and vibration of a bearing mounted on a motor shaft, a bearing condensed on a motor shaft protruding from the center of the motor body, an inner cover covering the bearing, and rotated condensed on the motor shaft A motor fan that cools together and an outer cover that prevents external exposure of the motor fan are provided in a sequentially coupled motor, which detects the temperature and vibration of the bearing, and detects the temperature and vibration for the motor to check the replacement time of the bearing. In the sensor device, the motor temperature and vibration sensing sensor device is in contact with the outer retainer of the bearing and a wave washer that is constrained to the seating portion of the inner cover to receive the vibration and heat of the bearing; A sensor probe attached to the wave washer and having a temperature sensor and a vibration sensor to sense the temperature and vibration of the wave washer; A bearing installed in the motor with a configuration that is connected to the sensor probe with a cable and is provided outside of the motor body, and includes a measurement module that receives the signal detected through the sensor probe and measures whether a set temperature and vibration abnormality occur. It relates to a temperature sensor and a vibration sensor for the motor to detect the replacement time of the bearing that can extend the service life of the motor by sensing the abnormal temperature and vibration of the.

Description

Vibration and temperature sensor for motors

The present invention relates to a structure for measuring the temperature and vibration of a bearing mounted on a motor shaft, and more specifically, a replacement of a bearing that can extend the service life of the motor by sensing the abnormal temperature and vibration of the bearing installed on the motor. It relates to a temperature sensor and a vibration sensor for the motor to grasp the timing.

Generally, a motor is provided in a vehicle or a factory facility for driving and driving a facility.

For the life of the motor, there is a great difference depending on whether the motor operates smoothly, there is no shaking, or whether heat is generated, depending on the life of the motor and the smooth operation.

Therefore, the life of the motor can have an absolute influence on the vibration of the motor shaft, that is, the degree of vibration and the heat and overload caused by it.

On the other hand, it is a motor shaft that can grasp the vibration of the motor most accurately, but there is a difficulty with the current technology equipped with a sensor on such a motor shaft.

In addition, a very fatal failure such as abrasion of the motor coil occurs due to wear, deterioration, destruction, etc. of a bearing supporting the motor shaft due to vibration of the motor shaft.

The temperature sensor installed in the conventional motor is mounted adjacent to the stator coil of the motor to sense the temperature of the stator coil, but there is a problem in that the cause of failure such as wear on the bearing can not be identified in advance due to vibration of the motor shaft due to long-term rotation.

KR 10-2003-0066030 A KR 10-2017-0088513 A

In order to solve the above problems, the present invention is adjacent to a wave washer to a bearing coupled to a motor shaft, and a temperature sensor and a vibration sensor attached to the wave washer are installed in the motor to detect the temperature and vibration generated in the bearing. An object of the present invention is to provide a temperature and vibration detection sensor device for a motor that detects an abnormal temperature and vibration of a bearing, and identifies a replacement time of a bearing that can extend the service life of the motor.

In order to achieve the above object, the present invention is a bearing condensed on a motor shaft protruding from the center of the motor body, an inner cover covering the bearing, a motor fan condensed on the motor shaft to cool with rotation, and the motor In the motor temperature and vibration detection sensor device to detect the replacement time of the bearing by detecting the temperature and vibration of the bearing is provided in the motor is coupled to the outer cover to prevent the external exposure of the fan, the motor temperature and The vibration sensor is a wave washer in contact with the outer retainer of the bearing and being restrained by the seating portion of the inner cover to receive vibration and heat generation of the bearing; A sensor probe attached to the wave washer and having a temperature sensor and a vibration sensor to sense the temperature and vibration of the wave washer; It is connected to the sensor probe by a cable and is provided on the outside of the motor body, and receives a signal detected through the sensor probe and includes a measurement module that measures the set temperature and vibration anomalies. And a vibration sensing sensor device.

Here, a seating portion having the same inner diameter is formed in the center of the inner cover so as to fit into the outer retainer of the bearing so as to have a receiving space in which the wave washer is accommodated, and the sensor probe is seated and fixed on an inner side of the seating portion. It is characterized in that the sensor groove and the sensor mounting portion including a connection hole for external exposure of the cable is further formed.

By providing the present invention configured as described above, there is an effect that can effectively grasp the replacement time of the bearing that can extend the service life of the motor by sensing the abnormal temperature and vibration of the bearing installed on the motor.

1 is a block diagram showing a temperature sensor and a vibration sensor for a motor according to the present invention.
Figure 2 is a configuration diagram showing the separation state of the motor temperature and vibration detection sensor device according to the present invention.
Figure 3 is a partial cross-sectional view showing the internal configuration of a temperature sensor and a vibration sensor for a motor according to the present invention.
Figure 4 is an enlarged view of a partial cross-sectional configuration and sensor probe of a temperature and vibration sensor device for a motor according to the present invention.
Figure 5 is a block diagram for the operation of the motor temperature and vibration detection sensor device according to the present invention.

Hereinafter, preferred embodiments will be described in detail with reference to the accompanying drawings so that a person having ordinary knowledge belonging to the same technical field can easily implement the present invention.

Temperature and vibration detection sensor device for the motor of the present invention

1 to 5, the temperature and vibration on the bearing 130 mounted on the motor shaft 120 to extend the life of the motor 100, which is commonly used in automobiles or various industrial sites. When a detected temperature and vibration abnormality occurs, it is determined that the bearing 130 has reached the end of its service life, and the bearing life of the motor 100 is replaced, thereby further extending the service life of the motor 100.

The motor 100 includes a bearing 130 condensed on a motor shaft 120 protruding from the center of the motor body 110, an inner cover 140 covering the bearing 130, and the motor shaft 120 The condensation of the motor fan 150 to cool with rotation and the outer cover 160 to prevent external exposure of the motor fan 150 are sequentially combined to have the same configuration as the conventional motor 100. have.

Here, the wave washer 200 between the bearing 130 and the inner cover 140 has elasticity and is mounted in close contact with each other.

At this time, the wave washer 200 is in contact with the outer retainer 131 of the bearing 130 and is restrained by the seating portion 141 of the inner cover 140 to receive vibration and heat of the bearing 130 It may be, it is preferable that it is formed in a ring shape as if surrounding the motor shaft 120.

Moreover, the wave washer 200 has a predetermined elastic force in the vertical direction by repeatedly forming a floor and a valley like a wave shape along the circumference.

Therefore, the wave washer 200 can absorb vibrations generated in the bearing 130 due to the contact between the wave washer 200 and the bearing 130.

On the other hand, a portion of the wave washer 200 is attached to the wave washer 200, a sensor having a temperature sensor 310 and a vibration sensor 320 to detect the temperature and vibration of the wave washer 200 Probe 300 is provided.

The sensor probe 300 is equipped with a temperature sensor 310 and a vibration sensor 320, and is mounted on a part of the inner cover 140, and may be provided in close contact by the elastic force of the wave washer 200.

In other words, a seating portion 141 having the same inner diameter is fitted to the outer retainer 131 of the bearing 130 to have a receiving space in which the wave washer 200 is accommodated in the center of the inner cover 140. The wave washer 200 is elastically provided in the inner space between the bearing 130 formed and fitted to the seating portion 141.

In addition, a sensor installation part including a sensor groove 144 on which the sensor probe 300 is seated and fixed, and a connection hole 145 for external exposure of the cable 410, on an inner surface of the seating part 141. It is preferable that (143) is further formed.

That is, the cable 410 connected to the sensor probe 300 through the connection hole 145 is exposed to the outside of the inner cover 140, the measurement module 400 installed on a portion of the motor body 110 Until the cable 410 is connected, temperature and vibration values sensed by the sensor probe 300 may be transmitted to the measurement module 400 by wire.

On the other hand, the measurement module 400 provided on the outside of the motor body 110 may receive a detection signal of the sensor probe 300 through the cable 410 and measure whether a set temperature and vibration abnormality occur.

Here, when the temperature and vibration values measured through the temperature sensor 310 and the vibration sensor 320 of the sensor probe 300 are higher than a set temperature and vibration value, the measurement module 400 indicates an abnormality of the motor 100 A processor that analyzes the information received from the sensor probe and outputs a signal capable of controlling the power cut-off unit 440, which may be built-in, and which can cut off the power of the motor 100, and which analyzes the information received from the sensor probe (FFT analysis) ) May be further provided.

Meanwhile, the communication module of the transmitter 430 may include RS232C, RS485 communication, and various communication functions such as Wi-Fi and Bluetooth.

The operation of the present invention configured as described above will be described.

When the motor 100 is driven, a motor shaft 120 including a rotating magnet rotates by a magnetic field generated in the stator, and rotational vibration of the motor shaft 120 is transmitted to the bearing 130.

At this time, when the vibration is transmitted to the wave washer 200 provided elastically between the seating portion 141 of the inner cover 140 and the bearing 130, the vibration sensor 320 of the sensor probe 300 By detecting the vibration and transmitting the voltage signal of the vibration sensor 320 according to the vibration to the measurement module 400 through the cable 410, the measurement module 400 controls the motor 100 through the set vibration value. And enable users to be notified.

In addition, when the temperature of the bearing 130 rises through the rotation of the motor shaft 120, the wave washer 200 is received and the temperature sensor 310 of the sensor probe 300 senses the measurement module (400) Through this control, it is possible to control the driving of the motor 100 and to check the replacement time of the bearing 130 of the motor 100 with the user.

The propagation process of the vibration sensor 320 will be described with respect to the vibrations sequentially detected in FIGS. 1 to 5 below.

[Figure 1]

[Picture 2]

[Figure 3]

[Figure 4]

[Figure 5]

When there is no vibration detection in the vibration sensor 320, the DC voltage value according to the slope maintains the voltage at a value between 1.0 and 2.0V.

If the arbitrary DC voltage (1 ~ 2V) is taken as the reference voltage, and the analog signal ADC voltage value is subtracted and taken as an absolute value, there is no negative (-) voltage and only a positive (+) voltage exists.

Therefore, since the sensors of the existing products send analog waveforms as they are, even if they are measured with a PLC or multimeter tester, there is little change in the value and there is a situation where it cannot properly express the vibrating situation. In the industrial field, the process of receiving and processing a signal in real time by a PLC can become a very difficult condition in reality.

By providing the present invention configured as described above, there is an effect that can effectively grasp the replacement time of the bearing that can extend the service life of the motor by sensing the abnormal temperature and vibration of the bearing installed on the motor.

The terms and words used in the present specification and claims described above should not be construed as being limited to ordinary or lexical meanings, and the inventor appropriately uses the concept of terms to describe his or her invention in the best way. It should be interpreted as a meaning and a concept consistent with the technical idea of the present invention based on the principle that it can be defined as such.

Therefore, the configuration shown in the drawings and examples described in this specification is only one of the most preferred embodiments of the present invention, and does not represent all of the technical spirit of the present invention, and can be replaced at the time of this application. It should be understood that there may be various equivalents and variations.

100: motor
110: motor body
120: motor shaft
130: bearing
131: external retainer
132: internal retainer
135: Ball
140: inner cover
141: seating
143: sensor installation
144: sensor home
145: connecting hole
150: motor fan
160: outer cover
200: wave washer
300: sensor probe
310: temperature sensor
320: vibration sensor
400: measurement module
410: cable

Claims (3)

A bearing 130 condensed on the motor shaft 120 protruding at the center of the motor body 110, an inner cover 140 covering the bearing 130, and condensed on the motor shaft 120 with rotation A motor fan 150 for cooling and an outer cover 160 for preventing external exposure of the motor fan 150 are provided in the sequentially coupled motor 100 to detect the temperature and vibration of the bearing 130 to detect the bearing In the temperature and vibration detection sensor device for a motor that can check the replacement time of the
The temperature and vibration sensor device for the motor,
A wave washer 200 that is in contact with the outer retainer 131 of the bearing 130 and is constrained by the seating portion 141 of the inner cover 140 to receive vibration and heat generation of the bearing 130;
A sensor probe 300 attached to the wave washer 200 and having a temperature sensor 310 and a vibration sensor 320 to sense the temperature and vibration of the wave washer 200;
Is connected to the sensor probe 300 by a cable 410 is provided on the outside of the motor body 110, receives the signal detected through the sensor probe 300 to measure whether the set temperature and vibration abnormality occurs It comprises a measurement module 400,
In the center of the inner cover 140, a seating portion 141 having the same inner diameter is formed so as to fit into the outer retainer 131 of the bearing 130 so as to have a receiving space in which the wave washer 200 is accommodated,
A sensor installation portion 143 including a sensor groove 144 on which the sensor probe 300 is seated and fixed, and a connection hole 145 for external exposure of the cable 410, on an inner surface of the seating portion 141 ) The temperature and vibration detection sensor device for a motor, characterized in that further formed. delete delete

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