KR20180003196U - Device for measuring vibration frequency of motor - Google Patents

Abstract

The vibration frequency measuring device for a motor according to the present invention is divided into 3 to 4 pieces so that 3 to 4 pieces can be arranged side by side in a measurement case, and a sensor fixing part having a stepped structure having 3 to 4 stages is projected A plurality of base plates formed; And a plurality of vibration frequency bands, each of which is installed at one end of the sensor fixing part of the base plate, and which are installed at the respective sensor fixing parts, are formed to have the same size, A piezoelectric vibration sensor; A plurality of LED assembly holes formed on the measurement case so that the operation state notification unit includes a plurality of LEDs, and a part of each LED is installed in a state exposed to the outside; And a magnet mounted on one side of the measurement case so that the measurement case can be attached to the electric motor; And a control unit.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

The present invention relates to an apparatus for measuring a vibration frequency of an electric motor, wherein a plurality of base plates having a sensor fixing portion of a stepped structure can be installed in a measurement case, so that a plurality of piezoelectric vibration sensors And a vibration frequency measuring device for the motor.

Generally, a large number of electric motors of high or low pressure are applied to the field of power plants and industrial plants.

However, due to the above-mentioned characteristics of the industrial field, there is an inefficiency that the manager has to approach the motor and confirm the operation state individually to check whether the motors are operating properly due to the noise of the various facilities and the field.

Accordingly, in order to solve the problem that the manager must approach the electric motor and check the operation state individually as described above, Korean Patent No. 10-0734478 (remote control device for the electric apparatus scale) Detects a predetermined scale range, and when a scale of a certain frequency or higher is received, a person in charge is notified of a problem in the operation of the power transmission device.

In Korean Patent No. 10-1389793 (apparatus and method for monitoring and analyzing an electric motor), electric power is calculated by multiplying current and voltage input to the electric motor, the calculated electric power is added to the accumulated electric power, Voltage and current phases, subtracting the phase at the immediately preceding start from the obtained phase difference, and calculating a phase difference. Then, if the phase difference is larger than a predetermined phase difference, it is determined that there is an abnormality in the start-up characteristic of the motor.

However, in the conventional art as described above, it is inconvenient for the field manager to visit the installation position of the electric motor in order to check the operation state of the electric motor, and a complicated calculation for checking the operation state of the electric motor is required. It is necessary to add additional components and additional power source to be supplied to the device for checking the operation time of the motor and the disadvantage that the inspection time and input labor are required for maintenance in the future, There is a drawback that it takes time.

In order to solve the problems of the prior art described above, the applicant of the present invention has filed a patent application No. 2015-0174447 (entitled "VIBRATION PIPE SENSOR AND MOTOR OPERATING CONDITION VERIFYING APPARATUS USING THE SAME"), By attaching it on the equipment, it is possible to check whether the motor is operating by measuring the vibration frequency of the attachment position.

However, when the oscillation frequency is measured through the oscilloscope for measuring the oscillation frequency when the motor operation state checking device according to the technology of Patent Application No. 2015-0174447 mentioned above is attached on the equipment provided with the motor or the motor, There is a problem that it is difficult to specify the vibration frequency.

Therefore, there is a problem in that it is difficult to specify the attachment position of the motor operation state checking device for attaching to the equipment provided with the electric motor or the electric motor through the oscilloscope as described above.

Korean Registered Patent No. 10-1389793 (issued by April 29, 2014) Korean Patent Publication No. 2013-0115977 (published on October 22, 2013) Korean Registered Patent No. 10-0734478 (published by Mar. 3, 2007)

The present invention is conceived to solve all the problems of the prior art. As a result, a plurality of base plates having a sensor fixing portion of a stepped structure can be installed in a measurement case, And it is an object of the present invention to provide a vibration frequency measuring device for a motor which enables a sensor to be installed in the longitudinal direction and the transverse direction.

Another object of the present invention is to provide a method of measuring a vibration frequency at a corresponding position by measuring the vibration frequency at a corresponding position by being attached to various electric motors or facilities equipped with an electric motor through magnetic force.

The present invention configured to achieve the above object is as follows. That is, the device for measuring the vibration frequency of an electric motor according to the present invention includes a measuring case, a piezoelectric vibration sensor provided in the measuring case in order to convert the vibration generated from the electric motor into electric energy, the electric energy converted by the piezoelectric vibration sensor into a direct current The operation state of the corresponding piezoelectric vibration sensor matching the vibration frequency band of the motor is informed by the DC power outputted by the DC power output unit and the DC power output unit which output the DC power converted through the rectifying unit to be converted, And a plurality of operating condition notification units configured to correspond to the respective sensors, wherein the measuring case is divided into three to four pieces so as to be arranged in parallel in the measuring case, each of which has three A plurality of base plates protruding from the sensor fixing portions in a stepped structure having four to four ends; And a plurality of vibration frequency bands, each of which is installed at one end of the sensor fixing part of the base plate, and which are installed at the respective sensor fixing parts, are formed to have the same size, A piezoelectric vibration sensor; A plurality of LED assembly holes formed on the measurement case so that the operation state notification unit includes a plurality of LEDs, and a part of each LED is installed in a state exposed to the outside; And a magnet mounted on one side of the measurement case so that the measurement case can be attached to the electric motor; And a control unit.

According to the technique of the present invention, since a plurality of base plates having a sensor fixing portion with a stepped structure can be installed in the measurement case, a plurality of piezoelectric vibration sensors having different measurement frequency bands are installed in the measurement case in the longitudinal direction and the transverse direction It is possible to constitute a compact measuring case and to easily measure the vibration frequency band at the corresponding position through the structure that is attached to the equipment provided with various motors or electric motors through magnetic force.

In addition, as described above, it is possible to more easily measure the vibration frequency band at a position to be measured of the electric motor or the electric power facility, so that it is possible to provide an electric motor operation state checking device suitable for the position.

1 is a perspective view showing a vibration frequency measuring apparatus of a motor according to the present invention.
FIG. 2 is a block diagram showing a configuration of a circuit in a vibration frequency measuring apparatus for a motor according to the present invention. FIG.
3 is a view for explaining a configuration of a base plate according to the present invention;
4 and 5 are views showing a state in which a piezoelectric vibration sensor is installed on a base plate according to the present invention.

Hereinafter, an apparatus for measuring a vibration frequency of a motor according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

As shown in the drawing, an apparatus 100 for measuring a vibration frequency of an electric motor according to the present invention is mounted on one side of a motor or an apparatus equipped with an electric motor so as to check the operation of the electric motor, To a vibration frequency measuring apparatus (100) for a motor.

In other words, the apparatus 100 for measuring the vibration frequency of the motor according to the present invention is attached to an unspecified number of positions of the motor or a facility equipped with the motor to measure the vibration frequency at the corresponding position, So that the operating condition checking device of the motor can be attached to the corresponding position.

The apparatus 100 for measuring the vibration frequency of a motor according to the present invention includes a lower case 112 and a lower case 112. The upper case 114 covers the upper portion of the lower case 112, A plurality of base plates 120 provided on a lower case 112 of the measuring case 110 and having a sensor fixing part 116 of a stepped structure at one side thereof, A plurality of piezoelectric vibration sensors 130, which are fixed to the fixing portion 116 and measure vibrations generated from the electric motor and convert the vibration into electric energy, and electric energy converted by the piezoelectric vibration sensor 130, A direct current power output unit 150 for outputting the direct current power converted through the rectifying unit 140 and a direct current power output unit 150 for outputting the converted direct current power to the vibration frequency band of the motor It's right. And a plurality of operation state notification units 160 that are configured to correspond to the respective piezoelectric vibration sensors 130 and inform the operation state of the piezoelectric vibration sensor 130.

On the other hand, in the vibration frequency measuring apparatus 100 for a motor according to the present invention constructed as described above, a plurality of piezoelectric vibration sensors 130 are respectively provided at 65 Hz, 95 Hz, 100 Hz, 105 Hz, 110 Hz, 115 Hz, 120 Hz, 125 Hz, 135 Hz, 140 Hz, and 145 Hz.

The operation state notification unit 160 is electrically connected to the piezoelectric vibration sensor 130 through the rectifying unit 140 and the DC power output unit 150. In this configuration, the operation state notification unit 160 is configured to correspond to the piezoelectric vibration sensor 130 on a one-to-one basis. That is, when the piezoelectric vibration sensor 130 has 12 configurations, the operation status notification unit 160 has 12 configurations.

Accordingly, when the vibration frequency of the motor measured at the time of measuring the vibration frequency of the motor through the apparatus 100 for measuring the vibration frequency of the motor according to the present invention is 65 Hz, 95 Hz, 100 Hz, 105 Hz, 110 Hz, 115 Hz, 120 Hz, 125 Hz, The LEDs are turned on or blinked in the operating state notification unit 160 electrically connected to the piezoelectric vibration sensor 130 operated in the corresponding vibration frequency band if the vibration frequency band is measured in any one of the frequency bands of 130 Hz, 135 Hz, 140 Hz, and 145 Hz It is possible to attach a device for checking the operation state of the motor which operates at the vibration frequency of the vibration frequency band.

In other words, when the vibration frequency of the motor measured when the vibration frequency of the motor is measured through the vibration frequency measuring apparatus 100 of the motor according to the present invention as described above is measured in any one of the vibration frequency bands of the plurality of vibration frequency bands The LED is turned on or blinked in the operating state notification unit 160 electrically connected to the piezoelectric vibration sensor 130 operated in the corresponding vibration frequency band. When the vibration frequency is measured at any position of the motor or the motor, it is possible to attach the motor operation state checking device operating at the vibration frequency measured at the corresponding position to the corresponding position.

Each component constituting the vibration frequency measuring apparatus 100 of the motor according to the present invention will be described in more detail as follows. 1, the measuring case 110 is formed in the shape of a box to form an outer shape. The measuring case 110 is formed of a box- And an upper case 114 covering an upper portion of the lower case 112. At this time, the lower case 112 has a structure in which a plurality of base plates 120 having a sensor fixing part 124 of a stepped structure can be installed in a row, as shown in the figure.

A plurality of piezoelectric vibration sensors 130 are installed in the longitudinal direction by the base plate 120, which is configured in a module form as shown in FIGS. 1 and 2, in the lower case 112 of the measurement case 110 described above. But also in the transverse direction. That is, the piezoelectric vibration sensor 130 may be installed on the base plate 120 in a set form.

As described above, the sensor fixing part 124 is formed in a stepped structure having a plurality of stages so that the piezoelectric vibration sensor 130 to be described later is fixed to each of the sensor fixing parts 124 by fixing means So that a plurality of piezoelectric vibration sensors 130 can be installed and fixed in a stepped structure inside the lower case 112.

A plurality of piezoelectric vibration sensors 130 are installed and fixed in a stepped structure by positioning the piezoelectric vibration sensor 130 on each of the sensor fixing portions 124 of the stepwise structure and fixing the piezoelectric vibration sensor 130 through the fixing screws 134 . At this time, the piezoelectric vibration sensor 130 has a structure in which a screw hole 132 corresponding to a screw hole 126 formed in each of the sensor fixing portions 124 is formed.

Next, the piezoelectric vibration sensor 130 constituting the present invention is designed to generate electrical energy by deformation of a metal film due to vibration when the vibration is applied from the outside and deformation of the piezoelectric film due to deformation of the metal film. 1 to 3, the vibration sensor 130 is fixed on each sensor fixing portion 124 having a stepped structure through a fixing screw 134. The vibration sensor 130 measures the vibration generated from the motor, The vibration frequency band to be converted is composed of many different configurations.

The piezoelectric vibration sensor 130 configured as described above is generally composed of a metal film and a piezoelectric film, and the metal film has a stiffness, and the piezoelectric film may be coated on the upper surface of the metal film with an adhesive. At this time, (+) and (-) poles may be formed on the piezoelectric film. A screw hole 132 is formed in the upper portion of the metal film of the piezoelectric vibration sensor 130 so as to correspond to the screw hole 126 formed on the sensor fixing portion 124.

The fixing screw 134 as the fixing means is fastened through the screw coupling hole 132 formed in the upper end of the metal film of the piezoelectric vibration sensor 130 so that the screw hole 126 on the sensor fixing portion 124 is screw- The respective piezoelectric vibration sensors 130 are fixed to the sensor fixing portions 124 in the form of cantilevers. That is, the piezoelectric vibration sensor 130 may have a piezoelectric cantilever structure in which one end of the metal film is fixed to the sensor fixing portion 124 via the fixing screw 134.

In the piezoelectric vibration sensor 130 configured as described above, when a vibration is applied from a motor or a facility in which an electric motor is installed, a metal film is deformed by vibration and electrical energy is generated by deformation of the piezoelectric film due to deformation of the metal film to be. That is, the vibration generated from the motor is measured and converted into an electric signal.

In the configuration according to the present invention as described above, each of the piezoelectric vibration sensors 130 is provided with one weight 136 having a different weight as shown in the figure. It is intended to constitute a piezoelectric vibration sensor 130 having a different measured vibration frequency band by constituting a weight 136 having a different weight to the piezoelectric vibration sensor 130 having the same vibration frequency band. That is, when the weight 136 is small, the piezoelectric vibration sensor 130 can be configured to operate in a low vibration frequency band. When the weight 136 is heavy, The sensor 130 can be configured.

The measurement case 110 is mounted on the lower surface of the lower case 112 of the measurement case 110 composed of the lower case 112 and the upper case 114 through a magnetic force and attached to the motor or the transmission equipment, A plurality of magnets 170 are further provided. The plurality of magnets 170 mounted on the lower surface of the lower case 112 of the measurement case 110 are attached to an electric motor or a transmission facility so as to facilitate measurement of the vibration frequency.

The present invention includes a rectifying unit 140 for measuring a vibration generated from an electric motor through the above-described piezoelectric vibration sensor 130 and converting the converted electric energy to a direct current, a direct current power source An output unit 150 is constructed. 3, the rectifying unit 140 is electrically connected to each of the piezoelectric vibration sensors 130 and is connected to the corresponding rectifying unit 140 corresponding to the corresponding piezoelectric vibration sensor 130 in which an electric signal is generated by vibration, To convert electrical energy into direct current.

As described above, the electric energy is converted into a direct current (DC) through the corresponding rectifying part 140 corresponding to the corresponding piezoelectric vibration sensor 130, which is electrically connected to each of the piezoelectric vibration sensors 130, The converted DC power is outputted to the operation state notification unit 160 of the corresponding frequency band through the DC power output unit 150 so that the LED can be turned on or blinked so that the vibration frequency of the corresponding position can be known . On the other hand, a plurality of LED assembly holes (not designated by reference numerals) for mounting a plurality of LEDs, which are operated according to the operation of the respective piezoelectric vibration sensors 130, As shown in FIG.

In other words, the above-described piezoelectric vibration sensor 130 senses the vibration transmitted from the electric motor or the electric equipment to produce electric energy, and the produced electric energy is converted into a direct current power through the rectifier 140, And is output to the operation state notification unit 160 such as an LED through the output unit 150 so that the LED can be lighted or blinked so that the vibration frequency of the corresponding position can be known.

The operation state informing unit 160, which constitutes the present invention, can recognize the vibration frequency of a position to be measured by the electric motor or the electric equipment through lighting or blinking. And informs the operation state of the corresponding piezoelectric vibration sensor 130 in accordance with the vibration frequency band of the motor through lighting or blinking by the DC power output by the DC power output unit 150 as shown in FIG.

The operation state notification unit (not shown) notifies the operation state of the corresponding piezoelectric vibration sensor 130 in accordance with the vibration frequency band of the motor through the on / off operation by the DC power output by the DC power output unit 150 160 correspond to the number of the piezoelectric vibration sensors 130, respectively. That is, as shown in FIG. 1 and FIG. 3, the operation state notification unit 160 including eleven piezoelectric vibration sensors 130 also has 11 constructions.

The operation state notification unit 160 notifies the operation state of the corresponding piezoelectric vibration sensor 130 in accordance with the vibration frequency band of the motor through the lighting or blinking by the DC power output by the DC power output unit 150, May be configured such that the vibration frequency band of the motor can be known through the LED or by being blinked. That is, it is possible to know the piezoelectric vibration sensor 130 connected to the corresponding LED through a lighting or blinking operation of the LED, thereby making it possible to increase the vibration frequency.

The rectifying unit 140, the DC power output unit 150, and the operating state informing unit 160 described above are configured on a circuit board (PCB) on which an electric circuit is formed. 1 and 2, the circuit board PCB is mounted on the lower case 112 of the measurement case 110 and is electrically connected to the piezoelectric vibration sensor 130. [ In this case, as shown in FIG. 1, the LEDs constituting the operation state notification unit 160 of the PCB indicate the number of the measured frequency band.

In the vibration frequency measuring apparatus 100 for a motor according to the present invention as described above, the plurality of base plates 120 are formed with a sensor fixing portion 124 having a stepped structure, and a plurality (preferably two to five) . Therefore, two to five piezoelectric vibration sensors 130 may be fixedly installed on each base plate 120 on which the sensor fixing part 124 of the stepped structure is formed.

Therefore, when the vibration frequency of the motor measured at the time of measuring the vibration frequency of the motor through the vibration frequency measuring device 100 of the motor according to the present invention is measured in the 65 Hz band, the piezoelectric vibration sensor 130, The LEDs are turned on or blinked in the operating state informing unit 160 electrically connected to the control unit 160 so that the motor operation state checking device operating at the vibration frequency of the 65 Hz band can be attached to the corresponding position.

The vibration frequency of the motor measured when the vibration frequency of the motor is measured through the apparatus 100 for measuring the vibration frequency of the motor according to the present invention is 95 Hz, 100 Hz, 105 Hz, 110 Hz, 115 Hz, 120 Hz, 125 Hz, The LEDs are turned on or blinked in the operating state notification unit 160 electrically connected to the piezoelectric vibration sensor 130 operated in the corresponding vibration frequency band when measured in any one of the 135 Hz, 140 Hz and 145 Hz bands. When the vibration frequency is measured at any position of the motor or the motor, it is possible to attach the motor operation state checking device operating at the vibration frequency measured at the corresponding position to the corresponding position.

Each component constituting the vibration frequency measuring apparatus 100 of the motor according to the present invention will be described in more detail as follows. First, the measurement case 110 constituting the present invention is configured in the form of a box to form an outer shape. The measurement case 110 is formed of a lower case (not shown) 112 and an upper case 114 covering an upper portion of the lower case 112.

The size of the measurement case 110 configured as described above may be varied depending on the number of the base plate 120 and the number of the piezoelectric vibration sensors 130 installed. That is, in a configuration in which three piezoelectric vibration sensors 130 can be installed on one base plate 120 in the lower case 112 of the measurement case 110, The base plate 120 can be mounted on the lower case 112 of the main body 110. [ Accordingly, the inner width of the lower case 112 is formed to have a width such that two to five piezoelectric vibration sensors can be arranged side by side as shown in the figure.

As shown in the drawing, the base plate 120 is formed with a plurality of stepped sensor fixing portions 124 on the upper side of the base 122 forming the bottom, and is provided on each of the sensor fixing portions 124 And a screw hole 126 for fastening and fixing the piezoelectric vibration sensor 130 is formed. As shown in the figure, the width of the base plate 120 may be formed to have a width corresponding to the width of the vibration-type piezoelectric sensor 130.

The piezoelectric vibration sensor 130 constituting the present invention allows electric energy to be generated by deformation of a metal film due to vibration and deformation of a piezoelectric film due to vibration when external vibration is applied, 130 are fixed to the respective sensor fixing portions 124, which are the stepped surfaces of the base plates 120, through fixing means, and a plurality of vibration frequency bands, which are converted into electric energy through measurement of vibration generated from the electric motors, .

In the configuration according to the present invention as described above, the piezoelectric vibration sensor 130 is constituted by three piezoelectric vibration sensors 130 on one base plate 120, and three piezoelectric vibration sensors 130 And four base plates 120 constituted by a plurality of base plates. Thus, a total of twelve piezoelectric vibration sensors 130 are constructed. Of course, the technology according to the present invention is not limited to a total of twelve piezoelectric vibration sensors 130.

The above-described piezoelectric vibration sensor 130 senses the vibration transmitted from the motor or the electric power generating facility to generate electric energy. The generated electric energy is converted into a direct current power through the rectifier 140, 150 to the operation state notifying unit 160 such as an LED so that the LED can be turned on or off so that the oscillation frequency of the corresponding position can be known.

The operation state informing unit 160, which constitutes the present invention, can recognize the vibration frequency of a position to be measured by the electric motor or the electric equipment through lighting or blinking. And informs the operation state of the corresponding piezoelectric vibration sensor 130 in accordance with the vibration frequency band of the motor through lighting or blinking by the DC power output by the DC power output unit 150 as shown in FIG.

The operation state notification unit 160 notifies the operation state of the corresponding piezoelectric vibration sensor 130 in accordance with the vibration frequency band of the motor through the lighting or blinking by the DC power output by the DC power output unit 150, May be configured such that the vibration frequency band of the motor can be known through the LED or by being blinked. That is, it is possible to know the piezoelectric vibration sensor 130 connected to the corresponding LED through a lighting or blinking operation of the LED, thereby making it possible to increase the vibration frequency.

As described above, according to the present invention, a plurality of piezoelectric vibration sensors 230 having different vibration frequency bands to be measured are installed, and various frequency bands can be measured through one vibration frequency measurement device 100 Of course, by allowing the user to accurately know the vibration frequency of the corresponding position, it is possible to accurately install the motor operation state checking device that can operate at the vibration frequency of the corresponding position.

The present invention is not limited to the above-described embodiments, and various modifications may be made within the scope of the technical idea of the present invention.

100. Vibration frequency measuring device
110. Measuring case 112. Lower case
114. Upper case 120. Base plate
122. Base 124. Sensor fixture
126. Spacer 130. Piezoelectric vibration sensor
132. Screw connection hole 134. Fixing screw
136. Weight 140. Rectifier
150. DC power output section 160. Operation status notification section
170. Magnetic

Claims (1)

A measurement case, and a plurality of piezoelectric vibration sensors provided in the measurement case for converting the vibration generated from the electric motor into electric energy, a rectification unit for converting the electric energy converted by the piezoelectric vibration sensor into a direct current, A DC power output unit for outputting power and a DC power output unit for outputting the DC power output, the operating state of the corresponding piezoelectric vibration sensor matching the vibration frequency band of the motor is informed, and a plurality of And an operation state notification unit for detecting a vibration frequency of the motor,
A plurality of base plates divided into 3 to 4 pieces so that 3 to 4 pieces are arranged side by side in the measurement case, and sensor fixing portions of a stepped structure having 3 to 4 ends are protruded and formed on one side of each of the base plates;
Wherein the vibration sensors are fixed to the sensor fixing part of the base plate at one end thereof and each of the sensor fixing parts are formed to have the same size and the vibration frequency band to be operated is different according to the difference of the weight attached to one side thereof A plurality of piezoelectric vibration sensors;
A plurality of LED assembly holes formed on the measurement case such that the operation status notification unit includes a plurality of LEDs and a part of the LEDs is installed in an exposed state; And
A magnet mounted on one side of the measurement case so that the measurement case can be attached to the motor; And an oscillation frequency measuring unit for measuring the oscillation frequency of the electric motor.

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