KR200461697Y1 - Automatic Motor Drying Apparatus - Google Patents

Abstract

A motor automatic drying device is provided. The motor automatic drying apparatus includes a motor connection part to which a motor is connected, a power conversion part for converting AC input power into DC power, a power supply part for supplying DC power converted by the power conversion part to the motor through the motor connection part, and a power supply part. A control unit for controlling the DC power supply operation. As a result, it is possible not only to improve the reliability of securing and maintaining the safety of the motor in power generation and industrial facilities, but also to shorten the maintenance manpower and time.

Description

Automatic Motor Drying Apparatus}

The present invention relates to a motor automatic drying apparatus, and more particularly to a device that can automatically remove the moisture present in the motor.

The motor is often operated in a humid and humid environment. When the motor is installed in a high humidity environment, moisture absorption, condensation, etc. occur in the coil winding of the motor, resulting in a decrease in insulation resistance. Therefore, the motor may not be operated normally or the motor may be damaged due to insulation breakdown. Therefore, dry maintenance is performed on the motor before the motor is started.

Drying maintenance follows the method of drying the inside and the surface of the coil of the motor by sucking dry air through the internal heater and the hot air fan to the cooling inlet. However, such dry maintenance requires considerable manpower and time.

In addition, the recovery of insulation resistance due to moisture absorption is weak and inefficient, which increases anxiety in terms of equipment operation, and thus, there is an urgent need for new maintenance techniques.

The present invention is devised to solve the above problems, the object of the present invention is to automatically dry the inside of the motor through a DC power supply to remove moisture in the motor, the motor that can effectively increase the insulation resistance An automatic drying device is provided.

According to the present invention for achieving the above object, the automatic motor drying apparatus, the motor connecting portion to which the motor is connected; A power conversion unit converting AC input power into DC power; A power supply unit supplying the DC power converted by the power conversion unit to the motor through the motor connection unit; And a control unit controlling a DC power supply operation of the power supply unit.

The DC power is preferably applied to the coil winding of the motor, and the coil winding of the motor is preheated by the DC power so that the inside of the motor is dried.

In addition, the automatic drying apparatus for the motor further includes an insulation resistance measurement unit for measuring insulation resistance of the motor connected to the motor connection unit. The control unit may further include insulation resistance of the motor measured by the insulation resistance measurement unit. When the threshold resistance is exceeded, it is preferable to control the power supply to stop the DC power supply to the motor.

The motor automatic drying apparatus further includes an operation unit configured to receive the threshold resistance from the user, wherein the control unit is configured to provide the insulation resistance of the motor measured by the insulation resistance measurement unit and the user through the operation unit. You can compare the threshold resistance you set.

In addition, the automatic motor drying apparatus may further include a display that displays the voltage of the DC power supplied to the motor by the power supply unit and the insulation resistance of the motor measured by the insulation resistance measuring unit.

The motor automatic drying apparatus further includes a temperature measuring unit measuring a temperature of the motor, and the temperature measured by the temperature measuring unit may be further displayed on the display.

In addition, the automatic motor drying apparatus includes information on the voltage of the DC power supplied to the motor by the power conversion unit, information on the insulation resistance of the motor measured by the insulation resistance measuring unit, and the temperature measuring unit. It may further include a storage unit for storing information about the temperature measured by.

The controller may control the power supply unit to stop the DC power supply to the motor when the temperature of the motor measured by the temperature measuring unit exceeds a threshold temperature.

As described above, according to the present invention, it is possible not only to improve the reliability of securing and maintaining the safety of the motor in power generation and industrial facilities, but also to shorten the maintenance manpower and time.

In addition, by controlling the DC power supply to the winding of the motor in accordance with the insulation resistance set by the user in the field, it is possible to remove moisture in the motor, it is possible to effectively increase the insulation resistance of the motor.

In addition, the status of the motor, such as the power supply of the motor, the internal temperature and insulation resistance can be displayed to visually guide the user.

1 is a block diagram of an automatic motor drying apparatus according to an embodiment of the present invention, and
FIG. 2 is a flowchart provided to explain a motor drying process by the automatic motor drying apparatus shown in FIG. 1.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

1 is a block diagram of a motor automatic drying apparatus according to an embodiment of the present invention. The automatic motor drying apparatus 100 according to the present embodiment applies DC power to the motor 10 to preheat the coil winding of the motor 10 to dry the inside of the motor 10.

In addition, when the insulation resistance of the motor 10 is sufficiently high, the motor automatic drying device 100 cuts off the DC power supply to the motor 10.

Motor automatic drying apparatus 100 that performs such a function, as shown in Figure 1, the motor connection unit 110, AC power input unit 120, power conversion unit 130, DC power supply unit 140, An insulation resistance measuring unit 150, a temperature measuring unit 160, a display 170, a controller 180, an operation unit 190, and a storage unit 195 are provided.

The motor connector 110 is an interface connected to the motor 10, and supplies DC power to the motor 10 through the motor connector 110 as well as measuring insulation resistance of the motor 10.

The AC power input unit 120 receives the three-phase 480V AC power and transfers it to the power conversion unit 130. Then, the power conversion unit 130 converts the three-phase 480V AC power applied from the AC power input unit 120 into 50V to 100V DC power, and transmits the same to the DC power supply 140.

The DC power supply unit 140 supplies 50V to 100V DC power transmitted through the power conversion unit 130 to the motor 10 through the motor connection unit 110.

DC power supplied from the DC power supply unit 140 to the motor 10 through the motor connection unit 110 is applied to the coil winding of the motor 10. Accordingly, since the coil winding of the motor 10 is preheated by the DC power supply and the ambient temperature is increased, the inside of the motor 10 is ultimately dried by the hygroscopic action.

The insulation resistance measuring unit 150 measures the insulation resistance of the motor 10 connected to the motor connection unit 110 and transmits the information on the measured insulation resistance to the controller 180 to be described later. The insulation resistance measurement by the insulation resistance measurement unit 150 may be performed in real time or periodically, and the measurement period may be set by the user.

The temperature measuring unit 160 measures the internal temperature of the motor 10 and transmits the measurement result to the controller 180. Here, the internal temperature of the motor 10 may be a temperature of a coil, a temperature of a bearing, a temperature of an atmosphere inside the motor, and the like. The temperature measurement by the temperature measuring unit 160 may also be performed in real time or periodically, and the measurement period may be set by the user.

The display 170 is a device for displaying visual information. The display 170 displays 1) a voltage of DC power supplied to the motor 10, 2) an insulation resistance of the motor 10, and 3) an internal temperature of the motor 10. do.

The operation unit 190 is a user interface means for receiving various setting values from the user, and is used to set 1) threshold resistance, 2) insulation resistance measurement cycle, 3) temperature measurement cycle, and the like.

The display 170 and the operation unit 190 may be manufactured in a single panel and provided at the front of the automatic motor drying apparatus 100 in view of convenience of device operation of the user.

The controller 180 controls the overall operation of the automatic motor drying apparatus 100 according to the contents set by the user through the operation unit 190 and the measurement result of the insulation resistance measuring unit 150.

Specifically, when the insulation resistance of the motor 10 measured by the insulation resistance measuring unit 150 exceeds the threshold resistance set by the user through the operation unit 190, the controller 180 supplies DC power to the motor 10. The DC power supply unit 140 is controlled to stop. Accordingly, the motor drying operation by the motor automatic drying device 100 is finished.

That is, the motor drying operation by the motor automatic drying apparatus 100 may be said to continue until the insulation resistance of the motor 10 exceeds the threshold resistance.

In addition, the controller 180 may measure 1) the voltage of the DC power supplied by the power conversion unit 130 and supplied to the motor 10 through the DC power supply unit 140, and 2) the insulation resistance measurement unit 150. The insulation resistance of the motor 10 and the internal temperature of the motor 10 measured by the temperature measuring unit 160 are displayed on the display 170.

Meanwhile, the controller 180 may store the parameter information displayed on the display 170 in the storage unit 195 and make the DB.

Hereinafter, a process of automatically drying the motor 10 under the control of the controller 180 will be described in detail with reference to FIG. 2. FIG. 2 is a flowchart provided to explain the motor drying process by the motor automatic drying apparatus 100 shown in FIG. 1.

As shown in FIG. 2, first, the power conversion unit 130 converts the three-phase 480V AC power applied from the AC power input unit 120 into 50V to 100V DC power (S210). In addition, the DC power supply unit 140 supplies the 50V to 100V DC power converted in step S210 to the motor 10 through the motor connection unit 110 (S220).

Accordingly, the coil winding of the motor 10 is preheated by the DC power supplied in step S220, and the inside of the motor 10 is dried (S230).

Meanwhile, the insulation resistance measuring unit 150 measures the insulation resistance of the motor 10 connected to the motor connection unit 110, and the temperature measuring unit 160 measures the internal temperature of the motor 10 (S240).

The controller 180 displays the voltage of the DC power supplied to the motor 10 in step S220 and the insulation resistance and the internal temperature of the motor 10 measured in step S240 on the display 170 (S250).

In addition, the controller 180 compares the insulation resistance of the motor 10 measured in operation S240 with a threshold resistance set by the user through the operation unit 190 (S260).

If it is determined in step S260 that the insulation resistance of the motor 10 is less than or equal to the threshold resistance (S260-N), steps S210 to S260 are repeatedly performed to continue the motor drying operation by the automatic motor drying apparatus 100.

On the other hand, if it is determined that the insulation resistance of the motor 10 exceeds the threshold resistance in step S260 (S260-Y), the controller 180 turns off the DC power supply unit 140 to stop the DC power supply to the motor 10. Control (S270). Accordingly, the motor drying operation by the motor automatic drying device 100 is finished.

Therefore, the motor drying operation by the automatic motor drying apparatus 100 can be said to continue automatically until the insulation resistance of the motor 10 exceeds the threshold resistance.

So far, the motor automatic drying apparatus has been described in detail with reference to a preferred embodiment. In the above embodiment, based on the size of the insulation resistance of the motor 10, by controlling whether the DC power supply to the motor 10, it was implemented to automatically control the drying of the motor (10).

Meanwhile, even when the temperature of the motor 10 measured by the temperature measuring unit 160 exceeds the threshold temperature, the DC power supply to the motor 10 may be stopped.

In addition, the motor automatic drying apparatus 100 is provided with means for measuring the internal humidity of the motor 10, so that the DC power supply to the motor 10 even when the internal humidity of the motor 10 is less than the critical humidity. It can be implemented to stop supply.

The technical idea of the present invention can be applied to other motors as well as motors used in power generation equipment, and can be applied to electric devices in which windings are built-in regardless of high and low voltage motors.

In addition, while the above has been shown and described with respect to preferred embodiments of the present invention, the present invention is not limited to the specific embodiments described above, the technical field to which the subject innovation belongs without departing from the spirit of the subject innovation claimed in the claims. Of course, various modifications can be made by those skilled in the art, and these modifications should not be individually understood from the technical spirit or the prospect of the present invention.

10: motor 100: motor automatic drying device
110: motor connection unit 120: AC power input unit
130: power conversion unit 140: DC power supply
150: insulation resistance measuring unit 160: temperature measuring unit
170: display 180: control unit
190: operation unit 195: storage unit

Claims (8)

A motor connection portion to which a motor is connected;
A power conversion unit converting AC input power into DC power;
A power supply unit supplying the DC power converted by the power conversion unit to the motor through the motor connection unit;
A control unit controlling a DC power supply operation of the power supply unit;
An insulation resistance measurement unit for measuring insulation resistance of the motor connected to the motor connection unit;
An operation unit for setting a threshold resistance from a user;
A display for displaying the voltage of the DC power supplied to the motor by the power supply unit and the insulation resistance of the motor measured by the insulation resistance measuring unit; And
And a storage unit which stores information on the voltage of the DC power supplied to the motor by the power converter and information on the insulation resistance of the motor measured by the insulation resistance measuring unit.
The DC power source is applied to the coil winding of the motor,
The coil winding of the motor is preheated by the DC power supply, so that the inside of the motor is dried,
The control unit,
And controlling the power supply unit to stop supplying the DC power to the motor when the insulation resistance of the motor measured by the insulation resistance measuring unit exceeds the threshold resistance set by the user through the operation unit. Drying equipment.
delete delete delete delete The method of claim 1,
Further comprising: a temperature measuring unit for measuring the temperature of the motor,
The display, the motor automatic drying apparatus, characterized in that further displays the temperature measured by the temperature measuring unit.
delete The method according to claim 6,
The control unit,
And when the temperature of the motor measured by the temperature measuring unit exceeds a threshold temperature, controlling the power supply unit to stop the DC power supply to the motor.

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