KR101445083B1 - Partial Discharge Detection for Setting Inside of Electric Power Devide Box - Google Patents

Abstract

According to the method for detecting partial discharge of a high-voltage power device according to the present invention, the non-contact type partial discharge detecting means is provided around the unshielded lead wire in the power distributing box of the high-voltage power device, so that the partial discharge can be effectively detected through signal coupling, Since the power distributing box shields external radiated noise, it is strong against external noise and is easy to detect the signal, so that diagnosis of the partial discharge of the high voltage power device can be effectively performed.

Description

Partial Discharge Detection for Setting Inside of Electric Power Devide Box [

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a partial discharge detection method, and more particularly, to a method for detecting a partial discharge of a power device by providing a partial discharge detection means (sensor or the like) inside a distribution box of a high voltage power device.

In general, the internal insulators of power devices operating at high voltages will degrade over time. Partial discharge may occur at the high-voltage line due to such deterioration. At this time, a partial discharge causes a vicious cycle in which the insulator is further deteriorated, resulting in dielectric breakdown and power device failure. Therefore, it is very important to monitor the degree of deterioration of the insulator inside the power equipment and to predict the repair time, and it is possible to predict and manage this by measuring and monitoring the partial discharge.

Accordingly, various types of partial discharge detection devices are used. Among them, the electric detection device is a device in which a broadband impulse current signal induced by a partial discharge generated in a deteriorated insulator portion is transmitted to a power device internal winding (e.g., a transformer, a generator, Such as an internal winding of a battery, flows through a conductor to which a high voltage is applied, and is electromagnetically coupled to the detection device.

This kind of detection device has a form of measuring directly connected to a high-voltage winding conductor and a form of being installed outside the insulator surrounding the power line without direct connection, and an antenna type installed inside and outside the power device. Here, the shape of the outer side is relatively more secure than that of the direct connection, and the low frequency noise of a few MHz or less flowing along the high voltage conductor is free, but the sensitivity is low. Korean Patent Application No. 10-2011-126499 can be referred to as related art.

Particularly, among the sensors installed non-contactly with the rotating machine such as the electric motor and the generator, the shape mounted on the stator slot in the power device may be an additional risk factor for the electric equipment requiring difficult installation and stability. In addition, in the form of being installed on the external power line cable of the power equipment, the partial discharge of the inside can be measured simply and safely. However, since the power cable of the high voltage power equipment is shielded by the external ground, It is true.

SUMMARY OF THE INVENTION It is therefore an object of the present invention to provide a method for measuring partial discharge of an electric power equipment by simply and safely installing a partial discharge detecting means in a power distributing box of a high voltage electric power machine, And a method of detecting a partial discharge of a high voltage electric power machine.

In order to accomplish the above object, according to one aspect of the present invention, there is provided a method of detecting a partial discharge of a high-voltage power device, the method comprising: connecting an external power line cable to an internal device of a high- The external ground wire of the external power line cable is removed and the end of the external power line cable is connected to a connection part connected to the internal device in a stripped state so as to be connected to the power line of the internal device connected to the connection part through the connection part step; Installing a non-contact type partial discharge detecting means around a portion of the external power line cable from which the sheath ground line is removed; And an electromagnetic coupling signal detected by the partial discharge detecting means in a measuring apparatus connected to the partial discharge detecting means by a cable to judge whether the partial discharge is caused by deterioration of the power line insulator in the internal apparatus, Wherein the noncontact partial discharge detecting means is disposed around a portion of the external power line cable where the external ground wire is not shielded by the external ground wire so that the reception sensitivity of the electromagnetic coupling signal And the box-shaped distribution box shields external radiated noise, so that the influence of external noise can be reduced.

The external power line cable is a cable in which an insulated three-strand power line is covered with the outer surface ground wire and an insulator, and the partial discharge detecting means is provided around each of the three strand power lines from which the outer surface ground wire is removed.

Wherein the noncontact partial discharge detection means comprises a coupler for voltage detection in accordance with the electromagnetic coupling signal, a current transformer for current detection in accordance with the electromagnetic coupling signal, or a switch for receiving the electromagnetic coupling signal in the form of an electromagnetic wave Antenna.
The present invention relates to a method of detecting a partial discharge of a high voltage power device, comprising the steps of: removing the outer ground wire of the outer power cable from the distribution box connecting the outer power cable to an internal device of the high voltage power device, Connecting the power unit to a power unit of the internal device connected to the connection unit through the connection unit; Installing a non-contact type partial discharge detecting means around a portion of the external power line cable from which the sheath ground line is removed; And an electromagnetic coupling signal detected by the partial discharge detecting means in a measuring apparatus connected to the partial discharge detecting means by a cable to judge whether the partial discharge is caused by deterioration of the power line insulator in the internal apparatus, Wherein the non-contact type partial discharge detecting means comprises: a first soft substrate of metal; An insulator hard substrate attached to the first flexible substrate so as to be narrower than the width of the first flexible substrate and to cross the center in the longitudinal direction; And a second flexible substrate of metal having a stripline attached to the width of the hard substrate and attached to cross the center in the longitudinal direction and a portion extending in width at the end of the strip line, And a connector for transmitting the electromagnetic coupling signal may be attached to the measuring unit.

delete

delete

And the connector is a coaxial connector for connecting a coaxial cable connected to the measuring device.

 The first soft substrate may be bent so as to be easily installed around a corresponding portion of the outer power line cable from which the outer surface ground wire is removed.

According to the method for detecting partial discharge of a high-voltage power device according to the present invention, the non-contact type partial discharge detecting means is provided around the unshielded lead wire in the power distributing box of the high-voltage power device, so that the partial discharge can be effectively detected through signal coupling, Since the power distributing box shields external radiated noise, it is strong against external noise and is easy to detect the signal, so that diagnosis of the partial discharge of the high voltage power device can be effectively performed.

1 is a view for explaining a partial discharge detection system of a high voltage power device according to an embodiment of the present invention.
2 is an example of noncontact partial discharge detecting means according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout.

1 is a view for explaining a partial discharge detection system of a high voltage power device according to an embodiment of the present invention.

1, a partial discharge detection system for a high-voltage power device according to an exemplary embodiment of the present invention includes an external power line cable connected to a high-voltage power device Contact type partial discharge detection means (21, 22, 23) is provided in a distributing box for connecting to the internal apparatus of the main body of the vehicle, the partial discharge can be effectively detected by signal coupling, It is also strong against external noise, so that signal detection is easy.

High-voltage power equipment such as power system electric motors and generators can send or receive power (transmission or reception) through external power line cables from several kV to tens or hundreds of kV, and external power line cables (eg three phase cables) Is connected to the internal device of the high voltage power device. At this time, in the distribution box, the external ground wire of the external power line cable is removed and the end of the external power line cable is connected to a connection part (for example, a circuit breaker, a switch or the like) Lt; / RTI >

The external power line cable is a cable in which insulated three-stranded power lines are respectively covered with an outer jacket wire (e.g., metal wire for shielding) and an insulator such as a general power line cable, and each insulated three- (For example, a circuit breaker, a switch, etc.) inside the distributor through the insulator such as the insulator 10 and the cover at the end is peeled off so that the conductor can be connected to the connection portion The connection part may be connected to the internal device by connecting a power line of the internal device.

In such a distribution box, there is a portion where each insulated three-stranded power line is removed from which the insulator and the shielding grounding wire are removed. Thus, around the corresponding part of the external powering cable in the distribution box from which the shielding grounding wire is removed, Contact type partial discharge detecting means (21, 22, 23) are provided so as to be in contact with or slightly spaced from each other. In the case where the external power line cable is a three-phase power line cable as described above, the non-contact type partial discharge detecting means 21, 22, 23 can be installed around each of the three stranded power lines in the same or different types. Here, the non-contact type means that the conductor is not in contact with the insulated three-strand power line.

For example, the noncontact partial discharge detecting means 21, 22, 23 may be a coupler for voltage detection according to an electromagnetic coupling signal, or a current transformer for current detection according to an electromagnetic coupling signal, And an antenna for receiving the electromagnetic coupling signal in the form of an electromagnetic wave.

Accordingly, in the measuring apparatus connected to the partial discharge detecting means 21, 22 and 23 and the cable (for example, coaxial cable), the electromagnetic coupling signal detected by the partial discharge detecting means 21, 22 and 23 is received , It is possible to determine whether or not a partial discharge is caused by the deterioration of the power line insulator in the internal device, and display the result through the display means. The measuring device may include a speaker and the like in addition to the display means such as the LCD described above. When the voltage or current measured through the partial discharge detecting means (21, 22, 23) It is determined that the discharge is a partial discharge caused by deterioration of the insulator, and a warning sound such as an alarm may be output through the speaker.

As described above, according to the present invention, the non-contact type partial discharge detection means (21, 22, 23) is provided around the corresponding portion of the external power line cable that is not shielded by the external ground line, And the box-shaped distribution box shields external radiated noise, so that the influence of external noise can be reduced.

FIG. 2 shows an example of the non-contact type partial discharge detecting means of the above-described type.

2, the noncontact partial discharge detecting means according to an embodiment of the present invention includes a metal (for example, FCCL Flexible Copper Clad Laminate), etc.) and flexible substrates 50 and 52. The lower soft substrate 50, the hard substrate 51, and the upper soft substrate 52 may be connected to each other in such a manner that they are electrically short-circuited.

The hard substrate 51 attached on the lower soft substrate 50 has a width narrower than the width of the lower soft substrate 50 and is attached across the center of the lower soft substrate 50 in the longitudinal direction.

The upper soft substrate 52 has a strip line that is narrower than the width of the hard substrate 51 and is attached so as to cross the center of the hard substrate 51 in the longitudinal direction, . On the extended portion of the upper soft substrate 52, a connector 53 is connected to the measuring device for transmitting the electromagnetic coupling signal. The connector 53 may be in the form of a coaxial connector for coupling with a coaxial cable connected to the measuring device.

The lower soft substrate 50 and the upper soft substrate 52 of the noncontact partial discharge detecting means easily bend as a flexible type. In particular, as shown in FIG. 1, each of the three insulated outer power line cables, The lower soft substrate 50 can easily be bent and installed so as to be in contact with or slightly spaced around the corresponding portion, that is, the insulated three-strand power line.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. This is possible. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the equivalents of the claims, as well as the claims.

Insulators (10)
The non-contact type partial discharge detecting means (21, 22, 23)

Claims (7)

A method of detecting a partial discharge of a high-voltage power device,
The outer ground conductor of the external power line cable is removed and the end of the external power line cable is connected to a connection portion which is connected to the internal device in a state in which the sheath is peeled off so as to connect the external power line cable to the internal equipment of the high- To the power line of the internal device connected to the power line;
Installing a non-contact type partial discharge detecting means around a portion of the external power line cable from which the sheath ground line is removed; And
The measuring device connected to the partial discharge detecting means with a cable receives an electromagnetic coupling signal sensed by the partial discharge detecting means to judge whether the partial discharge is caused by deterioration of the power line insulator in the internal device, Means for displaying,
The non-contact type partial discharge detecting means is provided around the portion of the outer power line cable that is not shielded by the outer surface ground wire, so that the receiving sensitivity of the electromagnetic coupling signal is increased, and the box- And the noise is shielded so that the influence of external noise can be reduced. The method according to claim 1,
Wherein the external power line cable is a cable in which an insulated three-strand power line is covered with the external ground line and an insulator, and the partial discharge detecting means is provided around each of the three stranded power lines from which the external ground line is removed. The partial discharge detection method comprising: delete The method according to claim 1,
Wherein the non-contact type partial discharge detecting means comprises:
A coupler for voltage detection according to the electromagnetic coupling signal,
A current transformer for current detection according to the electromagnetic coupling signal, or
Wherein the antenna is an antenna for receiving the electromagnetic coupling signal in the form of an electromagnetic wave. A method of detecting a partial discharge of a high-voltage power device,
The outer ground conductor of the external power line cable is removed and the end of the external power line cable is connected to a connection portion which is connected to the internal device in a state in which the sheath is peeled off so as to connect the external power line cable to the internal equipment of the high- To the power line of the internal device connected to the power line;
Installing a non-contact type partial discharge detecting means around a portion of the external power line cable from which the sheath ground line is removed; And
The measuring device connected to the partial discharge detecting means with a cable receives an electromagnetic coupling signal sensed by the partial discharge detecting means to judge whether the partial discharge is caused by deterioration of the power line insulator in the internal device, Means for displaying,
Wherein the non-contact type partial discharge detecting means comprises:
A first soft substrate of metal; An insulator hard substrate attached to the first flexible substrate so as to be narrower than the width of the first flexible substrate and to cross the center in the longitudinal direction; And a second flexible substrate made of a metal having a stripe line narrower than the width of the hard substrate and attached to cross the center in the longitudinal direction and a portion extending in width at an end of the strip line,
And a connector for transmitting the electromagnetic coupling signal is connected to the measuring device on a portion where the width is extended. 6. The method of claim 5,
Wherein the connector is a coaxial connector for connecting to a coaxial cable connected to the measuring device. 6. The method of claim 5,
Wherein the first soft substrate is bent to surround the portion of the outer power line cable where the outer surface ground wire is removed.

Images