KR102014415B1 - Apparatus and method for detecting fault location of equipment using matrix point - Google Patents

Abstract

The present invention relates to an apparatus failure point detection apparatus using a combination point and a method thereof, comprising: a first contact portion provided in a plurality of auxiliary relays installed for each facility; A second contact portion provided in the auxiliary relay; A first failure information providing unit configured to provide failure information of one of a plurality of monitoring elements provided to monitor the facilities when at least one of the first contact units is driven; A second failure information providing unit which provides failure information of one of the facilities when at least one of the second contact parts is driven; And
And a failure point detection unit that detects a failure point by combining failure information provided from the first failure information providing unit and the second failure information providing unit.

Description

Apparatus and method for detecting equipment failure point using combination point {APPARATUS AND METHOD FOR DETECTING FAULT LOCATION OF EQUIPMENT USING MATRIX POINT}

The present invention relates to an apparatus failure point detection apparatus using the combination point and a method thereof, and more particularly, to a facility having a facility point for outputting fault information of the facility and a monitoring point for outputting fault information of a monitoring element for monitoring the facility. The present invention relates to an apparatus for detecting a failure point of a facility using a combination point that can accurately and easily identify a failure point of the device and a method thereof.

Operational information of various on-site facilities such as transformers and GIS installed in unmanned substations and protection switchboards is provided in real time to operators at feeders through SCADA system. In other words, the operator of the feed station manages a large number of unmanned substation facilities through a SCADA system composed of remote devices and central facilities (CCC, RCC, SCC).

The principle and function of remote monitoring of SCADA system are as follows. In general, on-site facilities are equipped with auxiliary contact points for each monitoring element. When the monitoring element of the facility operates, the auxiliary contact point is driven and a signal is applied to a remote terminal unit (RTU) via a control cable. At this time, current flows through DC 48V applied to DI (Digital Input) module of remote device to conduct diode to remotely monitor the status of field equipment such as breaker, disconnector, protection relay, disaster prevention equipment. . In addition, the remote control is performed by the DO (Digital Output) module of the remote device, and the remote measurement is performed by the AI (Analog Input) module of the remote device connected to the field equipment through the control cable to perform the desired control and measurement functions. Doing.

Among them, remote control such as breaker, breaker opening / closing operation, transformer tap position control is operated in individual point method that connects DO module of field equipment and remote test device in 1: 1 method considering its importance. However, in some cases, the remote monitoring is operating by using the DI module of the field equipment and the remote test equipment in the 1: 1 individual point method or the N: 1 integrated point method. The 1: 1 individual point method has the advantage that it is easy to identify the point of failure, but there is a disadvantage that the DI module or control cable of the remote test apparatus is excessively expensive. In addition, the N: 1 integrated point method has the advantage of reducing the requirements of the DI module or control cable of the remote tester, but it is difficult to identify the point of failure quickly.

In this regard, in Korean Patent Registration No. 10-866994, the field equipment and the integrated field information processing panel are connected by a 1: 1 individual point method with a cable for the operation status of the substation and the remote monitoring of the neck and neck. Although there is an advantage of reducing the use of control cables by replacing the connection between the integrated field information processing unit and the RUT with the conventional cable, the field equipment and the integrated field information processing unit are still connected in a 1: 1 individual point method. It is a structure that cannot escape from 1: 1 individual point method and N: 1 total point method of.

Therefore, there is an urgent need to develop an alternative method that can supplement the shortcomings of 1: 1 individual point method and N: 1 integrated point method at the same time for effective remote monitoring system rescue.

The present invention has been invented to solve the above problems, installs an auxiliary relay having a first contact point and a second contact point in the monitoring element of the facility, the first contact outputs fault information of the monitoring element in the facility The monitoring point and the second contact point are assigned to the monitoring point that outputs the failure information of the facility, and the equipment failure point detection device using the combination point that can accurately and easily identify the failure point of the facility by combining the failure information output from them; The purpose is to provide a method.

In addition, the present invention is a facility failure point detection device using a combination point that can reduce the failure recovery time and construction cost by quickly identifying the failure point of the facility by combining the failure information output from the facility point and the monitoring point and its The purpose is to provide a method.

Equipment failure point detection apparatus using a combination point according to the present invention for achieving the above object, the first contact portion provided in a plurality of auxiliary relays installed in the facilities; A second contact portion provided in the auxiliary relays; A first failure information providing unit configured to provide failure information of at least one of a plurality of monitoring elements provided to monitor the facilities when the first contact unit is driven; A second failure information providing unit configured to provide failure information of at least one of the facilities when the second contact unit is driven; And a failure point detection unit that detects a failure point by combining failure information provided from the first failure information providing unit and the second failure information providing unit, wherein the first failure information providing unit is configured of the monitoring elements. Set the different monitoring point according to the, and provide the failure information including the location information of the monitoring point based on the failure alarm output from the set monitoring point, the first contact portion of the same monitoring element of the other equipment The first contact point is connected to each other in parallel in the first direction to set the same monitoring point, and the second failure information providing unit sets different facility points according to the configuration of the facilities, and detects a failure alarm output from the set facility point. Providing the failure information including the location information of the facility point based on the second contact portion; In the same installation, the second contact portion of the other monitoring elements in the same facility are connected in parallel to each other in the second direction to set the same facility point, and the failure point detection unit is a combination of the monitoring point in the first direction and the facility point in the second direction. Detecting a failure point through the first direction is characterized in that the horizontal direction and the second direction is the longitudinal direction, the first direction is the longitudinal direction and the second direction is the horizontal direction.

In addition, the first contact portion is characterized in that driven by detecting the failure of the monitoring elements.

In addition, the second contact portion is characterized in that driven by detecting the failure of the equipment.

delete

delete

delete

delete

Equipment failure point detection method using a combination point according to the present invention for achieving the above object, (a) a plurality of auxiliary having a first contact portion and a second contact portion in the plurality of monitoring elements installed in the facilities Installing relays; (b) when the first contact unit is driven, providing fault information of at least one of the monitoring elements by a first fault information providing unit; (c) when the second contact unit is driven, providing fault information of at least one of the facilities by a second fault information providing unit; And (d) combining failure information provided from the first failure information providing unit and the second failure information providing unit, and detecting a failure point. Set different monitoring points according to the configuration, and provide the failure information including the location information of the monitoring point based on the failure alarm output from the set monitoring point, the same monitoring element of the other equipment at the first contact portion The first contact points are connected to each other in parallel in the first direction to set the same monitoring point, and step (c) sets different facility points according to the configuration of the facilities, and detects a failure alarm output from the set facility points. Providing the failure information including the location information of the facility point on which it is based, the other contact element in the same facility at the second contact portion; The second contact portion is connected to each other in parallel in the second direction to set the same equipment point, and the step (d) detects a failure point through the combination of the monitoring point in the first direction and the equipment point in the second direction. The first direction may be transverse and the second direction may be longitudinal, or the first direction may be longitudinal and the second direction may be transverse.

delete

delete

In addition, the step (b) is characterized in that the first contact portion is driven by detecting the failure of the monitoring elements.

delete

In addition, the step (c) is characterized in that the second contact portion is driven by detecting the failure of the facilities.

delete

Equipment failure point detection apparatus and method using a combination point according to the present invention having the configuration as described above is equipped with a facility point for outputting the failure information of the facility and a monitoring point for outputting the failure information of the monitoring element facility point and monitoring point By combining the failure information output from the, there is an effect that it is possible to accurately and easily identify the failure point of the equipment.

In addition, the present invention by combining the failure information output from the facility point and the monitoring point to quickly identify the failure point of the facility, there is an effect that can reduce the failure recovery time, equipment construction and maintenance costs required for remote monitoring.

1 is a view for explaining the configuration of a facility failure point detection apparatus using a combination point according to an embodiment of the present invention.
2 is a view for explaining the detailed operation principle according to the configuration of the equipment failure point detection apparatus using a combination point according to an embodiment of the present invention.
3 is a view for explaining a facility failure point detection method using a combination point according to an embodiment of the present invention.
4 is a view for explaining the detailed operation principle and method according to the configuration of the equipment failure point detection apparatus using a combination point applied to the gas insulated switchgear according to another embodiment of the present invention.

Hereinafter, the preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the technical idea of the present invention. . First, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are designated as much as possible even if displayed on different drawings. In addition, in describing the present invention, when it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

Hereinafter, an apparatus failure point detection apparatus using a combination point according to an embodiment of the present invention and a method thereof will be described in detail with reference to the accompanying drawings.

1 is a view for explaining the configuration of the equipment failure point detection apparatus using a combination point according to the present invention, Figure 2 is a detailed operation principle according to the configuration of the equipment failure point detection apparatus using a combination point according to the present invention It is a figure for demonstrating.

Referring to Figures 1 and 2, the equipment failure point detection apparatus using a combination point according to the present invention is largely installed in a plurality of monitoring elements installed in each of the facilities (100, 200) of the same type of power system The auxiliary relays 110a ... 110e, 210a ... 210e are connected to a remote test device (RTU) that remotely monitors the facilities 100 and 200 of the same type of power system as the first contact part 120 and the second contact part 130. The installed first failure information providing unit 140, the second failure information providing unit 150 and the failure point detection unit 160 is included.

A plurality of auxiliary relays (110a… 110e, 210a ... 210e) having a first contact portion 120 and a second contact portion 130 is the monitoring element (101a… 101e, 201a… 201e) of the same type of equipment of the power system Are installed separately. In the present invention, the equipment may be configured as any one of a transformer, a circuit breaker, and a gas insulated switchgear, and the monitoring elements may be configured as any one of an impact pressure relay, a discharge safety device, and a protection relay when the equipment is a transformer of a power system.

And when there are a large number of facilities, the first contact portion 120 of the auxiliary relay 110a installed in the monitoring element 1 (101a) of the equipment 1 (100) is the auxiliary relay installed in the monitoring element 1 (201a) of the equipment 2 (200). The first contact portion 120 of the auxiliary relay 110b installed in parallel with the first contact portion 120 of the 210a in the horizontal direction and installed in the monitoring element 2101b of the installation 1100 is the installation 2 ( It is connected in parallel with the first contact portion 120 of the auxiliary relay 210a installed in the monitoring element 2 (201a) of the 200 in the horizontal direction, to detect the failure of the monitoring elements 101a… 101e, 201a… 201e of the facility. Is driven.

In addition, the second contact portion 130 of the auxiliary relay (110a) installed in the monitoring element 1 (101a) in the equipment 1 (100) is the second relay 110 (110b, 110c, 110d, 110e) of the auxiliary relay installed in the equipment (100). It is connected in parallel with the two contact portion 130 in the longitudinal direction, it is driven by detecting the failure of the plurality of facilities (100, 200).

Here, in the present invention, the first contact portion is connected in parallel to each other in the horizontal direction between the first contact portion of the same monitoring element in different equipment, the second contact portion is mutually parallel in the longitudinal direction between the second contact portion of the other monitoring element in the same equipment Although connected, the present invention is not limited thereto, and the first contact portions 120 may be connected in parallel to each other in the horizontal direction in accordance with the configuration of the first contact portions 120.

The first failure information providing unit 140 includes a plurality of monitoring elements 101a... That monitor the facilities 100 and 200 when at least one of the first contact unit 120 of the facilities 100 and 200 is driven. Failure information of 101e, 201a ... 201e) is provided.

To this end, the first failure information providing unit 140 sets different monitoring points according to the configuration of the monitoring elements. As shown in FIG. 2, the monitoring point is set to monitoring ⓐ, monitoring ⓑ, monitoring ⓒ, monitoring ⓓ, and monitoring ⓔ for each of the monitoring elements 101a to 101e and 201a to 201e. However, it is not limited thereto.

As such, when at least one of the first contact units 120 is driven, the first failure information providing unit 140 outputs a failure alarm output from a monitoring point set at the monitoring elements 101a... 101e, 201a. On the basis of this, fault information including the position information of the monitoring point at which the alarm is output is provided.

The second failure information providing unit 150 provides failure information of facilities when the second contact unit 130 is driven.

That is, the second failure information providing unit 150 is driven by at least one of the second contact portion 130 of the auxiliary relays (110a ... 110e, 210a ... 210e) installed in the monitoring elements (101a ... 101e, 201a ... 201e) When the failure occurs based on the failure alarm output from the facility point set in the facility (100, 200) that provides a failure information including the location information of the facility point output failure.

To this end, the second failure information providing unit 150 sets different facility points according to the configuration of the facilities. In the present invention, as shown in FIG. 2, the facility points are set as facilities ① and facilities ② for each of the facilities 100 and 200, but are not limited thereto.

The failure point detection unit 160 detects a failure point by combining failure information provided from the first failure information providing unit 140 and the second failure information providing unit 150. That is, the failure point detection unit 160 is a facility that outputs the location information of the monitoring point output the failure alarm provided from the first failure information providing unit 140 and the failure alarm provided from the second failure information providing unit 150. The failure point is detected by combining the location information of the points.

Referring to FIG. 3, the method for detecting a failure point of a facility using a combination point according to the present invention is a method of using a facility failure point detection device using a combination point described above.

First, a plurality of auxiliary relays 110a... Which have a first contact portion 120 and a second contact portion 130 in a plurality of monitoring elements 101a... 101e, 201a... 20e, installed in each facility 100, 200. 110e, 210a... 210e are installed. (S100) At this time, the first contact portion 120 of the auxiliary relay is connected in parallel with the first contact portion of the same monitoring element of another facility, and the second contact portion 130 is The second contacts of different monitoring elements in the same installation are connected in parallel.

Next, when at least one of the first contact portions 120a and 120b is driven, the plurality of monitoring elements 101a to 101e and 201a monitor the power system facilities 100 and 200 by the first failure information providing unit 140. ... 201 e) fault information is provided (S200).

At this time, the first contact portion 120 is driven by detecting a failure of the monitoring elements (101a ... 101e, 201a ... 201e) of the facility. The first failure information providing unit 140 sets different monitoring points according to the configuration of the monitoring elements 101a... 101e, 201a... 20e, and when the at least one of the first auxiliary contact units 120 is driven, the failure occurs. Based on the failure alarm output from the monitoring point set in the generated monitoring elements 101a ... 101e and 201a ... 201e, the failure information including the location information of the monitoring point from which the failure alarm is output is provided.

Next, when at least one of the second contact portion 130 is driven, the failure information of the facilities (100, 200) is provided by the second failure information providing unit 150. (S300) At this time, the second contact portion 130 Is detected by the failure of the installation (100,200) is driven. The second failure information providing unit 150 sets different facility points for the facilities 100 and 200, and outputs from the facility points set in the facility 100 and 200 where the failure occurs when at least one of the second contact units 130 is driven. On the basis of the fault alarm, the fault information including the location information of the facility point where the fault alarm is outputted is provided.

Finally, the failure point detection unit 160 combines the failure information provided from the first failure information providing unit 140 and the second failure information providing unit 150 to detect the failure point (S400). The failure point detection unit 160 is a facility point outputting the location information of the monitoring point from which the failure alarm provided from the first failure information providing unit 140 and the failure alarm provided from the second failure information providing unit 150 are output. Detect the point of failure by combining the location information.

 4 is a view for explaining the detailed operation principle and method according to the configuration of the equipment failure point detection apparatus using a combination point applied to the gas insulated switchgear according to another embodiment of the present invention.

Referring to Figure 4, the equipment is a gas insulated switchgear A.D / L (Distribution Line). It consists of a large number of F.D / L (Distribution Line) and the equipment points according to ⓐ…. It was set to ⓕ. In addition, the monitoring elements for monitoring the gas insulated switchgear were composed of # 1DS, CB, and # 2DS, and the monitoring points were set to ①, ②, and ③. In addition, a plurality of auxiliary relays A.1, A.2, and A.3 are provided in the gas insulation relay device AD / L, and a plurality of auxiliary relays F.1, F.2, and F. 3) is installed. The auxiliary relays A.1, A.2, A.3, F.1, F.2, and F.3 have the first contact portion 120 and the second contact portion 130 as described above. Are each provided, and in the drawings, only the parts necessary for explanation are described with reference.

If a failure occurs at the # 2DS point of the facility AD / L, first contact point 120 of auxiliary relay 3 (A.3) installed in # 2DS is driven to The failure alarm is output, and at the same time, the second contact unit 130 of the auxiliary relay 3 (A.3) is driven to output the failure alarm of? Set in the AD / L. Therefore, by combining them, that is, based on the fault alarm of ③ and ⓐ, it is possible to easily identify the fault occurring at the # 2DS point of AD / L.

As such, the apparatus failure point detection apparatus and method using the combination point according to the present invention includes a facility point for outputting the failure information of the facilities and a monitoring point for outputting the failure information of the monitoring elements, and the failure information output from these In combination, you can pinpoint the point of failure of your installation.

In addition, the present invention by combining the failure information output from the facility point and the monitoring point to quickly identify the failure point of the facility, it is possible to reduce the remote material installation cost and maintenance cost required for remote monitoring.

In the above, the preferred embodiment according to the present invention, but can be modified in various forms, those skilled in the art various modifications and modifications without departing from the claims of the present invention It is understood that the present invention may be practiced.

100, 200: Equipment
101a... 101e, 201a... 201e: monitoring element
110a... 110e, 210a... 210e: auxiliary relay
120: first contact portion 130: second contact portion
140: first failure information providing unit 150: second failure information providing unit
160: failure point detection unit

Claims (13)

A first contact portion provided in a plurality of auxiliary relays installed in the facilities;
A second contact portion provided in the auxiliary relays;
A first failure information providing unit configured to provide failure information of at least one of a plurality of monitoring elements provided to monitor the facilities when the first contact unit is driven;
A second failure information providing unit configured to provide failure information of at least one of the facilities when the second contact unit is driven; And
And a failure point detection unit which detects a failure point by combining failure information provided from the first failure information providing unit and the second failure information providing unit.
The first failure information providing unit sets different monitoring points according to the configuration of the monitoring elements, and provides the failure information including location information of the monitoring point based on the failure alarm output from the set monitoring point. In the first contact portion, the first contact portion of the same monitoring element of different equipment is connected in parallel in the first direction to set the same monitoring point,
The second failure information providing unit sets different facility points according to the configuration of the facilities, and provides the failure information including location information of the facility point based on the failure alarm output from the set facility point. At the two contact points, the second contact points of different monitoring elements in the same facility are connected in parallel in the second direction to set the same facility point,
The failure point detection unit detects a failure point through a combination of the monitoring point in the first direction and the facility point in the second direction,
And wherein the first direction is a horizontal direction and the second direction is a longitudinal direction, or the first direction is a longitudinal direction and the second direction is a horizontal direction. The method of claim 1,
And the first contact unit is driven by detecting a failure of the monitoring elements. The method of claim 1,
The second contact unit is a failure point detection device using a combination point, characterized in that driven by detecting the failure of the facilities. delete delete delete delete (a) installing a plurality of auxiliary relays having a first contact portion and a second contact portion at a plurality of monitoring elements installed in the facilities;
(b) when the first contact unit is driven, providing fault information of at least one of the monitoring elements by a first fault information providing unit;
(c) when the second contact unit is driven, providing fault information of at least one of the facilities by a second fault information providing unit; And
(d) detecting a failure point by combining failure information provided from the first failure information providing unit and the second failure information providing unit;
In the step (b), setting different monitoring points according to the configuration of the monitoring elements and providing the failure information including the location information of the monitoring point based on the failure alarm output from the set monitoring point. In the first contact portion, the first contact portion of the same monitoring element of different equipment is connected in parallel in the first direction to set the same monitoring point,
The step (c) is to set the different equipment point according to the configuration of the facilities, and provide the failure information including the location information of the facility point based on the failure alarm output from the set facility point, the second At the contact point, the second contact points of other monitoring elements in the same facility are connected in parallel in the second direction to set the same facility point,
Step (d) detects the failure point through the combination of the monitoring point in the first direction and the installation point in the second direction,
Wherein said first direction is a horizontal direction and said second direction is a longitudinal direction, or said first direction is a longitudinal direction and said second direction is a horizontal direction. delete The method of claim 8,
In step (b),
And the first contact portion is driven by detecting a failure of the monitoring elements. delete The method of claim 8,
In step (c),
The method of detecting a failure point of a facility using a combination point, wherein the second contact unit is driven by detecting a failure of the facilities. delete

Images