KR101636262B1 - Apparatus for Overheat Alarm of Transmission and Substation Facilities - Google Patents

Abstract

The present invention relates to an apparatus for alarming line overheat of transmission and substation facilities, wherein the apparatus can enhance reliability as well as reduce working hours according to checking by automatizing an operational structure of an apparatus to check an overheat state of transmission and substation facilities. The apparatus monitors heating at an installation site by being attached to the installation site of transmission or substation facilities. According to the present invention, if the temperature is primarily higher than a certain temperature, an alarm is generated accordingly via a temperature sensor which detects an overheat state of transmission and substation facilities, and if the temperature is secondarily higher than a certain temperature, an alarm is generated accordingly via a bimetal which is automatically operated. Thereby, the apparatus according to the present invention can enhance reliability as well as reduce working hours according to checking.

Description

TECHNICAL FIELD [0001] The present invention relates to an over-the-

The present invention relates to a line overheating alarm apparatus for transmission and substation facilities, and more particularly, to an apparatus and method for automating the operation structure of a device for checking overheating state of transmission and substation facilities, The present invention relates to a line overheat alarm apparatus for a power transmission and substation facility.

Generally, in a transmission / substation equipment, various devices and lines are connected like webs to form a number of connection points. Joule heat is generated in such a connection point when energization can not be sufficiently performed due to a contact failure or the like, The conductor is contracted to cause a severe contact failure.

Therefore, conventionally, a return type tape or a non-return type tape whose color changes according to a temperature trend is attached to an installation place where overheating of the transmission / substation equipment is expected to occur, and then an operator checks whether the tape is discolored, .

That is, the body of the return type tape maintains a red state as a whole, and when the installation portion is overheated, the color is changed from red to black, and when the overheated state of the installation portion is eliminated, the color is again returned from black to red.

In addition, the non-woven tape is formed with a center circle of a predetermined size at the center of its body. When the installation spot is heated, the center circle of the non-woven tape is changed from white to red and remains in a red state even if the over- will be.

However, the return type tape and the non-return type tape attached to the installation place are exposed to the outdoors as they are, and they are discolored and decolorized due to the wind and rain due to the passage of time and the reliability is reduced, There is a problem that identification is almost difficult.

Korean Patent Publication No. 10-2014-0049211

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a system and a method for controlling a temperature of a power transmission and a substation, The present invention provides a line overheating alarm device for a power transmission and substation facility that not only reduces the number of workings due to inspections, but also improves the credibility, by generating notifications through the bimetal that operates automatically.

According to an aspect of the present invention, there is provided a line overheating alarm apparatus for a transmission and a substation of a power transmission or substation system, the system comprising: a plurality of line overheat alarm units installed in a power transmission or substation, A sensing housing having a fastening ring mounted on its circumferential surface; A bimetal mounted on a bottom surface in the sensing housing in a longitudinal direction and having a fixing bar mounted on one side of the top surface thereof; The bimetal is provided at an upper side of the bimetal, and passes through the connection ring and the support plate to reciprocate in the longitudinal direction. In addition, the engagement portion is fixed to the lower surface of the body by the fixing bar. The spring is compressed around the support plate. A moving member extending through one side of the sensing housing and extending through the other side of the sensing housing; The moving member is moved in one direction of the sensing housing to energize the moving member, and the moving member is moved in the other direction of the sensing housing, And an alarm generating unit for outputting an alarm in response to the disconnection by controlling the sensing control unit when the disconnection detection signal is outputted through the disconnection detecting unit and outputting a disconnection detection signal according to the disconnection detection signal, .

The locking part can be prevented from flowing by the fixing pin mounted on one side of the bimetal in a state where the locking part is hooked on the fixing bar.

The sensing housing may further include a temperature sensor for sensing an internal temperature and a display unit for visually displaying a temperature sensed by the temperature sensor.

And a communication unit for transmitting a notification to the remote manager when the temperature of the temperature sensor detected by the temperature sensor reaches a predetermined temperature or a disconnection detection signal is output through the disconnection detection unit.

As described above, according to the line overheating alarm apparatus of the present invention, when the overheated state of the power transmission and substation facility is firstly exceeded by a predetermined temperature through the temperature sensor, When the temperature exceeds a certain temperature, the bimetal is automatically operated to generate notifications, thereby reducing the number of workings required for the inspection and improving reliability.

FIG. 1 is an exemplary view showing an installation place where a line overheating alarm device of a power transmission and substation facility is installed according to an embodiment of the present invention,
2 and 3 are sectional views for explaining a line overheating alarm apparatus of a power transmission and substation according to an embodiment of the present invention,
FIG. 4 is a block diagram illustrating a line overheating alarm apparatus of a power transmission and substation system according to an embodiment of the present invention. Referring to FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings in order to facilitate a person skilled in the art to easily carry out the present invention.

As shown in FIGS. 1 and 2, a line overheating alarm apparatus of a power transmission and a power transmission facility according to an embodiment of the present invention is attached to an installation site 100 of a transmission or substation facility, And includes a sensing housing 200 having a plurality of fastening rings 280 mounted on its circumferential surface to be fixedly coupled to fastening portions 150 of the mounting portion 100.

The sensing housing 200 is a box-shaped housing, a receiving space is formed therein, and a through hole is formed in one side surface and the other side surface of the sensing body.

A bimetal (205) is installed longitudinally on the bottom surface of the sensing housing (200).

The bimetal 205 is mounted on a bottom surface of the sensing housing 200 and a fixing bar 210 is mounted on one side of the top surface of the sensing housing 200. When the bimetal 205 is overheated, Both ends are bent downward.

One side of the bimetal 205 extends through one of the through holes of the sensing housing 200 and the other side of the sensing housing 200 has a moving member 250 extending through the other through- do.

The moving member 250 is horizontally mounted on the upper side of the bimetal 205 and reciprocates horizontally through the plurality of connection rings 270 and the support plate 240. The movable member 250 is fixed to the lower surface of the fixed bar 210 And a spring 260 is wound on the circumferential surface of the latching portion 220. The spring 260 is wound around the latching portion 220,

The spring 260 is provided on the circumferential surface of the moving member 250 with the other side of the supporting plate 240 as a fulcrum and is extended and connected to the other side of the moving member 250. The spring 260 is compressed Respectively.

The moving member 250 reciprocates in the longitudinal direction along the connecting ring 270 and the supporting plate 240 through the elastic force of the spring 260.

At this time, even if the spring 260 is compressed, the locking part 220 is prevented from being blocked by the fixing pin 230 mounted on one side of the bimetal 205 while being fixed to the fixing bar 210, So that the moving member 205 can be kept stationary without moving.

A single lead detecting part 320 is provided on one side of the sensing housing 200.

In the case where the moving member 250 moves in one direction of the sensing housing 200 and is in contact with the moving member 250 in a state where the moving member 250 protrudes to the outside, When the member 250 is moved to the other side of the sensing housing 200 and the contact with the moving member 250 is broken and a disconnection occurs, a disconnection detection signal is outputted.

That is, in a state where the movable member 250 is connected to the solid line sensor 320, the switch is in a closed state such that the closed circuit is formed, and when the movable member 250 is in contact with the solid line sensor 320 In the detached state, the switch is in the open state, and the state is the same as that of the open circuit.

Since it is well known in the art to output a disconnection detection signal in response to a disconnection due to the switch open state, a detailed description thereof will be omitted.

The detection housing 200 is provided with an alarm generating unit 340. When the alarm generating unit 340 outputs a disconnection detection signal through the unidirectional sensor unit 320, And outputs an alarm according to the disconnection.

The sensing housing 200 is provided with a temperature sensor 310 for sensing an internal temperature of the sensing housing 200. The sensing controller 360 receives a temperature signal sensed by the temperature sensor 310, (330).

The detection housing 200 is provided with a communication unit 350. When the detection signal is output through the detection unit 320 or the temperature sensed by the temperature sensor 310 reaches a predetermined temperature or more, Through the communication unit 350, a notification to the remote manager.

The operation of the line overheating alarm apparatus of the power transmission and substation according to the present invention will be described as follows.

First, a process of installing the fastening part 150 of the installation site 100, which is expected to cause overheat in the transmission / substation installation, using the fastening ring 280 of the sensing housing 200, must be preliminarily established.

When the movable member 250 is pulled in the left direction as shown in FIG. 2 and the fixing part 210 is fastened to the fixing bar 210, the spring 260, which is in close contact with the supporting plate 240, The movable member 250 is resiliently fixed.

At this time, the latching part 220, which is hooked on the fixing bar 210 of the bimetal 205, remains in contact with the fixing pin 230 mounted on the side of the bimetal 205, It is not flowing in the right direction.

One side of the moving member 250 comes into contact with the single lead detecting portion 320 and is energized.

Then, when the installation site 100 is overheated and reaches a predetermined first critical temperature range (for example, 60 DEG C), the temperature sensor 310 senses the temperature and the temperature sensed by the temperature sensor 310 The temperature value is displayed on the display unit 330 under the control of the sensing control unit 360 receiving the signal so that the operator can recognize that the installation spot 100 is overheated.

The detection control unit 360 generates an alarm for the temperature rise through the alarm generating unit 340 so that the surrounding worker can recognize that the installation place 100 is overheated.

The sensing control unit 360 may transmit a notification of the temperature rise to the remote manager through the communication unit 350 so as to prepare a preparation for overheating.

When both ends of the bimetal 205 are bent by heat when the mounting portion 100 is continuously overheated and reaches a temperature (for example, 70 DEG C) of a second limit range of a predetermined value, The engaging portion 220 is pulled out of the fixing bar 210 by the elastic force of the spring 260.

That is, when the latching part 220 is drawn out from the fixing bar 210, the moving member 250 is moved by the elastic force of the spring 260 with the support plate 240 as a fulcrum, At the same time, one side of the shifting member 250 is disconnected from the first line sensor unit 320 and is disconnected, and a line disconnection detection signal is outputted from the line sensor unit 320.

Then, the detection control unit 360 generates an alarm for the temperature rise through the alarm generating unit 340 so that the surrounding worker can recognize that the installation place 100 is overheated.

The sensing control unit 360 may transmit a notification of the temperature rise to the remote manager through the communication unit 350 so as to prepare a preparation for overheating.

According to the present invention as described above, when the overheating state of the power transmission and the power transmission facility is firstly made to exceed the predetermined temperature through the temperature sensor, notification is generated accordingly, and when the temperature exceeds the predetermined temperature, So that it is possible to prepare for the overheating in advance, thereby reducing the number of workings according to the inspection and improving reliability.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of illustration, It will be readily apparent that various substitutions, modifications, and alterations can be made herein.

100: installation place 150: fastening part
200: sensing housing 205: bimetal
210: fixing bar 280: fastening ring
220: Retaining part 240: Support plate
250: moving member 260: spring
270: connecting ring 320:
340: alarm generator 360: detection controller

Claims (4)

And a plurality of fastening rings fixed to the fastening portions of the mounting portions are mounted on the circumferential surfaces of the box-like enclosures, A sensing housing in which a space is formed and through holes are formed in one side surface and the other side surface of the body, respectively;
A bimetal whose both ends are bent downward at the center of the body in the case where overheat occurs at the installation site by mounting the fixing bar on one side of the upper surface of the bimetal;
The bimetal is mounted horizontally on the upper side of the bimetal, and passes through the plurality of connection rings and the support plate to reciprocate in the longitudinal direction. In addition, the engagement portion is fixed to the lower surface of the body by the fixing bar, A moving member which is wound on a spring that is compressed by the supporting point and extends in the longitudinal direction through one through hole of the sensing housing and extends in the longitudinal direction through the other through hole of the sensing housing;
The moving member is provided on one side of the sensing housing and is moved in one direction of the sensing housing to be in contact with the moving member in a state of protruding outward so that the moving member is moved in the other direction of the sensing housing And outputs a disconnection detection signal when the disconnection occurs due to contact with the moving member. And
And an alarm generating unit for outputting an alarm in response to a disconnection by the control of the sensing control unit when the disconnection detecting signal is outputted through the disconnection detecting unit.
Characterized in that the locking part is prevented from flowing by the fixing pin mounted on one side of the bimetal in a state where the locking part is hooked on the fixing bar, Wherein the spring is provided on the circumferential surface of the moving member with the other side of the supporting plate as a fulcrum, and is extended and connected to the other side, wherein the spring is compressed as one side moves; The moving member reciprocates longitudinally along the connecting ring and the supporting plate through the elastic force of the spring; Even if the spring is compressed, the latching portion is prevented from being blocked by the fixing pin mounted on one side of the bimetal in a state where the latching portion is hooked on the fixing bar, and the moving member remains fixed without moving; Wherein the sensing housing is provided with a temperature sensor for sensing an internal temperature; A display unit for visually displaying a temperature value under the control of a sensing control unit which receives a temperature signal sensed by a temperature sensor; When the temperature detected by the temperature sensor reaches a predetermined temperature or more, a notification is sent to the remote manager by the control of the sensing control unit ;
The state in which the movable member is connected to the single lead detection portion becomes the same state as that in which the closed circuit is formed by the closed state of the switch and the state in which the movable member is in contact with the single lead detection portion is the same State;
When the moving member is pulled in one direction and the latching portion is fixed to the fixing bar by using the fastening ring of the sensing housing after the moving member is installed in the fastening portion of the installation portion of the power transmission or the power transmission facility, The member is fixed; The latching part which is hooked on the bimetal fixing bar keeps contact with the fixing pin mounted on the side of the bimetal, so that it is no longer moved in one direction or the other direction; One side of the shifting member comes into contact with the single leading edge portion and is energized; Then, when the installed position is overheated and the temperature reaches a predetermined first limit temperature range, the temperature sensor senses the temperature and the temperature value is displayed on the display unit under the control of the sensing control unit which receives the temperature signal sensed by the temperature sensor ; The detection control unit generates a first alarm for the temperature rise through the alarm generating unit and transmits a first notification of the temperature rise to the remote manager through the communication unit; When the temperature of the bimetal reaches the second limit of the predetermined range as the installation position continues to overheat, both end portions of the bimetal are bent by the heat so that the latching portion of the shifting member is pulled out from the fixing bar by the elastic force of the spring, The one end of the moving member is disconnected from the first end stop portion and is disconnected, and a disconnection detection signal is outputted from the end end sensor portion; The detection control unit generates a second alarm for the temperature rise through the alarm generator and transmits a second notification of the temperature rise to the remote controller through the communication unit. . delete delete delete

Images