KR102522092B1 - Active rupture device for pressure relief plate - Google Patents

Abstract

The present invention relates to an active pressure relief plate rupture device for actively rupturing a pressure relief plate provided in a gas insulated switchgear. More specifically, the present invention relates to an active pressure relief plate rupture device, which quickly and accurately detects occurrence of an arc when the arc occurs inside an enclosure of a gas insulated switchgear, immediately ruptures a heat sink, quickly discharges an explosion pressure inside the enclosure due to the occurrence of arc to the outside, and prevents secondary facility accidents caused by the explosion pressure inside the enclosure. According to the present invention, the active pressure relief plate rupture device comprises: a pressure relief plate central striking unit (20) which is formed at a predetermined distance apart from the outer center of the pressure relief plate (10) provided in the enclosure (100) of the gas insulated switchgear, and has a striking pin (22) with a sharp end at the front so as to receive an operation signal and hit and rupture the central part of the pressure relief plate (10) located in front of the striking pin (22); an anti-arc generation detection sensor (30) provided inside the enclosure (100) of the gas insulated switchgear, and detecting the occurrence of an anti-arc and outputs the anti-arc to the outside; and an operation control unit (40) which outputs an operation signal to the pressure relief plate central striking unit (20) when an arc occurrence detection signal is input from the anti-arc generation detection sensor. When the pressure relief plate central striking unit (20) receives the operation signal from the operation control unit (40), the pressure relief plate central striking unit (20) operates the striking pin (22) within a predetermined time and hits the center of the pressure relief plate (10) once to be ruptured by the striking pin (22).

Description

Active rupture device for pressure relief plate}

The present invention relates to an active pressure relief plate rupture device for actively rupturing a pressure relief plate provided in a gas insulated switchgear, and more particularly, when an arc is generated inside the enclosure of a gas insulated switchgear, it quickly and accurately detects it. After this, the heat sink is immediately ruptured to quickly discharge the explosion pressure inside the enclosure due to the occurrence of an internal arc to the outside, and the active pressure relief plate bursts to prevent secondary equipment accidents caused by the explosion pressure inside the enclosure in advance It's about the device.

In general, gas insulated switchgear (GIS) is used in transmission and transformation lines, and is a device that safely protects the system by opening and closing lines in the event of an abnormal condition such as an accident or short circuit as well as opening and closing operations in normal operating conditions. This gas insulated switchgear includes switchgear such as a circuit breaker (CB, Circuit Breaker), a disconnector (DS, Disconnecting Switch), and an earthing switch (ES, Earthing Switch) inside a metal tank filled with gas, and a current transformer (CT, current Transformer), lightning arrester (LA, Lightning Arrester), main circuit busbar, etc. are stored.

In the case of a gas insulated switchgear configured as described above, operator's mistake, operation mistake, or mechanical defect of the product, such as not removing the conductive parts such as conductors after wrapping them with cables, or leaving tools, etc. inside the enclosure after maintenance Arcs and high-pressure gas may be generated inside the enclosure for various reasons, such as poor conductor contact or penetration of moisture inside the enclosure. , it is ejected to the outside, and secondary equipment accidents due to explosion pressure inside the enclosure can be prevented.

In the case of conventional pressure relief plates, when arcs and high-pressure gas are generated inside the enclosure, they must be accurately ruptured at a predetermined bursting pressure in order to quickly discharge them, but there is a problem in that it is difficult to accurately control the bursting pressure, and it bursts at a predetermined bursting pressure. There is a problem of rupture time delay in which heat is generated at a higher pressure or rupture is not promptly ruptured, and as a result, secondary equipment accidents due to explosion pressure inside the enclosure may occur.

Patent Publication No. 10-2015-0087013 (Title of Invention: 'Rupture disk for pressure release of pressure device') Registered Patent No. 10-2047832 (Title of Invention: 'Pressure Release Device')

The present invention has been derived to solve the above problems, when an arc is generated inside the enclosure of a gas insulated switchgear, it can be quickly and accurately detected, and when an arc is detected, the heat sink is immediately ruptured. so that the explosion pressure inside the enclosure due to the occurrence of an internal arc can be quickly discharged to the outside, and the occurrence of secondary equipment accidents due to the explosion pressure inside the enclosure can be prevented in advance.

In one form of the present invention for solving the above-mentioned problems, it is formed at a predetermined distance apart from the outer center of the pressure relief plate 10 provided in the enclosure 100 of the gas insulated relay, and the end is pointed at the front. a pressure relief plate center hitting portion 20 equipped with a hitting needle 22 to receive an operation signal and hit the central portion of the pressure relief plate 10 located in front of the hitting needle 22 to rupture; An arc generation detection sensor 30 provided inside the enclosure 100 of the gas insulated switchgear to sense arc generation and output the arc to the outside; and an operation control unit 40 outputting an operation signal to the pressure relief plate central impact unit 20 when receiving an arc generation detection signal from the arc generation monitoring sensor. When an operation signal is input to the operation control unit 40, the pressure relief plate central striking portion 20 operates the striking needle 22 within a predetermined time to the central portion of the pressure relief plate 10. It provides an active pressure relief plate rupture device (1), characterized in that for rupturing with a blow by the striking needle (22) once.

In the active pressure relief plate rupture device 1 according to the present invention, the internal arc generation detection sensor 30 is a temperature measuring sensor 31 provided at different positions inside the enclosure 100 of the gas insulated switchgear. , It is formed including a pressure measuring sensor 32 and a photosensor 33, and receives a reference temperature value, a reference pressure value, and a reference pressure rise rate value for a pressure rise rate value representing a pressure rise value for a predetermined unit time from the user. a user input unit 50 that receives inputs and outputs them to the outside; It is further formed to include, and the operation control unit 40 calculates a pressure increase rate value for a predetermined unit time through the measured pressure value input from the pressure measuring sensor 32, and the enclosure from the photosensor 33 ( 100) The internal light generation detection signal is received, the measured temperature value received from the temperature measurement sensor 31 is higher than the reference temperature value input through the user input unit 50, and the calculated pressure rise rate value is the user When it is higher than the reference pressure rise rate value input through the input unit 50 and the measured pressure value is higher than the reference pressure value input through the user input unit 50, the pressure relief plate central impact unit 20 operates. signal can be output,

Preferably, the pressure release plate 10 is convexly provided in a hemispherical shape toward the inside of the enclosure 100, and the center of the outer surface of the hemispherical shape is guided when the striking needle 22 is operated by striking. A hitting guide groove 11 having a predetermined depth is formed, and a plurality of rupture guide grooves 12 are formed radially at predetermined intervals around the hitting guide groove 11, so that the hitting needle 22 When the hitting guide groove 11 is ruptured, rupture of the heat sink may be induced along the plurality of rupture guide grooves 12.

The active pressure plate rupture device according to the present invention, when an arc is generated inside the enclosure of a gas insulated switchgear, can quickly and accurately detect it, and when an arc is detected, the heat sink is immediately ruptured to break the arc The explosion pressure inside the enclosure according to the occurrence can be quickly discharged to the outside, and the occurrence of secondary equipment accidents due to the explosion pressure inside the enclosure can be prevented in advance.

1 is a device configuration diagram showing an active pressure relief plate rupture device according to the present invention;
2 is a perspective view showing the center of a pressure relief plate in an active pressure relief plate rupture device according to the present invention; and,
3 is an operating state diagram showing that in the active pressure relief plate rupture device according to the present invention, the hitting needle of the central hitting part of the heat sink strikes the central hitting guide groove of the pressure relief plate and the pressure relief plate is ruptured along the rupture guide groove.

Hereinafter, embodiments of the present invention in which the above object can be realized in detail will be described with reference to the accompanying drawings. In describing the present embodiments, the same names and symbols are used for the same components, and additional descriptions accordingly are omitted below.

1 is a device configuration diagram showing an active pressure plate rupture device 1 according to the present invention, and FIG. 2 is a perspective view showing the center of the pressure plate 10 in the active pressure plate rupture device 1 according to the present invention. 3 shows that in the active pressure relief plate rupture device 1 according to the present invention, the striking needle 22 of the central hitting portion 20 of the heat sink strikes the central hitting guide groove 11 of the pressure relief plate 10 It is an operating state diagram showing that the pressure relief plate 10 is ruptured along the rupture guide groove 12.

As shown in FIG. 1, the active pressure relief plate rupture device 1 according to the present invention is provided at a predetermined distance from the outer center of the pressure relief plate 10 provided in the enclosure 100 of the gas insulated switchgear. receives a signal from the pressure relief plate central striking part 20, the arc generation detection sensor 30 provided inside the enclosure 100 of the gas insulated switchgear, and the arc generation detection sensor 30, and receives signals from the arc generation detection sensor 30 It is formed by including an operation control unit 40 that outputs an operation signal to the pressurized central impact unit 20, and when the central impact unit 20 of the pressure plate receives an operation signal, the central portion of the pressure relief plate 10 is instantaneously hit at once so that the pressure relief plate 10 can be rapidly ruptured.

As shown in FIGS. 1 and 3, the pressure relief plate central hitting portion 20 is provided in a hemispherical shape convexly to the inside of the enclosure 100 of the gas insulated switchgear, in the pressure relief plate 10, to the outside. It is provided at a position spaced apart from a predetermined distance at the outer center of the concave pressure relief plate 10, and a striking needle 22 having a sharp end like a needle is provided at the front to receive an operation signal and the striking needle 22 The central portion of the pressure relief plate 10 located in front of is hit and ruptured.

Preferably, as shown in FIGS. 1 and 3, the central hitting portion 20 of the pressure relief plate may be formed using a conventional solenoid trigger 21 that is widely used in the related art. At this time, the solenoid trigger The striking needle 22 is provided at the end of the plunger 23 of (21), and the stator 24 becomes magnetic when the operating current according to the operation signal input from the operation control unit 40 is energized. while pulling the mover 23 and the strike needle 22 with strong magnetic force to move them forward instantly, and the strike needle 22 moved forward together with the mover 23 by the strong magnetic force The center of the platen 10 is quickly ruptured with one strong blow.

Preferably, in one form of the internal arc generation detection sensor 30, a temperature measuring sensor 31, a pressure measuring sensor 32, and It may be formed by including the photosensor 33. The temperature measurement sensor 31 may be provided around a terminal contact portion where a heat rise phenomenon occurs well inside the enclosure 100, and the pressure measurement sensor 32 may be accurately ruptured at a predetermined pressure value. ), and the photosensor 33 can be provided inside the enclosure 100 where blind spots can be minimized, and blind spots exist by having a plurality of photosensors 33 It may be provided so as not to do so.

In addition, as shown in FIG. 1, a user input unit that receives a reference temperature value, a reference pressure value, and a reference pressure increase rate value for a pressure increase rate value representing a pressure increase value for a predetermined unit time from the user and outputs them to the outside. 50 may be further included, and the operation control unit 40 calculates a pressure rise value for a predetermined unit time through the measured pressure value input from the pressure measurement sensor 32, and the photo A light generation detection signal inside the enclosure 100 is input from the sensor 33, and the measured temperature value input from the temperature measurement sensor 31 is higher than the reference temperature value input through the user input unit 50, When the calculated pressure rise rate value is higher than the reference pressure rise rate value input through the user input unit 50 and the measured pressure value is higher than the reference pressure value input through the user input unit 50, the center of the pressure relief plate An operation signal is output to the impact unit 20 .

The active pressure plate rupture device 1 according to the present invention is simply temperature, pressure and Rather than detecting a rapid pressure rise due to arc generation inside the enclosure 100 through one type of sensor for measuring only one of the lights, the temperature rise, pressure rise, and light generation are most frequent inside the enclosure 100. A temperature measuring sensor 31, a pressure measuring sensor 32, and a photosensor 33 are provided at each predetermined position where the pressure is generated.

That is, in the case of determining whether an internal arc occurs with only one pressure value measured through the pressure measuring sensor 32, the pressure inside the enclosure 100 or the gas insulation opening and closing due to the temporary excessive heat rise at the terminal contact area There may be a problem of erroneously detecting a pressure increase inside the enclosure 100 due to other reasons other than the occurrence of an internal arc, such as an increase in pressure inside the enclosure 100 due to a rise in temperature around the device, as an occurrence of an internal arc, and the present invention In the active pressure relief plate rupture device 1 according to the present invention, in order to solve such an internal arc generation detection error, the user is first informed of the internal arc generation, which may vary depending on the capacity or installation environment of the gas insulated switchgear, through the user input unit 50. After receiving and storing a reference temperature value, a reference pressure value, and a reference pressure rise rate value for a pressure rise rate value representing a pressure rise value for a predetermined unit time, which can be the rupture standard of the pressure relief plate 10 by This is output to the operation control unit 40, and the operation control unit first calculates the pressure rise rate value for a predetermined unit time through the measured pressure value input from the pressure measurement sensor 32, and then enters the inside of the enclosure 100. Detects the light accompanying the occurrence of an internal arc, and the measured temperature value and the measured pressure value inside the enclosure (100) appear higher than the reference temperature value and the reference pressure value, and the calculated pressure rise rate value is higher than the reference pressure rise rate value, so that the enclosure (100) When the internal pressure value rises rapidly, it is determined that this is a rapid pressure increase due to the occurrence of an internal arc inside the enclosure 100, and an operation signal is output to the central impact portion 20 of the pressure relief plate to prevent the pressure relief plate 10 from occurring. ) is immediately ruptured, and the explosion pressure inside the enclosure 100 can be quickly lowered, and cost loss due to invalid rupture of the pressure relief plate 10 due to erroneous detection can be prevented in advance.

Preferably, as shown in FIG. 2, the pressure relief plate 10 is provided in a hemispherical shape convex to the inside of the enclosure 100, and the striking needle 22 is operated by striking at the center of the outer surface of the hemispherical shape. In this case, a concave hitting guide groove 11 is formed in the center so that the hitting guide groove 11 can be hit while being guided to the center of the pressure relief plate 10, and a plurality of radially ruptures are formed around the hitting guide groove 11 at predetermined intervals. When the guide groove 12 is formed and the strike guide groove 11 is ruptured by the strike needle 22, the rupture of the pressure relief plate 10 is induced along the plurality of rupture guide grooves 12, The pressure relief plate 10 can be ruptured at once by one blow of the striking needle 22.

As such, the active pressure plate rupture device 1 according to the present invention can quickly and accurately detect an arc when an arc is generated inside the enclosure 100 of the gas insulated switchgear, and when an internal arc is detected. Eh, by immediately rupturing the heat sink, the explosion pressure inside the enclosure 100 due to the occurrence of an internal arc can be quickly discharged to the outside, and the occurrence of secondary equipment accidents due to the explosion pressure inside the enclosure 100 can be prevented in advance. there will be

Although several embodiments have been illustratively described above, the fact that the present invention can be embodied in many different forms without departing from its spirit and scope is apparent to those skilled in the art.

Accordingly, the embodiments described above are to be regarded as illustrative rather than restrictive, and all embodiments coming within the scope of the appended claims and their equivalents are included within the scope of this invention.

1 : Active pressure relief plate rupture device
10: pressure relief plate 11: central hitting guide groove
12: rupture guide groove
20: pressure plate central striking part 21: solenoid trigger
22: strike needle 23: mover
24: stator 25: elastic spring
30: arc detection sensor 31: temperature measurement sensor
32: pressure measuring sensor 33: photo sensor
40: operation control unit
50: user input unit
100: gas insulated switchgear enclosure

Claims (3)

It is formed at the outer center of the pressure relief plate 10 provided in the enclosure 100 of the gas insulated relay and is spaced apart from each other by a predetermined distance, and a striking needle 22 having a pointed end is provided at the front to receive an operation signal and the striking needle A pressure relief plate center hitting portion 20 that strikes and ruptures the center portion of the pressure relief plate 10 located in front of (22);
An arc generation detection sensor 30 provided inside the enclosure 100 of the gas insulated switchgear to sense arc generation and output the arc to the outside; and
an operation control unit 40 outputting an operation signal to the pressure relief plate central impact unit 20 when an arc generation detection signal is received from the arc generation monitoring sensor; formed, including
When receiving an operation signal from the operation control unit 40, the pressure relief plate central hitting part 20 operates the striking needle 22 within a predetermined time to hit the central part of the pressure relief plate 10 once. It is ruptured by a blow by the needle 22,

The inner arc generation detection sensor 30,
It is formed by including a temperature measuring sensor 31, a pressure measuring sensor 32, and a photosensor 33 provided at different positions inside the enclosure 100 of the gas insulated switchgear,
A user input unit 50 that receives a reference temperature value, a reference pressure value, and a reference pressure increase rate value for a pressure increase rate value indicating a pressure increase value for a predetermined unit time from a user and outputs them to the outside; formed by further including

The operation control unit 40,
Calculate a pressure increase rate value for a predetermined unit time through the measured pressure value input from the pressure measuring sensor 32,
A light generation detection signal inside the enclosure 100 is input from the photosensor 33, and the measured temperature value input from the temperature measurement sensor 31 is higher than the reference temperature value input through the user input unit 50 and , When the calculated pressure rise rate value is higher than the reference pressure rise rate value input through the user input unit 50 and the measured pressure value is higher than the reference pressure value input through the user input unit 50, the method An operation signal is output to the platen central striking part 20,

The pressure relief plate 10,
It is convexly provided in a hemispherical shape toward the inside of the enclosure 100,
A concave hitting guide groove 11 is formed at the center of the outer surface of the hemispherical shape so that the hitting needle 22 can hit while being guided to the center of the pressure relief plate 10 when the hitting needle 22 is operated by hitting, and the hitting guide A plurality of tear guide grooves 12 are formed radially at predetermined intervals around the groove 11, and when the strike guide groove 11 is ruptured by the strike needle 22, the plurality of tears An active pressure relief plate rupture device (1), characterized in that the rupture of the heat sink is induced along the guide groove (12). delete delete

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