KR100994793B1 - Automatic section switch tank of vacuum interrupter arc extinguishing type and power supplying apparatus having this - Google Patents

Abstract

PURPOSE: A vacuum interrupter type automatic section switch tank using dry air instead of SF6 gas and an incoming transforming device including the same are provided to prevent the exposure of arc by using a vacuum interrupter. CONSTITUTION: A main circuit manipulator is arranged outside a tank. A main circuit connecting unit(120) is operated by the main circuit manipulator. A main circuit insulation rod(130) moves in a traverse direction by the main circuit connecting unit. A vacuum interrupter(140) opens and injects a contact point by the movement of the main circuit insulation rod. A ground circuit manipulator is arranged outside the tank. A ground connecting unit(160) is connected by the ground circuit manipulator. The ground movable contact point moves in a vertical direction by the ground connecting unit.

Description

AUTOMATIC SECTION SWITCH TANK OF VACUUM INTERRUPTER ARC EXTINGUISHING TYPE AND POWER SUPPLYING APPARATUS HAVING THIS}

The present invention relates to a vacuum interrupter type automatic failure switchgear tank and a water substation device having the same, and more particularly, the external exposure of the arc generation at the time of opening and closing the load by applying the vacuum interrupter method of the automatic failure switchgear The present invention relates to an automatic failure section switch tank that is environmentally friendly by insulating the inside of a tank by dry air insulation, and a water substation device having the same.

In the power plant, electricity having a voltage of about 200,000 V is boosted to a very high voltage suitable for power transmission, and is transmitted to the primary substation. In the primary substation, the supplied power drops to 22,900 V to be supplied to the secondary substation and each customer. . At this time, the power supplied from the primary substation is supplied to the water substation facilities of each consumer through a distribution system consisting of overhead distribution line and underground distribution line, and is supplied to the low voltage consumer side through the special high-pressure consumer, high-pressure consumer and various outdoor installation transformers.

Group power demand sources such as schools, buildings, and apartment complexes are equipped with water substations that receive, for example, 22,900 V of extra-high voltage power from substations and convert them to low voltages such as 220 V to obtain the required power.

These water substations are generally installed with automatic failure section switch serves to open and close the load. The automatic fault switchgear according to the prior art extinguishes the arc generated at the contact portion at the time of contact input / opening with the buffer method with SF6 gas. However, such a buffer method employing the automatic failure section switch according to the prior art has a safety problem due to the external exposure of arc generation at the time of opening and closing the load. There is a problem that the use of the gas is to be refrained.

The present invention has been made to solve the above problems, an object of the present invention, by changing the automatic failure switchgear method from the conventional buffer method to the vacuum interrupter method to eliminate the external exposure of the arc generation at the time of load opening and closing safety The purpose of the present invention is to provide an environmentally friendly automatic failure switchgear tank and a water substation device having the same by insulating the inside of the tank with dry air, which is an environmentally friendly material.

Vacuum interrupter type automatic failure switchgear tank according to the present invention for achieving the above object, the main circuit manipulator installed outside the tank; A main circuit interlocking part connected to the main circuit manipulator and interlocked by the main circuit manipulator; A main circuit insulating rod connected to the main circuit interlocking unit and moving in a lateral direction by the main circuit interlocking unit; A vacuum interrupter connected to the main circuit insulating rod and configured to insert and open a contact by moving the main circuit insulating rod; A ground circuit manipulator installed outside the tank; A ground interlocking part connected to the ground circuit manipulator and interlocked by the ground circuit manipulator; A ground movable contact connected to the ground linkage and moving in a longitudinal direction by the ground linkage; And a ground fixed contact located above the ground movable contact, wherein the tank includes a main circuit insulating rod, a vacuum interrupter, a ground interlocking part, a ground movable contact, and a ground fixed contact, and is airtightly filled with dry air. It is characterized by that.

At this time, a contact injection spring is provided inside the main circuit manipulator.

The main circuit interlocking part may include: a main circuit rod connected to the contact injection spring and moved downward by the contact injection spring; A main circuit lever connected to the main circuit rod and moving downward by a movement of the main circuit rod; A main shaft installed through one end of the main circuit lever and rotating by the movement of the main circuit lever; And a contact opening spring which is connected to the main shaft and is engraved by the rotation of the main shaft when the contact is input, and which inverts the main shaft to induce contact opening. The contact opening spring is further stored, and is airtightly filled with dry air.

The vacuum interrupter type automatic failure switchgear tank according to the present invention further includes a wiper spring positioned above the main circuit insulating rod and connected to the main shaft to be compressed by the rotation of the main shaft when a contact is input.

A ground spring is installed inside the ground circuit operator.

The ground interlocking portion is connected to the ground spring, the drive shaft rotated by the ground spring; A ground lever connected to the drive shaft and moving in the longitudinal direction by the rotation of the drive shaft; A ground rod connected to the ground lever and moving in a longitudinal direction by the movement of the ground lever; A ground shaft connected to the ground rod and rotating by movement of the ground rod; And a ground arm connected to the ground shaft and rotating by rotation of the ground shaft.

The vacuum interrupter type automatic failure switchgear tank according to the present invention further includes an insulation barrier for accommodating the vacuum interrupter.

The vacuum interrupter type automatic failure switchgear tank according to the present invention further includes a fuse holder and an arrester holder, and the fuse holder and the arrester holder are respectively provided outside the tank.

The vacuum interrupter type automatic failure switchgear tank according to the present invention further includes an arrester holder integrated fuse holder, and the arrester fuse integrated fuse holder is provided outside the tank.

At this time, the arrester holder integrated fuse holder, the arrester holder is formed integrally with one end of the fuse holder.

The vacuum interrupter type automatic failure switchgear tank according to the present invention further includes a take-out bushing of the instrument transformer, the draw-out bushing of the instrument transformer is formed on one side of the tank.

The water substation apparatus according to the present invention for achieving the above object is provided with a power switch board, a power switch board and a switch board, the power switch panel comprises a vacuum interrupter type automatic failure switchgear tank of any one of claims 1 to 11. It is characterized by including.

As described above, the automatic failure section switch tank and the water substation apparatus according to the present invention adopt a vacuum interrupter method to insulate the inside of the dry air tank, which is an environmentally friendly material, thereby eliminating the direct exposure of the arc generation and reducing the greenhouse gas to be reduced. We plan effect that we do not use phosphorus SF6 gas.

In addition, since the fuse holder, the arrester holder, or the arrester-integrated fuse holder is installed on the outside of the automatic failure section switch tank, it is easy to connect the fuse or the arrester.

In addition, since one side of the automatic failure section switch tank is formed with a bushing for draw-out of the transformer for the instrument is easy to connect to the transformer for the instrument.

1 is a first perspective view showing an embodiment of a vacuum interrupter type automatic failure switchgear tank according to the present invention.
Figure 2 is a side view showing an embodiment of a vacuum interrupter type automatic failure switchgear tank according to the present invention.
3 is a second perspective view showing an embodiment of a vacuum interrupter type automatic failure switchgear tank according to the present invention.
Figure 4 is a side view showing another embodiment of a vacuum interrupter automatic failure section switch tank according to the present invention.

Hereinafter, the present invention will be described in more detail with reference to Examples, but the scope of the present invention is not limited to the following Examples.

1 is a first perspective view showing an embodiment of a vacuum interrupter type automatic failure switchgear tank according to the present invention. Figure 2 is a side view showing an embodiment of a vacuum interrupter type automatic failure switchgear tank according to the present invention. 3 is a second perspective view showing an embodiment of a vacuum interrupter type automatic failure switchgear tank according to the present invention.

1 to 3, the vacuum interrupter type automatic failure switchgear tank 1000 includes a main circuit manipulator 110, a main circuit interlocking part 120, a main circuit insulating rod 130, a vacuum interrupter 140, And a ground circuit manipulator 150, a ground interlocking unit 160, a ground movable contact 170, and a ground fixing contact point 180.

The main circuit manipulator 110 is installed outside the tank 1000, and a contact injection spring 112 is installed inside the main circuit manipulator 110.

The main circuit interlock 120 is connected to the main circuit manipulator 110 and interlocked by the main circuit manipulator 110. Looking at the configuration of the main circuit linkage unit 120 in more detail as follows.

The main circuit interlocking part 120 is connected to the contact injection spring 112, and moves downward by the contact injection spring 112; A main circuit lever 124 connected to the main circuit rod 122 and moving downward by a movement of the main circuit rod 122; A main shaft 126 installed through one end of the main circuit lever 124 and rotating by the movement of the main circuit lever 124; And a contact opening spring (128) connected to the main shaft (126), and retracted by the rotation of the main shaft (126) when the contact is placed, and inducing rotation of the main shaft (126) by reverse rotation. It includes.

The main circuit insulating rod 130 is connected to the main circuit interlocking part 120, more specifically, the main shaft 126, and moves horizontally by the rotation of the main shaft 126.

The vacuum interrupter 140 is connected to the main circuit insulating rod 130, and the contact input and the contact opening are performed by the movement of the main circuit insulating rod 130.

The ground circuit manipulator 150 is installed outside the tank 1000, and a ground spring (not shown) is installed inside the ground circuit manipulator 150.

The ground interlocking unit 160 is connected to the ground circuit manipulator 150, and is interlocked by the ground circuit manipulator 150. Looking at the configuration of the ground interlocking unit 160 in more detail as follows.

The ground linkage 160 is connected to the ground spring, the drive shaft 162 rotates by the ground spring; A ground lever 164 connected to the drive shaft 162 and moving in the longitudinal direction by the rotation of the drive shaft 162; A ground rod 166 connected to the ground lever 164 and moving in the longitudinal direction by the movement of the ground lever 164; A ground shaft 168 connected to the ground rod 166 and rotating by the movement of the ground rod 166; And a ground arm 169 connected to the ground shaft 168 and rotating by the rotation of the ground shaft 168.

The ground movable contact 170 is connected to the ground linkage 170, more specifically, the ground arm 169, and moves in the longitudinal direction by the rotation of the ground arm 169. At this time, the ground fixed contact 180 is located above the ground movable contact 170, and thus the contact is opened and the contact is opened by moving upward and downward of the ground movable contact 170. .

The vacuum interrupter type automatic failure switchgear tank 1000 is located above the main circuit insulating rod 130 and is connected to the main shaft 126 to be compressed by the rotation of the main shaft 126 when a contact is input. The wiper spring 190 further includes. The wiper spring 190 serves to increase the contact pressure in the vacuum interrupter 140. In this embodiment, the configuration in which the vacuum interrupter type automatic failure switchgear tank 1000 includes a wiper spring 190 is illustrated, but in another alternative embodiment, the wiper spring 190 may be omitted.

The vacuum interrupter type automatic failure switchgear tank 1000 further includes an insulating barrier 200 for receiving the vacuum interrupter 140. In this embodiment, the configuration in which the vacuum interrupter type automatic failure switchgear tank 1000 includes an insulation barrier 200 is illustrated, but in another alternative embodiment, the insulation barrier 200 may be omitted.

The vacuum interrupter type automatic failure switchgear tank 1000 further includes a fuse holder 300 and an arrester holder 400 installed at the outside of the tank 1000, respectively. In constructing the water substation device, a fuse (not shown) and an arrester (not shown) are installed in the fuse holder 300 and the arrester holder 400, respectively. Therefore, when the tank 1000 according to the present invention is used, it is easy to connect the fuse or the arrester. In the present exemplary embodiment, the vacuum interrupter type automatic failure switchgear tank 1000 is illustrated to include a fuse holder 300 and an arrester holder 400, but in another alternative embodiment, the fuse holder 300 and the arrester Holder 400 may be omitted.

The vacuum interrupter type automatic failure switchgear tank 1000 further includes a take-out bushing 500 of the instrument transformer formed on one side of the tank 1000. In constructing the water substation device, an instrument transformer (not shown) is connected to the draw-out bushing 500 of the instrument transformer. Therefore, when the tank 1000 according to the present invention is used, it is easy to connect to the transformer for the instrument. In the present embodiment, the vacuum interrupter type automatic failure switchgear tank 1000 has been exemplified a configuration including the take-out bushing 500 of the instrument transformer, but in another alternative embodiment the bushing for the draw-out of the instrument transformer ( 500 may be omitted.

In the tank 1000, a main shaft 126 and a contact opening spring 128, a main circuit insulating rod 130, a vacuum interrupter 140, and a ground interlocking part 160 of the main circuit interlocking part 120 are provided. The ground movable contact 170, the ground fixed contact 180, the wiper spring 190 (can be omitted), and the insulating barrier 200 (can be omitted) are housed and are hermetically filled with dry air. Therefore, according to this invention, the effect which does not use SF6 gas which is a greenhouse gas to be reduced is aimed at.

Figure 4 is a side view showing another embodiment of a vacuum interrupter automatic failure section switch tank according to the present invention.

In the vacuum interrupter type automatic failure switchgear tank 1000 of FIG. 4, the fuse arrester holder integrated fuse holder 600 is installed in place of the fuse holder 300 and the arrester holder 400. Same as the configuration. Therefore, the description about the same structure as FIGS. 1-3 is abbreviate | omitted.

Referring to FIG. 4, an arrester holder integrated fuse holder 600 is installed outside the vacuum interrupter type automatic failure switchgear tank 1000. In the arrester holder integrated fuse holder 600, an arrester holder 620 is integrally formed at one end of the fuse holder 610.

The operation of the vacuum interrupter type automatic failure switchgear tank according to the present invention will be described with reference to FIGS. 1 to 4.

First, the main circuit contact input operation will be described.

The contact injection spring 112 is driven by the driving of the motor 114 provided in the main circuit manipulator 110. The main contact rod 122 is pushed downward by the restoring force while the stored contact injection spring 112 is restored to its original shape. The main circuit lever 124 moves downward by the movement of the main circuit rod 122, and the main shaft 126 rotates counterclockwise by the movement of the main circuit lever 124. The insulating rod 130 moves horizontally by the rotation of the main shaft 126. More specifically, as shown in Figure 3, the horizontal movement from the right to the left. The mover 144 in the vacuum interrupter 140 is brought into contact with the stator 142 by the horizontal movement of the insulating rod 130, so that the contact point is input in the vacuum interrupter 140. As a result, current flows. At this time, the wipe spring 190 is in a compressed state by the rotation of the main shaft 126 to increase the contact pressure in the vacuum interrupter 140.

Next, the main circuit contact opening operation will be described.

When the main shaft 126 rotates in the contact input process, the contact opening spring 128 is scaled by the rotation of the main shaft 126. The enlarged contact opening spring 128 is restored to its original shape and reversely rotates the main shaft 126 by its restoring force. That is, the main shaft 126 is rotated in the clockwise direction. The insulating rod 130 moves horizontally by the reverse rotation of the main shaft 126. More specifically, as shown in Figure 3, the horizontal movement from the left to the right. The mover 144 in the vacuum interrupter 140 is separated from the stator 142 by the horizontal movement of the insulating rod 130 so that the contact is opened in the vacuum interrupter 140. As a result, the current is interrupted.

Next, the ground circuit contact closing operation will be described.

When the charging current charged in the cable or the like is removed, the grounding operation handle 152 provided in the grounding circuit manipulator 150 is rotated counterclockwise. As the ground spring (not shown) is compressed by the rotation of the ground manipulation handle 152, the ground spring is restored to its original shape at the moment when the ground spring (not shown) is compressed most. Rotate counterclockwise. The ground lever 164 moves downward by the rotation of the drive shaft 162. The ground rod 166 moves downward by the movement of the ground lever 164, and the ground shaft 168 rotates clockwise by the movement of the ground rod 166. The ground arm 169 rotates in a clockwise direction by the rotation of the ground shaft 168, and the ground movable contact 170 moves upward by the rotation of the ground arm 169, and the ground fixing contact 180 Contact. This makes contact input.

Next, the ground circuit contact opening operation will be described.

The ground operation handle 152 provided in the ground circuit manipulator 150 is rotated clockwise. As the ground spring (not shown) is compressed by the rotation of the ground manipulation handle 152, the ground spring is restored to its original shape at the moment when the ground spring (not shown) is compressed most. Rotate clockwise. The ground lever 164 moves upward by the rotation of the drive shaft 162. The ground rod 166 moves upward by the movement of the ground lever 164, and the ground shaft 168 rotates counterclockwise by the movement of the ground rod 166. The ground arm 169 rotates in the counterclockwise direction by the rotation of the ground shaft 168, and the ground movable contact 170 moves downward by the rotation of the ground arm 169 so that the ground fixed contact 180 is rotated. And falls. This results in contact opening.

As described above, according to the present invention, the automatic failure section switch can be vacuum interrupted to eliminate the direct exposure of arc generation, thereby improving the safety.

Looking at one embodiment of the water substation apparatus according to the present invention.

The water substation apparatus includes a power switch board, a substation board, and a switch board, and the power switch board includes the automatic failure switchgear tank 1000 of FIGS. 1 to 3 or the automatic failure switchgear tank 1000 of FIG. 4. . In addition, other high-pressure devices constituting the power panel, for example, fuse, lightning arrester, instrument transformer is provided in the fuse failure switch tank 1000, the fuse holder 300, the arrester holder 400, the arrester holder type The fuse holder 600 is installed or connected to the take-out bushing 500 of the instrument transformer.

Therefore, according to the water substation apparatus of the present invention, by using a vacuum interrupter type automatic failure section switch, it is possible to improve the safety of the water substation apparatus by eliminating the direct exposure of arc generation, and also to improve the safety of the fuse, lightning arrester and instrument transformer. The effect of facilitating the connection of can be achieved.

While specific embodiments of the present invention have been described above, the present invention is not limited to the above-described specific embodiments, and the technical field to which the present invention pertains without departing from the gist of the present invention as claimed in the claims. Anyone of ordinary skill in the art can make various modifications, as well as such modifications are within the scope of the claims.

110: main circuit controller 112: contact injection spring
120: main circuit interlocking portion 122: main circuit rod
124: main circuit lever 126: main shaft
128: open contact spring 130: main circuit insulating rod
140: vacuum interrupter 150: ground circuit operation
160: ground linkage 162: drive shaft
164: ground lever 166: ground rod
168: ground axis 169: ground arm
170: ground movable contact 180: ground fixed contact
300: fuse holder 400: lightning arrester holder
500: draw-out bushing of instrument transformer
1000: vacuum interrupter automatic failure switchgear tank

Claims (12)

It is a vacuum interrupter type automatic failure switchgear tank,
A main circuit controller installed outside the tank;
A main circuit interlocking part connected to the main circuit manipulator and interlocked by the main circuit manipulator;
A main circuit insulating rod connected to the main circuit interlocking unit and moving in a lateral direction by the main circuit interlocking unit;
A vacuum interrupter connected to the main circuit insulating rod and configured to insert and open a contact by moving the main circuit insulating rod;
A ground circuit manipulator installed outside the tank;
A ground interlocking part connected to the ground circuit manipulator and interlocked by the ground circuit manipulator;
A ground movable contact connected to the ground linkage and moving in a longitudinal direction by the ground linkage; And
Includes; a ground fixed contact located above the ground movable contact;
The tank contains a main circuit insulating rod, a vacuum interrupter, a ground interlock, a ground movable contact, and a ground fixed contact, and are airtightly filled with dry air.
The contact injection spring is installed inside the main circuit controller,
The main circuit interlocking part may include: a main circuit rod connected to the contact injection spring and moved downward by the contact injection spring; A main circuit lever connected to the main circuit rod and moving downward by a movement of the main circuit rod; A main shaft installed through one end of the main circuit lever and rotating by the movement of the main circuit lever; And a contact opening spring which is connected to the main shaft and is enclosed by the rotation of the main shaft when the contact is inserted and induces the contact opening by rotating the main shaft in reverse.
The tank has a main shaft and the contact opening spring is further accommodated, vacuum interrupter type automatic failure switchgear tank characterized in that it is hermetically filled with dry air. delete delete The vacuum interrupter type automatic failure switchgear according to claim 1, further comprising a wiper spring positioned above the main circuit insulating rod and connected to the main shaft and compressed by rotation of the main shaft when a contact is input. Tank. The vacuum interrupter type automatic failure switchgear tank according to claim 1, wherein a ground spring is provided inside the ground circuit operating device. The method of claim 5, wherein the ground linkage,
A drive shaft connected to the ground spring and rotating by the ground spring;
A ground lever connected to the drive shaft and moving in the longitudinal direction by the rotation of the drive shaft;
A ground rod connected to the ground lever and moving in a longitudinal direction by the movement of the ground lever;
A ground shaft connected to the ground rod and rotating by movement of the ground rod; And
And a ground arm connected to the ground shaft, the ground arm rotating by rotation of the ground shaft. The vacuum interrupter type automatic failure switchgear tank according to claim 1, further comprising an insulation barrier for accommodating the vacuum interrupter. The vacuum interrupter type automatic failure switchgear tank according to claim 1, further comprising a fuse holder and an arrester holder, wherein the fuse holder and the arrester holder are provided outside the tank, respectively. The vacuum interrupter type automatic failure switchgear tank according to claim 1, further comprising a fuse holder integrated fuse holder, wherein the arrester holder integrated fuse holder is provided outside the tank. The vacuum interrupter type automatic failure switchgear tank according to claim 9, wherein the lightning arrester holder-integrated fuse holder has an arrester holder integrally formed at one end of the fuse holder. The vacuum interrupter type automatic failure switchgear tank according to claim 1, further comprising a take-out bushing of the gauge transformer, wherein the take-out bushing of the gauge transformer is formed on one side of the tank. In the water substation device having a power switchgear, a substation board and a switchboard,
The power substation is a water substation device comprising a vacuum interrupter type automatic failure switchgear tank of any one of claims 1, 4 to 11.

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