KR100464258B1 - Apparatus mounting arc extinguishing part and appratus drive part in one united body for vacuum interupter arc extinguishing type cubicle gas insulated switchgear - Google Patents

Abstract

The present invention relates to an integrated assembly apparatus for a fire protection part and a blocking drive part of a cubicle gas insulated switchgear of a vacuum interrupter extinguishing method, and is connected to and integrated with the fire protection part and the blocking drive part. It is inserted into the inside of the enclosure through the coupling hole, the fastening plate of the extinguishing portion is interposed with an O-ring on its inner surface and bolted to the enclosure, so that the extinguishing portion and the blocking drive part can be easily drawn in and out. In addition, the shaft portion and the blocking driving portion is integrated by connecting the shaft of the blocking driving portion to the connecting link of the extinguishing portion. Since the integrated part of the arc and block driving parts of the cubicle gas insulated switchgear of the vacuum interrupter extinguishing method is integrated with the arc and block driving parts, it is possible to test the breaking characteristics before assembling the enclosure. It is easy to change parts and structural changes. In addition, the prior art during use in actual industrial sites occurs inefficient work to structurally separate the bus chamber on the barrier room when replacing or repairing the internal parts of the barrier room, but if the present invention is applied, only the barrier room without separating the bus compartment It becomes possible to maintain.

Description

Integral assembly device for arc extinguishing part and blocking drive part of cubicle gas insulated switchgear of vacuum interrupter type.

The present invention relates to a unit for assembling an arc extinguishing unit and a blocking drive unit of a vacuum interrupter arc-type cubicle gas insulated switchgear. Applied as an integrated assembly structure of the breaker driving part, it is easy to test the breaking characteristic, and it is easy to change the part and the structural change during the characteristic test, and also to replace or repair the internal parts of the breaking room during the actual industrial use The present invention relates to an integrated assembly apparatus of a fire protection unit and a blocking driving unit of a cubicle gas insulated switchgear of a vacuum interrupter extinguishing method capable of maintaining only a blocking chamber without separation.

In general, a cubicle gas insulated switchgear is composed of three parts: a buser compartment, an appratus compartment, and a cable compartment. The breaker chamber is composed of a blocking unit which serves to cut off a load current or an accident current, cuts off the current, and a breaker driving unit which operates the arcing unit.

1 to 3 show the configuration of a cubicle gas insulated switchgear of a conventional arc extinguishing method, FIG. 1 is a cross-sectional view of the cubicle gas insulated switchgear, and FIG. 2 is an explanatory view of an assembly sequence of the cubicle gas insulated switchgear. 3 is a partial cross-sectional view of a cubicle gas insulated switchgear.

As shown in the drawing, the conventional extinguishing type cubicle gas insulated switchgear is composed of a busbar chamber 10, a blocking chamber 20, and a cable chamber 30.

In addition, the busbar chamber 10, the blocking chamber 20, and the cable chamber 30 are surrounded by a rectangular enclosure 40 which is hermetically welded, and all components through which the main circuit current is energized are configured in the enclosure 40. In addition, the inside of the enclosure 40 is filled with SF ₆ gas to improve the insulation force, each enclosure 40 is partitioned by a spacer 50 to prevent the spread of the accident inside one enclosure 40 as a whole Is divided.

The circuit breaker is a device that protects the power system by opening and closing the load as well as opening and closing the fault current, and is practically the most important part in the construction of the cubicle gas insulated switchgear. In addition, the representative factor affecting the breaking characteristics is the speed of the vacuum interrupter moving part when the breaker is closed and opened. In the design process of the breaker, in order to determine the speed value, Numerous experiments have been carried out to change the various links connected to the vacuum interrupter moving parts to determine their values.

FIG. 2 is an exploded perspective view of a cubicle gas insulated switchgear assembly sequence, and FIG. 3 is a partial cross-sectional view of the cubicle gas insulated switchgear, and the breaker chamber 20 is largely composed of subassemblies. .

In addition, in FIG. 2, 21 is an enclosure, 22 is a subassembly in which a vacuum interrupter is assembled, and bolts are assembled inside the enclosure 21. 23 is assembled to the outside of the enclosure 21 as a subassembly of the blocking drive unit. The vacuum interrupter subassembly 22 and the blocking drive subassembly 23 are assembled to the enclosure 21, and then the shaft 25 One end is inserted into the connecting portion 27 of the enclosure 21, and the other end is inserted into the connecting portion 28 of the blocking drive subassembly 23, and the link 24 and the enclosure 21 of the shaft 25 are connected. The pins are assembled to the connecting holes 24a and 26a of the connecting portion 26. In FIG. 3, reference numeral 29 denotes an insulating bar, and 29a denotes an insulating bar 29 that connects the connecting portion 26 and the insulating bar 29 to each other. As described above, the shielding chamber assembly structure of the conventional extinguishing type cubicle gas insulated switchgear is assembled by assembling the vacuum interrupter blocking driving unit and the connecting links, respectively, which constitute the blocking chamber. As mentioned above, in the product development stage, many experiments are conducted to determine the speed value that determines the blocking characteristics. In this experiment, the structure of the blocking drive part can be easily changed because the driving part is outside the enclosure, but the vacuum interrupter Most of the links associated with the moving parts are inside the enclosure, so designers must change them within narrow enclosures to change the link.If space is not available, the sub-assembly subassembly can be removed from the enclosure to change parts and then reassembled inside. There was a problem that the work is inconvenient to do so.

In addition, when the cubicle gas insulated switchgear is actually used in the field, there are cases in which the interior of the breaker chamber is repaired, such as a vacuum interrupter change or an aging link replacement. Since the bus compartment must be separated first, there is a problem that the operation becomes more inconvenient. In addition, the breaker mechanism of the conventional gas insulated switchgear as described above has a large number of links connected to the vacuum interrupter, and due to the accumulated tolerance of the connection part, There was a problem that the stroke of the vacuum interrupter is much attenuated. In addition, since the main shaft is long and the second driving lever for driving the main shaft is connected to one end of the main shaft, when the contact spring is compressed at the time of input, the main shaft is severely twisted and bent due to the compression force of the contact spring. As a result of the bending phenomenon, there was a problem of reducing the contact spring force and reducing the mechanical closing and closing speed. Therefore, the present inventors have developed the power transmission device of the circuit breaker mechanism for gas insulated switchgear developed to solve the above problems. It has been developed and filed (Application No .: No. 10-2002-0012207). The invention of the above-mentioned application is a power transmission device of a circuit breaker mechanism for a gas insulated switchgear, and is capable of forward and reverse rotation so as to protrude to the rear of the circuit breaker mechanism. One end is fixed to the blocking shaft to be coupled and its blocking shaft, so that the clock or A first driving lever that rotates in a counterclockwise direction, a lower end portion coupled to the other end of the first driving lever, and a 3D coupling which is installed in a vertical direction and moves up and down in accordance with the rotation of the first driving lever; And a shutoff driving portion having an end portion coupled to an upper end of the 3D coupling and configured to rotate clockwise or counterclockwise as the 3D coupling moves up and down; A switch shaft coupled to the second driving lever and rotating forward and reverse according to the rotation of the second driving lever, and one end is fixed to the switch shaft to rotate clockwise or counterclockwise according to the forward and reverse rotation of the switch shaft. A third pressure lever, a positive pressure spring guide coupled to an end of the third drive lever and moving left and right in accordance with the rotation of the third drive lever, and installed to surround the outside of the positive pressure spring guide, and the front end portion A contact spring fixed to the positive spring guide to closely contact the positive spring guide with a spring pressure, a connection rod connected to the right end of the positive spring guide in a horizontal direction and simultaneously moving left and right of the positive spring guide, and the connection rod The control bolt is coupled to the right end and moved simultaneously with the left and right movement of the connection rod, and the right end of the control bolt. It consists of a fire extinguishing unit consisting of an insulated rod for contacting or shorting the contacts of the vacuum interrupter arranged in the horizontal direction and coupled to the left and right movement of the control bolt at the same time. The mechanism's power train reduces the number of links from the breaker mechanism to the vacuum interrupter to reduce the cumulative tolerances of the joints and to reduce the torsion and bending of the spindle to ensure the stability of power transmission. The power transmission device of the circuit breaker mechanism for gas insulated switchgear of the present invention is a problem with the circuit breaker mechanism of the conventional arc-type cubicle gas insulated switchgear shown in Figs. 1 to 3, that is, the arcing part, the blocking drive part, and the connecting link. Block assembly test after complete assembly As it was that does not provide adequate measures for a problem that it is inconvenient various experimental work in the product development phase.

The present invention improves the power transmission device (application number; No. 10-2002-0012207) of the circuit breaker mechanism for gas insulated switchgear, which the applicant has previously filed in view of the above-mentioned problems and defects. It is possible to test the breaking characteristics before assembling the blocking driving part before assembling the enclosure, and it is easy to change the parts and the structure during the characteristic testing of both the extinguishing part and the moving part, and to replace the internal parts of the breaking room during the actual industrial use. B. It is an object of the present invention to provide an integrated assembly apparatus for the arc extinguishing unit and the blocking driving unit of a cubicle gas insulated switchgear of a vacuum interrupter extinguishing method, which may enable maintenance of the interrupting chamber without separation of the bus room.

1 to 3 show the configuration of a cubicle gas insulated switchgear of a conventional extinguishing method.

1 is a cross-sectional view of a cubicle gas insulated switchgear.

2 is an explanatory diagram of an assembly procedure of a cubicle gas insulated switchgear;

3 is a partial cross-sectional view of a cubicle gas insulated switchgear.

4 to 7 are related to the integrated unit of the arc extinguishing portion and the blocking driving portion of the cubicle gas insulated switchgear of the vacuum interrupter arc extruding method according to the present invention,

Figure 4 is an exploded perspective view showing the assembly structure of the enclosure and the block driving part.

5 is a perspective view of the integrated extinguishing unit and the blocking drive unit;

Figure 6 is a perspective view of the blocking drive sub-assembly.

7 is a perspective view of the extinguishing unit subassembly.

<Description of the symbols for the main parts of the drawings>

100: enclosure 101: coupling hole

200: SOHO 210: Link

220: fastening plate 230: O-ring

300: blocking drive 310: shaft

In order to achieve the above object, an integrated assembly apparatus for a fire protection unit and a blocking drive unit of a cubicle gas insulated switchgear of a vacuum interrupter arc extinguishing method according to the present invention is connected to an extinguishing unit and a blocking driving unit, and the integrated extinguishing unit and the blocking driving unit are integrated. It is inserted into the inside of the enclosure through the coupling hole of the enclosure, the fastening plate of the extinguishing portion is fastened to the enclosure by the bolt through the O-ring on the inner surface, it is configured to easily pull in and out the extinguishing portion and the blocking drive.

In addition, the shaft and the block driving unit is integrated with the shaft of the block driving unit is connected to the connection link of the extinguishing unit. The present invention is a power transmission device of the circuit breaker mechanism for the gas insulated switchgear (application number; No. 10-2002-). 0012207) to improve the breakdown characteristics test by applying the integrated structure of the extinguishing section and the blocking drive section, and to easily change the parts and the structural change during the characteristic test, and also to block them during the actual industrial use. When replacing or repairing the internal parts of the seal, it is possible to maintain only the breaker compartment without removing the busbar.

Hereinafter, with reference to the accompanying drawings, the present invention will be described in detail as follows.

4 to 7 is an exploded perspective view showing an integrated assembly apparatus for a fire protection unit and a blocking drive unit of a cubicle gas insulated switchgear of a vacuum interrupter extinguishing method according to the present invention. 5 is a perspective view of the integrated extinguishing unit and the blocking driver, FIG. 6 is a perspective view of the blocking unit subassembly, and FIG. 7 is a perspective view of the extinguishing unit subassembly.

4 to 7, reference numeral 100 denotes an enclosure, and 200 and 30 denote subheadings shown in the power transmission device (application number; No. 10-2002-0012207) of the circuit breaker mechanism for the gas insulated switchgear described above. Part and the block driving part is shown, respectively, by the present invention, the arc extinguishing part 200 and the blocking drive part 300 are coupled together based on the fastening plate 220, the fastening plate 220 is one enclosure Being fastened to 40, the extinguishing unit 200 is entered into the interior of the enclosure 100, the blocking drive unit 300 is configured to be located outside the enclosure (100).

The arcing unit 200 and the blocking drive unit 300 are configured to be integrated by being connected to the shaft 310 of the blocking driving unit 300 by being connected to the connection link 210 of the arcing unit 200.

The integrated plate 220 of the arc extinguishing unit 200 and the blocking driving unit 300 is fastened to the enclosure 100 by a bolt inserted into the fastening hole 211 formed at the periphery thereof, and leakage of gas may occur. It is configured to fasten completely close to the contact surface of the fastening plate 220 via the O-ring 230 to prevent.

The integrated unit of the extinguishing unit and the blocking driving unit of the cubicle gas insulated switchgear of the vacuum interrupter extinguishing method according to the present invention as described above, the assembling unit (200) and the blocking driving unit 300 when the assembly link link 210 and the shaft ( 310 to connect and integrate, the integrated extinguishing unit 200 and the extinguishing unit 200 of the blocking drive unit 300 is inserted into the coupling hole 101 formed in the main wall of the enclosure 100, the fastening plate ( By assembling 220 to the outer surface of the enclosure 100 via the O-ring 230 on the inner surface of the enclosure 100, it can be assembled and disassembled very easily.

As a final technique, the block side test can be performed after the housing, the block driving unit, and the connecting link are completely assembled together with the enclosure, but the integrated unit of the unit and the block driving unit of the cubicle gas insulated switchgear of the vacuum interrupter extinguishing method according to the present invention The drive unit and the arc extinguishing unit are in an integrated form without being assembled in an enclosure. Therefore, the application of the present invention makes it possible to perform the blocking characteristic test before assembling the enclosure, and it is easy to change the parts and the structure during the characteristic test of both the extinguishing part and the movable part. In addition, the prior art during use in actual industrial sites occurs inefficient work to structurally separate the bus chamber on the barrier room when replacing or repairing the internal parts of the barrier room, but if the present invention is applied, only the barrier room without separating the bus compartment It becomes possible to maintain.

Claims (2)

The extinguishing unit 200 and the blocking driving unit 300 are integrally assembled to enable the blocking characteristic experiment, and the integrated extinguishing unit 200 and the extinguishing unit 200 of the blocking driving unit 300 are formed in one enclosure (100). It is inserted into the interior of the enclosure 100 through the coupling hole 101 of the), the fastening plate 220 of the extinguishing portion 200 via the O-ring 230 on the inner surface and bolts to the enclosure 100 Is integrated into the arc extinguishing unit and the blocking driving unit of the cubicle gas insulated switchgear of the vacuum interrupter extinguishing method, characterized in that the fastening unit 200 and the blocking driving unit 300 is easily inserted and withdrawn. delete