KR100902020B1 - Link structure connecting load switching section and power fuse section of gas insulated switchgear - Google Patents

Abstract

A link structure is provided to minimize damage to an electric power system and an electric power device by operating a load switching part through an electrical signal or a mechanical motion when a power fuse is melted. A link structure(130) includes three trip levers(132), a rotary bracket(134), and a switch(137). The trip levers are rotatably coupled in a fuse holder(112) of a power fuse part(110). Both end parts of the trip lever are rotatably coupled in a fixing bracket. A pressurized part(132a) is protruded in a central part of the trip lever. The rotary bracket is rotated according to rotation of the trip lever. The rotary bracket comprises a pair of supporting parts(135) and a connection part(136). The switch is contacted with one among a pair of supporting parts in order to selectively transmit an electric signal to the load switching part.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a link structure for connecting a power fuse portion of a gas insulated switchgear to a load opening /

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a link structure of a gas insulated switchgear (LBS) in a tank, and more particularly to a link structure for connecting a power fuse portion of a gas insulated switchgear to a load switch, And a link structure for connecting a power fuse portion of a gas insulated switchgear to a load opening / closing portion so as to reduce a malfunction when a ground fault or a short circuit occurs, and to send a signal to the load switch portion within a prescribed time.

In general, the gas insulated switchgear is a main protection device for power facilities installed in power plants or substations. It protects the power system by safely and quickly shutting down excessive fault currents in the event of a fault such as a ground fault or short circuit.

These gas insulated switchgear are installed on the mains to the customer side or from the substations to the secondary substations of tens of thousands of kilovolts of ultra high voltage and are usually installed on the mains lines and are used to open or close the lines artificially in normal use, It protects power system and power equipment by safely shutting off the current when a fault current such as a short circuit occurs.

The above-mentioned closing mechanism of the gas insulated switchgear is housed in a tank designed and manufactured in a pressure-resistant type of a high-voltage electrical apparatus of a closed type metal switchboard used in the conventional air insulation system, And the conductor is embedded in the metal tank, it can be installed with an area of 5 ~ 10% compared to the outdoor iron spherical substation. Unlike the outdoor iron spherical substation, since the live part is sealed, it is hardly affected by the climate, It is possible to prevent the contamination of the insulation caused by salting or the like, thereby maintaining excellent initial characteristics.

Therefore, for the purpose of reduction of construction cost, improvement of safety and reliability, improvement of electric power of power distribution equipment, etc. where large power consumption is required, such as large cities or specific narrow areas where power consumption has increased due to recent industrial development, Widely used.

 The gas insulated switchgear as described above is an electric power device capable of continuously supplying good quality electricity. As it is known, when a large short-circuit current flows in a device, the short-circuit current is prevented from reaching the peak value by resistance generated in the fuse A power fuse unit for interrupting a short-circuit current within a minimum period of time through a current limiting action, a load opening / closing unit having a function of protecting a branch of the line, a rear transformer or a load, and a link for electrically connecting the power fuse unit and the load opening / ≪ / RTI >

The link structure for connecting the power fuse portion and the load opening / closing portion of the gas insulated switchgear according to the present invention corresponds to the link portion. When the fuse blowing of the power fuse portion is performed, the load opening / To minimize the mechanical and thermal damage to the system circuit.

 FIG. 1 is a schematic view of a connecting portion connecting a power fuse portion and a load opening / closing portion in a conventional gas insulated switchgear. Referring to FIG. 1, there is shown a fuse 1, a strike 2 protruding when fusing the fuse, A wire 5 guided by the housing 4 so as to move linearly when projected and a wire 5 for operating the switch 7 while interlocking with the movement of the moving rod 3; A tube 6, and a solenoid 8 for tripping the load opening / closing unit 9 in cooperation with the switch.

Therefore, when the fuse 1 is fused by a ground fault or a short circuit, the strike 2 advances in the direction of the arrow to push the movable rod 3, and the wire 5 is moved by the force, When the switch 7 is turned on, the power is connected and the solenoid 8 is operated to trip the load switch 9, thereby cutting off the line.

However, the conventional gas insulated switchgear as described above is structured by an electric circuit which constitutes the contact of the switch 7 by the driving force of the strike 2 and operates the solenoid 8, When applied to the switchgear, the disconnecting unit has three lead-in terminals, three lead-out terminals, three switch units, and three power fuses provided in the three-phase voltage load switch, which are electrically connected to each other There is a problem that the structure becomes complicated.

In order to solve this problem, in recent years, even if any one of the strikers of three power fuses protrudes, it is possible to switch the switch means of the load switch from the ON state to the OFF state, A manipulator was developed.

FIG. 2 is a perspective view schematically showing a mechanical operation portion of a conventional power fuse combination type gas insulated load switch. Referring to FIG. 2, a power fuse portion and a load opening / closing portion are interposed between a lead terminal and a lead terminal, If any one of the three power fuses arranged in a triangular shape in the power fuse unit is disconnected, the striker of the disconnected power fuse protrudes and switches the load opening / closing unit from the on state to the off state by using the stator output The three trip levers 201a, 201b, and 201d are arranged in a triangle shape so as to face the strikers 102 of the three power fuses, respectively. The three trip levers 201a, 201b, A horizontal axis 204a which rotates together with one trip lever 201c of the three trip levers 201a, 201b and 201c, and Another horizontal axis 204b rotating together with the other two trip levers 201a and 201b and a vertical axis 203 vertically crossing the two horizontal axes 204a and 204b arranged in parallel with each other, 204b interposed between the vertical axis 203 and the two horizontal axes 204a and 204b so that the leading end is fixed to the vertical axis 204 via the link pin, Two links 203a and 203b that are rotatably circumscribed with respect to the driving trip lever and a flexible wire 206 whose base end faces the tip of the horizontal shaft 204b and whose tip is disposed opposite to the drive trip lever .

However, as described above, in the case of the gas insulated switchgear to which the conventional three-phase voltage LBS (load switch) is applied, a signal is sent to the load opening / closing portion through the operation portion when the power fuse is blown, ) Operation to prevent the occurrence of an accident current, the operation of the operation unit must be quickly performed by optimizing the structure of the operation unit. The operation unit described above also has a complicated structure and a large number of components, And there is a problem that the production cost is large.

SUMMARY OF THE INVENTION The present invention has been conceived to solve the above-mentioned problems of the prior art, and it is an object of the present invention to minimize a short circuit current in a minimum time by minimizing a link structure between an LBS (load switch) and a power fuse, It is an object of the present invention to provide a link structure for connecting a power fuse portion and a load opening / closing portion of a gas insulated switchgear so as to minimize a mechanical thermal damage rate.

According to another aspect of the present invention, there is provided a fuse holder comprising: three fuse holders fixedly installed inside a main body by a fixing bracket, the fuse holders having fuses therein; and a striker protruding at one end of the fuse holder, And a link portion for transmitting a mechanical operation of the striker of the power fuse portion to the load opening and closing portion by an electrical signal, the link structure comprising: a power fuse portion Wherein the fuse holder is rotatably engaged with the three fuse holders and is rotated when the striker is projected, the two ends of the three fuse holders are rotatably coupled to a fixing bracket supporting the fuse holder, A lever, and the three trip levers are interlocked with each other, A rotation bracket formed integrally with a pair of supporting portions formed to face each other and a pair of supporting portions located opposite to each other; And a link structure for connecting the power fuse portion of the gas insulated switchgear with the load opening / closing portion, including a switch capable of selectively transmitting a signal to the load opening / closing portion.

Further, in the present invention, any one of the pair of supporters is provided with an operating contact so that it can be electrically connected when the switch is in contact with the switch.

According to an embodiment of the present invention, the connecting portion is formed at both ends with a contact portion that is in contact with the pressing portion of the trip lever, so that the rotational force can be transmitted through the contact portion when the trip lever is rotated.

The link structure connecting the power fuse portion and the load opening / closing portion of the gas insulated switchgear according to the present invention reduces the number of parts when the load switch is operated through an electrical signal or mechanical movement during the fusing of the power fuse, By minimizing the number of parts, it is possible to reduce the possibility of malfunction, and in terms of cost, it is possible to reduce the number of parts and reduce the cost of assembly by reducing the number of parts.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG.

 FIG. 3 is a perspective view schematically showing a gas insulated switchgear apparatus using a link structure for connecting a power fuse unit and a load switch unit of the gas insulated switchgear according to the present invention, and FIG. 4 is a cross- FIGS. 5A and 5B are schematic views schematically showing a state in which a link structure is operated. FIG. 5A is a perspective view showing a link structure connecting a fuse portion and a load opening and closing portion. FIG.

The link structure 130 connecting the power fuse unit and the load opening / closing unit of the gas insulated switchgear according to the present invention includes a power fuse unit 110, a load opening / closing unit 120, and a link unit The power fuse unit 110 is electrically connected to the load opening and closing unit 120 by electrically connecting the power fuse unit 110 and the load switch unit 120. The power unit 110 is electrically connected to the power fuse unit 110, The load opening / closing part 120 can be operated through an electrical signal or a mechanical movement when the fuse 111 is blown, thereby minimizing the power opening and damaging the power device.

3, the gas insulated switchgear 100 using a link structure for connecting the power fuse unit of the present gas insulated switchgear with the load switchgear is provided with a power fuse unit 110 and a load opening / 120, and a link unit 130. [

The power fuse unit 110 is formed in the front portion of the main body 100a of the gas insulated switchgear 100 so that the short-circuit current is prevented from reaching the peak value when a large short- And three fuses 111 capable of receiving R phase, S phase, and T phase currents, which are three-phase currents, in a triangular shape are provided on one side of the main body 100a filled with the insulating gas Respectively.

Although not shown in the drawing, the three fuses 111 are coupled to the main body 100a in a state of being coupled to the fuse holder 112, and the fuse 111 is connected to the fuse holder 112, And three strikers 113 protruding when fusing are provided.

Specifically, the power fuse unit 110 includes three fuses 111 fitted in a triangular shape in a front portion of the main body 100a, and the fuse 111 is fixed to the inside of the main unit 100a, A striker 113 disposed at one end of each of the fuse holders 112 and protruding when the fuse 111 is fused; and three fuse holders 112, The power fuse unit 110 having the above-described structure is configured so that the current drawn through the lead-in terminal is passed through the lead-out terminal at a desired position The stator 113 protrudes when the current flowing into the lead-in terminal is an overcurrent.

The load opening / closing unit 120 receives a signal when the fuse 111 is blown and performs a trip operation, and is formed in the main body 100a. Hereinafter, the load opening / closing unit 120 will be described in detail with reference to the related art and will not be described in detail. Hereinafter, the fuse 111 of the power fuse unit 110, which is the greatest feature of the present invention, The link unit 130 that allows the load opening and closing unit 120 to be operated through a motion will be described in detail.

The present invention can optimize and minimize the structure of the link unit 130 so that electrical signals can be transmitted to the load opening and closing unit 120 within a minimum time. The trip lever 132, the rotation bracket 134, and the switch 137 ).

The trip lever 132 is rotatably coupled to three fixing brackets 114 fixedly supporting the fuse holder 112 as shown in FIG. 4. The both ends of the trip lever 132 are fixed to the fixing bracket 114, And a pressing portion 132a is formed so that one side of the central portion is protruded in one direction so that the pressing portion 132a of the trip lever 132 when the striker 113 protrudes can be rotated in a direction in which the pressing portion 132a is formed .

Specifically, as shown in the drawing, the first fuse holder 110 is coupled to the fixing bracket 114 of the fuse holder 112, which is formed in the triangle shape and is adapted to receive a three-phase current, The trip lever 132 coupled to the stationary bracket 114a of the first fuse holder 112a is coupled such that the pressing portion 132a is positioned in the downward direction and the second fuse holder 112b and the third fuse holder 112c are fixed The trip lever 132 coupled to the brackets 114b and 114c is coupled so that the pressing portion 132a is positioned upward.

The rotation bracket 134 is coupled to the trip lever 132 and rotates in accordance with the rotation of the trip lever 132. The rotation bracket 134 is provided to face the first and second fixing brackets 114a, And a connecting portion 136 connecting the pair of supporting portions 135 and the pair of supporting portions 135 facing each other.

The supporting part 135 is a rod member having a predetermined length, and an operating contact 138 is provided to transmit electrical signals to any one of the pair of supporting parts 135.

The connection part 136 connecting the support part 135 is in contact with the trip lever 132 and is received by the pressing part 132a formed on the trip lever 132 according to the rotation of the trip lever 132 And a first contact portion 136a which is in contact with the trip lever 132 coupled to the second fixing bracket 114b at one end and a trip lever 136a which is coupled to the third fixing bracket 114c at the other end, And a second contact portion 136b that is in contact with the second contact portion 132. [ At this time, the trip lever 132 coupled to the first fixing bracket 114a is directly in contact with the central portion of the connection portion 136.

Accordingly, when one of the three fuses 111 is disconnected, the striker 113 connected to the disconnected fuse 111 protrudes as shown in FIG. As a result, the trip lever 132, which is in contact with the protruding striker 113, is rotated to press the rotation bracket 134 to rotate.

The switch 137 receives the signal transmitted through the rotation bracket 134 and sends a signal to the load switching unit 120 so that the load switching unit 120 selectively opens and closes the load current to switch to the trip state. The rotation bracket 134 is disposed at a position where it can contact the operation contact 138 provided at the end of the support 135 when the rotation bracket 134 rotates and is contacted with the operation contact 138 at one side to receive a current .

The operation and effect of the link structure connecting the power fuse portion and the load opening / closing portion of the gas insulated switchgear according to the present invention constructed as above will be described as follows.

When an overcurrent is drawn into the gas insulated switchgear 100, any one of the three fuses 111 provided in the main body 100a is disconnected. At this time, the striker 113 coupled to the disconnected fuse 111 is protruded, so that the trip lever 132 of the link structure 130, which is in contact with the striker 113, is rotated.

The pressing portion 132a formed on the trip lever 132 presses the first contact portion 136a, the second contact portion 136b or the connection portion 136 of the rotation bracket 134 to rotate. The operating contact 138 provided at the end of the support portion 135 of the rotation bracket 134 is brought into contact with the switch 137 to switch the ON state to the OFF state to interrupt the current flow through the load switching unit 120 .

Since the three fuses 111 are provided with the respective strikers 113 and the trip levers 132, when any one of the three fuses 111 is broken, the rotation bracket 134 is rotated by the trip lever 132 to operate the load opening / closing unit 120 through the switch 137.

Therefore, the link structure 130 connecting the power fuse portion and the load opening / closing portion of the gas insulated switchgear according to the present invention can prevent the fuse 111 from being damaged when any one of the strikers 113 of the three fuses 111 protrudes. The trip lever 132 located in the support portion 135 rotates to press the rotation bracket 134 so that the operation contact 138 provided on the support portion 135 contacts the switch 137 to turn on the load opening / Off state so that the current can be cut off.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

 BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing a connecting portion connecting a power fuse portion and a load opening / closing portion in a conventional gas insulated switchgear.

2 is a perspective view schematically showing a mechanical operating portion of a conventional power fuse combined type gas insulated load switch;

3 is a perspective view schematically showing a gas insulated switchgear using a link structure of a gas insulated switchgear according to the present invention;

4 is a perspective view illustrating a link structure of a gas insulated switchgear according to the present invention;

Figs. 5A and 5B are schematic diagrams schematically showing an activated state. Fig.

Description of the Related Art [0002]

100: gas insulated switchgear 100a: main body

110: Power fuse part 111: Fuse

112: Fuse holder 113: Striker

114: fixing bracket 114a: first fixing bracket

114b: second fixing bracket 114c: third fixing bracket

120: load opening / closing part 130:

132: Trip lever 132a:

134: rotation bracket 135: support

136: connection part 136a: first contact part

136b: second contact portion 137: switch

138: Operation contact

Claims (3)

Three fuse holders 112 fixed to the inside of the main body 100a by means of a fixing bracket 114 and provided with a fuse 111 therein and a plurality of fuse holders 112 fixed to one end of the fuse holder 112, A load opening and closing part 120 capable of shutting off a current and a mechanical operation when the striker 113 of the power fuse part 110 protrudes from the electrical fuse part 110. The power fuse part 110 includes a striker 113, And a link section (130) for transmitting the signal to the load opening / closing section (120) The link part (130) Both ends are rotatably coupled to a fixing bracket 114 which is rotatably coupled to the three fuse holders 112 and rotates when the striker 113 is protruded and supports the fuse holder 112, Three trip levers 132 protruding from one side of the central portion and having a pressing portion 132a;  A pair of support portions 135 which are coupled with the three trip levers 132 to be rotated in accordance with the rotation of the trip lever 132 and which are formed to face each other, A rotation bracket 134 integrally formed with a connection portion 136 connecting the support portion 135, And a switch (137) capable of selectively transmitting an electrical signal to the load opening / closing part (120) in contact with any one of the pair of supporting parts (135) and connecting the power fuse part of the gas insulated switchgear Link structure. 2. The gas insulated switchgear according to claim 1, wherein an operating contact (138) is provided on any one of the pair of supports (135) so that it can be electrically connected when the switch (137) Link structure connecting fuse section and load opening / closing section. The trip lever (132) according to claim 1, wherein the connecting portion (136) has contact portions (136a, 136b) protruding from both ends thereof to be in contact with the pressing portion (132a) of the trip lever (132) (136). The link structure connects the power fuse portion of the gas insulated switchgear with the load opening / closing portion.

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