KR200465381Y1 - Ring main unit - Google Patents

Abstract

One embodiment of the ring main unit of the present invention includes a load switch, a fuse, and the like provided inside the pressure vessel, and a bus bar constituting a circuit by connecting the load switch and the fuse; A bushing provided in the pressure vessel and connected to the bus bar; A pressure plate provided in the pressure vessel and open to communicate with the outside when the inside of the pressure vessel is above a predetermined pressure; And an arc induction bushing bar having one end connected to the bushing and the other end extending toward the pressure plate.

Description

Ring Main Unit {RING MAIN UNIT}

The present invention relates to a ring main unit which is an industrial electric device, and when a short circuit accident occurs in the circuit breaker of the ring main unit, the arc can be induced in the direction of the pressure plate to prevent the expansion of the tank and the delay of the operation of the pressure plate due to a sudden pressure increase. The present invention relates to a ring main unit having a structure.

The ring main unit is the load switch of the high pressure facility. The load switch is an electric device for the purpose of line branching, line segmentation and load protection on a distribution line. An example of such a load switch may be a high pressure gas load switch, and opens and closes the load based on the excellent insulation performance of SF6 gas.

The load switch may be provided in a form in which a circuit breaker and a fuse are coupled to the load switch according to a combination thereof. The load breaker has the function to turn on / off the load current, and the breaker serves to cut off the short circuit current flowing in the event of an accident. In addition, the fuse is disconnected when a predetermined current flows, such as a short circuit current, to protect the secondary device.

In the high-pressure gas load switch, which is an example of the ring main unit, a circuit breaker, an opening / closing mechanism, a ground and an assembly of conductors are installed in a structure that is insulated by SF6 gas.

1 schematically shows the interior of a conventional ring main unit. Referring to FIG. 1, the inside of the tank 5 of the ring main unit 40 is filled with SF6 gas, and three load switches 11, 12, and 13 are provided. The rear of the load breaker is provided with an opening and closing mechanism 30 for operating the load breaker, the lower portion is provided with a fuse 20 for disconnecting when a short circuit current flows in the event of an accident. In addition, busbars 50 are provided to electrically connect the devices, and a bushing 60, which is a socket for connecting electric power to the busbars through the tank of the ring main unit, is connected to the busbars. The pressure plate 70 for preventing excessive pressure rise is provided at the front lower side of the bushing to prevent damage due to the pressure rise of the tank.

Among the three load switchgear, if the left side is the first load breaker 11, the middle is the second load breaker 12, and the right side is the third load breaker 13, the first and third load breakers 11 and 13 are included. To form a main circuit, and a feeder circuit including a second load switch. In this case, components are connected to each circuit by the busbars 50.

In FIG. 1, when a short circuit accident occurs in the main circuit portion including the first and third load breakers 11 and 13, an accident current flows in the direction in which the current flows before the short circuit accident (first and third load breakers). At the end, high arc voltages and pressures are generated in the bushing 60 part, which is the most difficult part to melt. Thereby the bushing 60 part may explode. In order to prevent this, when the pressure exceeds a predetermined pressure, the pressure plate 70 is operated to prevent the accident by causing the pressure plate to explode to the lower portion first.

2 exemplarily shows a structure in which the bushing and the busbar are connected. Referring to FIG. 2, the fault current is concentrated in the bushing 60, thereby rapidly increasing the temperature and the pressure due to the high arc voltage. Therefore, the pressure rises during the time when the pressure generated in the bushing 60 reaches the pressure plate and during the operation of the pressure plate, so that the vicinity of the bushing may explode while the pressure plate is delayed or not operated. In order to prevent this, if the operating pressure of the pressure plate is set too low, there is a possibility that the pressure plate operates even when the accident is not occurred. In addition, as the bushing portion high pressure and high temperature are concentrated, there is a problem that the side portion of the tank may be melted by arc heat.

The present invention is to solve the above problems, to prevent the accident current is concentrated in the bushing in the event of a short circuit in the ring main unit, to guide the arc near the pressure plate, the sudden pressure rise by the arc pressure plate It is an object of the present invention to provide a ring main unit having a structure capable of preventing an explosion accident by generating in a portion.

The present invention has the following technical configuration to achieve the above object.

One embodiment of the ring main unit of the present invention includes a load switch, a fuse, and the like provided inside the pressure vessel, and a bus bar constituting a circuit by connecting the load switch and the fuse; A bushing provided in the pressure vessel and connected to the bus bar; A pressure plate provided in the pressure vessel and open to communicate with the outside when the inside of the pressure vessel is above a predetermined pressure; And an arc induction bushing bar having one end connected to the bushing and the other end extending toward the pressure plate.

One end of the arc induction bushing bar is connected to an end of the busbar connected to the bushing and integrally connected to the bushing.

The arc induction bus bar induces an arc generated by an accident current near the pressure plate.

The bushing may be provided in plural in the pressure vessel, and the arc induction bushing bar may be provided corresponding to each of the plurality of bushings.

The present invention prevents an accident current from concentrating on the bushing when a short circuit occurs inside the ring main unit, and induces an arc near the pressure plate so that a sudden pressure increase by the arc occurs at the pressure plate. It can prevent the explosion accident, has the effect of improving the safety.

In addition, the pressure plate is operated more quickly and accurately to the pressure rise due to the arc, thereby improving the reliability of the ring main unit.

1 is a schematic view showing the inside of a general ring main unit.
Figure 2 is a schematic diagram showing that the bushing and the busbar of Figure 1 is connected.
Figure 3 is a schematic view showing the inside of the ring main unit of the present invention.
4 is a schematic view showing that the bushing and the busbar of FIG. 3 are connected.

Hereinafter, with reference to the accompanying drawings will be described in detail for carrying out the present invention through an embodiment of the present invention. However, in the description of the parts known in the general configuration and the parts mentioned in the prior art, detailed descriptions are omitted.

Figure 3 shows the inside of the ring main unit of the present invention. Referring to FIG. 3, one embodiment of the ring main unit of the present invention includes a load switch 110, 120, 130, and a fuse 150 provided in the pressure vessel (or tank 100) 140. In addition, the embodiment, the bus bar 160 to form a circuit by connecting the load switch, fuse, etc., the bushing 170 is provided in the pressure vessel and the bus bar is connected, the pressure vessel is provided in the pressure vessel When the inside is more than a predetermined pressure includes a pressure plate 190 is opened so as to communicate with the outside, one end is connected to the bushing and the other end arc induction bus bar 180 extending to the pressure plate side.

The pressure vessel 100 of the ring main unit is a structure that is hermetically insulated, and the interior 140 is filled with SF6 gas. Inside the pressure vessel 140, three load switchgear (110, 120, 130) is provided. The rear of the load switch is provided with an opening and closing mechanism for operating the load switch. The lower portion of the load breaker is provided with a fuse 20 for disconnecting when a short circuit current flows in the event of an accident.

Among the three load switchgear, if the left side is the first load breaker 110, the middle is the second switchgear 120, and the right side is the third load breaker 130, the first and third load breaker (110, 130) including the main The circuit is configured, and the feeder circuit is configured by including the second load switch 120. In this case, components are connected to each circuit by busbars 160.

The busbars 160 electrically connect the devices and are connected to a bushing 170 which is a socket for connecting electric power to the busbars through the pressure vessel of the ring main unit. The front and lower sides of the bushing 170 is provided with a pressure plate 190 for preventing excessive pressure rise to prevent damage due to the pressure rise of the pressure vessel.

Pressure plate 190 is provided on any one side of the pressure vessel is opened to communicate with the outside when the inside of the pressure vessel is a predetermined pressure or more. An example of such a pressure plate may be configured to explode above a certain pressure. Since the pressure plate is a generally known configuration, a more detailed description thereof will be omitted.

4 schematically shows an arc induction busbar. Referring to FIG. 4, the arc induction bus bar 180 has one end connected to the bushing 170 and the other end extended to the pressure plate 190.

Here, as shown in FIG. 4, one end of the arc induction bus bar 180 may be connected to an end of the bus bar 160 connected to the bushing to be integrally connected to the bushing 170. By this structure, the arc induction bus bar 180 induces an arc generated by an accident current to the vicinity of the pressure plate 190.

 That is, the arc is generated at the point where the arc extends along the arc induction bus bar by the arc induction bus bar extending toward the pressure plate as shown in FIG. 4. Accordingly, the pressure generation point due to the arc is moved toward the pressure plate 190 by a distance extended by the arc induction bus bar.

The side of the configuration prevents an accident current from concentrating on the bushing when a short circuit occurs inside the ring main unit, and induces an arc near the pressure plate so that a sudden pressure rise due to the arc occurs at the pressure plate to prevent an explosion accident. This can improve safety.

In addition, as the pressure rise point is formed closer to the pressure plate, the pressure plate can respond to the pressure rise more quickly and accurately. Accordingly, the pressure plate can be operated more accurately to improve the reliability of the ring main unit.

Meanwhile, referring to FIG. 3, the bushing 170 is provided in plural in the pressure vessel. Therefore, the arc induction bus bar 180 may be provided corresponding to each of the plurality of bushings.

However, as described above, the arc induction bus bar 180 may be connected only to a bushing connected to a bus bar corresponding to a main circuit having a high risk of explosion due to an accident current flowing when an accident current occurs.

Although the preferred embodiments of the present invention have been described above with reference to the accompanying drawings, the scope of the present invention is not to be construed as limited to such embodiments and / or drawings, but rather the matters described in the utility model registration claims to be described below. Is determined by. And it should be clearly understood that improvements, changes, modifications, etc. which are obvious to those skilled in the art described in the utility model registration claims are included in the scope of the present invention.

100: pressure vessel 110,120,130: load breaker
140: inside the pressure vessel 150: fuse
160: busbar 170: bushing
180: arc induction busbar 190: pressure plate

Claims (2)

In the ring main unit including a load breaker, a fuse, etc. provided in the pressure vessel,
A bus bar configured to connect the load switch and the fuse to form a circuit;
A bushing provided in the pressure vessel and connected to the bus bar;
A pressure plate provided in the pressure vessel and open to communicate with the outside when the inside of the pressure vessel is above a predetermined pressure;
Includes; one end is connected to the bushing and the other end of the arc induction bus bar extending to the pressure-pressure plate side;
Ring main unit.
The method of claim 1,
One end of the arc induction bus bar is connected to the end of the bus bar connected to the bushing, characterized in that connected to the bushing integrally,
Ring main unit.

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