KR200468219Y1 - Bushing - Google Patents

Abstract

Bushings for power distribution are disclosed. Bushing for power distribution according to an embodiment of the present invention, the bushing body to form an appearance; Shaft-shaped mandrel disposed to pass through the inside of the bushing body; And a discharge preventing pack disposed in a gap between the bushing body and the mandrel to prevent generation of a partial discharge.

Description

Bushings for Power Distribution {BUSHING}

The present invention relates to a bushing for distribution, and more particularly, to a distribution bushing that can prevent the occurrence of oil leakage through the gap between the bushing body and the mandrel, including partial discharge phenomenon.

In general, when a generator or a transformer sends or receives a current to various places, a switchgear is a device in which various devices or instruments for protecting a generator or a transformer are protected by checking and controlling voltage and power.

The switchgear is equipped with a switchgear and the like, and a bushing for distribution is used to connect device components such as a switchgear.

A conventional power distribution bushing has a structure in which a shaft-shaped mandrel is disposed and sealed in a bushing body forming an appearance.

However, in the case of the power distribution bushing according to the related art having a general structure as described above, there is a problem in that a partial discharge is not generated due to poor insulation between the gap between the bushing body and the mandrel.

This partial discharge causes a big problem because the insulation function, which is a function of the bushing, is not properly performed.

Therefore, as an alternative to solve this problem, a method of filling grease such as oil between the gap between the bushing body and the mandrel has been sought. However, in this case, it is difficult to prevent the grease from leaking from the gap between the bushing body and the mandrel. Therefore, it is urgent to supplement the structure in view of these points.

Korean Patent Office Application No. 10-2007-0018900

It is an object of the present invention to provide a bushing for distribution that can prevent the occurrence of oil leakage through the gap between the bushing body and the mandrel, including partial discharge phenomenon.

The object is a bushing body forming an appearance; Shaft-shaped mandrel disposed to pass through the inside of the bushing body; And a discharge prevention pack disposed in a gap between the bushing body and the mandrel to prevent generation of a partial discharge.

The anti-discharge pack may have an oil bag shape.

The anti-discharge pack is a pack pocket; And insulating oil filled in one side of the pack bag.

The pack pocket, the outer shell; And an inner shell in which the inner rod is disposed inside the outer shell with an insulating oil filling space in which the insulating oil is filled, and the mandrel is passed through an inner space.

The outer shell and the inner shell may be ultrasonically fused and sealed while the insulating oil is filled with the insulating oil filling space.

The insulating oil may be filled in a range of 88% to 92% of the total space of the insulating oil filling space.

The insulating oil may include silicone insulating oil or silicone grease.

The two anti-discharge packs may be disposed at an upper portion and a lower one in the gap between the bushing body and the mandrel, and grease may be filled between the two anti-discharge packs.

A plurality of embossing protrusions may be further formed on the outer wall of the discharge preventing pack.

A plurality of embossing protrusions may be further formed on the inner wall of the bushing body.

According to the present invention, there is an effect that can prevent the occurrence of oil leakage through the gap between the bushing body and the mandrel, including the partial discharge (partial discharge) phenomenon.

1 is a structural diagram of a bushing for power distribution according to a first embodiment of the present invention.
2 is a schematic partial longitudinal cross-sectional view of FIG. 1.
3 is an exploded view of Fig.
4 is a schematic perspective view of a pack for preventing discharge.
5 is a partial longitudinal cross-sectional view of a bushing for power distribution according to a second embodiment of the present invention.
6 is an exploded view of a bushing for power distribution according to a third embodiment of the present invention.
7 is an exploded view of a bushing for power distribution according to a fourth embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a structural diagram of a bushing for power distribution according to a first embodiment of the present invention, FIG. 2 is a schematic partial longitudinal sectional view of FIG. 1, FIG. 3 is an exploded view of FIG. 1, and FIG. 4 is a schematic perspective view of a pack for preventing discharge. to be.

Referring to these drawings, the power distribution bushing 100 of the present embodiment is an electrical equipment used to connect device components such as a switchgear of a switchboard.

In particular, the power distribution bushing 100 of the present embodiment is to prevent the occurrence of the partial discharge (partial discharge) and leakage phenomenon, unlike the prior art, the bushing body 110, the mandrel 120, and for preventing the discharge Pack 130.

The bushing body 110 forms the appearance of the power distribution bushing 100 of the present embodiment. Unlike the prior art, the bushing body 110 in the bushing 100 of the power distribution of the present embodiment may be molded of a polymer synthetic rubber, that is, a polymer. Thus, it is resistant to impact and can double the insulation effect.

The bushing body 110 has a plurality of extension blades 111 extending radially outward.

Due to the plurality of extension blades 111, the surface distance is increased, thereby further increasing the insulation effect. The plurality of extension blades 111 may provide an excellent effect in dropping the rainwater is arranged so that the end is directed downward like an umbrella.

The mandrel 120 is a shaft-shaped member disposed to pass through the inside of the bushing body 110.

In this embodiment, but not necessarily the core rod 120 may be applied as a fiber glass reinforced plastic rod (FRP rod).

If the core rod 120 is made of such a material, there is an advantage that the durability is excellent. Of course, this material feature is only one example, so the scope of the present invention need not be limited thereto.

In order to couple the mandrel 120 to the bushing body 110, a cover flange 121 is coupled to an upper portion of the mandrel 120, and a washer W and a nut N are fastened to the lower threaded portion 122. .

Therefore, after the mandrel 120 is disposed on the bushing body 110 through the anti-discharge pack 130, the mandrel 120 may be firmly fixed at the corresponding position by the cover flange 121, the washer W, and the nut N. .

The bracket 123 is provided on the cover flange 121. The bracket 123 may form a place to be connected to a neighboring device or a power line.

Meanwhile, in the related art, since nothing is filled between the bushing body 110 and the mandrel 120 or only grease capable of leaking oil is filled, the bushing body including the partial discharge phenomenon (partial discharge phenomenon) ( The leakage of oil through the gap between 110 and the mandrel 120 could not be prevented from occurring.

However, in this embodiment, all of these problems are solved as a simple and efficient structure called the anti-discharge pack 130.

Discharge prevention pack 130 applied to the present embodiment is disposed in the gap between the bushing body 110 and the mandrel 120 serves to prevent the discharge (partial discharge) is generated.

As the discharge prevention pack 130 is applied, a phenomenon in which discharge is caused between the bushing body 110 and the mandrel 120 may be prevented, and partial discharge may also be effectively solved.

According to an embodiment, a conductive material for grounding may be further disposed in contact with the outer surface of the discharge preventing pack 130. The conductor material may be silver foil, copper, or the like.

In the present embodiment, the discharge preventing pack 130 is manufactured in an oil bag shape. That is, the anti-discharge pack 130 in the present embodiment includes a pack bag 140 and an insulating oil 150 filled in one side of the pack bag 140.

The pack pouch 140 may be made of a material that is resistant to heat and can be insulated. Pack pouch 140 may be a simple plastic pack, but in the present embodiment, is manufactured in the following structure.

The pack bag 140 is disposed inside the outer shell 141 with the outer shell 141 and the insulating oil filling space S1 filled with the insulating oil 150 therebetween, and the mandrel 120 is disposed as the inner space S2. Endothelial 142 that is passed through.

The outer shell 141 and the inner shell 142 may be ultrasonically fused and sealed while the insulating oil is filled in the insulating oil filling space S1.

Therefore, the insulating oil filled in the outer shell 141 and the inner shell 142 may not leak. Instead of ultrasonic welding, a method such as high frequency welding may be applied.

The outer shell 141 and the inner shell 142 may be a vinyl paper such as general PVC, but may be made of a somewhat flexible plastic material having a certain rigidity.

While the latter case may provide a more beneficial effect on maintaining the shape, the scope of the present invention need not be limited thereto.

The outer shell 141 and the inner shell 142 may be made of the same material. However, the outer shell 141 may be made of a relatively strong plastic material, and the inner shell 142 may be made of a somewhat weak but flexible plastic material.

Insulating oil filling space (S1) between the outer shell 141 and the inner shell 142 is advantageously secured as wide as possible.

When the insulating oil filling space S1 between the outer shell 141 and the inner shell 142 is secured wide, the insulating oil 150 may be charged more inside thereof, thereby providing a more advantageous effect in preventing partial discharge. .

Meanwhile, in filling the insulating oil 150 in the insulating oil filling space S1 between the outer shell 141 and the inner shell 142, the insulating oil 150 is 88% to 92% of the total space of the insulating oil filling space S1. Can be charged to a range. This is to compensate for the expansion and contraction of the insulating oil 150 according to weather conditions such as hot summer and cold winter.

The insulating oil 150 used may be silicon insulating oil or silicone grease, but similar oils or greases may be applied.

As described above, when the discharge prevention pack 130 is placed in the gap between the bushing body 110 and the mandrel 120, it is possible to effectively prevent the occurrence of partial discharge in this region as before. .

In addition, since the insulating oil 150 is filled in the pack bag 140, leakage oil may be effectively prevented from occurring.

As such, according to the present exemplary embodiment, leakage of the oil through the gap between the bushing body 110 and the core rod 120 may be prevented, including a partial discharge phenomenon.

5 is a partial longitudinal cross-sectional view of a bushing for power distribution according to a second embodiment of the present invention.

Referring to this figure, the power distribution bushing 200 of this embodiment of the present embodiment also includes a bushing body 210, a mandrel 220, and a discharge preventing pack 230a, 230b, and due to this structure, partial discharge Phenomenon and leakage are prevented from occurring.

Meanwhile, in this structure, two discharge preventing packs 230a and 230b are disposed, one at an upper portion and one at a lower portion, in a gap between the bushing body 210 and the core rod 220.

In this case, an empty space is formed between the two discharge preventing packs 230a and 230b, and the grease 240 is filled in the empty space.

In such a structure, even though the liquid grease 240 is filled, the two anti-discharge packs 230a and 230b are prevented from leaking on both sides, thereby preventing partial discharge and leakage. There is nothing wrong with it.

6 is an exploded view of a bushing for power distribution according to a third embodiment of the present invention.

Referring to this figure, the power distribution bushing 300 of this embodiment of the present embodiment also includes a bushing body 310, a core rod 320, and a discharge preventing pack 330. It prevents the occurrence of leakage phenomenon.

However, in such a structure, a plurality of embossing protrusions 331 are further formed on the outer wall of the anti-discharge pack 330.

The embossing protrusions 331 may play a role of preventing the discharge preventing pack 330 from flowing down by being pressed against the inner wall of the bushing body 310, even if such a structure is applied to provide the effect of the present invention. There is no crowd.

7 is an exploded view of a bushing for power distribution according to a fourth embodiment of the present invention.

Referring to this figure, the power distribution bushing 400 of this embodiment also includes a bushing body 410, a mandrel 420, and a discharge preventing pack 430. It prevents the occurrence of leakage phenomenon.

However, in such a structure, a plurality of embossing protrusions 411 are further formed on the inner wall of the bushing body 410.

The embossing protrusions 411 may serve to prevent the discharge preventing pack 430 from flowing down by being pressed against the outer wall of the discharge preventing pack 430, which provides the effect of the present invention even when such a structure is applied. There is no crowd in there.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined in the appended claims. Therefore, such modifications or variations will have to belong to the claims of the present invention.

100 ~ 400: Power distribution bushing 110: Bushing body
111: extension blade 120: mandrel
121: cover flange 122: threaded portion
123: bracket 130: discharge prevention pack
140: pack pocket 141: outer jacket
142: inner shell 150: insulating oil

Claims (10)

A bushing body forming an appearance;
Shaft-shaped mandrel disposed to pass through the inside of the bushing body; And
A discharge preventing pack disposed in a gap between the bushing body and the mandrel to prevent generation of partial discharge;
The anti-discharge pack is a bushing for distribution, characterized in that it has an oil bag shape.
delete The method of claim 1,
The discharge prevention pack,
Pack pouch; And
Bushing for power distribution, characterized in that it comprises an insulating oil filled in one side in the pack pocket.
The method of claim 3,
The pack pocket,
coat; And
A bushing for distribution, characterized in that it is disposed inside the shell with an insulating oil filling space filled with the insulating oil therein, and the inner shell through which the mandrel passes through the inner space.
5. The method of claim 4,
And the outer shell and the inner shell are ultrasonically welded and sealed while the insulating oil is filled with the insulating oil filling space.
5. The method of claim 4,
The insulating oil is a bushing for power distribution, characterized in that the filling of the 88% to 92% of the total space of the insulating oil filling space.
The method according to claim 6,
And the insulating oil comprises silicon insulating oil or silicon grease.
The method according to claim 6,
The discharge preventing pack is disposed two at the top and one in the gap between the bushing body and the mandrel, one each,
And a grease is filled between the two anti-discharge packs.
The method of claim 1,
Bushing for power distribution, characterized in that a plurality of embossing projections are further formed on the outer wall of the pack for preventing discharge.
The method of claim 1,
And a plurality of embossing protrusions are further formed on an inner wall of the bushing body.

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