KR200409092Y1 - Elbow Socket for Current Transformer - Google Patents

Abstract

The present invention relates to an elbow socket for a transformer. In the conventional elbow socket for transformers, since the cable connection terminals are disposed up and down, the upper and lower cables are bent by their own weight, causing the upper and lower cables to interfere with each other, which makes the cable detachable and cumbersome. There is a problem in that it causes the deformation of the socket to concentrate on the resulting breakdown. The present invention has a horizontal oval cross section and the upper, lower casing and the front open; An inner insulator inserted and installed in the upper and lower casings so that left and right cable insertion holes are formed in a front surface thereof; An insulation bushing integrally formed with the inner insulator and extending from the lower end of the lower casing; A pair of left and right cable connecting terminals which are embedded left and right inside the inner insulator and opened forward through the cable insertion hole; By including a transformer-side connection terminal embedded in the inner insulator and the inside of the insulating bushing connected to the cable connection terminal exposed from the lower end, it is possible to reliably exclude the insulation breakdown by the contact of the cable, to eliminate the interference between cables Desorption of the cable is simple and easy, and the cable load is distributed to eliminate the deformation of the socket and the resulting breakdown.

Description

Elbow Socket for Transformer

1 to 5 show the elbow socket for a transformer according to the present invention,

1 is a perspective view,

2 is a front view,

3 is a cross-sectional view taken along the line A-A of FIG.

4 is a cross-sectional view taken along the line B-B of FIG.

5 is a front view of the use state,

6 is a front view of an elbow socket for a conventional transformer;

Figure 7 is a side view of the use state of the elbow socket for a conventional transformer.

** Description of symbols for the main parts of the drawing **

10 casing 20 internal insulator

21,22: Cable insertion hole 30: Insulation bushing

41,42: Cable terminal 50: Transformer side terminal

71,72: cable

The present invention relates to an elbow socket for a transformer, and more particularly to an elbow socket for a transformer to increase the safety of the transformer substation, reduce the transformer and installation space, and facilitate the inspection and measurement.

In general, a gas insulated switchgear (GIS) is connected to a secondary side of an MV transformer such as 154 kV of a substation to increase system safety.

When connecting the secondary side of the transformer to the gas insulated switchgear, the air exposure bus-bar joint is used and the insulation tube is insulated using a contraction tube. There is a very high risk of contact accidents.

Therefore, in the related art, plug-in socket joints have been developed to solve problems in bus-bar joints.

This conventional plug-in socket joint can solve the problem of the bus-bar joint, but there is another problem.

That is, the conventional plug-in socket joint is a plug-in socket 100 coupled to the secondary terminal 310 of the transformer 300 in a plug-in manner, as shown in Figure 6 and 7, It consists of cables 210 and 220 connected to the socket 100.

The socket 100 is a vertical oval, the upper surface of the aluminum alloy, the lower casing (111, 112), the upper, the inner casing (120) made of epoxy resin inserted into the lower casing (111, 112), and An insulating bushing 130 made of epoxy resin connected to the lower end of the lower casing 112, a pair of cable connecting terminals 141 and 142 disposed up and down inside the inner insulator 120, and the inner insulator ( 120 and a transformer-side connection terminal 150 embedded in the state connected to the cable connection terminals (141, 142) and exposed from the bottom of the insulating bushing 130 is configured.

The cables 210 and 220 are shielded cables composed of a conductive wire and an insulation coating, and the front ends are provided with the plug portions 211 and 221 inserted into the cable connection terminals 141 and 142.

In the conventional plug-in socket joint configured as described above, the insulation bushing 130 and the transformer side connecting terminal 150 are inserted into the secondary terminal 310 of the transformer 300 and connected to the cable connecting terminals 141 and 142. The plug portions 211 and 221 of the 210 and 220 are inserted and used.

However, in the conventional plug-in socket joint, when the cable 200 is inserted into the cable connecting terminals 141 and 142 disposed up and down, the cables 210 and 220 are bent by the weight of the cables 210 and 220, so that the upper cable 210 is connected. When the lower cable 220 is brought into contact with the lower cable 220 to be inserted into the lower cable connector 142, and the lower cable 220 is inserted into the lower cable connector 142 again in this state. Since the upper cable 210 causes interference, it is inevitable that the upper cable 210 inserted into the upper cable connection terminal 141 must be separated first, which causes troublesome work.

In addition, the two cables 210 and 220 inserted into the upper and lower cable connection terminals 141 and 142 are positioned on the same vertical surface, and the load is concentrated on one part of the socket 100 so that the socket 100 ) And there is a problem that causes the risk of insulation breakdown.

Therefore, an object of the present invention is to provide an elbow socket for a transformer that can reliably prevent breakdown of the insulation by the contact of the cable.

Another object of the present invention is to provide an elbow socket for a transformer that can easily detach the cable.

Still another object of the present invention is to provide an elbow socket for a transformer in which the risk of deformation due to concentration of the cable load and the resulting breakdown are eliminated.

The present invention has an upper, lower casing having a horizontal elliptical cross section and an open front to achieve the above object; An inner insulator inserted and installed in the upper and lower casings so that left and right cable insertion holes are formed in a front surface thereof; An insulation bushing integrally formed with the inner insulator and extending from the lower end of the lower casing; A pair of left and right cable connecting terminals which are embedded left and right inside the inner insulator and opened forward through the cable insertion hole; It provides an elbow socket for a transformer comprising a transformer-side connection terminal embedded in the inner insulator and the insulation bushing connected to the cable connection terminal exposed from the bottom.

Hereinafter, the elbow socket for a transformer according to the present invention will be described in detail according to the embodiment shown in the accompanying drawings.

1 to 5 show the elbow socket for a transformer according to the present invention, Figure 1 is a perspective view, Figure 2 is a front view, Figure 3 is a sectional view taken along line AA of Figure 2, Figure 4 is a sectional view taken along the line BB of Figure 3, 5 is a front view of a use state.

As shown in FIGS. 1 to 5, the elbow socket for a transformer according to the present invention has a horizontal elliptical cross section and has a casing 10 having an open front and a lower end, and an internal insulator inserted into the casing 10. 20, an insulating bushing 30 formed integrally with the inner insulator 20 and extending and protruding from the lower end of the casing 10, and embedded left and right inside the inner insulator 20 to the front. A pair of cable connection terminals 41 and 42 which are opened, and a transformer side connection terminal 50 which is embedded in the insulating bushing 30 and connected to the cable connection terminals 41 and 42 and exposed from the bottom thereof. It is configured to include.

The casing 10 is formed of upper and lower casings 11 and 12 of aluminum alloy, and the inner insulator 20 and the insulating bushing 30 are formed of epoxy resin.

The upper and lower casings 11 and 12 are coupled by bolts 15 passing through the flanges 13 and 14 formed at the joints thereof and nuts 16 fastened thereto.

The lower end of the lower casing 12 is formed with a stopper 17 for regulating the insertion depth of the insulating bushing 30 and the transformer-side connecting terminal 50 to the secondary terminal 81 of the transformer 80.

In the center of the upper surface of the upper casing 11, a transport ring 18 for transporting the elbow socket for a transformer according to the present invention by a winch or a crane is installed.

A pair of left and right cable insertion holes 21 and 22 into which the plug portions 73 and 74 of the cables 71 and 72 are inserted is formed on the front surface of the inner insulator 20. The terminals 41 and 42 are arranged concentrically inside the cable insertion holes 21 and 22.

In the vicinity of the outer circumference of the insulating bushing 30, a shield ring 31 surrounding the transformer side connecting terminal 50 is embedded.

The cable connection terminals 41 and 42 are configured as cylindrical terminals to which the plug portions 73 and 74 of the cables 71 and 72 are inserted and electrically connected.

The transformer-side connection terminal 50 is formed of a copper material, and is formed in a round bar shape so as to be inserted into the secondary terminal 81 of the transformer 80 and electrically connected thereto.

3 and 4, connecting portions 43, 44 and 51 are formed at the rear end of the cable connecting terminals 41 and 42 and the upper end of the transformer-side connecting terminal 50, respectively, so that these connecting portions 43 44, 51 is connected to the connecting piece 52.

The connecting portions 43 and 44 and the connecting piece 52 of the cable connecting terminals 41 and 42 are formed at the connecting portions 43 and 44 by bolts 53 passing through the screw through holes 52a formed in the connecting piece 52. It is connected by fastening to the screw fastening holes (43a, 44a), and the connecting portion 51 and the connecting piece 52 of the transformer-side connecting terminal 50, respectively, the screw through hole formed in the connecting portion 51 and the connecting piece 52 ( The nut 55 is connected to the bolt 54 penetrating 51a and 52b.

In manufacturing the elbow socket for a transformer according to the present invention, the step of connecting the cable connection terminal (41, 42) and the transformer side connection terminal (50); Mounting upper and lower casings 11 and 12 on upper and lower injection molds (not shown); Inserting cable connection terminals 41 and 42 into the lower casing 12 mounted on the lower injection molding mold and inserting the transformer side connecting terminal 50 into the lower injection molding mold; Epoxy resin is injected into the upper and lower casings 11 and 12 and the upper and lower injection molds, and the cable connecting terminals 41 and 42 are embedded in the upper and lower casings 11 and 12, respectively. The insulator 20 is formed and the upper and lower injection molds are formed to be integrally connected to the inner insulator 20 and to form an insulating bushing 30 in which an upper end of the transformer side connecting terminal 50 is embedded. step; It is manufactured through the step of taking out the injection mold for the transformer elbow socket according to the present invention.

Hereinafter, the operation of the elbow socket for a transformer according to the present invention.

The elbow socket for a transformer of the present invention has a cable insertion hole formed in the upper front side in a state in which a transformer side connection terminal 50 and an insulation bushing 30 provided at a lower end thereof are inserted into a secondary terminal 81 of a transformer 80. Inserting the plug portion (73, 74) of the cable (71, 72) to the cable connection terminal (41, 42) through the (21, 22) to connect the transformer 80 and the gas insulated load switch (not shown) will be.

At this time, the cables 71 and 72 connected to the cable connecting terminals 41 and 42 are sag due to their own weight. Since the cables 71 and 72 are arranged left and right, the cables 71 and 72 contact each other. This eliminates the risk of insulation breakdown.

In addition, since the cables 71 and 72 are disposed left and right, the cables 71 and 72 do not interfere with each other, so that any cable 71 and 72 can be easily and easily removed.

In addition, since the load of the cables (71, 72) acts to the left and right with respect to the center of the socket, the load of the two cables (71, 72) is distributed to the left and right rather than concentrated in any one portion, the socket is deformed This eliminates the risk of dielectric breakdown and the like caused by deformation.

As described above, according to the elbow socket for a transformer of the present invention, even when two cables are connected, the two cables do not come into contact with each other, thereby removing the risk of breakdown.

In addition, according to the elbow socket for a transformer of the present invention, any one of the two cables can be easily and easily removed without interference with each other.

In addition, according to the transformer elbow socket of the present invention, the weight of two cables is distributed to the left and right of the socket instead of the concentrated load on one vertical surface, so that the deformation of the socket is prevented. There is an effect that risk is excluded.

Claims (1)

An upper and lower casing having a horizontal elliptical cross section and having an open front surface; An inner insulator inserted and installed in the upper and lower casings so that left and right cable insertion holes are formed in a front surface thereof; An insulation bushing integrally formed with the inner insulator and extending from the lower end of the lower casing; A pair of left and right cable connecting terminals which are embedded left and right inside the inner insulator and opened forward through the cable insertion hole; An elbow socket for a transformer comprising a transformer-side connection terminal embedded in the inner insulator and the insulation bushing connected to the cable connection terminal and exposed from the bottom.

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