KR20180002931U - Outer case structure of current transformer in gas insulated switchgear - Google Patents

Abstract

The present invention relates to a current transformer (CT) enclosure structure of a gas insulated switchgear improved in assembling structure, in which a flange directly welded to a tank body of a current transformer is removed, and a quadrature enclosure, which is difficult to weld, is changed to a rectilinear enclosure And a boss is formed on the inner side of the tank body to fasten the mounting plate of the current transformer CT, so that a simpler assembly structure can be realized and the cost can be reduced.

Description

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a gas insulated switchgear (SGT)

The present invention relates to a current transformer (CT) enclosure structure of a gas insulated switchgear improved in assembling structure.

Generally, a gas insulated switchgear (GIS) is installed between a power source side and a load side of an electric system, and when a circuit is opened or closed in a normal current state, or when an accidental current Is an electric device that protects the power system and load equipment by safely shutting off the current when it occurs.

Such a gas insulated switchgear includes a main bus, a disconnecting switch (DS), an earthing switch (ES), a current transformer (CT), a line earthing switch (LES) A gas-to-air bushing, and an operating box 11, and the like. Among them, the current transformer is used for measuring the current under normal load condition and is used for the purpose of utilizing the breaking ability of the circuit breaker when the fault current (ground / short circuit) is saturated.

Fig. 1 is a longitudinal sectional view showing a current transformer (CT) structure of a conventional gas insulated switchgear. Fig. 2 and Fig. 3 show a left side view and a CT enclosure structure of a current transformer CT.

As shown in Fig. 1, the current transformer CT has a structure in which a concentric circular iron core pipe 2 is arranged on the outside of three conductors 1 corresponding to three phases, and a coil is placed outside each iron core pipe 2 And a coiled core (3) is disposed. The conductor 1, the iron core pipe 2 and the core 3 are fixed by supporters 4 and 5, and the mounting plates 4 and 5 are fixed to the stud bolts 5a ) In the CT tank (9). The mounting plate 4 is fastened to the first flange 6 of the CT tank 9 with bolts 6a. The conductor (1) is in the form of a hollow pipe, and the CT tank (8) is filled with insulating gas.

A spacer 7 to which the conductor 1 is coupled through an engaging portion (not shown) is fastened to the second flange 8 of the CT tank 9 by a plurality of bolts. The spacer 7 plays a large role in determining the size of the gas insulated switchgear. The size of the spacer 7 is determined according to the enclosure size of the CT tank 9.

2 and 3, the size of the CT tank 9 is larger than that of the spacer 7 because the size of the CT tank 9 is determined according to the size of the current transformer CT as shown in FIGS. As a result, the enclosure 10 of the CT tank 9 has a quadrangular structure in order to fasten the relatively small-sized spacer 7 to the large-sized CT tank 9 as shown in FIG.

4 shows a process of manufacturing a CT tank enclosure having a line-like structure in which a first flange 6 is welded to a tank body 11 and an enclosure 10 oblique to the first flange 6 After welding, the second flange 80 is welded to the enclosure 10 to finally construct a CT tank enclosure 10 of a quadrilateral structure.

However, when the CT tank enclosure is formed in a linear shape for fastening the spacer to the CT tank, the number of flanges used is increased and the number of welding operations is increased, resulting in a complicated manufacturing process and an increase in cost. In addition, when the welding is performed in a slant-shaped enclosure, not only the weldability drops but also the welding cost is increased.

The object of the present invention is to provide a current transformer enclosure structure of a gas insulated switchgear which can reduce the manufacturing cost by a simple assembling structure and a simple manufacturing process.

Another object of the present invention is to provide a current transformer enclosure structure of a gas insulated switchgear which eliminates unnecessary parts to reduce cost and improve the assembling structure.

According to an aspect of the present invention, there is provided a current transformer (CT) enclosure structure of a gas insulated switchgear, wherein a concentric iron core pipe is disposed outside a conductor of each phase in a grounding tank, (EN) A current transformer (CT) of a gas insulated switchgear in which cores with coils wound around the outside of the tank body are stacked, comprising: a tank body in which the current transformer and the mounting plate are accommodated; And a rectilinear enclosure formed to be stepped at an end of the tank body and extended to a spacer of the current transformer.

According to an embodiment of the present invention, the linear enclosure can be fastened to the spacer via a flange.

And may include a plurality of bosses or a plurality of boss pairs protruding at predetermined intervals on the inner side of the tank body according to an embodiment of the present invention and fastening the mounting plate.

According to embodiments of the present invention, the mounting plate may be fastened to the sides of each boss by bolts or stud bolts, or may be fastened between the pairs of bosses.

According to the embodiment of the present invention, when the mounting plate is fastened between the pair of bosses through the stud bolts, an insulator for shielding the electric field can be inserted into both side threads of the stub bolt.

According to an embodiment of the present invention, when the mounting plate is fastened between the pair of bosses through the stud bolt, the mounting plate can be fastened to be movable.

According to embodiments of the present invention, a spring or solid elastomer may be inserted to reduce the friction between the boss and the mounting plate when the mounting plate is fastened to flow between the pair of bosses.

According to this embodiment, the flange welded to the tank body is removed, the four-wire type outer case, which is difficult to weld, is changed to a linear type enclosure, and a boss is formed inside the tank body to fasten the mounting plate of the CT Thereby making it possible to realize a simpler assembly structure than before and to reduce costs.

1 is a longitudinal sectional view showing a current transformer (CT) structure of a conventional gas insulated switchgear.
Figs. 2 and 3 are a right side view and a current transformer enclosure structure of a current transformer CT; Fig.
4 is a view showing a process of manufacturing a CT tank enclosure having a sightline structure.
Fig. 5 is a longitudinal sectional view showing a current transformer (CT) structure of a gas insulated switchgear according to an embodiment of the present invention; Fig.
6 is a view showing an arrangement position of a boss to which a mounting plate is fastened;
7 is a view showing a process of manufacturing a grounding tank enclosure according to the present invention.
8 to 10 illustrate various fastening configurations between a boss and a mounting plate using fastening means.

The terms and words used in the specification and claims should not be construed to be limited to ordinary or dictionary meanings, and the inventor may designate the concept of the term appropriately to describe its own design in the best way possible It should be construed as meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments and drawings described in the specification of the present invention are merely the most preferred embodiments of the present invention, and are not intended to represent all the technical ideas of the present invention. Therefore, It should be understood that there may be variations.

Whenever a component is referred to as "including" an element herein, it is to be understood that it may include other elements, unless the context otherwise requires.

The present invention proposes a method of reducing the manufacturing process and eliminating unnecessary parts by improving the enclosure structure of a current transformer (CT) tank in the past, thereby simplifying the assembly structure and reducing costs.

In order to achieve this, the present invention provides a mounting plate on which a flange welded to a tank body is removed, a quadrangular outer casing which is difficult to weld is changed to a rectilinear casing, at least one boss is formed inside the tank body, So that it can be fastened and fixed.

Preferably, the linear enclosure is formed so as to extend in the spacer direction after one end of the body is bent to be stepped. The length of the step can be determined according to the size (size) of the spacer. The forming position of the boss may be determined according to the position of the mounting plate.

FIG. 5 is a longitudinal sectional view showing a current transformer (CT) structure of a gas insulated switchgear according to an embodiment of the present invention, and FIG. 6 is a view showing a position of a boss for fastening a mounting plate.

5, a current transformer CT of a gas insulated switchgear according to an embodiment of the present invention includes a concentric iron core pipe 111 disposed on the outside of three conductors 110 corresponding to three phases, And a core 112 in which a coil is wound on the outer side of each iron core pipe 111 is arranged.

The conductor 110, the iron core pipe 111 and the core 112 are fixed by supporters 113 and 114. The mounting plates 113 and 114 are connected to stud bolt 114a, As shown in FIG.

In addition, the conductor 1110 has a hollow pipe shape, and the grounding tank 117 is filled with insulating gas. A spacer 115 to which the conductor 110 is coupled through an engaging portion (not shown) is fastened to the flange 116 of the grounding tank 117 by a plurality of bolts.

The mounting plate 113 may be fastened to a boss 118 protruding from the ground tank 117 through a bolt 118a.

The mounting plate 113 is fastened to a boss 118 protruding inside the ground tank 117 through a stud bolt. In this case, the electric field shielding insulator 122 may be fitted in the form of a valley on both side threads of the stud bolt.

At one end of the ground tank 117, a linear enclosure 117a is formed integrally with the tank body 120. [ The linear enclosure 117a may be formed by folding down the bottom of the tank body 120 such that one end of the tank body 120 corresponds to the size of the spacer 115. That is, the rectilinear enclosure 117a is formed by extending one end of the tank body 120 so as to be stepped, and then extending by a length that the conductor 110 of each phase is fastened to the spacer 115. As a result, the outer diameter of the linear enclosure 117a is smaller than the outer diameter of the tank body 120. The length of the stepped portion is determined according to the size of the spacer 115, and the length of the extended portion is determined according to the size of the current transformer CT.

4, the flange 6 to which the quadrangular envelope 10 is fastened can be removed. However, when the flange 6 is removed, the mounting plate (not shown) 113 will be eliminated.

Accordingly, in the present invention, as shown in FIG. 6, a plurality of bosses 118 are protruded from the inner surface of the tank body 120 at regular intervals so that the mounting plate 113 can be fastened. In one embodiment, the bosses 118 may be formed on the inner surface of the tank body 120 at intervals of 60 degrees. A plurality of pairs of bosses 118 may protrude from the inner surface of the tank body 120 at predetermined intervals.

At least one insertion groove 118b is formed in each boss 118 so that the fastening means is inserted through the insertion groove 118b and the mounting plate 113 is fastened to the boss 118. In one embodiment, the fastening means may be one or more bolts 118a or stud bolts.

The boss 118 is formed at a predetermined position on the inner surface of the tank body 120 in the grounding tank 117. The boss 118 is connected to the iron core pipe 111, The assembly direction can be selected, and the electric field between the conductors 110 can be relaxed not only in size reduction according to the CT assembly direction.

7 shows a process of fabricating the grounding tank enclosure according to the present invention. The flange 116 is welded to the tank body 120 and the rectilinear enclosure 117a, and finally a grounding tank enclosure with a straight structure is manufactured. According to this simple manufacturing method, the present invention can realize a simple assembling structure by removing the flange directly welded to the tank body 120 and replacing the quadrangular linear enclosure, which is difficult to weld, with the rectilinear enclosure 117a, Cost can be saved.

Figs. 8 to 10 illustrate various embodiments of fastening between a boss and a mounting plate using fastening means.

8 shows an embodiment in which the mounting plate 113 is fastened to the boss 118 by a fastening means such as a stud bolt wherein one side of the stud bolt 119 is fixed to the boss 118, Through the insertion groove 118b of the boss and fixed by a nut. At this time, an electric field shielding insulator 122 may be fitted to both side threads of the stud bolt to prevent the electric field concentration.

In another embodiment, the present invention can form a pair of bosses 118 at predetermined intervals in order to fasten the mounting plate 113, as shown in FIG. The pair of bosses 118 may be disposed at predetermined intervals to allow the mounting plate 113 to flow in the event of an impact such as shut-off. In this case, a plurality of fastening means per bolt / The stud bolt 118a or the stud bolt can be fastened.

10, when the mounting plate 113 is disposed to be able to flow in the pair of bosses 118 through the stud bolts 119, the spring 123 ) Or a solid elastomer may be inserted together to alleviate the friction between the boss 118 and the mounting plate 113.

As described above, according to the present invention, the flange welded to the tank body is removed, and the quadrangular linear enclosure, which is difficult to weld, is changed to a rectilinear enclosure, and a boss is formed inside the tank body to fasten the mounting plate of the CT It is possible to realize a simpler assembly structure than before and reduce the cost.

(CT) enclosure structure of the gas insulated switchgear according to the present invention described above. The above-described embodiments are not limited to the configuration and method of the above-described embodiments, It will be understood that the invention may be embodied in other specific forms without departing from the spirit or scope of the invention. Therefore, it should be understood that the above-described embodiments are to be considered in all respects as illustrative and not restrictive.

110: conductor 111: iron core pipe
112: core 113, 114: mounting plate (Supporter)
115: spacer 116: flange
117: Ground tank 117a: Straight type enclosure
118: Boss 118a: Insert groove
119: Stud bolt 120: Tank body
121: step 122: insulator
123: spring

Claims (7)

A current transformer (CT) of a gas insulated switchgear device in which a concentric iron core pipe is arranged outside a conductor of each phase in a tank and a core on which a coil is wound along an outer side of an iron core pipe is laminated on a mounting plate,
A tank body in which the current transformer and the mounting plate are accommodated; And
And a rectilinear enclosure formed to be stepped at an end of the tank body and extended to a spacer of the current transformer. The method of claim 1,
Is determined corresponding to the size of the spacer,
Wherein the linear enclosure is fastened to the spacer via a flange. 2. The gas insulated switchgear according to claim 1, further comprising a plurality of bosses or a plurality of boss pairs protruding from the tank body at predetermined intervals to fasten the mounting plate. rescue. 4. The apparatus of claim 3, wherein the mounting plate
Wherein the fastening means is fastened to the side of each boss by fastening means or inserted and fastened between the pair of bosses, and the fastening means comprises bolts or stud bolts. 5. The current transformer enclosure structure according to claim 4, wherein when the mounting plate is fastened between the pair of bosses through the stud bolts, an insulator for electric field shielding is fitted to both side threads of the stub bolt. 5. The current transformer enclosure structure of claim 4, wherein the mounting plate is fastened to allow flow when the mounting plate is fastened between the pair of bosses through the stud bolts. 7. The current transformer enclosure structure of claim 6, wherein a spring or a solid elastomer is inserted to reduce friction between the boss and the mounting plate when the mounting plate is fastened to flow between the pair of bosses.

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