JPH11195356A - Breakdown voltage increasing method of high voltage switch, structure of bushing mounting hole provided on casing of high voltage switch, and high voltage switch provided with same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent dielectric breakdown caused by a hole edge part form of a bushing mounting hole provided on a casing of a high voltage switch, increase a breakdown voltage of the high voltage switch, and achieve miniaturization and cost reduction of the high voltage switch with the reference of the breakdown voltage. SOLUTION: A high voltage switch is provided with a casing 1, bushings 2 mounted through side walls 10, 11 on both sides of it, and lead-out wires connected to the bushings and an operation handle. In the side walls 10, 11 on both sides of the casing 1, bushing mounting holes 12, 13 for mounting bushings 2 formed of insulators are provided through. The bushing mounting holes 12, 13 are formed by burring work, and their hole edge parts 120, 130 are formed with curvature. Outer side parts continuous with the hole edge parts 120, 130 are formed cylindrical with shorter depth. The bushings 2 are mounted on the bushing mounting holes 12, 13 respectively.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for increasing the withstand voltage of a high-voltage switch, a structure of a bushing mounting hole provided in an outer case of the high-voltage switch, and a high-voltage switch provided with the same. More specifically, it is possible to prevent dielectric breakdown due to the shape of the hole of the bushing mounting hole and increase the withstand voltage value without using an insulating barrier or the like, and to use a high voltage switch based on the withstand voltage value. The present invention relates to a method for increasing the withstand voltage value of a high-voltage switch capable of reducing the size and cost of the switch, the structure of a bushing mounting hole, and a high-voltage switch provided with the same.

[0002]

2. Description of the Related Art For example, a mounting hole for mounting a bushing insulator is provided in an outer case of a high-voltage AC load switch, a so-called high-voltage switch. FIG. 5 is an explanatory view showing the internal structure of a conventional high-voltage switch. As shown in FIG. 5, the conventional bushing mounting hole (6) is simply a circular hole formed in a flat plate, and a sharp corner (60) is formed at the edge of the hole.

As is well known, in the high-voltage switch as described above, if the outer box (1) has a sharp portion, the lead wire (3)
When a voltage is applied between a charged part such as the connecting conductor and the connecting conductor (5) and the outer case, the electric field concentrates on this part, resulting in an uneven electric field and dielectric breakdown. That is, since the outer box (1) has a sharp portion, the withstand voltage value of the high-voltage switch is reduced as a result. Means for ensuring the withstand voltage performance of the high-voltage switchgear include the insulation distance between the connection conductor (5) serving as the live part and the edge (60) of the bushing mounting hole (6) of the outer box (1) serving as the ground. structure takes longer L ₀ or structure for attaching the insulating barrier member (not shown) to the hole edge portion (60) of the bushing mounting hole (6), it was common.

[0004]

However, the conventional means for ensuring the withstand voltage performance of the high-voltage switch as described above has the following problems. That is, in a structure in which the insulation distance between the charging unit and the outer box is long, it is necessary to use an outer box having a large volume, and there is a problem that the high-voltage switch is enlarged. Further, in the structure in which the insulating barrier member is attached to the edge of the attachment hole, the high-voltage switch can be downsized, but there is a problem that the cost is increased.

SUMMARY OF THE INVENTION The present invention solves the above-mentioned problems, and prevents a dielectric breakdown caused by a shape of a hole edge of a bushing mounting hole provided in an outer box without employing conventional means. A method for increasing the withstand voltage of the high-voltage switch, which can increase the withstand voltage and reduce the size and cost of the high-voltage switch based on the withstand voltage. An object of the present invention is to provide a structure and a high-pressure switch provided with the structure.

[0006]

Means of the present invention taken to achieve the above object are as follows. According to the first aspect of the present invention, in the high-voltage switch, a voltage is applied to the charging section by forming a structure in which a corner portion or a sharp portion is not formed at an inner edge of the bushing mounting hole provided in the outer box on the inner side of the outer box. A method for increasing the withstand voltage value of a high-voltage switch, characterized in that an uneven electric field is suppressed from being generated in a bushing mounting hole portion when the switching is performed.

According to a second aspect of the present invention, in the high-voltage switch, when a bushing mounting hole provided in the outer box is formed with a curved surface on the inner side of the outer box, a voltage is applied to the charging section. A method of increasing the withstand voltage value of the high-voltage switch, characterized in that the generation of an uneven electric field in the bushing mounting hole is suppressed.

According to a third aspect of the present invention, in the high-voltage switch, a bushing mounting hole provided in the outer case is burred to form a hole edge on the inner side of the outer case with a curved surface, and a voltage is applied to the charging portion. A method for increasing a withstand voltage value of a high-voltage switch, characterized in that generation of an uneven electric field in a bushing mounting hole portion when applied is suppressed.

According to a fourth aspect of the present invention, in the high-voltage switch, the edge of the bushing mounting hole provided in the outer case on the inner side of the outer case is formed without a corner or a sharp portion.
A structure of a bushing mounting hole provided in an outer case of a high-voltage switch, wherein an uneven electric field is suppressed from being generated in a bushing mounting hole when a voltage is applied to a charging unit. .

According to a fifth aspect of the present invention, in the high-voltage switch, a hole edge on the inner side of the outer case of the bushing mounting hole provided in the outer case is formed with a curved surface, and when a voltage is applied to the charging part. The structure of the bushing mounting hole provided in the outer case of the high-voltage switch, characterized in that the generation of an uneven electric field in the bushing mounting hole portion is suppressed.

According to a sixth aspect of the present invention, in the high-voltage switch, a bushing mounting hole provided in the outer box is burred to form a hole edge on the inner side of the outer box with a curved surface, and a voltage is applied to the charging section. A structure of a bushing mounting hole provided in an outer case of a high-voltage switch, wherein generation of an uneven electric field in a bushing mounting hole portion when applied is suppressed.

According to a seventh aspect of the present invention, there is provided a high-pressure switch comprising a structure of a bushing mounting hole provided in an outer box of the high-voltage switch according to the fourth, fifth or sixth aspect. It is a switch.

The method of forming the edge of the bushing mounting hole on the inner side of the outer box with a structure or a curved surface in which no corner or sharp portion is formed is not particularly limited. It is also possible to employ processing by, for example,.

(Operation) In the high-voltage switchgear according to the present invention, the edge of the bushing mounting hole provided in the outer box on the inner side of the outer box has a structure or a curved surface in which no corner or sharp portion is formed by burring or the like. Since it is formed, concentration of the electric field at the bushing mounting hole portion when a voltage is applied to the charged portion, that is, generation of an uneven electric field can be suppressed. Therefore, the withstand voltage of the high-voltage switch increases as compared to a conventional circular mounting hole in which a sharp corner is provided at the edge of the hole. Since the insulation distance between the portion and the bushing mounting hole can be shortened, it is possible to reduce the size and cost of the high-voltage switch. Also, in the bushing mounting hole formed by burring, since the hole is formed in a cylindrical shape, the strength of the hole and the vicinity of the hole is higher than that of the conventional circular mounting hole, and as a whole switch, It is also effective in improving the strength of steel.

[0015]

Embodiments of the present invention will be described in more detail with reference to the drawings. FIG. 1 is a front view showing an embodiment of a high-voltage switch according to the present invention, FIG. 2 is an explanatory diagram showing an internal structure of the high-voltage switch shown in FIG. 1, and FIG. 3 is an explanatory diagram showing a structure of a mounting portion of a bushing. 4A and 4B are explanatory views showing the shape of the outer case of the high-voltage switch, wherein FIG. 4A is a front view showing the shape of the components of the outer case, and FIG. 4B is an enlarged cross-sectional view of the portion A in FIG. .

Reference numeral S denotes a high-voltage switch, which is an outer box 1 and bushings 2, 2 attached through the side walls on both sides thereof.
And lead wires 3, 3 connected to the bushings 2, 2,
This is a structure including an operation handle 4. Bushings 2, 2 made of insulators are provided on both side walls 10, 11 of the outer box 1.
The bushing mounting holes 12 and 13 for mounting are provided through. The bushing mounting holes 12 and 13 are not shown in the drawing, but are provided at three required intervals on the side walls 10 and 11 respectively.
Reference numeral 3 is formed by burring. The hole edges 120, 130 of the bushing mounting holes 12, 13 are formed with curved surfaces. Further, the outer portion following the hole rims 120 and 130 has a cylindrical shape with a short depth.

The bushings 2, 2 are mounted in the bushing mounting holes 12, 13, respectively. The mounting structure of the bushings 2 and 2 is as follows. That is, between the inner surfaces 21 and 21 of the insulator pressing portions 20 and 20 of the bushings 2 and 2 and the outer peripheral surfaces 14 and 14 of the bushing mounting holes 12 and 13 of the outer box 1, an annular plate-shaped packing 15,
In this state, the bushings 2 and 2 are bolts 16 and 16 (shown in FIG. 1 and omitted in FIGS. 2 and 3).
And is fixed to the outer box 1. Note that reference numeral 5 denotes a connection conductor serving as a charging unit.

(Operation) The operation of the high-voltage switch according to the present invention will be described with reference to FIGS. In the high-voltage switch S according to the present invention, the bushing mounting holes 12 and 13 provided in the outer box 1 are formed by burring, and the hole edges 120 and 130 on the inner side of the outer box are formed with curved surfaces. Since there is no part, the concentration of the electric field at the bushing mounting holes 12 and 13 when a voltage is applied to the connection conductor 5 as the charging part, that is, the generation of an uneven electric field is suppressed. Therefore,
The withstand voltage value of the high-voltage switch increases as compared with a conventional circular mounting hole in which a sharp edge is provided at the edge of the hole.

Referring to FIGS. 2 and 5, the connection conductor 5 and the bushing mounting holes 12, 13 of the high-voltage switch S according to the present invention shown in FIG.
Insulation distance L ₁ between the hole edge portion of the can be made shorter than the insulation distance L ₀ of the conventional high-pressure switch shown in FIG. 5, it is possible to miniaturize the high-pressure switch. Further, since the size can be reduced without using an expensive insulating barrier member as in the related art, the cost can be reduced.

Since the bushing mounting holes 12 and 13 formed by burring are formed in a cylindrical shape,
The strength of the hole and the vicinity of the hole is improved as compared with the conventional simple circular mounting hole, which is effective in improving the strength of the high-voltage switch S as a whole.

The terms and expressions used in the present specification are for explanation only, are not restrictive, and do not exclude terms and expressions equivalent to the above-mentioned terms and expressions. Further, the present invention is not limited to the illustrated embodiment, and various modifications are possible within the scope of the technical idea.

[0022]

The present invention has the above configuration and has the following effects. (A) In the high-voltage switchgear according to the present invention, the edge of the inner side of the outer case of the bushing mounting hole provided in the outer case is formed by a burring process or the like so as not to have a corner or a sharp portion or a curved surface. Therefore, the concentration of the electric field at the bushing mounting hole when the voltage is applied to the charging section, that is, the generation of the uneven electric field can be suppressed. Therefore, the withstand voltage of the high-voltage switch increases as compared to a conventional circular mounting hole in which a sharp corner is provided at the edge of the hole. Since the insulation distance between the portion and the bushing mounting hole can be shortened, it is possible to reduce the size and cost of the high-voltage switch.

(B) In the bushing mounting hole formed by burring, the hole is formed in a cylindrical shape, so that the strength of the hole and the vicinity of the hole is improved as compared with the conventional circular mounting hole. It is also effective in improving the strength of the high-voltage switch as a whole.

[Brief description of the drawings]

FIG. 1 is a front view showing an embodiment of a high-voltage switch according to the present invention.

FIG. 2 is an explanatory diagram showing the internal structure of the high-voltage switch shown in FIG.

FIG. 3 is an explanatory view showing a structure of a mounting portion of a bushing.

FIG. 4 is an explanatory view showing a shape of an outer box of the high-voltage switch.

FIG. 5 is an explanatory view showing the internal structure of a conventional high-voltage switch.

[Explanation of symbols]

 S High-voltage switch 1 Outer box 10, 11 Side wall 12, 13 Bushing mounting hole 120, 130 Hole edge 14 Peripheral surface 15 Packing 16 Bolt 2 Bushing 20 Insulator holding part 21 Inner surface 3 Lead wire 4 Operating handle 5 Connection conductor

Claims (7)

[Claims] In a high-pressure switch, a bushing mounting hole (12, 13) provided in the outer case (1) has a hole edge (1) on the inner side of the outer case.
20,130) has a structure in which no corners or sharp parts are formed, and a bushing mounting hole when voltage is applied to the live part.
A method for increasing a withstand voltage value of a high-voltage switch, characterized by suppressing generation of an uneven electric field in a (12, 13) portion. 2. A high-voltage switchgear, wherein a bushing mounting hole (12, 13) provided in the outer case (1) has a hole edge (1) on the inner side of the outer case.
20,130) with a curved surface to suppress the generation of an uneven electric field in the bushing mounting holes (12, 13) when a voltage is applied to the live part. How to increase the withstand voltage value. 3. In the high-voltage switch, a bushing mounting hole (12, 13) provided in the outer case (1) is burred to form a hole edge (120, 130) on the inner side of the outer case with a curved surface. Bushing mounting holes (12,1) when voltage is applied to the
3) A method for increasing the withstand voltage value of a high-voltage switch, characterized by suppressing generation of an uneven electric field in a portion. 4. In a high-voltage switchgear, a hole edge (1) of a bushing mounting hole (12, 13) provided in the outer case (1) on the inner side of the outer case.
20,130) has a structure in which no corners or sharp parts are formed, and a bushing mounting hole when voltage is applied to the live part.
A structure of a bushing mounting hole provided in an outer case of a high-voltage switch, wherein an uneven electric field is suppressed from being generated at the (12, 13) portion. 5. In a high-voltage switchgear, an edge (1) of a bushing mounting hole (12, 13) provided in the outer case (1) on the inner side of the outer case.
20,130) with a curved surface to suppress the generation of an uneven electric field in the bushing mounting holes (12, 13) when a voltage is applied to the live part. Structure of the bushing mounting hole provided in the outer box. 6. In a high-voltage switch, a bushing mounting hole (12, 13) provided in an outer case (1) is burred to form a hole edge (120, 130) on the inner side of the outer case with a curved surface, and the charging is performed. Bushing mounting holes (12,1) when voltage is applied to the
3) The structure of the bushing mounting hole provided in the outer case of the high-voltage switch, characterized in that the generation of an uneven electric field in the portion is suppressed. 7. A high-voltage switch comprising a bushing mounting hole structure provided in an outer case of the high-voltage switch according to claim 4, 5 or 6.