KR100920540B1 - Insulation frame of vacuum open/close device - Google Patents

Abstract

<Problem> In the insulating frame of the cylindrical capsule type switchgear, stroke adjustment in the screw connection part of the vacuum bulb and the insulating rod was not possible in the assembled state.

<Solution> The fixed contact and the movable contact between the movable side conductor drawn out from the vacuum container containing the fixed side conductor having the fixed contact and the movable side conductor having the movable contact, and the insulating rod connected to the drive mechanism of the movable side conductor. A cylindrical insulating frame for accommodating a vacuum bulb having a stroke adjusting portion for adjusting contact pressure, wherein a discharge port through which a fixed side terminal connected to a fixed side conductor and a movable side terminal connected to a movable side conductor is drawn on a side thereof. Furthermore, it has an adjustable opening part formed in the side surface opposite to the said stroke adjustment part, and the tool required for adjustment of the said adjustment part entered.

Description

Insulation frame of vacuum switchgear {INSULATION FRAME OF VACUUM OPEN / CLOSE DEVICE}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a structure of an insulating frame employed in a vacuum switchgear using a vacuum bulb used in a power receiving and power distribution facility.

As an insulated frame of a conventional vacuum switch having a vacuum bulb, for example, as in Patent Literature 1, there is proposed an insulated frame of a switchgear that stores and holds a vacuum bulb and supports terminals connected to both ends of the vacuum bulb. It is becoming. In addition, the vacuum switching device comprises three single-phase main circuits each having an insulated frame phase in a substantially cylindrical capsule shape. As the rated voltage of the switchgear becomes a high voltage, it is necessary to secure a large insulation distance between the ground metal part and other phases in the insulation design, so that one side of the main circuit charging part is opened in the form of an insulation frame. It is almost cylindrical capsule shape than the U-shaped cross-section insulation frame, and the insulation performance of the charging part and the external ground metal part in the frame can be made smaller by the barrier effect of the insulator. Since it can be comprised compactly as a whole apparatus, it is set as the insulation frame shape which made the substantially cylindrical capsule shape in many cases.

[Patent Document 1] Japanese Patent Application Laid-Open No. 2002-216597 (Fig. 1 and Figs. 5, 6, and 7 of the prior art)

In the opening and closing apparatus having a cylindrical insulating frame, since the periphery of the screw connection portion between the vacuum bulb and the insulating rod is covered by the cylindrical insulating frame, the stroke adjustment at the screw connection portion between the vacuum bulb and the insulating rod is performed by the vacuum bulb. And insulated frame are not assembled. Therefore, when employing a cylindrical insulating frame, it is common to perform stroke adjustment using a structure that adjusts the dimensions of a part of the drive link system outside the insulating frame. For this reason, the structure of the adjustment point in a link system becomes complicated, the number of parts also becomes large, and it has become a problem in forming a switching device compact and inexpensive.

This stroke adjustment is performed to suppress fluctuations in the opening and closing characteristics of the switchgear due to dimensional imbalances of components such as link-based parts, vacuum bulbs, and insulating frames, and manufacturing imbalance of the contact spring load. This is an important task to ensure product quality.

The present invention has been made to solve the above problems, to ensure the insulation performance of the insulating frame for storing and holding the vacuum bulb, to adjust the stroke in the insulating frame, vacuum opening and closing device having a higher mechanical rigidity By proposing an insulated frame, the vacuum switch is intended to be compact and inexpensive.

The insulating frame of the vacuum switchgear according to the present invention includes a vacuum container including a fixed side conductor having a fixed contact and a movable side conductor having a movable contact, and the movable side conductor drawn out from the vacuum container and the movable side conductor. A cylindrical insulating frame for storing a vacuum bulb formed with a stroke adjusting portion for adjusting the pressure contact between the fixed contact and the movable contact between the insulating rods connected to the drive mechanism, the fixed-side terminal connected to the fixed side conductor on the side thereof. And an outlet through which the movable side terminal connected to the movable side conductor is drawn, and formed at a position opposite to the stroke adjusting portion on the side thereof, and having an opening of a size that can be adjusted by entering a tool necessary for adjusting the adjusting portion. It is characterized by having.

Moreover, in the said structure, the said opening part includes the outlet of the said movable side terminal, It is characterized in that it is formed between the said movable side terminal and a ground part.

Moreover, in the said structure, the outlet of the said fixed side terminal is included, The opening part was formed between the said fixed side terminal and a ground part, It is characterized by the above-mentioned.

Moreover, in the said structure, the rib which surrounds the outlet of the said movable side terminal and the said opening part was formed in the outer side surface, It is characterized by the above-mentioned.

Moreover, in the said structure, the insulation cap which covers the outlet of the said movable side terminal, and the said opening part was formed, It is characterized by the above-mentioned.

According to the insulating frame of the vacuum switchgear according to the present invention, an opening is formed in one end of the terminal attached to the cylindrical insulating frame so that a tool necessary for stroke adjustment is provided around the screw connection portion between the movable side conductor of the vacuum bulb and the insulating rod. By fitting in, the stroke can be adjusted from the opening even after assembling the vacuum bulb and the insulating frame. This eliminates the need for an adjustment mechanism in a part of the drive system link, and can be configured with a simple drive link. The vacuum switching device can also be compact and inexpensive as a whole. Moreover, the creepage insulation distance between a terminal and the installation part of the vacuum switchgear which is a ground part can be lengthened.

Embodiment 1.

1 is a perspective view showing a vacuum switching device provided with an insulating frame according to Embodiment 1 of the present invention, and FIG. 2 is a side cross-sectional view of the insulating frame. In the figure, the vacuum bulb 1 is provided with a fixed contact 1b and a movable contact 1c disposed on an inner axis of the cylindrical vacuum container 1a, and is fixed from one end of the vacuum container 1a. The fixed side conductor 1d connected to (1b) is derived, and the movable side conductor 1e connected to the movable contact 1c from the other end is derived and comprised.

The vacuum bulb 1 is housed in the insulating frame 2 and held. The detail of the insulating frame 2 is mentioned later. The fixed side conductor 1d of the vacuum bulb 1 is connected to one end of the fixed side terminal 3 extending in the direction perpendicular to the axis line, and the fixed side terminal 3 is a protrusion formed on the insulating frame 2. The vacuum bulb 1 is supported by the insulating frame 2 by being fastened and fixed to 2d by the bolt 13. The other end side of the fixed side terminal 3 is led to the outside through the outlet formed in the insulating frame 2. Moreover, the movable side terminal 5 is connected to the movable side conductor 1e of the vacuum bulb 1 via the flexible conductor 4. This movable side terminal 5 is fastened and fixed by the bolt 12 to the projection 2e formed in the insulating frame 2, and the outlet port formed in the insulating frame 2 in the direction perpendicular to the axis of the vacuum bulb 1 It is derived through

The bolts 13 and 12 are respectively above the fixed side conductor 3 and the movable side conductor 5, that is, in the configuration of FIG. 2, the fixed side conductor 3 and the movable side conductor at a side farther from the grounding portion of the insulating frame 2. (5) is fixed. However, the fixed position is not limited to the upper side of the fixed side conductor 3 and the movable side conductor 5 as shown in FIG. 2 when the position is far from the grounded portion of the insulating frame 2.

The contact pressure rod 6 is connected to the movable side conductor 1e on the same shaft. Then, a pressure spring 7 having one end connected to the pressure rod 6 is inserted into the pressure rod 6, and the other end of the pressure spring 7 is connected in a structure capable of being pushed into the insulating rod 8. . The insulating rod 8 is connected to the three-phase shaft 9, and is connected to the three-phase shaft 9 so that the driving force from the operating mechanism 11 can be transmitted from the output lever 11a to the three-phase shaft 9. The operating mechanism 11 and the insulating frame 2 are fixedly supported by the bogie frame 10 (which becomes a grounded portion), respectively, and the three-phase shaft 9 has a rotation center 9a with a bogie frame 10. Rotation is freely supported.

The connection of the movable side conductor 1e and the contact rod 6 is demonstrated. The lower end of the movable side conductor 1e is a male thread, and the upper end of the contact rod 6 is a female thread, and these male and female threads are screwed together. The stroke adjustment of the movable side conductor 1e can be performed by adding or subtracting the amount of screwing into the male screw and the female screw. By performing this stroke adjustment, the contact pressure adjustment of the fixed contact 1b and the movable contact 1c can be performed. Increasing the amount of the screw into the movable side conductor 1e of the contact rod 6 shortens the effective length of the contact rod 6, compresses the contact spring 7 between the insulating rods 8, and presses the contact screw. In (7), greater force is accumulated. One end of the flexible conductor 4 connected to the movable side terminal 5 is connected to the movable side conductor 1e, and the connection end of the flexible conductor 4 is fixed to the movable side conductor 1e with a nut 4a. Doing. On the other hand, the nut 6a is screwed into the contact rod 6. For this reason, after adjusting the amount which the screw of the movable side conductor 1e and the contacting rod 6 enters, the nut 6a is fastened to the nut 4a, and the connection of the movable side conductor 1e and the contacting rod 6 is carried out. The state is fixed.

Next, the operation of the vacuum opening and closing device will be described. As shown in FIG. 2, when the vacuum bulb 1 is in the open state, the operation mechanism 11 drives the drive shaft (via the output lever 11a) by an injection command. When 9) is driven counterclockwise, the insulating rod 8 pushes the contact pressure rod 6 and injects the vacuum bulb 1. At this time, the contact screw 7 is in a state where a force is accumulated. At the time of opening, if the drive shaft 9 is driven clockwise by the opening command, the contact spring 7 will loosen, and the movable contact 1c will move downward, and will be in the open state of FIG. Adjustment of the opening and closing characteristic of the vacuum switchgear is performed by adjusting the compression amount of the contact spring 7 at the time of injection | throwing-in by adjusting a stroke. By adjusting the energy that can be accumulated in the contact spring 7, the speed at the time of opening can be changed, and the opening-closing characteristic can be adjusted. The adjustment of the force accumulation amount of the contact spring 7 loosens the nut 6a once, increases or decreases the amount of screw included in the male thread of the movable conductor 1a and the female thread of the contact rod 6, and then again tightens the nut 6a. It can implement by fastening to the 4a side. The screw adjustment amount of the male screw of the movable side conductor 1e and the female screw of the contacting rod 6, and the part which performs tightening adjustment of the nut 4a and the nut 6a are called stroke adjustment parts.

The structure of the insulating frame 2 is demonstrated. FIG. 3: shows the perspective view of the insulating frame 2 in the state which removed the part (base part) of the insulating cap 20 which is a terminal cover mentioned later. 4 is a perspective view of the insulating frame 2 seen from the outlet side of the fixed side terminal 3 and the movable side terminal 5. The insulating frame 2 consists of a cylindrical insulator, and the outlet opening which leads the fixed side terminal 3 and the movable side terminal 5 is formed in the upper part and the lower part. It is attached so that the insulation cap 20 can be attached or detached by covering this lead-out opening and the opening part mentioned later. And the insulating cap 20 is formed in the fixed side terminal 3 and the movable side terminal 5 one by one, and covers the fixed side terminal 3 and the movable side terminal 5, respectively.

As described above, the insulating frame 2 is provided with a discharge port for extracting the fixed side terminal 3 and the movable side terminal 5 on the side thereof, and the fixed side terminal 3 and the movable side drawn out from the discharge port. The upper part of the terminal 5 is fixedly supported by the bolts 13 and 12 to the projections 2d and 2e of the insulating frame 2. And the opening part 2a is formed in addition to the upper part which fixedly supports the movable side terminal 5 of the insulating frame 2. As shown in FIG. If the relationship between the movable side terminal 5 and the opening part 2a is shown substantially linearly, it will become like FIG. This opening portion 2a includes (lined up) the outlet of the movable side terminal 5 and has a considerably larger space than the outlet. The position of the opening 2a on the insulating frame 2 is below the movable side terminal 5, but this position is a coupling portion of the movable side conductor 1e and the contact rod 6, that is, the movable side conductor 1e. ) Is the position to see the stroke adjustment part in the horizontal direction. The size of the opening 2a passes through the opening 2a from the outside of the insulating frame 2 to insert the tool, and the male screw formed at the end of the movable side conductor 1e and the female screw formed at the end of the contact rod 6. It is a space in which a tool for tightening or loosening the nut 6a can be moved and only the stroke can be adjusted while the part can be adjusted. Therefore, when adjusting the opening and closing characteristic after assembling the opening and closing device, the opening and closing characteristic can be adjusted through this opening portion 2a. Therefore, the adjustment mechanism is unnecessary in the drive link part which consists of the three-phase shaft 9 and the insulating rod 8 from the operation mechanism 11.

5 is a schematic diagram showing the relationship between the movable side terminal 5 and the opening 2a. As is clear from FIG. 5, when the movable side terminal 5 is led at a position separated by the distance l from the ground portion (bogie frame 10), the movable side conductor 5 is formed by forming the opening 2a. ) And the shortest distance between the ground plane becomes l + α, and the creepage distance can be increased as compared with the form having no opening 2a. On the contrary, by forming this opening part 2a, the surface creepage length of the insulating frame 2 between the movable side terminal 5 and the bogie frame 10 increases, and the compact and simple insulating frame structure It becomes possible.

Moreover, the opening part 2b including the outlet of the fixed side terminal 3 is formed also in the side which is not fixed to the bolt 13 of the fixed side terminal 3, ie, below the fixed side terminal 3. By forming this opening part 2b, the contact of the fixed side terminal 3 and the insulating frame 2 becomes only the bolt attachment part of the upper part of the fixed side terminal 3, and the fixed side terminal in the state in which the switchgear is open. The shortest creepage length on the insulating frame 2 between (3) and the movable side terminal 5 can be increased, and the insulation performance between these terminals can be improved.

In addition, although this opening is demonstrated so that opening part 2a and 2b may include the exit port of the movable side terminal 5 and the fixed side terminal 3, the opening parts 2a and 2b will necessarily be the movable side terminal 5 and the fixed side. It is not necessary to line up with the outlet of the conductor 3, and it should just be provided between the movable side terminal 5 and the fixed side terminal 3, and a ground part.

The openings 2a and 2b, the outlet of the fixed side terminal 3 and the movable side terminal 5, and the protrusions 2d and 2e of the insulating frame 2 surround the ribs 2a 'outside the side wall of the insulating frame 2; , 2b ') is formed. This compensates for the decrease in strength of the insulating frame 2 by forming the openings 2a and 2b. The ribs 2a 'and 2b' are freely attached to and detached from the base of the funnel-shaped insulating cap 20 made of an insulator. For this reason, it is possible to prevent the inflow of dust from the outside through the openings 2a and 2b, and the fixed side terminal 3, the movable side terminal 5, and the bogie due to the barrier effect of the insulating cap 20. It is possible to take a large space distance between the frames 10, and to further improve the breakdown voltage performance.

Vacuum switching device using a vacuum bulb used in power distribution and distribution facilities, and particularly applicable to an insulating frame structure that accommodates and holds a vacuum bulb.

BRIEF DESCRIPTION OF THE DRAWINGS It is a perspective view which shows the vacuum switchgear which employ | adopted the insulation frame which concerns on Embodiment 1 of this invention.

2 is a side sectional view showing an insulating frame according to the first embodiment.

3 is a perspective view of an insulating frame in which a part of the insulating cap according to the first embodiment is removed.

4 is a perspective view showing an insulating frame according to the first embodiment.

5 is a schematic diagram showing an opening portion according to the first embodiment.

<Code description>

1 vacuum bulb, 1a vacuum vessel,

1b fixed contact, 1c movable contact,

1d fixed side conductor, 1e movable side conductor,

2 insulated frames, 2a opening

2b openings, 2d protrusions,

2e protrusion, 2a 'rib,

2b 'ribs, 3 fixed side terminals,

4 flexible conductors, 4a nuts,

5 movable side terminals, 6 pressure rod,

6a nut, 7 pressure screws,

8 insulated rods, 9 three-phase shaft,

10 bogie frame, 11 operating mechanism,

12v, 13v,

20 insulation caps.

Claims (5)

A vacuum container including a fixed side conductor having a fixed contact and a movable side conductor having a movable contact is connected to the movable side conductor drawn out from the vacuum container and the drive mechanism of the movable side conductor. I) a cylindrical insulating frame for storing a vacuum bulb provided with a stroke adjusting portion for adjusting the pressure contact between the fixed contact and the movable contact between the insulated rods; On the side of the insulated frame, the fixed side terminal connected to the fixed side conductor and the movable side terminal connected to the movable side conductor are provided, and also between the outlet and the ground portion of the side of the insulated frame. The insulating frame of the vacuum switchgear according to claim 1, wherein a tool necessary for the adjustment of the adjustment portion enters a position facing the stroke adjustment portion and has an opening that can be adjusted. The method according to claim 1, And the opening portion includes an outlet of the movable side terminal, and is formed between the movable side terminal and a ground portion. The method according to claim 1, And an outlet port of the fixed side terminal, wherein an opening is formed between the fixed side terminal and the ground portion. The method according to claim 1, A rib surrounding the outlet of the movable side terminal and the opening is formed outside the side wall of the insulating frame. The method according to claim 1, An insulated frame of a vacuum switchgear, characterized by providing an insulated cap covering the outlet of the movable side terminal and the opening.

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