GAS-INSULATED SWITCHGEAR

Abstract

To obtain a gas insulated switchgear which enables an improvement in maintainability. The gas insulated switchgear is characterized by including a main circuit device disposed inside a container in which an insulating gas is hermetically sealed; an operating mechanism disposed outside the container; a hermetic connecting shaft which transmits the drive force of the operating mechanism to the main circuit device; a first hermetic sealing portion disposed around the hermetic connecting shaft; and a second hermetic sealing portion which, having thereinside a hermetic sealing member, is disposed around the hermetic connecting shaft so as to be superimposed on the first hermetic sealing portion and also is provide in the atmosphere outside the container.

Claims

1. A gas insulated switchgear, comprising: a main circuit device disposed inside a container in which an insulating gas is hermetically sealed; an operating mechanism disposed outside the container; a hermetic connecting shaft which transmits the drive force of the operating mechanism to the main circuit device; a first hermetic sealing portion disposed around the hermetic connecting shaft; and a second hermetic sealing portion which, having thereinside a hermetic sealing member, is disposed around the hermetic connecting shaft so as to be superimposed on the first hermetic sealing portion and also is provided in the atmosphere outside the container, wherein the second hermetic sealing portion is disposed superimposed so as to have contact with a surface of the first hermetic sealing portion, and the main circuit device is attached to a flange of the container.

2. (canceled)

3. The gas insulated switchgear according to claim 1, wherein the first hermetic sealing portion, being provided in the atmosphere outside the container, is attached to the flange of the container.

4. The gas insulated switchgear according to claim 1, wherein the inside of the flange of the container functions as the first hermetic sealing portion.

5. The gas insulated switchgear according to claim 1, wherein the hermetic sealing member is an O-ring or a T-ring.

6. The gas insulated switchgear according to claim 1, wherein a plurality of the hermetic sealing members are disposed.

7. The gas insulated switchgear according to claim 1, wherein the main circuit device either is a circuit breaker or is a disconnector or a grounding switch.

8. The gas insulated switchgear according to claim 3, wherein the hermetic sealing member is an O-ring or a T-ring.

9. The gas insulated switchgear according to claim 3, wherein a plurality of the hermetic sealing members are disposed.

10. The gas insulated switchgear according to claim 3, wherein the main circuit device either is a circuit breaker or is a disconnector or a grounding switch.

11. The gas insulated switchgear according to claim 4, wherein the hermetic sealing member is an O-ring or a T-ring.

12. The gas insulated switchgear according to claim 4, wherein a plurality of the hermetic sealing members are disposed.

13. The gas insulated switchgear according to claim 4, wherein the main circuit device either is a circuit breaker or is a disconnector or a grounding switch.

14. The gas insulated switchgear according to claim 5, characterized in that a plurality of the hermetic sealing members are disposed.

15. The gas insulated switchgear according to claim 5, wherein the main circuit device either is a circuit breaker or is a disconnector or a grounding switch.

16. The gas insulated switchgear according to claim 6, wherein the main circuit device either is a circuit breaker or is a disconnector or a grounding switch.

Description

BRIEF DESCRIPTION OF DRAWINGS

[0010] FIG. 1 is a sectional side view showing a gas insulated switchgear according to the first embodiment.

[0011] FIG. 2 is a sectional view showing a hermetic connecting shaft of a gas insulated switchgear according to a comparison example.

[0012] FIG. 3 is a sectional view showing a hermetic connecting shaft of the gas insulated switchgear according to the first embodiment.

[0013] FIG. 4 is a sectional view showing the structure of a connecting portion of the hermetic connecting shaft shown in FIG. 3.

[0014] FIG. 5 is a sectional view showing a hermetic connecting shaft of a gas insulated switchgear according to the second embodiment.

DESCRIPTION OF EMBODIMENTS

[0015] Hereinafter, a description will be given, based on the drawings, of a gas insulated switchgear according to the first embodiment.

[0016] In the individual drawings, identical signs show identical or equivalent portions.

First Embodiment

[0017] FIG. 1 is a sectional side view of the gas insulated switchgear shown in the first embodiment. As shown in FIG. 1, a circuit breaker tank 1 and a bus bar tank 2, which are hermetically closed containers, are included inside a gas insulated switchgear 50, and the bus bar tank 2 is disposed on the top of the circuit breaker tank 1. Bus bars 5 and main circuit devices, such as disconnectors or grounding switches 4, are housed in the bus bar tank 2. Also, a plurality of main circuit devices including a circuit breaker 3 are housed in the circuit breaker tank 1. Also, disconnectors or grounding switches 4 are also disposed in the circuit breaker tank 1.

[0018] The circuit breaker 3 is hermetically closed (sealed) while being inserted in the circuit breaker tank 1 in the state of being attached to a circuit breaker flange 6a which separates the inside from the outside of the circuit breaker tank 1. Also, a circuit breaker operating mechanism 7 is attached to a side of the circuit breaker flange 6a outside the circuit breaker tank 1. That is, the backside of the gas insulated switchgear 50, which is the sheet's right side of the circuit breaker flange 6a, is in the circuit breaker tank 1 and is in the state in which an insulating gas, such as SF.sub.6 or dry air, is sealed therein. Also, the foreside of the gas insulated switchgear 50, which is the sheet's left side of the circuit breaker flange 6a, is outside the circuit breaker tank 1 and so is in the atmosphere. The gas insulated switchgear 50 in the first embodiment includes a hermetic connecting portion 8 of a circuit breaker section in order to transmit the drive force of the circuit breaker operating mechanism 7 in the atmosphere to the circuit breaker 3 in the circuit breaker tank 1.

[0019] Also, the disconnectors or grounding switches 4 are hermetically closed (sealed) while being inserted in the bus bar tank 2 in the state of being attached to a disconnector or grounding-switch flange 6b which separates the inside from the outside of the bus bar tank 2. Also, disconnector or grounding-switch operating mechanisms 10 are attached to a side of the disconnector or grounding-switch flange 6b outside the bus bar tank 2. That is, the backside of the gas insulated switchgear 50, which is the sheet's right side of the disconnector or grounding-switch flange 6b, is in the bus bar tank 2 and is in the state in which an insulating gas, such as SF.sub.6 or dry air, is sealed therein. Also, the foreside of the gas insulated switchgear 50, which is the sheet's left side of the disconnector or grounding-switch flange 6b, is outside the bus bar tank 2 and so is in the atmosphere. The gas insulated switchgear 50 in the first embodiment includes a hermetic connecting portion 9 of a disconnector or grounding-switch section in order to transmit the drive force of the disconnector or grounding-switch operating mechanisms 10 in the atmosphere to the disconnectors or grounding switches 4 in the bus bar tank 2.

[0020] FIG. 2 is a sectional view showing a hermetic connecting shaft of a gas insulated switchgear according to a comparison example. A description will be given of a hermetic connecting shaft 11 with the disconnector or grounding-switch section exemplified herein, but the same applies to the circuit breaker section. In the gas insulated switchgear 50, the disconnector or grounding switch 4 is disposed in the interior of the bus bar tank 2 shown on the sheet's right side across the disconnector or grounding-switch flange 6b. Also, in the gas insulated switchgear 50, the disconnector or grounding-switch operating mechanism 10 is disposed in the atmosphere on the outside of the bus bar tank 2 shown on the sheet's left side of the disconnector or grounding-switch flange 6b. Also, the disconnector or grounding-switch operating mechanism 10 and the disconnector or grounding switch 4 are connected together by the hermetic connecting shaft 11 in order to transmit the drive force of the disconnector or grounding-switch operating mechanism 10 to the disconnector or grounding switch 4 in the bus bar tank 2. Also, the hermetic connecting shaft 11 penetrates a hermetic sealing component 12 in order to hermetically close (seal) the periphery of the hermetic connecting shaft 11.

[0021] A groove is formed in a surface of the hermetic sealing component 12 in contact with the disconnector or grounding-switch flange 6b, and a hermetic sealing member 13 for hermetic sealing component fixing portion use is attached in the groove. The hermetic sealing member 13 is of a seal material, for example, in the form of a rubber O-ring or T-ring.

[0022] Also, a hole portion through which to insert the hermetic connecting shaft 11 is provided in the center of the hermetic sealing component 12. Also, grooves are also provided around the hole portion which is in the center of the hermetic sealing component 12 and in which the hermetic connecting shaft 11 is inserted, and hermetic sealing members 14 for hermetic connecting shaft sliding use are disposed in the respective grooves.

[0023] FIG. 2 shows a case in which two hermetic sealing members 14 for hermetic connecting shaft sliding use are disposed inside the hermetic sealing component 12 for the purpose of an improvement in the hermetic sealability against sliding of the hermetic connecting shaft 11, but even when one hermetic sealing member 14 for hermetic connecting shaft sliding use is disposed, it remains the same in function.

[0024] Owing to this structure, the portions on the hermetic connecting shaft 11 and hermetic sealing component 12 are hermetically closed (sealed) by the hermetic sealing member 13 for hermetic sealing component fixing portion use and by the hermetic sealing members 14 for hermetic connecting shaft sliding use, so that it is possible, by sliding of the hermetic connecting shaft 11 while maintaining the hermeticity in the bus bar tank 2, to transmit the drive force of the disconnector or grounding-switch operating mechanism 10 to the disconnector or the grounding switch 4 in the bus bar tank 2.

[0025] The hermetic sealing component 12 itself is fastened to the disconnector or grounding-switch flange 6b by hermetic sealing component fixing bolts 15.

[0026] FIG. 3 is a sectional view of a hermetic connecting shaft of the gas insulated switchgear shown in the first embodiment.

[0027] As shown in FIG. 3, in the gas insulated switchgear 50, the disconnector or grounding switch 4 is disposed in the interior of the bus bar tank 2 shown on the sheet's right side across the disconnector or grounding-switch flange 6b. Also, in the gas insulated switchgear 50, the disconnector or grounding-switch operating mechanism 10 is disposed in the atmosphere on the outside of the bus bar tank 2 shown on the sheet's left side of the disconnector or grounding-switch flange 6b. Also, the disconnector or grounding-switch operating mechanism 10 and the disconnector or grounding switch 4 are connected together by the hermetic connecting shaft 11 in order to transmit the drive force of the disconnector or grounding-switch operating mechanism 10 to the disconnector or grounding switch 4 in the bus bar tank 2. In order to hermetically close (seal) the periphery of the hermetic connecting shaft 11, the hermetic connecting shaft 11 penetrates a first hermetic sealing component 16 which is a first hermetic sealing portion and a second hermetic sealing component 17 which is a second hermetic sealing portion.

[0028] The first hermetic sealing component 16 is formed from, for example, a metal, and a groove is formed in a surface of the first hermetic sealing component 16 in contact with the disconnector or grounding-switch flange 6b, and a hermetic sealing member 13 for hermetic sealing component fixing portion use is attached in the groove. The hermetic sealing member 13 is of a seal material, for example, in the form of a rubber O-ring or T-ring.

[0029] Also, a hole portion through which to insert the hermetic connecting shaft 11 is provided in the center of the first hermetic sealing component 16. Also, a groove is also provided around the hole portion which is in the center of the first hermetic sealing component 16 and in which the hermetic connecting shaft 11 is inserted, and a hermetic sealing member 14 for hermetic connecting shaft sliding use is disposed in the groove. The difference from the comparison example shown in FIG. 2 is that in the first embodiment, only one hermetic sealing member 14 for hermetic connecting shaft sliding use is disposed inside the first hermetic sealing component 16 for the purpose of an improvement in the hermetic sealability against sliding of the hermetic connecting shaft 11. The first hermetic sealing component 16 itself is attached to the disconnector or grounding-switch flange 6b and is fastened thereto by hermetic sealing component fixing bolts 15.

[0030] Also, the second hermetic sealing component 17, being formed from, for example, a metal, is disposed around the hermetic connecting shaft 11 so as to be superimposed on the first hermetic sealing component 16, and is attached to the first hermetic sealing component 16. A groove is formed in a surface of the second hermetic sealing component 17 in contact with the surface of the first hermetic sealing component 16, and a hermetic sealing member 13 for hermetic sealing component fixing portion use is attached in the groove. The hermetic sealing member 13 is of a seal material, for example, in the form of a rubber O-ring or T-ring. Also, a hole portion through which to insert the hermetic connecting shaft 11 is provided in the center of the second hermetic sealing component 17. Also, grooves are also provided around the hole portion which is in the center of the second hermetic sealing component 17 and in which the hermetic connecting shaft 11 is inserted, and hermetic sealing members 14 for hermetic connecting shaft sliding use are disposed in the respective grooves. The second sealing component 17 itself is fastened to the first hermetic sealing component 16 by hermetic sealing component fixing bolts 15.

[0031] The first hermetic sealing component 16 and the second hermetic sealing component 17 are provided in the atmosphere outside the bus bar tank 2 which is a hermetically closed container, and the second hermetic sealing component 17, in the same way as the first hermetic sealing component 16, includes the hermetic sealing member 13 for hermetic sealing component fixing portion use and the hermetic sealing members 14 for hermetic connecting shaft sliding use. According to the gas insulated switchgear 50 according to the first embodiment, the portions on the hermetic connecting shaft 11, first hermetic sealing component 16, and second hermetic sealing component 17 are hermetically closed (sealed) by the hermetic sealing members 13 for hermetic sealing component fixing portion use and the hermetic sealing members 14 for hermetic connecting shaft sliding use, so that it is possible, by sliding of the hermetic connecting shaft 11 while maintaining the hermeticity in the bus bar tank 2, to transmit the drive force of the disconnector or grounding-switch operating mechanism 10 to the disconnector or grounding switch 4 in the bus bar tank 2.

[0032] Also, as shown in FIG. 3, in the first embodiment, a case is shown in which the plurality of hermetic sealing members 14 for hermetic connecting shaft sliding use are disposed inside the second hermetic sealing component 17 for the purpose of an improvement in the hermetic sealability against sliding of the hermetic connecting shaft 11, but even when one hermetic sealing member 14 for hermetic connecting shaft sliding use is inside the second hermetic sealing component 17, it remains the same in function.

[0033] FIG. 4 is a sectional view showing a connecting portion structure of the hermetic connecting shaft of the gas insulated switchgear shown in the first embodiment. The hermetic connecting shaft 11 has at its in-atmosphere side leading end a hermetic connecting shaft connecting portion 11a, and the disconnector or grounding-switch operating mechanism 10 has a disconnector or grounding-switch operating mechanism connecting portion 10a, adopting a structure in which the two connecting portions are connected to each other by a connecting component 18. The connecting component 18 is a pin or a bolt, and the disconnector or grounding-switch operating mechanism connecting portion 10a and the hermetic connecting shaft connecting portion 11a are pin fastened or bolt fastened to each other.

[0034] The hermetic connecting shaft of the gas insulated switchgear according to the comparison example of FIG. 2 is of a structure such that one hermetic sealing component 12 is attached around the hermetic connecting shaft 11, so that when the hermetic sealing members 14 in the hermetic sealing component 12 deteriorate and need to be replaced, it has been required, in order to replace the hermetic sealing members 14, that after the insulating gas in the bus bar tank 2 is collected, putting the inside of the bus bar tank 2 into the state of the atmosphere, the hermetic sealing component 12 is removed, and then the hermetic sealing members 14 are replaced. The reason for this is that gas leakage may occur when the hermetic sealing component 12 is removed.

[0035] On the other hand, the hermetic connecting shaft of the gas insulated switchgear according to the first embodiment shown in FIG. 3 is such that the first hermetic sealing component 16 and the second hermetic sealing component 17 are disposed around the hermetic connecting shaft 11, and the first hermetic sealing component 16 is attached and fixed to the disconnector or grounding-switch flange 6b by the hermetic sealing component fixing bolts 15. The second hermetic sealing component 17, being disposed around the hermetic connecting shaft 11 so as to be superimposed on the first hermetic sealing component 16, is attached to the first hermetic sealing component 16 and is fastened to the first hermetic sealing component 16 by the hermetic sealing component fixing bolts 15. The second hermetic sealing component 17, in the same way as the first hermetic sealing component 16, has the hermetic sealing member 13 for hermetic sealing component fixing portion use and the hermetic sealing members 14 for hermetic connecting shaft sliding use.

[0036] As for the hermetic connecting shaft 11 of the gas insulated switchgear according to the first embodiment, when replacing the hermetic sealing members 14 for hermetic connecting shaft sliding use, the connecting component 18 which connects the disconnector or grounding-switch operating mechanism 10 and the hermetic connecting shaft 11 is removed, the disconnector or grounding-switch operating mechanism 10 is removed, the hermetic sealing component fixing bolts 15 which fix the second hermetic sealing component 17 are removed, and the second hermetic sealing component 17 is removed. Even after the second hermetic sealing component 17 is removed, the first hermetic sealing component 16 is still left behind, so that it is possible to prevent a leakage of the insulating gas. For this reason, it is possible, without collecting the insulating gas in the bus bar tank 2 which is a hermetically closed container, to remove the second hermetic sealing component 17 and replace the hermetic sealing members 14 for hermetic connecting shaft sliding use. Also, it is also possible to replace the hermetic sealing member 13 for hermetic sealing component fixing portion use.

[0037] According to the first embodiment, the hermetic sealing members 14 of the second hermetic sealing component 17 deteriorate quickly due to air or dust in the atmosphere, but the hermetic sealing member 14 of the first hermetic sealing component 16 does not expose to air or dust in the atmosphere and so can be restrained from deterioration. For this reason, the object of providing the gas insulated switchgear 50 improved in maintainability can be achieved as long as the second hermetic sealing component 17 is made ready to be easily replaced.

Second Embodiment

[0038] FIG. 5 is a sectional view showing a hermetic connecting shaft of a gas insulated switchgear according to the second embodiment. In the first embodiment, a structure is shown in which the first hermetic sealing component 16 and the second hermetic sealing component 17 are disposed, superimposed one on the other, on the disconnector or grounding-switch flange 6b, but in the second embodiment, the inside of the disconnector or grounding-switch flange 6b of the bus bar tank 2 which is a hermetically closed container functions as the first hermetic sealing component of the first embodiment. Specifically, a groove is formed inside the disconnector or grounding-switch flange 6b formed from a metal, and a hermetic sealing member 14 for hermetic connecting shaft sliding use is disposed in the groove. The first hermetic sealing component 16 having the hermetic sealing member 14 is disposed around the hermetic connecting shaft 11. Then, the second hermetic sealing component 17, having thereinside the hermetic sealing members 14, is disposed around the hermetic connecting shaft 11 so as to be superimposed on the first hermetic sealing component 16, and also is provided in the atmosphere outside the bus bar tank 2 which is a hermetically closed container. The hermetic sealing member of the first hermetic sealing component 16 and the hermetic sealing members 14 of the second sealing component are disposed around the identical hermetic connecting shaft 11.

[0039] In the structure of the first embodiment, a structure to doubly superimpose the first hermetic sealing component 16 and the second hermetic sealing component 17 is adopted, thereby increasing the dimension in depth of a product, but in the second embodiment, the disconnector or grounding-switch flange 6b, as it has the function of the first hermetic sealing component 16 of the first embodiment, is the same in function as in the first embodiment, and there is an advantageous effect in that it is possible to reduce the dimension in depth of the product.

[0040] Although the present application is described above in terms of various exemplary embodiments and implementations, it should be understood that the various features, aspects, and functionality described in one or more of the individual embodiments are not limited in their applicability to the particular embodiment with which they are described, but instead can be applied, alone or in various combinations, to one or more of the embodiments.

[0041] It is therefore understood that numerous modifications which have not been exemplified can be devised without departing from the scope of the present application. For example, at least one of the constituent components may be modified, added, or eliminated. At least one of the constituent components mentioned in at least one of the preferred embodiments may be selected and combined with the constituent components mentioned in another preferred embodiments.

REFERENCE SIGNS LIST

[0042] 1 circuit breaker tank, 2 bus bar tank, 3 circuit breaker, 4 disconnector or grounding switch, 5 bus bar, 6a circuit breaker flange, 6b disconnector or grounding-switch flange, 7 circuit breaker operating mechanism, 8 hermetic connecting portion of circuit breaker section, 9 hermetic connecting portion of disconnector or grounding-switch section, 10 disconnector or grounding-switch operating mechanism, 10a disconnector or grounding-switch operating mechanism connecting portion, 11 hermetic connecting shaft, 11a hermetic connecting shaft connecting portion, 12 hermetic sealing component, 13 hermetic sealing member (for hermetic sealing component fixing portion use), 14 hermetic sealing member (for hermetic connecting shaft sliding use), 15 hermetic sealing component fixing bolt, 16 first hermetic sealing component, 17 second hermetic sealing component, 18 connecting component, 50 gas insulated switchgear