Gas circuit breaker

Abstract

A gas circuit breaker is configured by comprising a tank filled with arc extinguishing gas, a pair of fixed side arc contact and moving side arc contact in the tank, a puffer chamber formed with a puffer cylinder including the moving side arc contact at its end and a fixed piston, and an insulating nozzle, attached to the end of the puffer cylinder, surrounding the moving side arc contact, that forms a flow channel to guide arc extinguishing gas from the puffer chamber to the contacts. A puffer cylinder 104 has a cylindrical member 104a at a breaker side end, an end of the insulating nozzle 101 is provided in the cylindrical member 104a. And the gas circuit breaker is configured by further comprising a hollow moving side main contact 102 at a breaker side end of the cylindrical member 104a, a pressing metal fitting 103 to engage an insulating nozzle 101 in the hollow part of the moving side main contact 102.

Claims

1. A gas circuit breaker comprising: a tank filled with an arc extinguishing gas; a fixed side arc contact and moving side arc contact in the tank; a puffer chamber formed with a puffer cylinder including the moving side arc contact at an end and a fixed piston; and an insulating nozzle, attached to the end of the puffer cylinder, surrounding the moving side arc contact, that forms a flow channel to guide the arc extinguishing gas from the puffer chamber to the contacts, wherein the arc extinguishing gas in the puffer chamber is compressed in accordance with opening operation of the contacts and blown to an arc between the contacts, wherein the puffer cylinder has a cylindrical member at a breaker part side end, wherein an end of the insulating nozzle is provided in the cylindrical member, and further comprising: a hollow moving side main contact at a breaker part side end of the cylindrical member; and an engagement member that engages the insulating nozzle in a hollow part of the moving side main contact, and wherein the engagement member has a long hole in which a position of the engagement member in the hollow part is adjustable in a diameter direction of the insulating nozzle.

2. The gas circuit breaker according to claim 1, wherein the engagement member has a positioning hole, wherein the moving side main contact has a position regulating hole for the engagement member, and wherein a positioning jig is inserted in the positioning hole through the position regulating hole, and the position of the engagement member is adjusted in the diameter direction of the insulating nozzle.

3. The gas circuit breaker according to claim 1, wherein the engagement member is fixed to an end of the cylindrical member in a position different from that of the moving side main contact.

4. The gas circuit breaker according to claim 3, wherein the engagement member has a positioning hole, wherein the moving side main contact has a position regulating hole for the engagement member, and wherein a positioning jig is inserted in the positioning hole through the position regulating hole, and the position of the engagement member is adjusted in the diameter direction of the insulating nozzle.

5. The gas circuit breaker according to claim 3, wherein the engagement member has a circular member on an inner diameter side that fixes an outer periphery of the insulating nozzle.

6. The gas circuit breaker according to claim 1, wherein the engagement member is fastened along with the moving side main contact to an end of a cylindrical member of the puffer cylinder with a bolt.

7. The gas circuit breaker according to claim 6, wherein the engagement member has a circular member on an inner diameter side that fixes an outer periphery of the insulating nozzle.

8. The gas circuit breaker according to claim 6, wherein the engagement member has a positioning hole, wherein the moving side main contact has a position regulating hole for the engagement member, and wherein a positioning jig is inserted in the positioning hole through the position regulating hole, and the position of the engagement member is adjusted in the diameter direction of the insulating nozzle.

9. The gas circuit breaker according to claim 1, wherein the engagement member has a circular member on an inner diameter side that fixes an outer periphery of the insulating nozzle.

10. A gas circuit breaker comprising: a tank filled with an arc extinguishing gas; a fixed side arc contact and moving side arc contact in the tank; a puffer chamber formed with a puffer cylinder including the moving side arc contact at an end and a fixed piston; and an insulating nozzle, attached to the end of the puffer cylinder, surrounding the moving side arc contact, that forms a flow channel to guide the arc extinguishing gas from the puffer chamber to the contacts, wherein the arc extinguishing gas in the puffer chamber is compressed in accordance with opening operation of the contacts and blown to an arc between the contacts, wherein a hollow cylindrical moving side main contact is provided at a breaker part side end of the puffer cylinder, wherein a hollow part is provided at a breaker part side end of the hollow cylindrical moving side main contact, wherein an end of the insulating nozzle is disposed in the hollow cylindrical moving side main contact, wherein the hollow part of the moving side main contact has an engagement member that engages the insulating nozzle, and wherein the engagement member has a long hole in which a position of the engagement member in the hollow part is adjustable in a diameter direction of the insulating nozzle.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a cross-sectional diagram illustrating an insulating nozzle fixing structure according to an embodiment 1 of the present invention;

(2) FIG. 2 is a cross-sectional diagram of a gas circuit breaker to which the insulating nozzle fixing structure according to the present invention is applied;

(3) FIG. 3 is a perspective diagram illustrating a pressing metal fitting according to the embodiment 1 of the present invention;

(4) FIG. 4 is a cross-sectional diagram showing a procedure for attachment of the pressing metal fitting using a pressing metal fitting positioning jig according to the present invention, showing a status before the insulating nozzle is pressed with the pressing metal fitting;

(5) FIG. 5 is an A-A cross-sectional diagram in FIG. 4;

(6) FIG. 6 is a cross-sectional diagram showing the procedure for attachment of the pressing metal fitting using the pressing metal fitting positioning jig according to the present invention, showing a status where the insulating nozzle has been pressed with the pressing metal fitting;

(7) FIG. 7 is a B-B cross-sectional diagram in FIG. 6;

(8) FIG. 8 is a C-C cross-sectional diagram in FIG. 6;

(9) FIG. 9 is a cross-sectional diagram showing a modification of the embodiment 1;

(10) FIG. 10 is a perspective diagram illustrating a moving side main contact in FIG. 9;

(11) FIG. 11 is a perspective diagram illustrating the pressing metal fitting used for fixing the insulating nozzle according to an embodiment 2 of the present invention;

(12) FIG. 12 is a cross-sectional diagram of the insulating nozzle fixing structure to which the pressing metal fitting in FIG. 11 is applied; and

(13) FIG. 13 is a cross-sectional diagram illustrating the insulating nozzle fixing structure according to an embodiment 3 of the present invention.

DESCRIPTION OF THE EMBODIMENTS

(14) Hereinbelow, embodiments of the present invention will be described using the drawings. The following descriptions are merely examples of implementation, and not intended to limit the contents of the invention to the following detailed embodiments. The invention itself can be implemented in various embodiments in accordance with the contents described in the scope of claims.

Embodiment 1

(15) FIG. 2 shows the outlines of the inside of a gas circuit breaker configured with an insulating nozzle 101, a moving side main contact 102, and a pressing metal fitting 103, according to the present invention. The other constituent elements except for the insulating nozzle 101, the moving main contact 102, and the pressing metal fitting 103 are the same as the constituent elements of a conventional gas circuit breaker.

(16) An insulating tank 201 is filled with insulating gas such as SF.sub.6 gas, and a fixed side conductor 202 and a moving side conductor 109 are drawn in the tank. The fixed side conductor 202 is electrically connected to a fixed side arc contact base 203, a fixed side arc contact 204 and a fixed side main contact 205 configuring a fixed side breaker part 200.

(17) The moving side conductor 109 is electrically connected to a moving side breaker part 100 via a puffer piston 110 and a puffer cylinder 104.

(18) A puffer shaft 111 is coaxially provided inside the puffer cylinder 104. One end of the puffer shaft is fixed to the puffer cylinder 104. The other end of the puffer shaft 111 is connected to the insulating rod 112. With this configuration, a driving force from an operation unit (not shown) attached to the other end of the insulating rod 112 is transmitted to the moving side breaker part 100.

(19) FIG. 1 is an enlarged diagram of the moving side breaker part 100 in FIG. 2. A moving side arc contact 105 is provided at the center of an end of the puffer cylinder 104. On an outer periphery of the moving side arc contact 105, an insulating cover 106, an insulating nozzle 101, and a moving side main contact 102 are respectively coaxially provided so as to surround the outer periphery of the moving side arc contact.

(20) In FIG. 1, an end of the puffer cylinder 104 is projected in a cylindrical shape (hereinbelow, referred to as a cylindrical member 104a), and the moving side main contact 102 is fixed to the end with plural moving side main contact fixing bolts 108 (see FIG. 5).

(21) The moving side main contact 102 has a hollow shape. A pressing metal fitting fixing bolt 107 and the moving side main contact fixing bolt 108 are fixed in this hollow member. The breaker part side end of the moving side main contact 102 is configured with a curved moving side main contact shield 102b for mitigation of an electric field. A pressing metal fitting regulating hole 102a to be described later, a fastening hole 107a for fastening the pressing metal fitting fixing bolt 107, and a fastening hole 108a for fastening the moving side main contact fixing bolt 108 are provided on the moving side main contact shield 102b (See FIG. 8).

(22) As shown in FIG. 1, the insulating nozzle 101 is fitted in the cylindrical member 104a. The insulating nozzle screw member 101a is screwed with the cylindrical member 104a. The insulating nozzle 101 has an insulating nozzle large diameter member 101b in a position opposite to the end of the cylindrical member 104a (breaker part side end).

(23) In consideration of thermal expansion upon occurrence of arc, the insulating nozzle large diameter member 101b is fitted in a position on an inner surface of the cylindrical member 104a of the puffer cylinder 104, with slight space between the large diameter member 101b and the inner surface.

(24) The pressing metal fitting 103 and the moving side main contact 102 are fastened with the pressing metal fitting fixing bolt 107 (see FIG. 5). With this configuration, as shown in FIG. 1, the insulating nozzle large diameter member 101b is engaged with the pressing metal fitting 103, and is fixed to an inner peripheral surface of the cylindrical member 104a of the puffer cylinder 104.

(25) FIG. 3 shows an example of the pressing metal fitting 103. The engagement member 103c to engage the insulating nozzle large diameter member 101b of the insulating nozzle 101 is configured in a curved shape with a curvature substantially the same as that of an outer periphery of the insulating nozzle 101. A pressing metal fitting positioning hole 103a is provided at substantially the center of the pressing metal fitting 103, and a screw engagement long hole 103b is provided at both ends of the pressing metal fitting positioning hole 103a.

(26) The screw engagement long hole 103b is a long hole to adjust a fixing position of the pressing metal fitting 103 with respect to the insulating nozzle 101 in the hollow part of the moving side main contact 102, upon fixing, in a diameter direction of the insulating nozzle 101.

(27) It is preferable that the pressing metal fitting 103 is configured with a high-strength steel product. The pressing metal fitting 103 is provided in plural positions along the outer periphery of the insulating nozzle 101 to have sufficient strength in correspondence with the size of the breaker part. As an example, as shown in FIG. 7, it may be configured such that the pressing metal fitting 103 is provided in three positions at equal intervals.

(28) Next, a method of attaching the insulating nozzle 101 using the pressing metal fitting 103 according to the embodiment 1 will be described. First, the moving side main contact 102 is fixed to the end of the cylindrical member 104a with the fixing bolts 108 (see FIGS. 1 and 5), then the insulating nozzle 101 is screwed in the inner peripheral surface of the cylindrical member 104a, and the pressing metal fitting 103 is temporarily fixed with the pressing metal fitting fixing bolt 107 (see FIG. 5).

(29) FIGS. 4 and 5 show a status before the pressing metal fitting 103 is engaged with the insulating nozzle large diameter member 101b of the insulating nozzle 101. FIGS. 6 and 7 show a status after the engagement. As shown in FIGS. 4 and 8, the pressing metal fitting regulating hole 102a is provided in plural positions at the breaker part side end of the moving side main contact 102. As shown in FIG. 4, the pressing metal fitting positioning jig 401 is inserted via the pressing metal fitting regulating hole 102a in the pressing metal fitting positioning hole 103a.

(30) FIG. 5 shows a status of an A-A cross section in FIG. 4 viewed from the breaker part side. In this status, the pressing metal fitting fixing bolt 107 is temporarily fixed, and the position of the pressing metal fitting 103 is adjustable along a lengthwise direction of the screw engagement long hole 103b.

(31) Next, as shown in FIG. 6, the position of the pressing metal fitting 103 is shifted with the pressing metal fitting regulating hole 102a as a fulcrum such that the engagement member 103c of the pressing metal fitting 103 is in contact with the outer periphery of the insulating nozzle 101. With this configuration, in the status where the insulating nozzle large diameter member 101b is engaged, the pressing metal fitting fixing bolt 107 is fastened.

(32) The fastening of the pressing metal fitting fixing bolt 107 is performed from a gap between the insulating nozzle 101 and the moving main contact 102. To facilitate the fastening work, as described later, the fastening hole 107a (see FIG. 8) for fastening the pressing metal fitting fixing bolt 107 is provided in plural positions in the moving side main contact shield 102b, and the bolt 107 is fastened via the hole.

(33) FIG. 8 is a C-C cross-sectional diagram in FIG. 6, showing a front side of the moving side main contact 102 viewed from the breaker part side. A fastening hole 108a for fastening the moving side main contact fixing bolt 108 from the breaker part side is provided in plural positions in a peripheral direction of the moving side main contact in the front side of the moving side main contact 102.

(34) Further, a pressing metal fitting regulating hole 102a is provided in the same number of positions as that of the pressing metal fitting 103. The fastening hole 107a for fastening the pressing metal fitting fixing bolt 107 from the breaker part side is provided on the both sides of the pressing metal fitting regulating hole 102a. Note that in FIG. 8, the pressing metal fitting 103 is fixed inside the moving side main contact shield 102b and its major part is hidden with the shield 102b. Accordingly, only the end of the pressing metal fitting on the engagement member 103c side appears.

(35) In FIG. 8, the moving side main contact fixing bolt 108 appears from the fastening hole 108a and the pressing metal fitting fixing bolt 107 appears from the fastening hole 107a. Actually, as described above, the moving side main contact fixing bolt 108 and the pressing metal fitting fixing bolt 107 are fixed in the hollow part of the moving side main contact 102 (see FIG. 1).

(36) In this manner, as the pressing metal fitting fixing bolt 107 and the moving side main contact fixing bolt 108 are disposed inside the moving main side contact shield 102b, there is no fear that these bolts become vulnerable parts on the electric field. The configuration contributes to improvement in reliability.

(37) As described above, the insulating nozzle 101 is engaged with the pressing metal fitting 103 and firmly fixed. In comparison with a conventional configuration where the insulating nozzle is fixed only by screwing, the possibility of drop off of the insulating nozzle is markedly reduced, and the reliability is improved.

(38) When the insulating nozzle 101 is changed for maintenance of the breaker part, the insulating nozzle 101 is removed and a new insulating nozzle 101 is attached by reversely performing the above procedure.

(39) According to the procedure, it is possible to change the insulating nozzle 101, without removing the moving side main contact 102, from a manhole for breaker part work generally provided in the vicinity of the breaker part. Accordingly, it is possible to markedly improve operability in comparison with the conventional work performed when the moving side main contact has been removed.

(40) As shown in FIGS. 6 and 7, the moving side main contact 102 is fixed to the cylindrical member 104a at the end of the puffer cylinder 104 with the moving side main contact fixing bolt 108. Accordingly, when the insulating nozzle 101 is changed upon maintenance work, even though the pressing metal fitting fixing bolt 107 is removed, the moving side main contact fixing bolt 108 is still fixed. The work can be performed without any influence on the fixing of the moving side main contact 102. It is possible to prevent misalignment of the breaker part (the central axis of the moving side main contact is shifted from that of the fixed side main contact).

(41) Note that the moving side main contact 102 may have a configuration as shown in FIG. 10. In this configuration, the above-described part where the pressing metal fitting 103 of moving side main contact 102 is fastened is cut and the pressing metal fitting 103 is fitted in the part.

(42) With this configuration, as shown in FIG. 9, it is possible to engage the insulating nozzle 101 while directly fastening the fitting 103 to the cylindrical member 104a of the puffer cylinder 104. With this configuration, it is possible to achieve lightweighting of the moving side main contact 102 generally formed with a chromium-copper alloy as a main component and to reduce the weight on the moving side. Accordingly, it is possible to contribute to improvement in breaking speed.

Embodiment 2

(43) Hereinbelow, an embodiment 2 will be described based on FIGS. 11 and 12. Note that the same constituent elements as those in the embodiment 1 have the same reference numerals and the explanations of the elements will be omitted.

(44) The characteristic feature of the present embodiment resides in that a pressing metal fitting 501 shown in FIG. 11 is applied in place of the pressing metal fitting 103 in the embodiment 1. The pressing metal fitting 501 has a circular member 501a, projecting in a position where the nozzle large diameter member 101b is engaged, along the outer peripheral direction of the nozzle.

(45) The other points are the same as those in the pressing metal fitting 103 according to the embodiment 1, and the attachment/removal work procedure is the same. FIG. 12 shows a configuration after attachment of the pressing metal fitting 501.

(46) As it is understood from this figure, in comparison with the embodiment 1, it is possible to more stably hold and engage the insulating nozzle 101, and the reliability of the circuit breaker is improved.

Embodiment 3

(47) Hereinbelow, the embodiment 3 will be described based on FIG. 13. The same constituent elements as those in the embodiment 1 have the same reference numerals and the explanations of the elements will be omitted.

(48) In the embodiment 1, the insulating nozzle 101 is screwed and fixed in the inner peripheral surface of the cylindrical member 104a of the puffer cylinder 104. On the other hand, in the present embodiment, the insulating nozzle is screwed and fixed in the inner peripheral surface of a moving side main contact 602.

(49) The moving side main contact 602 is fixed, along with the pressing metal fitting 103, to the breaker part side end of a puffer cylinder 604 with a pressing metal fitting fixing bolt 107 (longer than that in the embodiment 1). The other points are the same as those in the embodiment 1, and the attachment/removable work procedure is the same as that in the embodiment 1. With this configuration, it is not necessary to provide a cylindrical member at the breaker part side end of the puffer cylinder. Accordingly, it is possible to perform process with ease.

(50) Note that it is possible to apply the pressing metal fitting 501 having a configuration shown in the embodiment 2 to the embodiment 3.

REFERENCE SIGNS LIST

(51) 101 Insulating nozzle 101a Insulating nozzle screw member 101b Insulating nozzle large diameter member 102 Moving side main contact 102a Pressing metal fitting regulating hole 102b Moving side main contact shield 103 Pressing metal fitting 103a Pressing metal fitting positioning hole 103b Screw engagement long hole 103c Engagement member 104 Puffer cylinder 104a Cylindrical member 105 Moving side arc contact 106 Insulating cover 107 Pressing metal fitting fixing bolt 108 Moving side main contact fixing bolt 109 Moving side conductor 110 Puffer piston 111 Puffer shaft 112 Insulating rod (closer to operating mechanism unit) 201 Insulating tank 202 Fixed side conductor 203 Fixed side arc contact base 204 Fixed side arc contact 205 Fixed side main contact 401 pressing metal fitting positioning jig 501 pressing metal fitting (embodiment 2) 501a pressing metal fitting circular member (embodiment 2) 602 Moving side main contact (embodiment 3) 604 puffer cylinder (embodiment 3)