The present invention relates to an electric-power gas circuit breaker using SF6 gas as arc extinguishing gas, and more particularly, to a fixing structure for an insulating nozzle forming its arc extinguishing part.
In recent years, a circuit breaker with enlarged capacity is developed along with development of high-voltage and high-current electric power system. On the other hand, there are increasing needs for cost reduction and space saving by optimization of a breaker part structure. Accordingly, a circuit breaker in which puffer gas pressure is higher in comparison with conventional circuit breakers, typified by a small heat puffer type circuit breaker having excellent breaking performance, is being propagated.
Generally, in a breaker-part moving side structure of the gas circuit breaker including the heat puffer type circuit breaker, an insulating nozzle and a moving side main contact are provided on the breaker part side from a puffer cylinder part. The insulating nozzle is provided for the purpose of effectively blowing arc extinguishing gas to arc which occurs between moving side and fixed side arc contacts.
As a typical insulating nozzle fixing method, known is a structure where an outer peripheral part of a rear end of the insulating nozzle is cut in a screw, and is screwed with an inner peripheral screw part at the end of the puffer cylinder from the breaker part side, thus fixing is made.
In this fixing method, it is possible to simply perform attachment and centering work at the time of assembly. Further, upon nozzle change at the time of maintenance, it is possible to perform work from a manhole provided in the vicinity of the breaker part.
However, in accordance with increment in the above-described puffer gas pressure, a holding function with respect to the puffer gas pressure cannot be expected only with the screw fixing structure. Accordingly, the problem is that the potential of accident such as drop off of insulating nozzle upon breaking operation is high.
Regarding such problem, as shown in FIG. 1 of Patent Document 1, a structure to prevent drop off of the insulating nozzle is proposed. The insulating nozzle is engaged with the inner diameter side at the end of the puffer cylinder, and is held with a nozzle presser which also works as a moving side main contact.
In this structure, the insulating nozzle is firmly fixed in comparison with the above-described fixing structure with screw holding, and the drop off of the insulating nozzle due to gas pressure increasing is prevented.
Patent Document 1: Japanese Patent Application Laid-Open No. Hei 08-111151
However, in this structure, when the nozzle is changed upon maintenance of the breaker part, it is necessary to remove the nozzle presser which also works as a moving side main contact. The structure has a problem in its maintenability since the number of work steps upon reassembling is increased.
The present invention has an object to provide a gas circuit breaker, using an insulating nozzle fixing structure with high reliability and maintenability, in which nozzle change can be performed with ease while drop off of the insulating nozzle is prevented.
The present invention has been made in view of the above problem, and 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. The arc extinguishing gas in the puffer chamber is compressed in accordance with opening operation of the contacts and blown to arc between the contacts. The puffer cylinder has a cylindrical member at its breaker part side end. An end of the insulating nozzle is provided in the cylindrical member. And the gas circuit breaker is configured by further comprising a hollow moving side main contact at a breaker part side end of the cylindrical member, an engagement member that engages the insulating nozzle in a hollow part of the moving side main contact.
In the gas circuit breaker according to the present invention, by employing the above-described fixing structure, it is possible to perform nozzle change with ease while preventing drop off of the insulating nozzle. Further, it is possible to prevent misalignment of the breaker part since it is not necessary to remove the moving side main contact upon nozzle change. With this configuration, it is possible to provide a gas circuit breaker with high reliability and maintenability.
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.
An insulating tank 201 is filled with insulating gas such as SF6 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.
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.
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.
In
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
As shown in
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.
The pressing metal fitting 103 and the moving side main contact 102 are fastened with the pressing metal fitting fixing bolt 107 (see
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.
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
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
Next, as shown in
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
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
In
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.
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.
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.
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.
As shown in
Note that the moving side main contact 102 may have a configuration as shown in
With this configuration, as shown in
Hereinbelow, an embodiment 2 will be described based on
The characteristic feature of the present embodiment resides in that a pressing metal fitting 501 shown in
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.
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.
Hereinbelow, the embodiment 3 will be described based on
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.
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.
Note that it is possible to apply the pressing metal fitting 501 having a configuration shown in the embodiment 2 to the embodiment 3.
Number | Date | Country | Kind |
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2013-046093 | Mar 2013 | JP | national |
Filing Document | Filing Date | Country | Kind |
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PCT/JP2014/052388 | 2/3/2014 | WO | 00 |