EP0852386A1 - Electric circuit breaker with bellow - Google Patents

Abstract

The electric circuit-breaker includes a gas-tight sealed interrupter unit in an encapsulation housing (10,11,12) and a drive rod (13) taken in gas-tight fashion through a wall (12) of the encapsulation housing by means of a bellows (16) giving axially movable transmission of switching movement on to at least one movable contact (3,4) of the interrupter unit. The bellows (16) is designed with different degree of stiffness or rigidity along the zones (21-26) of its longitudinal axis, and more specifically, the first end-zone (21,24) of the bellows (16) which is rigidly joined to the drive rod (13) is made stiffer than the remaining zones (22,23,25,26) of the bellows.

Description

The invention relates to an electrical circuit breaker with a gas-tight sealed in an encapsulation housing Breaker unit and with one through a wall of the encapsulation housing gas-tight by means of a bellows performed axially movable drive rod for Transfer of a switching movement to at least one moving one Contact of the breaker unit.

Such a circuit breaker is for example from the British Patent 1,095,741 known. There are inside a larger encapsulation case in turn completed Vacuum interrupter units are provided, each one have axially actuated drive rod which is opposite the Vacuum switch housing sealed by means of a bellows is.

With such a gas-tight passage of a drive rod by means of a bellows, in particular high accelerations of the drive rod, for example at High-voltage circuit breakers, but also for vacuum switches the problem that due to the inertia of the bellows the end region which is firmly connected to the drive rod is strongly deformed in the course of the drive movement, while other areas of the bellows by the end area are far less deformed and only be accelerated later in the course of the drive movement. This results in a greater stress on the strongest deformed area of the bellows and possibly a strong vibratory movement of the whole Bellows.

The present invention has for its object a electrical circuit breakers of the type mentioned create that is designed so that the bellows an enlarged Operational reliability or extended lifespan.

The object is achieved in that the bellows Areas of different along its longitudinal axis Has rigidity.

By choosing a suitable stiffness profile, on the one hand a suitable distribution of the deformation in the idle state of the bellows can be achieved along its longitudinal axis. On the other hand, when designing the stiffness profile also the dynamic load during the switching movement as well as the mass of the bellows are taken into account, so that a peak load in individual areas of the bellows is avoided and the burden on the whole Long of the bellows can be spread. The longitudinal axis the bellows is normally approximately parallel to the direction of movement the drive rod.

An advantageous embodiment of the invention provides that the first end portion of the bellows, that with the drive rod is firmly connected, is stiffer than that remaining areas of the bellows.

This configuration ensures that not first end region of the bellows most deformed but that this first end area with moderate deformation acceleration due to its greater rigidity in the course of the drive movement of the shift rod to the rest Areas of the bellows largely passes on. Hereby the bellows breaks in the first end area due to mechanical overload during the switching movement avoided and extended the life of the bellows.

A further advantageous embodiment of the invention provides before that the stiffness of the bellows, based on the first end region towards the second end region, which is connected to the Encapsulation housing is firmly connected, continuously or in decreases in several steps.

The first end region of the bellows is made stiffer than the other areas, the shock movement at one Drive process to the other, downstream of the first end area Areas of the bellows forwarded so that the remaining area is the largest Acceleration experienced that closest to the first end area is. So it makes sense to also cover this area of the bellows, which is adjacent to the first end region, stiffer to execute than the corresponding areas of the Bellows.

This results in the most sensible design of the bellows one in which the individual areas of the bellows along its longitudinal axis, starting from the first end region, are equipped with decreasing stiffness. This can be used both continuously and discontinuously in several steps.

It can also be advantageously provided that a larger Stiffness of an area of the bellows by superimposing it reached several layers of material in this area is.

In the manufacture of the bellows, areas can several layers of sheet metal are placed on top of each other to do this realize.

A further advantageous embodiment of the invention provides before that greater stiffness of an area of the bellows by one in this area versus other areas greater material thickness is reached.

This can be achieved, for example, in that Production of the bellows different in some areas Sheet thicknesses can be selected.

In addition, the invention can advantageously be designed in this way be that greater stiffness of a portion of the bellows through the area-wise use of one against another Areas of stiffer material is reached.

Different configurations can be used for this embodiment of the invention Areas of the bellows, for example made of different sheets Metals or alloys are made.

In the following the invention is based on an embodiment shown in a drawing and then described.

Figur 1 schematisch im Querschnitt den Aufbau eines erfindungsgemäßen Leistungsschalters in Form eines Hochspannungs-Leistungsschalters,

Figur 2 schematisch im Querschnitt eine Hälfte eines Faltenbalges mit bereichsweise mehreren aufeinandergelegten Materialschichten,

Figur 3 schematisch im Querschnitt die Hälfte eines Faltenbalges mit bereichsweise unterschiedlichen Materialstärken.

It shows

FIG. 1 shows schematically in cross section the structure of a circuit breaker according to the invention in the form of a high-voltage circuit breaker,

FIG. 2 schematically, in cross-section, one half of a bellows with several layers of material placed one on top of the other,

Figure 3 shows schematically in cross section half of a bellows with different material thicknesses in some areas.

FIG. 1 shows an interrupter unit of a high-voltage circuit breaker with a fixed arcing contact 1, a fixed continuous current contact piece 2, a drivable arcing contact 3 and a drivable Continuous current contact piece 4. The switch is in the Figure shown in the off state. When switching on first embraces the drivable tulip-shaped Contact piece 3 the fixed arcing contact piece 1. Then come the two continuous current contact pieces when switching on 2, 4 in contact.

When switching off, the permanent current contact pieces first separate 2, 4, then the arcing contact pieces 1, 3 from each other, so that in the arc space 5 between the arcing contact pieces 1, 3 an arc is ignited. This causes an extinguishing gas heating and an increase in pressure in the Print room 6.

In addition, extinguishing gas for blowing the arc is compressed by the downward movement of the drivable contact piece 3 together with the extinguishing nozzle 7 and the compression piston 8 in the compression space 9. SF ₆ , for example, is used as the extinguishing gas in the switch described.

The interrupter unit is through an encapsulation housing 10 completed, the two end walls 11, 12 and a cylindrical Part 28, which normally consists of an insulator, especially on the outside with screen ribs. It however, it would also be conceivable for the switch to be metal-encapsulated Execute switches, but then the contact pieces all via insulating material supports 27 inside the encapsulation housing 10 would have to be supported.

When switching on and off, the drive rod is used 13 the switching tube 14 of the drivable contact piece 3 suddenly by an outside of the gas space of the Switch located drive 15 driven. Here is Acceleration as high as possible, especially when switching off the drivable contact pieces 3, 4 desirable, around the burning between the switch contact pieces 1, 3 To be able to extinguish the arc as quickly as possible.

The drive rod 13 is on the end wall 12 of the encapsulation housing 10 gas-tight by means of a bellows 16 made of steel carried out. The bellows is by means of a flange 17th with a seal 18 with its first end on the drive rod 13 attached. With its second end is the bellows also by means of a union 19 with the end wall 12 connected gastight. For this purpose it is in the area a seal 20 is provided. One attached to the wrap 19 Stub 21 protects the bellows 16 of the drive rod 13 against mechanical damage.

FIG. 2 schematically shows an example in a detail Structure of the bellows 16. On the left side, not shown in FIG. 2, the flange 17th the second end of the bellows on the right-hand side, that faces the arc room.

In the event of a shift, the drive moves to the left side of the bellows transmit a jerky movement, because of the inertia of the bellows first in the first Area 21 or 24 deformed the bellows. This area is, as shown in Figures 2 and 3, by the Material-strong stiffer than the other areas 22, 23, 25, 26 of the bellows 16 and extends over several beads of the bellows. That is why the deformation in this area 21, 24 not so large that the bellows could be overloaded. The sudden load hits afterwards, softened by the deformation in the first area 21, 24, the second area 22 and 25 of the bellows, the is somewhat less rigid than the first region 21, 24. A deformation then also takes place there, ideally is approximately as large as the deformation in each case in the first area.

One is then added to each of the third areas 23, 26 reduced burden passed on there, too leads to deformation.

This way, the sudden load on the whole Long of the compensator distributed.

The stiffening of the bellows in different areas can except through the variation of the material thickness and through the use of different substances or different Alloys reached in different areas of the bellows will.

Claims (6)

Electrical circuit breaker with an interrupter unit sealed in a gas-tight manner in an encapsulation housing (10, 11, 12) and with an axially movable drive rod (13) gas-tightly carried through a wall (12) of the encapsulation housing (10, 11, 12) for transmission a switching movement to at least one movable contact (3, 4) of the interrupter unit,
characterized in that
the bellows (16) has regions (21, 22, 23, 24, 25, 26) of different stiffness along its longitudinal axis. Electrical circuit breaker according to claim 1,
characterized in that
the first end region (21, 24) of the bellows (16), which is firmly connected to the drive rod (13), is stiffer than the other regions (22, 23, 25, 26) of the bellows (16). Electrical circuit breaker according to claim 2,
characterized in that
the stiffness of the bellows (16), starting from the first end region (21, 24) towards the second end region, which is firmly connected to the encapsulation housing (10, 11, 12), decreases continuously or in several steps. Electrical circuit breaker according to claim 1 or one of the following,
characterized in that
Greater stiffness of an area (21, 22) of the bellows (16) is achieved by superimposing several layers of material in this area. Electrical circuit breaker according to one of claims 1 to 3,
characterized by the fact that
A greater stiffness of an area (24, 25) of the bellows (16) is achieved by a greater material thickness in this area compared to other areas (26). Electrical circuit breaker according to one of claims 1 to 3,
characterized in that
Greater stiffness of an area of the bellows (16) is achieved by using a material that is stiffer than other areas.

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