High-voltage switches with arc preventing or extinguishing devic – Arc preventing or extinguishing devices – Housing structure
Reexamination Certificate
2003-03-28
2004-07-20
Enad, Elvin (Department: 2838)
High-voltage switches with arc preventing or extinguishing devic
Arc preventing or extinguishing devices
Housing structure
C218S156000
Reexamination Certificate
active
06765169
ABSTRACT:
FIELD OF THE INVENTION
The invention generally relates to an arc quenching chamber for low-voltage switching devices which switch in air. Preferably, it relates to one in which a quenching area is surrounded by at least one first part which is in the form of an enclosure, and by at least one second part which is in the form of an arc quenching chamber cover. Even more preferably, the two parts which surround the quenching area are provided with guide elements which can be pushed one inside the other, by which the two parts are fixed to one another in a final position perpendicular to the displacement direction and in which at least one separate attachment device, supported in the first or in the second of the parts which surround the quenching area, and one holder, which is formed on the respective other part, are provided for the separate attachment device. Using this, the two parts are fixed detachably to one another in the final position in the displacement direction.
BACKGROUND OF THE INVENTION
An arch quenching chamber such as this is known, for example, from DE-GM 296 12 636 U1. In this known arc quenching chamber, horizontal tab-like protrusions are arranged on the side walls at the outer edge of the quenching chamber enclosure, and the quenching chamber cover is provided with claw-like projections in order to clasp these protrusions when it is pushed onto the quenching chamber enclosure. In this case, a protrusion which points upwards is fitted to the upper edge of the front face of the quenching chamber in order to limit the pushing-on movement of the quenching chamber cover. A stop hole is arranged in the quenching chamber cover in such a way that the head of the attachment screw forms a stop for the wall of this stop hole, for horizontal locking of the quenching chamber cover.
Low-voltage switching devices which switch in air, such as low-voltage circuit breakers, require an arc quenching device for operation, in order to quench any arcs that occur without adversely affecting the circuit breaker itself and adjacent system parts or other assemblies. Otherwise, there would be a risk of the hot and thus ionized arc gases causing electric flashovers, or resulting in other damage.
Two fundamentally different physical forms of conventional arc quenching devices are known for low-voltage circuit breakers. Until now, for large circuit breakers, complete quenching chambers produced essentially in a conventional manner separately as a component, that is to say a robust arc-resistant, pressure-resistant and temperature-resistant enclosure, with arc splitter plates located in it and a suitable blowing apparatus have been fitted to the circuit breaker. One quenching chamber is generally provided for each pole. This chamber has a complete enclosure whose strength is matched to both the mechanical and electrical forces of the arc which occurs in it and is to be quenched, in particular with regard to the pressure and the temperature of the switching gases. The arc splitter plates are located in this chamber. The chamber may in this case be in the form of a pot-like chute into which the plates are inserted, or may be in the form of a structure composed of half shells for which an apparatus is required in order to firstly insert the plates into one half shell, then to fit the second half shell, and to finally connect the two.
As the second physical form, quenching chamber inserts are used with which only the function of actual arc quenching can be achieved in one unit. However, these structures are not able to withstand the pressure that occurs in conjunction with the arc. These inserts are therefore inserted in a chute which is provided in or on the switch enclosure. Until now, this physical form has been used predominantly for small, compact circuit breakers, but is increasingly also being used for relatively large circuit breakers, where the enclosures surround these areas, that is to say the switching area and the quenching area.
With regard to the connection to the main body of the circuit breaker, and the connection of the individual parts to one another, both types have the object of sealing the technically required gaps and joints to prevent the ionized arc gases passing through them, and of preventing electrical flashovers caused by gases which may possibly emerge despite this. To this extent, particular attention should also be paid to the connection of the quenching chamber cover to the quenching chamber enclosure.
U.S. Pat. No. 4,388,506 discloses an arc quenching chamber which is arranged removably on the circuit breaker which switches in air. For this purpose, the quenching chamber is inserted on the side of the stationary contact, by use of a hook-like projection, into a groove, and is fixed on the side of the moving switching contact with the aid of screws. In this case, the arcing chamber cover is attached to the enclosure of the quenching chamber by four screws. The hook-like projection in this switch is used for attachment of the entire quenching chamber and, furthermore and above all, for sealing against emerging ionized arc gases.
German Laid-Open Specification 35 41 514 discloses an arc quenching chamber having an attachment, which is used as a cover, for further cooling of the emerging gases. This cover is attached to the arc quenching chamber by a total of four screws. These screws pass through holes in the wall of the enclosure body of the arc quenching chamber into pockets which are open at the side and whose sizes correspond to the dimensions of the nuts which are inserted in them and in which the threads of the screws can engage. This embodiment requires not only four attachment screws but also a high degree of design and manufacturing complexity, for example for the pockets which are open at the side in order to hold the nuts.
The quenching chamber covers are also attached to the quenching chamber enclosure by four screws in other known switches, for example the 3WN6 series of switches from Siemens AG. The quenching chamber cover in this case covers a hollow projection of the quenching chamber enclosure, in which a single attachment screw is accommodated in a captive manner, by which the entire arc quenching chamber is attached to the circuit breaker. An insertion opening for a screwdriver is arranged in the quenching chamber cover. In this case as well, a relatively large number of attachment elements are required for attaching the quenching chamber cover to the quenching chamber and for attaching the quenching chamber to the enclosure of the switch.
DE-UM 296 17 358 discloses an arc quenching chamber for a low-voltage circuit breaker having a blowing damper, which can be inserted into the upper part of the enclosure of the arc quenching chamber, for cooling and deionization of arc gases which are produced during switching, and which is formed from two parts. The blowing damper is hollow and has an inner wall part, which is provided with inlet openings for the switching gases, on its inner face which faces the arc quenching chamber, and has an outer wall part, which is provided with outlet openings for the switching gases, on its outer face. In this case, the inner wall part of the blowing damper is formed integrally as a frame-like main body, and the outer wall part is formed by a separate closure plate, which is connected to the quenching chamber enclosure by a holding device. The main body of the blowing damper is inserted into the enclosure of the arc quenching chamber from above and rests on the upper edges of the arc splitter plates, by which the arc splitter plates are fixed vertically. The closure plate covers the main body of the blowing damper, and holds it firmly in position. For this purpose, it is advantageously designed to be flexible and is provided with latching tongues which engage in guide grooves provided close to the mouth of the quenching chamber enclosure.
A quenching chamber which is described in DE-A 197 09 843 has end plates with upper sprung latching elements and lower sprung latching elements which are advantageously performed
Enad Elvin
Fishman M.
Harness & Dickey & Pierce P.L.C.
Siemens Aktiengesellschaft
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