1. Field of the Invention
This invention regards interrupting device for a contact pole in an electrical switching apparatus such as a circuit breaker, a contactor, a switch or a contactor-breaker, comprising a moving contact holder with a slide clamp-mounted on a mobile bridge supporting the mobile contacts. The invention also regards an electrical apparatus equipped with at least one such interrupting device.
2. Description of the Related Art
In a known electrical apparatus, the contact pole interrupting device comprises a moving contact holder, usually composed of a slide that moves along an axis between a rest position and a work position. The slide can be controlled by manual mechanisms, by magnetic and/or thermal tripping mechanisms in the event of an electrical fault. Its function is to mechanically displace a mobile bridge supporting the mobile contacts. This displacement causes the mobile contacts and the fixed contacts to separate, which corresponds to the rest position. In the work position, the mobile contacts are usually held against the fixed contacts by a contact pressure spring.
A switching apparatus contact pole is described in document DE19818058. It comprises a slide in which a mobile contact bridge is held in a opening in the slide by means of a contact spring. However, the slide does not have any special means to mount it on the mobile bridge without the contact spring.
Furthermore, in document U.S. Pat. No. 4,154,996 regarding a mechanical detector or limit switch, a mobile bridge is clamp-mounted in a piston (or slide) by a central opening in the mobile bridge. However, the contact pressure of the mobile bridge contacts on the fixed contacts is only transmitted by this clamp-mounting, which makes this solution unsuitable for a switching apparatus such as a circuit breaker, a contactor or a contactor-breaker, in which the electric currents circulating between the contacts are likely to be much greater than in a detector. Indeed, if there should be any wear play in the clamp-mounting at the end of a period of use, there is a risk of having a passage during the opening or closing of the contacts where the electrical contact will not exert any real pressure on the contacts, which would be redhibitory for the use described in this invention, on account of risks of fusion in particular.
The aim of the invention is to propose a simple solution for mounting the slide on the mobile bridge, and to reduce the dimensions of such a interrupting device while at the same time keeping the contact pressure spring as large as possible to ensure the proper operation of the spring. The mounting must also be flexible enough to obtain a contact pressure that is correctly divided between the mobile contacts.
To this end, the invention submits a switching apparatus interrupting device composed of a moving contact holder comprising a contact pressure spring, a slide that moves along a longitudinal axis between a work position and a rest position, and a mobile bridge with a lower face and an upper face supporting two mobile contacts. A particular feature of the interrupting device is that the mobile bridge has a central opening in which is inserted at least one protuberance belonging to the slide and comprising clamp-mount means to clamp-mount the slide on the mobile bridge. Another characteristic is that the contact pressure spring has a first end which rests on the lower face of the mobile bridge.
The slide has stop means to stop the mobile bridge, consisting of a face to hold the slide that cooperates with the upper face of the mobile bridge, and side ends on the slide that fit around the side faces of the mobile bridge. The clamp-mounting means and stop means are arranged to allow the mobile bridge sufficient play in a direction roughly perpendicular to the longitudinal axis of the slide, so that in the work position the contact pressure spring can exert pressure on the mobile bridge to be able to hold the mobile contacts of the mobile bridge against the corresponding fixed contacts of the switching apparatus.
Other characteristics and advantages will be seen in the detailed description below, with reference to an embodiment of the invention given as an example and represented by the attached drawings in which:
With reference to
In the work position, the mobile contacts 41 are held directly against the corresponding fixed contacts 42 of the switching apparatus by the contact pressure spring 15. In the rest position, the mobile contacts 41 are separated from the fixed contacts 42 by the slide 20 which is mechanically attached to the mobile bridge 30.
In the embodiment shown, the slide 20 comprises a low part 21 with the various components enabling the mobile bridge 30 to be mounted on the slide 20. The low part 21 comprises at least one protuberance 22 equipped with the clamp-mount means the slide on the mobile bridge. In the preferred embodiment, these clamp-mounting means consist of at least one outer pin 34.
With reference to
The mobile bridge 30 comprises a central opening 33, which may be rectangular in shape. To mount the mobile bridge 30 on the slide 20, the protuberances 22 of the slide are inserted in the central opening 33 of the mobile bridge 30. During this insertion, the rounded edges of the external walls 27 of the protuberances 22 are thrust against the edges of the central opening 33 which forces the outer pins 34 towards each other, until they come under the lower face 31 of the mobile bridge 30. The elasticity of the two protuberances 22 then returns them to their initial position and the outer pins 34 are supported against the lower face 31, thus locking together the mobile bridge 30 and the slide 20. The mounting operation is thus very simple and does not need any additional parts, making it fast and economical to implement.
The slide also has means to stop the mobile bridge 30 to ensure it is kept in place. With reference to
With reference to
The contact pressure spring 15 rests directly on the mobile bridge 30 (via the lower face 31) in such a way as to create sufficient contact force between the fixed contacts 42 and the mobile contacts 41 in the work position. The clamp-mountings do not therefore play any part in the pressure force of the contacts, so that wear and tear due to a long period of use of the device and which is liable to generate some play on these clamp-mountings will not affect the quality of the contact pressure. For improved resistance and improved efficiency of the spring 15, the section of the contact pressure spring 15 should be as large as possible and the spring 15 should be cylindrical rather than conical in shape. For this reason, the first end 16 of the spring 15 is kept in position by the flanges 28 fitted on each side end 25 of the slide 20, as shown in FIG. 5. These flanges 28 are as thin as possible so as to allow a significant circular section to the spring 15, thus allowing the contact pressure spring 15 to have a cylindrical shape, without however compromising the overall dimensions of the slide. Moreover, for a better stability of the spring 15, the protuberances 22 of the slide 20 provide a simple means of ensuring that the first end 16 of the spring 15 is centred in relation to the mobile bridge 30, since the first end 16 is held against the external walls 27 of these protuberances 22.
As shown in
The means of clamp-mounting and holding on the slide 20 have an important characteristic, being arranged in such a way that the mobile bridge 30 can have a play between the outer pins 34 and the holding face 26, regardless of the action of the spring 15. This play develops roughly along the longitudinal axis X of the slide 20. In the work position, it allows the spring 15 to exert sufficient pressure on the mobile bridge 30 to hold the two mobile contacts 41 of the mobile bridge 30 simultaneously and uniformly against the corresponding two fixed contacts 42. In fact, if the alignment or the thickness of the fixed contacts 42 or the mobile contacts 41 are not exactly the same, the mobile bridge 30 rigidly mounted on the slide 20 would cause the two pairs of contacts 41,42 to open or close in a way which would not be entirely simultaneous, nor made with the same force, and could therefore lead either to a faulty electrical contact or to the rapid deterioration of the contacts. Thanks to this play, the mobile bridge 30 can lean slightly to one side or the other in relation to its transverse axis W in such a way to make up for any imperfection of the contacts and to ensure that the contacts close with the same pressure and open simultaneously. This avoids the risk of overheating, fusion or deterioration of the contacts that could happen over time, after intensive use of the interrupting device.
As shown in the drawings, a constant distance is maintained between the lower face 31 and the upper face 32 of the mobile bridge 30, as the lower face 31 does not move relative to the upper face 32, such as during movement of the moving contact holder 10 between work and rest positions.
Other variations and improvements to details can of course be envisaged, including the use of equivalent means, while still remaining within the framework of the invention.
Number | Date | Country | Kind |
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00 11556 | Sep 2000 | FR | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/FR01/02779 | 9/7/2001 | WO | 00 | 7/28/2003 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO02/21550 | 3/14/2002 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
2532305 | Heller | Dec 1950 | A |
4154996 | Arnold | May 1979 | A |
5201410 | Takano et al. | Apr 1993 | A |
5283406 | Olsen | Feb 1994 | A |
5635886 | Pichard | Jun 1997 | A |
5886602 | Burel et al. | Mar 1999 | A |
6326570 | Fujii et al. | Dec 2001 | B1 |
6556110 | Niebler et al. | Apr 2003 | B1 |
Number | Date | Country |
---|---|---|
198 18 058 | Nov 1999 | DE |
1 080 279 | Aug 1967 | GB |
Number | Date | Country | |
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20040031668 A1 | Feb 2004 | US |