WO2002052596A1

WO2002052596A1 - Vacuum selector switch light-bulb

Info

Publication number: WO2002052596A1
Application number: PCT/FR2001/004159
Authority: WO
Inventors: Philippe Crossin; Robert Zinck
Original assignee: Socomec S.A.
Priority date: 2000-12-22
Filing date: 2001-12-21
Publication date: 2002-07-04
Also published as: FR2818794A1; FR2818794B1

Abstract

The invention concerns a vacuum selector switch for opening an electrical system without resorting to any particular manoeuvring effort, capable of providing an opening distance greater than that of known vacuum selector witches and enabling to obtain electrical characteristics comparable to existing vacuum selector switches while being compact and inexpensive. The vacuum selector switch (1) comprises a sealed casing (2) wherein is housed a fixed contact (3) including at least a fixed contact zone (30) and a mobile contact (4) including at least a mobile contact zone (40) located opposite said fixed contact zone (30), said mobile contact (4) being coupled to the casing (2) by an elastic member (5) and being adapted to move in an open circuit position under the effect of the vacuum prevailing in said casing (2). The invention is applicable to any industrial electric system.

Description

VACUUM SWITCHER BULB

The present invention relates to a vacuum interrupter bulb comprising at least one sealed housing made of insulating material in which is housed at least one fixed contact provided with at least one fixed contact area, at least one movable contact provided with at least one movable contact area located opposite said fixed contact area, said movable contact being arranged to move between a "closed circuit position" in which said movable contact area is supported on said fixed contact area and a "circuit position open "in which said movable and fixed contact areas are remote, said movable contact being coupled to said housing by an elastic member.

These vacuum interrupter bulbs commonly called switches, fuse switches or switches are intended to distribute electrical energy in electrical installations, or to control industrial equipment, in particular at medium and high voltage, but also at low voltage in a current range from a few hundred to a few thousand amps.

The vacuum interrupter bulbs consist of a sealed casing in which an air vacuum of the order of 10 ^"2 Pascal is created. These bulbs generally have a body carrying a fixed contact and a movable cover carrying a movable contact , the body and the cover being connected together by an elastic member guaranteeing a good tightness of the bulb while allowing the translation of the cover in the body and therefore the displacement of the movable contact. The fixed contact and the movable contact comprise zones contacts placed opposite one another. To close the electrical circuit, the movable contact secured to the cover is approached to the fixed contact to bring the movable contact area to bear on the fixed contact area. , the movable contact is moved to move the movable contact area away from the fixed contact area. In all known vacuum interrupters, the arrangement of the movable contact relative to the fixed contact and of the elastic means between the body and the cover is such that in the rest position, when no operating force is applied to the movable contact, the vacuum prevailing inside the sealed casing causes the elastic means to deform, which tends to bring the movable contact closer to the fixed contact and to close the electrical circuit. Consequently, the maneuvering force to be exerted on the movable contact to close the circuit is zero. To open the electrical circuit, the maneuvering force to be exerted on the movable contact must overcome this depression. Opening the electrical circuit therefore requires a large and permanent force and the speed of the opening maneuver is limited. In addition, this configuration limits, due to its geometry, the opening distance between the movable and fixed contact zones to a space of the order of 1 to 3 mm.

The present invention aims to overcome these drawbacks by proposing a vacuum interrupter bulb, the electrical circuit of which is open at rest, without any particular maneuvering effort, this bulb being able to offer, if necessary, a greater opening distance and making it possible to reach electrical characteristics comparable to those of existing vacuum interrupter bulbs, while having a smaller footprint and reduced cost.

For this purpose, the invention relates to a vacuum interrupter bulb as defined in the preamble, characterized in that the sealed housing, the fixed contact, the movable contact and the elastic means are arranged between them so that , under the effect of the vacuum existing inside said housing, the movable contact tends to move into the "open circuit position". According to a preferred embodiment of 1 Invention, the sealed housing comprises a hollow body defining an axis of symmetry A, a bottom, an opening and a cover closing the opening.

According to a first advantageous characteristic of 1 invention, the bottom is made of electrically conductive material, it has an electrical connection terminal and is electrically coupled to the fixed contact.

According to another advantageous characteristic of the invention, the movable contact is integral with the cover mounted to slide in the hollow body along the axis A.

According to another advantageous characteristic of the invention, the movable contact zone is arranged opposite the cover and the fixed contact zone is arranged opposite the bottom.

The hollow body is made of electrically insulating material and advantageously comprises on its internal face a separation means defining two chambers communicating with each other, a first chamber extending from the separation means at the bottom, a second chamber extending from the separation means at the cover.

According to a preferred embodiment, the separation means is formed by a shoulder of the hollow body.

According to an essential characteristic of the invention, the mobile and fixed contact zones are housed in the first chamber and the elastic member is housed in the second chamber. According to another essential characteristic of 1 invention, the elastic member has a first end secured to the separation means and a second end secured to the cover and it is arranged to seal between the hollow body and the cover.

The elastic member is preferably an air impermeable elastic membrane.

According to another preferred embodiment, the movable contact is made of electrically conductive material and comprises a rod of axis A carrying at one end a disc substantially perpendicular to the axis A on which is provided the movable contact zone and housed in said first chamber and, at the other end external to said sealed housing, an electrical connection terminal, this rod being secured to the cover.

According to another advantageous characteristic of the invention, the fixed contact comprises a jacket of axis A housed in the first chamber, one end of this jacket being in contact with the bottom and the other end comprising a ring substantially perpendicular to the axis A on which the fixed contact zone is provided, said ring defining a central bore of axis A through which the rod of the movable contact passes.

The crown preferably comprises at least one orifice separate from the central bore arranged to distribute the pressure between the first and second chambers.

The waterproof case preferably comprises a sole made of electrically insulating material disposed between the bottom and the movable contact.

The present invention and its advantages will appear more clearly in the following description of an exemplary embodiment, with reference to the appended drawings, in which: FIG. 1 represents a front view in section along the axis A of a vacuum interrupter bulb according to the invention in the open circuit position,

FIG. 2 is a view similar to FIG. 1, in the closed circuit position, and

- Figure 3 shows a bottom view of the vacuum interrupter bulb of Figure 1.

With reference to the figures, the vacuum interrupter bulb 1 according to the invention comprises, in a known manner, a sealed housing 2 in which are arranged a fixed contact 3, a movable contact 4, as well as an elastic member 5 associated with said movable contact 4 .

The sealed housing 2 comprises a hollow body 20, a bottom 21, an opening 22 and a cover 23 closing the opening 22 and movable axially in the hollow body 20.

The hollow body 20, preferably made of electrically insulating material, has the general shape of a portion of cylindrical tube defining an axis A and comprising a peripheral wall whose outer and inner faces are concentric. The shape of the hollow body 20 can obviously be different. Likewise, the peripheral wall may have a variable thickness.

The bottom 21, preferably made of electrically conductive material, comprises, in a plane substantially perpendicular to the axis A, an outer shape complementary to the inner shape of the hollow body 20, therefore preferably cylindrical. The outside diameter of the bottom 21 is slightly less than the inside diameter of the hollow body 20. The bottom 21 can thus fit into this hollow body 20 with which it can be made integral by application, for example, of an adhesive joint arranged in the junction area. The inside diameters of the hollow body 20 and the outside of the bottom 21 can also be substantially identical so that this bottom 21 can be force-fitted into the hollow body 20, so that they are secured by a rigid and sealed connection. The bottom 21 is extended by a connection terminal 8 intended to receive an electrical conductor (not shown).

In the example illustrated, the opening 22 is located at the end of the hollow body 20 opposite the bottom 21 and is delimited by the internal diameter of said hollow body 20. The cover 23 consists of a disc substantially perpendicular to the axis A and largely closes the opening 22 while preserving a clearance J with said hollow body 20. This clearance J allows the cover 23 to be moved axially along the axis A in said hollow body 20. As is will see thereafter, the cover 23 cooperates with the elastic member 5 to close the hollow body 20 in a sealed manner.

The hollow body 20 has on its inner face a separation means 24. In the example illustrated, this separation means 24 consists of an internal shoulder of the hollow body 20. In another embodiment not shown, this separation means 24 may also be in the form of a ring, a washer, a ring or any other component of suitable shape and dimensions and made of an electrically insulating material. In this other embodiment, the separation means 24 can for example be housed in a groove provided for this purpose in the hollow body 20. This separation means 24 separates the hollow body 20 into two chambers which communicate with each other . A first chamber 6 extends from the separation means 24 to the bottom 21. A second chamber 7 extends from the separation means 24 to the cover 23.

The elastic member 5 is in the form of a flexible, elastic, air-tight sleeve 50 housed in said second chamber 7 between the cover 23 and the separation means 24. The ends of this sleeve 50 are fixed to any their periphery, on the one hand to the cover 23 and on the other hand to the separation means 24. This fixing is carried out so as to seal the assembly formed by the hollow body 20, the elastic member 5 and the cover 23 The general external shape of the elastic member 5 is comparable to the internal shape of the hollow body 20, therefore preferably cylindrical. This elastic member 5 has only the function of ensuring the tightness of the housing 2. It can also constitute a return element associated with the movable contact 40 or be combined with a return means such as a tension spring or any other equivalent means.

The fixed contact 3, made of electrically conductive material, is housed in the chamber 6 of the hollow body 20 and comprises in particular a cylindrical jacket 34 whose outside diameter corresponds to the inside diameter of the hollow body 20. The fixed contact 3 also includes a ring 31 , substantially perpendicular to the axis A, integral with the end of said cylindrical jacket 34 opposite the opening 22. This ring 31 is supported on said separation means 24. It has a central bore 32 coaxial with axis A, as well as three orifices 33 distributed around this central bore 32 and intended to promote the distribution of the pressure between said first 6 and second 7 chambers. The number of orifices 33 can of course be different. The crown 31 is provided, on at least part of its surface facing the bottom 21, with at least one fixed contact area 30. The other end of the jacket 34 is free and placed in contact with the bottom 21 of the hollow body 20 so as to allow the passage of current between the electrical connection terminal 8 and the fixed contact 30.

The movable contact 4, made of electrically conductive material, comprises a rod 41 coaxial with the axis A and passing through the first 6 and second 7 chambers passing freely through the bore 32 and carrying at one end a disc 44 peφendicular to the axis A and arranged in the first chamber 6 between the bottom 21 and the fixed contact area 30. The other end of the rod 41 projects outside the waterproof housing 2 and is extended by an electrical connection terminal 9 allowing it to receive an electrical conductor (not shown). The movable contact 4 is provided on its disc 44 with at least one movable contact area 40 situated opposite the fixed contact area 30. This disc 44 can of course have another shape. The movable contact 4 is secured to the cover 23 by its rod 41 and slides in said hollow body 20 between a "closed circuit position" in which its movable contact area 40 is in contact with the fixed contact area 30 and a "circuit position open "in which said movable 40 and fixed 30 contact areas are distant.

The passage from the closed circuit position (see fig. 2) to the open circuit position (see fig. 1) of the movable contact 4 is achieved by an axial displacement along the axis A of the movable contact 4 secured to the cover 23. This displacement is obtained by the action of a return element (not shown) of the control mechanism combined with the vacuum generated by the air vacuum prevailing inside the housing 2. These two forces are oriented towards 1 Interior of the hollow coφs 20 and contribute to the displacement of the movable contact 4 without any particular maneuvering effort tending to compress the elastic member 5 and to move the movable contact 4 from the fixed contact 3 in the rest position. An operating force can possibly be applied in the same direction to facilitate and / or accelerate the movement of the movable contact 4. In this case, this operating force corresponds to a compressive force and is directly applied by 1 Via the rod 41 or of the cover 23 on the movable contact 4. It clearly appears that the opening of the electrical circuit does not require any particular maneuvering effort and can be carried out quickly. Indeed, it is clear from reading this description that the rest position of the vacuum interrupter bulb 1 corresponds to the open circuit position in which the opening distance between the movable and fixed contact areas 40 is greater than that obtained in the vacuum interrupter ampoules of the prior art. The passage from the open circuit position (cf. fig. 1) to the closed circuit (cf. fig. 2) is effected by application to the rod 41 or to the cover 23 of an operating force corresponding to a traction. This traction makes it possible to move the movable contact 4 so that its movable contact zone 40 comes to bear on the fixed contact zone 30. The intensity of this traction must be at least equal to the sum of the force applied to the cover 23 by the return element (not shown) of the control mechanism and of the vacuum prevailing inside the housing 2.

Maintaining the movable contact 4 in the closed circuit position is obtained by maintaining the operating force previously applied for the transition from the open circuit position to the closed circuit position.

It is then understood that the passage from the closed circuit position to the open circuit position, which corresponds to the rest position, is obtained by simply releasing this maneuvering force.

The waterproof case 2 can also include, between its bottom 21 and the movable contact 4, a sole 25 made of electrically insulating material. This sole 25 avoids any risk of contact between the movable contact 4 and the bottom 21 when the movable contact 4 is in the open circuit position.

In the example illustrated, the mobile 40 and fixed contact zones 30 are planar and substantially perpendicular to the axis A. It is obvious that each fixed contact zone 30 and / or mobile 40 can consist of one or more smaller areas, of variable dimensions and shapes according to the needs and electrotechnical constraints of 1 Electrical installation. Likewise, these movable 40 and fixed 30 contact zones can be inclined so as to form an inner cone for one, an outer cone for the other. The movable 40 and fixed 30 contact zones may also include added pads or pads, arranged on one or on the two movable 4 and fixed contacts 3. In the case where the studs are arranged on only one of the movable 4 or fixed 3 contacts, the contact area of the other fixed 3 or movable 4 contact may have a complementary, planar shape, or any other form allowing the movable contact 4 to rest on the fixed contact 3. These examples are not limiting.

To facilitate the mounting of the movable contact 4 with respect to the fixed contact 3, 1 n or the two movable 4 and fixed contact 3 may consist of several parts. Thus, the fixed contact 3 can consist of two complementary half-shells or of two separate parts such as the crown 31 and the jacket 34. Likewise, the movable contact 4 can consist of several parts, for example three parts, the cover 23, the rod 41 and the disc 44. These parts can be assembled by any means known to be removable or not.

Secondary sealing means can be added in addition to the elastic member 5. They can be arranged between the cover 23 and the hollow shell 20 and / or between the movable contact 4 and the fixed contact 3. These sealing means Secondary may include a joint, a tight fit, or any other equivalent means.

The present invention is not limited to the embodiment described but extends to any modification and variant obvious to a person skilled in the art.

Claims

claims

1. Vacuum interrupter bulb (1) comprising at least one sealed housing (2) in which is housed at least one fixed contact (3) provided with at least one fixed contact zone (30), at least one movable contact ( 4) provided with at least one movable contact area (40) situated opposite said fixed contact area (30), said movable contact (4) being arranged to move between a "closed circuit position" in which said area contact contact (40) is supported on said fixed contact area (30) and an "open circuit position" in which said mobile (40) and fixed (30) contact areas are distant, said movable contact (4) being coupled to said housing (2) by an elastic member (5), characterized in that said sealed housing (2), said fixed contact (3), said movable contact (4) and said elastic means (5) are disposed between them such that, under the effect of the vacuum existing inside said housing, said movable contact (4) t end to move into said "open circuit position".

2. Bulb according to claim 1, characterized in that said sealed housing (2) comprises a hollow coφs (20) defining an axis of symmetry A, a bottom (21), an opening (22) and a cover (23) closing said opening (22).

3. Bulb according to claim 2, characterized in that said bottom (21) is made of electrically conductive material, has an electrical connection terminal (8) and is electrically coupled to said fixed contact (3).

4. Bulb according to claim 2, characterized in that said movable contact (4) is integral with said cover (23) slidably mounted in said hollow coφs (20) along the axis A.

5. Bulb according to claim 4, characterized in that said movable contact area (40) is arranged opposite said cover (23) and in that said fixed contact area (30) is arranged opposite said bottom (21) .

6. Bulb according to claim 2, characterized in that said hollow coφs (20) comprises on its internal face a separation means (24) defining two chambers communicating with each other, a first chamber (6) extending from said separation means (24) at said bottom (21), a second chamber (7) extending from said separation means (24) to said cover (23) and, in that said hollow shell (20) is made of electrically insulating material .

7. Bulb according to claim 6, characterized in that said separation means (24) is formed by a shoulder of said hollow coφs (20).

8. Bulb according to claim 6, characterized in that said movable (40) and fixed (30) contact zones are housed in said first chamber (6) and that said elastic member (5) is housed in said second chamber (7 ).

9. Bulb according to claim 6, characterized in that said elastic member (5) has a first end secured to said separation means (24) and a second end secured to said cover (23), said elastic member (5) being arranged to sealing between said hollow coφs (20) and said cover (23).

10. Bulb according to claim 9, characterized in that said elastic member (5) is an elastic membrane impermeable to air.

11. Bulb according to claim 6, characterized in that said movable contact (4) is made of electrically conductive material and comprises a rod (41) of axis A carrying at one end a disc (44) substantially peφendicular to the axis A on which is provided the movable contact zone and housed in said first chamber (6) and, at the other end external to said sealed housing (2), an electrical connection terminal (9), said rod (41) being integral with said cover (23).

12. Bulb according to claim 6, characterized in that said fixed contact (3) comprises a jacket (34) of axis A housed in said first chamber (6), one end of this jacket (34) being in contact with said bottom (21) and the other end of this jacket (34) comprising a ring (31) substantially peφendicular to the axis A on which said fixed contact zone (30) is provided, said ring (31) defining a central bore (32) of axis A traversed by said rod (41) of said movable contact (4).

13. Bulb according to claims 12, characterized in that said crown (31) comprises at least one orifice (33) distinct from said central bore (32) and arranged to distribute the pressure between said first (6) and second (7) chambers .

14. Bulb according to one of claims 2 to 13, characterized in that said sealed housing (2) comprises a sole (25) made of electrically insulating material and disposed between said bottom (21) and said movable contact (4).