NO319046B1 - Switch for use in SF <N> 6 </N> medium voltage distribution system - Google Patents

Abstract

The switch has a contact blade (1), a fixed contact and an arc-quenching device. The contact blade has a contact surface (8) is formed by a contact head (10) which is considerably thicker than a shaft (7). The contact head includes a tip (11) made of a material that is resistant to high temperatures as it is subjected to heat due to arcing when switching.

Description

The invention relates to a switch for use in SF6 distribution systems for medium voltage, such as a circuit breaker with three positions, whose respective phases are assigned to an arc extinguishing device, in particular as stated in the introduction to the attached patent claim 1.

A circuit breaker with three positions that has the positions PA-OFF-GROUND must, with its contact system, be able to carry and break rated and short-circuit currents without the contacts fusing together or failing mechanically. The switching capability is ensured, among other things, by the fact that the arcs that occur when switching between the fixed contacts and the movable release contacts for the respective phases are made as short as possible and extinguished quickly with the help of an arc extinguishing device, so that the temperature load on the contacts remains low. Considerable force is required to change the movable release contacts in a circuit breaker with three positions.

Burn-down of the contacts caused by high temperature stress is prevented in a known manner by using contacts that consist of a material resistant to metal loss. Thus, an electrical contact for a high-voltage switch in the form of a sintered product is known from the publication AT 228 318. Tungsten powder is then mixed with a metallic binding phase of iron/nickel or copper/nickel, which is sintered in a reducing atmosphere where the proportion of tungsten amounts to 85 - 95%. From the publication CH 49 70 34 it is known an electrical contact produced by impregnating a tungsten skeletal body with a copper/chromium alloy. During the impregnation process, the copper/chromium alloy penetrates into the porous tungsten skeletal body. DE 40 40 902 C2 and DE patent no. 23 53 627 describe load disconnect switches of the "rocker tube type", where the fixed contacts can consist of an impregnated tungsten/copper alloy with 30% copper.

Several switch devices of a similar nature are known from e.g. the publications DE 38 20 489 WO 98/06120, FR 2 048 151, US 5 013 876 and EP 0 420 609, of which the two former are considered to be the most relevant, but these nevertheless do not solve the present task as does the present invention.

The task of the invention is to provide a switch with movable release contacts designed as contact blades for use in an SF6 distribution system for medium voltage according to the preamble to appended patent claim 1, which is easier to reset and whose burn-down strength is increased by securing the performance with continuous current.

This task is solved with a switch which has the special features which are specified after the introduction to the attached patent claim 1. Further embodiments are specified in the independent patent claims.

In the usual way, a switch of this type is made with at least a contact blade and a release contact that can be operated via a coupling shaft, a fixed contact and an arc extinguishing device. The invention then consists in that a pivotably supported shaft and a contact surface for the contact blade which exhibits the fixed contact, which is formed mainly in a plane at right angles to the axis of rotation, is designed in such a way that the contact surface is designed on a contact head that is significantly thicker in relation to the shaft and which, in view of an arc formed by switching, partly consists of a burn-resistant, high-temperature-resistant tungsten/copper alloy.

This design of the contact blades makes it possible to greatly reduce the mass of the trigger contacts and thus reduce the drive energy for this switching movement. The performance with permanent current is ensured by the fact that the contact surface for the fixed contact is formed on that of the contact head, which consists of copper. The part of the contact head that consists of the tungsten/copper alloy increases the release contact's heat resistance in the area hit by an electric arc and prevents burn-down of the release contact in this area.

It is appropriate to also manufacture the fixed contact from a tungsten/copper alloy in the area where it is hit by the arc that is formed during switching, in order to also increase its heat resistance and in this way prevent the contacts from melting together. As a tungsten/copper alloy, a known impregnated alloy with 30% copper can be used, as the parts of the contact head and the fixed contact which consist of this alloy are produced separately and soldered onto the other head part.

On the side facing the fixed contact, the contact head has a rounded design so that the current transition can take place between the copper area of the contact head and the copper contact surface of the fixed contact, while the contact blade, at least in the area of the contact head, can be slotted in the longitudinal direction to divide the current that must be conducted.

Since the arc has its starting point on the trigger contact side and on the fixed contact side, it is appropriate to design a surface on each contact in a specific way, so that the surface occupies the respective starting point mainly at right angles to the arc.

In order to dampen the impact of the trigger contact in the relevant end position during a movement of the trigger contact, it is advantageous to arrange a shock absorber in the specific end position.

With the help of design examples, the invention will now be explained in more detail with reference to associated schematic drawings, in which: Fig. 1 shows a phase in a circuit breaker with three positions and which has an extinguishing coil, in

switch position ON,

fig. 2 shows a movement phase for the movable release contact between the switch positions

ON and OFF,

fig. 3 shows the phase in the GROUNDED switch position,

fig. 4 shows the release contact when it is in the switch ON position, viewed from the OFF position,

fig. 5a - 5b show the top of the trigger contact in different positions relative to it

permanent contact,

fig. 6a and 6b show a contact sheet seen from two sides, and

fig. 7a and 7b show further embodiments of the contact blade.

In fig. 1 shows a circuit breaker with three positions and which has an operable trigger contact formed by a head consisting of two parallel arranged contact blades 1 (also fig. 4), a fixed contact 2 and an extinguishing coil 3. The contact blades 1 which form the trigger contact one is pivotably arranged about a pivot axis S and can be operated together via a drive rod 4 and an eccentric vane 6 which is rotatably connected to a coupling shaft 5. They both have a shaft 7 and a contact surface 8 which corresponds to the fixed contact 2 and which, as as two contact surfaces 9 which lie opposite each other on the fixed contact 2, are designed in a plane at right angles to the axis of rotation S. Fig. 4 shows that these are designed on a contact head 10 which is significantly thicker than the shaft 7. The thickness of the contact head amounts to about one and a half to three times the thickness of the shaft. The contact head 10 consists of copper and at the outer end has a contact piece 11 of an impregnated tungsten/copper alloy with 30% copper which can withstand high temperatures and which is exposed to a high thermal load during conversion due to the arc that is formed. On the fixed contact side, the contact head 10 has a rounded design and is pressed by means of a spring force F against the fixed contact 2. This consists of copper and likewise exhibits, in the area corresponding to the contact piece 11 on the contact head 10, a contact piece 12 consisting of the aforementioned impregnated tungsten/copper -alloy that can withstand high temperatures. The contact piece 11 rests against a shock absorber 13.

In fig. 2, the switch is shown in a movement phase between the switch position ON and OFF. Between the contact pieces 11 and 12 on the two trigger contacts 1 and 2, an arc LB is formed which each has its starting points on a surface 14 and 15 on the respective contact pieces 11 and 12 which are designed mainly at right angles to the arc.

Fig. 3 shows the trigger contact 1 when in the EARTHED switch position it rests against an earthing contact 16 and shock absorber 17. The contact piece 11 on the visible contact blade 1 corresponds to an area 18 designed on the earthing contact.

In fig. 6a and 6b, a contact blade 1 is shown from the side and from the front, respectively. In the last-mentioned figure, a slit 19 can be seen formed in the longitudinal direction in the middle of an area of the contact head 10, which serves for current sharing. Fig. 7a and 7b show further alternative embodiments of a contact blade 1 which has a different design of the tungsten/copper contact piece. In relation to the embodiment described above, in fig. 7a shows a contact piece 20 which has been reduced to the front edge of the contact head 10, while fig. 7b shows a contact piece in the form of a half side peak 21.

If the trigger contact is now moved from the switch position ON (fig. 1, fig. 5a) in the direction of the switch position OFF, it runs through the movement phase shown in fig. 5b, where the contact pieces 11 and 12 are separated from each other and the respective contact pieces 11 move towards each other by an amount f due to the applied spring force F. This results in arcs LB between the contact piece 12 and the contact pieces 11, which from their respective starting points run at right angles on the surface formed on the contact pieces (fig. 2, fig. 5c). Because the contact pieces 11 (20, 21) and 12 consist of the impregnated tungsten/copper alloy with 30% copper, which can withstand high temperatures, burn-down of the contacts 1 and 2 is avoided.

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Claims (6)

1. Switch for use in SF6 distribution systems for medium voltage formed by an operable release contact with two parallel contact blades (1), a fixed contact (2) and an arc extinguishing device (3), each contact blade (1) having a rotatably supported shaft ( 7) and a surface (8) to create contact with the fixed contact (2) and which lies in a plane mainly at right angles to the axis of rotation of the contact blade (S), and where the parts of both the contact blades (1) and the fixed contact (2) ) which is thermally stressed by an electric arc (LB) which is formed when the switch is switched on, consists of a material that can withstand high temperature, characterized in that the contact surface (8) on the individual contact blade (1) is made on a contact head (10) which is substantially thicker than the contact blade's shaft (7), as the part (11, 20, 21) of the contact blade (1) which consists of a material that can withstand high temperature, at least partially forms the end part of the contact blade's head (10) which is located farthest from the contact blade's axis of rotation (S). 2. Switch as stated in claim 1, and where the part (12) of the fixed contact (2) which consists of a material that can withstand high temperature, forms a surface (15) on the fixed contact, which is mainly at right angles to a arc (LB) which, when the switch is switched, is formed between the surface and the aforementioned end part of the head of the contact blade (10). 3. Switches as stated in claim 1 or 2, and where the material that can withstand high temperature is an impregnated tungsten/copper alloy with 30% copper. 4. Switch as stated in claim 1, and where the contact head (10) has a rounded shape on the side facing the fixed contact (12). 5. Switch as stated in claim 1, and where the contact blade (1) has a longitudinal slit (19) which runs from the contact blade shaft (7) into the contact head (10). 6. Switch as stated in one or more of the preceding requirements, and where a shock absorber (13, 17) for the contact head (10) is arranged in the defined end positions (ON, GROUNDED) of the trigger contact.