EP2016601A1 - Power switch, especially high-current switch - Google Patents

Abstract

A fixed contact (12) links to a first conductor rail (6) via a first means (13) of connection. A moving contact (8) links to a second conductor rail (7) on a pole unit via a second means (11) of connection. The first means of connection are welded to the first conductor rail and the fixed contact. The second means of connection are welded to the second conductor rail and the moving contact.

Description

description

Circuit breaker, in particular high current switch

The invention relates to a circuit breaker, in particular a high-current switch, having at least one pole unit with a pole head and a pole carrier and a vacuum interrupter arranged therebetween with a fixed contact and a moving contact, wherein the fixed contact via a first connection means with a first busbar of the pole unit and the moving contact are connected via a second connection means with a second bus bar of the pole unit.

Such a circuit breaker is known for example from Siemens publication "Siemens HG 11.11 1999" is known. The disclosed therein high-current switch as the power switch includes fully three pole units, each with a pole head and a pole base and one each interposed vacuum ^¬ interrupter. A fixed contact and a moving contact In order to connect the contacts to the busbars, in this previously known circuit breaker connecting means are screwed on the one hand to the respective contact and on the other hand to the respective busbar.

Object of the present invention is to develop a circuit breaker of the type mentioned, which has a higher current carrying capacity.

According to the invention this object is, are that the first terminal means to the first power rail and the fixed contact and the second connection means rail to the second power ^¬ and welded to the moving contact at a power scarf ^¬ ter of the aforementioned type characterized. By the welds between the first connection means and the first busbar and the fixed contact and zwi ^¬ tween the second connection means and the second busbar and the moving contact positively and cohesive connection areas are formed. By this force-locking and material-locking connection areas, the current path from the first power rail via the Va ^¬ kuumschaltröhre to the second busbar, a sufficient mechanical stability and is particularly without screw connections in the region of the connection means. This is therefore advantageous because the temperature at the screw connections no more than 65 to 75 degrees Kelvin above the surrounding ^¬ should be ambient temperature of the circuit breaker. By welding eliminates this problem, whereby the current carrying capacity of the entire circuit breaker is significantly increased.

In a preferred embodiment, the second busbar to a flexible conductor and is welded to the flexible conductor and the second connection means.

In a particularly preferred embodiment, the attachment means are electron beam welded. Electron beam welding is particularly advantageous because the weld ^{seams ¬ be} executed in high precision.

The invention will hereinafter the drawing and an embodiment with reference with reference to the accompanying ^¬ Fi gures explained in more detail. Show it:

Figure 1 is a cross-sectional view of a power switch according to the invention; Figure 2 is a detail view in the region of the fixed contact; and

3 shows a detailed view in the region of the moving contact.

Figure 1 shows a high current switch as a circuit breaker for high current applications in a cross-sectional view. The circuit breaker 1 comprises three pole units for the three phases of an alternating current to be switched, of which only one polar unit is shown in FIG. 2. The pole unit 2 comprises a pole head 3 and a Polträ ^¬ ger 4, between which a contact system 5 in the form of a vacuum interrupter 5 for switching a current between a first bus bar 6 and a second bus bar 7 of the pole unit 2 is arranged. A moving contact 8 of the vacuum ^¬ interrupter 5 is connected via a drive linkage with a drive unit 9 to ^¬ 10 coupled to the circuit breaker, wherein the drive unit 10 is formed for initiating a shifting movement into the moving contact 8 of the contact system. 5 The Be ^¬ wegkontakt 8 is connected by means of second connection means 11 with the second busbar 7. A fixed contact 12 of the Va ^¬ kuumschaltröhre 5 is electrically connected via first connection means 13 to the first bus bar 6. The poi-unit is fixed by means of support means 14 and 15 to a retaining wall 16 of the circuit breaker 1.

Figure 2 shows a cross-sectional view of a Detaildarstel ^¬ development in the area of the fixed contact 12 of the vacuum interrupter 5. The fixed contact 12 of the vacuum interrupter is 5-cylindrical in form of a zy ^¬ bolt with the first connecting means 13 in the form of a copper shaped plate having a bolt of the fixed contact 12 has corresponding recess in the Be ^¬ rich 17 encircling electron ^{beam welded} , creating a non-positive and cohesive connection between the fixed contact 12 and the second connection means 13 is formed. Furthermore, the second connection means 13 is also electron beam welded to the first busbars 6 in the region 18. To stabilize an aluminum spacer 19 is disposed between the busbars.

Figure 3 shows a detailed view in the region of Bewegkontak ^¬ tes of the vacuum interrupter 5 of the Figure 1. The movable contact 8 is connected at its tapered end 20 in the area 21 circumferentially to the second connection means 11 in form of a kupferförmi- gen plate with a bolt 20 of the Moving contact 8 ent ^¬ speaking recess electron beam welded. Flexible current conductors 22 and 23 are also electron beam-welded in the areas 24 to the second connection means 11 and beam welded at 26 and 27 electrons with the second bus bar 7 ^¬. By the non-positive and cohesive Ver ^¬ bond in the areas 21, 24, 25, 26 and 27 of flexible conductors 22 and 23 and the clock 8 Bewegkon- no further glands as Befestigungsmit ^¬ tel are necessary in the field.

As can be seen from FIG. 1, the pole head 3 and the pole carrier 4 are provided with cooling bodies 3a and 4a, respectively, which serve to dissipate the heat generated by the high currents in the region of the fixed contact 12 and the moving contact 8, respectively. For connection of the high-current switch 1 fastening means 28 are provided on the first current ^¬ rail 6 and fastening means 29 on the second current ^¬ rail 7, which are respectively provided for screwing the first busbar 6 and the second busbar 7, for example with busbars of a switchgear. By the heat sinks 3a and 4a, the temperature of the current-carrying parts is lowered such that in the region of the screw 28 and 29, the Temperature is in the required range of less than 65 to 75 degrees Kelvin above ambient temperature.

Reference symbol

1 power switch

2 pole unit

3 pole head

4 pole carriers

5 vacuum tube

6 First busbar

7 Second busbar

8 moving contact

9 drive linkage

10 drive unit

11 Second connection means

12 fixed contact

13 First connection means

14, 15 support facilities

16, retaining wall

17, 18 connection areas

19 stabilizing element

20 moving contact pins

21 connection areas

22, 23 Flexible conductors

24, 25, 26, 27 connection areas

28, 29 fasteners

3a, 4a heat sink

Claims

claims 1. Circuit-breaker, in particular high-current switch having at least one pole unit (2) with a pole head (3) and a pole carrier (4) and a vacuum interrupter (5) arranged therebetween with a fixed contact (12) and a moving contact (8, 20), wherein the fixed contact (12) via a first at ^¬ circuit means (13) having a first busbar (6) of the pole ^¬ unit (2) and the moving contact (8) via a second check circuit means (11) to a second power rail (7) Pole unit (2) are connected, characterized in that the first connection means (13) with the first busbar (6) and the fixed contact (12) and the second connection means (11) with the second busbar (7) and the Bewegkon ^¬ tact (8, 20) are welded. 2. A circuit breaker according to claim 1, characterized in that the second bus bar (7) has a flexible conductor (22, 23) and is welded to the flexible conductor (22, 23) and the second connection means (11). 3. The circuit breaker according to claim 1 or 2, characterized in that the connecting means (11, 13) are electron beam welded.