EP1288990A2 - Switching contact arrangement with a spring force acting in the closing direction and in the opening direction - Google Patents

Abstract

Springs (16, 17) are arranged on opposite sides of the contact lever (5). One (16) acts in the opening direction. The other (17), which provides contacting force, acts in the direction of closure.

Description

The invention relates to a switch contact arrangement with a fixed switch contact and with a cooperating with it Contact lever on a pivoted Contact carrier is arranged movably, between which Contact lever and the contact carrier acts a spring force that the contact lever on the one hand in a dead center position Closing direction and on the other hand the dead center position in Direction of opening applied.

A switch contact arrangement of this type is through the US 4,845,459 became known. It has the property that the contact lever jumps from the closed position can be transferred to the open position without it this requires actuation of the contact carrier. Therefore suitable a contact arrangement of the present type in particular for current limiting circuit breakers where one Contact opening as quickly as possible is desirable if a very high current, especially a short-circuit current, occurs.

Compared to numerous other known switch contact arrangements, which has a current-limiting opening in their contact levers enable, the system explained above stands out characterized by great mechanical simplicity. This preference stands however, compared to that the contact lever is an indifferent one Position, namely the dead center position, can take if the spring force on the pivot bearing of the contact lever on the contact carrier is directed. In most cases this will pass through the indifferent position of the contact lever without any problems, because after the action of a contact-lifting force on the contact lever this is set in motion and with its kinetic energy passes through the dead center. It is however, it does not rule out that the contact-withdrawing force is lower and the kinetic energy just when reached the dead center position is consumed. Likewise undesirable is a process in which the contact lever by a contact-lifting Force initially also from the closed Position is lifted, but neither the dead center position reached still exceeds and therefore subsequently in the closed Position returns. Due to the now ignited Switching arc is then a risk that glue or weld the switch contacts together and thus significant damage to the circuit breaker arises.

Proceeding from this, the invention is based on the object the switching contact arrangement mentioned at the beginning with a spring force, that both in the closing direction and in the opening direction acts to improve in such a way that an inevitable indifferent area is as small as possible, d. H. itself over a smaller swivel angle of the contact lever extends than before.

According to the invention, this object is achieved in that to apply the spring force two on opposite Springs arranged on the sides of the contact lever are provided, such that one of the springs (hold-open spring) in the sense the opening and the other spring (contact force spring) in the sense the closing of the contact lever works.

In addition to the desired reduction of the indifferent Pivot angle of the contact lever enables the invention the closing and opening forces by choosing suitable ones To measure the spring independently within certain limits and thereby also in this respect compared to the known one Contact arrangement to achieve an improvement.

In the context of the invention it is recommended that the effective Lever arm of the two springs with respect to a pivot bearing of the Contact lever on the contact carrier in the end positions of the contact lever has approximately the value zero in such a way that the im Sense of the opening of the contact lever acting spring in the Closed position of the contact lever and in the sense of Closing spring in the open position of the contact lever is essentially ineffective. In this way the two springs come into effect individually.

As is the case with the contact arrangement mentioned at the outset is known are suitable for the purposes of the invention helical compression springs. In one embodiment of the invention both springs are designed as helical compression springs, which are arranged on the one hand on the contact carrier Abutment and on the other hand on a boom of the contact lever with one depending on the pivoting of the contact lever support variable effective lever arm. In order to stand in the design of a current-limiting switch contact arrangement clear and easy to calculate parameters for Available, in particular the properties of the springs and the relative position of the abutments on the contact carrier and Boom on the contact lever and the alignment of these abutments and boom on the pivot bearing of the contact lever on Contact support.

The invention is described below with reference to that in the figures illustrated embodiment explained in more detail.

1 shows a schematic representation of a current-limiting switch contact arrangement of a low-voltage circuit breaker in the closed position.

FIG. 2 shows a representation corresponding to FIG. 1 the switching contact arrangement with the contact lever open and unchanged position of the contact carrier with respect to FIG. 1.

Figure 3 shows the switch contact arrangement in the open Position, as in the normal operation of the switch contact arrangement is effected by a drive.

The known assemblies of a switch contact arrangement are in 1 simplified, but in an actual Conditions in a low-voltage circuit breaker, for example corresponding positions are shown. Accordingly an upper connecting rail 1 and a lower one extend Connection rail 2 parallel to each other and protrude from one Dashed housing 3 of a circuit breaker out. The upper connecting rail 1 carries a fixed one Switch contact 4, with which a movable contact lever 5 interacts. This can be moved around a pivot bearing 6, that on a turn mounted contact carrier 7 is arranged. The pivot bearing 8 of the contact carrier 7 is located in a known manner near the inside End of the lower connecting bar 2. Also in a known one Way extends between the end of the contact lever 5 and the lower connecting bar 2 a flexible conductor 10, which completes the circuit of the circuit breaker.

For actuating the switch contact arrangement in normal operation serves a shift shaft 11 with a driving lever sitting thereon 12, which is articulated with one attached to the contact carrier 7 pivotable coupling plate 13 is connected. By a Swiveling the control shaft 11 clockwise will be consisting of the lever arm 12 and the coupling plate 13 existing knee lever system stretched and thus the switch contact arrangement closed. Accordingly, swiveling causes Switch shaft 11 counterclockwise a stronger buckling consisting of the drive lever 12 and the coupling plate 13 Toggle lever system and thus a pivoting of the Contact carrier 7 around its pivot bearing 8. The contact lever 5 lifted off the fixed switch contact 4.

The contact lever 5 has between its contact End and its pivot bearing 6 arranged boom 14 and 15, which are on opposite sides of the contact lever 5 extend. Two springs engage on these arms 14 and 15 16 or 17 on, which thus also on opposite Sides of the contact lever 5. The outrigger 14 and 15 opposite ends of the springs 16 and 17 are supported on abutments 18 and 20 on the contact carrier 7 are arranged. The springs 16 and 17 are as Helical compression springs are designed and are shown below according to their function as open spring 16 or as Contact force spring 17 designated.

To understand the mode of operation of the switch contact arrangement shown reference is first made to FIG. 1, which the closed state of the switch contact arrangement shows. As you can see, the design of the boom 14 and the arrangement of the abutment 18 achieved that the force of the open spring 16 on the pivot bearing 6 of the Contact lever 5 is directed and thus the effective lever arm b has the value zero. Thus, the open spring has in this position 16 no effect on the contact lever 5. In contrast is also determined by the dimensioning of the boom 15 and the abutment 20 such an alignment of the contact force spring 17 achieves that an effective lever arm a with respect of the pivot bearing 6 occurs. The properties of the contact force spring 17 in conjunction with lever arm a thus the between the contact lever 5 and the fixed Switch contact 4 occurring contact force.

In the following consideration of FIG. 2, it is assumed that that through one over the switch contact arrangement flowing high current (short circuit current) a contact-withdrawing Force occurs. Although these are already blunt on each other bumping contact pieces can occur, additional Means, e.g. B. the one shown in the above-mentioned US 4,845,459 Current loop, to enlarge the contact-withdrawing Force should be provided. Means of this kind are for the purposes the invention can be used as desired and are not explained in more detail, since it trusts the expert in numerous modifications are. The interaction, however, is essential for the invention one acting on the contact lever 5 current-dependent Opening force with the open spring 16 and the Contact force spring 17. This changes the Direction of action of both springs in the sense that the effective lever arm b of the open spring 16 from the original Zero value increased to an effective amount while the effective lever arm a of the contact force spring 17 to the value is reduced to zero. Because of the effectiveness of both Springs 16 and 17, the indifferent area is essential smaller than in the known switch contact arrangement with a common for both positions of the contact lever Feather.

With the normal opening of the switch contact arrangement by means of the switching shaft 11 according to FIG. 3 remains the relative one Position of the hold-open spring 16, the contact force spring 17 and the contact lever 5 to the contact carrier 7. This starting position is again in a known manner produce if due to an electrodynamic force effect the position according to FIG. 2 has been reached. This can be done by a stop against which the contact lever 5 comes across when following the electrodynamic Opening according to Figure 2 then the opening by rotation of the control shaft 11 in accordance with FIG. 3 becomes.

LIST OF REFERENCE NUMBERS

1

upper connecting rail

2

lower connecting rail

3

Circuit breaker housing

4

fixed switch contact

5

movable contact lever

6

Swivel bearing of the contact lever 5

7

contact support

8th

Swivel bearing of the contact carrier 7

10

flexible conductor

11

shift shaft

12

driving lever

13

coupling tab

14

Boom for open spring 16

15

Boom for contact force spring 17

16

Open retaining spring

17

Contact force spring

18

Abutment of the open spring 16

20

Abutment of the contact force spring 17

Claims (3)

Switching contact arrangement with a fixed switching contact (4) and with a cooperating with this contact lever (5) which is movably arranged on a pivotably mounted contact carrier (7), a spring force acting between the contact lever (5) and the contact carrier (7) the contact lever (5) acts on the one hand a dead center position in the closing direction and on the other hand the dead center position in the opening direction,
characterized in that two springs arranged on opposite sides of the contact lever (5) are provided for applying the spring force, such that one of the springs (hold-open spring 16) in the sense of the opening and the other spring (contact force spring 17) in the sense of closing the Contact lever (5) acts. Switch contact arrangement according to claim 1,
characterized in that the effective lever arm of the two springs (hold-open spring 16, contact force spring 17) with respect to a pivot bearing (6) of the contact lever (5) on the contact carrier (7) in the end positions of the contact lever (5) has approximately the value zero, such that the spring (open spring 16) acting in the sense of the opening of the contact lever (5) in the closed position of the contact lever (5) and the spring acting in the sense of closing (contact force spring 17) in the open position of the contact lever (5) are essentially ineffective. Switch contact arrangement according to claim 1 or 2,
characterized in that the springs (hold-open spring 17, contact force spring 17) are designed as helical compression springs which are located on the one hand on an abutment (18; 20) arranged on the contact carrier (7) and on the other hand on an extension arm (14; 15) of the contact lever ( 5) support with an effective lever arm that varies depending on the pivoting of the contact lever (5).

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