DE9206137U1 - Circuit breaker with a switch lock - Google Patents

Description

92 G 3 2 3 3 OE

Siemens AG

Circuit breaker with a switch lock

The innovation relates to a circuit breaker with a switch lock with a release spring, which acts on a switch shaft, and movable contact parts that can be acted upon by this.

Such a circuit breaker is known from DE-GM 87 01 048. In such a circuit breaker, the innovation is to minimize the load on the switch lock with a simple design. This is achieved in a simple way by the switching shaft in the off direction of the switch acting on separate, translationally guided contact bridges that are spring-loaded in the closing direction in such a way that the force of the corresponding switch-off spring is as great as possible by changing the effective lever arm in the off position and the torque acting on the switching shaft is as small as possible in the on position with a small lever arm. In order to achieve a defined straight line of action of the switch-off spring regardless of the angular position of the switching shaft, it is advantageous if the switch-off pressure spring has an anti-kink guide. A simple design has proven to be advantageous here, which consists in the anti-kink guide consisting of two similarly designed guide parts that snap into one another and are inserted into the switch-off pressure spring. In order to achieve a pure rolling movement on the contact surfaces between the active connection and thus minimize friction losses and abrasion, it is advantageous if the active lever connection is made via involute flanks. If a number of intermediate levers corresponding to the number of poles of the switch is provided between the switching shaft and the actuating plunger for the contact bridges,

92 G 3 2 3 3 OE

which are connected to the switching shaft via the involute flanks, this has the advantage that the bridge contact load of the individual poles can be measured separately in a simple manner. It is also advantageous if recesses are provided in the switching shaft through which the pressure on the intermediate levers can be measured directly.

The drawing describes an embodiment according to the innovation.

Show it:

FIG 1 shows the circuit breaker's switch lock in the switched-on state in a basic representation, FIG 2 shows the switch lock in the off position, FIG 3 shows the switch-off spring with guide parts snapped into one another, partly in section, and

FIG A the circuit breaker, partly in section, with recesses in the switching shaft for measuring the bridge contact loads.

The circuit breaker switch lock shown in the drawing consists of the rocker arm 1, a U-bracket 2, a latch 3, a latch lever 4 and a connecting lever 5 for connection to the shaft 6. The shaft 6 corresponds to the switching shaft in the state of the art described above. While in the state of the art the movable switching pieces are mounted directly in the switching shaft, in the subject of the innovation the rotary movement of the shaft 6 is transmitted via individual levers 9 to three translatorily movable double contact bridges 11 that can be controlled via plungers 10. A switching-off spring 8, guided on guide parts 7 to prevent buckling, is supported on the one hand on the housing of the circuit breaker and on the other hand on the shaft 6. Contact load springs 12 act on the contact bridges in the closing direction. If the switching

92 G 3 2 3 3 OE

lock is brought into the off position, i.e. into the position shown in FIG 2, the switch-off spring relaxes and acts directly against the contact load spring 12 acting on the contact bridges. As can be seen from the comparison of FIGS 1 and 2, the effective lever arm s changes between s on and s off, so that in the off position the force of the relaxed switch-off spring is as great as possible in order to be able to press the contact load springs fully open. On the other hand, in the on position the small lever arm s on minimizes the torque acting on the shaft 6 through the tensioned switch-off springs and thus the load on the switch lock. The fact that the switch-off spring is guided over two identical, interlocking guide parts 7 prevents the spring from buckling. A defined straight line of action of the switch-off spring is achieved regardless of the angular position of the shaft 6. In addition, this pre-tensioning of the switch-off spring enables the spring to be easily installed. In FIG 1, a and b indicate the contact surfaces of the active connection, i.e. on the shaft 6 and on the levers 9.

They are designed as involute flanks. This results in a pure rolling movement and thus minimizes friction losses and abrasion. In order to be able to measure the contact load of the individual contact bridges and the stroke in a simple manner, recesses 13 are provided in the shaft 6 through which a plunger IA can be inserted with the switch fully assembled and the cover removed to measure the bridge contact load FK or the contact stroke H individually for each pole of the switch.

Claims (6)

92 6 3 2 3 3 OE Protection claims 1. Circuit breaker with a switch lock with a switch-off spring, which acts on a switch shaft, and movable contact parts that can be acted upon by the latter, characterized in that the switch shaft (6) acts in the off direction of the switch on separate, translationally guided contact bridges (11) that are spring-loaded in the closing direction in such a way that by changing the effective lever arm in the off position, the force of the corresponding switch-off spring (8) is as large as possible and in the on position with a small lever arm, the torque acting on the switch shaft (6) is as small as possible. 2. Circuit breaker according to claim 1, characterized in that the switch-off pressure spring (8) has an anti-kink guide (7). 3. Circuit breaker according to claim 2, characterized in that the anti-kink guide consists of two identically designed guide parts snapped into one another and inserted into the switch-off pressure spring (8). 4. Circuit breaker according to one of the preceding claims, characterized in that the active lever connection (6, 9) is made via involute flanks. 5. Circuit breaker according to claim 4, characterized in that between the switching shaft (6) and the actuating plunger (10) for the contact bridges (11) a number of intermediate levers (9) corresponding to the number of poles of the switch is provided, which are connected to the switching shaft (6) via the involute flanks. 92 G 3 2 3 3 OE 1 6. Circuit breaker according to claim 5, characterized in that in the switching shaft ( 6) Recesses (13) are provided through which the pressure on the intermediate levers (9) can be directly measured. 422 02