DE3712677A1 - Drive mechanisms for coupling electrical switching apparatuses - Google Patents

Abstract

Drive mechanisms for coupling electrical switching apparatuses, especially a line protection circuit breaker to a control switch, having the following features: a) The restoring force for the switching mechanism of the line protection circuit breaker is produced by means of a spring. b) The contacts of the switch are mounted on a contact support which moves in a translational sense and is guided in a link which is preferably integrally formed on the housing. c) A perforation (1B1) is arranged on one of the side walls of the line protection circuit breaker (1), in the region of the switching latch (1E) with its spring (1D) producing the restoring force. d) The switch (2) has a coupling stop (2A1) which interacts with the contact support and is operated by means of the switching latch (1E) of the line protection circuit breaker (1). <IMAGE>

Description

The invention relates to drive mechanisms for coupling electri shear switchgear according to the preamble of protection claim 1.

For the power supply of electrical system parts, the Be operating state permanently for remote monitoring for safety reasons to be able to intervene immediately in the event of a fault , it is also necessary, among other things, to switch the status of circuit breakers.

It is possible to do this on the outlet side of the line circuit breaker with a control contactor or inexpensive to manufacture control switches mechanically to the To connect the circuit breaker.

Those that can be coupled with each other on the market so far Switchgear, however, have the disadvantage that the contact necessary spring forces of the control switch on the Switching mechanism of the circuit breaker are transmitted, so that inevitably larger forces act on the pawl, causing a change in particular to the thermal shutdown characteristic is effected.

The object of the invention is the drive mechanisms of this Switching devices to coordinate so that the shutdown character teristics of the miniature circuit breaker even after coupling control switch remains unaffected.

This object is achieved by the characterizing Part of protection claims 1 or 2, solved.

Advantageous developments of the invention are the subject of Subclaims.

Embodiments of the invention are based on the drawing gene explained.  It shows

Figure 1 shows the essential parts of the switching mechanisms of the switching devices to be coupled, circuit breakers with removed housing half-shell and control switch to be attached, in perspective view according to claim 1;

FIG. 2 shows the same arrangement as FIG. 1, but in the embodiment according to claim 2;

Fig. 3 shows the circuit breaker in the installation position refer ner side view. De to be coupled control switch, whose contour is shown in dashed lines, is pivoted into that insertion position in which the parts required for coupling it can dip into the opening in the housing half shell;

Fig. 4 shows the coupled switching devices in side view, where the circuit breaker is arranged behind the control switch. The parts essential for the coupling are shown in dashed lines.

The housing of the circuit breaker 1 consists of two Ge half-shells 1 A , 1 B , in which, among other things, the support structure 1 G is mounted for the switching mechanism.

On the pawl 1 E of this switching mechanism acts the leg 1 D 1 of the spring 1 D designed as a torsion spring, which serves as an energy store for the return to the off position.

The switching mechanism is actuated by the shift lever 1 F , which is in operative connection with the pawl 1 E by means of further parts which are not relevant to the invention and therefore not shown.

On the housing half-shell 1 B , which can also be designed as a connection plate, there is an opening 1 B 1 , which is dimensioned and arranged so that the pawl 1 E as the leg 1 D 1 of the spring 1 D are exposed.

The breakthrough 1 B 1 is either covered by a removable plate 1 G in the delivery state or can be broken out by the customer himself on the basis of shaped pre-marks.

The to be coupled to the circuit breaker 1 control switch 2 consists of two housing halves, one of which is formed as a housing shell 2 B and the second as a housing shell 2 C. The contact carrier is in operative connection with the switching status indicator 2 A , to which the coupling stop 2 A 1 is molded. This switching state indicator 2 A can be pivoted or mounted in the housing shell 2 B by means of a Ku lisse.

In the embodiment according to claim 1, the leg 1 D 1 is released before assembly of the switching devices, either manually or by means of the bar 1 G 1 formed on the plate 1 G.

In the embodiment according to claim 2, the unlatching of the leg 1 D 1 is inevitable. For this purpose, the housing shell 2 B is additionally formed on the device 2 B 1 for unlatching the leg 1 D 1 of the spring 1 D and the housing wall 2 C of the pivot pin 2 C 1 and the stop 2 C 2 with the claw located thereon.

When coupling the switching mechanisms, the pivot pin 2 C 1 of the control switch 2 in the pivot point 1 B 2 , which is designed as a round hole expediently, inserted and both devices merged plane parallel until the stop 2 C 2 or the device 2 B 1 rest on the outer wall of the housing half shell 1 B to unlatch.

Subsequently, the switching devices around the common pivot point, as shown in Fig. 2, as far as to pivot against each other until the device 2 B 1 and the stop 2 C 2 immerse with the sen molded claw in the breakthrough.

The forced by the claw at the stop 2 C 2 pivoting the switching devices against each other ensures that the device 2 B 1 for unlatching in the required position necessarily overlaps the leg 1 D 1 of the spring and - after the two switching devices in a congruent position of the contours zurückge pivots, the stop on the lower edge of the breakthrough 1 B 1 strikes and the position of the switching devices zueinan determines the - this leg 1 D 1 disables, as shown in Fig. 3.

In this end position, the claw of the stop 2 C 2 engages behind the wall of the housing half-shell 1 B , so that the position of the coupling parts are positively locked to one another.

The two switching devices are then mecha with known African connecting means connected to the unit.

When the line circuit breaker 1 is switched on, the pawl 1 E presses on the coupling stop 2 A 1 located underneath, which presses the contact carrier that is operatively connected to it into the switch-on position.

The switching status indicator 2 A of the circuit breaker 1 can be used as a switch-on button for the function test of the control switch.

The uncoupling of the switching devices takes place in the reverse order, wherein in the embodiment according to claim 2 of the angle 1 D 1 of the torsion spring 1 D latches again by itself.

• Legend 1 circuit breaker 1 A housing half-shell 1 B housing half-shell 1 B 1 breakthrough 1 B 2 pivot point 1 C shoring 1 D spring 1 D 1 leg 1 E pawl 1 F shift lever 1 G plate 1 G 1 Bar 2 control switch 2 A switching state indicator 2 A 1 coupling stop 2 B Housing half-shell 2 B 1 Unlatching device 2 C Housing wall 2 C 1 Swivel pin 2 C 2 Stop

Claims (11)

1. Drive mechanisms for coupling electrical switching devices, in particular a circuit breaker with a control switch, with the following features:

• a) The restoring force for the switching mechanism of the circuit breaker is generated by means of a spring.
• b) The contacts of the switch are supported on a contact carrier which is actuated in translation and is guided in a link which is preferably integrally formed on the housing,

characterized by the features:

• a) On one of the side walls of the circuit breaker ( 1 ) there is an opening ( 1 B 1 ) in the area of the pawl ( 1 E) with the spring ( 1 D) causing the restoring force.
• b) The switch ( 2 ) has a coupling stop ( 2 A 1 ) which interacts with the contact carrier and is actuated by means of the pawl ( 1 E) of the circuit breaker ( 1 ).

2. Drive mechanisms for coupling electrical switching devices, in particular a circuit breaker with a control switch, with the following features:

• a) The restoring force for the switching mechanism of the circuit breaker is generated by means of a spring.
• b) The contacts of the switch are supported on a contact carrier which is actuated in translation and is guided in a link which is preferably integrally formed on the housing,

characterized by the characteristics

• a) On one of the side walls of the circuit breaker ( 1 ) there is an opening ( 1 B 1 ) in the area of the pawl ( 1 E) with its spring ( 1 D) causing the restoring force.
• b) The switch ( 2 ) has a device ( 2 B 1 ) for releasing the spring ( 1 D) and a coupling stop ( 2 A 1 ) which interacts with the contact carrier and by means of the pawl ( 1 E) of the circuit breaker ( 1 ) is operated.

3. Drive mechanisms for coupling electrical switching devices according to claim 1, characterized in that the opening ( 1 B 1 ) by means of a plate ( 1 G) can be covered, which is preferably held by a bayonet-type closure on the housing half-shell ( 1 B) . 4. Drive mechanisms for coupling electrical switching devices according to claim 2, characterized in that the stop ( 2 C 2 ) molded, the wall of the housing half-shell ( 1 B) engaging claw when coupling an inevitable offset of the switching devices ( 1'2 ) to each other requests to be able to dive into the breakthrough ( 1 B 1 ). 5. Drive mechanisms for coupling electrical switching devices according to claim 2 and 4, characterized in that on the housing half-shell ( 1 B) a pivot point ( 1 B 2 ) is arranged, in which the pivot pin ( 2 C 1 ) of the control switch ters ( 2 ) is inserted so that the switching devices to be coupled together can be pivoted plane-parallel to each other and the device ( 2 B 1 ) for unlatching as well as the stop ( 2 C 2 ) with claw and the coupling stop ( 2 A 1 ) inevitably leads to the breakthrough ( 1 B 1 ) can immerse, so that the notching of the spring ( 1 D) is inevitably effected when the switching devices ( 1, 2 ) are pivoted into a congruent position of the contours. 6. Drive mechanisms for coupling electrical switching devices according to claim 1 and 2, characterized in that the restoring force for the switching mechanism is generated by means of two independently arranged springs ( 1 D) . 7. Drive mechanisms for coupling electrical switching devices according to claim 1 and 2, characterized in that the sased restoring spring forces acting on the coupling stop ( 2 A 1 ) of the control switch ( 2 ), the restoring force of the notched spring ( 1 D) approximately equivalent are. 8. Drive mechanisms for coupling electrical switching devices according to claim 1 and 2, characterized in that the control switch ( 2 ) has a switching status indicator ( 2 A) by means of which the contacts of the control switch ( 2 ) can be actuated for testing purposes in the switched-off position of the circuit breaker. 9. Drive mechanisms for coupling electrical switching devices according to claim 1, 2 and 7, characterized in that when removing the plate ( 1 G) one of these molded Rie gel ( 1 G 1 ) the notching of the leg ( 1 D 1 ) of the spring ( 1 D) causes.