DE1094862B - Auto switch - Google Patents

Description

The invention relates to an automatic switch with a switch lock and mechanically acting, with an overcurrent release (bimetallic relay) equipped with an energy storage device, which has a release flap and -latch triggers the key switch of the switch. With such automatic switches, when occurring an overcurrent with the help of a bimetal strip under the action of a force storage spring standing plunger triggered, the lock via the release flap, z. B. the pawl of the key switch triggers. The pulling up of the energy storage mechanism after the switch has been triggered is hereby made when the switch is switched on. The transfer of the switch-on movement to the Release flap requires additional equipment and complicates the switch-on process.

According to the invention, a significant simplification in a circuit breaker of the described Kind can be achieved in that the energy store of the overcurrent release (bimetal relay) during the opening movement of the switch lock is automatically opened over the same release flap. this can be made in such a way that the drive is connected to the switching contacts Lever or handlebar is designed and arranged so that the switch-off movement of the switch lock on the release flap is transferred in the sense of pulling up the energy store.

However, the overcurrent release of the self-switch usually also affects a specific one Current value of the set magnetic quick release together. Since the quick release in the event of a short circuit remains attracted as long as current flows, assuming that the quick release would be on the same The release flap acts like the overcurrent release, the quick release of the lift movement of the energy storage mechanism counteract the opening movement of the circuit breaker, so that the contact opening is obstructed and this causes the switching arc to stand still for a longer period of time. To prevent this, an additional release flap must be provided for the quick release. The order However, a further release flap is difficult for reasons of space and with increased manufacturing costs connected to the switch. These disadvantages can, however, according to a further proposal of the invention can thereby be avoided that in the course of the transmission of the switch-off movement of the switching mechanism Arranged on the release flap is a transmission element storing the switch-off movement is that is only released when the force of the quick release, due to the extinction of the Switching arc at the main contacts is greatly reduced. This gives the opportunity Auto switch

Applicant:

Siemens-Schuckertwerke

Corporation,

Berlin and Erlangen,

Erlangen, Werner-von-Siemens-Str. 50

Franz Häublein, Amberg (Obpf.),
has been named as the inventor

that the quick release has no effect on the shutdown process on the same release flap can work. For the transmission of the pull-up movement for the overcurrent release, a rotatably mounted lever is used that connects to the lever system of the switch lock via an energy storage device connected is. A particularly simple solution is obtained when the for resetting the Switch lock in the ON position provided return spring is used as a storage spring. The return spring is dimensioned so that it takes the force of the spring reduced on the release flap the overcurrent relay can overcome.

With reference to the drawing, a switch drive for an automatic switch is described, from the advantageous constructive solutions of the invention can be seen.

Fig. 1 shows a side view,
Fig. 2 is a front view of the automatic switch drive. A toggle switch lock 2 is arranged in a housing 1. The toggle lever drive consists essentially of the two levers 3, 4 which are hinged to the angle levers 5, 6. The output to the contacts takes place with the end 7 of the angle lever 6, which is in drive connection with a shift rod (not shown in the drawing) or a handlebar. The free end of the angle lever 5 has a pawl nose 8 which is supported in a known manner on a stop 9 of a release pawl 10 under spring action. On the one hand, a plunger 12 attached to the release button 11 and, on the other hand, the release elements assembled with the self-switch, such as bimetal relays, high-speed, operating current and / or voltage drop releases, can act on the release pawl. For this purpose, the release pawl mounted in FIG. 13 is off with a

009 678/420

the drawing plane protruding extension 14 provided with a not shown in the drawing The release flap of the overcurrent relay or bimetal relay interacts.

The toggle joint 13 α connecting the two tabs 3, 4 has an elongated shaft which engages in an elongated hole 15 of a plunger 16. The plunger 16 is with the help of the housing part 17, which is in an elongated hole

18 of the plunger engages, guided vertically. In extension of the plunger 16 upwards is in the housing 1 a hollow push button 19 is used. In the push button 19 is one around the extension 20 of the plunger 16 is arranged a looped force storage spring 21, which is located on the bottom of the push button

19 and the shoulder 22 of the plunger 16 is supported. The plunger 16 is provided with a projection 23 which after a predetermined stroke distance against a shoulder 24 of a pivot point 25 pivotable and under the action of a spring 26, the locking lever 27 of the quick-release lock sets.

The arrangement described above has the following mode of operation:

Upon actuation of the push button 19 of the plunger 16 slides in its guide 17,18 down until • Ach the projection 23 against the shoulder 24 of the locking lever 27 bears. Here, the drive 7 on the contact side moves upwards in preparation for the contact closure. Since the plunger 16 is provided with a rigid abutment by the shoulder 24, the spring 21 is tensioned when the push button 19 is actuated further. Here, the nose 28 connected to the push button 19 moves further down. If the spring 21 is sufficiently pretensioned, it lies against the upper end of the locking lever 27 and thus also moves the shoulder 24 outward about the pivot point 25 until the extension 23 of the plunger 16 is released. Here, the spring 21 relaxes and thus abruptly closes the contacts via the gear 2.

As described above, the switching mechanism can either be triggered using the push button 11 or with the help of an overcurrent or quick release via a release flap that is attached to the Stop 14 of the release pawl acts and the latter counteracts it rotated clockwise so that the stop 9 releases the angle lever 5, the knee joint drive triggers and is returned to the starting position under the action of a return spring 30 will.

When the key switch is switched off, the energy store of the overcurrent relay should now open will. For this purpose, a stop can be attached to the angle lever 6, which during the switch-off movement acts on the release flap. Mostly with the overcurrent release a magnetic quick release cooperates, which is also intended to act on the same release flap, the quick release would be counteract the pull-up movement, as described at the beginning. To avoid this, the Bearing pin 31 of the angle lever 6 is a U-shaped lever 32 rotatably mounted, one of which End 33 is cranked and can act on the release flap, while the other end 34 of the lever is directed towards the opposite side and is connected to the return spring 30. Now takes place tripping of the switch by a short-circuit current, the The release flap of the relay triggers the release latch 10, and the drive can under the action of the Return spring 30 to return to the starting position. As the pulling up of the energy store of the overcurrent release now takes place via the lever 32, the triggering movement of the switch lock itself is not hindered, but only the downward movement of the lever 32 due to the still flowing current in the Quick release until the current in the magnetic release has completely subsided. If this is the case, the force stored in the spring 30 outweighs the magnetic forces of the Quick release, and the release flap can with the help of the arm 33 to open the energy store be pressed down. The pull-up movement is hereby molded onto the angle lever 6 Limit stop 35.

Claims (6)

Patent claims: 1. Automatic switch with switch lock and mechanically acting, provided with an energy storage device Overcurrent release (bimetal relay) that controls the switching mechanism via a release flap and latch of the switch triggers, characterized in that the energy storage device of the Overcurrent relay when the key switch (2) is switched off via the same release flap is drawn up automatically. 2. Circuit breaker according to claim 1, in particular with the additional arrangement of a magnetic Quick release, characterized in that in the course of the transmission of the switching off movement of the Switch lock (2) on the release flap, a transmission element that stores the switch-off pulse is switched on, which is only released when the force of the quick release due to the Extinction of the arc at the main contacts is greatly reduced. 3. Automatic switch according to claim 2, characterized in that when using a quick release the same acts on the same release flap. 4. Automatic switch according to claim 1 to 3, characterized in that the transmission of the Pull-up movement for the overcurrent release a rotatably mounted lever (32) is used, which is connected to the lever system (6) of the switch lock (2) via an energy storage device (30). 5. Automatic switch according to claim 4, characterized in that the restoring spring is used as an energy store (30) of the key switch (2) is used. 6. Automatic switch according to claim 5, characterized in that the return spring (30) is dimensioned is that it also in the contact disconnection position, the reduced force on the release flap the spring of the overcurrent relay overcomes. 1 sheet of drawings © 009 678/420 12.60