DE610224C - Overcurrent switch for switching large currents - Google Patents

Description

Overcurrent switch for switching large currents The invention relates rely on overcurrent switches for switching large currents, especially high-speed switches, in which the movable contact lever is pressed against the fixed by a contact pressure spring Contact is pressed. According to the invention, the movable contact lever is through the Armature of the overcurrent magnet without prior latching or blocking of the moving one To have to solve the contact lever, simply by striking the armature against the Effect of the contact pressure spring moves in the disconnection direction and through its movement directly or indirectly via the contact lever actuates a device which locks the contact lever in its off position. The device can be designed in this way be that the lock device triggered by the armature not only in the contact lever the limit switch position, but also in any intermediate positions between the switch-off and switch-on position, in which it is switched to e.g. When the anchor is thrown, locks. Furthermore, the one operated by the anchor Locking device designed so that it can also be activated by other means, such as heat release, Zero voltage release, handle and the like, can be operated, whereby the switch is brought from its on position into the off position.

An exemplary embodiment is shown in the drawing.

Fig. I shows the switch in the on position and Fig. 9- in the switch-off position. The fixed contact i is the movable contact lever 7, rotatable about point ii, opposite. In the vicinity of the pivot point ii is by means of a flexible connection, the trip coil 6 connected. When switched on the switch enters the current, at the lower end of the rail q. a, then flows through the fixed contact =, the movable contact lever 7 and the release coil 6. Am At the end of the trip coil, the current flows out of the switch. The .the rail q. The main current flowing through excites the holding magnet 3 with the armature 2. The armature 2 is pressed by the weak spring 29 against the pole face of the magnet 3, so that it has a defined position even when de-energized. The trigger magnet 5, which contains significantly more iron than magnet 3, is triggered by the trip coil 6 excited. The magnets 3 and 5 are dimensioned so that the attraction force increases as the current increases of the magnet 5 on the armature 2 is constantly growing, while the holding force of the Magnets 3 already approaches its maximum in the vicinity of the nominal current due to saturation. At a certain current value, the tensile force of the magnet 5 becomes the holding force of the magnet 3 and the tensile force of the spring 29 exceed and the armature 2 suddenly from the. Magnets 3 are torn off and on the magnet 5. At -this movement the armature 2 hits the gearshift lever after having covered a certain idle stroke ? and by rotating it around point ii brings it abruptly to the contact opening.

A spring = 7 is attached to the lower end of the contact lever 7, the other end of which is attached to the operating lever 26. This pen represents when the switch is switched on, the contact pressure is established. On the switch-on lever 126 is articulated, rotatable about the point 24, the lever 15, which by the spring 21 against the roller 20 is pulled upwards. He has two levels 18 and ig. Towards him a nose 16 is attached to the lower end of the contact lever 7. The engaging lever 26 is latched in the on position by means of the pin 27, which is behind the pawl of the lever 13 sets. The lever 13 is rotatable about the point 23 and is pressed against the pin 27 by the train of the spring 22. To the point iz is except the contact lever 7 is a two-armed lever 14 rotatable.

The switch-off movement under overcurrent takes place as follows: Armature 2, torn from magnet 3, hits the contact lever? and about the same time, but not before, on the upper end of the double-armed lever 14. 7 and 14 are rotated around the pivot point ix, and while 7 hurries on in the disengaging direction, the lower end of 14 presses on the right lever arm of the lever 13 and opens thus the latch 27 against the tension of the spring 22. The switching lever 26 , which has become free as a result, moves to the right under the tension of the spring i7. As a result, the lever 15 is also moved to the right and catches the switching lever 7, which has been thrown beyond the final switch-off position by the strong blow of the armature 2, on its way back by means of the step 18 and the roller 2o. This position is the normal switch-off position. The nose 16 fulfills the task of pressing the lever 15 so far down as it moves to the right that the roller 2o of the contact lever 7 is not caught by the step 1g, but only by the step 18 when it moves back. The level ig has the purpose of latching the shift lever 7 in the half-open position, if the impact of the armature 2, z. B. with smaller overcurrents, should not be sufficient to solve the latch 27. It provides additional security which is generally superfluous if properly designed.

The switch-on process takes place as follows: The switch-on lever 26 is moved to the left and pulls the lever 15 and, through the pretensioned spring 17, the contact lever? with, namely the roller 2o remains pressed against the step 18 during the first part of the switch-on movement. As soon as the contact lever 7 hits the fixed contact i, the support between 20 and 18 is lifted by the further movement of the switch-on lever 26 and the spring 17 is further tensioned. whereby the contact pressure is established. Finally, the switching lever 26 is latched in the final switch-on position by the end latch 27. Switching off manually can be done with. This embodiment can only be made so that the latching i3 / 27 s is released.

Instead of the latch i3 / 27, a latch lock with release mechanism can be used or equivalent facility. This makes it contrary to the arrangement described made possible by unlatching the lock Trigger switch by any additional equipment, as indicated above.

Claims (3)

PATENT CLAIMS: i. Overcurrent switch for switching large currents, in particular quick-action switches, in which the movable contact lever is actuated by a contact pressure spring is pressed against the fixed contact, characterized in that the armature (2) of the overcurrent magnet (5) without first latching or locking the movable To have to solve the contact lever (7), this counteracts it solely by its impact the action of the contact pressure spring (17) moves in the disconnection direction and through its movement directly or indirectly via the contact lever (7) a device (15, IS) is actuated, which locks the contact lever (7) in its off position. 2. Overcurrent switch according to claim i, characterized in that the armature triggered locking device (15, 18) the contact lever (7) not only in the limit switch position, but also in any intermediate position between the off and on position, in which he is about when the locking member hits, locks. 3. Overcurrent switch according to claims i and 2, characterized in that the locking device actuated by the armature (15, 18) is designed so that it is also through other means like Heat release, zero voltage release, handle and the like, can be operated, whereby the switch is moved from its on position to the off position. q .. Overcurrent switch according to claim z to 3, characterized in that the from Armature operated locking device (z5, 18) with the handle via a switch lock is connected to trip-free.