DE599870C - Electromagnetic overcurrent switch - Google Patents

Description

Electromagnetic Overcurrent Switch The invention relates to on electromagnetic overcurrent switches, in which the contacts are above a the separating wall protecting the magnet winding is located and there is a movement when it is switched off in a plane passing through the coil axis of the overcurrent magnet. Around with such switches the blowing effect of the magnets against the resulting To make full use of the arc, the contacts according to the invention are arranged in such a way; that they are located directly above the partition of a lying in the coil axis Closed position from flat circular arcs that rise in the opposite direction into the switch-off position move. As a result, the arc becomes approximately perpendicular to the axis of the solenoid pulled apart like a horn and is located in its entire extent in the largest possible blown field.

Overcurrent switches are already known in which the contacts are provided near the trip coil. With them, however, the movement of contacts takes place in a different way than according to the invention. So are the contacts for example moved parallel to the coil axis. This becomes the cut-off arc of the effect withdrawn from the strong glass field. With such switches it is also up to yours entire structure not possible to give the contacts a different direction of movement, because they lack the space for a corresponding release device. With others known switches takes place when triggered a movement of the contacts transversely to Coil axis instead. The separation is brought about here by an insulating piece, which pushes itself between the contacts, the path of which is extremely small as a result so that no pulling apart of the arc can occur, unless special Metal horns are provided to which the arcs are blown.

In known switches, the contacts are also if a partition absent, relatively far away from the solenoid to avoid the risk of skipping to avoid the arc on the magnet. In this case the blowing action is naturally severely weakened.

Compared to such known switches are the subject matter of the invention the contacts without any risk of the switch-off sparks jumping over to the magnets placed in as strong a magnetic field as possible, and their whole path lies in that unchangeable strong blown field.

In the case of electromagnetic overcurrent switches, which are activated by means of a push button and a switch rod are brought into the switched-on position and their partition for this purpose an opening for the switch rod is given, it is advantageous to use the Plunger core of the solenoid with the help of a spring a locking disc for the To attach the opening of the switch rod in such a way that the locking disc the opening closes automatically in every position of the plunger core.

The drawing shows an embodiment of the invention.

Fig. I and 3 are axial sections through the switch in the on position and in the off position. Fig. 2 is a top plan view of the contact arms.

Figs. 4 and 5 show a modified embodiment of the closure for the partition wall in different positions.

In the housing i sits the disk 2 on which the magnetic and blower coil 4 with the plunger core 5 is attached. At 12 and 13 , the double-armed contact arms io, 14 and 1i, 15 are rotatably mounted, for example, on the longitudinal sides of the coil 4 in channels. The arms 14 and 15 are provided at their end with the rollers 16 and 17 made of insulating material, between which the locking disk 6, which is seated on the plunger core 5, stands. Contacts 8 and 9 touch each other when the switch is in the on position. If an overcurrent occurs, the plunger core 5 is attracted by the magnetic coil 4. By doing this, the locking disc 6, the arms 14 and 1 5 freely and the contacts 8 and 9 move away under the pressure of springs 26 and a7 each other. The switch is then in the off position (Fig. 3). If the circuit is to be closed again, the push button 21 is depressed, whereby the switching rod 2o acting as a separator for the contacts brings the plunger 5 back into the switched-on position through the opening 23 in the partition wall. The contacts 8 and 9 do not touch each other until the push button 21 has returned to its initial position, so that if there is an overcurrent, disconnection can take place immediately. The downward movement of the plunger is limited by the adjusting screw i9 located in the sleeve 18. The latter can be used to set the switch to the tripping current strength. As soon as the plunger core 5 is attracted, the insulating piece 7, made of fire-proof material and attached to the plunger core, closes the passage opening 23 so that the switch-off spark cannot penetrate into the interior of the coil.

. In the device according to Fig ¢ and 5, the shutter disc 28 is continuously by the spring 29 - pushed upward and differs only the switching bar during the switching-on 2o to then immediately close the passage opening.

To close the spark space against the coil and the trigger mechanism the partition 3, which is also made in one piece with the solenoid, is used can be. In the same are except the passage opening 23 for the switch rod only the recesses 24 and 25 for the contact arms io and ii attached.

If necessary, it is easily possible to move one contact and to arrange the other firmly.

Claims (2)

PATENT CLAIMS: i. Electromagnetic overcurrent switch, in which the contacts are located above a partition wall protecting the magnet winding and when switching off a movement in one through the coil axis of the overcurrent magnet running level, characterized in that the contacts (8, 9) are directly above the partition (3) from a closed position lying in the coil axis on oppositely rising flat circular arcs from each other into the switch-off position move. 2. Electromagnetic overcurrent switch according to Claim'i with one in the Partition wall provided for the switching rod opening, characterized in that on the plunger core (5) of the solenoid with the mediation of a spring (29) a closure disc (28) for the opening of the switch rod is attached in such a way that it opens the opening (23) closes automatically in every position of the plunger core.