DE1111704B - Electric snap switch - Google Patents

Description

Electric snap switch The invention relates to a safe working Snap switch in simple design.

There are already switches whose energy storage device is made of metallic or Oxydceramischen permanent magnets exist, with the latter still as required Isolator or insulating base can be used. Then it was suggested to use metal parts to be connected to oxide ceramic permanent magnet parts by gluing. Such Versions, especially when their actuators are directly on the switch springs work, but are particularly susceptible to spring breakage.

According to the invention, this deficiency is remedied by the actuator acts on the rigidly designed armature of the permanent magnet, which the resiliently arranged movable contact piece carries. This can be an extension of the movable The spring carrying the contact piece can expediently be designed as a carrier of the armature.

It is known from the electromagnetic contactors that To let the control force act directly on the armature of the steel magnet, i.e. on the rigid Part, and then resiliently connect the movable contact pieces to the armature. In contrast to the subject of the invention, however, a contactor is usually not mechanically, but electromagnetically controlled, and the flow of forces is with you Electromagnet much different than a permanent magnet, especially the one Electromagnet of a contactor that acts against return springs.

An exemplary embodiment is shown in Figs. 1 and 2, Fig. 1 showing the invention with the cover plate removed in a plan view and Fig. 2 showing the embodiment of Fig. 1 in a side view.

Thereafter, a line connection contact piece 2 is arranged in the insulating housing 1 , on which an unequal- legged U or V spring 3 (e.g. made of high-quality copper bronze sheet) is rigidly attached with its short end 4 by means of rivets 5. The long spring leg 6 with the armature 15 made of soft iron moves during a switching movement between the permanent magnet pieces 8 and 9 or between the line connection contact pieces 10 and 11 glued to them or their contact rivets 12 and 13 by inserting a through one in the insulating housing 1 arranged spiral spring 19 in the insulating housing 1 fixed push button 14 by its actuation so presses on the armature 1.5 until the pressure force of the push button 14 is greater than the adhesive force of the armature 15 on the magnet piece 8, and the armature 15 then jumps from the magnet piece 8 to the magnet piece 9, whereby the The movable end of the long spring leg 6 comes to rest with tension or pressure with its contact rivet 7 on the contact rivet 13 as a result of the intimate contact of the armature 15 on the magnet piece 9. The U or V spring 3 becomes the long spring legs 6 are brought back from the switching and contact parts 9, 11 and 13 and thus comes back to its original position age.

By using different helical springs 19 , different lengths of movement of the push button 14 and thus that of any control device can be transmitted. To increase the adhesive force of the magnets 8 and 9 , pole pieces of any type and shape can also be provided. The contact means (e.g. contact rivets) can also be attached in a different design and construction. A cover 16 covers the entire lower part with the switching mechanism by, after it has been placed, hollow rivets 17 and 18 are inserted through the holes 20 and 21, through which the fastening means of the switch are then provided for arrangement in any machines or devices.

The proposed invention, however, makes it possible in the future to produce switches - in particular snap switches - in a simple and operationally reliable design with the smallest dimensions.

Claims (2)

PATENT CLAIMS: 1. Electrical switch acting as a snap switch by a permanent magnet, characterized in that the actuating member (14 ) acts on the rigid armature (15) of the permanent magnet (8) which carries the resilient (6) arranged movable contact piece (T) . 2. Electrical switch according to claim 1, characterized in that an extension (3) of the spring (6) carrying the movable contact piece (7 ) is designed as a carrier of the armature (15) . Documents considered: German Patent No. 903 100; U.S. Patent Nos. 2,761,936, 1,813,407 .