DE875063C - Small circuit breaker with direct current flowing through the bimetal release - Google Patents

Description

Are on small circuit breakers that are directly flowed through by the current Bimetal release used in such a way that the release movement is only due to The heating generated in them by the passage of current takes place, so show these bimetallic releases properties that are sluggish when responding to overcurrent. When small overcurrents occur this inertia is desirable, while 'in the event of high overcurrents (short circuits) on: the self-switches are aimed at rapid tripping. will. For the achievement In addition to the bimetal releases, special quick releases are required for such a quick release have been used, which are formed by a solenoid and a trip armature.

According to a known development of small auto switches for that Achievement of a combined delayed overcurrent and original delayed short-circuit release became a magnet on the bimetal strip through which the load current flowed attached in such a way that the bimetal strip between the legs of the magnet ran through and the magnet interacted with a stationary anchor, this advantageous by a special one that is in series with the bimetal strip Winding should be energized. However, such an arrangement is required for the accommodation their parts and their mutual assignment take up a relatively large amount of space; which is particularly undesirable with small island switches.

According to the invention, a simple and, in particular, space-saving Structure for a small island burst switch with bimetal release at low overcurrents as well as an additional support of the bimetal release - by magnetic Effect at high. Overflow achieve that the current-carrying bimetal directly the excitation of a stationary magnetic or magnetizable part and this then in turn forms the bimetallic organ, especially in the case of high overcurrents Mechanically controls for the release movement.

In the drawing, an embodiment of the invention is shown, on which further advantageous individual features of the invention are used and described are. FIGS. I to 3 show only bimetallic triggers of the small circuit breaker - In cooperation with the parts necessary for the effect according to the invention. With i a bimetallic release of U-shaped design is referred to, which at the points 2 and 3 has the power supply and at point q. the mechanism of the small circuit breaker controls. In the vicinity of the bimetal release is a magnetizable material, z. B. iron existing part 5 arranged. This part is expediently a T-piece, whose middle piece engages between the legs of the bimetal trigger, and its Side pieces face the legs of the bimetal release (Fig. 3). 6 is an insulating plate which: the magnetic part 5 in its position opposite the bimetallic release holds. If a current flows through the bimetal release, it arises around the bimetal release a magnetic field through the passage of current. This magnetic field causes in cooperation with the magnetic part 5, that the bimetallic release is against moves the magnetic part. This movement is particularly strong when there are high overcurrents occur in the bimetal release. The magnetic forces support the movement of the bimetal release, which it would otherwise only execute due to its heating. In the event of high overcurrents, the bimetal release will respond quickly.

Claims (2)

PATENT CLAIMS: i. Small circuit breaker with direct current flowing through it Bimetal release, the release movement of which is carried out, especially in the event of high overcurrents magnetic forces is supported, characterized in that; that the bimetal is immediate a stationary magnetic or magnetizable part is excited and this in turn mechanically controls the bimetal for triggering. 2. Small self-switch according to claim i with a multi-leg bimetallic release, characterized in that the fixed magnetizable part (5) has a T-shape, the center piece of which engages between the legs of the bimetal release and whose side pieces face the legs of the bimetal release. Cited publications: German patent specifications No. 652 996, 499 213 823 755.