DE3800582C2 - Overcurrent release for electrical protective switching devices - Google Patents

Description

The invention relates to an overcurrent release for electrical Circuit breakers, in particular circuit breakers or Motor protection switch according to the preamble of the claim (cf. Main patent DE 36 37 275 C1).

The purpose of the invention is to create such a device Overcurrent release, in which on the plunger from the same direction Bimetallic snap arrangement of the practicable snap stroke is increased is.

From Siemens magazine 1977, Issue 1, pp. 53-59, Fig. 3b and Figure 4 are options for using both directions of action disclosed for continuously working disks, whereby in picture 3b with a bimetallic disc arrangement in the same direction holder-like spacers is shown. In picture 4 this Documentation is documented that it is the rule of thumb as a rule was to arrange bimetallic washers in the same direction when the forces should add up.

The invention has for its object an overcurrent release of the type mentioned in a compact transportable To make the unit available with an enlarged snap stroke.

According to the invention this object is achieved in that for enlargement the on the ram from the same-directional bimetal Snap disc arrangement exercisable snap stroke between each two adjacent bimetallic snap disks have identical dimensions Metal disc in the same direction without snap effect is arranged.  

Advantageously, the invention is a departure from the a total snap stroke given by the direction given above achieved by the sum of the snap strokes of the individual existing bimetallic snap disks is determined. At the same time, one can be extremely advantageous realize small size that is predestined for the intended use is. In addition, the Overcurrent release according to the invention not only the snap magnification is achieved, but also in an advantageous manner an addition of the forces acting on the tappet occurs.

The invention will now be described with reference to the accompanying Figures explained in more detail. It shows

Fig. 1 is a same direction bimetallic snap-action disc assembly before snapping and afterward;

Fig. 2 is a schematic representation to demonstrate that no snap stroke is increased in the arrangement there;

Fig. 3 is an illustration similar to Figure 2 with alternating disc arrangement. and

Fig. 4 shows an embodiment of a bimetallic snap disk arrangement for an overcurrent release according to the invention.

Fig. 1 shows in principle the two phases important for the bimetallic snap disk, namely before snapping and after.

The bimetallic disc ( 4 ) snaps when the snap temperature is reached and takes the plunger ( 1 ) with its thickening ( 2 ) and is then supported on the holder of the snap disc ( 3 ). The bimetal disc reaches the snap stroke (S).

By using several bimetal snap disks the snap stroke that is required for the function of the overcurrent release is required to be multiplied.

The achievable snap stroke of bimetal washers essentially of the material thickness and the Disc diameter dependent. The bigger the Diameter, the larger the snap stroke.

However, the washer diameter is due to the outer Dimensions of the switching device specified, then the required snap stroke must be done in a different way be generated.

It is known per se that by stringing together of bimetallic elements multiply their deflection can.

However, if you want to use the snap effect, then this method does not lead to the goal.

As shown in FIGS. 2 and 3, the snap stroke (S) is not increased in either arrangement.

According to the invention, a curved metal disc without snap effect ( 5 ) is used, which is mounted between two bimetal snap discs ( 4 ), as shown in FIG. 4. When the snap temperature is reached, i.e. when snapping, one snap disk is supported on the holder, the other on the edge of the metal disk without a snap effect. This results in a snap stroke (X) that is twice as large as that of a snap disk. When using n (1, 2, 3, 4 ...) bimetallic snap disks and n-1 metal disks without snap effect, the n-fold snap stroke of a snap disk can be achieved with an arrangement similar to FIG. 4.

Claims (1)

Overcurrent release for electrical protective switching devices, in particular circuit breakers or motor protection switches, with electromagnetic, thermoelectric and manual release, in which both an armature and a thermal release act on a centrally guided plunger ( 2 ) and the magnetic circuit can be excited only by the current flowing through a coil and the thermal release can be heated, with a co-directional bimetallic snap disk arrangement being provided as the thermal release, which is supported by a rotationally symmetrical support body which is a good heat conductor and at the same time carries the coil, characterized in that to increase the size of the plunger ( 2 ) from the bimetal - Snap disk arrangement of practicable snap stroke (S) between two adjacent bimetallic snap disks ( 4 ) a dimensionally identical metal disk ( 5 ) is arranged in the same direction without a snap effect.