DE4142965A1 - THERMAL RELEASE - Google Patents

Description

The invention relates to an electrical circuit built-in, designed as a strip thermal Trigger that is fixedly clamped at one end and the other, free end of which occurs when a Overcurrent caused by the overcurrent Warms out.

In electrical switching devices, thermal overcurrent re Lais or motor protection switches are used as triggers The occurrence of overcurrents is usually strip-like or strip-shaped bimetallic metals, which either who is heated by direct or indirect heating the. Recently it has also become known, instead of Ther Mobile metal strips made of so-called shape memory alloys to use. The thermal bimetals - just like the shape memory alloys - are stationary at one end excited, whereas the other end is freely movable  and when bending against a ratchet lever presses where opened by a latch and an energy memory released for actuating contact pieces will.

All the triggers have in common that they are to achieve a certain tripping characteristic, d. H. to trigger at a certain overcurrent have to.

There are several measures for adjusting a bimetal became known. In the case of miniature circuit breakers Thermobimetal often on one leg of a U or V conveyor Fastened part, where between the leg is a screw with which the thermo bimetal can be adjusted. An adjustment by a screw is also known in other designs; here is the nut part that the screw presses into against the bimetal in the area of his foot and ver represents the free end.

In another embodiment is located in the area a weakening of the foot of the bimetal, causing a bend of the thermobimetal with plastic Ver shaping in the foot area is possible.

In another version of the adjustment is in the loading richly provided a plate, one edge of the foot perpendicular to the longitudinal extension and parallel to the surface of the thermal bimetal runs; the adjustment is made by adjusting the plate in which this or one for Serve the plate to a fixed element the web is deformed so that the said edge the thermal bimetal bends.  

With motor protection switches or in overcurrent relays between the phase failure protection slides and the thermo bimetallic pads or discs made of art fabric used to adjust the path of the Free end to the force application point on a Pha Failure protection slide added or replaced can be.

The fact that the bimetallic ver in the area of the foot is formed, the angle of the free end changes related to the latching point or the phase out safety gate, which can cause friction, that have an influence on the triggering accuracy.

The object of the invention is to provide a thermal trigger using a strip made of a thermobimetal and the like by adjusting at the same time adjust the direction of force of the trigger.

This object is inventively characterized by nenden features of claim 1 solved.

According to the invention, the strip is in the area of free end with a notch, whereby a End area is formed due to the cross section reduction can be easily deformed by the notch can.

The end area between the notch can free end one towards the rest of the area Strips of the same or reduced cross-section sen.  

The adjustment of the free end or bending of the free end of the strip is done by means of a fork term device in which the strip in the area of Notch held stationary and the end with a Ga belteil is detected and bent in a corresponding manner.

There is a possibility that the free end, i.e. H. the area between the notch and the end a ge straight plane or is bent, the Kink line perpendicular to the longitudinal extent of the streak fens runs. The latter buckling is then sensible when a special force component on the latch should be achieved to avoid jams at the Ver latching point or - if phase failure shifter pre are to be avoided on the slide system.

Using the drawing, in which some embodiments of the invention are shown, the invention should be so such as further advantageous refinements and improvements gene explained in more detail and described.

Show it:

Fig. 1 and 2, two thermobimetals with different union end regions,

FIGS. 3 and 4 two different Licher thermobimetals with deformation of the end portions in side view, and

Fig. 5 is a side view of a Thermobime tall in the so-called delivery state before adjustment.

The thermal bimetal 10 shown in FIG. 1 has two cheeks 13 and 14 separated by two notches 11 and 12 , the lengths L and l of which are such that
L »l
is. The width B _{1 of} the area 13 is equal to the width B _{2 of} the area 14 , whereas the cross section of the area 13 compared to the cross section of the Thermobime valley 10 in the area of the two notches is very much larger.

As can be seen from FIG. 2, the Thermobime tall 15 can also be formed such that an area 18 is formed by notches 16 and 17 , the width B _{4 is} smaller, possibly half as large as the width B _3rd The aspect ratios are the same.

Fig. 3 shows the bimetallic strip 10 and it is seen that this is kinked α in the area of the notches 11 by an angle 12, the area 13 is precisely formed.

The bimetallic metal 15 , which is shown in FIG. 4 in side view, is also kinked in the area 16/17 , the end area 18 being kinked by a line, whereby two sub-areas 19 and 20 are formed, which are blunt Form an angle with yourself. Since the partial area 20 can run approximately parallel to the remaining area of the bimetal. How the obtuse angle between the two sections 19 and 20 is measured depends on the desired direction of force of the free end of the bimetallic strip, here the part 20 , on the latching point or - in the case of a motor protection switch - on a phase failure slide.

For relief, the bimetallic metal 10 can be preformed, for example, in the region of the notch 11 and 12 , so that the region 14 is bent by an angle α ₁ . The angle α ₁ can be smaller than the angle α (see FIG. 3).

In Fig. 3, three elements of a device are provided, with which the end portion 14 is deformed. This device has a fixed stop 21 to which two movable fork fingers 22 are assigned; the two fork fingers 22 take the free end 14 between them and can thus deform the end region 14 , wherein when the two fork fingers 22 rotate and shift around one another, the bent version according to FIG. 4 can be produced.

Claims (3)

1. Installable in an electrical switching device, designed as a strip thermal trigger, preferably in the form of a thermal bimetal, which is clamped in place at one end and the other, free end bends when an overcurrent occurs due to the heating caused by the overcurrent, thereby characterized shows that the strip has at least one notch ( 11 , 12 ; 16 , 17 ) in the area of the free end and that the free end area ( 14 ; 18 ) between the at least one notch ( 11 , 12 ; 16 , 17 ) is used for adjustment and is suitably bendable for this. 2. Trigger according to claim 1, characterized in that the end region ( 14 , 18 ) between the notch ( 11 , 12 ; 16 , 17 ) and the end has a reduced cross-section compared to the rest of the strip. 3. Trigger according to one of the preceding claims, characterized in that the free end region ( 14 , 18 ) is kinked in itself, whereby two sub-regions ( 19 , 20 ) bent at an obtuse angle are formed.