DE1042086B - Small thermal circuit breaker in slim design - Google Patents

Description

For the overcurrent protection of small electrically operated devices and small systems (e.g. vacuum cleaners, Coffee grinders, mixers, washing machines, office machines, chargers, control panels, switchgear in motor vehicles, machine tools, etc.) exists because of the very tight installation space and in With regard to an affordable cost ratio to the device, there is a need for particularly small and cheap overcurrent switches, which can only be triggered thermally and otherwise meet the normal insulation requirements need enough. The usual installation circuit breakers with thermal tripping and short-circuit services of 1200 and 1500 A are far too large and too expensive for this purpose.

Smaller, only thermally operating overcurrent switches have become known in which an as Latching member acting bimetallic strip locks a movable switch-on system. The bimetal strip At the same time it forms the interrupter of the switch at its latch. At Place a flexible *. Connection from the mobile switch-on system to the terminal is to achieve a special sliding contact is provided for a double interruption. These switches are coming in some cases already contrary to the need described, but are still too large for many purposes and too expensive.

Small switches have also become known in which bimetal rockers or bimetal membranes are provided which trigger the switch when heated and it, depending on the setting, after it has cooled down switch it on again automatically or leave it switched off. Such systems result in unfavorable proportions and insufficient or insufficient switch position displays. Automatic restart is undesirable in most cases. Bimetal membranes are sensitive to manufacture and also expensive.

It is the object of the invention, by simplifying the structural design, both smaller To achieve length, width and depth dimensions as well as lower production costs.

According to the invention, this is achieved by a switch in which a bimetallic strip serving as a contact bridge frictionally connected to a manual control element is held in the switched-on position resiliently directly by the manual control element and releases the lock when it deflects as a result of heating with support on the stationary contacts. The bimetallic strip is arranged across the direction of movement of the manual control element over the entire width of the switch. The hand control organ is designed as a push button and has a ring-shaped recess into which the small self-operated switch is inserted for its latching
in slim design

Applicant:

LICENTIA Patent -Verwaltungs -G.m.b.H., Hamburg 36, Hohe Bleichen 22

Alfred Fehrenbach and Heinrich Fraatz, Hameln,
have been named as inventors

snap in spring-loaded balls. A spring on the lower part of the slide switch serves as the switch-off force storage device and is supported against this and against the switch housing.

The invention is based on the drawing, which shows the switch in the switched-on position in FIG. 1 with the housing cover removed, in FIG. 2 in section along the line AB in FIG explained in more detail.

In the switch housing, which consists of two similar shells _1, 2, a slide switch Z 1, which forms a unit with a push button 4 designed as a manual control element, is guided. The slide switch, which takes up almost the entire width of the interior of the switch, has a straight bimetal strip 5 just below the push button 4. At its two ends, the bimetal strip carries contacts 5α, 5b, with which it connects the stationary contacts 6, 7 as a contact bridge. The stationary contacts are inserted in the housing recesses and also serve as connection lugs. The switch is latched by means of the push button 4, which has an annular recess 4 a, into which the balls 8 under spring action snap. The tension of the springs 9 acting on the balls can be changed by adjusting screws 10. The adjusting screws are carried by threaded nuts 11 inserted in the housing. A spring 12, which is supported on one side on the housing and on the other side on a stop 13 of the slide switch, serves as the switch-off force accumulator.

In the switched-on position, which is shown in Fig. 1, the current flow from the one terminal

~ ^; J '809 660 / 23Φ

flag over the bimetal strip directly to the other connection flag. The bimetal strip is locked in place The switch-on pushbutton is slightly curved downwards and is generated by its own springiness in the switch-on position the required contact pressure. If it is heated as a result of an overcurrent, it bends up to the power button and tries to assume the position indicated by dashed lines in FIG. 1. The curvature of the bimetallic strip increases the contact pressure until it is finally released of the control button against the latching force of the latching springs 9 takes place. Is this overcome, the opening spring 12 leads the slide switch together with the bimetallic strip and the Switch on button in the position shown in FIG. The bimetal strip is detached from the stationary contacts and resumes its original straight shape. With one on the lower part of the power button attached stop, the switch-off movement is limited by housing approaches. To switch on again the control button is pressed in until the sprung balls 8 in the annular Lock the recess. The switch-on position shown in FIG. 1 is thus reached again.

Claims (8)

25 claims. 1. Small self-switch in narrow design with thermal release, characterized in that that a serving as a contact bridge, frictionally connected to a manual control element Bimetallic strip held resiliently in the switched-on position directly by the manual control element is and when bending as a result of heating with support on the stationary contacts Lock releases. 2. Small self-switch according to claim 1, characterized in that the serving as a contact bridge Bimetallic strips across the entire direction of movement of the manual control element Switch width is arranged and the contacts are attached at both ends. 3. Small self-switch according to claim 1 and 2, characterized in that "the bimetal strip is arranged so that it arches with its central part in the disconnection direction when heated. 4. Small self-switch according to claim 1 to 3, characterized in that the push button trained hand control member has a preferably annular recess into which to its lock in the on position under the action of a spring to engage balls. 5. Small self-switch according to claim 1 to 3, characterized in that the bimetal strip is at its middle part under the force of an opening spring. 6. Small self switch according to claim 1 to 5, characterized in that the slide switch occupies the entire depth of the switch interior and the two contact points spatially from each other separates. 7. Small self-switch according to claim 1 to 6, characterized in that the bimetal strip is loosely suspended in a recess of the slide switch with little play. 8. Small self switch according to claim 1 to 7, characterized in that the opening spring, the lower end of the slide switch as a helical compression spring surrounds and is supported against the housing on the one hand and the slide switch on the other hand. Considered publications:
German Patent No. 657 732;
U.S. Patents Nos. 2,740,013, 2,488,049,
300 530. 1 sheet of drawings © 809 660/234 10 '.