DE597307C - Automatic switch with free release - Google Patents

Description

GERMAN EMPIRE

ISSUED ON May 22, 1934

REICH PATENT OFFICE

PATENT LETTERING

CLASS 21c GROUP 68 oi

2JC Sch 22.

Circuit breaker with trip-free release

Patented in the German Empire on January 15, 1930

Only circuit breakers with trip-free release are able to satisfy higher demands. Alone the widespread use of these switches has hitherto stood in the way of their high price. The invention solves the task of creating a circuit breaker with trip-free trip of extraordinarily great simplicity. Their essence is seen in that one and the same by means of one The moving component of the drive system both carries the entire locking system and controls the moving contact pieces.

The figures represent an example of the invention and some details schematically.

Fig. Ι gives the embodiment in the on position,

Fig. 2 in the switched-off position with and unshifted

Fig. 3 again with a shifted drive system in plan.

FIG. 4 illustrates a section along AA of FIG. 1.

Fig. 5 shows one way to control the movable contact pieces and
6 shows a somewhat different embodiment of the drive system.

According to FIGS. 1 and 4, the component 1, which is suitably made of insulating material, carries the entire barrier system. The locking system consists of a double toggle lever with the double straps 2, 3, 4. The straps 2 and 4 are hinged to the component 1 at points 5 and 6. The bracket 2 is connected to the bracket 3 by the hinge 7 and the bracket 3 is connected to the bracket 4 by the hinge 8. The double toggle is latched shortly before the extended position of two of its tabs, namely tabs 2 and 3. For the purpose of latching the double toggle lever, the tab 3 has a shoulder 3 ″ which carries the pin 3 *. This pin rests in the notch g ^{a of} the release element 9, which is formed by an angle lever which, against the force of the small spring 10, moves around the Axis 11 is rotatable. Component 1 controls the movable contact pieces. The simplest version of the switch is to use component 1 as a pole crossbar, ie either fasten the movable contact pieces of all poles to it or actuate them directly through it The mentioned embodiment is shown schematically in Fig. 5. If the component 1 moves in the direction of the arrow S, it presses the leaf springs 12 with the movable contact pieces 13 attached to them against the stationary contact pieces 14. (Since Fig. 5 is a side elevation, the leaf springs 12 and the contact pieces 13 and 14 of all poles coincide in it.) If the component 1 is moved in the direction of the arrow T , the be Movable contact pieces 13 stand out from the stationary contact pieces 14 as a result of the forces inherent in the springs 12.

*) The patent seeker stated as the inventor:

Ernst Besag in Baden-Baden.

597

The component ι can in principle both rotated by the drive system and moved parallel to itself. The provision of a straight line for the component ι is, however, more expedient. In the illustrated embodiment, the component ι is guided straight through the strips 15. The drive system for the component 1 has an inclined plane 16, through the movement of which it is displaced, and a detent i6 ^a , which holds it in the switched-on position. The embodiment shown in the figures is a rotary switch. In this case, the inclined plane is formed by a helical surface. The roller 17, which is rotatable about the pivot pin 8, slides on the inclined plane 16.

A force always acts on the component 1, preferably that of a spring, which tries to move this component in the direction of the arrow T , as a result of which the movable contact pieces 13 would move away from the stationary contact pieces 14. But as long as the pin 3 is located in the notch 9 * ^0, the component 1 can not move. If an overcurrent of impermissible strength occurs, the angle lever 9 is rotated counterclockwise by a fixedly arranged trigger, not shown for greater clarity, for example by a bimetallic strip or an electromagnet. The force acting on component 1 in the direction of arrow T can now move it. Here, the tabs 2, 3 and 4 initially rotate into the position shown in FIG. 2.

According to the invention, the component 1 should be automatic Switching off on the drive system exert a force in such a direction that the actuator moves into its off position. In the illustrated embodiment, this force comes from the helical spring 18, which is pushed onto the bolt 7 and the ends of which are against the tabs 2 and 3 place. As a result of the power of this. Spring turns the roller 17, the handle 19 in its Off position, so that you can see from the outside that the circuit of the switch is interrupted. The position that all parts of the switch occupy when its operating handle 19 is in the switch-off position, can be seen from FIG.

The spring 18 has in the illustrated embodiment the invention has a second meaning. This is because it also serves to re-latch the Bring about locking system. If the drive system evades the force of the spring 18, this leads the locking system back into its locked position. To relink the locking system to achieve with automatic shutdown, you can also in a known manner the Use the switch-off movement of the drive system, which, as indicated above, also in this FaE is brought about by starting from component 1 on the drive system a force or force component acting in the disconnection direction is transmitted.

As can be seen from Fig. 2, the automatic disconnection takes place even if the handle 19 is held in the on position by some external force, for example by the fact that the operator happens to hold it in his hand. If the handle is released, however, it moves into the switch-off position according to FIG. 3. The switch is now ready to be switched on again. It is switched on manually by the force component which the screw surface 16 transmits to the component 1. In the Einaltstelkmg the role 17 of the locking system rests on the latch i6 ^a . When switched off by hand, the component ι including the parts carried by it is moved in the direction of the arrow T , since it is released by the drive system.

The drive system shown in FIG. 6, the displaceable parallel to itself inclined plane 16 with the latching surface on ^a i6. If the inclined plane 16 moves downwardly, then the roller 17 moves the component 1 from the right to the left until it rests on the catch surface i6 ^a. In this position, the switch is switched on, as in the exemplary embodiment according to FIG. 1.

Claims (10)

Patent claims: 1. Self-switch in which the location of a the moving contact pieces controlling component on the one hand from the position of a Free release enabling locking system and on the other hand from the position of an additional, it depends on the drive system moving, characterized in that the the component controlling the moving contacts carries the entire locking system, so that both the beginning and the end member of the locking system is mounted on it. 2. Automatic switch according to claim 1, characterized in that the component (1) either carries the movable contact pieces (13) of all poles or actuates them directly. 3. circuit breaker according to claim 1 or 2, characterized in that the component (1) is displaceable in a straight line. 4. Circuit breaker according to claim 1, 2 or 3, characterized in that the drive system has an inclined plane (16), through the movement of which the component (1) is displaced, and a detent (i6 ^a ) which supports the component (1) holds in the on position. 5. circuit breaker according to claim 4 with Wl Rotary actuator, characterized in that the inclined plane (16) by a Helical surface is formed. 6. circuit breaker according to claim ι or 4, characterized in that the component (1) in the event of automatic disconnection on the drive system, a force in such a direction exercises that it moves the actuator (19) in its Äusschaltstellung. 7. circuit breaker according to claim 1, 4 and 6, characterized in that on the inclined plane (16) a roller (17) of the locking system slides. 8. Automatic switch according to claim 1, characterized in that the locking system consists of a double toggle lever (2, 3, 4), which shortly before the extended position of two of his Tabs (2, 3) is latched. 9. Automatic switch according to claim 1 and 6, characterized in that the drive system in the event of automatic disconnection by its disconnection movement, the re-latching brings about the locking system in a manner known per se. 10. circuit breaker according to claim 1 and 6, characterized by a spring (18) that re-latches when it is automatically switched off of the locking system. 1 sheet of drawings