DE1190088B - Snap switch for an electrical limit switch - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY GERMAN # | Ä PATENTAMT Int. Cl .:

EDITORIAL

H02p

G05g

German class: 21c-57/70

Number: 1190 088

File number: V13439 VIII b / 21 c

Filing date: November 26, 1957

Open date: April 1, 1965

The invention relates to a snap switch mechanism for an electrical limit switch with a two parts magnetically interacting armature, which is attached to one under the action of a switching spring standing jump member is attached to which an actuating part immediately after tensioning the switching spring acts by overcoming the magnetic force, two stops being provided on the jump member with which two stops on the actuating part work together.

The limit switch is generally required to ensure that the sudden changeover is independent of the operating speed always at the exact same place as the one acting on the switch Part takes place. This requirement is for many limit switches z. B. already then no longer fulfilled, when contact wear has occurred. Snap-action switching mechanisms are dependent on contact wear, which are only based on spring action. This type of snap-action mechanism also promotes contact wear, so that such a snap switch mechanism does not guarantee permanent switching accuracy.

Snap-action switching mechanisms, in which the magnetic force of a permanent magnet is used, work independently of the switching speed and any contact wear that may occur. In these snap switch mechanisms, after a spring is tensioned, the snap link connected to the magnetically active part is immediately torn off from its abutment by an actuating valve, whereupon the tensioned switching spring causes the abrupt movement into the other end position. The known limit of this nature, which operate with a magnetic snap-action mechanism, but only as mm adjustment dials and not as a key switch usable. For the return movement to its starting position, an additional switch-off force opposing the switch-on movement is necessary. The movable contacts do not automatically move back into the switch-off position. In the case of a snap-action switch mechanism for a limit switch, however, the automatic return of the contacts to the starting position is normally an essential prerequisite. A snap-action switch mechanism that works on the principle of a control switch is only desirable in special cases.

In known limit switches of the type mentioned above, both the snap-action member and the actuating part carry out a rotational movement kept within certain limits, and, as already noted, an external actuating force required for an electrical snap-action switch for switching to the two end positions
Limit switch

Applicant:

Continental Elektroindustrie Aktiengesellschaft

Voigt & Haeffner,

Frankfurt / M., Hanauer Landstr. 142-172

Named as inventor:

Heinrich Brungsberg, Offenbach / M.

is borrowed. Such limit switches are therefore only limited usable.

The object of the invention is to remedy this disadvantageous circumstance. However, it starts from the familiar advantageous use of magnetically interacting parts. Through the present invention a snap-action switch mechanism is created that acts as a push-button switch mechanism, i.e. where after the actuation force disappears, the switch and jump mechanism parts automatically return to their starting position to return.

This is achieved according to the present invention in that the one stop is a straight line Movement executing shock-shaped actuating part as an abutment for the acting on the jump member Switching spring and the other stop as an abutment for a resting part of the Switch supporting tear-off spring is used.

Advantageously, the two stops of the snap link, which is designed as a plunger, have a larger diameter than the part of the ankle joint lying between them, in which the the Spring member partially overlapping cap-like actuating part on the one stop in one and onto the other stop in the other direction through an inwardly directed annular shoulder acts, between the overlapped end of the jump member and the inner end face of the actuating part the switching spring and between the annular extension of the actuating part and the resting one Part of the switch, the tear-off spring is arranged.

An exemplary embodiment of the invention is shown in the drawing. In it shows

B i 1 d 1 the snap-action switch mechanism in the starting position,

B i 1 d 2 in an intermediate position and

B i 1 d 3 in the switching position.

509 557/383

With two resting contacts 1 and 2 as well as 3 and 4, two movable contact bridges 5 and 6 work together. The contact bridges 5 and 6 are mounted on a switch plunger 7 under the action of a spring 8.

A cap-like actuating part 9 is guided in the switch housing (not shown). aside from that the switch plunger 7 is slidably mounted in the switch housing. The actuating part 9 acts via a Switching spring 10, which is arranged in the interior of the actuating part 9, on a spring element designed as a plunger 11 a. The jump member 11 carries a circular ring-shaped permanent magnet 12 between two stationary ferromagnetic parts 13 and 14 is arranged. The spring link 11 is in the parts 13 and 14 led. The permanent magnet 12 is expediently designed with multiple poles, so that there is little scatter results. The holding force is great, while the magnetic influence is even at short distances decreases sharply. The jump member 11 acts with its right end on the switch plunger 7, which of a spring 15 is held adjacent to the spring member 11.

With a part 16 of smaller diameter, the jump member 11 is in an annular extension 17 of the Actuating part 9 out. A stop 19 is formed by the part 16 of smaller diameter. Between the annular extension 17 of the actuating part 9 and the resting part 13 is a breakaway spring 18 arranged.

The mode of action is as follows. The starting position is shown in B i 1 d 1. If a switchover is to take place, the actuating part 9 is moved to the right, whereby the switching spring 10 mounted in its interior is compressed. The tensioning the switching spring 10 takes place until the annular projection 17 of the operating member 19 reaches the stopper 9 of the branch member. 11 This intermediate position is shown in Figure 2. At the same time, the tear-off spring 18 has also been compressed. Up to this phase of the movement of the actuating part 9, the switching spring 10 has been tensioned. Upon further actuation, the actuating part 9 acts directly on the spring element 11 via the stop 19 and has to overcome the magnetic holding force of the permanent magnet 12, ie it has to tear the permanent magnet off the stationary part 13. As soon as the permanent magnet 12 has been moved slightly away from the part 13, its further movement takes place with the assistance of the tensioned switch spring 10, which now suddenly relaxes and suddenly brings the permanent magnet 12 and thus the switch plunger 7 into the other end position. This movement is supported in the last part by the force of attraction between the permanent magnet 12 and the stationary part 14, on which the permanent magnet 12 now comes to rest. The spring 15 is also tensioned. This position shows B i 1 d 3.

If the force acting on the actuating part 9 decreases, it moves under the effect the springs 10 and 18 back to the starting position. The tear-off spring 18 initially acts on the Actuating part 9 and then via this onto the spring element 11, so that the permanent magnet 12 from the resting part 14 tears off. When the spring element 11 moves further, the spring 15 also acts with. So that the tear-off spring 18 can act on the spring element 11, there is a stop on the spring element 11 20 is provided with which the annular projection 17 of the actuating part 9 during the disconnection movement cooperates.

The invention is not bound to the illustrated embodiment. Instead of a permanent magnetic adhesive device, an electromagnetic Adhesive device may be provided, in which case the magnetic holding force is switched off the excitation coils can be canceled. Furthermore, of course, the switch plunger 7 and the snap link 11 consist of one piece.

Claims (2)

Patent claims: 1. Snap-action switch mechanism for an electrical limit switch with a two-part magnetic cooperating armature, which stands on one under the action of a switching spring Snap link is attached to which an actuating part immediately after tensioning the switching spring acts by overcoming the magnetic force, two stops being provided on the jump member are, with which two stops on the actuating part work together, thereby characterized in that the one stop of the executing a rectilinear movement shock-shaped actuating part (9) as an abutment for the acting on the jump member (11) Switching spring (10) and the other stop as an abutment for a resting part (13) of the switch supporting tear-off spring (18) is used. 2. Snap switch according to claim 1, characterized in that the two stops (19, 20) of the jump member (11) designed as a ram has a larger diameter than the have part (16) of the jump member (11) lying between them, in which the jump member (11) partially overlapping cap-like actuating part (9) on one stop (19) in one and on the other stop (20) in the other direction through an inward directed annular projection (17) acts, between the overlapped end of the Spring member (11) and the inner face of the actuating part (9) the switching spring (10) and between the annular extension (17) of the actuating part (9) and the stationary part (13) of the switch, the tear-off spring (18) is arranged. Considered publications:
German Patent Nos. 525 721, 829 476;
French Patent No. 1013 025;
British Patent No. 456,880;
U.S. Patents Nos. 2,175,932, 2,361,238,
520 935;
VDE 0660. 1 sheet of drawings 509 537/383 3.65 © Bundesdruckerei Berlin