DE846720C - Device for control resistors to protect against unintentional adjustment - Google Patents

Description

Set up in the case of rheostat to protect against unintentional Adjustment To protect the operating axis against unintentional adjustment are friction brakes in the case of control resistors or acting in the sense of friction brakes Locking devices known that by longitudinally sliding the operating axis against the force of a spring are to be released. In a known embodiment of a variable resistor are for this "purpose the operating axis and the guide bearing for this with conical Provided surfaces that are under the pressure of a coil spring seated on the axis are pressed against each other.

Such a structure has significant disadvantages: The conical surfaces are complicated to manufacture because there are other similarities with regard to the Risk of self-locking of the cone, special requirements must be made. Axis and bearings are mostly made of metal; the design can therefore only be done by machining Shaping and grinding are done, as is the case with mass-produced articles, especially the film rotating resistances are, leads to an increase in the price. Next is the arrangement of the braking elements The lever arm on the axle or bearing is very small, so the forces required are therefore can only be achieved with strong springs, which puts stress on the individual Components leads and makes operation difficult.

The invention heseitiges these disadvantages and allows the H-Jrstellung to simplify and cheaper such variable resistors significantly. Of the Basic idea the invention is to arrange on the spring support of the variable resistor means that cooperate with suitable countermeasures on the housing of the rheostat in such a way that that an automatic form-fit or force-fit retention is achieved, the forces required for this by the pick-up spring or by special Springs are effected. Such means on the spring carrier are, for. B. Toothings, approaches or depressions of suitable cross-section or material arrangements with high Coefficient of friction. In the case of the serrations, approaches or depressions are this on the spring carrier itself by suitable shaping of the same by means of pressing, Injection or stamping process produced. The antidotes on the case are from the Housing protruding lugs or tabs, which on sheet metal housings are made by embossing, In the case of injection molded housings, they are produced by injection molding. Also can the antidotes on the housing represented by materials with a high coefficient of friction will. Otherwise there are combinations of those mentioned for the spring carrier and the housing Remedies or antidotes possible.

Examples of embodiments of the invention are shown in FIGS. 1 to 4 shown. In Fig. 1 is an embodiment of the invention using the example of a Layer rotation resistance shown, with a form-fitting retention for use comes, while Fig. 2 to 4 frictional holdings for the same application show in principle.

In Fig. 1, 1 is the resistance ground plane, on which in a known manner the pick-up element 3 seated in the wiper spring 2 grinds. The slider spring 2 is connected to the so-called spring carrier 4, which is fastened on the axis of rotation 5 is. The spring support 4 is designed so that it has on one side with a Toothing 6 is provided. By the pressure of the wiper spring 2 in the axial direction the spring support 4 with its teeth against one or more of the ground of the housing 7 protruding lugs 8 pressed. This makes the axis of rotation 5 in held in their respective positions.

Figs. 2 to 4 show further design options with non-positive locking Connection, namely in Fig. 2, the spring carrier 9 with an annular extension 1o provided with a trapezoidal cross-section caused by the spring pressure of the wiper spring t 1 against correspondingly arranged lugs protruding from the housing base 12 13 is pressed.

In Fig. 3 a similar embodiment is shown, only that here in place of the annular projection 1o an annular recess 14 again of trapezoidal cross-section is provided in the spring carrier. The figure 4 shows a Possibility to use materials with a higher coefficient of friction. In this case, an annular one is located on the spring support 15 centrally to the axis Disk 16, e.g. B. made of rubber or plastic, e.g. F3. based on polyvinyl chloride. These annular disc 16 is held by small lugs 1 7 in the spring carrier and is by the spring pressure of the wiper spring 18 against a similar disc 19 pressed, which is also fastened with small lugs 20 in the housing 21. Such materials with a high coefficient of friction can also either only be arranged on the spring carrier or only on the housing, in the first In the case of the housing suitable countermeasures and in the second case suitable countermeasures on the spring carrier Antidotes must be ordered.

In all cases, when the rheostat is changed, the axis of rotation becomes pressed in the direction of the arrow, this disengages the retention and the The axis is free to rotate. When you let go of the axis, it is replaced by the The spring force is automatically retained in the new setting.

The retention can also be designed so that it is pulled out the axis is released and becomes effective again when it is released.

The invention can be applied in the same way to wire relay resistors use: instead of the resistance ground plane, there is the one arranged in a circle Wire winding on which the wiper spring slides. In addition, the invention is not limited to single resistors; it can also be applied to multiple resistors with one or more operating axes.

The description and the illustrations show that the holdings according to the invention either without additional or using particularly simple additional components can be produced, the effectiveness of the enlarged lever arms is increased. Expensive work processes on the axle and bearing are eliminated, because the means for retention are made by pressing, injection molding or stamping processes will.

Claims (3)

PATENT CLAIMS: 1. Device for control resistors to protect against unintentional adjustment of the operating axis, consisting of a friction brake or the like, which can be released by sliding the operating axis against the force of a spring, characterized in that the spring force from the wiper spring of the Rule resistance is exerted and the spring carrier connected to the operating axis serves as a brake together with parts of the housing. 2. Device according to claim 1, characterized in that the side of the spring carrier facing away from the wiper spring is provided with a toothing, which with the locking with corresponding projections of the housing comes into engagement. 3. Device according to claim 2, characterized in that that in place of the gearing Approaches or depressions on the spring carrier are provided which cooperate with corresponding parts of the housing. . Facility according to claim 3, characterized in that on the housing or on the spring support or Materials with a high coefficient of friction are attached to both parts as brake pads are. Device according to one of Claims i to d, characterized by the application in the case of multiple control resistors with one or more operating axes.