DE1161976B - Switch with contact spring for connecting two contact poles, in particular slide switches in communications equipment - Google Patents

Description

Switch with contact spring for connecting two contact poles, in particular Slide switch of Naährichtgeräte In communication devices, z. B. in broadcasting and television receivers, turntables, and magnetic recorders, become slide switches used, which are generally operated with pushbuttons. The ones attached to the slider Contact poles are used to connect two (or more) stationary contact poles. There are either the stationary or the contact poles attached to the slide as Springs formed or are made up of one or more springs, usually leaf springs, pressed on. In the known switches, the possible spring travel is so short that A tightly tolerated spring pressure is difficult to maintain in manufacture. To one occurring as a result of the variation in the dimensions of the switch in manufacture To avoid too little spring pressure, one is forced to use a relatively high spring pressure to prescribe. However, you often have to overstress the spring material accept. Further disadvantages are the correspondingly strong removal of the feathers, which is particularly unfavorable with a silver plating, and the difficult gear of the switch, which requires a correspondingly high expenditure of force and the switch is noisy lets work. The difficult gait is particularly unfavorable when, such as B. in magnetic recorders, an automatic tripping of the switch is carried out with an electromagnet shall be.

The invention eliminates the difficulties outlined in one Switch with contact spring for connecting two contact poles. According to the invention the contact spring is S-shaped, in particular consisting of an S-shaped bent spring strip, arranged so that one leg of the spring connects the two contact poles and both curvatures act resiliently with respect to the contact pressure. The contact springs are preferably made of a Z-shaped bent spring band. Such an S-shaped spring is very flexible despite the use of the usual spring material, because the length of the spring hinge is exceptionally large despite its small overall length. The allowable load but is much larger than when the spring is used as an extended band would. The invention enables, through the choice of the spring material and the thickness and Width of the spring band and the other dimensions with a much lower Contact pressure than usual to get along because as a result of the larger available standing spring travel the manufacturing tolerances of the switch in terms of dimensions of the individual switch parts have become harmless.

The invention is intended primarily for slide switches, but also with other types of switches in electrical engineering, e.g. B. with rotary switches, applicable.

It is known per se, the contact springs of a switch S-shaped train, but the spring is only used for electrical connection with one single contact pole. The known switches are designed so that the S-shaped Feather just like a leaf spring or like a U-shaped spring or that both curvatures act resiliently with respect to the contact pressure.

As is to be explained on the basis of the drawing, the spring according to the invention so from # -bilden that they without additional attachments can be attached to the slide and that a uniform contact pressure on the two opposite contact poles is exercised.

The drawing shows exemplary embodiments of the invention.

F i g. 1 shows an example of a spring according to the invention which can be eimtzbar for insertion into an injection-molded or pressed slide made of plastic; F i g. 2 shows an associated waveband switch of a radio receiver; F i g. 3 shows another form of the spring according to the invention for insertion into a slide according to FIG. 4, which is cut out of a sheet of insulating material.

The S-shaped contact spring in FIG . 1 is intended for insertion into a slide that is injection-molded from plastic. The waveband switch according to FIG. 2 contains such sliders and 2. The slide switch belonging to the slider is shown in the closed state. Trimmer capacitors and coils that belong to a wave range are attached to it. The switch belonging to the slide 2, on the other hand, is shown in the open state. The slide 2 is provided with six recesses, three of which are each equipped with an S-shaped spring. Each spring works with three of the wire-shaped, stationary contact poles3, in that the middle one is connected to one of the two outer stationary contact poles. So that the spring cannot fall out after insertion, the recesses in the slide are shaped so that when the slide is pulled out, the two ends of the outer leg of the spring rest against projections on the sides of the recess. Then the middle part of the outer leg protrudes slightly over the slide. In order to prevent longitudinal displacement of the spring, the leg resting on the bottom of the recess is shown with a recess 4 in FIG. 1 provided, which in a projection 5 in F i g. 2 locks into place.

The two curvatures of the spring in FIG. 1 have the same dimensions. This results in an even pressure on the two stationary contact poles. For this purpose it is also advantageous # if the other dimensions of the spring are symmetrical. Furthermore, for the same purpose it is advantageous if the bottom of the recesses has a recess such that the leg resting on the bottom rests only at two points on the bottom and can bend in the middle. This is in FIG. 2 not shown, but is shown below with reference to FIG. 4 will be explained in more detail.

The spring in FIG. 1 is provided on the outer leg with an inclined embossing so that the contact surfaces rub against each other not only in the horizontal but also in the vertical direction, whereby the wear of the fixed wire-shaped contact poles is distributed over a larger area. In order to achieve the same contact pressure on the two stationary contact poles, a symmetrical design is also advantageous here. The same expression is therefore also applied in the other leg.

The spring according to FIG. 3 is for one in FIG. 4 shown slide determined, which consists of a sheet of insulating material z. B. is cut out by punching. For this purpose, the leg resting on the strip is bent like a hook at its end 6 in such a way that, after the hook has been pressed into a slot 7 in the strip, it rests with spring tension on the surface of the strip and the spring can no longer fall out. The other slot 8 is intended for the spring lying on the other side. Both slots are designed in the form of an H-shaped punch to simplify punching.

In order to avoid a displacement of the spring in the transverse direction, the leg resting on the slide is provided with a bend 9 which engages in a recess 10. This recess 10 is larger than it corresponds to the deflection 9 and is arranged symmetrically to the spring. The length of the recess is preferably equal to the distance between the centers of the two opposite contact poles so that the spring can bend in the recess 10 so that there is a uniform contact pressure on the two stationary contact poles.

The spring according to FIG. 3 can also be used for slides made of injection-molded or pressed plastic, which then z. B. has an H-shaped profile whose web in the manner of F i g. 4 is formed. The achievable by the shape of the spring according to the invention large spring travel enables cleaning of the contacts of the switch by z. B. a metal band is inserted between the fixed and movable Kentakts and pulled out again without overstretching the springs.

Claims (2)

1. A switch with contact spring for connecting two contact poles, in particular slide switch of message units, d a d u rch in that the contact spring S-fönnig, in particular of S-förrnig gene% enem spring strip is composed, arranged so that the one leg the spring connects the two contact poles and both curvatures act resiliently with respect to the contact pressure ( Figs. 1 to 4). 2. Slide switch according to claim 1, characterized in that the contact springs are attached to the slide (F i g. 2 and 4). 3. Slide switch according to claim 2, characterized in that the contact springs are mounted in recesses in the slide so that they can no longer fall out after insertion into the recesses (Fig. 2). 4. Slide switch according to claim 3 with a slide made of injection-molded plastic, characterized in that the two ends of the outwardly protruding, coming with the mating contact pole in contact leg of the contact spring are bent so that the middle part of the leg protrudes over the slide while the ends rest against projections on the sides of the recess before the slide is installed in the switch, and that the leg resting on the bottom of the recess is provided with a recess (4) which after the spring has been inserted into a projection (5) engages in the recess (Fig. 1 and 2). 5. Slide switch according to claim 4, characterized in that the two curvatures of the spring have the same dimensions (F i g. 1 and 3). 6. Slide switch according to claim 3, characterized in that the bottom of the recesses has a recess such that the leg resting on the bottom rests only at two points on the bottom and can bend in the middle. 7. Slide switch according to claim 3 with cut out from an insulating material strip streifenförn- # acc. Slider, characterized in that the limb that flies onto the strip is lifted off at its end like a hook in such a way that, after the hook (6) has been pressed into a slot (7) in the strip, it rests with spring tension on the surface of the strip and the spring can no longer fall out ( Figs. 3 and 4). 8. Slide switch according to claim 7, characterized in that the leg resting on the strip is provided at a point far away from the hook with a bend (9) which is inserted into a recess (10), for. B. a hole in which the strip engages to avoid displacement of the spring in the transverse direction ( Fig. 3 and 4). 9. Slide switch according to claim 8, characterized in that the length of the recess to achieve the same contact pressure of the spring with the two opposite stationary contact poles is equal to the distance between the centers of these contact poles and is symmetrical to them (F i g. 4). 10. Slide switch according to claim 1, characterized in that the contact spring is provided on the outside with an oblique embossing so that the contact surfaces rub against each other not only in the horizontal but also in the vertical direction (Fig. 1). 11. Slide switch according to spoke 10, characterized in that the leg of the contact spring resting on the slide is also provided with an expression attached in such a way that the stress on the spring is symmetrical (F i g. 1). Documents considered: German Patent No. 527 632; Swiss Patent No. 24 906; U.S. Patent Nos. 1761803 , 2,550,921, 2549998.