DE2517064A1 - GRINDING LEAD FOR CHANGEABLE RESISTORS AND POTENTIOMETERS - Google Patents

Description

Wilhelm Ruf KG 8011 Höhenkirchen, April 14, 1975 Electrotechn. Special factory PTA-Sf / He 75-3

Slide spring for changeable resistors and potentiometers

The invention relates to a slide spring for variable resistors and potentiometers according to the preamble of claim 1.

Such slip springs are used in particular in variable resistors or potentiometers, which are created for large series of actuations, and especially in use for rotary resistors or rotary potentiometers fitted with prefabricated carbon contacts to prevent damage to the paint-soot mixture Avoid resistive layers. This should continue to ensure good functioning of the resistors or potentiometers even after long periods of use and corrosion formation of the contacting parts are avoided. This carbon contact is additionally selected, in particular also for the contacting of the sliding track of a resistor if this also consists of a layer of paint and soot mixture. The production of such carbon contacts for slide springs with the prescribed, very small tolerances and dimensions and the insertion of these carbon contacts in bores of slip springs on a press fit is technically difficult and expensive and in practice only possible unsatisfactorily even with great technical effort.

The object of the invention is therefore to provide a slide spring with a To establish contact with the resistance track and / or the sliding track

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a safe function while avoiding the aforementioned deficiency even with a high number of operations.

According to the invention the object is achieved in that the contact the slide spring to the resistance track and / or slide track made of the same or similar material as the resistance layer of Resistance track exists and in a paste-like or viscous state in an open to the resistance and / or sliding track Embossing or bulging of the slide spring in any desired, preferably arcuate or spherical-dome-shaped design with a to the resistance track and / or sliding track aligned, rounded or spherical elevation introduced and then has dried to the necessary contact hardness.

This contact is made according to a further embodiment of the invention a paint-soot mixture and can be introduced into the embossing or bulging of the slide spring by a metering device, for example in the form of drops, or by painting and similar processes be.

The production of such a slide spring is characterized by the particular advantages from the fact that the necessary contact no longer has to be manufactured separately with special machine devices and inserted into the slide spring in the correct position using special devices. There the slide spring also has a contact made from a mixture of paint and soot How the resistance layer is equipped, very large series of operations are possible without great wear and tear and without damaging the resistance layers, as tests have shown. Furthermore With such a design, the slide spring no longer needs to consist of a high-quality, non-corrosive material or to be provided with high-quality coatings in order to ensure contact

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that is to guarantee after long periods of time, but it can be off Steel can be formed with an unfinished surface. As a result, there is the further advantage of this slide spring according to the invention that it can also be used where the contacts are only formed by embossed domes made of the slide spring material, because there is no post-treatment and finishing of the surface to ensure functionality and avoid corrosion.

Further refinements about the shape of the slide spring are in the Subclaims 5 and 6 and reproduced in the following description with reference to graphically illustrated examples.

The contact according to the invention for the resistance track and / or sliding track can be in a different configuration instead of in an embossing of the Sanding nib on a flat surface without any embossing or Be applied bulge. For better adhesion of the contact, the intended location of the slide spring can have a small opening Have diameter or a roughening. This embodiment of the invention eliminates the need for molding in a Embossed in the sanding pen.

Show it:

Fig. 1 shows a slide spring for a rotary resistor in plan view Fig. 2 shows a slide spring according to FIG. 1 in section according to the Line II - II

3 shows a detailed section of a slide spring Fig. 4 shows a further detailed section of a slide spring; Fig. 5 shows yet another detailed section of a slide spring 6 shows yet another detailed section of a slide spring 7 shows yet another detailed section of a slide spring

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8 shows another slide spring for a rotary resistor in plan view

FIG. 9 shows the slide spring according to FIG. 8 in section according to FIG Line IX - IX

10 shows yet another slide spring for a sliding resistor in top view

11 shows the slide spring according to FIG. 10 in section according to FIG Line XI - XI

The sliding spring 1 according to FIGS. 1 and 2 is designed for use in a rotary resistor and has a substantially oval-flattened shape with V-shaped wiper arms. The contact 2 to the resistance track 3 is inserted into a one-piece indentation or bulge 4 of the slide spring. The opening 5 is directed towards the resistance track. The contact 2 used makes contact with the layer of the resistance track 3 with its rounded or spherical or arcuate elevation 6. According to the invention, the contact 2 consists of the same or a similar material as the layer of the resistance track formed from a paint / carbon black mixture. It is introduced as a viscous or pasty or doughy mass into the embossing 4 automatically, for example by a metering device. The contact 2 is then dried to the desired and required contact hardness by post-treatment, such as the supply of heat. The contact 7 of the slide spring 1 is stamped out of the material of the slide spring in the shape of a dome and is used to make contact with the slide track 8.

Figures 3 to 7 show configurations of the embossments or bulges of the slide spring for receiving contacts after Invention.

Thus, according to Fig. 3, the contact point 9 is a slide spring over the

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Arranged level of the slide spring and there with a spherical cap-shaped Bulge 10 and raised border Π for receiving the contact 12 to the resistance track 13 is formed.

According to Fig. 4, the embossing 14 has the slide spring for the recording of the contact 15 to the resistance track 16 is a centrally arranged one Small diameter opening. The viscous or pasty mass of the contact 15 fills during the introduction into the Embossing 14 from this opening 17 and anchored in this opening and outside this opening on the resistance track remote side.

Fig. 5 shows an impression of the slide spring, which consists of a central small bulge 18 and a bead 19 arranged in a ring around it. In this the contact 20 is with an arcuate elevation introduced to resistance track 21.

According to Fig. 6, the embossing 22 has the slide spring for the recording of the contact 23 to the resistance track 24 has a V-shape, while FIG. 7 shows a U-shaped indentation or bulge 25 for the contact to resistance track 27 shows.

In Fig. 8, another design of a slide spring 28 is shown. This consists of a circular ring with an arm 29 extending radially outward. The arm 29 has an indentation that is open to the resistance track 30 31, into which the contact 32 is inserted in the form and type according to the invention. The contact 32 for the resistance track 30 diametrically Opposite there is another indentation or bulge 33 designed according to the invention in the circular ring of the slide spring 28, which is open towards the sliding track 34 and into which a contact 35 made of the same material as contact 32 is introduced. The sliding track 34 in this case, like the resistance track, consists of a paint-soot mixture.

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Fig. 10 shows a three-armed slide spring 36 for a sliding resistor or for a spindle resistance. In the example shown, all three arms have impressions at their outer ends 37 for receiving contacts 38 of the type according to the invention, which make contact with the resistance or sliding tracks 39.

In all of the depicted embossings, there are openings according to FIG. 4 possible. In addition, to improve the retention of the contacts in the embossments, there are roughening of the surfaces of the embossments possible. Furthermore, any additional cross-sectional shapes and any configurations of the impressions from the top view are possible, such as round, polygonal or oval, possible.

As experiments with large series of operations have shown, the Combination of a contact made from the same or similar material as the resistance layer in cooperation with that made from a mixture of paint and carbon black existing layer of the resistance track to a smooth resistance track that can be contacted at any time and does not damage any or shows great signs of wear and tear. The measured resistance values were exact even after large series of operations and gave way not or only slightly from the initial value.

All shown in the examples and explained in the description Details are important to the invention.

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Claims (7)

Claims Iy slide spring for variable resistors and potentiometers, such as rotary resistors, sliding resistors and the like, each with at least one contact contacting the resistance track and the sliding track of the resistor or potentiometer, characterized in that the contact (2, 12, 15, 20, 23, 26, 32 , 35, 38) to the resistance track (3, 13, 16, 21, 24, 27, 30, 39) and / or sliding track (8 _f 34, 39) consists of the same or similar material as the resistance layer of the resistance track and in paste-like « , viscous or similar state in an embossing or bulge (4, 10, 14, 18, 19, 22, 25, 31, 33, 37) of the sanding spring in any, preferably arcuate or spherical cap-shaped design with a rounded or spherical elevation (6) is introduced towards the resistance track and / or sliding track and is then dried there to the required contact hardness. 2. grinding spring according to claim 1, characterized in that the contact (2, 12, 15, 20, 23, 26, 32, 35, 38) is essentially formed from a mixture of paint and carbon black. 3. grinding spring according to claims 1 and 2, characterized in that the contact (2, 12, 15, 20, 23, 26, 32, 35, 38) in a paste-like, viscous or similar state is introduced into the indentation or bulge (4, 10, 14, 18, 19, 22, 25, 31, 33, 37) by a metering device. 609844/0620 - 2 - 2 b Ι ¹ 7 O 6 4. Slip spring according to claims 1 and 2, characterized in that that the contact (2, 12, 15, 20, 23, 26, 32, 35, 38) by brushing, dipping or similar processes into the indentation or bulge (4, 10, 14, 18, 19, 22, 25, 31, 33, 37) is introduced, 5. sanding spring according to claims 1, 3 and A _1, characterized in that the indentation or bulge (4, 10, 14, 18, 19, 22, 25, 31, 33, 37) in the sanding spring (1, 28, 36 ) has a preferably centrally arranged opening (17) of small diameter. 6. sanding spring according to claims 1 and 3 to 5, characterized characterized in that the surface of the indentation or bulge (4, 10, 14, 18, 19, 22, 25, 31, 33, 37) is roughened is. 7. Slide spring according to the preamble of claim 1 and one or several of claims 2 to 6, characterized in that that the contact (2, 12, 15, 20, 23, 26, 32, 35, 38) to the resistance track (3, 13, 16, 21, 24, 27, 30, 39) and / or sliding track (8, 34, 39) made of the same or similar material as the resistance layer of the resistance track and in paste-like or viscous state on a flat surface of the slide spring (1, 28, 36) with a resistance track and / or sliding track towards rounded, arcuate or spherical elevation (6) and then applied there up to the required Contact hardness has dried. 609844/0620 Blank page