DE2061723C3 - Sliding resistance - Google Patents

Description

The invention relates to a slide resistor with a housing in which elongated Resistance and collector elements are arranged, with a sliding slide with a contact device, which is in loop engagement with the resistance and collector tracks and with longitudinal channels and Guide projections existing guide devices for the slide, the guide grooves and in these include engaging parts on the slide valve and the housing, respectively.

In a known sliding resistor of this type (German Offenlegungsschrift 18 01 315), the guide devices for the slide valve formed by elongated plates inserted into the housing, which engage in grooves in the slide. The slide itself is designed in two parts, so that the Guide grooves can be formed with high accuracy. The structure of the guide facilities by separate guide plates which are inserted into recesses provided in the housing must and the design of the slide in the form of two separate parts, however, represents one relatively high expense, which is undesirable for mass production, especially since these parts with must be manufactured with high accuracy.

The invention is based on the object of providing a sliding resistor of the type mentioned at the beginning create that when building from a lower

ίο Number of parts with the guide of the slide gate high accuracy

This object is achieved by the measures specified in the characterizing part of claim 1 solved.

'S Advantageous developments and further training of the invention emerge from the subclaims.

The inventive design of the sliding resistor, it is possible to this under Use only a few parts to produce, in particular the housing insert with high Accuracy can be produced because the housing insert can be molded in a flat state, the side parts being in the same plane as the bottom part. Therefore, when designing and Shaping of the guide channels in the housing insert does not take into account the circumstances Molding process are taken because there are no undercut parts in the molding process. The articulated side parts connected to the bottom part also simplify the assembly of the Sliding resistance, because the slide slide into the guide grooves when the side parts are folded down can be introduced, whereupon the entire housing insert part optionally with the fastened therein Resistance and collector tracks can be inserted into a rigid housing.

In the drawing, the following exemplary embodiments of the invention are explained in more detail,
show in the drawing:

F i g. 1 is a perspective view of an embodiment the sliding resistance;

FIG. 2 is an enlarged sectional view taken along line 11-11 of FIG. 1;
3 shows an exploded view of the sliding resistance according to FIG. 1;

Fig.4 is a plan view of that shown in Fig.3 Housing insert, with the bottom part and the side parts shown lying in the same plane are;

5 shows an end view of the housing insert according to Fig. 4;

F i g. 6 shows a further embodiment of the sliding resistor.

The slide resistor shown in Figures 1 and 2 is designated as a whole with 10; it has an elongated channel-shaped or trough-shaped housing 11, which is punched from a single piece of sheet metal and consists of a base 12 and two upwardly directed side walls 13, 14 which are integral therewith. The top or the cover of the housing is formed by a part 15 made of a suitable dielectric material; on the side walls protruding upwardly end tabs 16 are in the lateral direction over the dielectric cover part 15 for its attachment

^b5 bent over the housing 11. As best seen in Fig. 3 can be seen in the drawing, two elongated resistance elements 17 are arranged in the housing, on one side of the dielectric cover 15,

the resistance elements have connections or terminals 18a. Two resistance elements are used when the slide resistor is used for stereo devices. Two conductor elements 19 are attached to an insulated base part 20 arranged on the housing base 12, corresponding to the resistance elements 17, with connection parts 186. The base part 20 is fixed in the housing, as shown in FIG. 3, by means of two tabs 12a which project inwardly from the bottom 12 of the housing 11 and engage in openings 20a in the bottom part 20.

On the bottom part 20, two integral side parts 21, 22 are pivotably attached to the bottom part. These side parts are provided with guide means, for example longitudinal channels 23, 24 at a distance from and parallel to the bottom part 20. To guide a slide 27 in a straight line in the housing, two guide parts, for example runners 25, 26 formed in one piece with the slide 17 , are slidably displaceable in the guide holder. An actuating member 27a formed in one piece with the slide valve 27 protrudes outward through a slot provided in the housing, for example in the dielectric cover part 15 of the housing. The resistance elements 17 are preferably arranged on both sides of a plane which extends through the slot and the center of the base part 20 and which divides the housing into two equal halves. Bearing surfaces on the guide parts and the guide brackets ensure a smooth, uniform run of the slide in the housing. In order to ensure that the slide can be adjusted from one end of the housing to the other without increasing the "longitudinal inclination", the width of the channels must be uniform over the entire length. The term "longitudinal inclination" is understood here to mean a pivoting movement or alternating up and down movement of the front and back of the slide when sliding the housing back and forth, while "yaw movement" means twisting or tilting from a desired slide direction around the normal or vertical axis of the slide is designated.

For this purpose, the base part 20 and the side parts 21 hinged to it are manufactured as a one-piece housing insert by injection molding or compression molding, the side parts being in the same plane as the base part (see FIGS. 4 and 5 of the drawing). By making the side parts in the same plane as the base part, it is possible to keep the width of the guide brackets 23, 24 in each of the two side parts constant over their entire length and thus a change in the "longitudinal inclination" when the slide is sliding from one end to the avoid others. This uniform width of the guide grooves is possible because the parts of a press or injection mold forming the channels 23, 24 are removed from the insert in a direction normal or transverse to the insert instead of in its longitudinal direction, ie from an end face. A slight tapering of the side surfaces of the channels in the direction of the bottom of the channels is insignificant, since such a taper or bevel is also constant for the entire length of the channel in question. If the housing insert were to be produced in the state with the side parts pointing upwards according to FIGS. 1-3, the channels would probably have an undesirable taper or Bevel for easier removal in the longitudinal direction of the molded parts producing the channels of the insert part. The side parts are connected to the base part by "hinges" 28, which are formed by, for example, V-shaped grooves, the side walls of the grooves being directed at 90 ° to one another during casting or pressing, in such a way that a substantially right-angled corner is formed when the side parts are opened up from the base part and inserted into the housing. This insert part, ie the bottom part with the side parts integrally located thereon, is preferably made of an elastic dielectric material such as hard rubber, nylon or polychlorotrifluoroethylene. The material remaining under the V-shaped slots connects the side parts with the bottom part; Since the material is elastic or flexible, the individual parts are connected in an articulated manner. The slide valve is produced as a molded part from the same or a similar dielectric material as the housing insert.
To further reduce and as far as possible elimination of pitch and yaw movements of the slide, the end parts 25a, 26a of the runners 25, 26 extend beyond the main body of the slide, and at these end parts are compensation pieces 29, 30 {cf. Fig. 3) provided to compensate for fluctuations in tolerance. These tolerance compensation parts 29 and 30 extend outwardly and downwardly from the end parts of the runners by a distance which is equal to the tolerances to be compensated. If, for example, the dimension D (see FIG. 2) between the guide channels has a maximum, the outwardly directed tolerance compensation elements 29 are designed so that they take up the additional space and prevent the sliding valve from pivoting by yaw; If the dimension D has a minimum at one point, the end parts of the runners bend slightly inward to compensate for the decrease in dimension D and thus ensure the desired linear displacement of the slide valve without yaw shifting.

kung. If, according to the design, the outwardly directed tolerance compensation members 29 have a larger dimension than dimension D , the ends of the rotors are always slightly inwardly biased regardless of fluctuations in dimension D due to the manufacturing tolerances of the parts of the sliding resistor. The downwardly directed tolerance members 30 limit the longitudinal inclination of the slide valve. Since the slide is guided exclusively by the guide mounting devices, the

Longitudinal inclination and the yaw position of the slide valve by fluctuations in the thickness of the housing 11, the height of the side walls 13, 14 and the location of the dielectric base part related to the housing bottom is not affected. Two with the slide

bo positively displaceable separate contact members 31,32 are in loop engagement with the conductor and resistor elements.

The in F i g. The embodiment of the variable resistor shown in sectional view is similar to that in FIG

hi Fig. ι - 3 illustrated embodiment; the main difference consists in that the dielectric part 15 is omitted. The resistance element 117 and the conductor elements 119 are on one and the same bottom part 120

instead of two oppositely arranged dielectric parts. A trough-shaped housing 111 closes off the insert part at the top, with side walls 113, 114 of the housing running along the outside of the side parts 121 of the insert. Luschen 116 formed in one piece on the side walls 113, 114 of the housing are flanged over the underside of the bottom part 120 and hold the insert in the housing. The sliding guides 125, 126 shown on the sliding slide 127 in FIG. 6 correspond to the sliding slide in FIGS. 1-5 and interact in the same way as there with guide holders 123, 124.

1 sheet of drawings

Claims (4)

Patent claims: 1. Sliding resistor with a housing in which elongated resistance and collector elements are arranged, with a sliding slide with a contact device which is in loop engagement with the resistance and collector tracks and with guide devices consisting of longitudinal channels and guide projections for the sliding slide, the guide grooves and in these include engaging parts on the slide valve or the housing, characterized in that the part of the guide devices associated with the housing (11, 111) is formed in a housing insert part (20, 21, 22; 120 , 121) which has a base (20; 120 ) with side parts (21, 22; 121) connected to it in an articulated manner , in which the longitudinal channels (23, 24; 123, 124) or guide projections, which run in the direction of movement of the slide, are arranged, which are connected to the on the slide (27; 127 ) provided guide projections (25, 26; 125, 126) or guide grooves interact. 2. Sliding resistor according to claim 1, characterized in that the side parts (21, 22; 121) are formed in one piece with the bottom part (20, 120) from a flexible insulating material and that the articulation of these parts by a parallel to the guide devices in the side parts extending longitudinal grooves (28) is formed. 3. Sliding resistor according to claim 1 or 2, characterized in that the side parts (21, 22; 121) made of insulating material have the guide grooves (23, 24; 123, 124) in which are formed on the slide (27; 127) Runner (25, 26; 125, 126) engage. 4. sliding resistor according to claim 3, characterized in that the runners (25, 26) of the Slide valve (27) extend longitudinally beyond the main body of this slide valve and at their end parts with tolerance compensation members (29, 30) are provided, which are in Extend direction to the bottom of the guide groove or transversely to the guide groove.