DE1804686A1 - Flat potentiometer - Google Patents

Description

Flat potentiometer The invention relates to a flat potentiometer with a resistance covering arranged on a flat insulating plate and a Contact that touches the resistance layer and is movable in a circle around a transverse axis, Well-known flat potentiometers of this type have a narrow circular resistance element, that only uses part of the material from which the base of the resistance lining is made is punched, so that there is a considerable waste. For applying the resistance coating Part of the surface of the pad must be covered. The finished resistor element Due to the small surface of the resistance coating, it has only a low wattage.

The invention is based on the object of a flat potentiometer to train small dimensions so that it can be avoided while avoiding the previous Punching waste can be produced particularly economically when applying the resistance coating no cover required and has a higher load capacity.

This object is achieved according to the invention in that claus resistance element has a rectangular outline, on the probes of an outer boundary edge provided with terminal tongues that run in the direction of the adjoining boundary edges is and has a slot in its rectangular delimited resistance layer, which is convergent from the contour edge provided with the outer terminal tongues extends to the abutting contour edge and then into one to the axis of rotation of the contact concentric arc of a circle passes.

The resistance element carrying the resistance coating preferably has an essentially square outline at 0 where this is the resistance coating The supporting base is expediently provided with tongue-like lateral approaches that wear the connection terminals formed by the resistance lining.

The slot located in the resistance lining can be of one on the to be coated surface of the base located rib be formed by the outer edge of which is the resistance coating from at least the outer end of the rib has been partially removed. To avoid accidental changes in resistance caused by unintentional To prevent current leakage at the edge of the resistance body, the resistance coating load-bearing base on its entire circumference with one protruding over the main surface Be provided rib that remains uncovered by the resistance coating or is exposed.

The flat potentiometers provided with the resistance element can have different designs that are the subject of the further subclaims form.

the drawing shows examples of the design of the flat potentiometer according to the invention, namely Fig. 1 shows the resistance body of a flat potentiometer in the greatly enlarged plan, fig. z an even more enlarged front view this resistance body on the front edge provided with the contact tongues, Fig. 3 and 4 the same representations of a modified resistor body, Fig. 5 shows the plan of a third modified embodiment of the resistor body and Fig. O shows a cross section through this resistance body along the line WI-VI from FIG. 5, FIG. 7 the front view of one produced with the resistor body according to FIG. 1 Flat potentiometer, FIG. 8 a side view and FIG. 9 the rear view of this Flat potentiometer, Fig. 10, 11 and 12 a modified version of the flat potentiometer in the same views as FIGS. 7-9, FIG. 13 shows an enlarged cross section through this flat potentiometer along the line XIII-XIII of Fig. 10, Fig. 14, 15 and FIG. 16 shows a further modified embodiment of the flat potentiometer in the same Views as shown in Fig. 12 and Fig. 17 a very greatly enlarged cross-section by this flat potentiometer along the line XVII-XVII of Fig. 14 Of the The resistance body according to FIGS. 1-3 has an approximately rectangular plate as a base 1 made of insulating material, which at its lower end edge in Fig.l with tongue-like Approaches 2 is provided. The two outer tongues are in Fig. 1 on the lower Corners of the plate. On its upper surface, the plate 1 carries a sheet 3 made of electrical Resistance material. This covering extends to the edges of the plate and on their outer tongues, on which it clamps two tongue-shaped terminals 4 forms. The contact terminals 4 can, however, also from separately on the outer tongues 2 of the Plate applied metal be formed, which is facing with these coverings ### Edge of the resistance lining is conductively connected. The insulating plate 1 and you Cover 3 have a central hole 5 for the passage of a bearing axis, not shown Mistake.

The resistance lining 3 is provided with a slot 6, which extends upwards from the lower edge of the plate 1 next to the one contact tongue 4 and partially surrounds the central passage 5 coaxially. That part of the Opposed, e which is located between the slot 6 and the outer edge of the covering adjacent to it, forms that part of the resistance body which comes into engagement with a sliding contact. The length of the slot 6 thus determines the length of the narrow conductive coating of increased electrical resistance, which is followed by the broad remaining part of the resistance coating, which has a reduced resistance. The slot 6 can be formed, for example, in that the plate 1 made of insulating material narrows a groove 7 in its surface facing the resistance lining.

stop and ot the resistance material with the recess of this groove on the surfaces of the insulating plate bounding them is applied. The resistance curve can be influenced by the fact that the insulating plate and its covering are attached to one or the other at both upper corners, i.e. on the side opposite the contact tabs, be provided with punched holes d or with a corresponding punched slot.

According to Fig. 3 and 4, a slot 9 in the resistance lining 10 can also be obtained in that a corresponding slot 11 before spraying on the Resistance lining is arranged in the insulating plate 12. When using a The unslotted insulating plate can also first be applied with the resistance coating 10 and then a strip of the resistive layer corresponding to the width of the slot 9 remove or punch a corresponding slot, which at the same time mtk the resistance lining and protrudes through the insulating plate. To change the current density of the resistance coating The insulating plate according to FIGS. 3 and 4 can also have one or more grooves 13 be provided, which are clad with the resistance material.

In the embodiment of FIGS. 5 and 6, a slot 14 is made in the resistive layer 17 produced in that the insulating plate 15 on its the resistance layer receiving surface has a rib 16 which either remains uncoated or from which the resistance material is subsequently removed, e.g.

by grinding. The resistance curve can be straightened, for example, in that a second rib 18 is provided in the upper right corner of the insulating plate, which rib runs concentrically to the curved part of the rib 16. Subsequent exposure of this rib makes that part of the resistance lining in the upper corner ineffective. In addition, a rib 20 is also provided here, which surrounds the entire resistance body including the tongues 21 located at its lower corners. After the subsequent removal of the resistance coating from all of the hips, the resistance body is then enclosed on its guide surface by a non-conductive edge. The outer tongues 21 are provided with holes or slots 22 here. If the tongues 21 are immersed in molten metal or covered with metal in order to form clamps 23, the metal cladding on both sides is passed through one of the slots or Holes 22 filling web bonds, whether-oh1 the tongues are bordered on the outside by the non-conductive edge rib 20.

The flat potentiometer according to FIGS. 7-9 has a resistance element 1 and 2 provided, in its place 'but--' also one of the others described Resistance elements could be used. The back of the insulating plate- 1 is provided according to Fig.'7 with a permanently attached collector ring 24, which with a radial extension 25 protrudes onto the middle tongue of the insulating plate and with her aine middle clamp forms. There is a shaft 26 on the middle hole of the insulating plate rotatably mounted, a contact arm on each side of the plate in the same orientation 27 with a contact @ 8 attached to the outer end.

One of these contacts touches the collector ring 24 while the other Contact the resistance coating 3 'on the arc 29 indicated in FIG. 9. The further this point of contact is in Fig. 9 at the upper end of the slot 6, the longer it is the narrow strip of the resistance body, the has the higher conductivity.

The flat potentiometer according to FIGS. 10-13 has an insulating plate 30, the resistance layer 31 of which forms the inner surface of one wall of an insulating housing 32. The insulating plate 30 is held together with the remaining part of this housing by means of a metal mtrri 33 @, the middle bearing opening of which is held together Sleeve 34 contains, this is arranged in a larger opening 35 of the adjacent side wall of the housing and is in the same alignment with the hole 36 of the insulating plate 30 (see Fig. 13). The metal strip 33 can be bent to the housing 32 or designed as a spring clip. In the sleeve 34 a rotation axis 37 is mounted, which protrudes through the central hole 36 of the insulating plate 30 without contact. The wall of the insulating housing 32 opposite the insulating plate 30 is clad on its inner surface with a square metal plate 38, which serves as a collector and is provided on its lower edge with a downwardly projecting, central terminal tongue 39. Between the collector plate 38 and the resistance element 31 a circular insulating disk 41 is arranged, which is rotatably mounted on a flattened part of the axis of rotation 37 and has a cutout 42 which contains a contact body 43 protruding from the insulating disk 41 on both sides. This contact body is preferably formed by a somewhat compressed helical spring. If the axis of rotation 37 is rotated, the contact 43 slides on both the collector plate 3d and the resistance element 31, migrating on the narrow outer strip of the resistance element, which is located between the slot 44 of the resistance coating and the adjacent outer edge of the resistance element, the latter can be provided with additional terminal tongues 45 on its upper edge, which can have the same design as the lower terminal tongues 46.

If the insulating plate 30 has the configuration shown in FIG on, so can flat potentiometers with different maximum resistance be achieved that the applied to the rib 44 resistance coating on a Abraded more or less length from the straight end 47 of the rib or otherwise removed. The longer the part of the rib that has no drag coating has, the smaller the proportion of the total resistance that comes from the partial area the lower resistance is applied.

The flat potentiometer according to i'ig.14 - 17 is box-shaped Housing 50 is provided with a cover 51 at its open bottom. Inside the case is located on one main surface of a rectangular collector plate 52, the with a clamp tab 53 protruding outward through a slot in the cover 51 is provided. Kn ier Kóllektorplatte 52 rests on the other major surface of the housing a rectangular insulating plate 55 opposite, which attach two outwardly protruding terminals 56 and 57 has. Spacer bars 58 are arranged in the upper corners of the housing, which are from the main surfaces of the housing at such a distance that the upper Corners of the collector plate 52 and the insulating plate provided with the resistance coating 59 55 fit into the gaps. The insulating plate 55 has here of their Inner surface an arcuate rib 60, of which the opposition tands covering on a desired length has been removed.

The main walls of the housing, the collector plate 52 and the insulating plate 55 with the resistor 59 thereon are provided with aligned openings in which a control shaft 62 is rotatably mounted. The part of this control shaft located in the housing and the end protruding upward in FIG. 17 provided with a flat. In the area of its inner end, a stop ring 63 sits on this flattened area, which, according to FIGS. 14 and 15, can come to rest with a radial stop arm 64 on a stop 65 located on the associated housing wall. The rotational movement of the axle 62 is limited in both directions of rotation by this stop. The axle 62 is secured against axial displacement on the housing by a spring ring 66 which is locked into a circumferential groove of the axle.

Between the Collector = 52 and the resistance layer 59, a rotary disk 67 is arranged in the housing 67, which fits on the flattened part of the axis 62 and makes its rotary movements with / +. The turntable has in the vicinity of its circumference an opening 68 and a contact 69 mounted therein, which bridges the distance between the resistance layer 59 and the collector plate 52 and can be formed, for example, by a ring or a roller. So that the rib 60 of the insulating plate 55 of the resistance element remains unaffected by the rotary disk 67, the resistance element can be provided on its inner surface at individual points with hemispherical spacer cams 70, which protrude a little further inward than the rib 60 and only have point-like contact with the turntable.

To have free play between the turntable and the one supporting it To avoid acnse, the '67 turntable is provided with slots 71 leading to the Flattened areas of the axis 62 on the field side run parallel. The parallel slots 71 are arranged and dimensioned in such a way that the webs 72 against earth pressure are resiliently flexible and the flattened part of the axle 62 resilient clamp.

The square or rectangular resistor elements here The embodiments described and illustrated have a resistance coating of significant larger surface than the usual resistance elements with circular boundaries tem resistance lining, as long as their diameter corresponds to the edge length of the resistance lining corresponds to the resistance elements described here. Those with such resistance elements Manufactured flat potentiometers therefore have a better heat distribution in the Resistance layer and a much higher load capacity. on.

Claims (1)

Patent claims: 1. Flat potentiometer with arranged on a flat insulating plate Resistance lining and one that touches the resistance lining and revolves around a transverse axis movable contact, characterized in that the resistance element (1,3,15,17; 30,31, 56: 59) has a rectangular outline at the ends of an outer delimiting edge with terminal tongues (4,23,45,46; 56.5?) And in its rectangular delimited resistance coating (3,17,31,59) has a slot (6,9,14,60) extending from that of the outer clamp tabs provided contour edge extends parallel to the abutting contour edge and then merges into a partial arc which is concentric to the axis of rotation. 2. Flat potentiometer according to claim 1, characterized in that the resistance element carrying the resistance coating is essentially square Has outline. 3. Flat potentiometer according to claim 1 or 2, characterized in that that the support carrying the resistance lining with tongue-like lateral approaches (4,21,45,46,56,57) is provided that the terminals formed by the resistor lining wear. 4. Flat potentiometer according to claim 1, 2 or 3, characterized in that that the support carrying the resistance coating to enlarge its surface is provided with at least one groove (13) covered by the resistance lining. 5. Flat potentiometer according to one of the preceding claims, characterized characterized in that the slot (14) located in the resistance lining is open from one the surface of the base (15) located rib (16) is formed by the Outer edge of the resistance lining (17) from the outer end of the rib at least has been partially removed. 6. Flat potentiometer according to one of the preceding claims, characterized characterized in that the support (15) carrying the resistance lining over its entire area Perimeter is provided with a protruding over the main surface rib (20) which remains uncovered or exposed by the resistance coating. 7. Flat potentiometer according to one of the preceding claims, characterized characterized in that the base (1) carrying the resistance coating and the resistance coating itself (-3) are provided with a central bearing opening (5) and the pad on their The main surface facing away from the resistance lining has a concentric bearing opening (5) surrounding Kdllektorring (24) carries with an additional radial clamp (25) is provided or connected. 8. flat potentiometer according to claim 7, - characterized in that the middle bearing opening (5) of the resistance lining (3) and the Koilektorring (24) supporting base (1) of rectangular outline for receiving an axis of rotation (26) is used, the coating with the resistance (3) and the collector ring (24) electrically connecting contact arms (27,28) is provided, 9. tnlachpotentiometer after a of claims 1 - 7, characterized in that the provided with the resistance coating document (30,55) which forms or covers a main surface of a rectangular housing (32,50), its other main surface on its inside with a resistance coating (31, j9) is provided at a distance opposite collector plate (3.52), and the housing a middle one protruding from the resistance layer (3l> with the collector plate (382) Has axis of rotation (37,62) covering a distance between the resistor and drives the collector plate bridging contact (43,6y). 10. flat potentiometer according to claim 9, characterized in that that on the main surfaces on the inside with the resistance coating (31,59) and the collector plate (3d, 52) provided housing (32,50) on its central axis of rotation (37,62) a rotationally fixed attached Isoliersoheibe (41,67) carries between the resistance lining and the collector plate and both parts with one in a hole near the edge (42,68) the turntable inserted contact (43,69) touches. @ 11. Flat potentiometer according to claim 10, characterized in that that the contact inserted into a hole (42) near the edge of the turntable (41) passes through a coil spring (43) is formed. L e r s e i t e