DE1515865A1 - Mutable resistance - Google Patents

Description

concerning
Variable resistance.

The invention relates to a variable resistor, and more particularly to a miniature variable resistor, which can be precisely adjusted to a desired value, and which maintains this setting even then, when subjected to knocks or vibrations.

With the development in the electronic industry towards more and more complicated electronic equipments, the one contain a larger number of electrical components, it became necessary to develop electrical components in miniature form, E.g. resistors, so that the electronic devices can be built as small as possible. In particular, it arose a need for variable electrical resistors that are small and compact and that are lightweight on a chassis can be mounted that they take up a minimum of space. Such variable resistances not only have to be small and compact, but it must also be possible to adjust them easily and accurately to a desired value. Furthermore, it is desirable for the variable resistors to maintain this setting even when

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if they are exposed to bumps and vibrations, the variable resistances must simply be combined. "build and be cheap to manufacture.

One object of the invention is a new variable resistor.

Another object of the invention is a small, compact, variable resistor.

The invention also provides a small, compact, variable resistor that is lightweight and accurate can be set to a desired value, and which maintains this setting even when bumped and is exposed to vibrations.

The invention also provides a small, compact, variable resistor that is easy to assemble and is cheap to manufacture.

Finally, the invention provides a small, compactly constructed, variable resistor with a stop and a slip clutch that prevents the circuit from opening without the moving parts to endanger.

Other objects of the invention are explained below.

The invention is illustrated in the following with the aid of a schematic Drawings of several exemplary embodiments explained in more detail.

Fig. 1 is a sonic drawing of the changeable wiaer

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Btandes after, the invention.

Fig. 2 is a sectional view taken along the line 2-2 in mg. 1.

Fig. 3 is a sectional view taken along the line 3-3 in Fig. 1.

Fig. 4 is a sectional view of another embodiment shape of the variable resistance according to the invention.

Figure 5 is a top plan view of the bottom surface of the variable Resistance from Fig. 4.

Fig. 6 is a cross-sectional view of another embodiment of the variable resistor according to the invention.

Fig. 7 is a sectional view taken along the line 7-7 in Fig. 6.

In Figures 1 to 3 is the variable according to the invention Resistance denoted by 10 as a whole.

The resistor "IU consists of the rectangular metal housing 12, the dimensions of which are about 12 mm on a side and about 5 mm Thickness does not need to be exceeded. The housing 12 has a circular recess 14 in the middle of its upper one Area 16 on. The upper surface 16 of the housing 12 is also Provided with a shallow, V-shaped groove 16 that surrounds extends the band of recess 14 so that a lip 20 is formed around the edge of the recess. One corner of the case 12

is beveled to produce a flat surface 22. One

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Bore 24 extends through housing 12 from flat surface 22 to recess 14. A pair of mounting bores extend through diagonally opposite corners of the housing 12 from its upper surface 16 to its bottom surface 28. A blind hole extends at the corner of the housing 12 which is diagonally opposite the flat edge surface 22 30 from a side surface into the housing. As FIG. 3 shows, the blind hole 30 is essentially tangential to the wall of the recess 14 arranged, with part of the length of the Saokloches 30 opens into recess 14.

A cup-shaped inner housing 32 for the resistance element, with a circular bottom surface 34 and a cylindrical Barvdflansch 36, is mounted in the recess 14 in the housing 12 so that the open end of the inner housing 32 is opposite the bottom of the recess 14. The inner housing 32 consists of an electrically insulating Material, such as plastic, and the outer diameter of the end flange 36 is substantially equal to the diameter the cylindrical wall of the recess H in the housing 12. The bottom surface 34 of the inner housing 32 points in its center a through hole 38 and a supporting protrusion 40 extends from the inner surface of the bottom surface 34 to a part of the bore 38. The band flange 36 of the inner ^ ehäusea 32 is opposite to the bore 24 in the housing 12 radially liinduron-leading opening 42 is provided. The floor area 34 of the inner housing 32 has an arcuate projection 44 extending from its inner surface - and a pair of spaced apart shoulders 46

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and 48 which lie in a plane which is substantially tangential to the bore 38 in the bottom surface 34 (see Pig. 2). A stop 50 protrudes from the arcuate projection 44 and is on the side of the bore 38 in the bottom surface 34 which is diametrically opposed to the opening 42 in the band flange 36. The bottom surface 34 of the Inner housing 32 is provided with a rounded hat 52 on the part of its outer surface which extends over the opening between the blind hole 30 and the recess 14 in the housing 12 extends. The surface of the rounded groove 52 thus forms the missing part of the wall of the blind hole 30 in the housing A sheet 54 made of an electrically insulating material, such as plastic, is at the bottom of the recess 14 in the housing 12 and clamped between the bottom of the recess 14 and the end of the band flange 36 on the inner housing 32.

An arcuate resistance element 56 is within of the inner housing 32 installed along the connection of the bottom surface 34 with the Eandflansch 36. As Fig. 2 shows, lie the ends of the resistance element 56 at a certain distance stood from each other and are at the opening 42 of the Bandilansches 36 arranged in the inner housing 32. The resistance element 56 consists of a core 58 made of an electrically insulating material and a resistance wire 60, the helically wound around core 58 along its length lot.

How J? Ig. 1 shows an axis 62 extends an electrically conductive metal through the bore 38 in the Boaenfl & che 34 of the inner housing 32 and is rotatable in it

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stored. The axis 62 is provided at one end with a radially outwardly directed flange 64, which extends over the outer surface of the bottom surface 34 of the inner housing 32. The axis 62 has an annular one Groove 66 in its outer surface. The axis 62 is of such a length that it does not extend beyond the end of the belt flange 36 extends beyond the inner housing 32. A proportionate Rigid wire 68 made of an electrically conductive metal extends over and through the annular groove 66 in FIG Axis 62, and the ends of wire 68 are placed against shoulders 46 and 48 of inner housing 32. That connects the Wire 68 connects axle 62 to inner housing 32, but allows rotation of the axle in the housing.

A gear 70 made of an electrically insulating material, such as plastic, is on the flange 64 on the Axis 62 is attached and extends across the outer surface of bottom surface 34 of inner housing 32. Gear 70 is connected to axle 62 by molding the gear directly around flange 64 of the axle. Although between the gear 70 and the flange "64 of the axle 62 there is a friction which is sufficient that a rotation of the gear normally the axis rotates, the gear 70 can be rotated against the axis for reasons to be explained later, when the axle 62 is held against rotation. The gear 70 is provided with teeth 72 on its outer sand, the inward to the bottom surface 34 of the inner housing 32 are beveled.

A cover plate 74 extends over the open

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End of the recess K- ± n housing 12 and over the gear 70 * The lip 20 el? .. ~ c Dauses 12 is to be fastened over the cover plate in the Gelläuse. The cover plate 74 keeps the linear housing 32, the axis 52 and the gear 70 in their position within the housing 12,

A wiper 76, made from a strip of electrically conductive metal, extends across the free end of the axle 62 "and is attached to the axle by a weld, solder, or the like. One end of the wiper TS has a lip 76 provided that the Widerstai-idselementes eratrojKt over the winding of Wiüerstnndsdraiit 60 and 56:. ± c t her one sliding connects the other end of, the wiper 76 is bent, a zn Anechlagfinger 80 Li.l3 v _f of?. üoer the sides of the stop piece 50 reaches, i-ou-it grlei ^ et when the axis 62 is relmng the Mppe 78 άβώ Slvleifers 76 on the winding of resistance address 60 of the resistance element! 56 exposed, until the stop ^catch; 3C dej SCLlsifera one Side of the stop SO touches. The Ansaxili · ^ 50 is arranged so that the lip 78 of the grinder is a- "ν: du a ΣιΑβ des Wi-leri'tendaeleßientes ί? 6, - if u- ^ r -i- sobla ^ fii:, - he 80 des Sclileiferg 7 & a Sei te des Ansüi: -.-. ._ € ⁵ K; , touched «That is the breliung of the

Grinder 76

62 i-uf the Il £ .xa.ii.r3l £ i: ige des

XL ;.

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sioh through the housing 12 and over an annular groove 88 in the drive shaft 82 to keep the drive shaft in the Saoklooh 30 hold tight, but close one rotation of the drive shaft allow. The end of the drive shaft 82 that extends from the housing 12 protrudes is provided with a transverse slot 92 which is suitable for a screwdriver or the like Pick up tool to turn the drive shaft. Rotation of the drive shaft 82 rotates the gear 70 and therewith also the grinder 76.

As FIGS. 1 and 2 'show, "let in" the bore 24 A plug 94 made of an electrically insulating material is inserted in the housing 12. The plug 94 has three bores 96, through which three insulated wires 98, 100 and 102 pass. The wires 98, 100 and 102 extend through the opening 42 in the flange 36 into the interior of the interior housing The ends of wires 98 and 100 are stripped and connected to the ends of resistance wire 60 of resistance element a 56 tied together. Thus wires 98 and 100 form the end connections for resistor 56. The end of wire »102 is stripped and connected to wire 68. Deunit will be the Wire 102 through the wire 68 and the axis 62 electrically connected to the wiper 76 and thus forms the connection for the Grinder 76.

When using the variable resistance 10 according to the invention, the soleplate 76 is tightened by rotating the drive shaft a 82 rotated. When the slider -76 is turned, the lip 78 of the sole slider on the winding Resistance wire 60 of resistance element 56 along to

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that between the lead 102 and each of the two Connecting wires 98 and 100 to change measured resistance. Duroli the use of a gear train to rotate the grinder 76 can change the position of the lip 78 of the wiper 76 on the resistance element 56 very finely to adjust exactly to any desired resistance value reach. The gear train also maintains the desired setting of the lip 78 of the wiper 76 on the resistance element 56 fixed even when the variable resistor 10 is subjected to impacts and vibrations. As already mentioned, the stop finger 80 of the grinder detects the stop 50 to allow further rotation of the Prevent grinder 76 once the grinder is in a Position is rotated in which the lip 78 of the Schleifera is located at one end of the resistance element 56. Therefore the lip 78 of the wiper 76 never leaves the resistance element 56 and prevents 30 an open circuit of the variable resistance 10. When the solenoid 76 to has been rotated to its limit position, however, a further rotation of the drive shaft 82 rotates in the same direction the gear 70. It was already mentioned above that the Gear 70 can rotate against axis 62 when this axis is held. This results in a butsch coupling between the gear 70 and the eighth 62, which rotates the Drive shaft 82 without damaging the Funkfcionsteile of the variable resistor 10 allowed even if the Grinder 76 has reached its limit position.

When assembling the variable resistor 10

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the resistance element 56, the axis 62, the gear 70, the solenoid 76 and the connecting wires 98, 100 and 102 assembled in the inner housing 32 of the resistance element. This results in an electrically complete component from the functional parts of the variable resistor 10 The component can then be tested electrically and mechanically to ensure that it is functioning properly before the Component is mounted in the housing 12. By pre-testing the component before it is installed in the housing, daa Resistance element replaced or the fault eliminated, provided that the resistance element 56 is not the correct one Has resistance or the correct linearity, or if there is any mechanical failure, before the component is finally mounted and fastened in the housing 12. So there is no need to use the finished variable resistor on In the event of a mistake to be taken apart again, creating considerable Time and Kc3ten in the production of the variable resistor 10 can be saved. Furthermore enables the construction of the variable resistor 10 the manufacture and stockpiling of components to use them later ^ e according to order together with the drive clip 82 in the housing 12 to be installed. When the variable resistors 10 are fully assembled, the components can all over again checked to ensure that they are working properly.

In FIGS. 4 and 5, a modified embodiment of the variable resistor according to the invention is not shown Marked with 10 '. The variable resistance is 10 '

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-i .. in the figures shown in ibis 3-i.nd 10 similar to the execution of the housing 1 £ ' _r -which is so constructed that the variable V / i! erstand 10' easily on the Can mount a printed circuit base plate.

The housing 12 'is square and has a round bore 104 extending from the upper, flat surface 106 to the flat bottom surface 108. The upper surface 106 of the housing 12 'is 110 µm with a V-shaped socket. provided the edge of the bore 104 so that the lip 112 is formed. A channel 114 is provided in the wall of the bore 104, which channel extends in the longitudinal direction from the bottom surface 108 of the housing 12 ′ to a point shortly before the upper surface 106. The housing 12 ′ is likewise provided with a blind hole 116 which runs from one corner of the housing essentially tangentially to the wall of the bore 104. The blind hole 116 corresponds to the Saoklooh 30 in the housing 12 of the variable resistor 10 shown in FIGS. 1 to 3.

A square bottom plate 118 overlies the bottom surface 108 of the housing 12 '. The base plate 118 is connected to the housing 12 'by a pair of hollow rivets 120, which extend through matching bores on diagonally opposite points in the housing 12' and the base plate 118 (see FIG. 5). The inner surface of the bottom plate 118 is provided with a central, shallow recess 122. Three connecting pins 124 made of an electrically conductive metal lead through the base plate 118 and are fixed in it in such a way that their inner ends are within the recess

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122 are located.

The component from the inner housing 32 of the resistance element, the resistance element 56, the axle 62, the gear 70, the sole liner 76 and the insulated connecting wires 98, 100 and 102 is inside the bore 104 · In the housing 12 'mounted. The ends of the leads 98, 100 and 102, which protrude from the inner housing 32 of the resistance element, run in the chins 114 in the housing 12 'and in the recess 122 in the base plate 118. According to FIG

stripped end of each of the leads 98, 100 and 102 by soldering or welding to the inner end of each Terminal pin 124 connected. A drive shaft 82 rotatably eats fastened in the Saoklooh 116 in the Gohäüee 12 'and engages into the gear 70 to rotate the gear 70, the axle 62 and the soleplate 76. A cover plate 74 rests on it upper end of bore 104 in housing 12 'above the gear 70. The lip 112 of the housing 12 'is crimped over the cover plate 74 to connect the cover plate to the housing 12'.

The variable resistor 10 'of the invention has the same puncturing method as that shown in FIGS variable resistor 10. The variable resistor 10 'can, however, easily be placed on the base plate of a the printed circuit board by inserting the connecting pins into holes in the base plate of the printed circuit board.

. be pushed until the base plate 1.18 rests on the base plate.

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A further embodiment is shown in FIGS. 6 and 7 of the variable resistance according to the invention as a whole designated by 126.

The variable resistor 126 has a square housing .128 of essentially the same construction as that Housing 12 ~ of the variable resistor 10 in Fig. 1 to 3. In the recess 130 of the housing 128 is a round, Cup-shaped inner housing 132 made of electrically insulating material for the resistance element. The inner housing 132 has ^ a bottom surface 134 and a cylindrical sand flange 136. The bottom surface 134 of the inner housing 132 has a central Through hole 13b, and an annular bearing ring 140 rises around the bore 138 from the inner surface of the bottom surface 134. The bearing collar 140 and the hand flange 136 are provided with through openings 142 and 144 that are radially assigned to one another. A stop 146 is pending of the end face of the bearing ring 140 at dsr Ssita of the bore 138, which is diametrically opposed to the opening 142.

A resistance element, designated as a whole by 148, is in the inner housing along the joint between the floor surface 134 and the hand flange 136 attached. The resistance element 148 consists of a core made of an electrically insulating one Material 150 and a resistance wire 152 helically wrapped around core 150 along its length is. '// ie Fi ^. 6 shows iat do, s resistance element 148 in the indoor gauntlet 132 oo mounted so that the ends of the core 150 are at an ijewjusen distance from one another to the opening 144 in the band flange 136 döü inner housing 132 lying against

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A hollow, metal shaft 154 leads through the bore 138 in the bottom surface 134 of the inner housing i'32. The axis
154 is at one end with a number of drive fingers
156, which extends along the outer surface of the bottom surface 134 of the inner housing 132 from the Aohse radially
extend outward. The other end of the axle 154 has an annular constriction 158 which only extends radially inward to below the inner surface of the axle. A shaped retaining ring 160 fits within the constriction 158 around the aciis. 154. The retaining ring 160 extends radially outward over the end face of the bearing ring 140 of the inner housing 132 to the
To hold the axis 154 in the inner housing 132.

A tubular, metal hollow rivet 162 guides you along the axis 154. The ends of the hollow rivet 162 are provided with radially outwardly pointing flanges 166
Coil spring 168 surrounds the hollow rivet 162 and is between
the flange 164 of the tubular rivet and the constriction 158 of the
Axis 154 clamped. The spring 168 pulls the end flange 166 of the tubular rivet 162 against the end of the axle 154.

Adjacent to the end flange 166, a slider hanging 170 made of electrically conductive metal surrounds the hollow rivet 162.
The spring 168 clamps the wiper ring 170 firmly between the flange 166 and the end of the axle 154. As FIG. 6 shows, the wiper ring 170 is provided with a U-shaped spring arm i7v which extends radially outward therefrom . A
Grinder 174 protrudes from the spring arm 172 and slides on the
Winding 152 of resistance wire of the resistance element 14? J, a stop finger 176 protrudes from the wiper ring 170 over and

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Iu - each of the bearing ring HO of the inner housing '.': ■. ..'- ■ -.- r · -.iV3 o-lagfinger 176 is located on which the sole looper

-i.jhitizral opposite side of the Bohleifer-Eings' ■ - · -, it is so fitted that it 146 then touches the sides of the stop in the inner housing 132 when the Sohleifer located at the ends of the resistance element 148th

A gear 178 made of electrically insulating material is located within the housing 128 above the outer surface of the bottom surface 134 of the inner housing 132. The gear 178 is in its inner jelly eye 132 resting surface provided with a number of recesses 180. Each of the Recesses 180 in the gear 178 receives one of the drive fingers 156 of the axle 154, so that when the Gear 178 the axis 154 is rotated. The gear is provided with a number of beveled teeth 182 around its outer edge. As shown in FIG. 6, a drive shaft 184 is rotatably mounted in a blind hole 186 in the housing 128. The drive shaft 184 corresponds to the drive shaft 82 of the variable Resistance 10 in Fig. 1 to 3. The drive shaft 184 let provided with a worm thread 188, the engages the teeth 182 of the gear 178 so that when the drive shaft 184 rotates, the gear 178 is rotated.

A cover plate 190 covers the open end of the recess 130 in housing 128 above gear 178. The cover plate 190 is connected to housing 128 by lip 192 which is crimped over cover plate I90. A collector rank 194 made of electrically conductive metal is around the axis 154 attached around and slidingly touches theee (see Fig. 7),

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The collector ring 194 has a terminal lug 196 that radially protrudes outward through the opening 142 in the bearing ring 140. Three insulated leads 198, 200 and 202 run through the Opening 144 in tape flange 136 into inner housing 132. As shown in FIG. 6, the ends of leads 198 and 200 are stripped, and each end of the resistance wire 152 of the Resistance element 148 is connected to one end of leads 198 and 200. Thus form the connecting wires 198 and 200 the end connections of the resistance element 148. As Fig. 7 shows the end of the lead 202 is stripped and connected to the connecting lug 196 of the collector ring 194. This is the AiioCklußdraht 202 with the slider input 170 Electrically connected via the Kollelvtorring 194 and the axle 154. The connection wires 196, 200 and 202 lead through Holes in an insulating plug 204 which is fixed in an opening in the housing 126 from this housing.

Beil; * Operation of the variable resistor 126 opens the wiper 174 by rotating the drive shaft 184 Moved along the WiierstandBölement 146. A twist of the Antriebacliaftes 164 drent the gear 176, which in turn The axis 154 rotates via the drive in 156. One Rotation of shaft 154 rotates wiper ring 170 and moves the wiper 174 on uem resistor element 148 along because the wiper ring 170 by the spring 166 firmly between the The end of the axis 154 is tied around the flange 16ο decs hollow rivet 162 will. When the soul if he input 170 turned into a position in which the grinder 174 is at one end of the Wilerstsndselementes 146 is located, the stop finger 176 detects

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of the grinder binga one side of the stop 146 and prevents a 'further rotation of the wiper ring. However, further rotation of the drive shaft 184 rotates the Axis 154 »which then slides against the grinder ring. It is Consequently; a slip clutch is provided which allows a rotation dad Drive shaft 184 allowed without the drive mechanism of the variable resistor 126 being damaged, and without that the wiper 174 over the ends of the resistance element 148 is led out and so an interruption in the circuit of the variable resistor 126 is generated.

Ea it should be noted that one in the above-described AusfLfnrungsbeispiel the most diverse modifications and May provide modifications without departing from the scope of the invention.

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Claims (1)

PATENT AHSPBÜCHE 1. Variable resistance characterized by a housing with a pair of flat, opposing surfaces and a circular recess in one of these surfaces, a round, cup-shaped inner housing made of an electrically insulating material within the recess in the housing, the open side of the inner housing being the bottom opposite the recess and the inner housing is provided with a central bore through its bottom surface, an arc-shaped resistance element mounted in the Innengehäuirje, the ends of which are a certain distance from each other, an axis made of electrically conductive metal, which leads through the bore in the inner housing and rotates in it is mounted, a grinder element made of electrically conductive metal, which is attached to the end of the axle protruding into the inner housing, so that it rotates with the axle, whereby the grinder element carries a grinder which produces a sliding connection with the opposing element, a gearwheel from ele Ktx'isch insulating material within the recess in the housing übar aem inner housing, wouei the gear is connected to the axle so that a rotation of the gear rotates the axle, a cover plate that is attached to the recess in the housing above the gear, a drive shaft which extends through the housing and is rotatably fastened in it, and which is provided with a sonic thread which engages the teeth of the gear to rotate the gear when the drive shaft rotates, and by three connections that extend from the housing outi.'ühran, two of these connections with opposite ends 909831/0541 - * —— * BAD ORIQfNAL 1A-24 534 of the resistance element are electrically connected, and wherein the third connection via the axle with the sole follower organ is electrically connected. 2. Variable resistor according to claim 1, characterized in that a stop is provided in the inner housing, which protrudes from the inner surface of the bottom surface on the side of the axis which is diametrically opposite the separated ends of the resistance element, and that the veil with a stop finger are provided, which extends from himi to the bottom surface of the inner housing j where the stop finger is suitable to grasp the stop su - in order to limit further rotation of the grinder member; if the grinder is at a south of the resistance and -seleiaents * 3 * YerandarlrLoIier resistance to Anai-ruo ». 2 _: g e ke η η draws a ringföriüi ^ srL Flriisoli ·: ■ '. ::. cloia end of the axis that : Λτ cieiii Salniracl varbunae:?. I3oli herii;:: ~ ± z '· v / elciisr to üij-er the Innenjer.ä \ ise of aer Ashae τοΔί ^ Μ: ICAH FV-ken erstreoktj said Ziimrfä uu the riiigfcrii-igeii S "".. ^ uni so much love is formed Ev / ische-i. ueu Ζαϊ ^ ΐ-κά unä a? ";_; riiigf ^ rEii ^ en Fl> uisch *: "crb.a: id" .- ii is _s that iici'LiKler - '. veise an AatrieDsverbiiiiuiig E-.?i."-.~hsn lies ^ n ordered _; st5: ³ a Eutsoheii ijwischen the parts possible, wiröj as soon as Aciise clmeli striking the An: i'-ol: lagfiiig-: i; -s sbi Ansohlaj: ii ^ sn a ^ Lrshbe = v? S "un: f'Sazzairjlz ^ n will » V-äräii ^ erlioiier Wiierstaiid. nacli 3 _; a ^ G.ii ks ν. r: .z siau η , dais inside;: Ghanas sin Paa "- Im .:.;: dii.er to ¹ -ijV.se ii. W. 31/05 ^ 1 _BATH libene arranged shoulders are provided, with the axis is provided with an ing-shaped groove in its surface and a relatively stiff wire made of electrically conductive Metal is placed through and over the .Nute in the axis, whose .Ends are mounted on the shoulders in the inner housing, and where the connection for the grinder is electrically connected to this wire. 5. Variable resistor according to claim 2, characterized in that the recess in the housing is fully ™ continuously passes through the housing and a base plate extends over one side of the housing and is attached to it, this bottom plate being the bottom of the recess forms, further comprising the three terminal pins made of electrically conductive metal terminals on the Base plate are attached and protrude from it, separated wires two of the connecting pins with the separated ends of the Electrically connecting resistive elements, and being a third Wire the third connector pin over the axle with the wiper ψ means electrically connecting. 6. Variable resistor according to claim 2, characterized in that the axis is hollow and on which located inside the housing end has a radially inwardly reaching Vorapruch, while a hollow rivet through the Axis leads, which is provided at each end with a radially outwardly facing, annular flange, wherein a Solenoid organ engages between the end of the axis within the housing and a flange of the tubular rivet around the tubular rivet and a around the hollow rivet leading helical spring between the other 909831/0541 '^ ~~ BATH '. -21- Plansch of the tubular rivet and the projection of the axis clamped is whereby the spring is the wiper member between the end the axle and the flange of the tubular rivet so that the grinder rotates normally with the axle, but one slipping between the grinder element and the axis is possible, when the grinder organ by striking the stop finger is prevented from rotating at the stop. 7. Variable v / iders uand according to claim 6, characterized in that the axis is provided with a number of fingers radially outwardly from it via the inner housing ra; ender, and the gear has a number of recesses, each of the fingers of the axis in a special Aus-3paruii _o in the gear to produce a drive ^ connection between the gear and the axle. L. Variable resistance according to Ans ruch 6, thereby ge ~ k 3 r, η seich η et, that a Koritaittrin ;; made of electrically conductive metal surrounds the axis and it slidably bariihi't, wooii üJii connection for the grinder with the contact ring is electrically connected. rad 9 0 9 8 3 1/0 5 A 1 ^BA Blank page