DE2926745B2 - Adjustable rotation resistance - Google Patents

Description

2. Adjustable rotary resistance according to claim 1, characterized in that

2.1 the first part an inner disk (10) and

2.2 the second part is an outer ring (11) and

2.3 that both parts by molded locking means (15, 16, 17, 18) in the manner of a Snap-in connection are non-positively joined together.

3. Adjustable rotary resistance according to claim 2, characterized in that the locking means are made the end

3.1 at least two lugs (15) provided on the inner pane (10),

3.1.1 the ring segment and

3.1.2 is resilient,

3.1.3 which have a widened edge (16) at the end, and from

3.2 at least two extensions (17) provided on the outer ring (11),

3.2.1 the ring segment and

3.2.2 are resilient and

3.2.3 which have a widened edge (18) at the end, and

3.3 in which the approach of the inner pane is slightly overdimensioned compared to the extension of the outer ring, so that a frictional connection is created after joining.

4. Adjustable rotary resistance according to claim 2, characterized in that the adjusting elements

4.1 have first recesses (19),

4.1.1 which are recessed in an edge segment of the inner pane (19) and

4.1.2 which extend over the entire width of the inner pane (10), and

4.2 have second recesses (20),

4.2.1 in the case of the outer ring (11) on the outside of the extension (17) in a segment section are arranged.

5. Adjustable rotary resistance according to claim 4, characterized in that the recesses (19, 20)

5.1 are funnel-shaped,

5.2 with its mouth-side, wide openings are directed against each other,

5.3 are preferably at the same level with their bottoms and

5.4 on the respective segment section of the inner disk or the outer ring in an unequal pitch are distributed so that a tool such. B. a Screwdriver, always axially or radially both in at least one of the first and can also be introduced into one of the second recesses at the same time.

The invention is based on an adjustable rotary resistance with adjustable residual width after The preamble of claim 1 as it is from DE-OS

so 14 90 196 is known.

Such adjustable rotary resistors are often used in conjunction with a cable drive or with a Digital display in equipment in the entertainment industry, in particular in radio receivers, for displaying the set diode tuning or the set transmitter is used. As frequency-determining tuning elements capacitance diodes are used. For this purpose, a series resistor is required to limit of the setting range. The setting range generally does not include the entire range from zero to to the full value of the applied supply voltage. The series resistor can be present externally or it is with integrated on the carrier plate of the anti-rotation device. The resistance element of the rotary resistance itself should have a resistance curve with tight tolerances, around a frequency-linear tuning curve and thus to obtain a linear station scale. The voltage variation range for the

common circuits for the VHF range about 1:10. The so-called base point voltage on the series resistor is usually 10% of the upper voltage. In the limit positions of the sliding contact, here in particular at the end of the rotary range, there are small residual resistances between the sliding contact and the soldering connection lug, which are referred to as the initial stop value or the end stop value according to the German standard. These residual resistances should be as small as possible. When calibrating the series resistor, one starts out from the upper voltage, i.e. from the end of the rotation range. The residual resistance should be minimal because of the voltage drop across it. From the end, one calculates the desired mechanical and - related - electrical setting range and compares the base point to the corresponding electrical values. The measuring points for checking the resistance curve are also calculated back from the end and the values to be achieved are determined. The manufacture of the rotary resistors is now subject to the usual manufacturing tolerances. For example, when the resistance elements are manufactured using the screen printing or injection molding process, the electrical values of the resistance curves can vary by up to 5 degrees due to different positions of the screen or the cover mask. The components of the rotary resistors themselves can also fluctuate mechanically in the Mon ;; ige by up to 5 degrees of angle in the tolerance (due, for example, to the tolerance in the stop element when limiting the range of rotation, due to the fastening of the resistance element on the carrier, etc.). Together, up to 10 degrees of angle can result. In the worst case, this corresponds to a residual resistance that is too great, so that such a rotational resistance cannot be used.

From DE-AS 10 96 464 a multiple arrangement of potentiometers is already known, which by a common shaft are operated. To improve the synchronization between the individual potentiometers, each potentiometer has an adjustment device for rotating the grinder relative to the shaft. Above an externally accessible worm gear can have a first part firmly connected to the shaft and a second part movably mounted on the first part can be moved relative to one another.

In GB-PS 12 67 676 an adjustable rotary resistor is described, which consists of a base plate, on which the resistance element is arranged, and consists of a cover, which also supports the Sliding contact spring is. Both parts are joined together by locking means in such a way that they can still be easily moved can be rotated relative to each other. For this purpose, the edge of the lid is ring-shaped, resilient with a end-side edge broadening which can be snapped into a likewise annular circumferential groove in the base plate is.

An adjustable rotary resistor is already known (DE-OS 14 90 196), in which the residual resistances are adjustable. For this purpose, the resistance element has two sliding contacts, both of which are independent are adjustable from each other. A soldering lug is connected to the second wiper, which is on the dated first grinder is not used part of the resistance element adjustable. Both the Start stop value and the end stop value or both by such a second grinder be adjustable. In addition, the spring carrier of the second slider is self-locking. Disadvantageous here is that the second grinder is almost a complete trimmer, which consequently increases the manufacturing cost elevated.

The object of the present invention is to provide an adjustable rotary resistance according to the aforementioned Kind of a simple adjustment option between the mechanical rotation range stop and the Resistance curve beginning or end and thus for the

κι start stop value or for the end stop value Find.

This object is achieved according to the invention by what is specified in the characterizing part of claim 1 Features solved

! · -, Further advantageous refinements of the invention can be found in the subclaims.

The invention and further details are described below for an exemplary embodiment with reference to FIG Drawings described in more detail.

From the figures shows

Fig. I is a bottom view of an adjustable rotary resistance,

F i g. 2 a side view of the adjustable rotary resistance, partly in section,

j F i g. 3 shows an enlarged illustration of detail A. in Fig. 2 in section,

F i g. 4 shows an enlarged illustration of detail A in FIG. 2 in plan view.
The adjustable rotary valve shown in the figures

jii resistor consists of an approximately circular Carrier plate 1 made of hard paper or another insulating substrate on which a circular Resistance element 2 is attached by means of rivets or by means of Kramptechnik. The resistance element

ν, itself is formed by a carrier made of hard paper to which the resistance compound is applied using conventional technology. This resistance element 2 with an optionally linear or non-linear resistance characteristic has soldering lugs 3 at the beginning and at the end and optionally at an intermediate tap. This collector element also has a solder connection lug 5, which

4-. in this case in one piece with the collector element connected is. The attachment of the collector element 4 on the carrier plate 1 is also carried out by means of rivets or by means of Kramptechnik.

Resistance element 2 and collector element 4 stand

so by a metal sliding contact spring 8 electrically in connection with each other. The sliding contact spring 8 is attached to a spring carrier by hot deformation the ends of pins 9 molded onto the spring support. The spring support itself is according to the invention formed in two parts, the first part of an inner pane 10 and the second part of a Outer ring 11 is formed. The sliding contact spring 8 is attached to the inner pane. Also connected to the inner pane made of plastic, and

A wave-shaped bearing journal 7 is injection molded on. This journal 7 is rotatably mounted in a bearing part 6, which is designed as a hollow shaft and which through Flanging a collar is held in a central opening in the carrier plate 1. In the

b5 assembly is the two-part spring carrier with his Bearing pin 7 inserted into the bearing part 6 and falling out by a locking ring 12 at the end prevented. The bearing part β is on the outside with a

Threaded to the adjustable rotation resistance to be able to attach to a housing wall or the like.

The beginning b / w. the lindsleluing of the Sehlcifkonuiktfeder is limited by a rotation range mechanically fixed. This consists in a manner known per se from two sling means ^ with one Stop means of the support plate and a stop means is assigned to the spring support. The first sling the carrier plate is, as shown in FIG. I emerges, formed by a stop segment 13, which with the second stop means of the spring carrier in the form of a projecting stop lug 14 cooperates. The stop lug 14 can be seen from FIG. 1 is. integrally formed on the outer ring 11, while the sliding contact spring, as already mentioned, on the Inner pane is attached.

The inner disk 10 and the outer ring 11 are connected by a force-fit connection, namely by means of locking means put together in the manner of a snap-in connection. This connection, which is also a kind of friction clutch represents, can be loosened briefly under the action of force of an aid, as will be explained later so that a relative movement of the inner disk to the outer ring is possible. After the repeal of the A different end position of the two parts with respect to one another is achieved in this way. Hence is also the position of the sliding contact spring and thus the place where the sliding contact is on the resistance element rests, adjustable to the position of the sling.

The locking means consist of lugs 15 which are integrally formed on the inner pane 10 and which are designed to be resilient and which have a widened edge 16 at the end. These approaches can come from a single, circumferential running approach exist or in terms of the spring properties more favorable of at least two diametrically opposite ring segment-shaped approaches. In Fig. 1 are several such approaches indicated by dash-dotted lines. The counterpart to the extensions 15 of the inner pane are the extensions 17 of the outer ring. These extensions 17 can, if necessary, be designed to be resilient and have a end edge enlargement 18. According to the approaches 15, only one circumferential running extension or several, but at least two diametrically opposite extensions 17 are present be. The approaches 15 of the inner pane have a slight oversize compared to the extensions 17 of the Outer ring, so that after joining the two parts, a force-locking connection in the manner of a Friction clutch arises. For the sake of clarity, there is an extension of the outer ring and a Approach of the inner pane in FIG. 3 is shown again in an enlarged partial view as detail A.

Adjusting elements are required to briefly loosen the friction clutch. These consist of first and second recesses 19 and 20. The possible adjustment range is determined by the number of the first and second recesses set. The first recesses 19 of the inner pane are in one Recessed edge segment and they extend over the entire width of the inner disc. Furthermore, these are Recesses designed in a funnel shape. The second recesses 20 of the outer ring are on the Outside of the extension 17 also arranged in a segment section. In addition, are these second recesses, too, are funnel-shaped. The arrangement of the first and second recesses is so that they are directed against each other with their mouth-side wide openings. aside from that Both recesses have unequal pitch, which are chosen so that one with one Aids always engage simultaneously in at least one of the first and one of the second recesses can. Since both recesses are also at the same level with their bottom, it is easy possible to use a tool, such as / .. B. a screwdriver, in one of the first and one of the second Introduce recesses at the same time. This can be done both radially and axially, with one axial introduction results in a larger lever arm for the rotation and therefore a more precise adjustment between the inner disc and outer ring is possible. By introducing the aid into an adjacent one another second recess or another first recess can expand the adjustment range will.

During the assembly process, the result is that there is too great a residual resistance in the end stop at the end of the range of rotation is present, i.e. that the sliding contact may still be on the resistance track and not on the end path consisting of conductive silver are located, so by turning the inner disk opposite the Outer ring of the sliding contact can be adjusted towards the end travel. A related shift at the beginning of the range of rotation is of minor importance, since the beginning is through a series resistor anyway, it is only used above a certain value. All electrical values and measuring points for Checking the resistance curve are determined from the end stop.

The adjustable rotational resistance can be so z. B. used to tune varactor diodes, where an analog or digital display is used. If you choose the analog one Display, the outer ring is expediently designed as a pulley with which a in FIG. 2 shown Scale rope 21 is guided, which in turn carries a dial pointer. The scale rope can through this a driver part 22 formed on the outer ring can be attached to the outer ring.

For this purpose 2 sheets of drawings

Claims (1)

Patent claims: 1. Adjustable rotary resistance with adjustable Residual resistance 1.1 with a carrier plate, 1.1.1 on which there is a resistor element provided with soldering connection lugs and 1.1.2 on which there is a collector element provided with a solder connection lug are located and 1.13 which has a first sling, 1.2 with a spring carrier 1.2.1 with a sliding contact spring attached to it, 1.2.1.1 the resistor and collector elements electrically with one another connects, 1.2.2 rotatable with a bearing pin in a bearing part of the carrier plate is stored and 1.2.3 which has a second sling, 1.3 in which the first and the second stop means in the sense of a rotation range limitation cooperate characterized, 1.4 that the spring carrier (10, U) is constructed in two parts, 1.4.1 with a first part (10) to which the sliding contact spring (8) is attached, and 1.4.2 with a second part (11) that contains the has second stop means (14), and 1.5 that the first part is joined to the second part by a non-positive connection is, 1.5.1 the force acting on the first and second part existing adjusting elements (19, 20) can be loosened and allows a relative movement of the two parts to one another and, after the force has been removed, one from the starting position different end positions of the two parts to one another can be reached.