DE7339341U - Resistance element for variable resistances - Google Patents

Description

Electro-mechanical works

Jakob Preh Nachf, 8740 Bad Neustadt / Saale Schveinfurter Str. 5

Bad Neustaat, S., d. 2o _c 10.7 *

7/73

Bsch / Gü

Resistance element for variable resistances

The innovation concerns p.in resistance element for changeable Resistors with one applied to a strip of insulating material endless wire winding in which individual sections of a resistance element are short-circuited.

Precision wirewound resistors usually have exact resistance values with the corresponding initial spring and initial stop values or final spring and end stop values. Under A start & spring value is understood to be the resistance that follows Covering the initial path between the initial soldering lug and the Snleifex 'soldering lug lies, ^ nth initial stop value is the resistance understood, the measured between the initial soldering lug and the wiper soldering lug in the starting stop position of the wiper will. The end spring value and the end stop value are very similar set. The exact resistance values for the resistance element is achieved by setting the initial and final jump values at precisely defined points on the strip. lays so that this results in the desired working range of the rheostat. There is also precision wirewound resistors often the condition, so-called taps, when precisely identified Provide resistance value-sn.

In order to meet this requirement for precisely defined resistance values meet, it is already known to wrap the insulating strip over the work area with a wire or tape winding made of resistance material to wrap and for the start and end routes

Provide a wire or tape winding which is highly conductive and which has the same thickness as the resistance winding. The resistance and end winding must be soldered or welded together. Today in the manufacture of wirewound resistors The usual method of endless winding is not possible in this embodiment.

Ee is also known to start and end paths by applying Electrically short-circuit solder. To do this, it is necessary to apply the solder very carefully, which is particularly important for very small wire cross-section proves to be very difficult in mass production certain point of the resistance winding only possible with a very complex soldering device.

In addition, it is already known to short-circuit the start and end paths by means of a highly conductive metal rail. This can be provided with a bevel so that the slide spring at Resistance windings with different wire thicknesses from this can run onto the metal rail. The disadvantage here is that the working area with different wire thicknesses Resistance winding with otherwise the same design of the variable resistor is of different lengths. Another disadvantage is that even with the same wire thickness, different start and end paths can arise because the contact point is not exactly must be where the slide spring lifts from the winding. If the metal bar is arranged parallel to the winding, then it must in order to get a little noticeable transition from the winding to the metal rail, adjusted to the winding height. One brings the metal rail before winding, then there is no possibility of endless winding. However, if you bring them after swaddling on, the contact point is not exactly fixed

7339 * 41-7.2.74

It has already been proposed to short-circuit the start and end routes with electrically conductive '' clamps. The clamps can be provided with tongues here and uer subsequent assembly no exact Viderstandswerte be reached _t

It is also already known to carry out parts of a resistive winding short-circuit a low resistance ground. The resistance mass is on the surface of part of the strip of insulating material or applied over the entire height or * the entire width and / or on both sides. The resistance masses can be with different Strength be applied.

It is also a method of trimming the resistance of a wire-wound resistance element known, in which an electrically good conductive, easily fusible, Corrosion-resistant metal, such as gold or a gold alloy, is applied. A comparison is made by melting the short-circuit bridge. With this method, an exact comparison is possible, but this method is for mass production much too complex and therefore too expensive.

Finally, a resistance element is known in which a strip of metal foil is inserted between the turns of the resistance wire and the strip of insulating material. The turns of the resistance wire are soldered to the metal foil and a terminal lug is riveted to one end of the metal foil. Since the film extends over the entire strip of insulating material, the middle section must be removed.

the innovation I.
I. • ν • '. . * »* · disadvantage to 7th loading . . ι * · * T
* * * * «V these . 4 - is it, aforementioned task

■ to create a side and an element of opposition, for the

Mass production is suitable and still meets requirements that are placed on precision resistors.

The object is achieved according to the invention in that the insulating material strip is provided with a one-sided or double-sided lamination, from which, depending on the requirements, lamination areas are removed according to a conventional method, so that after winding a precisely defined number of wire turns, e.g. at the beginning and end connections and, if the tap connections are present, are connected to the liner. One embodiment of the innovation provides ₉ that the lamination is away- at the cut edges of the Isolierstcffstreifens _s

In a continuation of the innovation k 'ϊγπ the wire windings with the lamination be soldered or welded. Furthermore, the lamination applied in a manner known per se in the additive process can be used the front be electrically connected to that of the rear. The connection can be established by galvanic purchase be.

The innovation and further details are based on a drawing described in more detail.

In Pig 1 a continuous winding strip is shown in a front view, from which the resistance elements according to the innovation are separated can. 1 with an insulating strip is referred to, which with a one-sided or double-sided lamination 2 made of a material with good electrical conductivity, such as copper is. The insulating strip consists of a material which allows the individual resistance element to be bent into a ring. Homex Hylon paper is preferably used. The lamination on the front can match that of the back

be electrically connected in a galvanic way. This through-hole connection is not shown in the figure. The deposit itself can lead in one of the usual manufacturing processes, e.g. in Ad 115,1 vv ^ r be applied to the insulating strip. The length the lamination is dimensioned so that the lamination-free section corresponds exactly to the working range of the resistance.

If very thin rebound wires are used for winding and when the lamination is soldered to the wire rope, it appears it is expedient, the 'lamination at the cut edges, as in Fig. 1 shown, to remove a piece towards the middle so that the wire is not destroyed by the cut edges.

Is there the intention that the Wiaerstanaswicklujig not with the lamination to solder *, it is advantageous to attach the connection to the Let cut edges reach. The resistance wires, which are harder in each case, will be wound into the edges of the lamination press in and the turns are short-circuited without soldering.

If the cut edges are disadvantageous in the case of very thin resistance wires, so ird mar. Only use material that is laminated on one side and cut the insulating material strip so that the sharp edges at Cutting edges are slightly rounded. In the case of double-sided laminated material, both edges can be placed in a suitable device be slightly rounded off after wrapping.

The resistor element shown in Fig. 1 has terminal lugs 5 for printed circuits that are wound on using Kramptechnik Strips of insulating material are attached. The upper cramped teeth 3 'does not serve in addition to the mechanical holder as an end stop for one illustrated grinder. Depending on the use, the connecting lugs can also be provided with soldering lugs for attaching wires or braids. There is also the neon option of riveting the connecting lugs or to be attached to the insulating material strip by welding.

It is often necessary to provide a tap on the resistance element at a certain point in the resistance value. The tap in Pig. 1 consists of a plunger clamped onto the insulating material strip 4. A faucet should not reach the upper cut edge in order to prevent a crack when turning or pushing the grinder. Of course, the windings can also be connected to the lamination by soldering 5 or by welding, the lamination always having to protrude somewhat beyond the tapping lugs in order to precisely determine the resistance value.

After winding the resistance wire, the insulating material strip must be separated into individual elements. The separation takes place in the middle of the connection lugs. If the wire connections are soldered on, so the protruding turns are held in place by the soldering. If, on the other hand, the soldering is missing, the separation can take place in a wavy or zigzag line. The protruding turns fall then off.

Resistance elements of the aforementioned type are used both in rotary resistors and in slide resistors.

Claims (6)

- 7 S chu claimed; 1 »Resistance element for variable resistances with a endless wire winding applied to a strip of insulating material, short-circuited in the individual sections of a resistance element are, characterized in that the insulating strip (1) with a one-sided or double-sided cover (2) is provided, of which, depending on the requirement, lamination areas removed by a conventional method, so that after winding a precisely defined number of Wire turns (6) e.g. at the start and end connections (3) and with existing tap connections (4) «ait the lamination in Connected. 2. Resistance element for variable resistances according to claim 1, characterized in that the lamination is removed from the cut edges of the insulating strip. 3. Resistance element for variable resistors according to claim 1, characterized in that the wire turns with the lamination are soldered or welded. 4. Resistance element for variable resistors according to claim 1, characterized in that the lamination of the front is electrically connected to that of the rear. 5 · Resistance element for variable resistances according to claim 1 and 4 »characterized in that the connection is made by galvanic through-hole plating. 6. Resistance element for variable resistances according to an or several of the preceding claims, characterized in that that the lamination in a manner known per se in the additive process is upset.