DE1823396U - CHANGEABLE RESISTANCE. - Google Patents

Description

Variable resistor The invention relates to a variable resistor Resistance.

They are variable resistors with a longitudinally slotted, electrically insulating carrier sleeve known and a surrounding this and the slot roofing, wire-wound resistance sleeve. Inside the carrier sleeve is a contact finger which reaches through the slot can be displaced in the longitudinal direction thereof and in contact with the inner surface of the canopy portion of the resistor sleeve stands.

When building potentiometers and other variable resistors it is often desirable to have a volume that is as large as possible in the smallest possible volume To accommodate total resistance without thereby creating the required robustness and performance of the resistor F or the resistance expensive will. The development of the above-mentioned resistor according to the invention solves this given task.

This makes the resistor very special as a miniature potentiometer suitable. This is used for leveling or trimming, keeping the contact carefully and is precisely adjustable and left in a circuit balancing position can be.

The training can be done so that the resistance is easy can be hermetically sealed.

According to the invention is outside the part covering the slot the resistance sleeve is provided with a backing strip that pushes this part inwards, whose inner surface is curved in the circumferential direction against the sleeve axis. The back strip makes an electrical connection from one end of the resistor sleeve to one at the other end of the support sleeve is arranged and has a connection opposite the resistance sleeve on insulated conductor, or he provides this conductor himself represent.

The mentioned contact finger is on a rotatable threaded spindle screwed-on contact carrier attached. An approach of the Contact carrier in the slot of the carrier sleeve.

The invention relates to further details, which in the following which are described and characterized in the claims. CD The invention shows an exemplary embodiment, namely: FIG. 1 shows a central longitudinal section of the potentiometer, FIG. 2 shows an end view along line 2-2 in FIG. 1, FIG. 3 shows a cross section along line 3-3 in FIGS. 1 and 4 the area 4-4 of the cross section according to FIG. 3 in an enlarged illustration.

The potentiometer has a tubular housing 10. This has a portion 11A of relatively large diameter and an end portion 11B of smaller diameter. The end part is for fastening purposes with an external thread Mistake.

An inclined annular shoulder 110 separates the housing parts 11A and 11 B inside. A tubular core 12, which is preferably made of Isaierstoff, how Bakelite is made, has end pieces 12A and 12B, the diameter of which is essentially equal to the inner diameter of the housing, so that the precious parts fit in well. The core also has a central piece 120 of smaller diameter. The end pieces 12A and 12B have a larger inner diameter than the middle piece 12C.

The wall of the center piece 120 of the core has a longitudinal direction extending slot 14. A small diameter resistance wire is called continuous change 15 wrapped around the center piece of the core and envelops the slot 14 for the most part. The wire is covered with enamel. The insulating email will subsequently removed from the part of the wire helix that passes through the slot 14 shows inside. Instead, aub a winding of bare wire be made with spaces between the turns.

A threaded spindle 16 is made in a cylindrical spindle head 17 Insulating material molded into it or fastened in it in some other way. The biggest part of the spindle head has a matching inner diameter of the housing end part 11B Diameter and is rotatably mounted in this way. The inside end of the spindle head 17 has a portion 17A of larger diameter that becomes the inner diameter of the end piece 12B of the core. A helical spring 18 is on the spindle head 17 applied between the enlarged part 17A and the shoulder 11c of the housing. If the device is to be hermetically sealed, the switch 11c, as shown, preferably inclined and a sealing ring 20 of circular Cross section is applied to the spindle head 17 and from the spring 18 in the annular notch squeezed in from the inside of the shoulder 11c and the wall of the spindle head 17 is formed. The outer end of the spindle head is provided with a slot 21 for a screwdriver. This allows turn the spindle 16. If desired, the spindle can also be extended out of the Extend the housing so that it can be rotated by other means. The opposite end of the spindle etösst against a thrust bearing 22, which is of the inner end of a plug 23 is received. The spring 18 pushes the spindle against this camp.

The plug 23 is held in the end of the housing 10 in that the end edge of the housing is flanged inwards (24) and so the peg jammed the end of the core poking it.

Instead, the plug can also be driven in or held in place by pins. The bearing 22 consists of a conductive disk, preferably made of silver, and is embedded in the inner end of a bore 25 in the stopper with the aid of a gasification mass. A central hole in the bearing disk receives a jumper wire 27. The insulation 28 of this jumper wire is preferably passed through the Bohrunder disk, and the bare wire end 29 is soldered to the disk surface. With this design, the jumper wire is clamped very securely, a good bearing is formed and a good one Current transition reached. C> An electrical conductor 28 may be soldered or otherwise attached to the bearing head 22 and passed through the plug as shown. A contact spring 30 is attached to a sleeve 31, which on C> the spindle 16 is screwed on and has a shoulder 32 to which the contact spring 3o is attached. A particular advantage of this contact is that a single metal strip forms a contact and a spring at the same time and that the hinge point is far from the mechanical fastening.

In the drawing, this pivot point is at 33, while the mechanical attachment is on the approach 32. As a result of this attachment at a remote location, any softening of the metal at the hinge point will be through Welding is prevented and the point of articulation is only a priority but not a fastening point.

By jumping in the projection 32 into the slot 14 is the Sleeve prevented from rotating, so that any rotation of the spindle 16 is linear Displacement of the sleeve along the spindle leads to a displacement of the Contact spring along the winding.

A back strip 36 is on the spool outside of the slot 14 aafgekittet. The strip is used to reinforce the coil CD län - s of the contact, - along the line of contact and also serves as an inner one Power supply to one end of the winding. This end of the Wiokluq is by means of a connector 37 with a conductive C> Part of the contact strip connected, which is connected at its opposite end to a line 38 extending through the plug 23. The inner end of the coil is in the same? also electrically connected to a line 39 leading through the plug. The back strip can either consist of insulating material and be provided with a printed or otherwise applied conductor along its free surface, or the back strip itself can consist of conductive material and be insulated from the winding. Either the wrapping enamel or the adhesive with which the backing strip is applied can be used for insulation.

Preferably the inner surface of the backing strip becomes slightly convex formed, which can be seen particularly clearly in the enlarged section in FIG. As a result of this design, the winding is pressed in and thereby the contact surface with the contact spring 30 reduced to essentially one point of contact The result is a clean contact, the less prone to failure is. At the same time, through the indentation of the winding in a desired manner the winding creates a tension that balances the individual turns and that Eliminates undesirable look lying of windings. The back strip can be attached to the Winding can be glued or cemented under pressure, so that the deformation the winding remains in place even after the pressure has been removed.

The current path leads from the contact spring through the sleeve, the screw spindle and the bearing head to the outside of the device. This reduces the space requirement superfluous for the usual separate power supply rail. Becomes a linearly movable If the rod is used, the electric current7; eg between the contact and one connection in the plug made by an interposed helical spring.

If the housing 10 is made of metal, it is desirable that a insulating skin is placed between the winding and the housing. With the one shown Potentiometer, a film 42 made of polytetrafluoroethylene is pushed into the housing and lies as a skin on its inner wall closely. This will make the winding Indated with respect to the housing, which avoids electrical losses or critical currents which can otherwise occur under certain circumstances.

The operation of the wirewound resistor device illustrated as a potentiometer it is obvious from this Electric lines 38 and 39 are with opposite ends of the resistance winding 15 and the line 28 connected to the spindle 16. The contact 3o is adjustable connected, see above that it taps off a certain part of any voltage applied to the resistor. The device can be used in any way, in the usual straight-line potentiometer can be used, but is particularly suitable as a small component because it is unique Is designed to save space. Although the use of the resistance device as a Potentiometer has been described and illustrated, the device can also be used as a changeable device Resistance and find use as a rheostat.

A device of the type shown and described can, for example have the following dimensions and sizes: 6.3 mm (1/4 ") outer diameter, 32 mm (1 1/4 ") outer length, resistance wire from 0.13 to 0.015 mm in diameter (o, oo5 to o, ovo6 "), winding resistance from 3 ohms to So KOHm, 15.9 mm (5/8") Contact displacement length, 16.5mm (0.65o ") effective winding length.

This is only an example of the information about the reduction or enlargement should not limit.

The principle of the invention is related to a wire-wound Resistance has been described and illustrated. However, the device is also suitable other types of resistors record, e.g. B. can be a resistive coating, which is plated, printed or in other tracks on the inner surface of the back strip is applied to replace the Drahthioklung, without thereby affecting the basic Operation of the device would be changed.

Claims (6)

Claims ---------------------------- 1. Variable resistor with a longitudinally slotted, electrically insulating support sleeve, a wire-wound resistance sleeve surrounding this and covering the slot, and a contact finger which can be moved in the longitudinal direction of the support sleeve and extends through the slot and with the inner surface of the roofing part of the resistance sleeve in Contact is, characterized in that outside of the part of the resistance sleeve that covers the slot, a back strip is provided which presses this part inward, the inner surface of which is curved in the circumferential direction towards the sleeve axis. 2. Resistance according to spoke 1, characterized in that the back strip an electrical connection from one end of the resistor sleeve to an am represents the opposite end of the support sleeve arranged stop and one opposite the resistance sleeve has or represents an insulated conductor. 3. Resistor according to one of the preceding claims, characterized in that that the finger on a contact carrier screwed onto a rotatable threaded spindle is attached, and that an approach of the contact carrier in the slot to prevent rotation intervenes. 4. Resistor according to claim 1 to 3, characterized in that the support sleeve (12) except for a middle one, the resistance Stand sleeve bearing piece (12C) two extended end pieces (12A, 12B) and is housed in a housing (10), the inner diameter of which, with the exception of an end piece (11B) of smaller diameter, is essentially the same as the outer diameter of the end pieces (12A, 12B) of the support sleeve, so that the threaded spindle ( 16) is arranged concentrically within the carrier sleeve and at one end has an externally rotatable insulating material head (17) (called "spindle head"), which is rotatably mounted in the housing end piece (11B) of smaller inner diameter, that the other end of the housing by a plug (23) is closed, which has a thrust bearing (22) for the threaded spindle, and that a spring pressing the spindle against the thrust bearing is arranged on the spindle head (17). 5. Resistance according to spoke 4, characterized in that the inner diameter of the end pieces (12A, 12B) of the support sleeve expanded relative to its central bore w are that in particular the inside diameter of at least one support sleeve end piece is larger than the inner diameter of the adjacent housing end piece that in one end piece a piece of the plug (23) and in the other The end piece of the spindle head (17) engages that the spring is a helical draft spring (18) is and surrounds the spindle head, and that as a spring abutment on the one hand a the inner extended spindle head end (17A) provided outer shoulder, on the other hand an internal switch (110) of the housing are used. 6. Resistance according spoke 5, thereby gekenzneichnet that between the inner shoulder (11C) of the housing and the spring (18) surrounding the spindle head Sealing ring (20) is arranged.