WO2009030690A2

WO2009030690A2 - Variable electric resistor

Info

Publication number: WO2009030690A2
Application number: PCT/EP2008/061578
Authority: WO
Inventors: Björn Klüßendorf
Original assignee: Leopold Kostal Gmbh & Co. Kg
Priority date: 2007-09-04
Filing date: 2008-09-02
Publication date: 2009-03-12
Also published as: WO2009030690A3; DE102007042011B4; DE102007042011A1

Abstract

The invention relates to a variable electric resistor, comprising a contact track (1) having at least two contact regions (1a, 1b, 1c) separated from each other by a gap (2), each having an associated electric resistor (3a, 3b, 3c) and at last one contact that can be moved along the contract track and is configured as a slider (4) and has at least one contact surface disposed toward the contact track, the geometry of the gap and the contact surface (4') being configured such that the slider is initially in electrical contact with a first contact region adjacent to the gap upon a movement along the contact track in the region of the gap, is subsequently in electric contact with both contact regions simultaneously, and in further progression of the movement is in electrical contact with the second contact region only, characterized according to a first embodiment of the invention in that the contact surface of the slider has a convex curvature and is immersed into said gap when the slider moves in the region of the gap, wherein the width (b) and the depth (t) of the gap and the curvature of the contact surface are aligned to each other such that a distance remains within the gap between the contact surface and the surface of the carrier material (6) at the maximum immersion depth of the slider into the center of the gap.

Description

Variable electrical resistance

description

The invention relates to a variable electrical resistance, comprising a contact track having at least two contact areas each separated by a gap, each having an associated electrical resistance, and at least one movable along the contact path, designed as a slider contact with at least one contact surface arranged towards the contact path, wherein the Geometry of the gap and the contact surface are formed such that the slider is in a movement along the contact track in the region of the gap first with a first of the gap adjacent contact areas in electrical connection, then with both contact areas simultaneously and progressively in the movement only with the second contact area.

Variable electrical resistances exist, for example, as wound potentiometers, in which a resistance wire is wound around a stator, over which a slider picks up a changing resistance during displacement.

Other forms of variable electrical resistance are performed, for example, as printed potentiometers. That is, a printed resistor track is stressed and an adjustable tap picks up a resistance or voltage on the printed contact area. As a resistor track is carried out on printed circuit boards, for example, a carbon pressure. In some applications, these carbon surfaces are then cut by means of a laser cutting process, so that certain resistance or voltage division values can be maintained.

From DE 100 17 51 1 A1 a variable electrical resistance according to the preamble of the main claim has become known. The surfaces of the contact areas of the contact track are arranged at this object obliquely to the direction of movement of the movable contact. As a result, both the movable contact and the contact track covered by it have a considerable width.

The variable electrical resistance according to the present invention has the advantage over the described prior art that the movable contact must have only a small width.

This is possible according to a first realization of the invention in that the contact surface of the grinder has a convex curvature and immersed in the movement of the grinder in the region of the gap in the latter, wherein the width and the depth of the gap and the curvature of the contact surface are coordinated are that at the maximum immersion depth of the grinder in the middle of the gap, a distance between the contact surface and the surface of the carrier material remains in the gap.

According to an alternative embodiment of the invention, this is possible because the contact surface has at least two contact points lying in a plane whose distance in the direction of movement of the movable contact is greater than the width of the gap.

The invention is explained below with reference to an embodiment with reference to the accompanying drawings. Showing:

Fig. 1: a schematic diagram of a variable electrical resistance according to the invention

2 shows a longitudinal section through a variable electrical resistance according to a first realization of the invention

3 shows a longitudinal section through a variable electrical resistance according to an alternative realization of the invention

As can be seen in FIG. 1, the variable electrical resistance according to the invention comprises a first contact track 1 with contact areas 1 a, 1 b, 1 c,... Defined by column 2. The contact track 1 is used as an electrical conductor, e.g. formed by a copper lamination of a printed circuit board 6. The delimited contact areas 1 a, 1 b, 1 c, ... is in each case a fixed resistor 3 a, 3 b, 3 c, ... assigned. These fixed resistors 3a, 3b, 3c, ... are realized, for example, as part of an integrated resistance network and connected via electrical conductors with the demarcated contact areas 1 a, 1 b, 1 c, ... the contact track 1. The

Resistor network whose individual resistors 3a, 3b, 3c, ... are connected in series with each other, is connected at its ends to the plus and the negative terminal of a voltage source. A movable along the contact track 1, designed as a slider 4 contact has a contact pad 1 towards the arranged contact surface 4 ', which contacts the contact track 1 electrically. A further contact surface 4 "of the movable grinder 4 is in electrical contact with a second, continuous contact track 5. The voltage caused by the respective position of the grinder 4 can be tapped off at this second contact track 5. This results as the voltage between the potentials of the gripper connected plus and Minuspols, which is defined by the voltage divider formed at the tapping point of the grinder 4.

2 shows a longitudinal section through the printed circuit board 6 in the contact region of a section of the first contact track 1 according to a first realization of the invention. Clearly visible here are the individual delimited and mutually insulated contact areas 1 a, 1 b, 1 c, ... and the intervening column 2.

Trained as a grinder 4 movable contact touches with its convex curved contact surface 4 ', the contact track 1 and thus provides the electrical connection between this and the second contact track, not shown here. Shown here is the situation in which the grinder 4 is located exactly in the middle of a gap 2. The convexly curved contact surface 4 'dips into the gap 2 and touches the contact track 1 at two contact areas 1 c and 1 d simultaneously. The width b and the depth t of the gap 2 and the curvature of the contact surface 4 'are coordinated so that in exactly this situation, namely at the maximum immersion depth of the grinder 4 in the middle of the gap 2, a contact of the surface 6' of Support material 6 in the gap through the contact surface 4 'of the grinder 4 can not be done.

If this can not be ensured by the layer thickness of the contact track 1 in relation to the width b of the gap 2, the depth t of the gap 2 by partial or complete removal of the

Support material 6 between the contact areas 1 a, 1 b, 1 c, ... are increased, as illustrated by way of example in the columns 2 between the contact areas 1 a and 1 b and between 1 b and 1 c. Due to the convex shape of the contact surface 4 'of the grinder 4 and a relatively small width b of the gap 2, a smooth movement of the grinder 4 over the contact track 1 can be achieved. By additional measures, such as by at least partially oblique or rounded running edges of the contact areas 1 a, 1 b, 1 c, ... of the contact track 1 are still further improvements possible.

3 shows a longitudinal section through the printed circuit board 6 in the contact region of a section of the first contact track 1 according to an alternative realization of the invention. Clearly visible here are the individual delimited and mutually insulated contact areas 1 a, 1 b, 1 c, ... and the intervening column. 2

Trained as a grinder 4 movable contact touches with its contact surface 4 'the contact track 1 and thus provides the electrical connection between this and the second contact track, not shown here. The contact of the contact track 1 through the contact surface 4 'of the grinder 4 takes place at two contact points 4a and 4b which have a distance L from each other which is greater than the width b of the gap 2 between two contact areas 1 a and 1 b of the contact path. By this adaptation of the geometry of the column 2 between the contact areas 1 a, 1 b, 1 c, ... the contact track and the contact surface 4 'of the grinder 4 ensures that the grinder 4 in the region of the gap 2, first with the first the gap 2 adjacent contact areas 1 a is in electrical connection, then with both contact areas 1 a and 1 b simultaneously and further progressing in the movement only with the second contact area 1 b.

Because the two contact points 4a and 4b of the grinder 4 lie in one plane and that at least one of the contact points 4a, 4b always rests on a contact region 1a or 1b of the contact track 1, it is ensured that that no immersion of the grinder 4 in the gap 2 between the contact areas 1 a, 1 b of the contact track 1 takes place, so that here ensures a smooth movement and a hook or terminals of the grinder 4 is prevented.

Claims

claims

1. A variable electrical resistance, comprising a contact track (1) with at least two through a gap (2) of separate contact areas (1 a, 1 b, 1 c, ...), each having an associated electrical resistance (3a, 3b, 3c, ...) as well as at least one along the contact track (1) movable, designed as a wiper (4) contact with at least one to the contact path (1) arranged contact surface (4 '), wherein the geometry of the gap (2) and the Contact surface (4 ') are formed such that the slider (4) in a movement along the contact track (1) in the region of the gap (2) first with a first (1 a) of the gap (2) adjacent contact areas (1 a , 1 b) is in electrical connection, then with both contact areas (1 a, 1 b) simultaneously and progressively in the movement only with the second

Contact area (1 b), characterized in that the contact surface (4 ') of the grinder (4) has a convex curvature and immersed in the movement of the grinder (4) in the region of the gap (2) in this, wherein the width (b ) and the depth (t) of the gap (2) and the curvature of the contact surface (4 ') are coordinated so that at the maximum immersion depth of the grinder (4) in the middle of the gap (2) a distance between the contact surface (2) 4 ') and the surface (6') of the carrier material (6) in the gap (2) remains.

2. Variable electrical resistance according to claim 1, characterized in that the depth (t) of the gap (2) by partial or complete removal of the carrier material (6) between the contact areas (1 a, 1 b, 1 c, ...) is enlarged.

3. Variable electrical resistance, comprising a contact track (1) with at least two through a gap (2) of separate contact areas (1 a, 1 b, 1 c, ...), each with an associated electrical resistance (3a, 3b, 3c, ...) as well as at least one along the contact track (1) movable, designed as a wiper (4) contact with at least one to the contact path (1) arranged contact surface (4 '), wherein the geometry of the gap (2) and the Contact surface (4 ') are formed such that the slider (4) in a movement along the contact track (1) in the region of the gap (2) first with a first (1 a) of the gap (2) adjacent contact areas (1 a , 1 b) is in electrical connection, then with both contact regions (1 a, 1 b) simultaneously and progressively in the movement only with the second contact region (1 b), characterized in that the contact surface (4 ') of the grinder ( 4) at least two lie in one plane hands

Contact points (4a, 4b) whose distance (L) in the direction of movement of the grinder (4) is greater than the width (b) of the gap (2).

4. Variable electrical resistance according to claim 3, characterized in that the extension of the contact surface (4 ') in the direction of movement of the grinder (4) is greater than the width (b) of the gap (2).

5. Variable electrical resistance according to one of claims 1 to 4, characterized in that the contact track (1) is formed as an electrical conductor, for example by a Kupferkaschierung on a printed circuit board (6).

6. Variable electrical resistor according to claim 5, characterized in that parallel to the contact track (1) a second contact track (5) on the printed circuit board (5) is present, which by another contact surface (4 ") of the grinder (4) contacted becomes.

7. Variable electrical resistance according to one of claims 1 to 6, characterized in that the edges of the contact areas (1 a, 1 b) of the contact track (1) are at least partially oblique or rounded.

8. Variable electrical resistance according to one of claims 1 to 7, characterized in that the contact track (1) is galvanically gold plated.

9. Variable electrical resistor according to one of claims 1 to 8, characterized in that the resistors (3a, 3b, 3c, ...) realized as part of an integrated resistor network and via electrical conductors with the demarcated contact areas (1 a, 1 b , 1 c, ...) of the contact track (1) are connected.

10. Variable electrical resistor according to one of claims 1 to 9, characterized in that the individual resistors (3a, 3b, 3c, ...) are connected in series with each other, and the ends of this series circuit with the plus and the negative terminal a voltage source are connected.