DE2010653A1 - Resistance donors - Google Patents

Description

Resistance boar.

The invention relates to a resistance transmitter with a strip-shaped, Resistance carrier arranged adjustable in the longitudinal axial direction in the transmitter housing and a rotatable grinder connected to an actuator.

These resistance sensors, which have a measured value-dependent movement of the Convert the actuator, for example a membrane, into an electrical variable, it is necessary due to the manufacturing tolerances, after assembly a To carry out calibration in relation to the start and end value of the resistance range to the swivel range of the grinder. This calibration is generally carried out in that when the wiper is in the initial position, the strip-shaped resistor carrier is shifted in the longitudinal axial direction until it is in the initial position of the grinder desired resistance value is set. Then it will be in the loop end position to obtain the required resistance value, the translation between actuator and Grinder changed accordingly. Such a calibration assumes that between Grinder and actuator an adjustable translation is available, which in general consists of several components and therefore and because of the increased installation effort is relatively expensive. In addition, such a translation does not need you little space required, which has an adverse effect on the external dimensions of the resistance sensor affects.

These disadvantages are overcome by the invention, namely by that according to the invention the resistance carrier is additionally to be the initial position the end associated with the grinder or a point adjacent to this end can be pivoted is attached in the encoder housing.

The calibration of such a resistance transmitter takes place so that after Adjustment of the resistance value corresponding to the start position of the slider a longitudinal axial displacement of the resistance carrier this at in the end position deflected grinder is pivoted until the corresponding end position 1 level is reached. Since the pivot point is that of the initial position of the grinder associated end of the resistance carrier is adjacent, the previously set Initial resistance value not or only slightly adjusted, so that in general already after a longitudinal displacement and pivoting of the resistance carrier the calibration is complete.

One by means of screws, rivets or similar fasteners Resistance carrier attached in the encoder housing is movable and pivotable Storage is most expedient at the wound associated with the initial position of the grinder a first elongated hole parallel to the longitudinal axis of the carrier and a second at the other end ccuer to the longitudinal axis extending elongated hole is provided, the width of which is approximately Corresponds to the length of the first elongated hole. This design has the advantage that only two additional components, namely two between the elongated hole and the screw or rivet head arranged washers, are required and they are therefore particularly inexpensive is.

There is a somewhat more complex design compared to the aforementioned in that the resistor carrier is pivotable on a board and this is displaceable in the encoder housing or the resistor carrier slidable on a circuit board unci this swiveling in the encoder housing is a gutter such Ausführungsforin allows a bit faster and more precise finding, which also makes it easier can be that the pivotable part - for example the resistor carrier - with a toothed segment and the sliding T - for example the board - with one Rack teeth for adjusting the resistance carrier and the board by means of a toothed adjustment key.

The invention is based on a drawing, which is partly schematic Representation contains exemplary embodiments, explained in more detail. Show in detail 1 shows a resistance transmitter with a resistance carrier provided with elongated holes, 2 shows the principle of calibrating a resistance transmitter according to FIG. 1 and FIG Resistance transmitter with a resistance carrier attached to a circuit board.

The resistance sensor shown in Figure 1 consists of a with a resistance wire 1 wound resistance carrier 2 and a rotatably mounted Grinder 3, which via a lever 3a with an actuator (not shown) in Connection. The swivel range of the grinder 3 is provided by two stop pins 4 and 5, which are attached to the encoder housing 6, limited. The resistance carrier 2 has at its initial position A of the grinder 7 associated end to the longitudinal axis of the resistor carrier 2 parallel slot 7 and on its other, the end position E of the grinder 5 adjacent end another elongated hole 8, the runs transversely to the longitudinal axis of the resistance carrier 2 and one of the length of the elongated hole 7. has the appropriate width. The resistor carrier 2 is by means of two screws 9 and 10, the two elongated holes 7 and 8 and a washer 11 each or 12 enforce, on two bearing blocks 13 and arranged in the encoder housing 6 14 attached.

To carry out a calibration, the two screws are first 9 and 10 solved. Thereafter, the resistance carrier 2 is located in the initial position A. Grinder 3 shifted in the axial direction until it is in the initial position of the grinder desired resistance value is reached. Now the screw 9 is tightened, brought the slider 3 in its end position E and the resistor carrier 2 to the The longitudinal axis of the screw 9 is pivoted.

As can be seen in particular from FIG. 2, this pivoting causes Depending on the direction of rotation, a decrease or increase in the distance between the end tap point P2 or P'2 and the start tap point P1 of the grinder 3 on the resistance carrier 2. Is due to the pivoting of the resistance carrier 2 reaches the desired resistance value in the wiper position E, then the Calibration generally finished. As can also be seen from Figure 2, the axis around which the resistor carrier 2 is pivoted is most expedient placed as close as possible to the start tap point P1, otherwise the to Resistance value set at the start of calibration and assigned to the starter position of the slider would be changed again when pivoting the resistance carrier 2, so that a Recalibration would have to be carried out.

In Figure 3, finally, a resistance transmitter is shown in which the resistance carrier 2 rotatable on a plate 15 and this in the axial direction is arranged displaceably in the encoder housing 6. The board 15 is by means of two Rivets 16 and 17, each one parallel to the longitudinal axis of the resistance carrier 2 Push through elongated hole 18 or 19, again attached to two bearing blocks 13 and 14. Resistance carrier 2 and board 15 are also connected to one another via a rivet 20 tied together.

The resistor carrier 2 has a toothed segment 21 at one end and the plate 15 on a longitudinal edge with rack teeth 22nd for pivoting the resistance carrier 2 or for moving the board 15 by means of a correspondingly toothed adjustment key which can be inserted into the bore 23 or 24 Mistake

Claims (4)

Claims. 1. Resistance transmitter with a strip-shaped, in the longitudinal axial direction adjustable resistance carrier arranged in the encoder housing and a rotatable, grinder connected to an actuator., characterized in that, that the resistance carrier (2) to be the starting position (A) of the wiper (3) associated end or a point adjacent to this end can be pivoted in the encoder housing (6) is attached. 2. / Resistance transmitter according to claim 1 with a screw, Resistance carriers attached to the encoder housing by rivets or similar fasteners, characterized in that it is assigned to the starting position (A) of the grinder (3) End of the resistance carrier (2) a first elongated hole parallel to the carrier longitudinal axis (7) and at the other end a second elongated hole (8) running transversely to the longitudinal axis provided with a width approximately equal to the length of the first elongated hole (7) is. 3. / resistance transmitter according to claim 1, characterized in that the resistance carrier (2) can be pivoted on a plate (15) and this is displaceable in the encoder housing (6) or the resistance carrier (2) slidable on a circuit board (15) and this is attached pivotably in the encoder housing (6). 4. / Resistance transmitter according to claim 3, characterized in that the pivotable part (2 or 15) with a toothed segment (21) and the sliding part Part (15 or 2) with rack teeth (22) for adjusting the resistance carrier (2) and the plate (15) by means of an appropriately toothed adjustment key is provided.