DE102008048470A1 - Potentiometer, particularly rotary potentiometer, has multipart housing, in which potentiometer shaft is arranged, where guiding device is positioned in housing by potentiometer shaft - Google Patents

Abstract

The potentiometer (1), particularly rotary potentiometer has multipart housing, in which a potentiometer shaft (2) is arranged. A guiding device (13) is positioned in the housing by potentiometer shaft, where a rotary shaft seal (14) with a seal rim is arranged on the guiding device. The rotary shaft seal has an outer edge, which is designed as spacer (15).

Description

The The invention relates to a potentiometer, in particular a rotary potentiometer, having a multi-part housing, in which a Potentiometer shaft is arranged by a guide device is positioned in the housing.

Rotary are characterized in that their resistance by a rotational movement is adjustable on a drive shaft. To the resistance of the rotary potentiometer To be able to adjust as finely as possible are rotary potentiometers known with translation in which the drive shaft two or perform more complete turns need to turn the potentiometer between its minimum resistance and to adjust its maximum resistance.

Known are, for example, so-called reversible potentiometers, where a Potentiometer resistance by a helically turned Resistance wire is formed. With the help of the drive shaft can a grinder are adjusted along the resistance wire, wherein then corresponds to one revolution of the drive shaft of a screw thread. For example, it is thus possible to realize ten-turn potentiometers, where the drive shaft makes ten full turns, to adjust the potentiometer in its entire setting range. A disadvantage of these turning potentiometers, for example, that they inevitably have end stops. Furthermore, with the resistance wires not any resistance values can be realized. Especially High-impedance turning potentiometers can not be realized. About that In addition, turning potentiometers are subject to wear, which their life is limited. For example, has a typical Turning potentiometer a lifetime of 50,000 to 500,000 cycles, So activities.

This goes from the DE 20 2004 018 128 U1 a rotary potentiometer having a housing in which the resistance element, the grinding element and the planetary gear are housed. The drive shaft is axially supported on the housing inside the housing. For this purpose, a radially projecting shoulder is formed on the drive shaft, which is axially supported on an annular bearing surface of the housing. This bearing surface is formed on a bearing bush of the housing. The bushing is used here in a bottom of the pot-shaped housing. The drive shaft is inserted in the bearing bush and rotatably mounted therein. At the same time a seal in the form of an O-ring is provided here to store the drive shaft dust-proof in the bearing bush. The drive shaft is thus supported via its shoulder inside the housing directly on the bearing bush and thus indirectly on the housing.

These known from the prior art embodiment of a Seal between drive shaft and housing has the disadvantage on that the O-ring offers a small tolerance compensation, if between the drive shaft and housing a center offset occurs. This is associated with a poor sealing effect between the housing and drive shaft.

Accordingly, there is the object of the present invention therein, a potentiometer with a sealing element between housing and potentiometer shaft to create a high elasticity and sealing effect and also provides a sufficient tolerance compensation, if between potentiometer shaft and housing a center offset occurs.

These The object is achieved by a potentiometer with the features of the claim 1 solved. Advantageous training and further education, which can be used individually or in combination with each other, are the subject of the dependent claims.

The potentiometers according to the invention, in particular rotary potentiometers, has a multi-part housing in which a Potentiometerwelle arranged is that through a guide device in the housing is positioned. The invention is characterized in that arranged on the guide device, a shaft seal is. The shaft seal according to the invention is with a firm seat pressed into the housing. He preferably points a sealing lip resting on the surface of the rotating shaft rests. It is possible to use a hose spring Worm spring to use the sealing lip radially on the shaft surface suppressed. To reduce wear on the rubber lip and to ensure the sealing effect, become high demands placed on the nature of the wave surface. Often Therefore, the shaft is in the area of the sealing surface ground without twisting. The rotationally symmetrical shaft seal comes with a slight oversize in the case of the potentiometer pressed. This is the water shield and sealing effect to the housing guaranteed. The direct sealing effect on the rotatable potentiometer shaft is formed through the circumferential sealing shaft, which is prestressed on the shaft circumference is applied. Due to the preloaded installation position of the shaft seal to the housing and the Potentiometerwelle this sealing principle of protection class IP69K.

Preferably, the outer edge of the shaft sealing ring is formed as a spacer, which pressed between two components of the housing a permanently secure positioning of the Shaft seal allows.

From It is also an advantage if the shaft seal is profiled Has fold contour. The profiled fold contour of the shaft seal allows a high elasticity due to its geometry Concentricity tolerance compensation. For expected coaxial deviations between potentiometer shaft and housing is the shaft seal according to the invention able to compensate for a center offset of up to 1.2 mm, without the sealing effect being lost.

Of the Shaft seal according to the invention is preferably Made of polyurethane and especially for rotary potentiometer used.

The The present invention enables a high sealing effect between the drive shaft and the housing of a potentiometer, in particular to achieve a rotary potentiometer, wherein by the high elasticity and the profiled fold contour of the used Sealing element ensures sufficient tolerance compensation is when between potentiometer and housing a center offset occurs.

Further Advantages and embodiments of the invention will become apparent below using exemplary embodiments and with reference to the drawing explained.

there show schematically:

1 in a sectional view of a potentiometer with a multi-part housing in which a Potentiometerwelle is mounted;

2 in a sectional view of a section 1 with the potentiometer shaft, which is surrounded by a shaft seal according to the invention;

3 in a sectional view of another partial section 1 with a more detailed representation of the environment of the shaft seal according to the invention;

4 in a perspective view of the potentiometer with potentiometer shaft and shaft seal;

5 in a perspective view of a section 4 with the potentiometer shaft surrounded by the shaft seal;

6 in a perspective view, the middle housing of the potentiometer with an attached concentric text plate with scale.

In the 1 is a sectional view of a potentiometer 1 shown with a multi-part housing, in which a Potentiometerwelle 2 is stored. The multi-part housing has a cylindrical base body, as a rosette 3 is formed and down into a connector housing 4 empties. The connection housing 4 is through a cover plate 5 completed to the outside. Above the rosette 3 this opens into a housing attachment 6 that by a cover 7 is completed. In the housing attachment 6 is a collet element 8th arranged, which is preferably composed of two components. The collet element 8th has a cylindrically shaped dome 9 on, the one blind hole-like recess 10 in which the potentiometer shaft 2 is stored. Through a sleeve 11 with a knurl 12 becomes the potentiometer shaft 2 firmly in the cathedral 9 positioned. Below the collet element 8th closes the range of the potentiometer 1 on, in which the sealing effect is ensured to the housing. This is indicated by the rosette 3 inside the housing a guide device 13 on that at the potentiometer shaft 2 pulled up. On the guide device 13 stores a shaft seal 14 the outer edge preferably a spacer 15 and to the potentiometer shaft 2 towards a profiled fold contour 16 having. The shaft seal 14 is preferably made of polyurethane. Due to the profiled fold contour 16 allows the shaft seal 14 an elastic concentricity tolerance compensation, by which a compensation of a center offset between Potentiometerwelle 2 and rosette 3 of up to 1.2 mm is possible. The potentiometer shaft 2 has potentiometer connections on the underside 17 on, which are in contact with terminals 18 coming out of the connector housing 4 protrude. In the connection housing 4 is still at least one clamping screw 19 arranged, which allows a secure positioning of the components.

2 shows in a sectional view of a section 1 with a potentiometer shaft 2 that of the shaft seal according to the invention 14 is surrounded. The potentiometer shaft 2 is formed by the preferably L-shaped guide device 13 guided. The shaft seal 14 surrounds the potentiometer shaft 2 in the form of a sealing lip 20 , Above the shaft seal 14 is the cathedral 9 as well as the sleeve 11 of the collet element 8th ,

In 3 is in a sectional view of another partial section 1 with a more detailed representation of the environment of the shaft seal according to the invention 14 shown. Outside the rosette 3 is a text plate 21 arranged with scaling.

4 shows in a perspective Dar position the potentiometer with potentiometer shaft 2 and a shaft seal 14 , In the 5 is a section in a perspective view 4 with the potentiometer shaft 2 and the shaft seal 14 shown. From the 6 goes in a perspective view of the rosette 3 of the potentiometer 1 with the attached text plate 21 with scaling out.

The The present invention enables a high sealing effect between the drive shaft and the housing of a potentiometer, in particular to achieve a rotary potentiometer, wherein by the high elasticity and profiled fold contour of the used Sealing element ensures sufficient tolerance compensation is when between potentiometer and housing a center offset occurs.

QUOTES INCLUDE IN THE DESCRIPTION

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Cited patent literature

• - DE 202004018128 U1 [0004]

Claims (8)

Potentiometer ( 1 ), in particular rotary potentiometer, which has a multi-part housing in which a potentiometer shaft ( 2 ) arranged by a guiding device ( 13 ) is positioned in the housing, characterized in that on the guide device ( 13 ) a shaft seal ( 14 ) is arranged. Potentiometer ( 1 ) according to claim 1, characterized in that the shaft sealing ring ( 14 ) a sealing lip ( 20 ) having. Potentiometer ( 1 ) according to claim 1 or 2, characterized in that the shaft sealing ring ( 14 ) has an outer edge which serves as a spacer ( 15 ) is trained. Potentiometer ( 1 ) according to one of the preceding claims, characterized in that the shaft sealing ring ( 14 ) a profiled fold contour ( 16 ) having. Potentiometer ( 1 ) according to one of the preceding claims, characterized in that the shaft sealing ring ( 14 ) is made of polyurethane. Potentiometer ( 1 ) according to one of the preceding claims, characterized in that the shaft sealing ring ( 14 ) has an elastic concentricity tolerance compensation. Potentiometer ( 1 ) according to one of the preceding claims, characterized in that the shaft sealing ring ( 14 ) to compensate for a center offset between potentiometer shaft ( 2 ) and housing of up to 1.2 mm is formed. Use of the shaft seal ( 14 ) according to one of claims 1 to 7 in rotary potentiometers.