DE102008041047A1 - Magnetic position sensor has carrier arranged in sensor housing, and resistive track is provided, which is arranged on carrier and conductive track, where slider is provided contacting resistive track and conductive track - Google Patents

Abstract

The magnetic position sensor has a carrier (2) arranged in a sensor housing (1). A resistive track is arranged on the carrier and a conductive track. A slider (5) is provided contacting the resistive track and the conductive track, where the slider has a base body (11) made of plastic with graphite component. The slider is arranged in translatively rotating manner, and is drawn from a magnetic actuator (6) at a wall (1.1) of the sensor housing turned away from the carrier, where the wall is made of plastic with metal or ceramic.

Description

State of the art

The The invention is based on a position sensor according to the type of Main claim.

It is already a position sensor from the DE 203 03 296 U1 known, with a arranged in a sensor housing carrier, with a resistor track arranged on the carrier and a conductor track, with a resistance path and the conductor contacting slider and with an outside of the sensor housing arranged magnetic carrier, which is magnetically coupled to the grinder. The disadvantage is that the grinder is rotatably mounted in the sensor housing, which requires comparatively much space and is expensive to manufacture. The production costs are comparatively high. In addition, the contact force with which the slider contacts the resistance track and the track, depending on the magnetic force of the magnetic driver. This can result in poor signal quality. Furthermore, signal interruptions can occur due to vibrations.

Advantages of the invention

Of the Magnetic position sensor according to the invention the characterizing features of the main claim has in contrast the advantage that the grinder without a rotary bearing of the grinder makes do and thus made the sensor housing smaller can be made by the grinder arranged translationally movable is and facing away from the magnetic carrier to a carrier Wall of the sensor housing is pulled. By the magnetic Tightening the grinder in a direction away from the carrier is set a predetermined distance of the grinder to the carrier, so that the magnetic force to take the grinder and the contact force, with which the grinder contacts the resistance track and the track, are independent of each other.

By the measures listed in the dependent claims are advantageous developments and improvements of the main claim specified position sensor possible.

Especially It is advantageous that the slider the resistance path and the Conductor contacting contact brushes or contact springs has, since in this way the predetermined distance between the Grinder and the resistance track and the track electrically bridged becomes.

Farther is advantageous if the contact brushes or contact springs resiliently biased against the resistance track and the track are, because in this way the contact force for contacting the Resistance track and the track alone from the elastic contact brushes or springs and not additionally by the magnetic forces is applied.

Very It is advantageous if the contact brushes or contact springs are arranged on a main body of the grinder, to a magnet or a body of ferromagnetic material is provided. In this way, a magnetic coupling of the Grinder achieved with the magnetic driver.

Also is advantageous if on the base body and / or the Carrier facing away wall of the sensor housing a means of reducing friction is provided on this Make a low-friction movement of the grinder along the Carrier facing away wall is made possible.

Furthermore is advantageous if the means for reducing the friction Coating, at least one sliding element or rolling element or a lubricant is.

About that It is also advantageous if the sliding element is a knob-shaped, linear or circular elevation is because the grinder is slidably mounted in this way.

Advantageous is when for the main body and the wearer facing away wall of the sensor housing a low-friction Material pairing is selected.

According to the Execution is the main body made of plastic with Graphitanteil and the carrier facing away from the wall made of stainless steel or ceramic.

Furthermore is advantageous if the main body has a height which is smaller than the distance between the carrier and the wall facing away from the carrier of the sensor housing, since the body in this way no contact with the carrier has and only on the wall facing away from the carrier friction along slides.

drawing

One Embodiment of the invention is in the drawing shown simplified and in the following description in more detail explained.

1 shows a three-dimensional view of the position sensor according to the invention,

2 a three-dimensional partial view of the Position sensor after 1 with a grinder sliding on a support of the position sensor.

3 a view of the grinder after 1 and 2 ,

Description of the embodiment

1 shows a three-dimensional view of the position sensor according to the invention.

The position sensor has one in a sensor housing 1 arranged electrically insulating support 2 on which, for example, a layered resistance path 3 and an example layered conductor track 4 is provided. The resistance track 3 has a predetermined electrical resistance, which is significantly greater than the electrical resistance of the conductor 4 , The position sensor forms a potentiometer which divides an input voltage into two variable partial voltages or a total resistance into two partial resistors. The partial voltages or partial resistances result depending on the position of a movably executed, with the resistance path 3 and the track 4 co-operating grinder 5 , For example, the position sensor is a level sensor for determining a level of a liquid in a container. The liquid may be, for example, fuel or any other liquid.

The carrier 2 and the grinder 5 are in the sensor housing 1 tightly enclosed, so no liquid in the sensor housing 1 can get. This allows the tracks 3 . 4 and the contacts of the grinder 5 not be damaged by deposits, dirt particles or chemical reactions. The high measuring accuracy of the position sensor is retained.

Outside the sensor housing 1 is a magnetic driver 6 provided with the inside of the sensor housing 1 arranged grinder 5 is magnetically coupled. In this way, a non-contact coupling between the driver 6 and reached the grinder. The driver 6 is mechanically connected, for example, with a level of the liquid transferring, not shown float arm, at the end of which a float located on the liquid surface is provided.

According to the invention, it is provided that the grinder 5 in the sensor housing 1 is arranged translationally movable and by the magnetic carrier 6 to a carrier 2 facing away wall 1.1 of the sensor housing 1 is pulled. The grinder 5 comes in this way without a pivot bearing, causing the sensor housing 1 smaller than can be carried out in the prior art. In addition, by the magnetic attraction of the grinder 5 in a carrier 2 opposite direction a predetermined distance a of the grinder 5 to the carrier 2 set so that the magnetic force to take the grinder 5 and the contact force with which the grinder 5 the resistance track 3 and the track 4 contacted, are independent of each other.

The wall 1.1 of the sensor housing 1 runs substantially parallel to the carrier 2 and is made of a non-magnetic material, such as plastic. Likewise, the rest of the sensor housing 1 for example, made of plastic.

The grinder 5 indicates the resistance path 3 and the track 4 contacting contact brushes or springs 10 on. These are against the resistance track 3 and the track 4 elastically biased, preferably with low forces, to the friction or the Verschleißß on the webs 3 . 4 to keep low. The contact brushes or springs 10 are on a body 11 of the grinder 5 arranged on which a magnetic body 12 is provided, which may be a permanent magnet or at least consists of ferromagnetic material. The magnetic body 12 is in a recording 14 of the basic body 11 arranged. The magnetic body 12 can be omitted if the main body 11 made of ferromagnetic material. The main body 11 has a height H which is smaller than the distance A between the carrier 2 and the carrier 2 facing away wall 1.1 of the sensor housing 1 ,

With a movement of the magnetic driver 6 becomes the grinder 5 taken along or moved in the same way, wherein the main body 11 with its one side on the wall 5 is moved along and provided on its other side contact brushes or springs 10 the railways 3 . 4 contact electrically. The magnetic driver 6 is for example a permanent magnet.

The grinder 11 is guided according to the embodiment only by the magnetic forces, but it can also be a mechanical guide for the grinder 11 be provided.

To the friction between the main body 11 and the wall 1.1 of the sensor housing 1 to reduce is at the body 11 and / or on the wall 1.1 of the sensor housing 1 provided a means for reducing friction. The friction reducing agent may be a coating, at least one sliding element or rolling element, or a lubricant. According to the embodiment in 2 are four sliding elements 15 provided that out as lenticular, circular, knob-shaped or dome-shaped elevations leads are. The sliding elements 15 but can also be linear. Instead of the sliding elements 15 but also balls or rollers in the wall 1.1 facing side of the body 11 be admitted. At the contact surface between the main body 11 and the wall 1.1 Of course, a lubricant may be provided. Likewise, for the main body 11 and the wall 1.1 of the sensor housing 1 be selected a low-friction material pairing. For example, the main body 11 made of plastic with graphite part and the wall 1.1 be made of stainless steel or ceramic. The main body and the wall 1.1 Of course, they can also be made of a different material.

2 shows a three-dimensional partial view of the position sensor 1 with a grinder sliding on a support of the position sensor. When viewing 2 are the opposite to the view 1 Constant or equivalent parts by the same reference numerals.

According to the embodiment, the resistance path 3 and the track 4 arcuate, but they can also be straight or have any other shape. The resistance track 3 is over a layered connecting track 16 with an electrical connection 17 electrically connected. The conductor track 4 is via another connecting track 18 with another electrical connection 19 electrically connected. One of the connections 17 . 19 is with the positive electric pole and the other connection 17 . 19 electrically connected to the electrical ground.

3 shows a view of the grinder 1 and 2 , When viewing 3 are the opposite to the view 1 and 2 Constant or equivalent parts by the same reference numerals.

The resistance track 3 contacting contact brushes or springs 10 and the track 4 contacting contact brushes or springs 10 are electrically connected to each other, for example via a common sheet metal section 20 , Per train 3 . 4 are each several contact brushes or springs 10 provided, according to the embodiment, five finger-shaped contact springs 10 , The common sheet metal section 20 the contact brushes or springs 10 is in one to the carrier 2 towards open recess 23 of the basic body 11 arranged. The contact brushes or springs 10 stand out of the recess 23 before and contact with the above section the lanes 3 . 4 , The recess 23 can with the recording 14 for the magnetic body 12 be connected, wherein the common sheet metal section 20 also in the recording 14 can be arranged.

The main body 11 is executed according to the embodiment quadrangular.

QUOTES INCLUDE IN THE DESCRIPTION

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Cited patent literature

• - DE 20303296 U1 [0002]

Claims (10)

Magnetic position sensor comprising a carrier arranged in a sensor housing, with a resistor track arranged on the carrier and a conductor track, with a grinder contacting the resistance track and the track, and with a magnetic carrier arranged outside the sensor housing, which is magnetically coupled to the slider, characterized in that the grinder ( 5 ) is arranged translationally movable and by the magnetic carrier ( 6 ) to a wearer ( 2 ) facing away wall ( 1.1 ) of the sensor housing ( 1 ) is pulled. Magnetic position sensor according to claim 1, characterized in that the grinder ( 5 ) the resistance path ( 3 ) and the track ( 4 ) contacting brushes or springs ( 10 ) having. Magnetic position sensor according to claim 2, characterized in that the contact brushes or springs ( 10 ) against the resistance track ( 3 ) and the track ( 4 ) are resiliently biased. Magnetic position sensor according to claim 2, characterized in that the contact brushes or springs ( 10 ) on a base body ( 11 ) of the grinder ( 5 ) are arranged, on which a magnetic body ( 12 ) is provided. Magnetic position sensor according to claim 4, characterized in that on the base body ( 11 ) and / or the carrier ( 2 ) facing away wall ( 1.1 ) of the sensor housing ( 1 ) a means for reducing the friction is provided. Magnetic position sensor according to claim 5, characterized in that the means for reducing the friction, a coating, at least one sliding element ( 15 ) or rolling element or a lubricant. Magnetic position sensor according to claim 6, characterized in that the sliding element ( 15 ) is a knob-shaped, linear or circular elevation. Magnetic position sensor according to claim 4, characterized in that for the main body ( 11 ) and the carrier ( 2 ) facing away wall ( 1.1 ) of the sensor housing ( 1 ) a low-friction material pairing is selected. Magnetic position sensor according to claim 8, characterized in that the basic body ( 11 ) made of plastic with graphite content and the support ( 2 ) facing away wall ( 1.1 ) is made of metal or ceramic. Magnetic position sensor according to claim 9, characterized in that the basic body ( 11 ) has a height (H) which is smaller than the distance (A) between the carrier ( 2 ) and the carrier ( 2 ) facing away wall ( 1.1 ) of the sensor housing ( 1 ).