DE102018210862A1 - Level sensor of a vehicle tank - Google Patents

Abstract

The invention relates to a fill level sensor (1) of a vehicle tank (2) with a variable electrical resistance, which comprises at least one slideway (4) and a slider element (3) electrically contacting the slideway (4), the slider element (3) being used for electrical Contacting the slideway (4) has at least a first contact finger (5) and at least a second contact finger (6), the grinder element (3) being movable along the slideway (4), characterized in that the second contact finger (6) is one Has contact section (9) which makes direct electrical contact with the sliding track (4) and is formed in one piece on the second contact finger (6), and that an additional contact element (7) is provided on the first contact finger (5) for making electrical contact with the sliding track (4), wherein the additional contact element (7) is made of a nobler metal or a nobler metal alloy than the second contact finger (6).

Description

State of the art

The present invention relates to a level sensor of a vehicle tank. In addition, the invention relates to a vehicle tank comprising such a level sensor. The vehicle tank was, in particular, a tank for holding fuel.

Level sensors are known from the prior art. For example, the DE 20 2013 004 885 U1 or the US 5,746,088 A such level sensors. There is a float in each case, which floats on a surface of the fuel present in the tank. This is connected to a potentiometer via a lever mechanism, so that different electrical resistances are set on the potentiometer at different fill levels. The potentiometer in turn has a sliding contact which is arranged on a sliding track and can move relative to the sliding track. Depending on the position of the sliding contact to the sliding track, a higher or lower electrical resistance is set. The level of the tank can thus be deduced from the electrical resistance.

Disclosure of the invention

The fill level sensor of a vehicle tank according to the invention permits safe and reliable contacting of the sliding path of a potentiometer with a sliding contact, the sliding contact being simple and inexpensive to manufacture. There are at least two contact points independently of one another, so that the sliding contact makes safe and reliable electrical contact with the sliding track, redundancy being created by the at least two independent contact points.

The fill level sensor of a vehicle tank according to the invention comprises a sliding track and a sliding element that electrically contacts the sliding track. The slideway and grinder element form a potentiometer, so that an electrical resistance that can be measured between the grinder element and one end of the slideway can be varied by positioning the grinder element relative to the slideway. For this purpose, the grinder element has at least one first contact finger and at least one second contact finger. The first contact finger and the second contact finger each make electrical contact with the sliding track. The grinder element is movable along the slideway so that a contact point at which the first contact finger and the second contact finger make electrical contact with the slideway is variable. This allows the variable electrical resistance described above to be set. It is furthermore provided that the second contact finger has a contact section which is formed in one piece on the second contact finger and makes direct electrical contact with the sliding track. On the other hand, an additional contact element is provided on the first contact finger for making electrical contact with the sliding track. The contact element is made of a nobler metal or a nobler metal alloy than the second contact finger. A metal or a metal alloy is particularly nobler than another metal or another metal alloy when there is a greater standard potential. In particular, the material of the contact element has a higher surface contact resistance and volume integrity when in contact with corrosive substances than the second contact finger. By using the contact element, an electrical contact is achieved between the sliding track and the grinding element, which is very resistant to environmental influences. In particular, the level sensor is used in vehicle tanks in which fuel is taken up. The electrical contact between the grinding track and the grinding element is thus resistant to said fuel. This ensures safe and reliable electrical contacting, wherein corrosion and thus deterioration of said electrical contact is avoided or at least made more difficult. Since the contact element is relatively expensive to manufacture owing to the production from a noble metal or a noble metal alloy, a second electrical contact is made by the second contact finger, which is not made of a noble metal or not of a noble metal alloy and of a less noble metal or a less noble metal alloy than the contact element is made, and therefore can be manufactured more easily and cost-effectively than the additional contact element. Thus, on the one hand, redundancy is achieved when contacting the grinding track, on the other hand, simple and inexpensive manufacture and assembly are made possible.

The dependent claims contain preferred developments of the invention.

The contact section jumps or protrudes preferably towards the sliding track. In addition, it is advantageously provided that the contact section is convex or curved. Since the second contact finger, in contrast to the first contact finger, has no additional contact element, an area must be provided on the second contact finger that is provided for making electrical contact with the sliding track. This is achieved through the contact section. Said contact section allows in particular a line contact or surface contact with the sliding track, so that a safe and reliable electrical contacting is enabled. The line contact is particularly advantageously provided.

The grinder element has in particular a carrier section. The at least one first contact finger and the at least one second contact finger are provided or formed on the carrier section. In particular, the carrier section and the first contact finger and / or the second contact finger are formed in one piece. The first contact finger and the second contact finger thus extend away from the carrier section. On the one hand, this simplifies the manufacture of the wiper element, and on the other hand, electrical contacting of the contact fingers for measuring the electrical resistance between the wiper element and the track is simplified.

The carrier section is in particular designed to be electrically conductive. The carrier section is particularly advantageously punched out of sheet metal and thus constitutes a sheet metal stamped part. manufacture the at least one first contact finger and the at least one second contact finger.

In a particularly advantageous embodiment, the grinder element has a single first contact finger and two second contact fingers. In this way, on the one hand, there is optimal electrical contacting of the grinding track, and, on the other hand, manufacturing effort for the grinding element is minimized. The described particularly advantageous embodiment of the grinder element thus represents an optimal balance between the conflicting goals of “easy manufacture” and “optimal electrical contact”.

The loop track is advantageously a conductor track or a resistance track. In particular, the grinding track can be produced depending on the requirements for the resistance to be measured between the grinding element and the grinding track. This ensures that there is always a sufficient difference in electrical resistance when the level changes. Depending on the design of the grinder track, a different resolution of the level sensor can thus be achieved.

Furthermore, it is preferably provided that two slideways and one grinder element are provided for contacting one of the two slideways. The two grinder elements in particular have a common carrier section. The two wiper elements ( 3 ), in particular in one piece. There is thus a redundancy in the determination of the electrical resistance between the wiper element and the wiper track. The level sensor can therefore measure the level very reliably.

The first contact finger and the second contact finger, and in particular also the carrier section, are preferably made of the same material. This material is particularly preferably steel or stainless steel. In particular, the first contact finger and the second contact finger, and in particular also the carrier section, are formed in one piece. With such a configuration, the grinder element can be manufactured easily and with little effort. This makes it possible, in particular, to manufacture the grinder element as a whole in a single manufacturing process, the first contact finger subsequently being provided with the additional contact element. The additional contact element is, in particular, positively and / or non-positively and / or cohesively connected to the first contact finger. This provides a safe and reliable electrical contact between the contact element and the first contact finger, so that a safe and reliable electrical contact between the sliding track and the first contact finger is also made possible. The one-piece design of the first contact finger and second contact finger, and in particular also the carrier section, also enables safe and reliable electrical contact between the first contact finger and the second contact finger, and in particular also the carrier section. The grinder element can thus easily and effortlessly set the electrical resistance of the potentiometer formed from the grinder element and the grinding track.

The contact element is preferably made of an alloy which comprises gold and / or palladium and / or platinum and / or nickel and / or cobalt and / or silver. These metals are not only precious metals, they also belong to the group of precious metals, which are particularly advantageous for use as a contact element. In particular, resistance to corrosion due to aggressive substances in their environment is increased. Such aggressive substances are often present in vehicle tanks, for example due to the fuel in the vehicle tank. In an advantageous embodiment, the fill level sensor also has a float element. The float element floats in a fluid that is introduced into the vehicle tank. In particular, the float element is designed in such a way that it always remains on a surface of the introduced fluid. The float element is coupled to the wiper element, in particular via a lever mechanism. Thus, the grinder element is movable along the slideway when the float element due to a larger or smaller amount of fluid in the Vehicle tank changed its position. A fill level of the vehicle tank can thus be determined by the resulting changed electrical resistance between the grinding track and the grinder element.

The contact element is advantageously a coating of the first contact finger or a contact body attached to the first contact finger, which has a contact surface that is curved toward the sliding track. The contact body is preferably a rivet. Alternatively or additionally, the contact element is designed as a material accumulation or nugget on the first contact finger. It is thereby achieved that the contact element can make electrical contact between the sliding track and the first contact finger, the amount of material to be used for producing the contact element being minimized at the same time.

In an advantageous embodiment it is provided that the first contact finger and the second contact finger extend parallel to a longitudinal axis of the grinder element. The grinder element is in particular elongated and has a longitudinal axis which represents an axis along which the grinder element has the largest dimension. The contact fingers are preferably also elongated and all of them extend parallel to said longitudinal axis. With such an arrangement, either a first contact finger can be arranged adjacent to a second contact finger. Likewise, two first contact fingers or two second contact fingers can be arranged adjacent to one another. In any case, it is provided that there is a distance between two adjacent contact fingers that is measured perpendicular to the longitudinal axis. This distance is less than a dimension of the first contact finger or second contact finger, which is also measured perpendicular to the longitudinal axis. In particular, the dimension perpendicular to the longitudinal axis is constant over the entire extent along the longitudinal axis. Such a configuration ensures that the contact points of the first contact fingers and second contact fingers are arranged close to one another. Thus, an amount of the material required to manufacture the first contact finger and the second contact finger can be minimized, whereby the manufacturing costs are minimized.

The first contact finger and / or the second contact finger are advantageously designed as a spring element. In particular, the effect as a spring element means that the additional contact element is pressed against the slideway, an elastic restoring force of the first contact finger ensuring that a contact force of the contact element on the slideway establishes a safe and reliable electrical contact. Likewise, the convex-shaped region of the second contact finger described above is advantageously pressed securely and reliably onto the sliding track by an elastic restoring force of the second contact finger, which in turn produces reliable electrical contact.

Each grinding element is advantageously assigned its own grinding track. Thus, there is at least a combination of body track and grinder element. It is also particularly advantageously provided that the fill level sensor has two or more, in particular parallel, grinder elements. As already described above, each grinder element has a longitudinal axis, said longitudinal axes advantageously being oriented parallel to one another. It is also provided that at least two grinding tracks are present, each grinding element making electrical contact with its own grinding track. The multiple grinder elements are particularly preferably formed in one piece. Redundancy is achieved by using multiple grinder elements and multiple slideways, so that the fill level sensor can safely and reliably indicate a fill level of the vehicle tank.

Finally, the invention relates to a vehicle tank. The vehicle tank includes a level sensor as previously described. The vehicle tank is, in particular, a fuel tank of a vehicle. The design of the grinder element described above ensures that safe and reliable electrical contact between the grinder element and the grinding track is made possible even in the corrosive environment of fuel for vehicles. The vehicle tank therefore has a long service life on the one hand and a safe and reliable mode of operation on the other.

The grinder element is advantageously attached to a lever arm. The lever arm is movable, in particular rotatable. In addition, a float is mechanically coupled to the lever arm. A movement of the float can thus lead to a movement of the lever arm, the lever arm converting this movement into a movement of the wiper element. The grinder element therefore preferably executes a movement along a circular arc path. Therefore, the grinding track is advantageously formed in an arc shape.

list of figures

• 1 eine schematische Abbildung eines Fahrzeugtanks mit einem Füllstandsensor gemäß einem Ausführungsbeispiel der Erfindung,
• 2 eine schematische Abbildung eines Schleiferelements des Füllstandsensors gemäß dem Ausführungsbeispiel der Erfindung, und
• 3 eine schematische Abbildung des Schleiferelements des Füllstandsensors gemäß einem weiteren Ausführungsbeispiel der Erfindung.

Exemplary embodiments of the invention are described in detail below with reference to the accompanying drawing. In the drawing is:

• 1 1 shows a schematic illustration of a vehicle tank with a fill level sensor according to an exemplary embodiment of the invention,
• 2 is a schematic illustration of a grinder element of the level sensor according to the embodiment of the invention, and
• 3 is a schematic illustration of the grinder element of the level sensor according to a further embodiment of the invention.

Embodiments of the invention

1 schematically shows a vehicle tank 2 in which a fluid 10 , in particular a fuel of a vehicle, is receivable. The vehicle tank 2 has a level sensor 1 according to an embodiment of the invention. The vehicle tank also has an inflow 11 and an outlet 12 on.

The level sensor 1 has a slideway 4 as well as a grinder element 3 on. The wiper element contacts 3 the slideway 4 so that between one end of the slideway 4 and the grinder element 3 an electrical resistance R is measurable. The grinder element 3 is along the slideway 4 movable so that the electrical resistance R is variable. It is provided that the grinder element 3 via a lever mechanism 13 that is around a fulcrum 14 is stored with a floating element 8th connected is. The float element 8th floats on a surface of a fluid 10 that is inside the vehicle tank 2 is appropriate. Thus the float element 8th the grinder element 3 along the slideway 4 move when the level in the vehicle tank 2 is changed. The result is that said electrical resistance R changes, so that a current fill level of the vehicle tank is based on the resistance 2 can be recognized. For electrical contacting of the grinding track 4 has the grinder element 3 at least a first contact finger 5 and at least a second contact finger 6 on. The second contact finger 6 contacts the slideway 4 immediately while the first contact finger 5 the slideway 4 via an additional contact element 7 contacted.

The grinder element 3 is particularly in 2 shown. It is provided that the grinder element 3 a longitudinal axis 100 has, along which the grinder element 3 extends. The longitudinal axis 100 is such an axis along which the wiper element 3 has a greatest extension. A first contact finger is an example 5 and two second contact fingers 6 shown. All of these contact fingers 5 . 6 extend parallel to the longitudinal axis 100 and are designed in particular as spring elements. At one end the first contact finger 5 and second contact finger 6 contact surfaces are provided around the slideway 4 to contact. There is also a beam section 15 on which the first contact finger 5 and the second contact fingers 6 are formed in one piece. As previously described, the first contact finger points 5 an additional contact element 7 on. The second contact fingers 6 have convex areas 9 on, with the convex shaped areas 9 and the contact element 7 with respect to the longitudinal axis 100 lie at the same height. This ensures that both the convex areas 9 as well as the contact element 7 the slideway 4 can contact you safely and reliably. In an alternative, these distances can also be different in order to generate different contact forces, which can reduce wear.

The first contact finger 5 and the second contact fingers 6 have a dimension Y perpendicular to the longitudinal axis 100 on, especially for all contact fingers 5 . 6 is identical. Adjacent contact fingers also point 5 . 6 , ie the first contact finger 5 and one of the second contact fingers 6 as well as the two second contact fingers 6 one distance each X to each other, which is smaller than the dimension described above Y , It is thus achieved that the individual contact fingers 5 . 6 are arranged close to each other, so that a material cost when manufacturing the first contact finger 5 and second contact finger 6 to minimize. In particular, the production takes place by punching out the area between the contact fingers 5 . 6 so that due to the short distance described X the resulting rejects are minimized.

By training the first contact fingers 5 and the second contact finger 6 than itself along the longitudinal axis 100 Extending fingers is reached that the contact element 7 and the convex areas 9 via an elastic restoring force of the first contact fingers 5 and second contact finger 6 on the slideway 4 are pressed. This pressing force or pressing force enables a safe and reliable electrical contact.

For a further improvement of the electrical contact, it is provided that the contact element 7 is made of a nobler metal alloy than the second contact fingers 6 , The second contact fingers 6 are in particular made of the same material as the first contact finger 5 manufactured, since it is particularly provided that the first contact finger 5 and the second contact fingers 6 are formed in one piece.

By manufacturing the contact element 7 made of a nobler metal alloy than the second contact fingers 6 is achieved that the contact element 7 a safe and reliable electrical Connection between grinding track 4 and grinder element 3 manufactures. In particular, this connection is resistant to corrosion. At the same time, due to the limitation of the nobler and therefore more expensive metal alloy to only the contact element 7 achieved that the other grinder element 3 can be produced easily and inexpensively. Through the second contact fingers 6 is also a redundancy when contacting the grinding track 4 reached.

For example, the contact element 7 be made of an alloy comprising the components gold and / or palladium and / or platinum and / or nickel and / or cobalt and / or silver. The first contact finger 5 and / or the second contact finger 6 are made in particular from a less noble alloy or a less noble metal, so that the proportion of the components mentioned is advantageously lower.

3 shows schematically another embodiment of the grinder element 3 , In this exemplary embodiment, it is provided in particular that two wiper elements 3 are present as previously described. Each of these grinder elements 3 contacts its own grinding track 4 so redundancy of the level sensor 1 given is. This leads to a safe and reliable detection and display of the fill level of the vehicle tank 2 , In particular, it is provided that one grinder element each 3 contacted a slideway.

QUOTES INCLUDE IN THE DESCRIPTION

This list of documents listed by the applicant has been generated automatically and is only included for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent literature cited

• DE 202013004885 U1 [0002]
• US 5746088 A [0002]

Claims (15)

Level sensor (1) of a vehicle tank (2) with a variable electrical resistance, which comprises at least one sliding track (4) and a sliding element (3) electrically contacting the sliding track (4), the sliding element (3) for electrically contacting the sliding track (4 ) has at least a first contact finger (5) and at least a second contact finger (6), the grinder element (3) being movable along the slideway (4), characterized in that the second contact finger (6) directly adjusts the slideway (4) Has electrically contacting, integrally formed on the second contact finger (6), contact section (9), and that on the first contact finger (5) an additional contact element (7) is provided for electrical contacting of the slideway (4), the additional contact element (7 ) is made of a nobler metal or a nobler metal alloy than the second contact finger (6). Level sensor (1) after Claim 1 , characterized in that the contact section (9) protrudes or protrudes to the grinding track and is convex or arcuate in shape. Level sensor (1) according to one of the preceding claims, characterized in that the grinder element (3) has a carrier section (15) on which the at least one first contact finger (5) and the at least one second contact finger (6), in particular in one piece, are provided or are trained. Level sensor (1) according to one of the preceding claims, characterized in that the carrier section (15) is electrically conductive and / or a stamped sheet metal part. Level sensor (1) according to one of the preceding claims, characterized in that the grinder element (3) has a single first contact finger (5) and two second contact fingers (6). Level sensor (1) according to one of the preceding claims, characterized in that the sliding track is a conductor track or a resistance track. Level sensor (1) according to one of the preceding claims, characterized by two sliding tracks (4) and each having a sliding element (3) for contacting one of the two sliding tracks (4), the two sliding elements (3) having a common carrier section (15), on which the two grinder elements (3) are formed, in particular in one piece. Level sensor (1) according to one of the preceding claims, characterized in that the first contact finger (5), the second contact finger (6) and the carrier section (15) are made of the same material, in particular steel or stainless steel. Level sensor (1) according to one of the preceding claims, characterized in that the contact element (7) is made of an alloy comprising gold and / or palladium and / or platinum and / or silver and / or nickel. Level sensor (1) according to one of the preceding claims, characterized in that the contact element (7) is a coating of the first contact finger (5) or a contact body fastened to the first contact finger (5), in particular a rivet, which is a to the sliding track ( 4) has a curved contact surface. Level sensor (1) according to one of the preceding claims, characterized in that the first contact finger (5) and the second contact finger (6) extend parallel to a longitudinal axis (100) of the grinder element (3), in particular two adjacent first contact fingers (5 ) or two adjacent second contact fingers (6) or adjacent first contact fingers (5) and second contact fingers (6) each have a distance (X) perpendicular to the longitudinal axis (100) that is less than a dimension (Y) of the first contact finger (5 ) or second contact finger (6) perpendicular to the longitudinal axis (100). Level sensor (1) according to one of the preceding claims, characterized in that the first contact finger (5) and / or the second contact finger (6) are designed as a spring element. Level sensor (1) according to one of the preceding claims, characterized in that at least each grinder element (3) electrically contacts its own slideway (4), in particular at least two slideways (4) and at least two grinder elements (3) being provided, in particular each Grinder element (3) electrically contacts a separate grinding track (4) and in particular the grinder elements (3) are in particular arranged parallel to one another and / or are in particular formed in one piece. Level sensor (1) according to one of the preceding claims, characterized by a float element (8) for swimming in a fluid introduced into the vehicle tank (2), the float element (8) being coupled to the grinder element (3) in order to move the grinder element (3 ) to move along the slideway (4). Vehicle tank (2) comprising a fill level sensor (1) according to one of the preceding claims.

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