DE102012210229A1 - Circuit board for level sensor that is utilized for measuring level of fuel in fuel tank of motor car, has set of resistors connected with set of reed switches that are arranged next to each other on circular path - Google Patents

Abstract

The board (12) has a set of resistors (20a-20n) connected with a set of reed switches (14a-14n) such that an output of the board is connected with another output of the board via one of the resistors when one of the reed switches is closed, so that a resistance value is present between the two outputs of the board based on the closed reed switch. The reed switches are arranged next to each other on a circular path (16). The resistors and the reed switches are designed as surface-mounted components, arranged on a side of the board and protected by a cap (34). An independent claim is also included for a level measuring device.

Description

Field of the invention

The invention relates to a circuit board for a level gauge, a level gauge and a fuel tank with such a level gauge.

Background of the invention

For fuel tanks of motor vehicles a variety of level measuring or level sensors are used, which are designed to convert a current level of fuel in the tank into an electrical signal.

For example, there is a level sensor in which a magnet is connected to a float lever in the fuel tank and deflects contact springs that contact a resistor network. The electrical output signal of the level sensor is dependent on which contact spring is deflected depending on the position of the magnet. The manufacture and assembly of the contact springs in this sensor concept is complex.

Further, sensors are known in which a magnet which is linearly displaceable on a shell of the sensor, a reed switch of a series of reed switches closes. From the closed reed switch can be derived, in which position the magnet is located. However, these sensors are not compatible with standard float lever systems

Summary of the invention

It is an object of the invention to provide a robust and cost-effective level gauge for fuel tanks.

This object is solved by the subject matter of the independent claims. Further embodiments of the invention will become apparent from the dependent claims and from the following description.

One aspect of the invention relates to a circuit board or a printed circuit board for a level gauge. This board can be considered as a protractor for the level gauge.

According to an embodiment of the invention, the board comprises a plurality of reed switches, and a plurality of resistors connected to the plurality of reed switches such that when a switch of the plurality of reed switches is closed, a first output of the board is connected via a number of resistors of the plurality of resistors to a second output of the board, so that between the first output and the second output is dependent on the closed reed switch resistance value.

The plurality of reed switches are arranged side by side on a curved line. In this way, the switches can be activated by a magnet which is guided by a lever arm along the arcuate line.

In the circuit board, the electrical circuit can thus be closed by magnetically activated reed switch. The reed switches are positioned along a trajectory of an external magnet and may be located within an outer shell. A reed switch may be designed to close when a magnetic field is present and the closed reed switch may connect a number of resistors corresponding to the switch to the circuit. The output resistance of the level gauge can then be generated by the number of resistors.

By using reed switches, the required magnetic force can be reduced to a very small value, since the reed switches close even at low magnetic fields. Thus, the torque that must be applied to the lever arm, can be reduced to a very small value, which allows the use of very short lever arms.

Further, only a small mass of ferromagnetic material is introduced into the level gauge by the reed contacts, which has a negligible inertia for the opening and closing of the electrical circuit. Thus, the electrical hysteresis of the level gauge can be reduced.

A reed switch normally has two contacts received in an elongated capsule. A longitudinal direction of each capsule may be substantially orthogonal to the arcuate line. Since the reed switches may include a glass capsule that encases the contacts, there is additional sealing of the contact system from the environment. This can further improve the robustness of the level gauge against any ingress of fuel into the outer shell.

According to one embodiment of the invention, the arcuate line is a circular line. In this way, a simple lever, which is pivotable about a lever axis, be used to guide the magnet.

According to one embodiment of the invention, the resistors are connected in series and connected to the first output. The switches can be connected in parallel. A first contact of each switch may be connected between two of the resistors and a second contact of each switch may be connected to the second output. The resistors may have an equal resistance value. In this way, the resistance of the circuit on the board can increase linearly with the number of the closed switch.

According to one embodiment of the invention, the switches and / or the resistors are surface mounted components. In addition, by using standard components such as standard resistors and standard reed switches, the board can be produced very inexpensively because the components can be surface mounted in a standard automated process. In this way, the assembly of the board can be performed easily and inexpensively.

According to one embodiment of the invention, the switches and the resistors are arranged on one side of the board and protected by an additionally applied cap from direct contact with fuel.

Another aspect of the invention relates to a level gauge with such a board. The level gauge may include an electronic circuit that converts the resistance of the board into, for example, an analog or digital level signal.

According to one embodiment of the invention, the level gauge comprises a lever arm which is pivotable about a lever axis, and a permanent magnet which is fixed to one end of the lever arm so that the permanent magnet is moved over the plurality of switches during pivoting of the lever arm and a switch, where the permanent magnet is located closes. A hydrostatic force acting on the float is transferred to the level gauge via the float arm.

According to one embodiment of the invention, the permanent magma are arranged on one side of the board and the switches on the other side of the board. Thus, a portion of the shell of the level gauge can be formed by the board.

According to one embodiment of the invention, the circuit board is surrounded by a hermetically sealing shell, for example made of metal. An area of the shell may be formed by the board. With the level gauge, the electronic components and the contact system, that is, the reed switch, hermetically sealed against the environment and especially against the fuel. There is no mechanical connection between the outside and the inside of the shell, which is usually the weakest point in terms of the tightness of the level gauge. Also a contact of aggressive chemical substances is excluded. Furthermore, conductive fuel can not affect the contact system.

According to one embodiment of the invention, the level gauge further comprises a float attached to the lever arm so that the lever is movable by changing a level of a liquid. The hydrostatic forces acting on the float are transmitted to the board by the lever arm. Since there is little or no frictional resistance on the lever arm, which sweeps over the reed contacts but does not touch them, this lever arm can be made very short. As a rule, otherwise in a system based on mechanical contact, the length of the lever arm on the float is limited by the fact that the torque generated by the float must be greater than the friction forces on the other lever arm. Therefore, the level gauge is also suitable for small tanks, as they have about city cars or two-wheeled vehicles (for example, motorcycles).

Reduced torque required also reduces electrical hysteresis of the circuit on the board.

Overall, the level or fill level information of the fuel in the tank is mechanically translated by linear movement of the float into angular motion through the float, the float arm, and the lever arm supporting the magnet.

Another aspect of the invention relates to a fuel tank for a motor vehicle with a level gauge, as described above and below.

Brief description of the figures

Embodiments of the invention will now be described in detail with reference to the accompanying drawings.

The 1 shows a schematic plan view of a level measuring device according to an embodiment of the invention.

The 2 shows a schematic side view of a level measuring device according to an embodiment of the invention.

The 3 shows a circuit diagram for a level measuring device according to an embodiment of the invention.

The 4 shows a motor vehicle with a level gauge according to an embodiment of the invention.

Basically, identical or similar parts are provided with the same reference numerals.

Detailed description of embodiments

The 1 schematically shows a level gauge 10 that has a circuit board 12 includes on which a plurality of reed switches 14a . 14b . 14c . 14d . 14n are arranged. The reed switch 14a to 14n (in the present case 11 Pieces) are next to each other on a circular path 16 arranged with their longitudinal axes L perpendicular to the circular line 16 stand.

On the board 12 is still an area 18 provided in which a plurality of resistors 20a . 20b . 20c . 20d . 20n is arranged, as it is in the 3 is shown with the reed switches 14a to 14n are electrically coupled.

The level gauge 10 further includes a lever 22 that is about a pivot axis 24 is pivotable and its one lever arm or float arm 26 with a float 28 is connected and its other lever arm 30 at the end a permanent magnet 32 having. When the swimmer 28 moved by changing the level of a liquid, the permanent magnet 32 over an area 36 on the board 12 guided and sweeps thereby in its movement, the majority of reed switches 14a to 14n ,

The board 12 and the components on it 14a to 14n such as 20a to 20n are from a shell 34 or cap 34 enclosed the components 14a to 14n and 20a to 20n hermetically seals off from the environment and especially the fuel. It should be understood that a part of the shell 34 through the board 12 can be formed.

The 2 shows the level gauge 10 schematically in a side view. Like from the 2 The reed contacts are 14a to 14n and the resistors 20a to 20n surface mounted components on a first side 40 the board 12 are arranged. The lever arm 30 and the permanent magnet 32 are on the side 40 opposite side 42 the board 12 appropriate.

The 3 shows a circuit diagram that shows how the reed switch 14a to 14n and the resistors 20a to 20n interconnected with each other. The resistors 20a to 20n are connected in series, wherein between each two resistors a first contact 54 a reed switch 14a to 14n is switched. The series resistors 20a to 20n are with a first exit 50 the board 12 connected. The second exit 52 the board is with the second contacts 56 the reed switch 14a to 14n connected.

For example, if the permanent magnet 32 the reed switch 14c closes, results in a closed circuit, in which the first output 50 about the resistances 20a . 20b . 20c with the second exit 52 connected is. In the case just mentioned are so for example, three series-connected resistors 20a . 20b . 20c with the outputs 50 . 52 connected.

When the resistors 20a to 20n each having the same resistance, is the resistance between the two outputs 50 . 52 linear from the number of the closed reed contact 14a to 14n dependent and thus, if the reed contacts have the same distance from each other, from the current angle of the lever arm 30 or the lever 22 ,

The 4 shows a motor vehicle 60 that is an internal combustion engine 62 Includes fuel from a fuel tank 64 is supplied. In the fuel tank 64 is the level sensor 10 whose swimmer 28 floating in the fuel. Through an electronic control, with the outputs 50 . 52 of the level gauge 10 connected to the outputs 50 . 52 applied resistance to be converted into a measurement signal, the information about the current level in the tank 64 There are, for example, the driver of the vehicle 60 can be displayed.

In addition, it should be noted that "encompassing" does not exclude other elements or steps, and "a" or "an" does not exclude a multitude. It should also be appreciated that features or steps described with reference to any of the above embodiments may also be used in combination with other features or steps of other embodiments described above. Reference signs in the claims are not to be considered as limiting.

Claims (11)

Circuit board ( 12 ) for a level gauge ( 10 ), comprising: a plurality of reed switches ( 14a to 14n ), and a plurality of resistors ( 20a to 20n ) connected to the plurality of reed switches in such a manner that when a reed switch of the plurality of reed switches is closed, a first output ( 50 ) of the board ( 12 ) via a number of resistors of the plurality of resistors with a second output ( 52 ) of the board ( 12 ), so that between the first output ( 50 ) and the second output ( 52 ) is a dependent of the closed reed switch resistance value, characterized in that the plurality of reed switches ( 14a to 14n ) side by side on a curved line ( 16 ) is arranged. Circuit board ( 12 ) according to claim 1, wherein the arcuate line is a circular line ( 16 ). Circuit board ( 12 ) according to one of the preceding claims, wherein the switches ( 14a to 14n ) two contacts each ( 54 . 56 ), which are received in an elongate capsule, wherein a longitudinal direction (L) of each capsule substantially orthogonal to the arcuate line ( 16 ) runs. Circuit board ( 12 ) according to one of the preceding claims, wherein the resistors ( 20a to 20n ) are connected in series and with the first output ( 50 ) are connected; where the switches ( 14a to 14n ) are connected in parallel; where a first contact ( 54 ) of each switch is connected between two of the resistors and a second contact ( 56 ) of each switch with the second output ( 52 ) connected is. Circuit board ( 12 ) according to one of the preceding claims, wherein the switches ( 14a to 14n ) and / or the resistors ( 20a to 20n ) are surface mounted components. Circuit board ( 12 ) according to one of the preceding claims, wherein the switches ( 14a to 14n ) and the resistances ( 20a to 20n ) on one side ( 40 ) of the board ( 12 ) are arranged. Circuit board ( 12 ) according to one of the preceding claims, wherein the switches ( 14a to 14n ) and the resistances ( 20a to 20n ) through a cap ( 34 ) are protected against direct contact with fuel. Level gauge ( 10 ), comprising: a circuit board ( 12 ) according to one of claims 1 to 7, a lever ( 22 ) around a lever axis ( 24 ) is pivotable, and a permanent magnet ( 32 ) located at one end of the lever ( 22 ), so that the permanent magnet ( 32 ) when pivoting the lever ( 22 ) via the plurality of switches ( 14a to 14n ) and a switch in which the permanent magnet ( 32 ) closes. Level gauge ( 10 ) according to claim 8, wherein the permanent magnet ( 32 ) on one side ( 42 ) of the board and the plurality of switches ( 14a to 14n ) on another page ( 40 ) of the board ( 12 ) are arranged. Level gauge ( 10 ) according to claim 8 or 9, further comprising: a float ( 28 ), which is connected to the lever ( 22 ) is fixed so that the lever ( 22 ) is movable by changing a level of a liquid. Fuel tank ( 64 ) for a motor vehicle ( 60 ) with a level gauge ( 10 ) according to any one of claims 8 to 10.

Images