DE8011367U1 - LIQUID LEVEL SENSOR DEVICE - Google Patents

Description

Patent attorneys Dipl.-lng. Dipl.-lng. Dipl.-Chem. G. Quieter E. Prince Dr. G. Hauser Ernsbergerstrasse 19 8 Munich 60

April 23, 1980

PLESSEY HANDEL UND INVESTMENTS AG

Gartenstrasse 2

6300 ZUG / Switzerland

Our reference: P 2428

Variable resistance

The invention relates to a variable resistor and, more particularly, to a resistor which is particularly useful for use when determining the level of volatile liquids, for example the level of gasoline in a gasoline tank, suitable.

Variable resistances previously used in gasoline level sensing devices used consisted of wire or metal foil resistors, where the effective resistance value the resistance corresponding to the movement of a sliding contact over turns of the wound on an insulating carrier plate Wire or a metal foil adhering to the carrier plate. The movement of the sliding contact was dependent generated by the movement of the usual float when the fuel level in the tank changes. These known forms are more mutable Resistors can fail or serious measurement errors

cause because the wire windings move or break or because of a detachment or deterioration of the Metal foil occurs on the carrier plate, which occurs in particular as a result of the aggressiveness of gasoline / methanol mixtures, which are currently used in some countries.

According to the invention, a variable resistor for a liquid level sensing device is characterized by a Substrate made of insulating material resistant to the liquid concerned (e.g. gasoline or gasoline / alcohol mixtures) Material, a resistance device printed on the substrate with the required law of resistance corresponding to the shape of the container of the liquid and a sliding contact device which is designed in such a way that it selectively turns on a portion of the printed resistance device in the circuit, wherein the effective resistance value of the resistance as a function of the actuation of a float or a corresponding device changes when the liquid level in the container changes.

According to an advantageous embodiment of the invention, can be provided that the sliding contact device via a single printed resistance track to change the effective Resistance value of the resistor is pivotable.

A further embodiment of the invention consists in that the sliding contact device has a number of printed conductors | is pivotable, connected at corresponding points along the printed resistance device, with it selected part of the printed resistance device depending on the position of the associated float or the corresponding device is selected. The sliding contact device is constructed so that it during

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■> their movement always with at least one of the printed

Ii conductor is in contact (i.e. contact closure before contact

'ή interruption), so that discontinuities in the level

Sensor switching can be avoided.

The support plate of the resistor can be made of ceramic or porcelain-coated metal, for example, and the printed resistance device may include a composition of glass frit and a noble metal Noble metal oxides (e.g. palladium oxide or ruthenium oxide).

Terminals for the printed resistor device can expediently from a noble metal or from noble metal alloys, for example from silver alloys such as palladium silver or platinum silver. However, it is also possible to use base metal compositions for the terminals:

The shape of the container for the volatile liquid usually requires a non-linear law of resistance Resistance device; To achieve such a law, a single resistance layer can be used in a suitable manner be shaped (for example stepped), or there can be several layers with different shapes and different resistance values successively printed on the carrier plate and burned in.

The invention will now be explained by way of example with reference to the drawing. Show it:

Fig. 1 shows a variable resistance in a liquid

stand sensor device for a petrol tank and

Fig. 2 shows a carrier plate for another embodiment a variable resistor according to the invention.

The fuel level sensor device shown in Fig. 1 includes a variable resistor 1 with an associated Sliding contact device 2, which has a forked double contact arm 3 and which, by means of a pivot pin 5 is rotatably mounted on a fixed bracket 4; the bearing pin 5 bridges a U-shaped part 6 of the sliding contact device 2, as can be seen in the illustration. An upwardly extending extension 7 of the sliding contact device is mechanically connected to a (not shown) movable float device in the petrol tank in such a way that that the double contact of the contact arm 3 is moved over a printed resistance track 8 on a substrate 9, which consists of consists of an electrically insulating material that is resistant to gasoline and gasoline vapor. When the sliding contact Moved over the resistance track 8, the resistance value of the portion of the track 8 that is between the a good contact reliability ensuring double contact of the sliding arm and a pad 10 is, accordingly the position of the mentioned float device and thus according to the level of gasoline in the gasoline tank. The printed resistance track is in accordance with the present example Shaped in the representation in such a way that a non-linear resistance characteristic is created, which is determined by the shape of the petrol tank is.

The variable resistor substrate 9 is preferably made from a block or a card made of ceramic or from steel coated with porcelain, that is, from one against gasoline or gasoline / alcohol mixtures (for example a gasoline / methanol mixture) resistant material.

The printed web is applied to the substrate in several consecutive steps Layers applied, the successive Layers of different shapes and resistance values

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so that the non-linear resistance characteristic is obtained. After the resistor layers have been fired, a Fine adjustment of the characteristic to achieve an exact measurement of the liquid level by using a grinding process be carried out by means of a laser or by means of air.

The composition of the printed resistive layer can be made of powdered noble metal or an oxide of palladium or ruthenium in a glass frit. The pad 10 at the end of the track 8 can be made of silver or a silver alloy, for example palladium silver or platinum silver, exist.

The sliding contact arm 3 can be made of nickel silver (for example 55% copper, 18% nickel and 27% zinc), phosphor bronze or beryllium copper.

In another embodiment of the invention, the variable resistor includes a substrate on which a resistor device is printed as shown in FIG.

In Fig. 2, an insulating substrate 11 is shown, the may have the same composition as was described in connection with FIG. On the substrate 11 are resistance surfaces 12 and 13 printed in stepped and curved form, with several parallel printed conductor strips 1 ' bridge these resistance surfaces. The left ends of the resistance surfaces 12 and 13 are printed on by a wider one Conductor 15 connected to one another, and between the conductor 15 and a connection surface 17 there is a further resistance surface 16.

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A sliding contact arm (not shown) which is mechanically connected to a float device can be used as a function be pivoted by the movement of the float device across the parallel ladder 14, whereby he turns on selected parts of the resistive surfaces 12 and 13 in the circuit. The sliding contact arm is with a provided a single contact which, during the movement of the arm over the conductor strips 14, touches the next contact before the contact with the previous contact is interrupted. Since the sliding contact is via the conductor strips 14 and not moved over the resistance surfaces 12 and 13, the metal of the sliding contact can be softer (for example Silver). You can change or adjust the characteristic curve of the variable resistance according to the requirements further resistance strips 18, 19, 20 and 21 may be provided between selected conductors 14, which are readily available from the Circuit can be disconnected when not needed.

The variable resistance described with reference to the drawing shows, in the presence of organic solvents, for example gasoline or gasoline / alcohol mixtures, that can touch it when it is in the fuel tank has good stability. These solvents have disadvantages Effects on the variable resistances with coiled wires and metal foils previously used in gasoline level sensing devices were used.

In the exemplary embodiments described, the sliding contact arm operated by a float device in a petrol tank, other devices can also be used to Achieving such a movement can be applied.

Claims (9)

.p'at & ntan'wäite: ": ::: Dlpl.-Ing. DIpI.-Chem. Dlpl.-lng. E. Prinz - Dr. G. Hauser - G. Leiser Ernsbergerstrasse 19 8 Munich 60 G 80 11 367.3 27 June 1980 Plessey Handel and ... Our reference: P 2428 Protection claims 1. Liquid level sensing device for determining the level a liquid in a container, with a variable resistance, which is pivoted, mechanically with a |, Swimmer or someone else senses the fluid level borrowed element contains connected sliding contact device, | j characterized in that the variable resistance (1) ! viii a substrate (9) made of a resistant to the liquid ρ has insulating material and that a printed resistance device (8) is mounted on the substrate (9) with a shape such that one corresponds to the shape of the container
Resistance characteristic arises. 2. liquid level sensor device according to claim 1, characterized in that the printed resistance device (8) consists of a single printed resistor track with which ! the sliding contact device (2) is engaged. ! 3. Liquid level sensor device according to claim 1, characterized f; characterized in that the printed resistance device (8) Ϊ
■ has printed conductor tracks (14) which run along points their length are interconnected, and that the sliding contact device (2) can be brought into contact with these conductor tracks (14). Schw / Gl 4. liquid level sensor device according to claim 3, characterized characterized in that the printed resistance device (8) has Ewei spaced apart elongate surfaces (12, 13) which are connected by the printed conductor tracks (14) and connected in parallel. 5. liquid level sensor device according to claim 3 or 4, characterized in that the sliding contact device (2) forms a contact bridge between adjacent conductor tracks (14). 6. Liquid level sensor device according to one of the preceding Claims, characterized in that the substrate (9) consists of ceramic or of steel coated with porcelain. 7. Liquid level sensor device according to one of the preceding Claims, characterized in that the printed resistance device (8) is made from a composition of glass frit and a noble metal or a noble metal oxide. 8. Liquid level sensor device according to one of the preceding Claims, characterized in that terminals (10, 17) for the printed resistance device (8) consist of silver or a silver alloy. 9. Liquid level sensor device according to one of the preceding Claims, characterized in that the resistance characteristic of the resistance device (8) is non-linear is. 0. Liquid level sensing device according to one of the preceding Claims, characterized in that the sliding contact device (2) is a forked double contact sliding arm (3) is.