DE3928465A1 - Oil level measurer for IC engine - detects position of float using inductive pick=up with core in differential choke - Google Patents

Abstract

A transmission element (10) is fixed to a float (9). The former cooperates with an inductive pick-up. The transmission element is coupled to a core (11) or coil. The latter is formed by at least two partial coils (8) to constitute a differential choke. An evaluating unit is coupled to the coil to register any change of inductance of the coil or partial coil. The variation of a.c. voltage caused by charge in position of the core (11) serves as a measure for the position of the float. The partial coils are placed in two chambers for linearisation. ADVANTAGE - Not prone to faults arising from wear or contact failure, e.g. as in potentiometer type.

Description

The invention relates to a device according to the Oberbe Handle from claim 1.

It is known (DE-OS 29 04 145), the oil level of a burner engine over one with its float in the oil reservoir Council immersed control rod, which with the tap of a Potentiometer is coupled, which a Meßeinrichtng is added to determine.

The transmitter (potentiometer) is subject to errors such as Wear of the grinder and the resistance body, which does not guarantee permanent correct functioning is achieved.

The faultless function can also be caused by contact faults be impaired due to a non-be non-contact measurement recording.

In addition, the use of a potentiometer is not possible in any medium.

The invention has for its object a device provide the ver the disadvantages listed above avoids.

This object of the invention is achieved by the characterizing Features of claim 1 solved.

A float attached to a transmission element is in operative connection with an inductive encoder.

This has the advantage that:

• a) the sensor is wear-free and robust,
• b) there are no contact disorders,
• c) contactless recording of measured values takes place,
• d) no interference from dielectric media takes place
• e) only small measuring forces are necessary,
• f) the entire arrangement is compact.

The float is according to the invention via the transmission element, which can be designed as a rod, with a Core or a coil connected, either the coil is fixed and the core is movable or vice versa.

In a development of the invention, the coil consists of two Partial coils, so that due to the position of the core in the Coil the inductance of the two partial coils in opposite directions  is changeable. Training with only is also possible a coil.

By feeding an AC voltage (or AC) sinusoidal waveform in the coil and subsequent evaluation by an evaluation unit the position of the core in the coil and thus the oil level detectable.

In a development of the invention, the distance is the part coils and change the distance between the chambers of the partial coils can be linearized over a wide range transmission behavior. The This distance is usually given in the design Establishment of the invention. Is also adjustable the core in relation to the float to adapt to to be able to carry out different liquid levels, for example when used in different engine types.

In a further development of the invention, it is possible to lig detected oil level optically by a display unit or acoustically or as parameters for others Evaluation units (for example an integrated limit value switch).

In a further advantageous embodiment of the invention is this oil level measuring device for every type of filling level measurement suitable since the medium to be recorded does not has dielectric influence on the transmitter.

The following description of the drawing contains more Embodiments of the invention, the only one being beige Figure added a longitudinal section through the oil level measurement direction shows.  

In part of the oil pan 1 sits, held by a screw connection 2 and provided with a seal 3 , a housing 4 of the oil level measuring device.

In the upper part of the housing 4 there is a damping chamber, designated 5 , which has openings 6 in its upper and lower region.

In the middle and lower part of the housing 4 there is a coil space 7 in which the partial coils 8 are accommodated. The partial coils are again divided into two chambers for linearization.

In the damping chamber 5 there is a float 9 which is connected to the upper part of a transmission element 10 . At the lower part of the transmission element 10 , a core 11 is attached, which is adjustable for alignment purposes. This core 11 is arranged concentrically in the coil space 7 and moves due to the float movement up or down.

The unit consisting of float 9 , transmission element 10 and core 11 is guided by the buoyancy of the float 9 in the damping chamber 3 .

At the lower part of the housing electrical connections 12 are led out, which are connected to an evaluation unit, not shown.

The damping chamber designated 5 is filled according to the principle of the communicating tubes through the openings 6 in the upper and lower part with the oil surrounding the damping chamber. This damping chamber 5 has the task of damping float movements and keeping strong air and oil flows away through openings 6 , so as to detect the oil level even during the operation of an internal combustion engine, since this can be subject to large, short-term fluctuations. The transmission element 10 is designed as a tube and the core 11 is provided with a bore so that pressure compensation takes place in the coil space 7 .

If a rod is used as the transmission element 10 , this is to be provided with a groove or a drilling tion in the area of the coil space 7 so that no negative or positive pressure can occur in the coil space 7 .

Overall, with the device according to the invention Oil level measuring device has been presented, both works reliably as well as cost-effectively can be.

Claims (7)

1. A device for detecting the oil level of an engine by means of an element at a Übertragungsele (10) fixed to the float (9), characterized in that the transmission element (10) with an inductive sensor in operative connection. 2. Device according to claim (1), characterized in that the transmission element ( 10 ) is connected to a core ( 11 ) or a coil. 3. Apparatus according to claim (2), characterized in that the coil consists of at least two partial coils ( 8 ) (differential choke). 4. Device according to one of the preceding claims, characterized by an evaluation unit which is operatively connected to the coil and which determines the change in the inductance of the coil or the partial coils, and that the change in the alternating voltage due to the position of the core ( 11 ) as a measure of the position of the float ( 9 ) serves. 5. Device according to one of claims (3) or (4), characterized in that the two partial coils ( 5 ) for linearization are each divided into two chambers, and the core ( 11 ) in relation to the float ( 9 ) for the same purposes is adjustable. 6. The device according to claim (5), characterized in that the linearization by Ver Change the distance between the two chambers of the partial coils is changeable. 7. Device according to one of claims (1) to (6), characterized in that the float is mounted in a damping chamber (5) (9) and that the damping chamber (5) in its upper and lower portion openings (6) having.