DE3708997A1 - Fill level monitoring device - Google Patents

Abstract

In a fill level monitoring device, in front of a sensor (3) a liquid retention chamber (4) is provided, which has outlets (6, 7) to the outside controlled by a bimetal element (8). The bimetal element (8) is designed in such a way that at low temperatures it closes the outlets (6, 7), and consequently fluid is enclosed in the liquid retention chamber (8). Consequently, at low temperature the sensor (3) detects the fill level of the warm operating condition. <IMAGE>

Description

The invention relates to a fill level monitoring device, especially for the oil level of a Internal combustion engine, which has a sensor and an on direction for detecting the when the firing is warm engine last measured level after the Starting the internal combustion engine until reaching for a new measurement of reasonable operating conditions points. Level monitoring devices of this type are common in today's motor vehicles and therefore be knows.

When measuring the oil level of an internal combustion engine the problem arises that the oil level at different Operating conditions is different. After the star ten of the internal combustion engine initially remains as a result a relative to the high viscosity of the still cold oil large amount of oil in circulation, so that the oil level initially drops significantly and only with increasing temperature rises again. This is why level monitoring is necessary only makes sense when the internal combustion engine is warm. There however, there is a desire to start immediately after starting to get information about the oil level the current level monitoring devices  with an electronic memory that last at Operating conditions measured level signal for so long saves until a new measurement makes sense. The The driver therefore becomes after starting his vehicle initially the current oil level is not signaled.

The known level monitoring device is required numerous electronic components for storing the fill level signal and to suppress level measurement make sense until new measurements are achieved the operating conditions. This will fill the level monitoring device complex and prone to failure.

The invention has for its object a filling level monitoring device of the type mentioned to be designed in such a way that a filling level is saved signals and suppression of measurements for this not suitable conditions possible mechanically is.

This object is achieved in that the establishment by a river having the sensor liquid retention chamber is formed, which a has a blocking device provided passage.

In this liquid retention chamber after the Parking the internal combustion engine liquid included will be. This means that one of the sensors will suffice The oil level is measured even when the oil level is down starting the engine again sinks. Through this liquid retention chamber therefore by simple, mechanical means achieve the same things that otherwise only with an electro African memory and a complex circuit possible would be. The fill level monitoring according to the invention device is therefore inexpensive to manufacture and is able to work particularly reliably.  

The shut-off device can be controlled differently be and for example after each one level time after starting the internal combustion engine to open. For the oil level measurement of an internal combustion engine It is particularly favorable if the shut-off device is controlled depending on the temperature, since the oil temperature A good indicator of this is whether a level measurement makes sense.

The shut-off device is particularly easy to control, when they are sealing in the closed position on the through let is bimetallic snap element on top.

The level sensor can be used with the ent speaking vent hole, which also for filling the encoder can serve if the bimetallic snap element is closed, e.g. when refilling or with oil change, be installed and allows a very quick Fluid exchange in its fluid retention chamber if according to another embodiment of the inven the liquid retention chamber circular cross cut and several passages evenly distributed are provided on a circular area and the bimetal Element a circular covering all passages Snap disc is.

The level sensor is particularly inexpensive to manufacture bar if the sensor is a piezo oscillator.

If the passages are controlled depending on the temperature, so it is conceivable that at a particularly low outside temperature repair and short-distance operation chamber remains closed for a long time because the operating temperature required to open the culverts temperature is not reached. A drop in the oil level would then go unnoticed by the driver because of the filling  level sensor due to the amount of oil included signals an adequate oil level. After that can be met in a simple way by the fact that the sensor outside the liquid retention chamber and a second below the level of the sensor, at all Operating conditions measuring the current level Sensor is assigned. The second sensor is like this to arrange that it generates a warning signal when the oil has dropped to a minimum value, which is the represents absolute lower limit. By the arrangement of such a second sensor would also be ensured that in the event of oil loss when the vehicle is parked immediately after starting the internal combustion engine or when turning the ignition key a warning signal is given.

The invention allows numerous embodiments. A of which is shown in the drawing and will follow described below. The drawing shows in

Wachungsvorrichtung Fig. 1 is a longitudinal section through a level encoder according to the invention About level,

Fig. 2 is a front view of the level sensor without a shut-off element,

Fig. 3 is a schematic representation of a full level monitoring device according to the invention.

Fig. 1 shows a cylindrical sensor casing 1 with an end wall 2 on the inside is seated as a sensor 3, a piezoelectric element. When monitoring a liquid level, this sensor 3 causes the end wall 2 to vibrate. If liquid is present on the side of the end wall opposite the sensor, then this oscillation is damped more than in the absence of a liquid, which is determined in an electronic evaluation unit in order to obtain a fill level signal.

Important for the invention is a liquid retention chamber 4 , which is cylindrical and is welded with its housing 5 in front of the sensor sleeve 1 . The liquid retention chamber 4 has on its end side passages 6 , 7 , which conditions are closed in the conditions shown by a circular snap disk formed bimetallic element 8 . This bimetal element 8 is held by a screw 9 on the front of the housing 5 .

Fig. 2 shows that a total of four passages 6 , 7 , 10 , 11 are provided in the front of the housing 4 so that a liquid exchange can be carried out quickly.

The bimetal element 8 is designed so that it leaves the passages 6 , 7 , 10 , 11 open under normal operating conditions. As a result, the liquid retention chamber is always in contact with the liquid to be monitored. If the liquid level drops so far that the liquid runs out of the liquid retention chamber, then a signal is generated in the usual way by means of the sensor.

If the temperature of the liquid to be monitored drops below a predetermined value, the bimetal element 8 closes the passages 6 , 7 , 10 , 11 . Even if the liquid level then drops, there is no warning signal, as the level is maintained in the liquid retention chamber. The bimetallic element 8 opens and enables the current level monitoring only when the specified temperature is restored.

Fig. 3 illustrates the principle of an oil level monitoring with the level sensor according to the invention in an internal combustion engine of a motor vehicle. Darge is the internal combustion engine, an oil pan 12 , in which a first level sensor 13 is inserted from the side, which fully corresponds to the level sensor described. Somewhat deeper in the oil pan 12 there is a second fill level sensor 14 , which differs from the fill level sensor 13 described above in that no liquid retention chamber 4 is seen before. Therefore, the lower sensor 14 is always in direct contact with the oil and warns as soon as it is exposed. If necessary, a short electronically achievable damping time can also be provided so that extreme sloshing of the oil does not lead to a warning display.

For a further understanding of the overall arrangement, a frequency generator 15 , an analog multiplexer 16 and evaluation electronics 17 are shown in a block diagram. In the evaluation electronics 17 , a signal conditioning 18 , a damping 19 and a display control 20 are provided. If there is a lack of oil, this is signaled by a display field 21 lighting up.

Claims (6)

1. Level monitoring device, in particular for the oil level of an internal combustion engine, which has a sensor and a device for detecting the level last measured when the internal combustion engine is warm after starting the internal combustion engine until reaching operating conditions that are meaningful for a new measurement, characterized in that the device is formed by a liquid retention chamber ( 4 ) which has the sensor ( 3 ) and which has a passage ( 6 , 7 ) provided with a shut-off device (bimetal element 8). 2. level monitoring device according to claim 1, characterized in that the shut-off device (bime tall element 8) is controlled depending on the temperature. 3. Level monitoring device according to claim 2, characterized in that the shut-off device is a bimetallic snap element resting on the passage ( 6 , 7 , 10 , 11 ) in the closed position. 4. Level monitoring device according to claim 3, characterized in that the liquid retention chamber ( 4 ) has a circular cross-section and several passages ( 6 , 7 , 10 , 11 ) are provided evenly distributed on a circular area and that the bimetal element ( 8 ) one all Circuits ( 6 , 7 , 10 , 11 ) covering circular snap disc is. 5. Level monitoring device according to one or more of the preceding claims, characterized in that the sensor ( 3 ) is a piezo oscillator. 6. Level monitoring device according to one or more of the preceding claims, characterized in that the level sensor ( 13 ) outside the liquid retention chamber ( 4 ) and below the level of the level sensor ( 13 ) is assigned a second level sensor ( 14 ) measuring the current level in all operating conditions is.