DE102018214221A1 - Method for checking a device designed to determine at least one fluid property - Google Patents

Abstract

The invention relates to a method for checking a device (100) which is designed to determine at least one property of a fluid and which is designed to determine the at least one property of the fluid. The method according to the invention comprises determining the first property value based on a property signal of the device (100), determining at least one second property value based on at least one operating parameter of the internal combustion engine (10) and / or a further property signal one for determining at least one property Fluid-formed further device (100) and determining that the device (100) is faulty if the first property value deviates from the at least one second property value by more than one property threshold value.

Description

The present invention relates to a method and a device for determining at least one property of a fluid, in particular a fluid mixture, such as, for example, a fuel-additive mixture for internal combustion engines, gear oils with foreign particles, hydraulic fluids with foreign particles or any other fluid that is an emulsion, suspension or can be dispersion.

The analysis of fluid properties is an important application in the process control of technical systems, especially in the high pressure range. The automotive sector, in which efforts are currently being made to provide emulsion injections in the internal combustion engine, can be mentioned as an example. In particular, the fuel for internal combustion engines liquids, such as. As water, are added to improve the combustion, pollutant emissions and / or the temperature behavior of the combustion. Here, an unstable emulsion, which is generated, for example, by a high-pressure fuel pump, is injected into the combustion chamber. However, such emulsions are not necessary over the entire operating range of the engine, so that such emulsions do not have to be permanently provided with the same properties. In particular, gradient phases, i.e. H. Phases in which the production of the emulsion is started or ended involve the risk that a fluid is made available to the internal combustion engine, the properties of which are unstable and unknown.

For this purpose, it is known to analyze the lambda control and the combustion fluctuations in order to be able to draw conclusions about the composition of the emulsion. Attempts are made to determine a consequence of fluctuations in the emulsion properties using these two variables and to subsequently adapt the application.

It is an object of the present invention to provide a method with which a device designed to determine at least one fluid property can be checked with regard to the plausibility of its signals. It is also an object of the present invention to calibrate such a device based on the plausibility check of the signals.

This object is achieved with a method according to independent claim 1. Advantageous refinements are specified in the subclaims.

The present invention is essentially based on the idea of an optical device that is designed to at least one property, such as. B. to determine a concentration ratio of a mixture, a fluid, to check the functionality. In particular, for this purpose, at least one operating parameter of the internal combustion engine can be used from a model to make a conclusion about the at least one property of the fluid and to compare the property determined in this way with the property determined by the device. If the property value determined by means of the device deviates from the property determined by means of the model by more than a threshold value, the device can be determined to be faulty.

Such faults in the device can be caused by aging and can be caused, for example, by dirt particles which are deposited in the device. In addition, impairments to the optical path, such as scratches on coupling and decoupling devices, can lead to falsified measurement results.

Accordingly, a method for checking a device designed to determine at least one property of a fluid, in particular a mixture of fuel and additive for an internal combustion engine of a vehicle, is disclosed which is designed to emit an electromagnetic source signal into the fluid along a signal path and Receiving two received signals, which are received at different angles relative to the transmission path, to determine the at least one property of the fluid and to output a first property signal indicating the at least one property. The method according to the invention comprises determining the first property value based on the property signal of the device, determining at least one second property value based on at least one operating parameter of the internal combustion engine and / or a further property signal of a further device designed to determine at least one property of a fluid, and a Determine that the device is faulty if the first property value deviates from the at least one second property value by more than one property threshold.

Consequently, a faulty device can be identified with the method according to the invention.

In a preferred embodiment of the method according to the invention, the at least one operating parameter, on the basis of which the second property value can be determined, has the lambda value, the knock tendency, the fluid injection quantity, the exhaust gas temperature, the ignition angle, injection duration, and / or the rotational uniformity.

The method according to the invention preferably further comprises calibrating the device using the second property value if it has been determined that the device is faulty. In this context, calibration means that the first property value determined by means of the device is corrected with the second property value. For example, the first property value can be replaced with the second property value and can thus adapt or shift a characteristic curve stored in the device.

In a further advantageous embodiment, the method according to the invention further comprises operating the internal combustion engine in such a way that the property of the fluid is at least partially predetermined during the checking of the device. As a result, a second property value to be expected can be compared with the first property value determined by means of the device and, for example, calibrated again if there is an excessive deviation from one another.

The fluid is preferably a mixture of fuel and additive, which has a predetermined concentration ratio. It is even more preferred that the fluid is essentially fuel and essentially free of additives. In such an operation of the internal combustion engine with only fuel, the device should output a corresponding concentration value. If not, the device can be determined to be faulty.

The property threshold is in a range from about 1% to about 30%, preferably in a range from about 10% to about 20%. It is most preferred if the plausibility of the measurement results of the device is checked dynamically and continuously, for example even with very small deviations of less than 1% from the at least one second property value.

In a further embodiment of the method, it is preferred that the device has a signal source that is designed to emit an electromagnetic source signal into the fluid along a transmission path, and a first signal receiving device that is designed to transmit a first reception signal along one to the transmission path under one to receive a predetermined first angle-extending first reception path, the first reception signal corresponding to the electromagnetic source signal scattered by the fluid along the first reception path, at least one second signal receiving device, which is designed to receive a second reception signal along a second reception path extending at a predetermined second angle to the transmission path to receive, wherein the second received signal corresponds to the electromagnetic source signal scattered by the fluid at least partially along the second receive path, the predetermined first angle not equal to the predetermined second iten angle, and a determining device which is designed to determine the at least one property of the fluid based at least in part on the first received signal and the at least one second received signal.

• 1 eine perspektivische Ansicht einer zum Bestimmen von zumindest einer Eigenschaft eines Fluids ausgebildeten Vorrichtung zeigt,
• 2 eine Schnittansicht durch die Vorrichtung der 1 zeigt,
• 3 eine weitere Schnittansicht durch die Vorrichtung entlang der Linie III-III der 2 zeigt,
• 4 eine schematische Ansicht einer Brennkraftmaschine mit der in der 1 dargestellten Vorrichtung zeigt, und
• 5 ein beispielhaftes Ablaufdiagramm eines erfindungsgemäßen Verfahrens zum Plausibilisieren des Signals der in der 1 dargestellten Vorrichtung zeigt.

Other objects and features of the present invention will become apparent to those skilled in the art upon practicing the present teaching and viewing the accompanying drawings, in which:

• 1 3 shows a perspective view of a device designed to determine at least one property of a fluid,
• 2 a sectional view through the device of 1 shows,
• 3 another sectional view through the device along the line III-III of 2 shows,
• 4 is a schematic view of an internal combustion engine with the in the 1 shown device shows, and
• 5 an exemplary flow chart of a method according to the invention for the plausibility of the signal in the 1 shown device shows.

In the context of the present disclosure, the term “fluid” describes any fluid and any fluid mixture that can consist of several components. In particular, homogeneous and heterogeneous fluids and fluid mixtures are included, for example emulsions, suspensions and dispersions. As examples are fluid mixtures of several liquids, such as. As fuel and water, mixtures of at least one liquid and at least one solid, such as hydraulic oil with foreign particles, and mixtures of at least one liquid and at least one gas, such as. B. fuel with air bubbles to name. The term “fluid” also includes multi-phase one-component fluids, such as, for example, B. a partially frozen urea solution, in which the urea solution is partly liquid and partly in the form of ice crystals. In addition, the refrigerant of an air conditioning system can be mentioned here, that its state of matter can switch back and forth between liquid and gaseous and can therefore exist in several phases.

In the context of the present invention, at least one specific property describes the qualitative by means of the device described and / or quantitative composition of the fluid. Furthermore, the at least one property of the fluid can include the size distribution of a component present in the fluid. Conclusions can thus be drawn about the degree of mixing or homogenization of the fluid or fluid mixture. It is also within the scope of the present invention to determine the stability of the fluid, the mass composition of the fluid and / or the structure sizes of the fluid.

In the context of the present invention, the term “property value” describes a value that can indicate at least one physical and / or chemical property of the fluid. For example, the property value can indicate the concentration ratio of the fluid, the degree of mixing of the fluid and / or the size distribution of the droplets or solid particles in the case of a fluid in the form of an emulsion or suspension.

The 1 shows a perspective view of a device designed to determine the at least one property of the fluid 100 which is a housing 110 has in which a along a flow axis 102 (see also 3 ) extending flow channel 112 is arranged through which a fluid along the flow axis 102 can flow. The fluid is, for example, a fuel additive mixture for an internal combustion engine 10 (please refer 4 ), which by means of a high pressure fuel pump 20 into a high pressure storage device 30 , such as a common rail, the internal combustion engine 10 Can be promoted and which under high pressure by means of combustion chamber pipes 32 . 34 . 36 . 38 and the associated injection devices (not explicitly shown) the combustion chambers 12 . 14 . 16 . 18 the internal combustion engine 10 can be supplied. Examples of additives that can be added to the fuel are water or an aqueous urea solution.

In the in the 1 The embodiment shown is the flow channel 112 shown with a substantially rectangular cross section. In further configurations of the device according to the invention, the flow channel 112 a circular, oval, triangular and any other possible cross-sectional shape for flow channels 112 on.

The 1 can be seen that the device 100 also a signal source 120 having in the in the 1 to 3 illustrated embodiment in the form of a light source, such as. B. an LED light source is provided. Alternatively, however, the signal source can be any signal source that is designed to emit an electromagnetic source signal into the fluid along a transmission path 122 (please refer 2 and 3 ) send out. In the 1 are the connecting cables 121 the signal source 120 indicated schematically.

From the 1 it also appears that the device according to the invention 100 also a first signal receiving device 130 which is designed to transmit a first reception signal along a path to the transmission path 122 at a predetermined first angle 150 (please refer 2 ) running first reception path 132 to recieve. The first received signal essentially corresponds to that of the fluid from the transmission path 122 in the first reception path 132 scattered electromagnetic source signal.

In the in the 1 to 3 Embodiments shown, the predetermined first angle is 0 ° or 180 °, so that the first reception path 132 essentially a straightforward extension of the transmission path 122 is. In particular, the first signal receiving device 130 relative to the flow channel 112 opposite to the signal source 120 arranged so that the first signal receiving device 130 can detect the extinction of the electromagnetic source signal. In the 1 are also the connecting cables 131 the first signal receiving device 130 indicated.

The device 100 also has a second signal receiving device 140 which is designed to transmit a second received signal along a path to the transmission path 122 at a predetermined second angle 160 (please refer 2 ) running second reception path 142 to recieve. The second received signal essentially corresponds to that of the fluid from the transmission path 122 in the second reception path 142 scattered electromagnetic source signal. In the 1 are also the electrical connection cable 141 the second signal receiving device 140 indicated.

It is preferred that the predetermined first angle 150 not equal to the predetermined second angle 160 is. It is also preferred that the predetermined first angle 150 and the predetermined second angle 160 not symmetrical to the transmission path 122 are arranged.

In further refinements, further second signal reception devices can be provided, each of which is designed to receive further second reception signals along further second reception paths. The angles between the transmit path 122 and the plurality of second reception paths 142 can be different.

Referring to the 2 which a sectional view through the device according to the invention 100 the 1 represents can be seen that the source 120 , the first signal receiving device 130 and the second receiving device 140 each in corresponding recesses in the housing 110 are used. In the in the 1 to 3 The exemplary embodiment shown are both the first signal receiving device 130 as well as the second signal receiving device 140 each formed as light-sensitive photodiodes, each of which is set up to generate a first response signal or second response signal based on the first received signal or the second received signal. The first and second response signals are generated using the electrical connection line 131 or the electrical connection lines 141 to a determination unit (not explicitly shown in the drawings), which is then designed to determine the at least one property of the fluid based at least in part on the first received signal or first response signal and the at least one second received signal or second response signal. In particular, the determination unit is designed to output a received signal that indicates the at least one property of the fluid or corresponds to a first property value of the fluid.

In the 2 the transmission path falls 122 with the cutting line III-III together. In addition, the 2 can be seen that the second reception path 142 at the predetermined second angle 160 to the transmission path 122 runs. In the example shown, the predetermined second angle is 160 about 90 °. In further refinements, the predetermined second angle 160 be every angle.

The device 100 also has one of the signal source 120 assigned and also on the housing 110 attached coupling device 124 on, which is designed to the electromagnetic source signal, in particular the light emitted by the LED source, into the through the flow channel 112 to couple flowing fluid. Similarly, one of the first signal receiving devices 130 assigned and also on the housing 110 attached first decoupling device 134 and one of the second signal receiving device 140 assigned and also on the housing 110 attached second decoupling device 144 intended. The first decoupling device 134 is designed to couple the first received signal out of the fluid and to the first signal receiving device 130 to lead. The second decoupling device is corresponding 144 designed to decouple the second received signal from the fluid and the second signal receiving device 140 be forwarded.

The coupling device 124 , the first decoupling device 134 and the second decoupling device 144 are each provided as conically shaped glass elements, which in corresponding recesses in the housing 110 are used. It is preferred that the respective cone of the coupling device 124 , the first decoupling device 134 and the second decoupling device 144 is arranged such that the larger diameter end of the flow channel 112 is facing. This can ensure that, in the case of a fluid flowing under high pressure, the respective conically shaped glass elements relative to the flow axis 102 at least partially radially outwards against the correspondingly conically shaped recesses in the housing 110 pressed and thus a fluid seal between the glass elements and those in the housing 110 provided recesses can be improved. Accordingly, the signal source can 120 , the first signal receiving device 130 and the second signal receiving device 140 compared to that in the flow channel 112 flowing fluid can be arranged in a fluid-tight manner.

Although in the design of the 1 to 3 the transmission path 122 , the first reception path 132 and the second receive path 142 each perpendicular (ie radial) to the flow axis 102 run, it can be advantageous in other configurations according to the invention if the transmission path 122 and / or the first reception path 132 and / or the second reception path 142 at non-perpendicular angles (ie not radial) to the flow axis 102 run. For example, it can be preferred to provide a further second receiving device which receives a further second reception signal along a further second reception path, which is to the flow axis 102 is not perpendicular, whereas the second reception path 142 the second receiving device 140 still perpendicular to the flow axis 102 runs.

The 3 shows a cross-sectional view of the device according to the invention 100 along the line III-III the 2 , In the 3 the arrow points 103 the direction of flow of the fluid through the fluid channel 112 along the flow axis 102 on. The device 100 is designed to be arranged in a fuel supply system in an internal combustion engine such that the flow channel 112 the device according to the invention 100 corresponds to at least part of the fuel line. This can be done in the housing 110 Appropriate connection arrangements are provided, such as flanges, threaded holes, etc. Alternatively, the device according to the invention 100 part of a fluid line that conducts the fluid to be measured. Furthermore, it may be possible that the flow channel 112 at least part of a fluid container, e.g. B. an oil pan or a hydraulic oil reservoir, in which the fluid to be measured is located.

The 4 schematically shows an internal combustion engine 10 with a high pressure fuel pump 20 , which sucks fuel from a fuel tank, not shown, and delivers it under high pressure. In addition, the internal combustion engine 10 an additive injection device (not explicitly shown), which is designed to an additive, such as. B. water, in the fuel upstream of the high pressure fuel pump 20 inject. As a result, the high-pressure fuel pump is designed to deliver fuel or a mixture of fuel and additive into a high-pressure storage device 30 to promote, which is designed to store the fuel or the fuel-additive mixture and via the combustion chamber line 32 . 34 . 36 . 38 the combustion chambers 12 . 14 . 16 . 18 the internal combustion engine 10 supply.

The internal combustion engine 10 also has an exhaust tract, not shown, for exhausting and post-treating the exhaust gases of the internal combustion engine 10 on.

The 5 shows an exemplary flow chart of a method according to the invention for checking the functionality of the device 100 , That means that with the method according to the invention that of the device 100 output signals can be checked for plausibility.

The method according to the invention starts at the step 300 and then comes to the step 310 where the device 100 outputs a signal that indicates the at least one property of the fluid. In particular, based on that of the device 100 output signal a first property value can be determined. A property value can, for example, indicate the concentration ratio of the fuel-additive mixture or the degree of mixing of the fuel-additive mixture.

On a subsequent step 320 At least one second property value can be determined on the basis of at least one operating parameter of the internal combustion engine. The operating parameter can have, for example, the lambda value, the tendency to knock, the fluid injection quantity, the exhaust gas temperature, the ignition angle, injection duration and / or the rotational uniformity. The determination of the at least one second property value is preferably based on an operating parameter of the internal combustion engine in order to be able to draw conclusions about the composition of the fluid or fluid mixture. Alternatively or additionally, the internal combustion engine 10 at least one other device 100 be assigned, which outputs a property signal, on the basis of which a second property value can be determined. For example, the device 100 in the combustion chamber line 32 be arranged, the further device 100 in one of the combustion chamber pipes 34 . 36 . 38 can be arranged.

On a next step 330 the first property value is compared with the second property value. If the first property value differs from the second property value by more than one property threshold value, the step 340 determines that the device 100 is faulty. The property threshold may range, for example, from about 1% to about 30%, preferably from about 10% to about 20%.

Are two or more devices 100 provided, can at the crotch 340 that device 100 be determined to be defective, the property value of which is different from the property values of the other devices 100 deviates the most. The process then ends at the crotch 350 ,

In a preferred embodiment, after determining that the device 100 is faulty, a calibration of this faulty device 100 respectively. For this purpose it can be advantageous to pass a fluid through the device 100 to promote, which has predetermined or known properties. For example, fuel-additive mixture with a known concentration ratio can be conveyed. Furthermore, it may be advantageous to only deliver fuel that is free of additive (s) instead of a fuel-additive mixture.

When conveying the fluid with known properties, the second property value determined via the at least one operating parameter can then be used as a calibration value for the device 100 serve. Alternatively, when pumping fuel without an additive, that of the device 100 determined first property value can be used as calibration value (zero offset).

Claims (8)

Method for checking a device (100) designed to determine at least one property of a fluid, in particular a mixture of fuel and additive for an internal combustion engine of a vehicle, which is designed to emit an electromagnetic source signal into the fluid along a signal path (122 ) and receiving two received signals, which are received at different angles (150, 160) relative to the transmission path (122), to determine the at least one property of the fluid and to output a first property signal indicating the at least one property, the method comprising: Determining the first property value based on the property signal of the device (100), - determining at least one second property value based on at least one operating parameter of the internal combustion engine (10) and / or a further property signal of a further device designed to determine at least one property of a fluid ( 100), and - determining that the device (100) is faulty if the first property value deviates from the at least one second property value by more than one property threshold value. Procedure according to Claim 1 , the at least one operating parameter, on the basis of which the second property value can be determined, having: - lambda value, - tendency to knock, - fluid injection quantity, - exhaust gas temperature, - injection duration, - ignition angle, and / or - rotational uniformity. Method according to one of the preceding claims, further comprising: - Calibrating the device (100) using the second property value if it has been determined that the device (100) is faulty. Method according to one of the preceding claims, further comprising: - Operating the internal combustion engine (10) such that the property of the fluid is at least partially predetermined during the checking of the device (100). Procedure according to Claim 4 , wherein the fluid is a mixture of fuel and additive, which has a predetermined concentration ratio. Procedure according to one of the Claims 4 and 5 wherein the fluid is substantially fuel and substantially free of additives. A method according to any preceding claim, wherein the property threshold is in a range from about 1% to about 30%, preferably in a range from about 10% to about 20%. Method according to one of the preceding claims, wherein the device (100) comprises: a signal source (120) which is designed to emit an electromagnetic source signal into the fluid along a transmission path (122), - A first signal receiving device (130), which is designed to receive a first receive signal along a first receive path (132) extending to the transmit path (122) at a predetermined first angle (150), wherein the first receive signal corresponds to that of the fluid along the first Receiving path (132) corresponds to the scattered electromagnetic source signal, - At least one second signal reception device (140), which is designed to receive a second reception signal along a second reception path (142) extending to the transmission path (122) at a predetermined second angle (160), the second reception signal being at least partially the same as that of the fluid corresponds to the electromagnetic source signal scattered along the second reception path (142), wherein the predetermined first angle (150) is not equal to the predetermined second angle (160), and a determination device which is designed to determine the at least one property of the fluid based at least in part on the first received signal and the at least one second received signal.

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