EP3212929A1

EP3212929A1 - Device and method for detecting an operating pressure of a fluid pump for a motor vehicle

Info

Publication number: EP3212929A1
Application number: EP15791259.3A
Authority: EP
Inventors: Rolf Graf; Gerald BEHRENDT
Original assignee: Continental Automotive GmbH
Current assignee: Continental Automotive GmbH
Priority date: 2014-10-31
Filing date: 2015-10-21
Publication date: 2017-09-06
Also published as: WO2016066504A1; CN107002645B; DE102014222335A1; DE102014222335B4; CN107002645A; US20180017050A1

Abstract

The invention relates to a device (1) for detecting an operating pressure of a fluid pump (100) for a motor vehicle. The device comprises the following: a rotational speed detection device (10) which is designed to detect a rotational speed of the fluid pump (100); a pump flow detection device (20) which is designed to detect a flow of the fluid pump (100); a storage device (30) which is designed to store a pump flow/rotational speed characteristic curve set with at least one pressure reference point; and a pressure determining device (40) which is designed to determine a fluid pressure in the fluid pump (100) on the basis of the detected rotational speed, the detected flow, and the stored pump flow/rotational speed characteristic curve set.

Description

description

Device and method for detecting an operating pressure ei ^¬ ner fluid pump for a motor vehicle

The present invention relates to a pressure control and a limitation for fluid pumps. In particular, of the products contained ^¬ constricting invention, an apparatus and method relates to for detecting an operating pressure of a fluid pump for a motor vehicle.

In modern motor vehicles or passenger cars should be dispensed with a sensor for the fluid pressure for cost reasons. Therefore, there is no direct Mög ^¬ friendliness for the motor control to close by a direct measurement of the fluid pressure, and a comparison of the measured fluid pressure value with set values to the current state of the fuel supply system and if necessary to avoid an overpressure or negative pressure by suitable measures. It is an object of the present invention to provide an Improvement ^¬ te device and an improved method for detecting ei ^¬ nes operating pressure of a fluid pump for a motor vehicle riding ^¬ be observed. This object is achieved by the subject ^{matters of the independent} claims.

Embodiments and developments are the dependent Pa ^¬ tentansprüchen, refer to the description and the figures.

A first aspect of the present invention relates to a device for detecting an operating pressure of a fluid pump for a motor vehicle, wherein the device comprises: a Drehzah ^¬ lerfassungseinrichtung, which is adapted to detect a rotation ^¬ number of the fluid pump; a pump flow sensing device configured to detect a flow of the fluid pump; a memory device designed for this purpose is to store a pump flow-speed characteristic field with at least ei ^¬ nem pressure reference point; , on the detected rotational speed, the current and the stored detected pumping current-speed characteristic curves to determine a center of the printer and ^¬ averaging means which is adapted based a prevailing in the fluid pump fluid pressure.

The term "current" as used by the present invention also includes a pumping current as stored in the pumping current-speed characteristic map.

According to a further, second aspect, the present invention relates to a fluid pump for a motor vehicle, wherein the fluid pump comprises a device according to the first aspect or according to any embodiment of the first aspect.

According to another third aspect of the present a method for detecting an operating pressure of a Fluidpum ^¬ pe for a motor vehicle is concerned, the method comprising the steps of: detecting a rotational speed of the fluid pump by means of a rotational speed detecting means; Detecting a pumping current of the fluid pump by means of a pump current detecting device; From ^¬ store a pump current-speed characteristic field with at least ^¬ least one or two pressure reference points by means of a memory means; and determining a prevailing in the fluid pump fluid pressure ^¬ based on the detected speed, the detected current and the stored pump current-rotating ^¬ number characteristic field by means of a printer means.

The present invention advantageously allows to provide two or more additional points of reference for the phase current of a Flu ^¬ idpumpe at a known fluid pressure.

Advantageously, the present invention enables a first additional reference point to be determined when the The pump speed is, for example, again increased by a precise ^¬ predetermined value after the opening point in ^¬ play, the point A, a Kalibrierventils is achieved. The present invention enables, for example, advantageous ^¬ way, the speed-dependent increase of the volume flow, that is, the slope of the flow characteristic of the fluid pump, store at ge ^¬ gebenem pressure and to be deposited. The pressure regulator has a small and well-known example, volumenstromab- dependent slope, wherein the pressure of the pressure regulator with the Vo ^¬ volume flow increases. The present invention now performs be ^¬ knew increase of the volume flow by an increase in speed and can attribute the pump current then determined a limited hours ^¬ th fluid pressure.

Advantageous embodiments of the present invention are characterized in the subclaims.

In an advantageous embodiment of the present OF INVENTION ^¬ dung is provided that the apparatus further comprises a Rege ^¬ averaging means which is adapted to provide based on the determined fluid pressure, a pressure control for the Flu ^¬ idpumpe.

In a further advantageous embodiment of the present ^¬ the invention it is provided that the apparatus therefor is ^¬ puts to use a reference valve in order to determine the at least one pressure reference point of the pump current-speed characteristic ^¬ field and abzuspei in the storage device ^¬ manuals.

In an advantageous embodiment of the present OF INVENTION ^¬ dung is provided that to determine the at least one pressure reference points of the pump current rotation number ^¬ characteristic field by an increase in pressure, the device is adapted. In a further advantageous embodiment of the present ^¬ the invention it is provided that the apparatus therefor is ^¬ inserted to determine further pressure reference points of the pump current-speed characteristic curves and further to determine a speed-dependent increase in the volume flow of the fluid pump.

Are present in a further advantageous embodiment of the ^¬ the invention it is provided that the Druckermittelungsein ^¬ direction is adapted also based on a detected fuel temperature or a detected, the fuel ^¬ quality parameters describing or a detected force ^¬ stoffeinsprit zvolumina the fluid pressure to investigate.

In a further advantageous embodiment of the present ^¬ the invention it is provided that the Druckermittelungsein ^¬ direction is adapted, further utilizing a handenen before ^¬ switching point of a coupled with the fluid pump pressure switch a spreading of the fluid pressure in the pump ^¬ current-speed characteristic curves to determine.

In a further advantageous embodiment of the present ^¬ the invention it is provided that the memory device is adapted to store the pump current-speed characteristic curves with the spreading of the fluid pressure.

The described embodiments and developments can be combined with each other as desired.

Further possible embodiments, further developments and implementa ^¬ tierungen the present invention also include non expli ^¬ zit Combinations of above or below bezüg ^¬ Lich of the embodiments described features of the OF INVENTION ^¬ dung. The accompanying drawings are intended to provide further understanding of the embodiments of the present invention. The accompanying drawings illustrate embodiments and together with the description serve to explain concepts of the invention.

Other embodiments and many of these benefits erge ^¬ ben in reference to the drawings. The illustrated elements of the drawings are not necessarily to scale ^¬ true to each other shown. 1 is a schematic representation of an apparatus for detecting an operating pressure of a fluid pump according to an embodiment of the present invention; a schematic representation of a flowchart of a method for detecting an operating pressure of a fluid pump for a motor vehicle according to another embodiment of the present invention; a schematic representation of a fluid pump for a motor vehicle according to another advantageous embodiment of the present invention;

Fig. 4 is a schematic representation of a current consumption-speed diagram for a fluid pump for explaining the present invention; a schematic representation of a power consumption-speed diagram of a fluid pump for a motor driving tool to explain the present invention, for example for a fuel pump; Fig. 6 is a schematic representation of a Stromaufnahme- speed diagram, a fluid pump for a motor driving ^¬ imaging to illustrate the invention and Fig. 7 is a schematic representation of a Stromaufnahme- speed diagram, a fluid pump for a motor driving ^¬ imaging to illustrate the present invention.

In the figures of the drawings, like reference characters designate like or functionally identical elements, components, components or method steps, unless indicated otherwise.

Fig. 1 shows a schematic representation of a Vorrich- processing for detecting an operating pressure of a fluid pump for a motor vehicle according to an embodiment of the present invention ^¬.

A device 1 for detecting an operating pressure of a Flu- idpumpe 100 for an automotive vehicle 2 comprises, for example, a rotational speed detection means 10, a Pumpenstromerfassungs- device 20, a storage device 30, a center of the printer ^¬ averaging means 40 and control means 50. Further, the control device 50 even in a other control unit can be executed. In this case, the regulation ^device 50 can be used, for example, directly or z. B. via a vehicle ^¬ bus system z. B. CAN be connected to the device. The speed detection device 10 is designed, for example, to detect a rotational speed of the fluid pump 100.

The pump current detection device 20 is designed, for example, to detect a pump current of the fluid pump 100. The storage device 30 is for example adapted to store a pump current-speed characteristic field with at least one pressure reference point or with at least two pressure reference point ^¬ th.

The printer averaging means 40 is for example configured to determine, based on the detected rotational speed, the detected pump current and the stored pump current-speed characteristic curves ^¬ a prevailing in the fluid pump 100 Flu- iddruck.

The control device 50 is designed, for example, to provide pressure regulation for the fluid pump 100 based on the determined fluid pressure.

2 shows a schematic representation of a method for detecting an operating pressure of a fluid pump 100 for a motor vehicle 2. The method comprises, for example, the following steps:

As a first step of the method, for example, a detection Sl of a rotational speed of the fluid pump 100 by means of a rotational speed detection device 10 takes place.

As a second step of the method, for example, a detection S2 of a pump flow of the fluid pump 100 by means of a pump current detection means 20. As a third step of the method, for example, a storage S3 S3 a pump flow-speed characteristic field with at least one pressure reference point by means of a Spei ^¬ chereinrichtung 30 takes place. As a fourth step of the method, for example, determining S4 of a prevailing in the fluid pump 100 fluid pressure based on the detected speed, the detected pump current and the stored pump current-speed characteristic field by means of a printer means means 40th

For example, the following operating parameters prevail:

An opening pressure of the reference valve is bar, for example, at 8, a pump current is, for example 11 A, a Volu ^¬ volume flow, which the following pump is promoted, is ^¬ play, at 10 1 / h, a speed of the fluid pump is ^¬ play, at about 3000 revolutions / min. Subsequently, for example, the speed of the fluid pump, for example, increased to 5000 revolutions / min, the volume ^¬ flow increases to 100 1 / h, the opening pressure of the reference valve can then be calculated to 8.1 bar, a pump current of 12 A is measured.

From these parameters, the slope of the whole Fel ^¬ can now be determined by the speed. If the method is repeated with several speeds in defined steps, a curvature of the current curves can also be determined. The ISIN field pump current-speed characteristic curves can be adjusted on the basis of this re ^¬ ference points.

FIG. 3 shows a schematic representation of a fluid pump according to a further embodiment of the present invention.

A fluid pump 100 for a motor vehicle 2 comprises example ^¬, a device 1 as the pump control electronics and electrical ei ^¬ ne combustion engine 110. Furthermore, the fluid pump comprising 100, a mechanical pump stage 120 which is coupled via a shaft.

4 shows a schematic representation of a current consumption-speed diagram for explaining the invention.

4 shows a schematic representation of Stromaufnah me a fluid pump over the speed, depending on the respective system pressure PO to P4. Furthermore, the Fig. 4 shows an examplary ^¬ specific representation of the threshold curves P2 and P3, which are used in ^¬ playing manner for warning messages, that is be ^¬ there is the system pressure above this as permissible in ^¬ the limit values, an appropriate warning message. The parameters of the x-axis, denoted by speed fuel pump ^¬ if no speed determination is made on the Kommutatorstromrippel could gegebe ^¬ be appropriate, replaced by pump voltage for pumps with brush-type motors, instead of the fuel pump, a fluid pump can verwen- be det.

5 shows a schematic representation of the characteristic curve of the pump current over the rotational speed when using a reference valve Refe ^¬ . The opening point of the calibration valve "A" is determined in a known method as a reference value and used to improve the system accuracy.

Fig. 6 shows a schematic representation of the characteristic curve of the pump current as the rotational speed when using a Refe rence ^¬ valve. The opening point of the Kalibrierventils "A" is determined in a known method as a reference value. The to ^¬ additional determination and advantageous use of the points B0, Bl, B2, and other points is made possible by the present invention. The point CO is controlled by the switching a pressurized ^¬ switch determines, as also by the present inventions düng advantageously used, as indicated by the name "switching ^¬ point reference switch".

Fig. 7 shows a schematic representation of the characteristic curve of the pump current as the rotational speed showing a Sprei ^¬ wetting characteristic of the field by a viscosity influence. The points Cl, C2 have been determined by switching the pressure switch at a switching pressure, but at different speeds or flow rates of the fluid pump. Likewise, further points can be determined by switching points of other switches.

The present invention advantageously makes it possible to determine by Ermit ^¬ stuffs of a further reference point, the pitch of the Kennli ^¬ nienfelds on pressure, that is change in current over Druckände ^¬ tion.

For this purpose, for example, a cost-effective pressure ^¬ switch is suitable, which closes in the workspace at a certain pressure and thus allows continuous tracking of Kenn ^¬ field expansion.

Advantageously, the present invention allows when this pressure switch switches at a pressure that can be approached at any time and arbitrarily by the pump control or by the engine control even in the normal operation of the motor vehicle ^¬ .

For example, in a motor vehicle the working pressure can range from 2 to 7 bar, the core working range from 3 to 6 bar.

In normal operation, an operating pressure of 3 bar is usually provided for the fluid pump for energy reasons.

At elevated ambient temperatures, the system pressure at ^¬ example, increased to 6 bar. If the pressure switch is set to 4 bar, this switching point can be cyclically ^¬ periodically approached for referencing in most times of normal operation, without the mileage or the emission of carbon dioxide is affected.

Although the present invention has been described above with reference to preferred embodiments, it is not limited thereto but can be modified in a variety of ways. In particular, the present invention can be varied or modified in many ways without departing from the gist of the invention.

In addition, it should be noted that "comprehensive" and "aufwei ^¬ send" excludes no other elements or steps and "ei ^¬ ne" or "a" excludes no plurality.

It should also be noted that features or steps which have been with reference to one of the above embodiments beschrie ^¬ ben, also in combination with other features or steps of other exemplary embodiments described above ver ^¬ turns can be.

Reference signs in the claims are not to be considered as limitations.

Claims

Device (1) for detecting an operating pressure of a fluid pump (100) for a motor vehicle, wherein the Vorrich ^¬ processing comprising:

- A speed detection device (10) which is adapted to a speed of the fluid pump (100) to it ^¬ grasp;

a pump current detection device (20) which is designed to detect at least one current of the fluid pump (100);

- A memory device (30) which is adapted to store a pump current-speed characteristic field with at least one pressure reference point ^¬ least; and

- A printer means (40), which is ^¬ out, based on the detected speed, the detected current and the stored pump current speed characteristic field to determine a prevailing in the fluid pump (100) fluid pressure.

Device according to claim 1, wherein the device (1) further comprises a control means (50), which is there to ^¬ designed based on the determined fluid pressure, a pressure control for the fluid pump (100) ^¬ bereitzustel len.

Apparatus according to claim 1 or 2, wherein the device (1) is adapted to use a reference valve to determine the at least one pressure reference points of the pump ^¬ current-speed characteristic field and store in the memory device (30).

Device according to one of the preceding claims 1 to 3, wherein the device (1) is adapted to the mini- at least to determine a pressure reference point of the pump flow-speed characteristic field by increasing the pressure.

Device according to one of the preceding claims 1 to 4, wherein to determine further pressure reference points of the pump current-speed characteristic curves and further a drehzahlab ^¬ dependent increase of the volume flow of the fluid pump to he ^¬ transmit the device (1) is adapted.

Device according to one of the preceding claims 1 to 5, wherein the printer means (40) is set to further determine the fluid pressure based on a detected fuel temperature, a detected, the fuel quality be ^¬ writing parameters, a detected Kraftstoffein ^¬ injection volumes.

Device according to one of the preceding claims 1 to 6, wherein the printer means (40) is set to, further taking advantage of an existing

Switching point of a coupled with the fluid pump pressure ^¬ switch to determine a spread of the fluid pressure in the pump ^¬ current-speed characteristic field.

Apparatus according to claim 7, wherein the memory device (30) is designed to abzuspei ^¬ chern the pump flow-speed characteristic field with the spread of the fluid pressure.

Fluid pump (100) for a motor vehicle (2), wherein the Flu ^¬ idpumpe (100) comprises a device (1) according to any preceding ^¬ claims 1 to 9. Method for detecting an operating pressure of a fluid pump (100) for a motor vehicle, the method comprising the following steps:

- Detecting (Sl) a speed of the fluid pump (100) with ^{¬ means of} a speed detection device (10);

- Detecting (S2) of a flow of the fluid pump (100) by means of a Pumpenstromerfas detection device (20);

- Storing (S3) of a pump flow-speed characteristic ^¬ field with at least one pressure reference point by means of a memory device (30) and

- determining (S4) of the fluid pump (100) Vorherr ^¬ nant fluid pressure based on the detected rotational ^¬ figure, the current and detected the stored Pum ^¬ penstrom-speed characteristic curves by means of a printer ^¬ averaging means (40).