DE102017006304A1 - System and method for providing a liquid substance for an internal combustion engine configuration - Google Patents

Abstract

The invention relates to a method for providing a liquid substance for an internal combustion engine configuration (299), wherein the engine configuration (299) comprises a first tank unit (220) for receiving the liquid substance and a second tank unit (250) for receiving the liquid substance, a first pump unit (230). for providing liquid substance from the first tank unit (220) to the second tank unit (250) and a second pump unit (270) for providing liquid substance from the second tank unit (250) for consumption within the engine configuration (299), comprising the steps of: Continuously determining a mass flow (m2) of the liquid substance withdrawn from the second tank unit (250) for consumption within the engine configuration (299); Continuously determining a predominant residual amount of the liquid substance in the second tank unit (250) based on the determined mass flow (m2) of the liquid substance withdrawn from the second tank unit (250); and providing the liquid substance to the second tank unit (250) from the first tank unit (220) according to predetermined criteria with respect to the predominant residual amount of the liquid substance in the second tank unit (250). The invention further relates to a computer program product comprising a program code (P) for a computer (200; 210) for carrying out a method according to the invention. The invention further relates to a system for providing a liquid substance for an engine configuration (299) and a system-equipped motor vehicle (100).

Description

TECHNICAL AREA

The present invention relates to a method of providing a liquid substance for an internal combustion engine configuration. In particular, the present invention relates to a method of providing fuel to an internal combustion engine. The present invention may further relate to a method of providing a reductant substance, such as urea, to an exhaust system of an internal combustion engine. The invention further relates to a computer program product comprising a program code for a computer for carrying out a method according to the invention. It further relates to a system for providing a liquid substance for an engine configuration and a motor vehicle equipped with the system.

STATE OF THE ART

In some liquid substance supply systems for a vehicle engine configuration, two tanks are provided. According to one construction, two pump units and two filter units are arranged in such a supply system. It is desirable that the liquid substance be adequately distributed between a first tank and a second tank. The liquid substance supply system may be a fuel supply system for an internal combustion engine. One way of determining prevailing respective liquid substance levels is to provide a level sensor in each of the tanks. However, this is not optimal considering the system complexity and the cost associated with the level sensors, etc.

WO 2013/093544 relates to a fuel supply system on a motor vehicle, which involves calculations of an amount of fuel consumed by an internal combustion engine.

BRIEF SUMMARY OF THE INVENTION

It is an object of the present invention to propose a new and advantageous method for providing a liquid substance for an internal combustion engine configuration.

It is another object of the invention to propose a new and advantageous system and a new and advantageous computer program for providing a liquid substance for an internal combustion engine configuration.

It is a further object of the invention to propose a new and advantageous method that provides a reliable and cost-effective delivery of a liquid substance for an internal combustion engine configuration.

It is a further object of the invention to propose a new and advantageous system and a new and advantageous computer program that provides a reliable and cost-effective delivery of a liquid substance for an engine configuration.

Yet another object of the invention is to propose a method, a system, and a computer program that achieve an improved provision of a liquid substance for an engine configuration.

Yet another object of the invention is to propose an alternative method, system, and program for providing a liquid substance for an engine configuration.

Some of these objects are achieved by a method according to claim 1. Other objects are achieved with a system according to what is described herein. Advantageous embodiments are described in the dependent claims. The substantially same advantages of the method steps of the method according to the invention apply to corresponding means of the system according to the invention.

• – kontinuierliches Bestimmen eines Massenflusses der aus der zweiten Tankeinheit entnommenen Flüssigsubstanz zum Verbrauch innerhalb der Motorkonfiguration;
• – kontinuierliches Bestimmen einer vorherrschenden Restmenge der Flüssigsubstanz in der zweiten Tankeinheit basierend auf dem bestimmten Massenfluss der aus der zweiten Tankeinheit entnommenen Flüssigsubstanz; und
• – Bereitstellen, gemäß vorbestimmten Kriterien in Bezug auf die vorherrschende Restmenge der Flüssigsubstanz in der zweiten Tankeinheit, der Flüssigsubstanz an die zweite Tankeinheit aus der ersten Tankeinheit.

According to one aspect of the invention, there is provided a method of providing a liquid substance for an engine configuration, wherein the engine configuration includes a first tank unit for receiving the liquid substance and a second tank unit for receiving the liquid substance, a first pump unit for supplying liquid substance from the first tank unit to the second tank unit Tank unit and a second pump unit for providing liquid substance from the second tank unit for consumption within the engine configuration comprises. The method comprises the steps:

• Continuously determining a mass flow of the liquid substance removed from the second tank unit for consumption within the engine configuration;
• Continuously determining a prevailing residual amount of the liquid substance in the second tank unit based on the determined mass flow of the liquid substance taken out of the second tank unit; and
• Providing the liquid substance to the second tank unit from the first tank unit according to predetermined criteria with respect to the prevailing residual amount of the liquid substance in the second tank unit.

Advantageously, a reliable and accurate method for providing a liquid substance is provided. Further, by determining / estimating the prevailing residual amount of liquid substance in the second tank unit, there is no need for a level sensor disposed on the second tank unit. This advantageously ensures cost-effective operation according to the method of the invention.

According to one example, a suitable time interval for providing liquid substance to the second tank unit from the first tank unit may be determined / predicted / estimated based on the determined prevailing residual amount of the liquid substance in the second tank unit. The predetermined criteria may take into account the operation of the engine configuration.

According to one example, the mass flow of liquid substance withdrawn from the second tank unit may be determined / estimated / calculated / modeled based on the operation of the second pump unit.

• – kontinuierliches Bestimmen einer gemäß einer Steuereinheit bereitgestellten verbrauchten Menge der Flüssigsubstanz zum Betreiben der Motorkonfiguration. Dies kann durch Bestimmen einer Menge einer in die Motorkonfiguration eingespritzten Flüssigsubstanz und/oder durch Bestimmen von Emissionsparametern (z. B. NO_x- oder Sauerstoff-Gehalt) eines Abgases aus dem Verbrennungsmotor der Verbrennungsmotorkonfiguration ausgeführt werden. Die stellt vorteilhafterweise ein vielseitiges Verfahren bereit. Dies stellt ferner ein genaues Verfahren zur Bereitstellung der Flüssigsubstanz bereit.

The method may include the step of:

• Continuously determining a consumed amount of the liquid substance provided according to a control unit for operating the engine configuration. This may be by determining a quantity of fuel injected into the engine configuration liquid substance and / or by determining the emission parameters (such as NO _x -. Or oxygen content) of an exhaust gas from the combustion engine, the engine configuration executed. This advantageously provides a versatile method. This also provides an accurate method of providing the liquid substance.

• – kontinuierliches Bestimmen einer verbrauchten Menge der Flüssigsubstanz basierend auf dem Betrieb der zweiten Pumpeneinheit. Dies kann durch Bestimmen eines Massenflusses der Flüssigsubstanz aus der zweiten Tankeinheit für den Verbrauch innerhalb der Motorkonfiguration abzüglich eines bestimmten Massenrückflusses aus dem Verbrennungsmotor der Motorkonfiguration zu der zweiten Tankeinheit durchgeführt werden. Dies ermöglicht, eine verbrauchte Menge der Flüssigsubstanz genau zu bestimmen.

The method may include the step of:

• Continuously determining a consumed amount of the liquid substance based on the operation of the second pump unit. This may be accomplished by determining a mass flow of the liquid substance from the second tank unit for consumption within the engine configuration minus a certain mass backflow from the engine configuration engine to the second tank unit. This makes it possible to accurately determine a consumed amount of the liquid substance.

• – kontinuierliches Bestimmen einer Menge einer rückgeführten Flüssigsubstanz, die nicht in dem Verbrauch enthalten ist, sondern an die zweite Tankeinheit zurückgeführt wird.

The method may include the step of:

• - continuously determining an amount of a recycled liquid substance that is not included in the consumption, but is returned to the second tank unit.

The particular amount of liquid substance consumed may be used to determine the predominant residual amount of liquid substance in the second tank.

• – Füllen, wenn gemäß den vorbestimmten Kriterien Flüssigsubstanz an die zweite Tankeinheit aus der ersten Tankeinheit an die zweite Tankeinheit bereitgestellt wird, der zweiten Tankeinheit auf ein vorbestimmtes Maß. Dies ermöglicht vorteilhafterweise, angemessen und in geeigneter Weise die Flüssigsubstanz der zweiten Tankeinheit sowohl in Bezug auf Bereitstellungsrate, Zeit bezüglich der Bereitstellung als auch der Menge der bereitgestellten Flüssigsubstanz bereitzustellen.

The method may include the step of:

• When the liquid substance is supplied to the second tank unit from the first tank unit to the second tank unit according to the predetermined criteria, filling the second tank unit to a predetermined degree. This advantageously allows to adequately and appropriately provide the liquid substance of the second tank unit in terms of both the delivery rate, time of provision, and the amount of liquid substance provided.

• – kontinuierliches Bereitstellen der Flüssigsubstanz an die zweite Tankeinheit basierend auf der vorherrschenden Restmenge an Flüssigsubstanz in dem zweiten Tank. Hierdurch kann die Bereitstellung kontinuierlich und nicht mit Unterbrechungen ausgeführt werden, was sowohl zu weniger Verschleiß der ersten Pumpeneinheit als auch zu mehr erwünschten Betriebsbedingungen der ersten Pumpeneinheit, z. B. relativ niedrigen U/min, führt.

The method may include the step of:

• Continuously providing the liquid substance to the second tank unit based on the predominant residual amount of liquid substance in the second tank. As a result, the provision can be carried out continuously and not intermittently, resulting in less wear of the first pump unit as well as more desirable operating conditions of the first pump unit, z. B. relatively low RPM leads.

• – kontinuierliches Bereitstellen der Flüssigsubstanz an die zweite Tankeinheit basierend auf dem Verbrauch innerhalb der Motorkonfiguration. Hierdurch kann die Bereitstellung kontinuierlich und nicht mit Unterbrechungen ausgeführt werden, was sowohl zu weniger Verschleiß der ersten Pumpeneinheit als auch zu mehr erwünschten Betriebsbedingungen der ersten Pumpeneinheit, z. B. relativ niedrigen U/min, führt.

The method may include the step of:

• Continuously providing the liquid substance to the second tank unit based on the consumption within the engine configuration. As a result, the provision can be carried out continuously and not intermittently, resulting in less wear of the first pump unit as well as more desirable operating conditions of the first pump unit, z. B. relatively low RPM leads.

The liquid substance may be a fuel substance or a reducing agent for emission control. The method is therefore versatile and applicable to various liquid substance delivery systems, e.g. As a fuel supply system or an SCR system, the two tank units for receiving a reducing agent, the z. As urea contains, applicable.

• – ein Mittel, das zum kontinuierlichen Bestimmen eines Massenflusses der aus der zweiten Tankeinheit entnommenen Flüssigsubstanz für den Verbrauch innerhalb der Motorkonfiguration angeordnet ist;
• – ein Mittel, das zum kontinuierlichen Bestimmen einer vorherrschenden Restmenge der Flüssigsubstanz in der zweiten Tankeinheit basierend auf dem bestimmten Massenfluss der aus der zweiten Tankeinheit entnommenen Flüssigsubstanz angeordnet ist; und
• – ein Mittel, das zum Bereitstellen, gemäß vorbestimmter Kriterien in Bezug auf die vorherrschende Restmenge der Flüssigsubstanz in der zweiten Tankeinheit, von Flüssigsubstanz an die zweite Tankeinheit aus der ersten Tankeinheit angeordnet ist.

According to one aspect of the invention, there is provided a system for providing a liquid substance for an engine configuration, wherein the engine configuration includes a first tank unit for receiving the liquid substance and a second tank unit for receiving the liquid substance, a first pump unit for supplying liquid substance from the first tank unit to the first tank unit second tank unit and a second pump unit for providing liquid substance from the second tank unit for consumption within the Motor configuration includes. The system may include:

• A means arranged to continuously determine a mass flow of the liquid substance taken from the second tank unit for consumption within the engine configuration;
• A means arranged to continuously determine a prevailing residual amount of the liquid substance in the second tank unit based on the determined mass flow of the liquid substance taken out of the second tank unit; and
• A means arranged to provide, in accordance with predetermined criteria with respect to the prevailing residual quantity of the liquid substance in the second tank unit, liquid substance to the second tank unit from the first tank unit.

• – ein Mittel, das zum kontinuierlichen Bestimmen einer gemäß einer Steuereinheit bereitgestellten verbrauchten Menge der Flüssigsubstanz zum Betreiben der Motorkonfiguration angeordnet ist.

The system may include:

• A means arranged to continuously determine a consumed amount of the liquid substance provided according to a control unit for operating the engine configuration.

• – ein Mittel, das zum kontinuierlichen Bestimmen einer verbrauchten Menge der Flüssigsubstanz basierend auf dem Betrieb der zweiten Pumpeneinheit angeordnet ist.

The system may include:

• A means arranged to continuously determine a consumed amount of the liquid substance based on the operation of the second pump unit.

• – ein Mittel, das zum kontinuierlichen Bestimmen einer Menge an rückgeführter Flüssigsubstanz, die nicht in dem Verbrauch enthalten ist, sondern an die zweite Tankeinheit zurückgeführt wird, angeordnet ist.

The system may include:

• A means arranged to continuously determine an amount of recycled liquid substance which is not included in the consumption, but is returned to the second tank unit.

• – ein Mittel, das zum Füllen der zweiten Tankeinheit auf ein vorbestimmtes Maß, wenn, gemäß den vorbestimmten Kriterien, Flüssigsubstanz an die zweite Tankeinheit aus der ersten Tankeinheit an die zweite Tankeinheit bereitgestellt wird, angeordnet ist.

The system may include:

• A means arranged to fill the second tank unit to a predetermined extent when, according to the predetermined criteria, liquid substance is supplied to the second tank unit from the first tank unit to the second tank unit.

• – ein Mittel, das zum kontinuierlichen Bereitstellen von Flüssigsubstanz an die zweite Tankeinheit basierend auf der bestimmten vorherrschenden Restmenge von Flüssigsubstanz in der zweiten Tankeinheit angeordnet ist.

The system may include:

• An agent arranged to continuously supply liquid substance to the second tank unit based on the determined prevailing residual amount of liquid substance in the second tank unit.

• – ein Mittel zum kontinuierlichen Bereitstellen der Flüssigsubstanz an die zweite Tankeinheit basierend auf dem Verbrauch innerhalb der Motorkonfiguration.

The system may include:

• A means for continuously providing the liquid substance to the second tank unit based on consumption within the engine configuration.

In the system, the liquid substance may be a fuel substance or a reducing agent for emission control.

According to one aspect of the invention, there is provided a vehicle comprising a system according to what is presented herein. The vehicle can not be any of a truck, bus or passenger vehicle. In one embodiment, the system is provided for a marine application or industrial application.

According to one aspect of the invention, there is provided a computer program for providing a liquid substance for an engine configuration, the computer program comprising program code for causing an electronic control unit or a computer connected to the electronic control unit to perform any of the method steps described herein when applicable the electronic control unit or the computer is running.

According to one aspect of the invention, there is provided a computer program for providing a liquid substance for an engine configuration, the computer program including program code stored on a computer readable medium for causing an electronic control unit or a computer connected to the electronic control unit to perform one of the method steps described herein performs.

According to one aspect of the invention, there is provided a computer program for providing a liquid substance for an engine configuration, the computer program including program code stored on a computer readable medium for causing an electronic control unit or a computer connected to the electronic control unit to perform one of the method steps described herein when running on the electronic control unit or the computer.

According to one aspect of the invention, there is provided a computer program product including program code stored on a computer-readable medium for performing method steps described herein when the computer program is run on a computer program electronic control unit or a computer connected to the electronic control unit.

According to one aspect of the invention, there is provided a computer program product comprising program code non-volatile stored on a computer-readable medium for performing any of the method steps described herein when the computer program is executed on an electronic control unit or a computer connected to the electronic control unit.

Other objects, advantages and novel features of the present invention will become apparent to those skilled in the art from the following details and also by practicing the invention. Although the invention will be described below, it should be noted that it is not limited to the specific details described. One skilled in the art having access to the teachings herein will recognize further applications, modifications, and adaptations to other areas within the scope of the invention.

BRIEF DESCRIPTION OF THE DRAWINGS

For a more complete understanding of the present invention and its further objects and advantages, the detailed description set forth below should be read in conjunction with the accompanying drawings, in which like reference numerals designate similar details in the various diagrams, and in which:

1 schematically illustrates a vehicle according to an embodiment of the invention;

2 schematically illustrates a system according to an embodiment of the invention;

3a Figure 3 is a schematic flow diagram according to an embodiment of the invention;

3b a more detailed schematic flow diagram according to an embodiment of the invention; and

4 schematically illustrates a computer according to an embodiment of the invention.

DETAILED DESCRIPTION

1 shows a side view of a vehicle 100 , The exemplary vehicle 100 includes a train unit 110 and a trailer 112 , The vehicle 100 can a heavy vehicle, z. B. be a truck or a bus. It may alternatively be a passenger car.

It should be noted that the system according to the invention is applicable to various vehicles, such. As a mining machine, a tractor, dump truck, wheel loader, a stage with an industrial robot, a forest machine, a Bodenaushubmaschine, a road vehicle, a Straßenplanierfahrzeug, rescue vehicle or a tracked vehicle.

It should be noted that the invention is applicable to an application in various systems having a similar construction as described herein, such as e.g. Example, a first and second tank for receiving a liquid, a first pumping unit for providing the liquid from the first tank to the second tank, and a second pumping unit for providing the liquid from the second tank to a motor configuration include. It should be noted that the invention is suitable for use in any internal combustion engine and is therefore not limited to internal combustion engines for motor vehicles. The inventive method and the system according to the invention in one aspect of the invention are well suited for other platforms, the internal combustion engine except for motor vehicles, for. B. watercraft include. The watercraft can be of any kind, z. As motor boats, steamer, ferries or ships.

The method and system of the invention in one aspect of the invention are also well-suited for, for example, systems comprising industrial combustion engines and / or industrial engine driven combustion engines.

The inventive method and system according to one aspect of the invention are also well suited for different types of power plants, eg. For example, an electric power plant comprising an internal combustion engine driven generator.

The inventive method and the inventive system are also well suited for various engine systems.

The term "connection" herein refers to a communication connection that includes a physical connection, such as an opto-electronic communication line, or a non-physical connection, such as a wireless connection, e.g. B. may be a radio link or microwave connection.

2 schematically illustrates a fuel supply system for an internal combustion engine configuration 299 In this embodiment, the engine configuration includes 299 an internal combustion engine 290 to which fuel is supplied. It should be noted that although this describes a fuel supply system for an engine configuration, a similar design for e.g. B. an SCR system can be provided. According to this embodiment, a liquid reducing agent can be applied to the Engine configuration 299 wherein the configuration comprises an exhaust pipe assembly to which the reductant for emission control is provided by means of an SCR unit.

A first tank unit 220 is arranged to a liquid fuel substance, for. As diesel, gasoline or an ethanol-based fuel. The first tank unit 220 can a volume of z. B. represent 1000 liters. The first tank unit 220 can be referred to as main tank or primary tank. A level sensor 235 is in the first tank unit 220 arranged. The level sensor 235 is arranged to continuously a prevailing level L1 of the liquid fuel substance in the first tank unit 220 to eat. The level sensor 235 can be used for communication with a first control unit 200 via any suitable means, e.g. B. a compound (not shown) may be arranged. The level sensor 235 is arranged to continuously or intermittently transmit signals indicative of the measured prevailing level L1 of the first control unit 200 include. This shows that the first tank unit 220 receives a volume of the fuel substance representing the prevailing level L1.

A first passage P231, such as a tube assembly, is arranged to receive the liquid fuel substance from the first tank unit 220 to a first pump unit 230 to promote. The first pump unit 230 may be any suitable pump unit, such as a mechanical or electrical pump unit. The first control unit 200 may be arranged to the operation of the first pump unit 230 via any suitable means, e.g. To control a connection (not shown). The first pump unit 230 is arranged to remove the fuel substance from the first tank unit 220 suck, the fuel substance to pressurize and the fuel substance of a first filter unit 240 provide. This is the filter unit 240 arranged to filter the fuel substance. The fuel substance thereby becomes a second tank unit via a second pipe P241 250 promoted. The second tank unit 250 can be arranged to z. B. 25 or 50 liters. The second fuel tank unit 250 can be called a sub tank or secondary tank.

According to one embodiment, a first mass flow sensor unit 235 provided to continuously or intermittently measure a prevailing first mass flow value m1 of the liquid fuel substance. The first mass flow sensor unit 235 is arranged to the first mass flow value m1 after the first pump unit 230 and before the first filter unit 240 to eat. The first mass flow sensor unit 235 is for communication with the first control unit 200 arranged over a connection L235. The first mass flow sensor unit 235 is arranged to continuously or intermittently signal S235, which includes information about the detected prevailing first mass flow value m1, via the link L235 to the first control unit 200 to send. According to one example, the first filter unit 240 omitted.

A second passage P271, such as a tube assembly, is arranged to receive the liquid fuel substance from the second tank unit 250 to a second pump unit 270 to promote. The second pump unit 270 may be any suitable pump unit, such as a mechanical or electrical pump. The first control unit 200 may be arranged to stop the operation of the second pump unit 270 via any suitable means, such as controlling a connection (not shown). The second pump unit 270 is arranged to the fuel substance from the second tank unit 250 sucking, pressurizing the fuel substance and the fuel substance on a second filter unit 280 provide. This shows that the second tank unit 250 absorbs a volume of fuel substance that is a level 12 represents. The second pump unit 270 can in the second fuel tank unit 250 be arranged. Alternatively, the second fuel tank unit 270 outside the second fuel tank unit 250 arranged. According to one embodiment, the second filter unit 280 be omitted. According to one embodiment, a second mass flow sensor unit 285 for continuously or intermittently measuring a prevailing second mass flow value m2 of the liquid fuel substance. The second mass flow sensor unit 285 is arranged to the second mass flow value m2 after the second filter unit 280 and in front of an internal combustion engine 290 to eat. The second mass flow sensor unit 285 is for communication with the first control unit 200 arranged via a connection L285. The second mass flow sensor unit 285 is arranged, continuously or intermittently, signals S285, which comprise information about the detected prevailing mass flow value m2, to the first control unit 200 via the connection L285.

The first control unit 200 is arranged according to an example, the operation of the first pump unit 230 and the second pump unit 270 to control by any suitable means. The first control unit 200 is arranged to continuously or intermittently at least one prevailing operating condition parameter of the first pump unit 230 to determine. The first control unit 200 is arranged to continuously or intermittently at least one prevailing operating condition parameter of the second pump unit 230 to determine. The prevailing operating condition parameters may include information about e.g. B. include a speed of the pump units.

The first control unit 200 may be arranged to determine / estimate / calculate / model the first mass flow value m1. The first control unit 200 may be arranged to determine the first mass flow value m1 based on the determined at least one operating condition parameter of the first pump unit 230 to determine / estimate / calculate / model. The first control unit 200 may be arranged to the first mass flow value m1 based on the operation of the first pump unit 230 to determine / estimate / calculate / model.

The first control unit 200 may be arranged to determine / estimate / calculate / model the second mass flow value m2. The first control unit 200 may be arranged to determine the second mass flow value m2 based on the determined at least one operating condition parameter of the second pump unit 270 to determine / estimate / calculate / model. The first control unit 200 is arranged to determine the second mass flow value m2 based on the operation of the second pump unit 270 to determine / estimate / calculate / model.

A first return passage P291 is arranged to provide a first leakage flow m1 leak of the provided liquid fuel substance from the internal combustion engine 290 to the second tank unit 250 provide. This is due to the fact that a portion of the fuel provided for purposes other than the combustion of the internal combustion engine 290 is used. The first flow ml leak can be determined by means of a mass flow sensor (not shown). Alternatively, the first flow m1 may leak through the first control unit 200 be determined by modeling / calculating / estimating the first flow m1 leak. The first flow m1 leak may be a predetermined leakage flow. The first leakage flow may have been determined empirically.

A second return passage P251 is arranged, if applicable, a second leakage flow m2 leak of the liquid fuel substance from the second tank unit 250 to the first tank unit 220 provide. The second return passage P251 is arranged to allow the second leakage flow m2 leak in a state in which the second tank unit 250 is substantially or completely filled and therefore provides a reliable safety function with respect to undesired overfilling of the second tank unit.

The first control unit 200 is arranged to the mass flow m2 of the second tank unit 250 for consumption within the engine configuration 299 continuously determined liquid substance to be determined. In one example, this may be done by means of the second mass flow sensor 285 be executed. In one example, this may be done by means of the second mass flow sensor 285 and, by determining the first flow m1 leak, to determine an actual consumed amount of the liquid substance. In one example, this may be accomplished by determining an amount of internal combustion engine internal combustion engine configuration 299 injected fuel to be executed. In one example, this may be accomplished by determining an amount of the internal combustion engine engine's emissions passage into the engine configuration 299 injected reducing agent are executed. In one example, this may be based on a specific amount of engine configuration of the engine 299 supplied air and a certain oxygen level value of the emissions from the engine of the engine configuration 299 be executed.

The first control unit 200 is arranged to have a predominant residual amount of the liquid substance in the second tank unit 250 to be determined continuously. The predominant residual amount of the liquid substance is suitably based on the determined mass flow m2 of the second tank unit 250 withdrawn liquid substance for consumption within the engine configuration 299 certainly. This advantageously becomes without the need for a fuel / reducing agent level sensor unit of the second tank unit 250 executed.

The first control unit 200 may be arranged according to predetermined criteria, the one Liquid substance quantity in the second tank unit 250 comprising providing the liquid substance to the second tank unit 250 from the first tank unit 220 to control. The first control unit 200 is suitably arranged according to predetermined criteria with respect to the prevailing residual amount of liquid substance in the second tank unit 250 , providing the liquid substance to the second tank unit 250 from the first tank unit 220 to control. The predetermined criteria may include a certain fuel volume / fuel level of the liquid substance amount in the second tank unit 250 affect. The predetermined criteria may include a certain predetermined fuel volume / fuel level of the liquid substance amount in the second tank unit 250 affect. The predetermined criteria may include a certain desired minimum fuel volume / level of the liquid substance amount in the second tank unit 250 affect. Thus, the first control unit 200 be arranged to liquid substance to the second tank unit 250 when the particular prevailing residual amount of liquid substance in the second tank unit 250 does not meet the predetermined criteria. The first control unit 200 may be arranged to liquid substance to the second tank unit 250 when the determined predominant residual amount of liquid substance in the second tank unit 250 is below a predetermined level according to the predetermined criteria.

A second control unit 210 is for communication with the first control unit 200 arranged over a connection L210. It can be detachable with the first control unit 200 be connected. It can be a control unit outside the vehicle 100 act. It may be adapted to carry out the inventive steps of the invention. It can be used to software, in particular software for applying the method according to the invention, to the first control unit 200 to load. It may alternatively be used for communication with the first control unit 200 be arranged via a vehicle-side internal network. It may be configured to perform functions similar to those of the first control unit 200 correspond, as in accordance with predetermined criteria, a liquid substance quantity in the second tank unit 250 comprise providing liquid substance to the second tank unit 250 from the first tank unit 220 ,

• – kontinuierliches Bestimmen eines Massenflusses m2 der aus der zweiten Tankeinheit 250 entnommenen Flüssigsubstanz zum Verbrauch innerhalb der Motorkonfiguration 299;
• – kontinuierliches Bestimmen einer vorherrschenden Restmenge der Flüssigsubstanz in der zweiten Tankeinheit 250 basierend auf dem bestimmten Massenfluss m2; und
• – Bereitstellen, gemäß vorbestimmten Kriterien in Bezug auf die vorherrschende Restmenge der Flüssigsubstanz in der zweiten Tankeinheit 250, von Flüssigsubstanz an die zweite Tankeinheit 250 aus der ersten Tankeinheit 220.

3a FIG. 12 schematically illustrates a flowchart of a method of providing a liquid substance for an engine configuration 299 where the engine configuration 299 a first tank unit 220 for receiving the liquid substance and a second tank unit 250 for receiving the liquid substance, a first pump unit 230 for providing liquid substance from the first tank unit 220 to the second tank unit 250 , and a second pump unit 270 for providing liquid substance from the second tank unit 250 for consumption within the engine configuration 299 includes. The method comprises a first method step s301. The method step s301 comprises the steps:

• - Continuously determining a mass flow m2 of the second tank unit 250 withdrawn liquid substance for consumption within the engine configuration 299 ;
• Continuously determining a predominant residual amount of the liquid substance in the second tank unit 250 based on the determined mass flow m2; and
• Providing according to predetermined criteria with respect to the predominant residual amount of the liquid substance in the second tank unit 250 , from liquid substance to the second tank unit 250 from the first tank unit 220 ,

After method step s301, the method ends / the method is returned.

3b FIG. 12 schematically illustrates a flowchart of a method of providing a liquid substance for an engine configuration 299 where the engine configuration 299 a first tank unit 220 for receiving the liquid substance and a second tank unit 250 for receiving the liquid substance, a first pump unit 230 for providing liquid substance from the first tank unit 220 to the second tank unit 250 , a second pump unit 270 for providing liquid substance from the second tank unit 250 for consumption within the engine configuration 299 , The method comprises a first method step s310.

The method step s310 comprises the step of supplying fuel substance to the second tank unit 250 from the first tank unit 220 by means of the first pump unit 230 , As a result, the operation of the first pump unit 230 through the first control unit 200 controlled. The provision of the fuel substance to the second tank unit 250 can in several different ways by means of the first pump unit 230 and the first control unit 200 to be controlled.

According to a first example, the first pump unit 230 controlled for a predetermined period of time, for. 2 minutes to work with a certain pumping rate / rpm. By pumping the fuel substance to the second fuel tank 250 Consequently, it is ensured that the second fuel tank 250 essentially filled or completely filled.

According to a second example, the second pump unit 230 controlled to operate, ie the fuel substance to the second tank unit 250 until it is determined that the second tank unit 250 completely filled. One way of determining that the second tank unit 250 essentially filled or completely filled, may be performed by means of a mass flow sensor provided at the second return passage P251. Whenever the second leak flow m2 leak is detected, it may be determined that the second fuel tank 250 is essentially completely or completely full. Another way of determining that the second tank unit 250 is substantially filled or completely filled, can by means of the level sensor 235 be executed. When the first pump unit 230 works and thus the fuel substance to the second tank unit 250 can be provided and a fuel level L1 is substantially constant, this can be understood as an indication that the second fuel tank 250 is substantially filled or completely filled (m2 leak corresponds to the first mass flow value m1).

According to a third example, the first pumping unit 230 controlled to operate, ie the fuel substance to the second tank unit 250 until it is determined that the second tank unit 250 is substantially or completely filled. This will be the first pump unit 230 controlled to a certain predetermined volume of the fuel substance to the second tank unit 250 provide. As a result, the first mass flow sensor detects 235 continuously, a fuel substance mass flow value m1, and when it is determined that the predetermined volume has been supplied, it is determined that the second tank unit 250 essentially filled or completely filled. According to a fourth example, the first pump unit 230 controlled to operate, ie the fuel substance to the second tank unit 250 until it is determined that the second tank unit 250 to a certain predetermined level 12 is filled. The predetermined level 12 may be any suitable level, the z. B. 25%, 50%, 75% or 100% of the total volume of the second tank unit 250 equivalent.

After the step s310, a subsequent step s320 is executed.

The method step s320 comprises the step of continuously determining a mass flow m2 of the second tank unit 250 withdrawn liquid substance for consumption within the engine configuration 299 , This can be done by means of the first control unit 200 be executed. As a result, the amount of fuel that is determined by the engine configuration can be determined continuously 299 is consumed. Alternatively, if the liquid substance comprises an emission control reductant and the engine configuration relates to an emissions pipe system, the amount of reductant provided to the emissions pipe system may be continuously determined.

The method step s320 may include the step of continuously determining a consumed amount Vc according to the control unit 200 liquid substance provided for operating the engine configuration. This can be done by continuously determining the mass flow m2 by means of the second mass flow sensor unit 285 or by continuously determining a consumed amount Vc of the liquid substance based on the operation of the second pump unit 270 be executed. By continuously determining an amount of returning liquid substance not included in the consumption but to the second tank unit 250 is returned, the consumed amount Vc of the liquid substance can be determined accordingly. The method step s320 may further include the step of determining a prevailing residual amount of liquid substance in the second tank unit 250 based on the determined mass flow m2.

After method step s320, a subsequent method step s330 is carried out.

The method step s330 includes the step of determining whether the determined consumed amount Vc of liquid substance is greater than a predetermined threshold TH. This is similar to determining whether the particular prevailing volume is that in the second tank unit 250 stored liquid substance is below a certain predetermined volume / level. The predetermined volume / the predetermined level can, for. B. 25% of the total volume of the second tank unit 250 be. The predetermined threshold TH is set accordingly.

When the determined consumed amount Vc of the liquid substance is greater than a predetermined threshold TH (namely, YES), that is, the determined prevailing volume of the liquid substance in the second tank unit 250 is below the predetermined volume / level, a subsequent step s340 is performed.

When the determined consumed amount Vc of the liquid substance is not larger than a predetermined threshold TH (namely, NO), that is, the determined prevailing volume of the liquid substance in the second tank unit 250 is greater than the predetermined volume / the predetermined level is / over, the method step s320 is executed.

The method step s340 may include the step of supplying fuel substance to the second tank unit 250 from the first tank unit 220 by means of the first pump unit 230 include. As a result, the operation of the first pump unit 230 through the first control unit 200 controlled. The provision of the liquid substance to the second tank unit 250 can in several different ways by means of the first pump unit 230 and the first control unit 200 to be controlled. The second tank unit 250 can be supplied according to one of the alternatives described with reference to method step s310, e.g. B. by the second tank unit 250 is filled substantially completely or up to a predetermined volume / level.

According to one example, method step s340 includes the step of filling, if according to the predetermined criteria, liquid substance to the second tank unit 250 from the first tank unit 220 to the second tank unit 250 is provided, the second tank unit 250 to a predetermined extent.

4 is a diagram of a version of a device 500 , The referring to 2 described control units 200 and 210 can in one version the device 500 include. The device 500 includes a nonvolatile memory 520 , a data processing unit 510 and a read-write memory 550 , The non-volatile memory 520 has a first memory element 530 in which a computer program, for. An operating system, for controlling the operation of the device 500 is stored. The device 500 further comprises a bus controller, a serial communication interface, an I / O means, an A / D converter, a time and date input and transmission unit, an event counter and an interrupt controller (not shown). The non-volatile memory 520 also has a second memory element 540 on.

The computer program P includes routines for controlling the provision of a liquid substance for an internal combustion engine configuration 299 , where the engine configuration 299 a first tank unit 220 for receiving the liquid substance and a second tank unit 250 for receiving the liquid substance, a first pump unit 230 for providing liquid substance from the first tank unit 220 to the second tank unit 250 and a second pump unit 270 for providing liquid substance from the second tank unit 250 for consumption within the engine configuration 299 includes.

The computer program P may include routines for continuously determining a mass flow m2 of the second tank unit 250 withdrawn liquid substance for consumption within the engine configuration 299 include.

The computer program P may have routines for continuously determining a prevailing residual amount of the liquid substance in the second tank unit 250 based on the determined mass flow m2.

The computer program P may have routines for controlling the delivery of liquid substance to the second tank unit 250 from the first tank unit 220 according to predetermined criteria with respect to the prevailing residual amount in the second tank unit 250 include.

The computer program P may have routines for continuously determining a consumed amount of the according to a control unit 200 for operating the motor configuration 299 liquid substance provided.

The computer program P may have routines for continuously determining a consumed amount of the liquid substance based on the operation of the second pump unit 270 include. The computer program P may have routines for continuously determining an amount of a recycled liquid substance not included in the consumption but to the second tank unit 250 is attributed to.

The computer program P may have routines for controlling, if, according to the predetermined criteria, liquid substance to the second tank unit 250 from the first tank unit 220 to the second tank unit 250 is provided, the filling of the tank unit 250 to a predetermined extent.

The computer program P may have routines for controlling a continuous supply of the liquid substance to the second tank unit 250 based on the consumption within the engine configuration 299 include.

The program P may be in executable form or in compressed form in a memory 560 and / or in a random access memory 550 be saved.

Where it is stated that the data processing unit 510 performs a certain function, it means that they have a certain part of the program in the memory 560 is stored, or some portion of the program, in the random access memory 550 is stored, executes.

The data processing device 510 can with a data connection 599 via a data bus 515 communicate. The non-volatile memory 520 is for communication with the data processing unit 510 via a data bus 512 intended. The separate memory 560 is for communicating with the computing device via a data bus 511 intended. The read-write memory 550 is arranged with the data processing unit 510 via a data bus 514 to communicate. For example, connections L210, L235, and L285 may be to the data port 599 be connected (see 2 ).

When data is at the data port 599 are received, they become in the second memory element 540 cached. When received input data has been buffered, the data processing unit becomes 510 be ready to perform a code execution as described above.

Portions of the methods described herein may be accomplished by the device 500 by means of the data processing unit 510 be performed in the memory 560 or the read-write memory 550 stored program executes. When the device 500 executes the program, the methods described herein are performed.

The foregoing description of the preferred embodiments of the present invention is provided for illustrative and descriptive ticks. It is neither intended to be exhaustive nor to limit the invention to the variants described. Numerous modifications and variations obviously appear to the skilled person. The embodiments have been chosen and described in order to best explain the principles of the invention and their practical applications, and thereby to enable one skilled in the art to understand the invention for different embodiments and with the various modifications appropriate to the purpose of use.

The above-mentioned components and features can be combined within the scope of the invention between different specified embodiments.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• WO 2013/093544 [0003]

Claims (18)

Method for providing a liquid substance for an internal combustion engine configuration ( 299 ), the engine configuration ( 299 ) a first tank unit ( 220 ) for receiving the liquid substance and a second tank unit ( 250 ) for receiving the liquid substance, a first pump unit ( 230 ) for providing liquid substance from the first tank unit ( 220 ) to the second tank unit ( 250 ) and a second pump unit ( 270 ) for providing liquid substance from the second tank unit ( 250 ) for consumption within the engine configuration ( 299 ), comprising the steps of: - continuously determining a mass flow (m2) from the second tank unit ( 250 ) withdrawn liquid substance for consumption within the engine configuration ( 299 ); Continuously determining a predominant residual quantity of the liquid substance in the second tank unit ( 250 ) based on the determined mass flow (m2) of the second tank unit ( 250 ) withdrawn liquid substance; and providing, according to predetermined criteria, the prevailing residual quantity of the liquid substance in the second tank unit ( 250 ), the liquid substance to the second tank unit ( 250 ) from the first tank unit ( 220 ). The method of claim 1, comprising the step of: - continuously determining one according to a control unit ( 200 ; 210 ; 500 ) provided amount of the liquid substance for operating the engine configuration ( 299 ). The method of claim 1 or 2, comprising the step of: continuously determining a consumed amount of the liquid substance based on the operation of the second pump unit ( 270 ). Method according to one of claims 1-3, comprising the step: - continuously determining an amount of a recycled liquid substance, which is not included in the consumption, but to the second tank unit ( 250 ) is returned. Method according to one of claims 1-4, comprising the step of: filling, if according to the predetermined criteria liquid substance to the second tank unit ( 250 ) from the first tank unit ( 220 ) to the second tank unit ( 250 ), the second tank unit ( 250 ) to a predetermined degree. Method according to one of claims 1-4, comprising the step of: - continuously supplying the liquid substance to the second tank unit ( 250 ) based on the determined predominant residual amount of liquid substance in the second tank unit ( 250 ). Method according to one of claims 1-6, wherein the liquid substance is a fuel substance or a reducing agent for emission control. System for providing a liquid substance for an internal combustion engine configuration ( 299 ), the engine configuration ( 299 ) a first tank unit ( 220 ) for receiving the liquid substance and a second tank unit ( 250 ) for receiving the liquid substance, a first pump unit ( 230 ) for providing liquid substance from the first tank unit ( 220 ) to the second tank unit ( 250 ) and a second pump unit ( 270 ) for providing liquid substance from the second tank unit ( 250 ) for consumption within the engine configuration ( 299 ), the system comprising: a means ( 200 ; 210 ; 500 ; 285 ) for continuously determining a mass flow (m2) from the second tank unit ( 250 ) withdrawn liquid substance for consumption within the engine configuration ( 299 ) is arranged; - a means ( 200 ; 210 ; 500 ) for continuously determining a prevailing residual amount of the liquid substance in the second tank unit ( 250 ) based on the determined mass flow (m2) of the second tank unit ( 250 ) is disposed liquid substance removed; and - a means ( 200 ; 210 ; 500 ; 230 ) provided according to predetermined criteria with respect to the prevailing residual amount of the liquid substance in the second tank unit ( 250 ), of liquid substance to the second tank unit ( 250 ) from the first tank unit ( 220 ) is arranged. A system according to claim 8, comprising: - an agent ( 200 ; 210 ; 500 ), which is used to continuously determine one according to a control unit ( 200 ; 210 ; 500 ) provided amount of the liquid substance for operating the engine configuration ( 299 ) is arranged. A system according to claim 8 or 9, comprising: - means ( 200 ; 210 ; 500 ) for continuously determining a consumed amount of the liquid substance based on the operation of the second pump unit (10). 270 ) is arranged. A system according to any of claims 8-10, comprising: - an agent ( 200 ; 210 ; 500 ) for continuously determining an amount of recycled liquid substance that is not included in the consumption but to the second tank unit ( 250 ) is arranged, is arranged. A system according to any of claims 8-11, comprising: - means ( 200 ; 210 ; 500 ; 230 ), which is used to fill the second tank unit ( 250 ) to a predetermined level if, according to the predetermined criteria, liquid substance is added to the second tank unit ( 250 ) from the first tank unit ( 220 ) to the second tank unit ( 250 ) is arranged. A system according to any of claims 8-11, comprising: - means ( 200 ; 210 ; 500 ; 230 ) for continuously supplying liquid substance to the second tank unit ( 250 ) based on the determined predominant residual amount of liquid substance in the second tank unit ( 250 ) is arranged. A system according to any one of claims 8-13, wherein the liquid substance is a fuel substance or a reducing agent for emission control. Vehicle ( 100 ; 110 ) comprising a system according to any one of claims 8-14. Vehicle ( 100 ; 110 ) according to claim 15, wherein the vehicle is one of a truck, bus or passenger car. Computer program (P), the computer program (P) comprising a program code for causing an electronic control unit ( 200 ; 500 ) or with the electronic control unit ( 200 ; 500 ) connected computer ( 210 ; 500 ) performs the steps of any one of claims 1-7. A computer program product containing program code non-volatile stored on a computer-readable medium for carrying out method steps according to any one of claims 1-7, when the computer program is stored on an electronic control unit ( 200 ; 500 ) or one with the electronic control unit ( 200 ; 500 connected computer ( 210 ; 500 ) is performed.

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