DE102015218641A1 - Method for direct or indirect communication between a motor vehicle and at least one external power supply unit for the motor vehicle in connection with a power supply operation - Google Patents

Abstract

The invention relates to a method for direct or indirect communication between a motor vehicle and at least one vehicle-external power supply unit for the motor vehicle in connection with a power supply operation.
The invention proposes that an energy reserve (V (t)) in the energy store is determined before at least one energy store of the motor vehicle, from which a value for a maximum amount of energy consumed by the energy store (Vauf) is derived and this value of the vehicle-external energy supply unit is provided, wherein a discharge amount (Vab) of energy at most of the maximum recordable amount of energy (Vauf) corresponds.
In this way, a refueling process can be automated and thus an increase in comfort can be achieved.

Description

A method having the features of the preamble of claim 1 is known from DE 10 2006 044 780 A1 known. Specifically, there is described a method and apparatus for monitoring the filling of fuel into a tank of a motor vehicle. The tank of the motor vehicle is provided with an identification unit with which a fuel approved for the motor vehicle can be identified. A fuel pump is associated with a detection unit, whereby the identification unit of the motor vehicle and thus an approved fuel can be read out. In the dispenser, a data processing unit is integrated. The data processing unit is used to compare the dispensable fuel types with the fuel of the motor vehicle. If one of the fuel types available in the pump is allowed, a refueling operation is permitted. Should the dispensable liquid not be approved for the motor vehicle, so for example, an audible or visual signal is emitted and refueling prevented. This can be done, for example, by switching off a tap or a fuel pump.

In the EP 1 184 241 A1 discloses a method for automatic control of refueling operations of fleet fleet vehicles. The payment of a withdrawn amount of fuel is cashless using a credit card associated with the vehicle while determining the location of use of the credit card. In order to be able to rule out that other vehicles than those of the vehicle fleet refuel and are used to pay for the fleet vehicles assigned credit cards, the geographical position of the vehicle is determined at the fueling time point. This position is transmitted by remote data transmission to a central computer for performing reconciliation of the geographic location of the refueled vehicle with the location of use of the credit card. For this purpose, a data exchange between the vehicle and a central computer on the one hand and between the gas station unit / credit card unit and the central computer on the other hand. The data exchange is accomplished over common networks, for example ISDN, Datex-P, satellite, Internet or the like.

Finally, in the DE 10 2014 203 055 A1 describes an apparatus for determining the amount of fuel pumped from a fuel pump into a fuel tank. A flow sensor measures the amount of fuel pumped into the fuel tank and stores this data in a data memory. Data are also stored on the dispenser-side display of the delivered fuel quantity. Thus it can be concluded that a display accuracy of a gas pump or a gas station. Via a communication device, the stored data can be retrieved from a server and stored. The data stored on the server is available to other users for retrieval via mobile devices.

When using prepaid filling stations, which are often found nowadays, an operator can carry out refueling by specifying the desired total price. For this purpose, however, the knowledge of the fuel price and the refueling amount of the motor vehicle is necessary. This makes a refueling process uncomfortable.

Refueling is also possible via an activation by debit card / credit card, with a subsequent refueling to stop by an automatic shutdown or by the operator is conceivable. In some countries, the activation can also be done by depositing cash at the cashier.

The object of the present invention is to be able to automate a power supply process.

The aforementioned object is achieved with the features of claim 1. Advantageous developments or embodiments of the invention can be found in the respective subclaims.

The invention is based on a method for direct or indirect communication between a motor vehicle and at least one vehicle-external power supply unit for the motor vehicle in connection with a power supply operation.

According to the invention, an energy reserve in the energy store is determined before at least one energy store of the motor vehicle, from which a value for a maximum amount of energy that can be absorbed by the energy store is derived and this value of the vehicle-external energy supply unit is made available. In this case, an actual output quantity of energy from the energy supply unit corresponds at most to the maximum amount of energy that can be absorbed by the motor vehicle.

In a direct communication two communication partners communicate directly with each other, while in indirect communication at least one other communication partner is interposed.

Since today the motor vehicles are equipped with internal combustion engines and / or increasingly with electric drives, the term energy supply unit can be understood as meaning both a conventional dispenser and a charging station for charging electrical energy. Of course, the list is not exhaustive and energy supply units for other energy sources (for example, gas, hydrogen) are conceivable.

As an energy supply process, such a process is to be designated, in which the motor vehicle is supplied with new energy or the motor vehicle new energy is supplied.

In a vehicle with an internal combustion engine, the energy store is generally designed as a tank. In electric vehicles or hybrid vehicles are as energy storage usually special high-voltage traction batteries available.

The method according to the invention enables automation of the energy supply process, in particular when using prepaid energy supply units. This is accompanied by a significant increase in comfort for a driver. This does not have to deduce the amount of energy to be absorbed (for example, by reading a fuel gauge) in order to be able to initiate a "suitable" energy supply process.

Preferably, the communication between said components is wireless with known methods, such as. WLAN (Wireless Local Area Network), Internet, WPAN (Wireless Personal Area Network or Bluetooth), NFC (Near Field Communication) or RFID (Radio Frequency Identification).

Since there is now wireless communication in all areas, this can be used to advantage. On top of that occurs in contact or wireless communication no wear or even flying sparks, which holds a certain danger especially at gas stations.

A further development of the method proposes that, before energy is released, the maximum amount of energy that can be absorbed by the energy store is compared with a certain amount of money to be determined or determined. This can be done in such a way that information about the amount of money is made available to the energy supply unit and an affordable delivery amount is derived from this amount of money. In this case, the energy supply unit is controlled in such a way that the actual discharge quantity is smaller than the maximum amount of energy that can be absorbed if the affordable discharge quantity is smaller than the maximum amount of energy that can be absorbed.

This also contributes to a comfort increase, since a customer does not have to worry about the supply of energy for his motor vehicle, whether his money is sufficient for a power supply operation or not.

Another embodiment of the inventive concept also proposes that the maximum amount of energy that can be absorbed by the energy store be matched with an energy reserve of the energy supply unit before an energy delivery. In this case, the energy supply unit is controlled in such a way that the actual discharge quantity corresponds to the energy supply of the energy supply unit when the energy supply of the energy supply unit is smaller than the maximum amount of energy that can be absorbed.

Also, this embodiment of the invention can contribute to an increase in comfort in an automatic power supply operation. The customer thus receives at least the maximum amount of energy available. If the amount of energy that can be delivered by the energy supply unit should fall below a certain or determinable value, an optical and / or acoustic and / or haptic (for example, vibrating) warning message may be issued. In this context, it is additionally conceivable to display the amount of energy that can actually be delivered or delivered from the energy supply unit. Optionally, if necessary, an additional indication can also be issued that e.g. not fully refueled or that less was supplied as possible.

According to a highly expedient development of the invention it is proposed that before or at the beginning of an energy delivery to the at least one energy storage of the motor vehicle from the power supply unit to at least one component of the motor vehicle, a signal for confirmation of the successful energy release is transmitted.

By such a signal, the detection of a power supply operation can be accomplished in a simple manner. The signal can preferably be provided as a simple status signal (status bit: yes / no). This reduces the required control effort.

Moreover, the transmission of such a signal first creates the prerequisites for a better detection of an energy supply process in its quantity and its corresponding display.

For example, as a further embodiment of the invention namely conceivable that after transmission of the signal on the vehicle side, a display of the absorbed amount of energy is adjusted such that a present without the presence of the signal tolerance range (so-called Nachtankschwelle) within which fluctuations in the energy supply in the energy storage are not displayed eliminated or at least downsized.

If the motor vehicle is equipped, for example, with an internal combustion engine, the display of the amount of energy absorbed, that is to say of the refueled fuel, is usually effected via a so-called tank needle.

However, in order not to unnecessarily indicate fluctuations in the measured fill level from the tank caused only by short-term inclinations of the motor vehicle, the above-mentioned tolerance range is provided. Short-term inclinations of the motor vehicle at a standstill can be caused, for example, by loading and unloading processes, getting in / out of persons, tilting of the motor vehicle, etc. The tolerance range is preferably set to a few liters.

The larger this tolerance range is, the more must be refueled during a refueling process before a refueling process is recognized by the onboard system of the motor vehicle and also displayed accordingly.

On the one hand, the desired "immobilization" of a fuel gauge on the other hand can therefore cause a display error on the other side.

By said training of the invention, this error is eliminated or minimized.

However, the invention also relates to a device for carrying out the method according to the invention.

Such a device comprises a motor vehicle and a vehicle-external power supply unit, wherein both the motor vehicle and the power supply unit are each equipped with at least one communication device via which a direct or indirect data exchange between the motor vehicle and the power supply unit is possible. Further, a discharge amount of energy by the power supply unit to the motor vehicle in dependence of the exchanged data is controllable.

With a device prepared in this way, the method according to the invention can be carried out well and a comfortable energy supply process can be made possible

The device can be further developed in that the motor vehicle has at least one display device for displaying an energy supply in an energy store. The display device can be controlled in such a way that variations in the energy supply within the energy store that lie within a tolerance range are not displayed. The size of the tolerance range is further variable depending on the exchanged data, the tolerance range is particularly removable or at least reduced in size.

As a result, display errors caused by the tolerance range can be counteracted.

Preferred embodiments of the invention are illustrated in the drawings and will be explained in more detail in the following description. Here, the same reference numerals refer to the same, comparable or functionally identical components, with corresponding or comparable properties and advantages are achieved, even if a repeated description is omitted.

It show, each schematically

1 a diagram of an apparatus for carrying out the method according to the invention,

2 the detailed representation of a controllable on the basis of a status signal display device of the device according to the invention,

3 a course of the energy reserve in the energy store over the time t,

4 a detailed view according to view IV 3 to explain the effect of the tolerance range,

5 a course of the tolerance range as a function of a status signal over time and

6 a flowchart for explaining the method according to the invention.

Out 1 a gas station TS is dimly visible. The filling station TS has a plurality of energy supply units E in the form of dispensers. The power supply units E are with an energy storage 9 in which different fuels are stored, fluidly connected.

The fuels can over taps 4 , which with dispensing hoses 3 are connected to a motor vehicle K are supplied.

Each power supply unit E is connected to a communication device 2 equipped via the preferably by means of a wireless communication system KS communication with a communication device 5 a motor vehicle K to be refueled, with a central computer assigned to the filling station TS 8th and / or with a mobile communication device 7 an operator P is possible.

A communication between in each case two of the named components is in each case conceivable directly, ie directly one below the other, or also indirectly with the interposition of at least one other component.

Deviating from the embodiment but also a wired or wired transmission of data is conceivable. For example, conceivable is the tap 4 to use together with a filler neck of the motor vehicle K as a signal path.

Furthermore, each energy supply unit E is provided with an evaluation and control device 11 provided on the basis of data exchanged by means of the communication system KS, the control of a discharge amount of fuel by means of the tap 4 to the motor vehicle K is possible.

The motor vehicle K is equipped with an evaluation and control device 12 provided, via which a display device 60 a display instrument 6 as a function of data exchanged by means of the communication system KS can be controlled. The indicating instrument 6 can be designed as an instrument cluster, in which several display devices are combined.

The communication device 2 is in signal communication with the evaluation and control device 11 ,

Likewise stands the communication device 5 in signal communication with the evaluation and control device 12 ,

The motor vehicle K is equipped with an internal combustion engine (not shown). To supply the internal combustion engine is an energy storage 1 in the form of a fuel tank, is received by the chemical energy in the form of fuel or receivable.

About a level detection device 10 can the level of fuel in the energy storage 1 be determined.

The level detection device 10 may include, for example, a sensor and / or a float mechanism.

Equally the energy storage 9 with level detection devices 90 equipped with which the level of each requested by the motor vehicle K fuel and measured to the communication device 2 a power supply unit E and / or the central computer 8th is sent.

Based on 6 will now be explained first method steps that are related to an energy supply or refueling process of the motor vehicle K.

The energy supply units E of the gas station TS can be designed as so-called prepaid gas pumps.

Once the operator P the tap 4 inserted into a tank opening of the motor vehicle K, not shown, a first method step V1 is triggered. The triggering of the method step V1 can be effected, for example, by a signal to the evaluation and control device (not shown) by a proximity sensor 11 it is communicated that a refueling operation is intended. The signal may preferably be provided as a status bit (yes / no) or a switching pulse. It is also conceivable that the signal is generated by the operator P upon actuation of a control key. In method step V1, an energy reserve V (t) is then determined or a previously determined energy supply V (t) is transferred and read. The energy supply V (t) represents the energy supply of the energy storage 1 , So eg the tank contents of the motor vehicle K before a delivery of fuel to the motor vehicle K is.

These data are sent to the evaluation and control device 12 sent, which then in a next step V2 from a known volume VES of the energy storage 1 and the read in, current energy supply V (t) a maximum recordable amount of energy Vauf for the energy storage 1 calculated.

The maximum amount of energy Vauf that can be received is via the communication device 5 to the communication device 2 transmitted.

As optional (dashed) process steps V3, V4, V52, V63 and V64 are shown. Therefore, first a method step V51 is discussed:
In this method step V51 is by the evaluation and control device 11 or by the central computer 8th the maximum recordable Energy amount Vauf with an energy supply VEVE the power supply unit E or the energy storage 9 compared. Is the maximum recordable amount of energy Vauf greater than the energy reserve VEVE of the energy storage 9 or equal to the power supply VEVE, so will the communication device 2 the power supply unit E via the communication system KS sent a corresponding information. This causes the evaluation and control device 11 sets a quantity of energy Vab to be delivered to a value which corresponds to the energy supply VEVE of the energy supply unit E (see method step V61).

Otherwise, if the maximum recordable amount of energy Vauf is smaller than the power supply VEVE of the power supply unit E, the value of the energy quantity Vab to be delivered is set to the value of the recordable amount of energy Vauf (see method step V62).

In a next method step V7 is from the communication device 2 a signal S about a successful power supply operation or refueling operation to the communication device 5 transmitted and the power supply process initiated by delivery of the amount of energy Vab to be delivered. The signal S can be transmitted shortly before or at the beginning of the actual energy supply process, for example, when a volume flow sensor of the power supply unit E triggers.

The power supply operation is automatically terminated as soon as the amount of energy Vab to be delivered has been delivered to the motor vehicle K.

As an optional method step V3, the communication device 2 or the central computer 8th an amount of money G is transmitted which is available to the operator P for the power supply operation or the operator P is ready to spend.

This amount of money G can, for example, by the operator P via an application (App) of the mobile communication device 7 to provide. An input via a control / keypad on the power supply unit E (not shown) is also possible.

Starting from the amount of money G is in step V3 by the evaluation and control device 11 or the central computer 8th calculated using the price per unit of energy an affordable amount of energy Vbez.

In a subsequent, also optional process step V4, the recordable amount of energy Vauf is compared with the affordable amount of energy Vbez.

If the recordable amount of energy Vauf is greater than the affordable amount of energy Vbez or equal to the affordable amount of energy Vbez, then in a method step V52 a comparison of the payable amount of energy Vbez with the energy supply VEVE of the energy supply unit E or of the energy store follows 9 , If the recordable amount of energy Vauf is smaller than the affordable amount of energy Vbez, the method step V51 already described follows.

If it is determined in method step V52 that the payable amount of energy Vbez is greater than the energy reserve VEVE of the energy supply unit E or equal to the energy supply VEVE, then the evaluation and control device 11 the amount of energy Vab to be delivered is equated with the value of the energy reserve VEVE (see method step V64). If necessary, a warning message can be issued here if the energy reserve VEVE should fall below a certain value. It is also the option of a termination of the energy supply process conceivable.

If the affordable amount of energy Vbez is smaller than the energy reserve VEVE, the amount of energy Vab to be delivered by the evaluation and control device 11 set to the value of the affordable amount of energy Vbez (see method step V63).

This is followed by the already described method step V7.

With the illustrated method, an automation of an energy supply process and thus a comfort increase is possible. The operator P need not worry about the amount of fuel to be refueled. This is derived from the data collected by the system.

Based on 2 is now shown as in the method step V7 of the communication device 5 via the communication system KS, the signal S is provided. The signal S is thus also the evaluation and control device 12 available, which in dependence of the signal S via a control line SL, the aforementioned display device 60 of the indicating instrument 6 can drive.

In 3 is an energy supply V in the energy storage 1 of the motor vehicle K over time t applied. It can be seen that with the operation of the motor vehicle K energy is consumed and there is a change ΔV of the energy supply V.

With detail IV, which is in 4 reflects an energy supply process (refueling) is shown in more detail.

The power supply operation lasts for a period of time Δt defined by a start of the power supply operation at a time t1 and by its end at a time t2.

With V (t1), an energy supply at time t1 and with V (t2) is an energy reserve of the energy store 1 at the time t2, so after completing the refueling quantified.

In 4 is also, starting from the level of the energy supply V (t1), a tolerance range T (so-called Nachtankschwelle) located within which one of the level detection device 10 measured change .DELTA.V of the energy supply V (in this case a measured change in the level of the energy storage 1 ) by the display device 60 is not displayed.

As a result, when the motor vehicle is at a standstill, there is an excessive fluctuation in the display of the display device 60 be avoided, which can be caused for example in inclined position of the motor vehicle K, during loading and unloading or when entering and exiting people.

Such a tolerance range T, however, results in the total amount of energy Vab delivered by the energy supply unit E to the motor vehicle, ie, for example, the dispensed liter number of fuel, being erroneously displayed if the amount of energy Vab delivered is less than or equal to T / 2 is. Is the delivered amount of energy Vab greater than T / 2 (as in 4 shown), no display error occurs because in such a case, the Nachtankschwelle is exceeded and the actual amount of energy delivered Vab is displayed. The tolerance range T also acts accordingly for Abtankvorgänge in which so fuel is removed from the fuel tank. However, this case is much rarer.

Remedy is created here by a special driving method, which is based on 5 should be explained.

In this figure, the state of the tolerance range T is shown on the vertical axis, which control technology either in its fixed size exist (T = T) or which can be removed (T = 0).

Furthermore, the signal S is shown which is sent to the communication device 5 can be sent (S = 1) or which is not sent (S = 0).

It can therefore be seen that at the beginning of the refueling process at the time t1 of the communication device 5 the signal S is sent (S = 1). This is in the evaluation and control device 12 In terms of control logic, the tolerance range T is also removed (T = 0).

While the transmission of the signal S occurs only in pulses for a short time at time t1, the tolerance range T is removed for the entire duration Δt of the refueling process (T = 0).

It can also be seen from the figure that the once predetermined tolerance range T is automatically reactivated at the end of the refueling process at time t2 (T = T). This, however, then at the higher level of the energy supply V (t2) (see also T 'in 4 ).

Notwithstanding the embodiment, it is also conceivable that with the transmission of the signal S, the tolerance range T for the duration .DELTA.t of the power supply operation is not completely removed but only reduced.

Furthermore, different from the illustration in FIG 5 also conceivable that after completion of a refueling process at time t2 again a pulse-like signal to the communication device 5 is sent, which indicates the end of the refueling process. A renewed activation of the tolerance range T (T = T) preferably takes place only when at the evaluation and control device 12 both the mentioned signal and another signal are applied, by which a present speed of the refueled motor vehicle is confirmed greater than zero.

Due to the changed control of the display device 60 at least during the period of time .DELTA.t of the fueling operation, the entire value of the amount of energy Vab delivered and thus a correct value for a recorded amount of energy of the motor vehicle K is displayed.

The invention is not limited to the embodiment described. This was used only for general explanation of the essence of the invention. On the contrary, within the scope of the invention, the invention may assume other forms than the previously described embodiment. In this case, it may in particular also have features which represent a combination of individual features of the respective claims. For example, the use of magnets and field strength sensors for generating said signal to confirm the possible energy release conceivable. By a magnetic field change with flowing fuel, for example, the generation of a pulse-like signal "refueling running" is conceivable.

LIST OF REFERENCE NUMBERS

1

Energy storage of the motor vehicle

2

communicator

3

filling hose

4

tap

5

communicator

6

Gauge

7

Mobile communication device

8th

mainframe

9

Energy storage of the power supply unit

10

Level detection device

11

Evaluation and control device

12

Evaluation and control device

60

display

90

Level detection devices

e

Energy supply unit (petrol pump)

G

available amount of money

K

motor vehicle

KS

wireless communication system

P

operator

S

signal

SL

control line

t

Time

t1

Time of the beginning of the energy supply process

t2

Time of the end of the energy supply process

.delta.t

Duration of energy supply process

T, T '

tolerance

TS

Gas station

V

Energy supply in the energy storage of the motor vehicle

V (t)

Energy supply at the time t

V (t1)

Energy supply at time t1

V (t2)

Energy supply at time t2

.DELTA.V

Change of energy supply

.DELTA.V1

Change of energy supply within the tolerance range

.DELTA.V2

Change in energy supply outside the tolerance range

V1-V4

steps

V51, V52

steps

V61-V64

steps

V7

step

Vab

amount of energy to be dispensed or delivered

Vup

Recordable amount of energy

vbez

affordable amount of energy

VES

Volume of the energy store from the motor vehicle

VEVE

Energy supply of the power supply unit

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

• DE 102006044780 A1 [0001]
• EP 1184241 A1 [0002]
• DE 102014203055 A1 [0003]

Claims (7)

Method for direct or indirect communication between a motor vehicle (K) and at least one external energy supply unit (E) for the motor vehicle (K) in connection with an energy supply process, characterized in that before at least one energy store ( 1 ) of the motor vehicle (K) an energy supply (V (t)) in the energy storage ( 1 ) determines a value for a maximum of the energy storage ( 1 ) and this value of the vehicle-external power supply unit (E) is provided, wherein a discharge amount (Vab) of energy at most the maximum recordable amount of energy (Vauf) corresponds. A method according to claim 1, characterized in that prior to an energy release, the maximum recordable amount of energy (Vauf) is compared with a certain amount or money to be determined (G), such that the power supply unit (E) information about the amount of money (G) available and from this amount of money an affordable delivery amount (Vbez) is derived, wherein the energy supply unit (E) is controlled such that the actual delivery amount (Vab) is smaller than the maximum amount of energy (Vauf) that can be received if the affordable delivery amount (Vbez) less than the maximum amount of energy that can be absorbed (Vauf). A method according to claim 1 or 2, characterized in that before energy release, the maximum recordable amount of energy (Vauf) with an energy supply (VEVE) of the power supply unit (E) is adjusted, wherein the power supply unit (E) is controlled such that the actual discharge amount ( Vab) corresponds to the energy supply (VEVE) of the energy supply unit (E) if the energy supply (VEVE) of the energy supply unit (E) is less than the maximum amount of energy that can be absorbed (Vauf). Method according to one of the preceding claims, characterized in that before or at the beginning of an energy delivery to the at least one energy store ( 1 ) of the motor vehicle (K) from the power supply unit (E) to at least one component ( 5 ) of the motor vehicle (K) a signal (S) for confirmation of the successive energy delivery is transmitted. A method according to claim 4, characterized in that after transmission of the signal (S) on the vehicle side, a display of the absorbed amount of energy is adjusted such that without the presence of the signal (S) existing tolerance range (T), within whose fluctuations (.DELTA.V) of the energy supply (V (t)) in the energy store ( 1 ) are not displayed, eliminated or at least reduced in size. Device for carrying out the method according to one of the preceding claims, comprising a motor vehicle (K) and a vehicle-external power supply unit (E), wherein both the motor vehicle (K) and the power supply unit (E) are each connected to at least one communication device ( 2 respectively. 5 ) via which a direct or indirect data exchange between the motor vehicle (K) and the power supply unit (E) is possible, characterized in that a discharge amount (Vab) of energy through the power supply unit (E) to the motor vehicle (K) in Dependence of the exchanged data (Vauf, Vbez, VEVE) is controllable. Apparatus according to claim 6, characterized in that the motor vehicle (K) at least one display device ( 60 ) for displaying an energy supply (V (t)) in an energy store ( 1 ), wherein the display device ( 60 ) is controllable such that within a tolerance range (T) lying fluctuations of the energy supply (V (t)) in the energy storage ( 1 ) are not displayed and wherein the size of the tolerance range (T) in dependence of the exchanged data (S) changeable, the tolerance range (T) is in particular removable or at least reduced in size.

Images