DE102010016539A1 - A control apparatus and method for controlling the stopping of an internal combustion engine - Google Patents

Abstract

A controller (5) estimates a minimum voltage of a battery (3) when a machine (1) restarts after the engine (1) stops based on a state of a battery (3) at the present time, and issues a permission to stop the idle state of the engine (1) when the estimated minimum voltage is greater than a predetermined value. The controller (5) calculates an estimation line for a voltage of the battery (3) based on the voltage characteristics for a capacity of the battery (3) when this voltage reaches its steady state during the engine stop. The controller (5) estimates a voltage of the battery (3) immediately before the current restart of the engine (1) based on the battery voltage estimation line (3). The controller (5) estimates a minimum voltage of the battery (3) when the engine (1) restarts at the present time by subtracting a voltage drop in the battery (3) caused when the engine (1) is new starts from the estimated voltage immediately before the restart of the machine (1).

Description

BACKGROUND OF THE INVENTION

1. Field of the invention

The The present invention relates to devices and methods to control a machine with internal combustion based on different states of a vehicle, for example the state of a battery during an idle state the machine with internal combustion, to stop.

2. Description of the related technology

For example, there has been disclosed a conventional engine control method relating to an idling stop method for stopping the internal combustion engine or the internal combustion engine mounted on a vehicle only when a residual capacity (such as a state of charge: SOC (SOC = state of charge)) of an in-vehicle battery is not less than a reference voltage level after a predetermined period of time elapsed from a time at which the vehicle temporarily stops. Japanese Laid-Open Patent Publication No. Hei. JP 2003-214209 has disclosed such a conventional automatic engine stop method.

• (a) Vorbereiten von charakteristischen Daten im Voraus, die eine Beziehung zwischen einem Entladungsstrom pro Entladungskapazität, die durch einen Entladetest in einer Bezugsbatterie, die eine größere Kapazität als die einer In-Fahrzeug-Batterie hat, erhalten wird, angeben;
• (b) Erfassen eines Entladestroms und einer Anschlussspannung der In-Fahrzeug-Batterie;
• (c) Schätzen, wenn der Leerlaufstopp in dem Fahrzeug auftritt, einer Spannungsänderung der In-Fahrzeug-Batterie zwischen der gegenwärtigen Zeit und einer vorausgehenden Zeit, die von der gegenwärtigen Zeit durch eine Einheitszeitdauer getrennt ist, und Schätzen einer Konvergenzspannung der In-Fahrzeug-Batterie basierend auf einer Beziehungsgleichung, die einen Unterschied zwischen einer Endkonvergenzspannung zu einer Spannungsänderung, die im Voraus erhalten wird, und der Spannung der In-Fahrzeug-Batterie, die zu der gegenwärtigen Zeit erfasst wird, betrifft;
• (d) Schätzen einer Restkapazität der In-Fahrzeug-Batterie durch Vergleichen der geschätzten Konvergenzspannung mit einer Anschlussspannung, die durch den Vorbereitungsschritt der charakteristischen Daten (a) erhalten wird;
• (e) Beurteilen, ob die geschätzte Restkapazität der In-Fahrzeug-Batterie nicht kleiner als ein Bezugswert ist oder nicht, wenn das Fahrzeug vorübergehend stoppt; und
• (f) Stoppen des Betriebs der Verbrennungsmaschine nach einer vorbestimmten Zeitdauer, die von der Zeit gezählt wird, zu der der Betrieb der Verbrennungsmaschine vorübergehend gestoppt wird, wenn die geschätzte Restkapazität nicht kleiner als der Bezugswert ist.

The foregoing conventional control method for controlling the internal combustion engine to stop during a machine idling stop performs the following steps:

• (a) preparing characteristic data in advance indicating a relationship between a discharge current per discharge capacity obtained by a discharge test in a reference battery having a larger capacity than that of an in-vehicle battery;
• (b) detecting a discharge current and a terminal voltage of the in-vehicle battery;
• (c) estimating when the idling stop occurs in the vehicle, estimating a voltage change of the in-vehicle battery between the current time and a preceding time separated from the present time by a unit time period, and estimating a convergence voltage of the in-vehicle battery A battery based on a relationship equation that relates a difference between a final convergence voltage to a voltage change obtained in advance and the voltage of the in-vehicle battery detected at the current time;
• (d) estimating a remaining capacity of the in-vehicle battery by comparing the estimated convergence voltage with a terminal voltage obtained by the preparing step of the characteristic data (a);
• (e) judging whether or not the estimated residual capacity of the in-vehicle battery is less than a reference value when the vehicle temporarily stops; and
• (f) stopping the operation of the internal combustion engine after a predetermined period of time counted from the time when the operation of the internal combustion engine is temporarily stopped when the estimated residual capacity is not smaller than the reference value.

In-vehicle batteries, which are to be attached to vehicles generally have different characteristics. That is, each such in-vehicle batteries of the same Type has its own variation of performance and characteristics. In addition, a progression of deterioration decreases the performance of the in-vehicle battery, and a voltage drop for a capacity change of the in-vehicle battery increases drastically. As with the one described above Accordingly, conventional methods exist if one estimated convergence voltage of an in-vehicle battery with a terminal voltage on the characteristic data by Performing a discharge test of a reference battery can be obtained is compared, a case according to a deterioration the in-vehicle battery, which has an estimated residual capacity the in-vehicle battery of an actual residual capacity the in-vehicle battery at the time when the internal combustion engine is restarted or annealed, is severely separated.

In a case where there is an estimated residual capacity strong of an actual residual capacity of In-vehicle battery is different after the internal combustion engine Restart, there is a possibility that it will be difficult is, the internal combustion engine after the idling stop is performed was due to a lack of sufficient residual capacity the in-vehicle battery to restart the internal combustion engine, new to start.

SUMMARY OF THE INVENTION

A Object of the present invention is therefore a control device and to provide a method for controlling an internal combustion engine, to stop. The control device and the control method according to judge with a high accuracy, whether it is allowed or not, the internal combustion engine during of a machine idle state, and the control device and the control process stop the combustion engine, if that Judgment result indicates a permission.

Around To achieve the foregoing purposes, creates the present Invention the control device to control an internal combustion engine, to stop, which is mainly a control device having. The controller estimates based on a Condition of the battery at the present time a minimum Voltage of a battery when an internal combustion engine after the stop the internal combustion engine restarts, and instructs the internal combustion engine to stop their operation when the estimated minimum Voltage of the battery is more than a predetermined value. The control device especially appreciates based on a previous one Voltage characteristic for a capacity of Battery when the voltage of the battery is stable during the stop of the internal combustion engine in the past has achieved a linear characteristic of a voltage the battery. The controller further estimates based on a capacity of the battery to the current one Time and the estimated linear characteristics for the voltage of the battery is a voltage of the battery immediately before the combustion engine is new at the present time starts. The controller further estimates the minimum Voltage of the battery when the combustion engine to the current Time restarts by subtracting a voltage drop of the battery, which is required or used when the internal combustion engine restarts, from the estimated voltage of the battery just before the combustion engine restarts.

This makes it possible the minimum voltage of the battery, though the internal combustion engine at the present time starts based on its own voltage characteristics Battery, which is attached to a vehicle, even then appreciate if the vehicle uses an in-vehicle battery, the one Fluctuation of power, and the battery in terms of performance is deteriorating.

It is accordingly for the control device in the control device possible to judge the permission with a high accuracy to stop the operation of the internal combustion engine without a difference between the estimated minimum voltage and an actual one to increase minimum voltage of the battery. This can be one Avoid occurrence that it is impossible for the combustion engine Restart during the engine stop.

The voltage the battery immediately before the internal combustion engine to the current Time will restart "means the voltage of the battery as an objective of estimation at the time immediately preceding the next restart of the internal combustion engine.

The capacity the battery "used in the present invention includes a lot of a capacity change in addition to the amount of capacity of the battery.

The "stop the operation of the internal combustion engine "or" the Stop the internal combustion engine ", which at the present Invention include stopping the internal combustion engine, which is performed when a vehicle is driving, in addition to stopping the internal combustion engine while of the idle state of the vehicle is performed when For example, the vehicle is stopped at a traffic signal.

at the control device estimates as another aspect of present invention, the control device based on the previous voltage characteristics, obtained in the engine stop operation to the operation to stop the combustion engine several times in advance linear characteristics for the voltage of the battery.

This makes it possible for the estimated linear Characteristics of the voltage of the battery actual Voltage characteristics of the same approach, and possible that the control device with a high accuracy permission judged to stop the combustion engine.

at the control device as another aspect of the present invention the controller estimates linear characteristics for the voltage of the battery for all previous ones Voltage characteristics obtained in the previous operation have been to the operation of the internal combustion engine several times to stop. The controller estimates based on a Pair of linear characteristics for the tension of the Battery that were previously obtained, which has a capacity of Battery have between the capacity of the battery immediately before and the capacity of the battery immediately after the internal combustion engine at the present time stops, is placed, linear characteristics for the Voltage of the battery at the present time.

The Controller estimates based on the capacity the battery at the present time and the estimated linear characteristics at the present time the Voltage of the battery immediately before the combustion engine restart at the present time.

This makes it possible for the controller in the control apparatus according to the present invention to be similar to the capacity of the battery based on the foregoing voltage characteristics for the capacity of the battery the current time estimates the minimum voltage of the battery with a higher accuracy by using the linear characteristics for the voltage of the battery.

at the control device takes as another aspect of the present Invention the control device to linear characteristics Using the previous linear characteristics, several Times received, reference and appreciates Using other previous linear characteristics than the preceding linear characteristics, that of the reference characteristics separated by a predetermined value, the current linear characteristics.

This makes it possible to compare the previous linear characteristics, have the abnormal values to eliminate, and the optimal linear Characteristics at the present time with a higher accuracy appreciate.

at the control device as another aspect of the present invention the controller estimates a plurality of different ones linear characteristics according to the capacity the battery at the time to start, the operation of the internal combustion engine to stop. The controller selects and uses based on the capacity of the battery to the current one Time these linear characteristics.

This makes it possible to increase the minimum voltage of the battery the current time according to the capacity to estimate the battery at the present time.

at the control device as another aspect of the present invention the controller estimates a plurality of different ones linear characteristics according to a size a load current of the battery until a time to start, to stop the operation of the internal combustion engine in the past. The controller selects and uses based on the load current of the battery by the time to start with it, the operation of the internal combustion engine to the current Time to stop, the linear characteristics.

This makes it possible to use the minimum voltage of the battery a higher accuracy according to the size of the load current flowing in the battery.

at the control device as another aspect of the present invention the controller determines a state of the voltage of the battery, to reach its steady state when a predetermined period of time which is counted by a time to which the internal combustion engine is stopped.

This makes it possible for the controller, the Battery to use in its stable state after the Battery is fully approaching its steady state.

According to one Another aspect of the present invention has the control device a stopper detection device for stopping a vehicle, which is equipped with the control device to detect. The Control device instructs the combustion engine to stop when the stopper detecting means detects that the vehicle stops, and if the estimated minimum voltage of the battery greater than a predetermined value.

This makes it possible, the control device according to the apply the present invention to an idling stop control device, which is able to stop the combustion machine while a vehicle equipped with the combustion engine, is stopped.

According to another aspect of the present invention, a method is provided for stopping an internal combustion engine mounted on a vehicle. The vehicle is composed of an internal combustion engine, an electric generator that is driven by the internal combustion engine to generate electric power, a battery that stores the electric power generated by the electric generator, and a battery condition detector that detects a state the battery detected, assembled. The method estimates a minimum voltage of the battery based on a state of the battery at the present time when the internal combustion engine stops after the internal combustion engine stops, and instructs the internal combustion engine to stop operating when the estimated minimum voltage of the battery greater than a predetermined value. The method comprises the steps of (a) estimating a linear characteristic for a voltage of the battery based on voltage characteristics for a capacity of the battery when the voltage of the battery reaches its steady state during the stop of the internal combustion engine, (b) estimating a voltage of the battery Battery immediately before restarting the internal combustion engine at the present time based on a capacity of the battery at the current time and the estimated linear characteristics and (c) estimating the minimum voltage of the battery when the internal combustion engine restarts by subtracting a voltage drop is required to burn from the estimated voltage for the capacity of the battery immediately before the internal combustion engine restarts at the present time.

This Method makes it possible the minimum voltage of the battery, when the internal combustion engine at the present time restarts based on its own voltage characteristics estimate the battery attached to a vehicle even if the vehicle uses an in-vehicle battery, the has a fluctuation in performance, and the battery in terms of Performance is deteriorating.

It is accordingly possible that the control device in the control device with a high accuracy permission judged to stop the operation of the internal combustion engine without one Difference between the estimated minimum stress and an actual minimum voltage of the battery to increase. This can prevent it from occurring for the internal combustion engine is impossible while to restart the stop of the internal combustion engine.

BRIEF DESCRIPTION OF THE DRAWINGS

One preferred non-limiting embodiment of The present invention is by way of example with reference described on the accompanying drawings. Show it:

1 10 is a block diagram showing a schematic structure of an idling stop control apparatus for stopping the operation of an internal combustion engine according to a first embodiment of the present invention;

2 Fig. 12 is a graph showing a relationship between a charge / discharge current and a terminal voltage of an in-vehicle battery;

3 10 is a graph showing a relationship between a capacity change of the in-vehicle battery and a terminal voltage of the in-vehicle battery, and an estimated straight line is established based on the relationship;

4 FIG. 12 is a graph showing the estimated straight line obtained by the idling stop control apparatus and the idling stop control method according to the first embodiment of the present invention; FIG.

5 Fig. 11 is a view showing a relationship between an integrated current value and an estimated straight line obtained in the control device and the control method in a first modification of the first embodiment according to the present invention;

6 a view showing the estimated straight line obtained by using the in 5 shown relationship shows;

7 Fig. 11 is a view showing an estimated straight line obtained by the control apparatus according to a second modification of the first embodiment of the present invention;

8th FIG. 12 is a view showing an estimated straight line obtained by the idling stop control apparatus and the idling stop control method according to a second embodiment of the present invention; FIG.

9 Fig. 12 is a view showing an estimated straight line obtained by the control device and the control method in a first modification of the second modification according to the present invention;

10 Fig. 10 is a diagram for explaining the method to obtain the straight line according to the first modification of the second embodiment of the present invention;

11 a view to explain the method according to the second modification of the second embodiment of the present invention;

12 a flowchart showing the control method to stop the internal combustion engine during idle stop of a vehicle according to the present invention; and

13 a flowchart showing a procedure to estimate a minimum voltage of the in-vehicle battery, which in the flowchart shown in 12 is shown performed.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

in the Following are various embodiments of the present invention Invention with reference to the accompanying drawings described. In the following description of the various embodiments The same reference numerals or numerals designate the several diagrams through equal or equivalent components.

First embodiment

A description will now be made about an idling stop control device and an idling stop control method with reference to FIG 1 and 4 to control an internal combustion engine to stop, for example, during an idle state of the internal combustion engine mounted on a vehicle.

The Control device according to the present invention corresponds to the idling stop control device. The tax procedure according to the present invention corresponds to Idle stop control method.

1 Fig. 10 is a block diagram showing the schematic structure of the idling stop control apparatus according to the first embodiment of the present invention. The idling stop control device stops the operation of an internal combustion engine during an idling state of a vehicle. 2 FIG. 12 is a graph showing a relationship between a charge / discharge current and a terminal voltage of an in-vehicle battery. FIG. 3 FIG. 12 is a graph showing a relationship between a capacitance change and a terminal voltage of the in-vehicle battery to be used to establish an estimated straight line. FIG. 4 FIG. 12 is a graph showing the estimated straight line obtained by the idling stop control apparatus according to the first embodiment of the present invention. FIG.

1 FIG. 10 is an entire block diagram of the idle-stop control apparatus according to the first embodiment. FIG. In 1 The solid lines show electrical lines through which all devices are electrically connected. The solid lines with an arrow mark indicate control signal lines. The dashed lines show a mechanical connection between the devices.

The internal combustion engine (hereinafter referred to as the "engine 1 Is a power generating device that is mounted on a vehicle and by outputting a hydrocarbon fuel, such as gasoline, generates an output. (The machine 1 corresponds to the combustion engine.)

A crankshaft 11 as an output shaft of the machine 1 is mechanically connected to drive wheels (not shown) of the vehicle. The machine 1 returns a drive torque (or output torque) to the drive wheels. A starter motor or starter motor 12 is with a flywheel (not shown) attached to the crankshaft 11 is fixed, engaged.

An electric generator 2 On the other hand, it is mainly an alternator 21 (which corresponds to an electric generator) and a regulator 22 , which serves as a control to the output power of the alternator 21 to control, composed. In the first embodiment, the alternator is 21 a synchronous generator having a rotor (not shown). The rotor is with the crankshaft 11 the machine 1 mechanically connected. The rotor is due to the output power of the machine 1 through the crankshaft 11 driven to generate the electrical power.

A battery 3 is for example a lead storage battery. The battery 3 is with the output terminals of the alternator 21 electrically connected. The electrical power generated by the alternator 21 is generated in the battery 3 accumulated or accumulated. A voltage sensor 31 is to the battery 3 electrically connected in parallel. The voltage sensor 31 detects a terminal voltage of the battery 3 ,

A current sensor 32 is with a positive connection of the battery 3 electrically connected in series. The current sensor 32 detects a discharge current coming from the battery 3 flows, and a charging current leading to the battery 3 flows. The battery 3 is with a temperature sensor 33 fitted. The temperature sensor 33 detects a temperature of the battery 3 , The voltage sensor 31 , the current sensor 32 and the temperature sensor 33 correspond to a battery condition detection device.

Different types of electrical loads 42 are by switches 41 to the battery 3 electrically connected in parallel. For example, there is an air conditioner of the vehicle, headlights, an audio device as the electric loads 42 which is an electrical power of the battery 3 consume.

The starter motor 12 for the machine 1 is with the battery 3 electrically connected. The starter motor 12 is driven by the electric power, with that of the battery 3 is supplied when the machine 1 by turning on the ignition key (not shown) by a driver of the vehicle. The starter motor 12 gives an initial rotation power to the crankshaft 11 off when the machine 1 starts.

A controller 5 is an electric control device composed mainly of a microcomputer and a storage device 51 is composed. (The control 5 corresponds to a control device to the operation of the burn machine to stop.)

The storage device 51 is composed of a nonvolatile memory such as a random access memory (RAM) and an erasable programmable read only memory (EEPROM).

The control 5 is with the voltage sensor 31 , the current sensor 32 and the temperature sensor 33 electrically connected. Various types of vehicle condition detection sensors 6 are with the controller 5 electrically connected. (The vehicle condition detection sensors 6 correspond to the "stop detecting means".) The vehicle condition detecting sensors 6 are capable of detecting a running speed of the vehicle and operations performed by the vehicle driver. There are various types of sensors as the vehicle condition detection sensors 6 For example, a vehicle speed sensor for detecting a vehicle speed, an accelerator pedal stroke detection sensor for detecting a stroke of the accelerator pedal of the vehicle, a brake pedal switch for detecting a stop state of the vehicle based on the operation of the brake pedal, and a starter switch (or " Ignition switch ") to the machine 1 to start.

The control 5 is with a throttle actuator (not shown), an ignition coil (not shown), the starter motor 12 and the controller 22 of the electric generator 2 connected. The control 5 receives a terminal voltage signal, a charge / discharge current signal and a battery temperature signal, a vehicle speed signal, and various types of detection signals. The control 5 detects the vehicle condition or a vehicle condition based on those detection signals. The control 5 controls based on these detection signals to the machine 1 to start to operate the machine 1 (as the "idle-stop control"), and controls an amount of electric power generated in the electric generator 2 is produced.

A description is next referring to 2 about voltage-current characteristics of the battery 3 accompanied by performing the idling stop control indicated.

In the following explanation, the voltage V indicates the battery 3 the terminal voltage of the battery 3 unless otherwise specified.

2 shows the relationship between the charge / discharge current and the terminal voltage of the battery 3 during different periods, ranging from a start time to the operation of the machine 1 to stop, at a graduation time, to the machine 1 to be restarted completely counted.

As in 2 shown points the controller 5 the machine 1 to stop automatically. When an instruction signal from the controller 5 is recorded, the machine starts 1 the operation to stop. The rotational speed of the crankshaft 11 is thereby gradually reduced. The rotational speed of the crankshaft 11 is finally stopped.

According to decreasing the rotational speed of the crankshaft 11 reduces the alternator 21 that with the crankshaft 11 mechanically engaged, gradually its generation amount of electric power. As in 2 is shown, the voltage V of the battery 3 from the starting voltage Vj0 by a voltage drop amount ΔVjh during the time T1, wherein the time T1 from the time the instruction is transmitted to the operation of the machine 1 is counted at the time when the engine stop operation is completed, where Vjh is the starting voltage of the battery 3 is when the controller 5 the instruction to the machine 1 transfers to the operation of the machine 1 to stop.

During the time period T2, which is from the time when the engine stop is completed, to the time when the alternator 21 When the electric power is generated and counted, both a battery capacity drop and a voltage drop of polarization occur in the battery 3 on, causing this Batteriekapazitätsab fall for the electrical load to the electrical power of the battery 3 during the period T2 to consume. As in 2 shown is the terminal voltage V of the battery 3 by a voltage drop amount ΔVbn during the period T2, from the time when the machine is completely stopped, to the time at which the machine is operating 1 to restart, is counted, from.

In the automatic starting process of the machine 1 instructs the controller 5 the starter motor 12 to restart the crankshaft 11 the machine 1 to provide an initial rotational power, and the controller 5 then controls the combustion of the machine 1 ,

It is well known that a large amount of a discharge current in the stator motor 12 from the battery 3 during a very short period of time, from the time the instruction came to the stator motor 12 to transfer to the machine 1 to restart, at the time to which the rotation of the starter motor 12 to start, is counted, flows. This large amount of discharge current reduces the voltage V of the battery 3 dramatically.

The time period T3 to be completed at the time the engine restart operation is to be completed, from the time the engine restart instruction completed, the previous very short period of time (ie, the time to restart the engine 1 through the starter motor 12 is counted, the voltage V of the battery drops 1 by a voltage drop amount ΔVst, as in 2 is shown off.

When the voltage V of the battery 3 by the automatic start procedure of the machine 1 is extremely reduced, the reliability of operation of the controller decreases 5 , and this carries a likelihood of being in control 5 is not capable of the machine 1 to restart. In addition, this also carries with it a probability that the battery 3 is extremely degraded by over-discharging.

To such overcharging and deterioration of the battery 3 To avoid that, must be satisfied that the controller 5 the idling stop control during the start time to start the engine stop operation at the time to complete the engine restart operation under the condition that the minimum voltage Vmin of the battery 3 After the voltage V of the battery 3 falls, not lower than a minimum reference voltage Vmisd as a guarantee voltage of the battery 3 is to be able to use the starter motor 12 to restart, namely that the control 5 is capable of the machine 1 to restart normally.

Accordingly, if it is judged whether the execution of the idling stop is permitted or not, the controller estimates 5 in the idling stop control apparatus of the embodiment, the minimum voltage Vmin of the battery 3 ,

The control 5 then compares the estimated minimum voltage Vmin of the battery 3 with the minimum reference voltage Vmisd and allows the execution of the idling stop when the estimated minimum voltage Vmin is greater than the minimum reference voltage Vmisd.

The estimated minimum voltage Vmin of the battery 3 can by subtracting the voltage drop amount ΔVst caused by the start of the starter motor 12 caused by the estimated voltage Vfs, immediately before the machine 1 restarts, to be obtained. Since the method of estimating this estimated voltage Vfs is a part of the subject of the present invention, it will be explained later in detail.

As described above, the voltage drop amount ΔVst of the battery 3 a voltage drop amount during the time period T3, that of the time at which the machine 1 Restarting is at the time the machine restarts 1 is completed, is counted.

As in 2 is the slope of the voltage-current line of the battery 3 during the period T3 by a switch-on internal resistance Rin of the battery 3 expressed.

The horizontal length of the time T3 in the horizontal axis is determined by the maximum current change ΔImax, which in 2 is shown. By detecting the switch-on internal resistance Rin and the maximum current change ΔImax at a previous restart of the machine 1 it is accordingly possible for the controller 5 the voltage drop amount ΔVst during the period T3 is obtained based on the following equation: ΔVst = (operating internal resistance Rin) × (maximum current change ΔImax).

Both the turn-on internal resistance Rin and the maximum current change ΔImax fluctuate readily by the influence of the capacitance Ah and the temperature of the battery 3 , Accordingly, it is preferable that the detected turn-on internal resistance Rin and the maximum current change ΔImax correspond to the capacity Ah (or the capacity change ΔAh of the battery 3 and the temperature of the battery 3 ) to change.

Next, a description will be given below of the estimation method for the control 5 indicated to the voltage Vfs of the battery 3 , immediately before the machine 1 restarts, appreciate.

3 FIG. 16 is a graph showing the relationship between the battery capacity change ΔAh of the in-vehicle battery. FIG 3 and the terminal voltage V of the in-vehicle battery 3 indicates when the idle stop of the machine 1 , which is mounted on a vehicle, is performed several times. 3 specifically, for brevity, shows a partial graphic representation of the battery capacity change ΔAh between the engine stop instruction time (which is equal to the time when the engine stop operation is to be started) and the engine restart operation.

How out 3 is understandable, the terminal voltage V of the battery 3 decreases, and the battery capacity change ΔAh is on the gera the line (as the estimation line L1, which in 3 is shown) after the terminal voltage V of the battery 3 progresses to fall off when the machine 1 stops even if the battery 3 assumes various values of the terminal voltage V or various values of the battery capacity change ΔAh in the engine stop instruction even when the idling stop is performed in an adequately long time length. On a stable region on the straight line of the voltage characteristics for the capacity of the battery 3 after a lapse of the predetermined period of time from the time to which the operation of the machine 1 is to be stopped, is hereinafter referred to as the "stable region of the battery terminal voltage".

It is accordingly possible to have the linear characteristics of the terminal voltage V of the battery 3 based on the voltage characteristics for the capacity change ΔAh of the battery 3 correctly estimate when the terminal voltage V of the battery 3 its steady state after lapse of the predetermined period of time after the engine 1 stops, while the state of the machine stop reached in the past. It is possible for the predetermined period of time in which the terminal voltage V of the battery 3 reached its stable state, based on experimental results or a theoretical calculation to determine.

The linear characteristics represented by the estimation line L1, which in 3 can be expressed by the actual values of the battery terminal voltage V and the battery capacity change ΔAh at the time the instruction, the machine 1 to stop, was fed, and the time to which the machine 1 have been restarted in at least two previous idling stop operations.

As in 4 is shown, it is possible the voltage Vfs at the time immediately before the machine 1 at the current time, based on the capacity change ΔAh of the battery 3 at the present time and the estimation line L1 when the engine stop instruction is supplied.

If the controller 5 the terminal voltage Vfs of the battery 3 , immediately before the machine 1 in the idle stop mode restarts, estimates is the length of time, by which the machine 1 To stop is, at the time, to which the machine 1 to restart is counted, denoted by Tf. The terminal voltage Vfs of the battery 3 immediately before restarting the machine 1 can be obtained as the position of the time Tf on the estimated line L1 from the time to the engine stop based on the capacity change ΔAh of the battery 3 counting at which timeout is counted at which the capacity change ΔAh of the battery 3 based on experimental results, which were previously performed several times, is obtained experimentally.

In 3 and 4 is the capacity change ΔAh of the battery 3 , which is shown in the horizontal axis, for example, by an amount of reduced capacity of the battery 3 expressed at a time when the charge completion time of the battery 3 as the origin (at the time of completion of the battery charge) of the graph presented in 3 or 4 is shown is set. That is, the capacity change ΔAh is due to the integrated current value of the battery 3 expressed when the battery charge is complete and the battery 3 enters her stable condition.

When in 4 the capacity change of the battery 3 at the start time, to which the machine 1 To stop is, at the completion time, to which the charge of the battery 3 is completed, can be expressed by ΔAh1, and the capacity change of the battery 3 at the time immediately before the machine 1 restarting at the time when the engine stop is to be started is expressed by ΔAh2, the voltage Vfs of the battery can start 3 , immediately before the machine 1 restarts to be expressed by Vfs = A (ΔAh1 + ΔAh2) + B, where A is an inclination of the estimation line L1, and B is a portion on the voltage axis (vertical axis) of the estimation line L1.

Through the embodiments and modifications of the present invention, although the controller 5 the minimum voltage Vmin of the battery 3 based on the capacity change ΔAh of the battery 3 the scope of the present invention is not limited by this. It is possible, for example, that the controller 5 the battery capacity Ah instead of such a capacity change ΔAh of the battery 3 used.

A description is next about the procedure to clear the idle stop by the controller 5 is carried out, with reference to 12 specified.

12 FIG. 10 is a flowchart showing the method of controlling to stop the operation of the internal combustion engine during idling stop. FIG.

The control 5 takes various detection signals concerning a charge / discharge current, a terminal voltage V and a temperature of the battery 3 that from the current sensor 32 , the voltage sensor 31 or the temperature sensor 33 to be transmitted (S1201).

The control 5 judged next based on the detection signal received from the vehicle condition detection sensor 6 whether the vehicle is stopped (or parked) or not (step S1202). If the judgment result indicates that the vehicle is stopped, the controller estimates 5 based on the voltage sensor 31 , the current sensor 32 and the temperature sensor 33 the minimum voltage Vmin and then starts the machine 1 at the time, to which the controller 5 the machine 1 instructs to restart after completing the idling stop operation (step S1203).

The control 5 next, judges whether or not the execution of the idling stop operation is allowed (step S1204). As will be explained later, the permission to execute the idling stop is usually made by comparing the estimated minimum voltage Vmin of the battery 3 determined with the minimum reference voltage Vmisd.

However, since it is difficult for the method of the present invention to establish the estimation line L1 when the preceding idling stop operation has been performed less than twice in advance, the permission to execute the idling stop operation is determined by a known method. In this case, in the embodiment of the present invention, the controller integrates the controller 5 the charge / discharge current of the battery 3 and allows idle stop if the integrated value is a positive value. However, the present invention is not limited to this method.

The control 5 starts with the operation of the machine 1 to stop when the execution of the idle stop is allowed when the estimated minimum voltage Vmin of the battery 3 is greater than the minimum reference voltage Vmisd, or if the integrated current value of the charge / discharge current of the battery 3 is a positive value (step S1205).

After that, the controller appreciates 5 continuously the minimum voltage Vmin of the battery 3 (Step S1206) and detects based on the detection signals received from the vehicle condition detection sensor 6 to be transmitted, the vehicle operating condition (step S1207) while the engine 1 is stopped continuously.

When it is detected that the estimated minimum voltage Vmin of the battery 3 is smaller than the minimum reference voltage Vmisd, or it is judged that the vehicle driver operates the accelerator pedal (or accelerator pedal) or turns on a starter switch and others to start the vehicle (step S1208), starts the control 5 the machine 1 new (step S1209).

If the controller 5 at step S1208 judges the engine 1 not to restart, the operation flow returns to step S1206. In step S1206, the controller estimates 5 continuously the estimated minimum voltage Vmin of the battery 3 and detects the vehicle operating condition.

If the controller 5 in step S1202, judging that the vehicle is not stopped, or judging in step S1204 not to allow execution of the idling stop, the operation flow returns to step S1201.

A description will be given next to the process step S1203 (which is described in FIG 12 shown) of estimating the estimated minimum voltage Vmin of the battery 3 with reference to 13 specified. The control 5 performs the method of estimating the estimated minimum voltage Vmin of the battery 3 by.

13 FIG. 10 is a flowchart showing the procedure to estimate the estimated minimum voltage of the in-vehicle battery. FIG 3 estimated at step S1203 in the 12 shown flowchart is performed.

As in 13 is shown judges the control 5 Whether or not the number of executing the idling stop that was previously executed is less than two (step S1301).

As described above, since it is difficult for the method according to the embodiment to establish the estimation line L1 when the number of executing the idle stop, which was previously executed, is smaller than two, the controller integrates the control 5 the charge / discharge current of the battery 3 (Step S1308).

If the number of executing the idle stop that was previously executed is not less than two, the controller stops 5 the estimation line L1 based on the terminal voltage V of the battery 3 and the capacity change ΔAh of the battery 3 during the idling stop operation that has been previously executed more than twice (step S1302). This estimation line L1 may be based on that in the storage device 51 in which the terminal voltage V and the capacitance change ΔAh of the battery 3 stored during the idle stop operation, which was previously performed stored data are obtained.

The control 5 then estimates based on the capacity Ah of the battery 3 to the present Time and the estimation line L1, an estimated voltage Vfs of the battery 3 immediately before the machine 1 at the current time restarts (step S1303).

The control 5 compensated next based on the capacity Ah of the battery 3 and the temperature of the battery 3 at the present time the turn-on internal resistance Rin, in the storage device 51 is stored (step S1304).

Following this, the controller compensates 5 based on the capacity Ah at the present time and the temperature of the battery 3 at the present time, the maximum current change ΔImax that is present in the storage device 51 is stored (S1305).

Upon completion of compensating the on-state resistance Rin and the maximum current variation ΔImax, the controller calculates 5 based on the following equation, the voltage drop amount ΔVst: Voltage drop amount ΔVst = (compensated value of the switch-on internal resistance Rin) × (compensated value of the maximum current change ΔImax).

The control 5 Finally, estimates the minimum voltage Vmin of the battery based on the following equation 3 at the present time (step S1307): Minimum voltage Vmin = (value of estimated voltage Vfs immediately before engine 1 restarts) - (estimated voltage drop amount ΔVst).

According to the embodiment described above, the control sets ΔAh of the battery based on the voltage characteristics for the capacity change 3 the estimation line L1 forth, concerning the terminal voltage V of the battery 3 shows linear characteristics when the battery 3 during the stop of the machine 1 reached their stable condition in the past. The control 5 appreciates immediately before the machine 1 at the present time restarts, the estimated voltage Vfs of the battery. The control 5 subtracts the voltage drop amount ΔVst caused by the restarting operation of the engine 1 is to be consumed, from the estimated voltage Vfs to the minimum voltage Vmin of the battery 3 appreciate when the machine 1 restart at the present time.

It is possible that the controller 5 the minimum voltage Vmin of the battery 3 when the machine 1 currently restarts, based on the voltage characteristics of the battery 3 , which is attached to the vehicle, estimates correctly, even if the power is reduced and a fluctuation in the battery 3 occurs.

According to the method of the present invention described above, it is possible that the controller 5 with high accuracy, the permission judged to execute the idling stop because the same differences between the estimated value and the actual value of the minimum voltage Vmin of the battery 3 can minimize. This can avoid the control 5 a difficulty when restarting the machine 1 during idle stop of the machine 1 Has.

Furthermore, the controller 5 the estimation line L1 based on the voltage characteristics of the capacity of the battery 3 that were obtained when the machine 1 is stopped several times in advance, it is possible to estimate the estimated line L to the actual voltage characteristics of the battery 3 Closer approach. This makes it possible for the controller 5 the need to perform the idling stop, assessed with high accuracy.

It is also possible to change the voltage of the battery 3 to enter into their stable condition as the controller 5 only then judges that the voltage V of the battery 3 reaches its steady state when a predetermined period of time has elapsed after the machine has passed 1 was stopped.

The control 5 also stops the operation of the machine 1 only if the controller 5 the stop of the machine 1 and the estimated minimum voltage Vmin of the battery 3 is higher than the minimum reference voltage Vmisd. It is thereby possible to apply the subject matter of the control device and the control method to stop the operation of the internal combustion engine according to the present invention to the idle-stop control device and the idle-stop control method.

First Modification of First Embodiment

A description will now be made about the control device and the control method according to a first modification of the first embodiment with reference to FIG 5 and 6 specified.

5 FIG. 12 is a view showing a relationship between an integrated current value and the estimated straight line obtained by the control device and the control method according to the first modification of the first embodiment of the present invention. 6 is a view that the estimated straight line passing through Use the in 5 shown relationship shows.

In the first modification of the first embodiment, the controller calculates 5 a built-in value ∫Idt of the current during a period of time, from the time the battery is 3 the full capacity of the battery 3 reached, at the time to which the controller 5 the machine 1 instructs to stop, is counted. If the controller 5 the machine 1 instructs to stop their operation, puts the controller 5 based on the relationship that is in 5 4, a plurality of estimation lines corresponding to the conditions of the integrated current value ∫Idt are produced.

As in 5 is shown, if the integrated current value ∫Idt is not smaller than a predetermined value β, the controller selects 5 the estimation line L1 representing the linear characteristics for the terminal voltage V of the battery 3 shows.

When the integrated current value ∫Idt is smaller than a predetermined value β and not smaller than a predetermined value α, the controller selects 5 the estimation line L2 representing the linear characteristics of the terminal voltage V of the battery 3 shows.

When the integrated current value ∫Idt is smaller than the predetermined value α, the controller selects 5 the estimation line L3 representing the linear characteristics for the terminal voltage V of the battery 3 shows.

In the first modification, the three estimation lines L1, L2 and L3 are prepared according to the value of the integrated current value ∫Idt until the time when the control 5 the machine 1 instructs to stop.

When the voltage Vfs of the battery 3 is estimated immediately before the machine 1 restarts, selects the controller 5 the optimal estimation line according to the integrated current value ∫Idt.

As in 6 2, the estimation line L2 has a low terminal voltage V of the battery as compared with the estimation line L1 3 at the same capacity change ΔAh of the battery 3 ,

The estimation line L3 has the same capacity change ΔAh of the battery as compared with the estimation line L2 3 a low terminal voltage V of the battery 3 ,

The integrated current value ∫Idt during the period of time, from the time to the capacity of the battery 3 reaches its stable state, at the time when the controller 5 the machine 1 instructs to stop, is counted, according to the load current of the battery 3 changed until the controller 5 the machine 1 instructs to stop. It is accordingly possible, the optimal estimation line according to the size of the load current of the battery 3 select until the controller 5 the machine 1 instructs to stop.

When the first modification has, if the controller 5 the estimation line L1 selects the estimated voltage Vfs immediately before the engine 1 In the case of using the estimation line L3, the calculated integrated current value ∫Idt starts to be large again as compared with it. This indicates that the load current of the battery 3 which is to be consumed by the electric load on the vehicle is smaller than the same of the case of using the estimation line L3.

There are usually many cases to the capacity of the battery 3 to unload even after the machine 1 completely stops. Such a discharge current from the battery 3 as the electric power of the battery 3 is by subtracting a stream that is to be used by the machine 1 to ignite, from the charging current of the battery 3 until the machine 1 to start, stop, get.

At the first modification selects the voltage Vfs, just before machine 1 restarts, appreciates, and uses the controller 5 the optimal estimation line according to the size of the load current of the battery 3 (by subtracting the current that is required by the machine 1 to ignite) until the time when the machine stop is to be started.

According to the first modification, the controller sets a plurality of the estimation lines according to the magnitude of the load current of the battery 3 until the time when the machine stop is to start. The control 5 uses the optimal estimation line according to the size of the load current of the battery 3 until the machine 1 at the present time stops. This makes it possible for the controller 5 the minimum voltage Vmin of the battery 3 with a high accuracy estimates.

Second Modification of First Embodiment

A description will be given below regarding the control device and the control method according to the second modification of the first embodiment with reference to FIG 7 specified.

7 FIG. 14 is a view showing an estimated straight line obtained by the control apparatus according to the second modification of the first embodiment of the present invention; FIG. shows.

In the second modification, the controller stops 5 an estimation line L4 having a large slope as compared with the estimation line L1 as in FIG 7 is shown in the area where the capacity change ΔAh of the battery 3 is small when the controller 5 the machine 1 instructs to stop.

Like the estimation line L1, the estimation line L4 becomes based on the voltage characteristics for the capacity Ah of the battery 3 estimated when the voltage V of the battery 3 reached its steady state during the previous machine stop.

In the second modification, the controller estimates 5 , immediately before the machine 1 At the present time, the voltage Vfs restarts based on the estimation line L1 when the capacity change ΔAh of the battery 3 when the controller 5 the machine 1 instructs to stop at the present time is not less than a predetermined value.

The control 5 further estimates the voltage Vfs just before the machine 1 restarts based on the estimation line L4 when the capacity change ΔAh of the battery 3 less than a predetermined value is when the controller 5 the machine 1 instructs to stop. In this case, it is possible to further add an additional estimation line in addition to the estimation lines L1 and L4 and the voltage Vfs of the battery 3 , immediately before the machine 1 re-starts to estimate based on those estimated lines.

According to the second modification of the first embodiment as described above, the controller sets 5 a plurality of the estimation lines according to the magnitude of the capacity change ΔAh of the battery 3 during the previous instruction from the controller 5 to the machine 1 to stop, and select the optimal estimation line according to the capacity change of the battery 3 out.

It is thereby possible to set the minimum voltage Vmin of the battery 3 with a high accuracy according to the capacity change ΔAh of the battery 3 to appreciate at the present time.

Second embodiment

A description will be given below about the idling stop control apparatus and the idling stop control method for stopping the operation of an internal combustion engine according to the second embodiment with reference to FIG 8th specified.

8th FIG. 12 is a view showing an estimated straight line obtained by the idling stop control apparatus according to the second embodiment of the present invention. FIG.

As in 8th shown is the controller 5 based on the voltage characteristics of the capacity of the battery 3 during all or part of the stable battery voltage range (also referred to as the "voltage stable range") during the engine stop in the past, an estimation line is established.

It is preferable to set the range of the voltage stable range immediately before the machine 1 restarts. In the second embodiment, the controller detects 5 a terminal voltage V and a capacitance change ΔAh of the battery 3 during the voltage stable range, and then establishes the estimation line based on the detected terminal voltage V and the capacitance change ΔAh.

When the estimation line is established based on the voltage characteristics during the voltage stable region, the controller estimates 5 the voltage Vfs of the battery 3 , immediately before the machine 1 restarts based on the capacity change ΔAh of the battery 3 at the present time and the calculated estimated line.

• (a) ein Polarisationsindex P oder eine Polarisationsänderung ΔP der Batterie 3 ist nicht kleiner als ein vorbestimmter Wert; oder
• (b) eine Spannungsabfallmenge ΔV der Batterie 3 ist nicht kleiner als ein vorbestimmter Wert.

The second embodiment requires a condition that an adequate length of time for executing the idling stop has elapsed to determine the voltage stable range. However, the scope of the present invention is not limited thereby. For example, it is possible to determine the voltage-stable region by satisfying the following conditions:

• (a) a polarization index P or a polarization change ΔP of the battery 3 is not less than a predetermined value; or
• (b) a voltage drop amount ΔV of the battery 3 is not less than a predetermined value.

First Modification of Second Embodiment

A description of the idling stop control apparatus and the idling stop control method for controlling the idling stop of an internal combustion engine according to the first modification of the second embodiment of the present invention will now be described with reference to FIG 9 and 10 specified.

9 is a view that in the first modification of the second modification of the present Invention shows an estimated straight line. 10 Fig. 12 is a diagram to obtain the straight line obtaining method according to the first modification of the second embodiment of the present invention.

In the first modification of the second embodiment, the controller provides 5 the estimation lines L1, L2, L3, L4 and L5 based on the voltage characteristics of the capacity of the battery 3 during the voltage-stable area of the battery 3 every time, when the machine 1 has previously started to stop its operation, as the method of the second embodiment, which is described above. In more detail, each of the estimation lines L1, L2, L3, L4 and L5 has a different slope A and a different portion B.

When the voltage Vfs of the battery 3 , immediately before the machine 1 restarts, is estimated, restores the control 5 , as in 10 2, the estimated lines L2 and L3 to be used are the voltage Vfs of the battery 3 , immediately before the machine 1 restarts, estimate based on the capacity change ΔAh of the battery 3 ago, if the controller 5 the machine 1 instructs to stop at the present time. That means the controller 5 establishes the estimation line Les at the present time by using the estimation lines L2 and L3 when the capacity change ΔAh of the battery 3 at the previous instruction from the controller 5 to the machine 1 in order to stop the operation thereof in the past before and after the capacity change ΔAh of the battery 3 at the current time at the current instruction from the controller 5 to the machine 1 to stop its operation is positioned.

After that, the controller appreciates 5 the voltage Vfs of the battery 3 , immediately before the machine 1 currently restarts, based on the capacity change ΔAh of the battery 3 at the present time and the obtained estimation line Les.

The Estimation line Les, which in the first modification of the second embodiment has, for example a slope and a section that averages the Gradients and an average of the sections of the pair of Estimation line L1 and the estimation line L2.

According to the first modification of the second embodiment, the controller estimates 5 each of the estimation lines L1, L2, L3, L4, and L5 for all of a plurality of the voltage characteristics previously obtained, and establishes the estimation line Les at the current time by using a pair of the estimation lines L2 and L3 when the capacity change ΔAh of the battery 3 at the previous instruction from the controller 5 to the machine 1 in order to stop the operation thereof in the past before and after the capacity change ΔAh of the battery 3 at the current time at the current instruction from the controller 5 to the machine 1 to stop its operation is positioned.

The control 5 next estimates the voltage Vfs of the battery 3 , immediately before the machine 1 restarts based on the capacity change ΔAh of the battery 3 and the estimation line Les at the present time. This makes it possible to set the minimum voltage Vmin of the battery 3 with a higher accuracy by using the estimation lines L2 and L3, which are produced based on the voltage characteristics obtained in the past, which is close to the capacity change ΔAh of the battery 3 at the present time.

Second Modification of Second Embodiment

A description will be given below about the idle-stop control apparatus and the idle-stop control method for controlling the idling stop of an internal combustion engine according to the second modification of the second embodiment with reference to FIG 11 specified.

11 Fig. 10 is a view for explaining the second modification of the second embodiment of the present invention.

In the second modification of the second embodiment, the controller estimates 5 in each of a plurality of the voltage characteristics previously obtained by the method of the second embodiment described above, an estimation line. After that, as in 11 shown is the controller 5 a predetermined adjustment range of the capacity change ΔAh of the battery 3 by the capacity change ΔAh of the battery 3 at the present time, when the controller 5 the machine 1 instructs to stop their operation at the present time.

11 shows the capacity change ΔAh when the controller 5 the machine 1 In the past, it instructs to stop its operation within the predetermined setting range, where the horizontal axis indicates the capacity change ΔAh of the battery 3 indicates and the vertical axis indicates the slope A of the estimation line.

The control 5 Next, by a least squares method, compute a Be Suitably, Ar (corresponding to reference characteristics according to the present invention) as a candidate value concerning the slope A of estimation lines that is within the adjustment range of the capacity change ΔAh of the battery 3 are. When the reference value Ar is calculated, the controller estimates 5 the predetermined adjustment range concerning the slope A of the estimation line by the reference value Ar.

When establishing the estimation line at the present time, the controller selects 5 only the estimation lines from a plurality of the estimation lines preceding and within the adjustment range of the capacity change ΔAh of the battery 3 obtained and used the same. As in 11 2, these selected estimation lines are present within the predetermined adjustment range of the slope A, and the predetermined adjustment range of the slope A is separated from the reference value Ar by a predetermined value.

In calculating the reference value Ar used in the second modification of the second embodiment, it is possible for the controller 5 Estimation lines that are within the capacity change ΔAh of the battery 3 are present, calculated and used instead of using a least squares method.

Furthermore, in the second modification of the second embodiment, it is also possible that the controller 5 the estimation line at the present time by calculating the reference value Ar based on a portion B of the estimation line instead of the slope A thereof in addition to or instead of calculating the slope A of the estimation line in a plurality of the estimation lines previously obtained, using the estimation lines from the reference value of the section B within a predetermined value, that is, without using the estimation lines separated from the reference value of the section B by a predetermined value.

According to the second modification of the second embodiment described above, it is possible that the controller 5 calculated the estimation line at the current time with a high accuracy, since the control 5 First, the reference value Ar having a probability of being the slope A of the estimation line at the current time is calculated by using a plurality of the estimation lines previously obtained, and the controller 5 the estimation lines in the past that have abnormal voltage characteristics separated from the reference value Ar by more than a predetermined value are eliminated. The control 5 In other words, the estimation lines separated from the reference value of the slope A are within the predetermined value.

Other Embodiments

Of the The subject of the present invention is not through the embodiments and limits the modification described above. It For example, it is possible for the present invention has the following modifications.

In the second embodiment, in estimating the voltage Vfs, it is immediately before the engine 1 restarts, possible that the controller 5 Based on calculated integrated current values ∫Idt of the time to determine the capacity of the battery, at the time when the controller 5 the machine 1 instructs to stop, as in the first modification of the first embodiment, calculates a plurality of estimation lines, and further uses a plurality of the estimation lines based on the integrated current values ∫Idt.

When estimating the voltage Vfs, just before the machine 1 restarts, in the second embodiment, selects the controller 5 Further, a plurality of the estimation lines as in the second modification of the first embodiment according to the capacity change ΔAh of the battery 3 out and use the same when the controller 5 the machine 1 instructs to stop.

The Control device and the control method according to The present invention is capable of operating the internal combustion engine to control when the vehicle is stopped and in an idle state is.

Of the The subject of the present invention is not limited thereby and can be applied to the technical field for hybrid vehicles, equipped with an engine and an internal combustion engine are, be applied. In this case, control the control device and the control method according to the present invention Invention the stoppage of the internal combustion engine when the hybrid vehicle driving through the engine.

Although specific embodiments of the present invention have been described in detail, it will be apparent to those skilled in the art that various modifications and alternatives to those details may be developed in light of the overall teachings of the disclosure. The particular arrangements disclosed are accordingly intended to be illustrative only and not limited to the scope of the present invention, which is to be read in its full scope the following claims and all equivalents te of the same is given.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - JP 2003-214209 [0002]

Claims (9)

Control device to an internal combustion engine ( 1 ) to stop, with: an internal combustion engine ( 1 ); an electric generator ( 12 ) passing through the combustion engine ( 1 ) is driven to generate an electric power; a battery ( 3 ) showing the electrical power generated by the electric generator ( 12 ) is generated, stores; a battery condition detection device ( 31 . 32 ), which indicates a state of the battery ( 3 detected (S1201); and a control device ( 5 ), which has a minimum voltage (Vmin) of the battery ( 3 ) based on a state of the battery ( 3 ) at the present time estimates (S1203) when the internal combustion engine ( 1 ) after the combustion engine ( 1 ) stops, restarts, and the combustion engine ( 1 ) instructs to stop its operation (S1205) when the estimated minimum voltage (Vmin) of the battery ( 3 ) is greater than a predetermined value (Vmisd), a linear characteristic for a voltage of the battery ( 3 ) based on a previous voltage characteristic for a capacity of the battery ( 3 ) estimates (S1302) when the voltage of the battery ( 3 ) its steady state during the previous stop of the internal combustion engine ( 1 ), a voltage (Vfs) of the battery ( 3 ), immediately before the combustion engine ( 1 ), based on a capacity of the battery ( 3 ) at the present time and the estimated linear characteristics (S1303), and the minimum voltage (Vmin) of the battery ( 3 ), when the internal combustion engine ( 1 ) by subtracting a voltage drop (ΔVst) required to 1 ) at the present time, from the estimated voltage (Vfs) of the battery ( 3 ), immediately before the combustion engine ( 1 ) restarts, estimates (S1307). Control device capable of controlling the operation of an internal combustion engine ( 1 ), according to claim 1, wherein the control device ( 5 ) the linear characteristics for the voltage of the battery ( 3 ) based on the preceding voltage characteristics obtained in a preceding engine stop operation to control the operation of the internal combustion engine ( 1 ) stop several times, estimates. Control device capable of controlling the operation of an internal combustion engine ( 1 ) according to claim 1 or 2, in which the control device ( 5 ) linear characteristics for the voltage of the battery ( 3 ) for all the preceding voltage characteristics used in the preceding operation to control the operation of the internal combustion engine ( 1 ) several times before stopping, estimates linear characteristics for the voltage of the battery ( 3 ) based on a pair of the linear characteristics for the voltage of the battery ( 3 ), which were previously obtained, estimates the one capacity of the battery ( 3 ) between the capacity of the battery ( 3 ) immediately before and the capacity of the battery ( 3 ) immediately after the combustion engine ( 1 ) stops at the present time, and the voltage of the battery ( 3 ), immediately before the machine ( 1 ) at the current time based on the capacity of the battery ( 3 ) at the present time and the estimated linear characteristics at the present time. Control device capable of controlling the operation of an internal combustion engine ( 1 ), according to claim 3, wherein the control device ( 5 ) by using the previous linear characteristics obtained several times in advance, establishing reference characteristics, and the linear current characteristics for the voltage of the battery ( 3 ) by using the other preceding linear characteristics as the preceding linear characteristics separated from the reference characteristics by a predetermined value. Control device capable of controlling the operation of an internal combustion engine ( 1 ) according to claim 1 or 2, in which the control device ( 5 ) a plurality of different linear characteristics according to the capacity of the battery ( 3 ) at the time that it is started, the operation of the internal combustion engine ( 1 ) to stop, estimates; and the linear characteristics based on the capacity of the battery ( 3 ) at the present time and used. Control device capable of controlling the operation of an internal combustion engine ( 1 ) according to claim 1 or 2, in which the control device ( 5 ) a plurality of different linear characteristics according to a magnitude of a load current of the battery ( 3 ) until the time it starts, the operation of the internal combustion engine ( 1 to stop in the past, estimates; and the linear characteristics based on the load current of the battery ( 3 ) until the time it starts, the operation of the internal combustion engine ( 1 ) to stop, select and use. Control device capable of controlling the operation of an internal combustion engine ( 1 ) according to one of claims 1 to 6, in which the control device ( 5 ) a state of the voltage of the battery ( 3 ) determined to reach its steady state when a predetermined period of time has elapsed, which is counted from a time when the internal combustion engine ( 1 ) is stopped. Control device capable of controlling the operation of an internal combustion engine ( 1 ) according to any one of claims 1 to 7, further comprising a stop detection means for detecting the stop of a vehicle equipped with the control means, the control means (12) 5 ) the combustion engine ( 1 ) instructs to stop when the stop detecting means detects that the vehicle stops, and when the estimated minimum voltage of the battery ( 3 ) is greater than a predetermined value. Method for controlling an internal combustion engine ( 1 ) mounted on a vehicle to stop, the vehicle having an internal combustion engine ( 1 ), an electric generator ( 12 ), which by the Verbrennungsma machine ( 1 ) is powered to generate electrical power, a battery ( 3 ) showing the electrical power generated by the electric generator ( 12 ), stores, and a battery condition detection device ( 31 . 32 ), which indicates a state of the battery ( 3 ), and the method has a minimum voltage (Vmin) of the battery ( 3 ) based on a current state of the battery ( 1 ), when the internal combustion engine ( 3 ) restarts after the combustion engine ( 3 ) stops, estimates, and the internal combustion engine ( 3 ) instructs to stop when the estimated minimum voltage (Vmin) of the battery ( 3 ) is greater than a predetermined value (Vmisd), the method comprising the steps of: estimating (S1302) a linear characteristic for a voltage of the battery ( 3 ) based on voltage characteristics for a capacity of the battery ( 3 ), when the voltage of the battery ( 3 ) during the stop of the internal combustion engine ( 1 ) reaches its stable state; Estimating (S1303) a voltage (Vfs) of the battery ( 3 ) immediately before the restart of the internal combustion engine ( 1 ) at the present time based on a capacity of the battery ( 3 ) at the present time and the estimated linear characteristics; and estimating (S1307) the minimum voltage (Vmin) of the battery ( 3 ), when the internal combustion engine ( 1 ) at the current time by subtracting a voltage drop (ΔVst) in the battery ( 3 ) required to run the combustion engine ( 1 ) at the present time, from the estimated voltage (Vfs) of the battery ( 3 ) immediately before the combustion engine ( 1 ) restarts.