JP6583718B2 - Battery deterioration judgment device - Google Patents

Description

  The present invention relates to a battery deterioration determination device, and more particularly to idling stop control of an internal combustion engine in a vehicle equipped with an idling stop (also referred to as “IS”) function. Specifically, the present invention is used for restarting the internal combustion engine. The present invention relates to a battery deterioration determination device that performs battery deterioration determination and idling stop function prohibition determination.

In a vehicle equipped with an idling stop function for automatically stopping and restarting an internal combustion engine, if the lead battery (also simply referred to as “battery”) is deteriorated, the starter cannot be driven sufficiently. There is a risk of engine starting failure.
At this time, in order to prevent starting failure of the internal combustion engine, it is necessary to determine deterioration of the battery and prohibit idling stop.
For example, Patent Document 1 described below discloses a method for determining deterioration from a battery voltage.
And in patent document 1, the idling stop is started from the battery full charge state, the parasitic capacitance is calculated from the transition of the battery discharge current during the idling stop and the voltage between the battery terminals, and the parasitic capacitance falls below a predetermined life level. Sometimes the battery life is determined.
Further, in Patent Document 2 described later, when the two detected values are equal to or less than a predetermined value, the amount of voltage drop at the time of cranking and the maximum value of the charging current from the alternator after cranking are deteriorated. It is determined that there is.

Japanese Patent No. 4835355 JP 2005-127202 A

By the way, in the conventional battery deterioration determination device, the method of Patent Document 1 described above performs determination when idling is stopped. If the deterioration determination is established, the subsequent restart is performed. Has the inconvenience of failing.
Further, in the above-mentioned Patent Document 2, since it largely depends on the use state at the time of cranking and the surrounding environment (for example, the temperature, the start interval of the internal combustion engine, etc.), accurate determination may not be performed. In this case, the battery cannot be used effectively and the restart may fail depending on the threshold setting.
Therefore, for the purpose of preventing start-up failure from idling stop or the like, it is desirable to determine the deterioration before idling stop and during engine rotation in a state where the battery characteristics are stable.

  An object of the present invention is to realize a battery deterioration determination device that performs deterioration determination before idling stop and prevents an internal combustion engine from being unable to restart.

Therefore, in order to eliminate the inconvenience described above, the present invention detects a battery, power generation control means for controlling a power generation voltage of a generator that supplies charging power to the battery, and a charge / discharge current value of the battery. A battery deterioration determination device comprising: a battery state detection unit; and a deterioration determination unit that determines a deterioration state of the battery. The power generation control unit includes a battery charge state before the deterioration determination by the deterioration determination unit is performed. And the deterioration determining means starts discharging from the battery when a charging current of the battery detected by the battery state detecting means becomes smaller than a preset full charge determining threshold. together with either the battery when the generator is performing power generation at a predetermined voltage below the voltage discharge is performed from the battery Based on the current value of the current discharged and the preset discharge current threshold, and performs the deterioration determination of the battery.

According to the present invention, it is possible to prevent the internal combustion engine from being unable to restart by performing the deterioration determination before idling stop.
In addition, it is possible to provide a highly accurate deterioration determination method only by installing an ammeter as a battery sensor.

FIG. 1 is a flowchart for determining deterioration of a battery deterioration determining apparatus. (Example) FIG. 2 is a system configuration diagram of the battery deterioration determination device. (Example) FIG. 3 is a flowchart for determining a deterioration determination current threshold of the battery deterioration determination apparatus. (Example) FIG. 4 shows the time transition of the power generation state or battery charge / discharge state of the generator, (a) is a time chart showing the battery charge state SOC (%), (b) is a time chart showing the generator power generation voltage (V). (C) is a time chart which shows battery charging / discharging electric current (A). (Example)

  Embodiments of the present invention will be described below in detail with reference to the drawings.

1 to 4 show an embodiment of the present invention.
In FIG. 2, reference numeral 1 denotes a battery deterioration determination device.
The battery deterioration determination device 1 supplies power from the generator 3 to an electric load 4 when the generator 3 is driven by power from an internal combustion engine 2 mounted on a vehicle (not shown). On the other hand, the battery 5 is connected to be supplied, and the state of the battery 5 is determined.
That is, in the battery deterioration determination device 1, as shown in FIG. 2, when the internal combustion engine 2 is mounted on a vehicle, the generator 3 is transmitted to the internal combustion engine 2 so that power is transmitted from the internal combustion engine 2. It is provided to contact you.
The battery deterioration determination device 1 connects the battery 5 in the middle of the electric power line 6 when the electric load 4 is connected to the generator 3 through the electric power line 6.

In addition, the battery deterioration determination device 1 includes a control unit 7. The control unit 7 includes a battery state detection unit 8 that detects a charge / discharge current value of the battery 5, and charges the battery 5. Power generation control means 9 for controlling the power generation voltage of the generator 3 for supplying electric power, and deterioration determination means 10 for determining the deterioration state of the battery 5 are provided.
At this time, the control unit 7 of the battery deterioration determination apparatus 1 also includes a memory 11 that stores various control contents and detection data, and a timer 12 that measures time during control.
Then, the control unit 7 of the battery deterioration determination device 1 including the battery state detection means 8, the power generation control means 9, the deterioration determination means 10, the memory 11, and the timer 12 is connected to the generator 3. The power generation voltage instruction is output to the generator 3.
Further, the control unit 7 of the battery deterioration determination device 1 is connected to a battery sensor 13 provided in the battery 5, and a charge / discharge current and voltage detection signal from the battery sensor 13 is input.
Further, the control unit 7 of the battery deterioration determination device 1 is connected to a notification means 14 composed of a liquid crystal screen or the like, and a signal for displaying an indicator or character information is output to the notification means 14.
Furthermore, the battery deterioration determination device 1 also has a function of outputting a signal to a control means (also referred to as “ECU”) (not shown) for idling stop permission determination or idling stop prohibition determination. .

The degradation determination means 10 is configured to determine whether the battery 3 is based on a current value of a current discharged from the battery 5 and a preset discharge current threshold when the generator 3 is generating power at a predetermined voltage. 5 is used.
More specifically, the deterioration determination means 10 determines the deterioration of the battery 5 before the idling stop, in which the generator 3 is generating power at a predetermined voltage, and the internal combustion engine 2 cannot be restarted. The state of is prevented.
In addition, a battery sensor 13 is provided in the battery 5, and a highly accurate deterioration determination method can be provided only by installing an ammeter as the battery sensor 13.

The predetermined voltage of power generation performed by the power generation control unit 9 during the deterioration determination performed by the deterioration determination unit 10 is set to be equal to or lower than the voltage at which the battery 5 is discharged.
In this case, it is possible to appropriately perform the deterioration determination by giving priority to the discharge from the battery 5.
In addition, when the voltage value discharged from the battery 5 decreases to a predetermined voltage generated from the generator 3, the power supply capacity to the electric load 4 of the vehicle is increased by the generator 3 increasing the generated power. Can be maintained.

Further, the deterioration determination means 10 has two types of threshold values: a first threshold value for notifying the driver of battery replacement recommendation to the driver, and a second threshold value lower than the first threshold value for not performing idling stop. It is used to determine deterioration.
At this time, in the vehicle equipped with the idling stop function, when performing the deterioration determination of the battery used for restarting the internal combustion engine 2 and the prohibition determination of the idling stop function, the two kinds of first threshold values and In addition to the second threshold value, as is clear from FIG. 4C, the full charge determination threshold value that is lower than the first threshold value and the second threshold value, that is, determines the state of charge of the battery 5 on the charging side. And a total of three types of thresholds are used.
That is, in the first embodiment of the present invention, the first threshold value for battery replacement recommendation notification, the second threshold value for idling stop prohibition determination lower than the first threshold value, and the second threshold value. Three types of threshold values are set which are low and the threshold value for full charge determination of the battery 5.
Accordingly, it is possible to appropriately notify the driver of the deterioration state of the battery 5, and it is possible to contribute to accurate idling stop prohibition determination.

The power generation control unit 9 charges the battery 5 to a fully charged state before the deterioration determination by the deterioration determination unit 10 is performed.
In other words, the preset threshold value for determining the full charge of the battery 5 is used to detect the state of charge of the battery 5 based on the detection signal from the battery sensor 13 and output from the power generation control means 9 to the generator 3. The battery 5 is charged until the battery 5 is fully charged according to the generated voltage instruction.
Thereby, the preconditions for determining the deterioration of the battery 5 can be unified, and the deterioration determination with high accuracy is possible.

In addition, the deterioration determination unit 10 performs the deterioration determination after a predetermined time has elapsed after the charging by the power generation control unit 9 is completed.
That is, after the charging by the power generation control means 9 is completed, the timer 12 is reset and then the measurement by the timer 12 is started. After a predetermined time has elapsed, the deterioration determination means 10 The deterioration determination is started.
Thereby, the discharge characteristic of the battery 5 is stabilized after a predetermined time has elapsed, and the deterioration determination can be performed after the discharge characteristic of the battery 5 is stabilized. Therefore, the deterioration determination can be suitably performed. .

  Next, the operation will be described along the flowchart for deterioration determination of the battery deterioration determination device 1 of FIG.

When the deterioration determination program of the battery deterioration determination device 1 is started (101), the process proceeds to battery charge control processing (102).
In this battery charge control process (102), in order to unify the preconditions for determining the deterioration of the battery 5, the charge state of the battery 5 is determined by the generated voltage instruction output from the power generation control means 9 to the generator 3. Is a process of fully charging.
And it transfers to judgment (103) of whether a battery charge state is a full charge.
In the determination (103) of whether or not the battery charge state is full charge, a preset threshold value for full charge determination of the battery 5 is used, and the charge state of the battery 5 is determined based on the detection signal from the battery sensor 13. Is detected.
If the determination (103) of whether or not the battery charge state is full is NO, the process returns to the battery charge control process (102) described above.
When the process returns to the battery charge control process (102), since the state of charge of the battery 5 has not reached full charge, pre-judgment charging is started as shown in FIG. As shown in FIG. 4 (c), the battery 5 is precharged as shown in FIG. 4 (c) according to the power generation voltage instruction for switching the power generation voltage output from the power generation control means 9 to the generator 3 to a high voltage. Do.
The high voltage mentioned here is a voltage higher than usual, and specifically means that the power generation instruction value of 13V is switched to 15V.
Thereafter, the process proceeds to a determination (103) as to whether or not the battery charge state is a full charge. If the determination (103) is YES, the process proceeds to a process (104) for reducing the generated voltage of the generator 3 to a predetermined value. Transition.
In this process (104), as shown in FIG. 4B, the generated voltage instruction for switching the generated voltage output from the power generation control means 9 to the generator 3 is switched from a high voltage to a low voltage.
Then, after the power generation voltage of the generator 3 is reduced to a predetermined value, the process proceeds to a process (105) for resetting the timer 11, and then a process (106) for starting measurement by the timer 11 is performed.
In the processing (105) and processing (106), the discharge characteristic of the battery 5 is stabilized by elapse of a predetermined time set in advance.
After the above process (106), the process proceeds to determination (107) of whether a predetermined time has elapsed.
In this determination (107), the stabilization of the discharge characteristics of the battery 5 is determined by determining whether or not a predetermined time set in advance has elapsed.
If the determination (107) on whether or not the predetermined time has passed is NO, the determination (107) is repeated until the determination (107) becomes YES.
If the determination (107) on whether or not the predetermined time has elapsed is YES, the process proceeds to a process (108) for detecting the discharge current of the battery 5.
In this process (108), the battery sensor 12 detects the discharge current of the battery 5.
And after the process (108) which detects the discharge current of the battery 5, it transfers to judgment (109) whether the discharge current from the battery 5 is more than a 1st threshold value.
In this determination (109), the discharge current from the battery 5 is detected after a lapse of a predetermined time, and whether or not the discharge current is equal to or greater than a first threshold value for notifying the driver of battery replacement recommendation to the driver. Judgment.
If the determination (109) on whether or not the discharge current from the battery 5 is equal to or greater than the first threshold value is YES, that is, if the discharge current from the battery 5 is equal to or greater than the first threshold value, the battery normal determination / idling stop permission The process proceeds to the determination process (110).
In this process (110), since it is determined that the battery 5 is normal, notifying the driver is not performed and a signal for determining idling stop is output to the control means (ECU).
After the battery normality determination / idling stop permission determination process (110), the process proceeds to the end (114) of the deterioration determination program of the battery deterioration determination apparatus 1 described later.
Further, in the determination (109) of whether or not the discharge current from the battery 5 is equal to or greater than the first threshold, the determination (109) is NO, that is, the discharge current from the battery 5 is less than the first threshold. In this case, the process proceeds to determination (111) as to whether or not the discharge current from the battery 5 is equal to or greater than the second threshold value.
In this determination (111), it is determined whether or not the discharge current from the battery 5 is lower than the first threshold value and is equal to or higher than the second threshold value at which the idling stop is not performed.
If the determination (111) of whether or not the discharge current from the battery 5 is greater than or equal to the second threshold is YES, that is, if the discharge current from the battery 5 is greater than or equal to the second threshold, the battery replacement recommendation determination / idling The process proceeds to the stop permission determination process (112).
In this process (112), it is determined that the state of the battery 5 is the recommended replacement state, a signal is output to the notification means 14 to notify the driver, and an idling stop permission determination signal is output. It is output to the control means (ECU).
After the battery replacement recommendation determination / idling stop permission determination process (112), the process proceeds to an end (114) of a deterioration determination program of the battery deterioration determination apparatus 1 described later.
Further, in the determination (111) of whether or not the discharge current from the battery 5 is greater than or equal to a second threshold value, this determination (111) is NO, that is, when the discharge current from the battery 5 is less than the second threshold value. Shifts to the battery deterioration determination / idling stop prohibition determination process (113).
In this process (113), since the state of the battery 5 is in a deteriorated state, it is determined that the battery 5 needs to be replaced, and a signal is output to the notification means 13 to notify the driver. The idling stop prohibition determination signal is output to the control means (ECU).
After the battery deterioration determination / idling stop prohibition determination process (113), the process proceeds to an end (114) of a deterioration determination program of the battery deterioration determination apparatus 1 described later.

The operation will be described along the flowchart for determining the deterioration determination current threshold of the battery deterioration determination device 1 of FIG.
In addition, in the determination method of the threshold value of the generation voltage instruction value and the deterioration determination current used for determining the deterioration of the battery, if the generation voltage instruction value is too large, the battery cannot be discharged even if the battery has not deteriorated. Therefore, it is necessary to set a low value within the range in which the vehicle operates normally.

When the deterioration determination current threshold determination program of the battery deterioration determination apparatus 1 is started (201), first, a process of preparing a battery (new) to be used (202) and a process of mounting the prepared battery on a vehicle ( 203).
Then, similarly to the battery deterioration determination control described above, the process proceeds to a process (204) for fully charging the battery in order to measure the battery discharge current of the battery.
After this process (204), the process proceeds to a process (205) for reducing the generator power generation voltage to a predetermined value.
After the process (205) for reducing the generator power generation voltage to a predetermined value, the process proceeds to a process (206) for measuring the battery discharge current.
For this reason, each process from the above-mentioned process (204) to process (206) is performed, and the battery discharge current of the battery is measured by the same method as the control for determining the deterioration of the battery.
And after the process (206) which measures battery discharge current, it transfers to the process (207) which removes a battery from a vehicle and degrades by an endurance test etc.
In this process (207), deterioration of the battery is promoted by using an endurance test or the like.
In addition, after the process of removing the battery from the vehicle and degrading it by a durability test or the like (207), the process proceeds to the determination (208) of whether or not the degree of deterioration of the battery has reached the use limit.
In this determination (208), as a method of determining the degree of deterioration of the battery, a method of setting a reference based on an internal resistance value and a value of the remaining capacity, a method of checking whether or not the vehicle actually starts and fails to start, etc. Can be considered.
In the determination (208) of whether or not the degree of deterioration of the battery has reached the use limit, if the determination (208) is NO, the process returns to the process (203) for mounting the prepared battery on the vehicle.
That is, since the degree of deterioration of the battery (new article) has not reached the use limit, the process is returned to the above processes (204) to (206) again to gradually deteriorate the battery, and the battery discharge current of the battery The measurement is executed.
At this time, the battery discharge current value immediately before the battery use limit is obtained by repeatedly performing the steps from the above-described processing (203) to determination (208).
If the determination (208) as to whether or not the battery deterioration level has reached the use limit is YES, the process proceeds to a process (209) in which the battery discharge current measured last time is used as a threshold value.
That is, in this process (209), since the battery degradation level has reached the use limit in the determination (208) as the previous step, the battery discharge current measured last time becomes the previous battery discharge current value, and the battery discharge immediately before this is determined. The current value is adopted as the threshold value.
And after the process (209) which employ | adopts the battery discharge current measured last time as a threshold value, it transfers to completion | finish (210) of the deterioration determination current threshold value determination program of the said battery deterioration determination apparatus 1. FIG.

According to the embodiment of the present invention described above, the deterioration determination of the battery 5 can be executed at an arbitrary timing before the idling stop is executed during traveling, and the restart failure from the idling stop can be prevented.
Further, by changing the power generation voltage of the generator 3 when the internal combustion engine 2 is driven and determining the degree of deterioration of the battery 5 from the battery discharge current at that time, before idling stop or at the time of cranking (for example, “ This can also be taken into account when the internal combustion engine is driven.) Since the deterioration of the battery can be detected, it is possible to prevent a restart failure from the idling stop.

  The present invention is not limited to the above-described embodiments, and various application modifications are possible.

For example, in the embodiment of the present invention, the configuration is such that the power generation voltage of the generator is reduced to a predetermined value by a power generation voltage instruction output from the power generation control means to the power generator, but a plurality of storage batteries are mounted on the vehicle. In this case, it is possible to adopt a special configuration in which the power generation voltage of the generator is reduced to 0 V by a power generation voltage instruction output from the power generation control means to the power generator.
That is, when the power generation voltage of the generator is reduced to 0 V by the power generation voltage instruction from the power generation control means, the deterioration determination is performed using the battery voltage that decreases according to the degree of battery deterioration.

DESCRIPTION OF SYMBOLS 1 Battery deterioration determination apparatus 2 Internal combustion engine 3 Generator 4 Electric load 5 Battery 6 Power line 7 Control part 8 Battery state detection means 9 Power generation control means 10 Deterioration determination means 11 Memory 12 Timer 13 Battery sensor 14 Notification means

Claims (4)

A battery , power generation control means for controlling a power generation voltage of a generator for supplying charging power to the battery, battery state detection means for detecting a charge / discharge current value of the battery, and determining a deterioration state of the battery A battery deterioration determination device comprising: a deterioration determination means;
The power generation control means charges the state of charge of the battery to full charge before the deterioration determination by the deterioration determination means is performed,
The deterioration determining unit is configured to start discharging from the battery when the charging current of the battery detected by the battery state detecting means becomes less than a predetermined full charge determination threshold value, the generator is the The battery deterioration is determined based on a current value of a current discharged from the battery and a preset discharge current threshold when power is generated at a predetermined voltage equal to or lower than a voltage at which the battery is discharged. A battery deterioration determination device characterized by the above. The battery deterioration determination device according to claim 1, wherein the predetermined voltage of power generation performed by the power generation control means during the deterioration determination performed by the deterioration determination means is a voltage at which the battery is discharged.   The deterioration determination means uses two types of threshold values: a first threshold value that informs the driver of battery replacement recommendation to the driver, and a second threshold value that is lower than the first threshold value that does not perform idling stop. The battery deterioration determination device according to claim 1 or 2, wherein the determination is performed. The deterioration determining means, the power generation after the charging by the control means is completed, battery deterioration determination device according to any one of claims 1 to 3, characterized in that the deterioration determination after a predetermined time has elapsed .

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