JP3013751B2 - Hybrid electric vehicle - Google Patents

Abstract

PURPOSE:To prevent a hybrid electric automobile provided with an internal combustion engine for power generator or running from running with its proper battery being removed. CONSTITUTION:In a hybrid electric automobile provided with a battery 1, a drive motor 2, an internal combustion engine directly or indirectly used for driving wheels 3, and control means 5 which controls the actuation of the motor 2 and internal combustion engine, a battery specification discriminating means 9 which can discriminate whether the battery 1 meets prescribed specifications is provided and, when the means 9 discriminates that the battery 1 does not meet the specifications, the control means 5 limits the output of the motor 2 of internal, combustion engine.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electric vehicle driven by driving wheels by an electric motor, and more particularly to a hybrid electric vehicle provided with a power generating engine or a driving engine.

[0002]

2. Description of the Related Art In recent years, there has been an increasing movement to protect the global environment. In particular, air pollution caused by consuming a large amount of fossil fuels has become a serious problem. This is a very important issue in protecting the environment. Engines using fossil fuels such as gasoline and light oil are now mainstream in automobiles, and air pollution from automobile exhaust gas in large cities, especially in those urban areas, has become a very serious problem. Electric vehicles that emit no emissions are being reviewed.

At present, this electric vehicle has various problems in practical use. Although it has been put to practical use in some fields, it has not yet been widely used. Therefore, in order to make electric vehicles more practical, various technologies have been proposed for electric vehicles. For example, due to limited battery performance, today's electric vehicles try to increase the mileage per charge,
It is necessary to mount a large amount of batteries, which significantly increases the weight of the vehicle and occupies a large space in the vehicle. For this reason, there is a problem that the power performance and livability of the vehicle are deteriorated. Of course, if the amount of battery is reduced, the mileage per charge cannot be increased.

In an electric vehicle, charging must be performed when the remaining capacity of a battery, which is an energy source, is reduced. However, at present, this battery cannot be charged as easily as gasoline replenishment. For this reason, when the vehicle stops on the road due to insufficient battery capacity, it is not easy to take measures against the stop. In order to compensate for such a problem of the electric vehicle at the present time, a so-called hybrid electric vehicle in which an engine is mounted on the electric vehicle itself has been proposed.

[0005] Specific examples of such a hybrid electric vehicle include a series hybrid vehicle as shown in Fig. 8A and a parallel hybrid vehicle as shown in Fig. 8B. The series hybrid vehicle shown in FIG. 8A includes an engine (internal combustion engine) 7 and a generator 6 driven by the internal combustion engine 7. When the capacity of the battery 1 is insufficient, the internal combustion engine 7 is operated to generate electric power by the generator 6, and the vehicle 2 is driven by driving the wheels 3 by the motor 2 while charging the battery 1 with the generated electric power. Even when the capacity of the vehicle 1 is insufficient, the electric vehicle can run. Reference numeral 4 denotes a motor controller, and reference numeral 5 denotes a traveling management controller. The motor controller 4 controls the output of the motor in accordance with a control signal from the traveling management controller 5.

The parallel hybrid vehicle shown in FIG. 8 (b) is equipped with a traveling engine (internal combustion engine) 8 in parallel with the traveling motor 2 and drives the wheels 3 with the traveling motor 2. The wheels 3 are also driven by the internal combustion engine 8 for traveling.
Can be driven. Therefore, even when the capacity of the battery 1 is insufficient, the vehicle can be driven by the driving internal combustion engine 8.

Therefore, in such a hybrid electric vehicle, the internal combustion engine 8 is operated in an auxiliary manner,
While reducing exhaust gas and obtaining the effect of suppressing air pollution,
It can extend the mileage of the car.

[0008]

However, in such a hybrid electric vehicle, the size of the battery is inevitably increased, and a heavy load is imposed on the vehicle. On the other hand, in a hybrid electric vehicle as described above, electric energy is extracted from a generator driven by an engine and a motor is driven (series hybrid vehicle), or wheels are directly driven by an engine (parallel type vehicle). (A hybrid vehicle), the vehicle can be driven. Therefore, the user of the hybrid electric vehicle may remove the battery without permission in order to enhance the vehicle's athletic performance, or may replace the battery with a lighter battery having a smaller capacity than the regular battery to reduce the vehicle's weight. Can be considered.

However, removing the battery,
Alternatively, if the hybrid electric vehicle is run after replacing the battery with a battery having a smaller capacity than the regular battery, the vehicle performance may not be sufficiently exhibited. Furthermore, there is a possibility that the ratio of running while the engine is running may increase, and it is considered that the environmental protection required for the electric vehicle cannot be sufficiently achieved.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and is intended to prevent a battery from being removed or replaced with a battery having a smaller capacity than a regular battery to prevent the vehicle from running. The purpose is to provide.

[0011]

According to the present invention, a hybrid electric vehicle according to the present invention includes a battery that can be charged by external charging means, and a driving motor that can drive wheels by power from the battery. A hybrid electric vehicle including an engine used indirectly for driving the wheels, and control means for controlling the operation of the electric motor and the engine; whether the battery satisfies a predetermined standard; Is provided, and the control means limits the output of the driving motor when the battery standard determination means determines that the battery does not satisfy the predetermined standard. While being configured to control at least one of the electric motor or the engine , the battery standard determination means,
The internal resistance value of the battery is larger than a set standard value.
The battery does not meet the specified standard
It is characterized by being constituted so that.

[0012]

[0013]

[0014]

[0015] The hybrid electric vehicle of the present invention according to claim 2, in the configuration of claim 1, wherein a stop mode in which the electric motor and the engine stopped state, the stop mode or RaMisao operation has been the A starter switch is provided which is provided with a running mode capable of starting the electric motor and maintaining the operating state after the starting, and the battery standard determining means makes a determination immediately after the starter switch is switched from the stop mode to the running mode. And the control means controls the electric motor based on information from the battery standard determination means.

[0016]

[0017] is et al., A hybrid electric vehicle of the present invention according to claim 3, a battery capable of charging by the external charging means, a driving motor capable of driving the wheels by electric power from the battery, the driving of the wheel Battery that can determine whether or not the battery has been removed in a hybrid electric vehicle including an engine indirectly used for controlling the electric motor and control of the operation of the engine. Judgment means is provided, and when the control means judges that the battery has been removed by the battery removal judgment means, at least the motor or the engine so as to limit the output of the drive motor. It is characterized in that one is controlled.

[0018]

Furthermore, a hybrid electric vehicle of the present invention described in claim 4 includes a battery which can be charged by external charging means, a driving motor capable of driving the wheels by electric power from the battery, for driving the wheel Battery removal judging means for judging whether or not the battery has been removed in a hybrid electric vehicle including an engine directly used in the vehicle and control means for controlling the operation of the electric motor and the engine The control means is configured to perform control to limit the output of the engine when the battery removal determination means determines that the battery is removed. And

[0020]

In the hybrid electric vehicle according to the first aspect of the present invention, normally, electric power is supplied from a battery to a driving motor, and wheels are driven by the driving motor. Also, if necessary, the engine is used indirectly to drive the wheels. And battery standard judgment
In the means, the internal resistance value of the battery is set to a specified value.
If the battery is larger than
Judge that there is no. In this way, when the battery standard determining unit determines that the battery does not satisfy the predetermined standard, the control unit controls at least one of the driving motor and the engine, and the output of the driving motor is limited.

[0021]

[0022]

[0023]

In the hybrid electric vehicle according to the second aspect of the present invention, when the starter switch is operated in the stop mode, the electric motor and the engine are stopped, and when the starter switch is operated in the drive mode, the electric motor is activated after the start of the electric motor. Will be retained. Then, when the starter switch is switched from the stop mode to the running mode, a determination is made by the battery standard determining unit, and the motor is controlled by the control unit based on information from the battery standard determining unit.

[0025]

[0026]

[0027]

[0028]

In the above-described hybrid electric vehicle according to the fourth aspect of the invention, normally, electric power is supplied from a battery to a driving motor, and the wheels are driven by the driving motor. Also, if necessary, the engine is used directly to drive the wheels. Then, when the battery removal determining means determines that the battery is removed, the output of the engine is limited by the control means.

[0030]

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram schematically showing a functional configuration of a main part of a hybrid electric vehicle according to an embodiment of the present invention; FIG. FIGS. 3A and 3B are graphs for explaining the contents, wherein FIG. 3A is a graph showing a change characteristic of a battery voltage when the electric motor is started, FIG. 3B is a graph showing a change characteristic of a battery current, and FIG. It is a figure showing a map used for control.

In this embodiment, a case where the hybrid electric vehicle is a series type hybrid vehicle will be described. In FIG. 1, reference numeral 1 denotes a battery, and the battery 1 can be repeatedly charged by an external charger (not shown) not provided in the vehicle. 2 is a motor (drive motor) supplied with electric power from the battery 1
The driving wheels 3 of the vehicle are driven by the motor 2. The output of the motor 2 is controlled by the motor controller 4.
In this example, the output of the motor 2 is controlled based on the driver's output request operation (that is, the depression state of an accelerator pedal (not shown)), the current operation state of the motor 2, and the like.
When the motor controller 4 detects a braking command from the depression of a brake pedal (not shown) or the like, the motor controller 4
Is switched to a generator, so that regenerative braking for applying a braking force can be performed while generating power using the rotational energy from the driving wheels 3.

Although not shown, the vehicle is provided with a generator (or generator) and an internal combustion engine as a power generation engine, and the generator is driven by the power generation internal combustion engine. I have. Then, the electric power generated by the generator is supplied to the battery 1 and the motor 2 (see FIG. 8A). Thereby, for example, in a suburb or a place where the degree of air pollution is low, the vehicle runs by supplying electric power to the motor 1 using the internal combustion engine for power generation.
In an urban area or a place where air pollution is severe, the vehicle can be driven by the electric power stored in the battery 1.

Now, the control system of the motor 2 will be described. As shown in FIG. 1, a control signal to the motor controller 4 is set and output by a traveling management controller 5 as a control means. I have. The traveling management controller 5 comprehensively controls the states of the motor 2 and the internal combustion engine according to the traveling state of the hybrid electric vehicle.

The traveling management controller 5
The battery standard judging means 9 is provided therein. The battery standard judging means 9 judges whether or not the battery 1 is a legitimate battery which satisfies a predetermined condition based on information from the battery 1. Therefore, if the battery 1 is removed or replaced with a small battery having a smaller capacity than a predetermined standard, this can be detected. Then, based on the detection information of the battery standard determining means 9, the travel management controller 5 determines whether the battery 1 does not satisfy the predetermined standard.
, A control signal is set to limit the output of the motor 2 and, for example, the motor 2 is controlled to be in a traveling impossible (interlock) state.

The specification of the battery 1 is determined each time the driver operates a starter switch (corresponding to an ordinary ignition key of a vehicle) of the vehicle in order to start the vehicle. When the motor 2 (or the internal combustion engine) is started by switching from the stop mode to the running mode, the battery standard determining means 9 determines the standard of the battery 1 immediately after the switching. When the vehicle is not allowed to run (interlock), the power supply to the motor 2 is cut off to prevent the vehicle from starting. When the battery 1 satisfies the formal standard, the vehicle is started and can travel normally.

By the way, the battery standard judging means 9 judges based on the detection information of two points of the internal resistance value and the voltage value of the battery 1. Even if any one of these two detection items, If the conditions are not met,
It is determined that the battery 1 has been removed or replaced with a battery that does not conform to the standard.

Here, the internal resistance value of the battery 1 and the voltage value of the battery 1 are detected based on the detection information from the remaining battery capacity detection means 10 generally provided in the electric vehicle. That is, the remaining battery capacity detecting means 10 calculates the remaining capacity of the battery from the terminal voltage of the battery 1 and the discharge current, so that the voltage information and the current information from the remaining battery capacity detecting means 10 are obtained and detected. The internal resistance value and the voltage value of the battery 1 can be detected from the voltage value and the current value.

Here, these internal resistance values and voltage values are used as criteria for determining the standard of the battery 1 for the following reasons. First, since the internal resistance and the weight (corresponding to the capacity) of the battery 1 are generally inversely proportional, when the battery 1 is replaced with a non-standard one, the internal resistance also becomes non-standard and the internal resistance becomes non-standard. This is because if the resistance is measured, it can be determined whether or not the battery 1 conforms to the standard.

The detection of the internal resistance of the battery 1 will be described. When the motor 2 is started, the battery voltage and the battery current change as shown in FIG. here,
In FIG. 2, (a) shows a change in the battery voltage, and (b) shows a change in the battery current, and these horizontal axes coincide with time. Driver sets starter switch to O
N, when the starter switch is switched from the stop mode to the running mode, as shown in FIG.
, The current I to the motor 2 increases, and the battery voltage decreases. Therefore, the voltage drop amount of the current applied starting from (point A) to the point immediately after the B to the motor 2 and (V _A -V _B) between the current I _B, and calculates the internal resistance of the battery 1 by the following equation. Internal resistance _{= (V A -V B) /} I B and, thereby performing the standard decision battery 1 from the relation between the internal resistance is calculated, the battery discharge rate when the this equation.

That is, as shown by a curve A in FIG. 3, the internal resistance of the battery 1 has a correlation with the battery discharge rate. When the battery discharge rate increases to a certain extent, the internal resistance tends to increase accordingly. There is. For this reason, in the present invention, the relationship between the discharge rate of the regular battery 1 and the internal resistance is stored in advance, and a value obtained by multiplying the regular standard value by a predetermined number (coefficient a) in consideration of an error or the like is used. The threshold is used for the determination. If the detected internal resistance value is equal to or larger than the threshold value (that is, in the modification determination area in FIG. 3), it is determined that the internal resistance is too large and the battery is not a proper battery. The map as shown in FIG. 3 is provided in the ROM of the travel management controller 5.

Next, regarding the voltage value, if the battery 1 is removed from the vehicle, the voltage value becomes 0, and the removal of the battery 1 can be detected immediately. Also, if you have a small number of non-standard batteries,
The voltage value should be small, and the removal of the regular battery 1 can be detected. Also,
In the determination of the voltage value, a value obtained by multiplying the standard value by a predetermined value b (0 <b <1) in consideration of the variation of the individual voltages of the battery 1 and the like is set as a threshold. Thus, an interlock control signal is set by the travel management controller 5.

By the way, as shown in FIG. 1, the battery remaining capacity detecting means 10 is connected to a meter panel 11 provided in the vehicle compartment, whereby the discharge rate information of the battery 1 is changed to the voltage in the meter panel 11. It is displayed on a meter (not shown) or a battery warning light. further,
The meter panel 11 receives information from the travel management controller 5 and has an alarm lamp 12 as warning means. When the vehicle is interlocked by the travel management controller 5 based on the information from the battery standard determining means 9, the alarm lamp 12 is activated to notify the driver that the battery does not satisfy the predetermined standard. -ing

Since the hybrid electric vehicle as one embodiment of the present invention is configured as described above, it operates according to, for example, a flowchart shown in FIG. The flowchart will be described. First, when the starter switch is turned on, it is determined in step S1 whether the starter switch has been switched to the running mode. If not, return to the start and continue around this route until the starter switch is switched to running mode.

When the starter switch is switched to the running mode, the process proceeds to step S2, where it is determined whether or not the internal resistance of the battery 1 is smaller than a predetermined value (regular value × coefficient a). At this time, if the internal resistance of the battery is larger, the process proceeds to step S5, where a control signal for prohibiting running (interlock) is set. If the internal resistance of the battery 1 is smaller than the predetermined value (regular value × coefficient a), the process proceeds to step S3, and it is determined whether the battery voltage is larger than the predetermined value (regular value × coefficient b). You.

If the battery voltage is lower than the predetermined value, the process proceeds to step S5, in which the output of the motor 2 is limited by the travel management controller 5, and for example, a control signal for prohibiting travel (interlock) is set. If the battery voltage is higher than the predetermined value, the process proceeds to step S4, where a setting signal for enabling travel is set, and the driver can drive the vehicle.

Therefore, when the driver switches the starter switch to the driving mode in order to drive the hybrid electric vehicle of the present invention from a stopped state, the voltage _VA of the battery 1 is reduced by the battery standard determining means 9. Is read. Then the battery voltage and the internal resistance is read voltage V _B and the current I _B of battery 1 from the lapse of a predetermined time is detected.

Using the map shown in FIG. 3, it is determined whether or not the internal resistance value of the battery 1 is equal to or less than a predetermined value (threshold) in consideration of the discharge rate. Further, it is determined whether the voltage value is equal to or higher than a set threshold value. Then, only when these two conditions are satisfied, the internal combustion engine or the motor 2 provided in the vehicle starts. When the battery internal resistance value is equal to or more than a predetermined value or the battery voltage value is equal to or less than a predetermined value, the motor 2 is controlled by the motor controller 5, and the vehicle does not start even if, for example, a starter switch is operated. Then, the alarm lamp is turned on to warn the driver that the battery 1 is not of the proper standard.

As a result, the battery 1 can be removed,
It is possible to prevent the vehicle from running by changing the battery 1 to a small capacity battery, and to maintain the performance of the hybrid electric vehicle. In the present embodiment, a description is mainly given of a series hybrid vehicle, but this can be applied to a parallel hybrid vehicle. Further, in this embodiment, the alarm lamp 12 is provided on the meter panel 11 and the alarm lamp 12 is used as a warning means. However, even if the alarm lamp 12 is not particularly provided in the meter panel 11, a normal battery warning light can be used. May function as warning means.

The battery standard judging means 9 includes:
In addition to the above-described embodiment, various sensors such as a sensor for detecting the weight of the battery 1 or a sensor for detecting the size (size) of the battery 1 may be employed.
Further, instead of the battery standard determining means 9, a battery removal determining means 13 which can directly determine whether or not the battery 1 has been removed may be provided.

As shown in FIG. 5, for example, as shown in FIG.
4. A limit switch 15 having a contact capable of detecting whether or not it is mounted on the
It is possible to detect whether or not the battery 1 is removed by turning on / off the battery. In this case, the contact of the limit switch 15 can be one that conducts electricity when the battery 1 is mounted, but may be one that shuts off electricity when the battery 1 is mounted.

It is also possible to employ a sensor for detecting the weight of the battery 1 as the battery removal determining means 13. Further, in the present embodiment, when the battery 1 does not conform to the standard, the motor controller 5 controls the motor 2 so that the power supply to the motor 2 is cut off so that the vehicle is not started. The control is not limited to such a mode in which traveling is not possible (interlock). For example, the output of the motor 2 is limited to urge the driver to return the battery 1 to the one of the normal standard. You may.

Here, a specific example of the output limitation of the motor 2 is as follows.
This will be described with reference to FIGS. In addition, these FIG.
In FIG. 7 and FIG. 7, the solid line shows the performance characteristics during normal operation, and the broken line shows the performance characteristics during output limitation. The output limiting method shown in FIG. 6 is such that the output torque of the motor 2 is gradually reduced in a range where the vehicle speed (or the rotation speed of the motor 2) is equal to or higher than a set value. Therefore, when the vehicle speed (or the rotation speed of the motor 2) is lower than the set value, the torque is not limited, and the required driving force is obtained at the time of climbing or starting. On the other hand, the vehicle speed (or the rotation speed of the motor 2)
When the vehicle speed is higher than the set value, the torque is limited, and through this torque limitation, the driver is made to feel that the output of the vehicle is insufficient, and is prompted to perform external charging.

The output limiting method shown in FIG. 7 limits the maximum torque irrespective of the rotation speed of the motor 2, and makes the driver feel that the maximum torque of the vehicle is insufficient, thereby reducing the external torque. Prompt to charge. Either method can be used, but an output limiting method as shown in FIG. 6 is preferable in consideration of the performance at the time of climbing or starting.

In the series hybrid electric vehicle as shown in this embodiment, the internal combustion engine 7 is controlled in place of the motor 2 when the battery 1 does not conform to the standard or when the battery 1 is removed. It may be. Also in this case, it is possible to configure so as not to start the internal combustion engine 7 or to control the output of the internal combustion engine 7 to be limited by the characteristics shown in, for example, FIG. 6 or FIG.

Further, in the series hybrid electric vehicle, both the motor 2 and the internal combustion engine 7 may be controlled when the battery 1 does not conform to the standard or when the battery 1 is removed. That is, it is possible to configure so that the motor 2 and the internal combustion engine 7 are not started, or to control such that the output of the motor 2 and the internal combustion engine 7 is limited by, for example, the characteristics shown in FIG. 6 or FIG.

However, in a series hybrid electric vehicle, by limiting the output of the motor 2,
Since it is possible to operate the internal combustion engine 7 while keeping the fuel consumption and the exhaust gas in a favorable operation range, it is preferable that the output of the motor 2 is limited. Although the above-described embodiment is applied to a series hybrid electric vehicle, it can be similarly applied to a parallel hybrid electric vehicle as shown in FIG. 8B. That is, also in the parallel hybrid electric vehicle, the battery standard judging means 9 or the battery detaching judging means 13 is provided to control the internal combustion engine 8 when the battery 1 does not conform to the official standard or when the battery 1 is removed. You may do so. Also in this case, it is possible to configure so as not to start the internal combustion engine 7 or to control the output of the internal combustion engine 7 to be limited by the characteristics shown in, for example, FIG. 6 or FIG.

It is also possible to apply another combustion engine such as an external combustion engine instead of the internal combustion engine.

[0058]

As described above in detail, according to the hybrid electric vehicle of the first aspect of the present invention, a battery which can be charged by the external charging means and a driving device which can drive wheels by the electric power from the battery. In a hybrid electric vehicle including an electric motor, an internal combustion engine indirectly used for driving the wheels, and control means for controlling operations of the electric motor and the internal combustion engine, the battery conforms to a predetermined standard. Battery standard determining means for determining whether or not the battery satisfies a predetermined standard is provided. When the battery standard determining means determines that the battery does not satisfy a predetermined standard, the control means determines the output of the driving motor together configured to control at least one of the electric motor or the internal combustion engine as limited to, the the battery specification determination means, said
The internal resistance of the battery is larger than the set standard value
And that the battery does not satisfy the predetermined standard.
Is configured to directly increase battery performance.
Detects whether the battery specification is correct
After the determination, it is possible to prevent the vehicle from running by removing the battery or changing the battery to a smaller capacity, and the performance of the vehicle can be maintained as specified.

[0059]

[0060]

[0061]

[0062]

[0063]

Further, according to the hybrid electric vehicle of the present invention described in claim 2 , in the structure of claim 1 ,
A stop mode in which the electric motor and the internal combustion engine in a stopped state, the starter switch equipped with a drive mode is the stop mode or RaMisao operation activates the electric motor may hold the operating state after the start is provided, Immediately after the starter switch is switched from the stop mode to the traveling mode, the battery standard determining unit makes a determination, and the control unit controls the electric motor based on information from the battery standard determining unit. With this configuration, it is possible to accurately determine the battery standard, and if the battery is removed or the battery is changed to a smaller capacity, the motor cannot be started, and the vehicle can be prevented from running. The driver can be provided with a battery conforming to the standard of the vehicle.

[0065]

[0066]

[0067]

[0068] Further, according to the hybrid electric vehicle of the present invention described in claim 3, and a battery capable of charging by the external charging means, a driving motor capable of driving the wheels by electric power from the battery, the driving of the wheel Battery that can determine whether or not the battery has been removed in a hybrid electric vehicle including an internal combustion engine indirectly used for the electric motor and control means for controlling the operation of the electric motor and the internal combustion engine When the control means determines that the battery is removed, the motor or the internal combustion engine or the internal combustion engine is controlled so as to limit the output of the driving motor. By being configured to control at least one of the engines, it is possible to prevent the vehicle from running with the battery removed, and to improve the performance of the vehicle. It is possible to maintain the standards street.

[0069]

[0070] Further, according to the hybrid electric vehicle of the present invention described in claim 4, and a battery capable of charging by the external charging means, a driving motor capable of driving the wheels by electric power from the battery, the driving of the wheel Battery that can determine whether or not the battery has been removed in a hybrid electric vehicle including an internal combustion engine used directly for power generation and control means for controlling the operation of the electric motor and the internal combustion engine Removal control means is provided, and the control means is configured to perform control to limit the output of the internal combustion engine when the battery removal determination means determines that the battery is removed. By doing
The vehicle can be prevented from running with the battery removed, and the performance of the vehicle can be maintained as specified.

[Brief description of the drawings]

FIG. 1 is a block diagram schematically showing a functional configuration of a main part in a hybrid electric vehicle as one embodiment of the present invention.

FIGS. 2A and 2B are graphs for explaining control of removal and traveling prevention in a hybrid electric vehicle as one embodiment of the present invention, in which FIG. 2A is a graph showing a change characteristic of a battery voltage when a motor is started; (B) is a graph similarly showing the change characteristic of battery current.

FIG. 3 is a diagram showing a map used for removal traveling prevention control in the hybrid electric vehicle as one embodiment of the present invention.

FIG. 4 is a flowchart illustrating a control operation flow in the hybrid electric vehicle as one embodiment of the present invention.

FIG. 5 is a diagram showing a specific example of a battery removal determining means as a modified example of the battery standard determining means in the hybrid electric vehicle as one embodiment of the present invention.

FIG. 6 is a diagram showing a specific example of output limiting characteristics of a motor of a hybrid electric vehicle as one embodiment of the present invention.

FIG. 7 is a diagram showing a specific example of output limiting characteristics of the electric motor of the hybrid electric vehicle as one embodiment of the present invention.

FIG. 8 is a schematic configuration diagram showing a conventional hybrid electric vehicle, where (a) is a schematic configuration diagram showing a series hybrid electric vehicle, and (b) is a schematic configuration diagram showing a parallel hybrid electric vehicle. It is.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Battery 2 Driving motor (motor) 3 Driving wheel (wheel) 4 Motor controller 5 Travel management controller as control means 6 Generator 7 Generator internal combustion engine 8 Engine internal combustion engine 9 Engine battery Standard judging means 10 Battery remaining capacity detecting means 11 Meter panel 12 Alarm lamp as warning means 13 Battery removal judging means 14 Battery is installed in proper position 15 Limit switch

──────────────────────────────────────────────────続 き Continued on the front page (72) Inventor Shinya Furukawa 5-33-8 Shiba, Minato-ku, Tokyo Inside Mitsubishi Motors Corporation (72) Inventor Masaro Kato 5-33-8 Shiba, Minato-ku, Tokyo Mitsubishi Motors Corporation (72) Inventor Nobuyuki Kawamura 5-33-8 Shiba, Minato-ku, Tokyo Mitsubishi Motors Corporation (56) References JP 4-207908 (JP, A) JP JP-A-61-191201 (JP, A) JP-A-55-113277 (JP, A) JP-A-52-79450 (JP, A) JP-A-4-318238 (JP, A) JP-A-55-151773 (JP) , A) Japanese Utility Model Hei 3-78945 (JP, U) (58) Fields investigated (Int. Cl. ⁷ , DB name) B60L 11/12 B60L 11/14 F02D 29/00-29/06 B60K 6/00

Claims (4)

(57) [Claims] 1. A battery which can be charged by an external charging means, a driving motor which can drive wheels by electric power from the battery, an engine which is indirectly used for driving the wheels, In a hybrid electric vehicle including control means for controlling operation of the engine, a battery standard determining means for determining whether or not the battery satisfies a predetermined standard is provided; When the determination unit determines that the battery does not satisfy a predetermined standard, at least one of the motor and the engine is controlled so as to limit the output of the driving motor.
At the same time, the battery standard determining means determines that the internal resistance value of the battery is
If the battery is larger than the set standard value, the battery
A hybrid electric vehicle configured to determine that the standard is not satisfied . Wherein the electric motor and the stop mode of the engine in the stopped state, the starter switch equipped with a drive mode that can be the stop mode or RaMisao operation to activate the electric motor held in the operating state after the start Immediately after the starter switch is switched from the stop mode to the traveling mode, the battery standard determining unit makes a determination, and the control unit controls the electric motor based on information from the battery standard determining unit. characterized in that it is configured to control, hybrid electric vehicle according to claim 1 Symbol placement. 3. A battery which can be charged by an external charging means, a driving motor which can drive wheels by electric power from the battery, an engine which is used indirectly for driving the wheels, In a hybrid electric vehicle including control means for controlling operation of the engine, battery removal determination means for determining whether or not the battery has been removed is provided. When the outside judgment means judges that the battery is removed, at least one of the motor and the engine is controlled so as to limit the output of the driving motor. , Hybrid electric vehicles . 4. A battery that can be charged by external charging means, a driving motor that can drive wheels by electric power from the battery, an engine that is directly used for driving the wheels, In a hybrid electric vehicle including control means for controlling operation of the engine, battery removal determination means for determining whether or not the battery has been removed is provided. A hybrid electric vehicle configured to perform control to limit the output of the engine when it is determined by the outside determination means that the battery has been removed.