JP2012026393A - Vehicle control device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent backward movement of a vehicle upon hill-start while ensuring safety when a driver steps on both brake and accelerator.SOLUTION: When it is determined that a driver steps on both brake and accelerator on the basis of signals of an accelerator sensor 12 and a brake switch 13 during the travel of a vehicle, output limit control for limiting an output of a drive source 11 to a prescribed value or lower is executed by limiting a command output (target output) to be output to an output adjuster 18 to a prescribed value or lower. It is determined whether the vehicle is stopped based on whether a detected vehicle speed of a vehicle speed sensor 15 is equal to or less than a prescribed value. When the vehicle stop is detected, and when a brake operation is detected earlier by the brake switch 13 and then an accelerator operation is detected by the accelerator sensor 12, hill-start is determined. An output limit of the drive source 11 is prohibited to increase the output of the drive source 11 in response to the accelerator operation, and the hill-start is smoothly performed while preventing the backward movement of the vehicle upon the hill-start.

Description

  The present invention relates to a vehicle control device that improves safety when both a brake and an accelerator of a vehicle on which at least one of an engine and a motor is mounted as a vehicle drive source is depressed.

  For example, in Patent Document 1 (Japanese Patent Laid-Open No. 2005-291030), an accelerator pedal and a brake pedal are provided for the purpose of preventing the vehicle from running away due to a driver making a mistake and simultaneously pressing the accelerator pedal and the brake pedal. At the same time, it is described that the engine is forcibly brought into an idle state when it is detected that the engine is depressed more than a predetermined value.

  Further, in Patent Document 2 (Japanese Patent Publication No. 2-502558), even when the brake operation is detected in a safety circuit that reduces the drive output to a predetermined small value when the brake and the accelerator are operated simultaneously. In addition, it is described that the safety circuit is not operated when it is detected from the time differential value of the output of the accelerator sensor that the driver has newly depressed the accelerator pedal.

  Patent Document 3 (US Pat. No. 6,881,174) discloses that the engine output is suppressed when it is determined that the brake request is larger than the accelerator request based on the respective operation amounts when the brake and the accelerator are operated simultaneously. Are listed.

JP 2005-291030 A Japanese National Patent Publication No. 2-502558 US68881174

  By the way, when starting a hill (particularly when starting a hill during towing or when starting a steep hill), in order to prevent the vehicle from moving backward, the driver may step on the accelerator while depressing the brake to start the hill.

  However, in the prior art, even when the driver deliberately steps on both the brake and the accelerator when starting the hill, the output restriction control is executed against the driver's intention, and the hill starts (especially when starting towing). Or when the vehicle starts off a steep slope).

  Therefore, the problem to be solved by the present invention is to provide a vehicle control device capable of preventing the vehicle from retreating when starting on a hill while ensuring safety when the driver depresses both the brake and the accelerator. It is to be.

  In order to solve the above-mentioned problem, an invention according to claim 1 is directed to a vehicle control device equipped with at least one of an engine and a motor as a vehicle drive source, and an accelerator operation detecting means for detecting an accelerator operation, and a brake operation. Brake operation detecting means for detecting; output limiting means for limiting the output of the drive source when both the accelerator operation and the brake operation are detected by the accelerator operation detecting means and the brake operation detecting means; Stop detection means for detecting that the vehicle is stopped, and when the stop of the vehicle is detected by the stop detection means, the brake operation detection means first detects the brake operation before the accelerator operation detection means And an output restriction prohibiting means for prohibiting output restriction by the output restricting means when an operation is detected. Than is.

  In general, when starting on a slope (particularly when starting on a slope or starting on a steep slope), the driver depresses the accelerator while depressing the brake to start the vehicle. In view of this point, in the present invention, when the vehicle stop is detected by the stop detection means, when the accelerator operation is detected after the brake operation is detected first, it is determined that the vehicle is starting on a hill and the output restriction means The output of the drive source is increased in accordance with the accelerator operation by prohibiting the output restriction by, and thereby it is possible to start smoothly on the slope while preventing the vehicle from moving backward when starting the slope. Moreover, even when the vehicle is stopped, if the brake operation is detected after the accelerator operation is detected first, the output restriction by the output restriction means is executed, and if the vehicle is not stopped (vehicle running) If the accelerator operation or the brake operation is first, the output restriction by the output restriction means is executed, so that it is possible to ensure safety when the driver depresses both the brake and the accelerator.

  In this case, the stop detection means may be provided with a dedicated sensor. However, as in claim 2, the stop detection means is such that the vehicle stops when the vehicle speed detected by the vehicle speed sensor is equal to or less than a predetermined value. You may make it judge. In this way, it is possible to detect the stop of the vehicle using the vehicle speed sensor provided as standard on the vehicle, and it is possible to satisfy the demand for cost reduction.

  According to a third aspect of the present invention, parking brake operation detecting means for detecting the operation of the parking brake is provided, and the vehicle stop is detected when the operation of the parking brake is detected by the parking brake operation detecting means. You may make it judge that it is doing. Since the parking brake is operated after the vehicle is stopped, it is determined that the vehicle is stopped when the parking brake is operated.

  When starting a slope from a state in which the parking brake is activated while the vehicle is stopped, depress the brake and release the parking brake while preventing the vehicle from moving backward, while depressing the accelerator to increase the output of the drive source. The brake operation is released to start the slope.

  In consideration of such an operation procedure when starting a hill, the brake operation detecting unit detects the brake operation and the parking brake operation detecting unit detects the accelerator operation without detecting the accelerator operation by the accelerator operation detecting unit. When the operation of the parking brake is detected, the output restriction by the output restriction means may be prohibited until the release of the brake operation is detected even if the release of the operation of the parking brake is subsequently detected. In this way, even if the parking brake is released when the hill starts, the output restriction by the output restriction means is prohibited until the brake operation is released, and the output of the drive source is increased according to the accelerator operation. Can do. As a result, when starting the slope from a state in which the parking brake is activated while the vehicle is stopped, it is possible to smoothly start the slope while reliably preventing the vehicle from moving backward when the operation of the parking brake is released.

FIG. 1 is a block diagram showing a system configuration of Embodiment 1 of the present invention. FIG. 2 is a flowchart illustrating a flow of processing of the output restriction control program according to the first embodiment. FIG. 3 is a time chart illustrating an execution example of the output restriction control according to the first embodiment. FIG. 4 is a flowchart illustrating a flow of processing of the output restriction control program according to the second embodiment. FIG. 5 is a time chart for explaining an execution example of the output restriction control according to the second embodiment.

  Hereinafter, two Examples 1 and 2 which embody the form for implementing this invention are demonstrated.

A first embodiment of the present invention will be described with reference to FIGS.
First, the system configuration of the first embodiment of the present invention will be described with reference to FIG.
The vehicle is equipped with either or both of an engine and a motor as the drive source 11. For example, any of a vehicle using only the engine as the drive source 11, a hybrid vehicle using both the engine and the motor as the drive source 11, and an electric vehicle using only the motor as the drive source 11 may be used.

  The vehicle includes at least one accelerator sensor 12 (accelerator operation detecting means) that detects an accelerator operation amount (accelerator opening) and at least one brake switch 13 (brake operation detection) that is turned on / off in response to brake operation / release. Means), at least one vehicle speed sensor 15 for detecting the vehicle speed, a rotation speed sensor 16 for detecting the rotation speed of the drive source 11, and at least one parking brake switch that is turned on / off in response to the operation / release of the parking brake. 19 (parking brake operation detecting means) and the like are mounted, and signals from these various sensors and switches are input to an electronic control unit (hereinafter referred to as “ECU”) 17 that controls the output of the drive source 11.

  The ECU 17 sets a target output based on the accelerator opening (accelerator operation amount) detected by the accelerator sensor 12 during vehicle operation, and operates the output adjusting means 18 so that the output of the drive source 11 becomes the target output. The output of the drive source 11 is adjusted to the target output. For example, in a vehicle using only the engine as the drive source 11, the output adjusting means 18 is an electronic throttle system that electronically controls the throttle opening, a fuel injection control system that controls the fuel injection amount, and the like, and only the motor is used as the drive source. In the electric vehicle 11, the output adjusting means 18 is an inverter device that adjusts the motor output. In the hybrid vehicle, both engine and motor output adjusting means 18 are provided.

  In the first embodiment, when the ECU 17 determines that both the accelerator and the brake are depressed based on signals from the accelerator sensor 12 and the brake switch 13, a command output (target output) that is output to the output adjusting means 18. The output restriction control is executed to restrict the output of the driving source 11 to a predetermined value or less by limiting the output to a predetermined value or less. Here, the output limit value of the drive source 11 is an output value at the time of idling or a value larger than that, and is set so as to ensure an output capable of relatively safe low-speed traveling.

  In the first embodiment, when it is determined that both the accelerator and the brake are depressed, the output of the drive source 11 is set by setting the control accelerator opening used for calculating the command output to a predetermined limit value cACCREST. Is limited to a predetermined value or less. Alternatively, the command output to be output to the output adjusting unit 18 may be set to a predetermined limit value.

  By the way, when starting a hill (particularly when starting a hill during towing or when starting a steep hill), in order to prevent the vehicle from moving backward, the driver may step on the accelerator while depressing the brake to start the hill. As described above, when the driver intentionally depresses both the brake and the accelerator to start a slope, if the output of the drive source 11 is limited, it may not be possible to prevent the vehicle from retreating when the slope starts. .

  Therefore, in the first embodiment, the ECU 17 executes an output restriction control program shown in FIG. 2 described later to determine whether the vehicle is stopped depending on whether the vehicle speed detected by the vehicle speed sensor 15 is equal to or lower than a predetermined value. When the vehicle stop is detected, when the accelerator operation is detected by the accelerator sensor 12 after the brake operation is first detected by the brake switch 13, the output restriction of the drive source 11 is prohibited.

  The processing contents of the output restriction control program in FIG. 2 will be described below. The output restriction control program of FIG. 2 is repeatedly executed at a predetermined period during the power-on period of the ECU 17, and serves as output restriction means and output restriction prohibition means in the claims.

  When this program is started, first, in step 100, it is determined whether the vehicle is running or the vehicle is stopped based on whether the vehicle speed detected by the vehicle speed sensor 15 is greater than a predetermined value (for example, a small value close to 0). . The process of step 100 serves as a stop detection means in the claims. If it is determined in step 100 that the vehicle speed is greater than the predetermined value (while the vehicle is traveling), the process proceeds to step 101 to determine whether or not the actual accelerator opening detected by the accelerator sensor 12 is greater than the predetermined opening cACCTHRESH. judge. Here, the predetermined opening degree cACCTHRE is set to a value that is the same as or slightly larger than a predetermined limit value cACCREST described later.

  If it is determined in this step 101 that the actual accelerator opening is equal to or less than the predetermined opening cACCTHRESH, the actual accelerator opening is small even when both the brake and the accelerator are depressed, and thus it is not necessary to limit the output of the drive source 11. In step 104, the actual accelerator opening detected by the accelerator sensor 12 is set to the control accelerator opening as it is.

  On the other hand, if it is determined in step 101 that the actual accelerator opening is larger than the predetermined opening cACCTHRESH, the process proceeds to step 102 to determine whether or not the brake switch 13 is on (ON). If it is determined that 13 is off (OFF), it is determined that there is no need to limit the output of the drive source 11 because the brake is not depressed, and the routine proceeds to step 104 where the actual value detected by the accelerator sensor 12 is detected. The accelerator opening is set to the control accelerator opening as it is.

On the other hand, if it is determined in step 102 that the brake switch 13 is on, the brake is depressed while the accelerator is depressed more than the predetermined opening degree cACCTHRESH, and the output restriction execution condition during vehicle travel is satisfied. In step 103, the control accelerator opening used for calculating the command output is set to a predetermined limit value cACCREST, thereby limiting the output of the drive source 11 to a predetermined value or less.
Accelerator opening for control = Limit value cACCREST

  It should be noted that a predetermined execution delay time may be provided from when the output restriction execution condition during traveling of the vehicle is established to when the output restriction of the drive source 11 is actually started. When returning to the control, a predetermined execution delay time may be provided. Here, the execution delay time is a time for preventing frequent switching of the output restriction due to chattering or the like when the brake switch 13 is switched on / off.

  On the other hand, if it is determined in step 100 that the vehicle speed detected by the vehicle speed sensor 15 is equal to or less than a predetermined value (when the vehicle is stopped), whether or not the output restriction execution condition while the vehicle is stopped is satisfied in subsequent steps 105 to 107. Whether or not all of the following conditions (a) to (c) are satisfied.

(a) The actual accelerator opening detected by the accelerator sensor 12 is larger than a predetermined opening cACCTHRESH [step 105]
(b) The brake switch 13 is on [step 106].
(c) The accelerator operation timing is ahead of the brake operation timing [Step 107]

  If any one of the three conditions (a) to (c) does not satisfy the condition, the output restriction execution condition while the vehicle is stopped is not satisfied, and the routine proceeds to step 109 and is detected by the accelerator sensor 12. The actual accelerator opening is set to the control accelerator opening as it is. Thus, when the vehicle is stopped, if the accelerator is depressed after the brake is first depressed, the output restriction execution condition while the vehicle is stopped is not satisfied by the determination process in step 107, and the output of the drive source 11 is not satisfied. The restriction is prohibited, and the actual accelerator opening detected by the accelerator sensor 12 is set as the control accelerator opening as it is.

  On the other hand, if all the above three conditions (a) to (c) are satisfied, the condition for executing the output restriction while the vehicle is stopped is established, and the routine proceeds to step 108 where the control accelerator opening used for calculating the command output is set. By setting the predetermined limit value cACCREST, the output of the drive source 11 is limited to a predetermined value or less.

  It should be noted that a predetermined execution delay time may be provided from when the output restriction execution condition while the vehicle is stopped to when the output restriction of the drive source 11 is actually started. When returning to the control, a predetermined execution delay time may be provided.

  An execution example of the output restriction control of the first embodiment described above will be described with reference to the time chart of FIG. In the example of FIG. 3, a predetermined execution delay time is provided at the start and return of output restriction.

  In the example of FIG. 3, at time t0, the driver depresses the accelerator to start the vehicle, the vehicle speed increases, and at time t1, the driver depresses the brake to turn on the brake switch 13. As a result, both the accelerator and the brake are depressed while the vehicle is running, and the output limit execution condition is established while the vehicle is running, and at a time t2 when the predetermined execution delay time has elapsed, the control accelerator opening is reduced. By setting the predetermined limit value cACCREST, the output of the drive source 11 is limited to a predetermined value or less.

  Thereafter, when the driver releases the brake operation at time t3 and the brake switch 13 is turned off, the output restriction execution condition during traveling of the vehicle is not satisfied, and at a time t4 when a predetermined execution delay time elapses. It returns to normal control from the output limit control during traveling.

  After this, at time t5, the driver releases the accelerator operation and the accelerator is fully closed. At time t6, the driver depresses the brake and the brake switch 13 is turned on. As a result, the vehicle decelerates, and at time t7, the vehicle speed detected by the vehicle speed sensor 15 falls below a predetermined value and the vehicle stops.

  Thereafter, at time t8, the driver gradually depresses the accelerator to start the vehicle. After this, while continuing the brake operation (turning on the brake switch 13), at time t9, the actual accelerator opening detected by the accelerator sensor 12 exceeds the predetermined opening cACCTHRESH, and both the brake and the accelerator are depressed. However, in this case, since the brake operation timing is ahead of the accelerator operation timing, the output restriction execution condition while the vehicle is stopped is not satisfied, the output restriction control is not executed while the vehicle is stopped, and the accelerator sensor The actual accelerator opening detected at 12 is set to the control accelerator opening as it is, and the output of the drive source 11 is increased according to the actual accelerator opening. Thereafter, at time t10, the driver releases the brake operation, the brake switch 13 is turned off, the vehicle is started, and the vehicle speed gradually increases.

  In general, when starting on a slope (particularly when starting on a slope or starting on a steep slope), the driver depresses the accelerator while depressing the brake to start the vehicle. In consideration of this point, in the first embodiment, when the accelerator operation is detected after the brake operation is detected first when the vehicle stop is detected, it is determined that the vehicle is starting on a hill and the output of the drive source 11 is output. The restriction is prohibited and the output of the drive source 11 is increased in accordance with the accelerator operation. This makes it possible to start smoothly on the slope while preventing the vehicle from moving backward when starting the slope. Moreover, even when the vehicle is stopped, if the brake operation is detected after the accelerator operation is detected first, the output restriction by the output restriction means is executed, and if the vehicle is not stopped (vehicle running) If the accelerator operation or the brake operation is first, the output restriction by the output restriction means is executed, so that it is possible to ensure safety when the driver depresses both the brake and the accelerator.

Next, Embodiment 2 of the present invention will be described with reference to FIGS.
The system configuration is the same as that of the first embodiment, and the same reference numerals are given and description thereof is omitted.

  Also in the second embodiment, as the output limiting means for limiting the output of the drive source 11 when the accelerator sensor 12 detects the depression of the accelerator more than the predetermined opening cACCTHRESH and the brake is depressed and the brake switch 13 is turned on. It has the function of.

  When starting a slope from a state in which the parking brake is activated while the vehicle is stopped, the parking brake is deactivated while the brake is depressed to prevent the vehicle from moving backward, and the accelerator is depressed to increase the output of the drive source 11. However, the brake operation is released to start the slope.

  In consideration of such an operation procedure when starting a hill, in the second embodiment, the brake operation is detected by the brake switch 13 and the parking brake is operated by the parking brake switch 19 in a state where the accelerator operation is not detected by the accelerator sensor 12. Is detected, it is determined that the vehicle has started on a slope, and even if the release of the parking brake is detected thereafter, the output restriction of the drive source 11 is prohibited until the release of the brake operation is detected. ing.

  The output restriction control of the second embodiment is executed by the ECU 17 according to the output restriction control program of FIG. The output restriction control program in FIG. 4 is the same as the process in step 107a except that the process in step 107 of the output restriction control program in FIG. 2 described in the first embodiment is changed to step 107a.

  In the output restriction control program of FIG. 4, if it is determined in step 100 that the vehicle speed detected by the vehicle speed sensor 15 is equal to or less than a predetermined value (when the vehicle is stopped), in subsequent steps 105 to 107, output restriction execution conditions while the vehicle is stopped. Is determined by whether or not all of the following conditions (a) to (c) are satisfied.

(a) The actual accelerator opening detected by the accelerator sensor 12 is larger than a predetermined opening cACCTHRESH [step 105]
(b) The brake switch 13 is on [step 106].
(c) The brake switch 13 is on and the parking brake switch 19 is not on when the accelerator is fully closed [step 107a].

  If any one of the three conditions (a) to (c) does not satisfy the condition, the output restriction execution condition while the vehicle is stopped is not satisfied, and the routine proceeds to step 109 and is detected by the accelerator sensor 12. The actual accelerator opening is set to the control accelerator opening as it is. Thereby, when the brake operation is detected in a state where the accelerator operation is not detected and the operation of the parking brake is detected, it is determined that the start of the hill is started, and then the release of the operation of the parking brake is detected, Until the release of the brake operation is detected, the output restriction execution condition while the vehicle is stopped is not satisfied, the output restriction of the drive source 11 is prohibited, and the actual accelerator opening detected by the accelerator sensor 12 remains as it is. Set to the opening.

  On the other hand, if all the above three conditions (a) to (c) are satisfied, the condition for executing the output restriction while the vehicle is stopped is established, and the routine proceeds to step 108 where the control accelerator opening used for calculating the command output is set. By setting the predetermined limit value cACCREST, the output of the drive source 11 is limited to a predetermined value or less.

The output restriction control during traveling of the vehicle is the same as that in the first embodiment.
An execution example of the output restriction control of the second embodiment described above will be described with reference to the time chart of FIG.

  FIG. 5 shows a control example in the case of starting on a slope from a state where the parking brake is operated while the vehicle is stopped. While the vehicle is stopped, the parking brake is operated and the parking brake switch 19 is on. In this state, in order to start a slope, the driver depresses the brake at time t1 and the brake switch 13 is turned on, and then the driver depresses the accelerator at time t2. Thus, at time t3, the actual accelerator opening detected by the accelerator sensor 12 exceeds the predetermined opening cACCTHRESH, and both the brake and the accelerator are depressed. In this case, before time t2, Since the brake switch 13 is on and the parking brake switch 19 is on with the accelerator fully closed, it is determined that the vehicle is starting on a slope, and at time t4, the parking brake is released (parking brake switch 19) is detected, until the release of the brake operation (off of the brake switch 13) is detected, the output restriction execution condition while the vehicle is stopped is not satisfied, and the output restriction of the drive source 11 is prohibited. The As a result, the actual accelerator opening detected by the accelerator sensor 12 is set to the control accelerator opening as it is, and the output of the drive source 11 is increased in accordance with the actual accelerator opening. Thereafter, at time t5, the driver releases the brake operation, the brake switch 13 is turned off, the vehicle is started, and the vehicle speed gradually increases.

  According to the second embodiment described above, when the brake switch 13 is on and the parking brake switch 19 is on with the accelerator fully closed, it is determined that the vehicle is starting on a hill, and then parking is performed. Even when the release of the brake operation is detected, the output restriction of the drive source 11 is prohibited until the release of the brake operation is detected. Therefore, even if the operation of the parking brake is released at the start of the hill, The output limitation of the drive source 11 can be prohibited until is released, and the output of the drive source 11 can be increased according to the accelerator operation. As a result, when starting the slope from a state in which the parking brake is activated while the vehicle is stopped, it is possible to smoothly start the slope while reliably preventing the vehicle from moving backward when the operation of the parking brake is released.

  In the first and second embodiments, it is determined whether or not the vehicle is stopped based on whether or not the vehicle speed detected by the vehicle speed sensor 15 is equal to or lower than a predetermined value, but the parking brake switch 19 is on. It may be determined whether the vehicle is stopped or not.

  In the first and second embodiments, a plurality of brake switches may be provided. When a plurality of brake switches are provided, for example, it may be determined that a brake operation has been performed when any one of the plurality of brake switches is turned on. Similarly, a plurality of accelerator sensors may be provided.

  DESCRIPTION OF SYMBOLS 11 ... Drive source, 12 ... Accelerator sensor (accelerator operation detection means), 13 ... Brake switch (brake operation detection means), 17 ... ECU (output restriction means, stop detection means, output restriction prohibition means), 18 ... Output adjustment means , 19 ... parking brake switch (parking brake operation detecting means)

Claims (4)

In a vehicle control device equipped with at least one of an engine and a motor as a vehicle drive source,
An accelerator operation detecting means for detecting an accelerator operation;
Brake operation detecting means for detecting the brake operation;
Output limiting means for limiting the output of the drive source when both the accelerator operation and the brake operation are detected by the accelerator operation detecting means and the brake operation detecting means, and that the vehicle is stopped. Stop detection means for detecting;
When the vehicle stop is detected by the stop detection means, the output restriction by the output restriction means is prohibited when the accelerator operation is detected by the accelerator operation detection means after the brake operation is first detected by the brake operation detection means. An output restriction prohibiting means for controlling the vehicle. It has a vehicle speed sensor that detects the vehicle speed,
The vehicle control device according to claim 1, wherein the stop detection unit determines that the vehicle is stopped when a vehicle speed detected by the vehicle speed sensor is equal to or less than a predetermined value. A parking brake operation detecting means for detecting the operation of the parking brake;
The vehicle control device according to claim 1, wherein the stop detection unit determines that the vehicle is stopped when the parking brake operation detection unit detects the operation of a parking brake.   The output restriction prohibiting means is configured to detect a brake operation by the brake operation detecting means and an operation of a parking brake by the parking brake operation detecting means in a state where the accelerator operation is not detected by the accelerator operation detecting means. 4. The vehicle control according to claim 3, wherein even if the release of the operation of the parking brake is detected thereafter, the output restriction by the output restriction means is prohibited until the release of the brake operation is detected. apparatus.

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