JP2017149395A - Vehicular control device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a vehicular control device, which can warn at an early stage that abnormality occurs and further suppress error warning.SOLUTION: When negative pressure of a brake booster is used in amplifying pedal-stepping force by brake operation by which a brake pedal is stepped on, the negative pressure of the brake booster decreases. When negative pressure K of the brake booster is detected and the detected negative pressure K decreases down to a predetermined operation threshold K, an electric negative pressure pump 3 is operated. When the negative pressure K of the brake booster is returned to a predetermined stop threshold Kby the operation of the electric negative pressure pump, the electric negative pressure pump is stopped. Even if the negative pressure K of the brake booster falls below the operation threshold Kand then decreases down to a warning threshold K, warning of occurrence of abnormality is not output immediately, but the warning is output when a state where the negative pressure K of the brake booster has decreased below the warning threshold Kis held over reference determination time T.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a control device used in a vehicle equipped with an electric negative pressure pump.

  A vehicle such as an automobile is provided with, for example, a hydraulic brake device. When the driver steps on the brake pedal, the force (stepping force) input to the brake pedal is amplified (boosted) by the negative pressure of the brake booster. The amplified force is transmitted from the brake booster to the master cylinder. In the master cylinder, hydraulic pressure corresponding to the force input from the brake booster is generated. The hydraulic pressure of the master cylinder is transmitted to the wheel cylinder provided in each wheel, and braking force is applied to the wheel from each brake by the hydraulic pressure of each wheel cylinder.

  In a vehicle using a gasoline engine as a driving source for traveling, a negative pressure (intake pipe negative pressure) generated in the intake pipe of the engine is used as the negative pressure of the brake booster. On the other hand, in an electric vehicle using a motor as a driving source for driving, a hybrid vehicle in which the engine does not always operate, a diesel engine having a lower intake pipe negative pressure than a gasoline engine, or a vehicle equipped with a gasoline direct injection engine, The intake pipe negative pressure is not generated, or the negative pressure of the brake booster is insufficient for the intake pipe negative pressure, so an electric negative pressure pump is mounted.

  FIG. 4 is a diagram showing temporal changes in the state of the negative pressure of the brake booster and the state of the electric negative pressure pump.

When a brake operation is performed by depressing the brake pedal and the negative pressure of the brake booster is used to amplify the pedal force, the negative pressure of the brake booster decreases. A vehicle equipped with an electric negative pressure pump is provided with a negative pressure sensor for detecting the negative pressure K of the brake booster. For example, the negative pressure K detected by the negative pressure sensor drops to operate threshold K _ON, the electric negative pressure pump is driven. Due to the operation of the electric negative pressure pump, the negative pressure K of the brake booster increases. When the negative pressure K detected by the negative pressure sensor rises to the stop threshold value K _OFF , the operation (drive) of the electric negative pressure pump is stopped.

For example, if the electric negative pressure pump does not operate properly due to a failure, the negative pressure K will not operate even if the negative pressure K of the brake booster drops to the operating threshold value K _ON and the electric negative pressure pump is driven. It continues to drop below the value _{K ON.} When the negative pressure K drops to the warning threshold K _W, due lighting of the warning lamp, the failure of the brake system including an electric negative pressure pump (abnormal) is alerted.

JP-A-1-178070

However, when there is a large decrease in the negative pressure K due to the brake operation, or when the difference between the operation threshold value K _ON and the warning threshold value K _W is small even though the brake system has not failed, the operation of the brake from the negative pressure K is a state close to the operating threshold K _oN, the negative pressure K decreases exceeds the warning threshold K _W, there is a case where a failure of the brake system is incorrectly warning. If the warning threshold value _KW is lowered in order to suppress this false warning, if there is a failure in the brake system, it will be delayed to inform the user of the occurrence of the failure, and there is a risk of insufficient braking force. is there.

  An object of the present invention is to provide a vehicle control device that can warn of occurrence of an abnormality at an early stage and suppress false alarms.

  In order to achieve the above object, a vehicle control device according to the present invention is a control device used in a vehicle including a brake booster and an electric negative pressure pump for supplying negative pressure to the brake booster. Negative pressure detecting means for detecting negative pressure, and when the negative pressure detected by the negative pressure detecting means falls to a predetermined operating threshold, the electric negative pressure pump is operated and detected by the negative pressure detecting means Pump control means for stopping the electric negative pressure pump when the negative pressure rises to the predetermined stop threshold value, and the negative pressure detected by the negative pressure detection means is lower than the warning threshold value lower than the operating threshold value Warning output means for outputting a warning of occurrence of an abnormality when the state that has been reduced to a certain level is maintained for a predetermined time.

  According to this configuration, if the negative pressure of the brake booster is used to amplify the pedaling force by the brake operation of depressing the brake pedal, the negative pressure of the brake booster decreases. When the negative pressure of the brake booster is detected and the detected negative pressure falls to a predetermined operating threshold value, the electric negative pressure pump is activated. When the negative pressure of the brake booster recovers to a predetermined stop threshold value by the operation of the electric negative pressure pump, the electric negative pressure pump is stopped. Even if the negative pressure of the brake booster falls below the operating threshold value and falls to the warning threshold value, an abnormality warning is not output immediately, and the warning indicates that the negative pressure of the brake booster falls below the warning threshold value. Output when the lowered state is maintained for a predetermined time.

  If the brake booster negative pressure drop due to the brake operation is large, even if the negative pressure falls below the warning threshold value, if there is no abnormality in the brake system including the electric negative pressure pump, the brake booster Negative pressure exceeds the warning threshold. In addition, even if the negative pressure drops below the warning threshold due to the brake operation from the state where the negative pressure of the brake booster is close to the operating threshold, if there is no abnormality in the electric negative pressure pump, etc. The negative pressure of the brake booster exceeds the warning threshold. Therefore, in these cases, it is possible to suppress erroneous output of an abnormality warning.

  Then, by raising the warning threshold, an abnormality has occurred in the electric negative pressure pump, etc., so if the negative pressure of the brake booster falls below the warning threshold, the occurrence of the abnormality is detected at an early stage. Can be warned.

  Therefore, it is possible to warn of occurrence of an abnormality at an early stage, while suppressing false warnings.

  The predetermined time may be set to a continuous operation time of the electric negative pressure pump required for the negative pressure of the brake booster to rise from 0 (atmospheric pressure) to the operation threshold, or 1 or more in the continuous operation time. It may be set by multiplying the margin.

  Further, the predetermined time may be set to the continuous operation time of the electric negative pressure pump required for the negative pressure of the brake booster to rise from the warning threshold value or the negative pressure at the present time to the operating threshold value. It may be set by multiplying the operating time by one or more margins.

  The warning threshold and the predetermined time may be changed according to the vehicle speed, the maximum voltage that can be supplied to the electric negative pressure pump, the SOC (State Of Charge) of the on-vehicle battery, or a combination thereof.

  For example, the continuous operation time of the electric negative pressure pump required to increase the negative pressure of the brake booster from 0 to the operating threshold value or the continuous operation of the electric negative pressure pump required to increase the warning threshold value to the operating threshold value. When the predetermined time is set by multiplying the operating time by the margin, the margin may be changed according to the vehicle speed, the maximum voltage that can be supplied to the electric negative pressure pump, the SOC of the in-vehicle battery, or a combination thereof. .

  According to the present invention, it is possible to warn of occurrence of an abnormality at an early stage, while suppressing false warnings.

1 is a diagram schematically illustrating a configuration of a main part of a vehicle in which a vehicle control device according to an embodiment of the present invention is employed. It is a flowchart which shows the flow of a pump control process. It is a figure for demonstrating the example of a setting of the warning threshold value according to a vehicle speed, and determination reference time. It is a figure which shows the time change of the state of the negative pressure of a brake booster, and an electric negative pressure pump.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

<Vehicle configuration>
FIG. 1 is a diagram schematically illustrating a configuration of a main part of a vehicle 1 in which a vehicle control device according to an embodiment of the present invention is employed.

  The vehicle 1 is a vehicle equipped with an electric negative pressure pump (electric vacuum pump) 3 for supplying negative pressure to the brake booster 2. For example, an electric vehicle using a motor as a driving source for driving and an engine are always operated. It is a vehicle equipped with a diesel engine or a gasoline direct injection engine that has a lower intake pipe negative pressure than a hybrid vehicle that does not, and a gasoline engine.

  In the vehicle 1, when the brake pedal 4 disposed in front of the driver's seat is depressed, the pedal force input to the brake pedal 4 is transmitted to the brake booster 2. The pedal effort transmitted to the brake booster 2 is amplified (boosted) by the negative pressure of the brake booster 2 and input from the brake booster 2 to the brake master cylinder 5. In the brake master cylinder 5, a hydraulic pressure corresponding to the force input from the brake booster 2 is generated. The hydraulic pressure generated by the brake master cylinder 5 is transmitted to a brake actuator (not shown). This hydraulic pressure is distributed to a wheel cylinder of a brake (not shown) provided on each wheel by the function of the brake actuator, and braking force is applied to the wheel from each brake by the distributed hydraulic pressure.

  Driving power is supplied from the battery 6 to the electric negative pressure pump 3. The battery 6 is, for example, an in-vehicle battery that outputs a DC voltage of 12V. On the power supply path from the battery 6 to the electric negative pressure pump 3, a relay 7 for switching supply / stop of driving power to the electric negative pressure pump 3 is interposed.

  The vehicle 1 includes a plurality of ECUs (Electronic Control Units) having a configuration including a CPU, a ROM, a RAM, and the like. The plurality of ECUs include an ECU 8 for brake control. The plurality of ECUs are connected so as to be capable of bidirectional communication using a CAN (Controller Area Network) communication protocol.

  The ECU 8 is connected with a negative pressure sensor 9, an atmospheric pressure sensor 10, a stop lamp switch 11, and the like. The negative pressure sensor 9 outputs a detection signal corresponding to the pressure (absolute pressure) of the brake booster 2. The atmospheric pressure sensor 10 outputs a detection signal corresponding to the atmospheric pressure. The stop lamp switch 11 outputs an ON signal in a state where the brake pedal 4 is depressed (a state where the brake operation is performed), and a state where the brake pedal 4 is not depressed (a state where the brake operation is released). This is a switch that outputs an OFF signal.

  The ECU 8 controls on / off of the relay 7 based on information detected from detection signals of various sensors and / or various information input from other ECUs. Further, the ECU 8 controls, for example, a brake actuator and the like, and controls the braking force applied from each brake to the wheels so that the vehicle 1 is braked in a state where the posture of the vehicle 1 is kept stable.

<Pump control processing>
FIG. 2 is a flowchart showing the flow of the pump control process.

  In the ECU 8, the negative pressure K of the brake booster 2 is detected based on the detection signal of the negative pressure sensor 9 and the detection signal of the atmospheric pressure sensor 10. That is, the ECU 8 detects the pressure (absolute pressure) of the brake booster 2 from the detection signal of the negative pressure sensor 9 and the atmospheric pressure from the detection signal of the atmospheric pressure sensor 10. Then, the negative pressure (gauge pressure) K of the brake booster 2 is detected by subtracting the pressure of the brake booster 2 from the atmospheric pressure. The detection of the negative pressure K of the brake booster 2 is executed at a constant cycle while the start switch (ignition key switch) of the vehicle 1 is turned on.

  Then, the ECU 8 executes a pump control process shown in FIG. 2 in order to operate and stop the electric negative pressure pump 3.

In the pump control process, it is determined whether the negative pressure K is equal to or lower than a predetermined operating threshold value K _ON (step S1).

While the negative pressure K is greater than the operating threshold value K _ON (NO in step S1), it is determined whether the negative pressure K is equal to or lower than the operating threshold value K _ON each time the negative pressure K is detected. . Further, while the negative pressure K is larger than the operation threshold value K _ON , the relay 7 is turned off and the electric negative pressure pump 3 is stopped.

When the brake pedal 4 is depressed and the negative pressure K of the brake booster 2 is used to amplify the pedal force, the negative pressure K of the brake booster 2 decreases. When the negative pressure K drops below the operating threshold value K _ON (YES in step S1), the relay 7 is turned on and the electric negative pressure pump 3 is driven (step S2). When the electric negative pressure pump 3 operates, the negative pressure generated by the electric negative pressure pump 3 is supplied (transmitted) to the brake booster 2, and the negative pressure K of the brake booster 2 increases.

While the electric negative pressure pump 3 is in operation, it is determined whether or not the negative pressure K has risen above a predetermined stop threshold value K _OFF (step S3). The stop threshold value K _OFF is set to a higher value (larger value) than the operation threshold value K _ON .

When the negative pressure K of the brake booster 2 rises above the stop threshold value K _OFF (YES in step S3), the relay 7 is turned off and the electric negative pressure pump 3 is stopped (step S4). Then, the pump control process is terminated.

If the negative pressure K is less than the stop threshold value _{K OFF} (NO in step S3), and a negative pressure K is equal to or less than the warning threshold _{K W} is determined (step S5). Warning threshold K _W is set to a low value (a value smaller) than the operating threshold K _ON. Specifically, warning threshold K _W, to the actuation threshold K _ON, for example, the negative brake booster 2 to be consumed when the depression after the brake pedal 4 is stepped up is released The value is set lower by the pressure.

In a state where the negative pressure K has not dropped below warning threshold K _W (NO in step S5), and whether the negative pressure K is stopped threshold K _OFF or is repeatedly judged (Step S3) .

When a negative pressure K drops below the warning threshold _{K W} (YES in step S5), and whether an abnormality decrease the time _{T 0} is stored in the RAM is determined (step S6). Abnormal decrease time T ₀ is the time at which the negative pressure K of the brake booster 2 has first dropped below the warning threshold K _W.

If abnormal decrease time _{T 0} is not stored in the RAM (NO in step S6), and the time T of the current is RAM in the memory as an abnormal decrease time _{T 0} (step S7).

If abnormal decrease time _{T 0} is stored in the RAM (YES in step S6), and whether there are abnormal duration _{T-T 0} is a time elapsed from the abnormal decrease time _{T 0} until the present time is the reference time _{T OFF} or It is determined whether or not (step S8). The determination reference time T _OFF is, for example, a margin of 1 or more in the continuous operation time of the electric negative pressure pump 3 required for the negative pressure K of the brake booster 2 to rise from 0 (atmospheric pressure) to the operation threshold value K _ON. It is set by multiplying.

When the abnormal continuation time T-T ₀ is less than the determination reference time T _OFF (NO in step S8), the process returns to step S3, and it is determined again whether the negative pressure K is equal to or greater than the stop threshold value K _OFF. Is done.

Remain negative pressure K of the brake booster 2 has dropped below the warning threshold _{K W,} abnormality duration _{T-T 0} and reaches the determination reference time _{T OFF} (YES in step S8), and electric negative pressure pump 3 In addition, it is substantially determined that an abnormality (failure) has occurred in the brake system including the negative pressure sensor 9 and the like. In this case, when a warning lamp provided in the meter unit of the vehicle 1 is turned on, an abnormality warning is output in the brake system (step S9), and the pump control process is terminated. At this time, the operation of the electric negative pressure pump 3 may be stopped.

<Effect>
As described above, when the negative pressure K of the brake booster 2 is used to amplify the pedaling force by the brake operation of depressing the brake pedal 4, the negative pressure K of the brake booster 2 decreases. Negative pressure K of the brake booster 2 is detected, the negative pressure K to be the detection drops to a predetermined operating threshold K _ON, the electric negative pressure pump 3 is operated. When the negative pressure K of the brake booster 2 recovers to a predetermined stop threshold value K _OFF by the operation of the electric negative pressure pump 3, the electric negative pressure pump 3 is stopped. Even if the negative pressure K of the brake booster 2 falls below the operation threshold value K _ON and falls to the warning threshold value K _W , the warning of the occurrence of an abnormality is not immediately output. K is a state in which drops below the warning threshold K _W is output when it is held for a reference time T _OFF.

For reduction of the negative pressure K of the brake booster 2 by the brake operation is large, even drop below the negative pressure K warning threshold K _W, if there is no abnormality in the brake system including an electric negative pressure pump 3, negative pressure K of the brake booster 2 in determination reference time _{T OFF} exceeds the warning threshold _{K W.} Further, by the operation of the brake from the state close to vacuum K actuation threshold K _ON of the brake booster 2, a case where the negative pressure K drops below the warning threshold K _W also electric negative pressure pump 3, etc. if there is no abnormality in the negative pressure K of the brake booster 2 in determination reference time T _OFF exceeds the warning threshold K _W. Therefore, in these cases, it is possible to suppress erroneous output of an abnormality warning.

Then, by raising the warning threshold value K _W , when an abnormality has occurred in the electric negative pressure pump 3 or the like, when the negative pressure K of the brake booster 2 falls below the warning threshold value K _W , The occurrence of an abnormality can be warned at an early stage.

  Therefore, it is possible to warn of occurrence of an abnormality at an early stage, while suppressing false warnings.

<Modification>
As mentioned above, although one Embodiment of this invention was described, this invention can also be implemented with another form.

For example, the warning threshold value K _W and the determination reference time T _OFF may be changed according to the vehicle speed of the vehicle 1. In this case, it is preferable that the warning threshold value _KW is set to a higher value and the determination reference time _TOFF is set to a shorter time as the vehicle speed is higher.

As an example, as shown in FIG. 3, when the vehicle speed V of the vehicle _{1 is} equal to or lower than a predetermined vehicle speed V ₁ , the warning threshold value K _W and the judgment reference time T _OFF are the warning threshold values K for low vehicle speeds. is set to _W1 and the reference time _{T OFF1,} when the vehicle speed V is greater than a predetermined vehicle speed _{V 1} was, warning threshold _{K W} and the reference time _{T OFF} is a high speed, respectively warning threshold _{K W2} and criteria The time T _OFF2 may be set.

In this case, the warning threshold value K _W2 for high vehicle speed is preferably higher than the warning threshold value K _W1 for low vehicle speed. Further, the determination reference time T _OFF2 for high vehicle speed is preferably shorter than the determination reference time T _OFF1 for low vehicle speed. As a result, it is possible to further suppress erroneous output of an abnormality warning while the vehicle 1 is traveling at a low speed. It is possible to warn at an earlier stage that the brake is not effective due to the low negative pressure.

Further, three or more vehicle speed ranges V _n <V ≦ V _{n + 1} (N = 1, 2, 3,...) Are set, and a warning threshold value is set for each vehicle speed range V _n <V ≦ V _{n + 1.} K _W and the reference time TOFF may be changed. In this case, vehicle speed range Vn <higher V ≦ Vn + 1 of the high vehicle speed side, is set to warning threshold K _W high value, by determining the reference time T _OFF is set to be shorter, as the vehicle speed is high, a warning The threshold value _KW is set to a high value, and the determination reference time _TOFF is set to a short time.

The judgment reference time T _OFF is set to the continuous operation time of the electric negative pressure pump 3 required for the negative pressure K of the brake booster 2 to rise from the warning threshold value K _W or the current negative pressure to the operation threshold value K _ON. It may be set by multiplying the continuous operation time by one or more margins.

The warning threshold value K _W and the determination reference time T _OFF may be changed according to the vehicle speed, the maximum voltage that can be supplied to the electric negative pressure pump 3, the SOC (State Of Charge) of the vehicle-mounted battery, or a combination thereof. .

Further, when the value of the operation threshold value K _ON is changed according to the vehicle speed and the SOC, the warning threshold value K _W may be changed according to the value of the operation threshold value K _ON . By doing so, the value of “operating threshold value K _ON -warning threshold value K _W ” is made constant so that the frequency does not change, or “operation threshold value K _ON -warning threshold value”. K _W "or the value from the warning threshold K _W by reducing in response to increase of the operating threshold K _oN to align the arrival time at the time of recovery to the working threshold K _oN the" operation The value of “threshold value K _ON -warning threshold value K _W ” may be increased in response to an increase in the operation threshold value K _ON so that a warning can be output at an early stage when the vehicle speed is high.

For example, the operation threshold value from the continuous operation time of the electric negative pressure pump 3 required for the negative pressure K of the brake booster 2 to increase from 0 to the operation threshold value K _ON or the warning threshold value K _W or the negative pressure at the present time. When the judgment reference time T _OFF is set by multiplying the continuous operation time of the electric negative pressure pump 3 required to rise to K _ON by a margin, the margin can be supplied to the vehicle speed and the electric negative pressure pump 3. It may be changed according to the maximum voltage or the SOC of the on-vehicle battery or a combination thereof.

  In the above-described configuration, the ECU 8 is connected to the negative pressure sensor 9 that outputs a detection signal corresponding to the pressure (absolute pressure) of the brake booster 2 and the atmospheric pressure sensor 10 that outputs a detection signal corresponding to the atmospheric pressure. The ECU 8 subtracts the pressure (absolute pressure) of the brake booster 2 detected from the detection signal of the negative pressure sensor 9 from the atmospheric pressure detected from the detection signal of the atmospheric pressure sensor 10, so that the negative pressure of the brake booster 2 is reduced. Pressure (gauge pressure) is detected. When the negative pressure sensor 9 is configured to output a detection signal corresponding to the gauge pressure of the brake booster 2, the atmospheric pressure sensor 10 is omitted and the negative pressure of the brake booster 2 is detected from the detection signal of the negative pressure sensor 9. May be.

  In addition, various design changes can be made within the scope of matters described in the claims.

DESCRIPTION OF SYMBOLS 1 Vehicle 2 Brake booster 3 Electric negative pressure pump 8 ECU (Vehicle control device, negative pressure detection means, pump control means, warning output means)
9 Negative pressure sensor 10 Atmospheric pressure sensor

Claims (1)

A control device used in a vehicle including a brake booster and an electric negative pressure pump for supplying negative pressure to the brake booster,
Negative pressure detecting means for detecting the negative pressure of the brake booster;
When the negative pressure detected by the negative pressure detecting means falls to a predetermined operating threshold value, the electric negative pressure pump is operated, and the negative pressure detected by the negative pressure detecting means is a predetermined stop threshold. A pump control means for stopping the electric negative pressure pump when increased to a value;
A warning output means for outputting a warning of occurrence of an abnormality when a state in which the negative pressure detected by the negative pressure detection means has been maintained for a predetermined period of time is maintained below a warning threshold value lower than the operating threshold value; A control apparatus for a vehicle, including:

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