JPS6234224B2 - - Google Patents

Description

[Detailed Description of the Invention] The present invention automatically controls the opening degree of the throttle valve using a microcomputer so that the actual vehicle speed of the vehicle reaches a preset vehicle speed without pressing the accelerator pedal of the vehicle. This invention relates to an automobile speed control device.

In typical prior art, a microcomputer program is executed to release automatic control of the throttle valve in response to a so-called cancel cell signal generated when a speed-reducing operation such as a brake or clutch is performed. Moreover, when the microcomputer performs an operation that does not follow the program and runs out of control, such runaway is detected by running a runaway detection program and the microcomputer's speed is automatically controlled. The program is configured to initialize and reset the program to the first step. In such prior art, each of the programs described above is relatively complex, and it is extremely difficult to reliably detect runaways of various patterns using the programs.

It is an object of the present invention to achieve the cancellation of automatic control of a throttle valve by speed control operations such as brakes and clutches, and the prevention of runaway of a microcomputer, with the simplest possible configuration. An object of the present invention is to provide a speed control device for an automobile.

Referring to FIG. 1, an embodiment of the present invention is shown, in which a spark ignition internal combustion engine 1 is used as a drive source for an automobile.
A throttle valve 3 is provided in the intake path 2 of the engine. The throttle valve 3 is driven by an actuator 5 for automatic control via a link mechanism 4, and is also operated by an accelerator pedal 6. The microcomputer 7 is powered and operated by power from a power supply 8 via a power switch 9 and a line 10. When the vehicle is running with its speed controlled by the operation of the accelerator pedal 6, the microcomputer 7 gives a high level signal to the inverting circuit 11,
Therefore, the low level signal via the amplifier circuit 12 demagnetizes the release valve solenoid 13 included in the actuator 5. Therefore, the valve body 15 of the release valve 14 is displaced away from the valve seat 17 around the fulcrum 70 by the spring force of the spring 16. Therefore, the diaphragm chamber 18 of the actuator 5 is open to the atmosphere via the valve hole 19, and the diaphragm 20 remains biased by the spring 21 accordingly.

When the vehicle is running at the desired actual speed by operating the accelerator pedal 6, when the set switch 22 is operated, the actual vehicle speed is stored in the random access memory M included in the microcomputer 7. , the opening degree of the throttle valve 3 is automatically controlled, and the vehicle continues to travel at the set vehicle speed. More specifically, when the set switch 22 is operated, the microcomputer 7 applies the output from the set switch 22 to the terminal i2 of the microcomputer 7. The actual vehicle speed is stored in a random access memory M provided in the microcomputer 7 as a set vehicle speed, and a control valve solenoid 26 included in the actuator 5 is controlled via an inversion circuit 23 and an amplifier circuit 24. The control valve solenoid 26 is controlled by changing the duty of the excitation current. When the output from the microcomputer 7 to the inversion circuit 23 is at a high level and the control valve solenoid 26 is not energized,
The valve element 28 of the control valve 27 is separated from the valve seat 30 by the spring force of the spring 29, so that the diaphragm chamber 18 is open to the atmosphere via the valve hole 31. This control valve 27 is angularly displaceable around a fulcrum 32. When the valve body 28 is spaced apart from the valve seat 30, the other valve body 33 is seated on the valve seat 34, so that the valve hole 35 is isolated from the diaphragm chamber 18. The valve hole 35 communicates with the intake path 2 upstream of the throttle valve 3 and is under negative pressure. When a low level signal is applied to the inverting circuit 23 from the microcomputer 7, the control valve solenoid 26 is energized. Therefore, the control valve 27 is in the state shown in the first diagram, the valve body 28 is seated on the valve seat 30, the valve body 33 is separated from the valve seat 34,
The diaphragm chamber 18 becomes under negative pressure. As the diaphragm chamber 18 becomes negative pressure, the diaphragm 20
is displaced to the right in FIG. 1 against the spring force of the spring 21, whereby the opening degree of the throttle valve 3 is controlled by the link mechanism 4.

Even if the vehicle is not running at the set vehicle speed, that is, even if the automatic speed control is cancelled, if the actual vehicle speed is higher than the predetermined vehicle speed, for example, 40 km/hour, by operating the resume switch 36, The output of the resume switch 36 is applied to the terminal _i3 of the microcomputer 7, thereby allowing the vehicle to resume traveling at the previously set vehicle speed. The operation of the actuator 5 in accordance with the operations of the set switch 22 and the resume switch 36 is achieved by the execution of a program by the microcomputer 7.

Microcomputer 7 has reset input terminal 4
has 0. When the reset input terminal 40 becomes low level, the microcomputer 7 is initialized to the first step of the program and enters the reset state. At this time, the inverting circuits 11 and 23
The signal input to is at a high level, so the microcomputer 7 keeps the release valve solenoid 13 and the control valve solenoid 26 demagnetized, and the vehicle can travel by operating the accelerator pedal 6.

A resistor 41 is connected between reset input terminal 40 and line 10. Reset input terminal 4
0 is grounded via a capacitor 42. The reset input terminal 40 is connected to a switch 44 which becomes conductive when a clutch interposed in the transmission means for transmitting power from the internal combustion engine 1 to the wheels is cut off by depressing the clutch pedal, and a switch 44 which is connected when the parking brake is activated. It is grounded to a low level via a switch 45 which is conductive when the voltage is on. In an automobile equipped with a so-called automatic transmission having a torque converter, the switch 44 is configured to conduct when the select lever is in the neutral position. These switches 44, 45 have the function of being turned on by the speed control operation of the vehicle. A low level signal is applied to the reset input terminal 40 from the line 10 via a switch 46 and an inverting circuit 47. The switch 46 becomes conductive when the brake pedal is depressed and the vehicle body is about to stop or has stopped.

In this manner, a reset signal is generated at the reset input terminal 40 of the microcomputer 7 when the power switch 9 is turned on and when the switches 44, 45, and 46 are rendered conductive by speed control operations. In order to determine whether these reset signals are generated by turning on the power switch 9 or by a speed control operation after turning on the power, a resistor 50 and a capacitor 5 are connected to the line 10.
A time constant circuit consisting of 1 and 1 is connected. resistance 50
The connection point between the capacitor 51 and the capacitor 51 is connected to the input terminal i1 of the microcomputer 7.

Referring to FIG. 2, when the power switch 9 is turned on at time t ₁ , the voltage on the line 10 is as shown in FIG.
It becomes a high level like. Therefore, the voltage at the reset input terminal 40 increases over time from time _t1 as shown in FIG. The microcomputer 7 outputs the capacitor 42 immediately after time _t1 .
Since the reset input terminal 40 is at a low level due to the function of This allows the microcomputer 7 to execute the program from the first step of the program.
When a low level reset signal is generated by turning on the power switch 9, the input terminal i ₁
The level changes from the ground level to a high level according to the time constant of the resistor 50 and capacitor 51. The microcomputer 7 detects a change in the voltage at the input terminal _i1 by executing the program, identifies that a low-level reset signal is generated by turning on the power switch 9, and
Clear the stored contents of random access memory M. Therefore, there is no danger that the vehicle speed will be increased to the set vehicle speed immediately after the power switch 9 is turned on. In this way, the program for automatic speed control is executed by operating the set switch 22 and the resume switch 36.

When the microcomputer 7 goes out of control during execution of this program, the switches 46 and 44 become conductive and the reset input terminal 40 goes low level when the driver depresses the brake pedal or the clutch pedal. Then,
The microcomputer 7 is reset. This prevents the microcomputer 7 from running out of control. Further, when the parking brake is applied, the reset input terminal 40 remains at a low level, so that the microcomputer 7 does not run out of control. Through such speed control operations,
Even if a low level reset signal is generated, the input terminal _i1 of the microcomputer 7 remains at high level. Therefore, the microcomputer 7 identifies that the reset signal is generated by a speed suppression operation, and at this time, the contents stored in the random access memory M are maintained as they are. Therefore, by operating the resume switch 36 after the microcomputer 7 has been reset, the vehicle can run at a constant speed at the set vehicle speed.

When the power switch 9 is cut off at time _t2 ,
The microcomputer 7 is disabled.

As described above, according to the present invention, a means is provided for generating a reset signal by turning on the power and performing a speed control operation such as a brake and/or clutch, and the microcomputer is reset by this reset signal. Therefore, even if the microcomputer goes out of control, it can be prevented by operating the brake and/or clutch by the driver. This eliminates the need for a complicated program for detecting runaway as described in connection with the prior art described above. Also, since the reset signal is generated by a speed-reducing operation such as a brake and/or clutch, the reset signal can be generated in response to a cancel signal generated by the speed-reducing operation as described in connection with the prior art described above. The present invention does not require complex program steps to run a program to disable automatic control of the throttle valve. Moreover, the means for generating a reset signal by such a speed suppression operation has a simple structure. Further, according to the present invention, it is determined whether the reset signal is generated by turning on the power or by a speed suppression operation after turning on the power, and when the reset signal is generated by turning on the power, the set speed is The memory that stores the signal representing is cleared. Therefore, the vehicle speed is not increased at the set vehicle speed immediately after the power is turned on, which is safe. When a reset signal is generated as a result of a speed suppression operation, the contents stored in the memory are maintained as they are, so that the vehicle can resume traveling at the set vehicle speed after the speed suppression operation.

[Brief explanation of the drawing]

FIG. 1 is an overall system diagram of an embodiment of the present invention, and FIG. 2 is a waveform diagram for explaining the reset operation of the microcomputer 7 when the power is turned on. 1... Internal combustion engine, 2... Intake path, 3... Throttle valve, 5... Actuator, 6... Accelerator pedal,
7... Microcomputer, 8... Power supply, 9... Power switch, 11, 23, 47... Inverting circuit, 22...
Set switch, 36...Regium switch, 4
0...Reset input terminal, 41, 50...Resistor, 4
2, 51... Capacitor, 44, 45, 46... Switch.

Claims (1)

[Claims] 1 In an automobile speed control device that automatically controls the opening of a throttle valve using a microcomputer so that the actual vehicle speed of the automobile becomes a preset set vehicle speed, power is turned on and speed control operations such as the brake and/or clutch are performed. Means is provided for generating a reset signal, and the reset signal resets the microcomputer to initialize the program to the first step and cancels automatic control of the throttle valve; A microcontroller is provided with means for determining whether the reset signal is generated by turning on the power or by a speed suppression operation after turning on the power, and stores a signal representing the set speed when the reset signal is generated by turning on the power. A speed control device for a motor vehicle, characterized in that a memory included in a computer is cleared and the stored contents of said memory are maintained as they are when a reset signal is generated by a speed control operation.