JP2021110280A - Function additional device with respect to acceleration suppression device - Google Patents

Abstract

To provide a function additional device with respect to an acceleration suppression device which can add a function to the acceleration suppression device.SOLUTION: Function additional devices 118, 128 comprise first terminals 111, 121, second terminals 112, 122, first connection lines 113, 123, second connection lines 114, 124, and function units 110, 120. The first terminals 111, 121 are constituted into forms which can be connected to a device signal terminal 32 for outputting control signals indicating an operation of an acceleration suppression device 20. The second terminals 112, 122 are constituted into forms which are the same as that of the device signal terminal 32. The first connection lines 113, 123 transmit inputted control signals to the second terminals 112, 122. The second connection lines 114, 124 transmit control signals which are branched from the control signals propagating through the first connection lines 113, 123. The function units 110, 120 include control circuits 115, 125 for performing prescribed processing in response to the reception of the control signals propagating through the second connection lines 114, 124.SELECTED DRAWING: Figure 2

Description

The present disclosure relates to a function addition device for an acceleration suppression device mounted on a vehicle.

The erroneous start prevention device described in Patent Document 1 compares the accelerator pedal depression speed with the speed threshold value, determines an accelerator pedal depression error, and when it is determined that a depression error has occurred, moves the vehicle. It is suppressing.

Japanese Patent No. 5819509

In recent years, there has been an increasing social need for an acceleration suppression device that suppresses acceleration due to a mistake in stepping. Therefore, it is possible to consider the demand for not only the acceleration suppression device that is shipped while being mounted on the vehicle but also the acceleration suppression device that is retrofitted on the vehicle after shipment. Further, there may be a demand for a device that adds a function according to the user's request, such as a function of notifying the outside of the vehicle according to the operation of the acceleration suppression device to the retrofit acceleration suppression device.

The present disclosure provides a function addition device for an acceleration suppression device capable of adding a function to the acceleration suppression device.

One aspect of the present disclosure is a vehicle (80) function addition device, the first terminal (111,121), the second terminal (112,122), the first connection line (113,123), and the like. A second connection line (114, 124) and a functional unit (110, 120) are provided. The first terminal is a device signal terminal (32) for outputting a control signal indicating that the acceleration suppression device is operating, which is provided in the acceleration suppression device (20) mounted on the vehicle (80) and suppresses acceleration. It is configured in a connectable shape. The second terminal has the same shape as the device signal terminal. The first connection line connects the first terminal and the second terminal, and transmits the control signal input to the first terminal to the second terminal. The second connection line is connected to the first connection line and transmits a control signal branched from the control signal propagating on the first connection line. The functional unit includes control circuits (115, 125) that are connected to the second connection line and perform predetermined processing in response to reception of a control signal propagating through the second connection line.

According to one aspect of the present disclosure, by connecting the first terminal to the device signal terminal of the acceleration suppression device, the control signal input from the first terminal propagates to the second terminal via the first connection line. Is output from the second terminal. Further, the control signal input from the first terminal propagates to the control circuit via the second connection line connected to the first connection line. Then, the control circuit executes a predetermined process in response to the reception of the control signal. Further, since the second terminal is configured to have the same shape as the device signal terminal, the device originally connected to the device signal terminal of the acceleration suppression device is connected to the second terminal of the function addition device and is originally connected. The existing device can be used as before. Therefore, by connecting the first terminal to the device signal terminal of the acceleration suppression device, it is possible to add a function to the acceleration suppression device without changing the structure of the acceleration suppression device. Further, the terminal of another function addition device can be connected to the second terminal of the function addition device. Various functions can be added by connecting a plurality of function addition devices in series to the acceleration suppression device.

It is a figure which shows the structure of the acceleration suppression system 100 which concerns on this embodiment. It is a block diagram which shows the connection structure of an acceleration suppression device and a function addition device. It is a figure which shows the structure of the sound output function addition device. It is a figure which shows the structure of the blinking function addition device. It is a figure which shows the structure of the communication function addition device. It is a figure which shows the structure of the brake function addition device.

Hereinafter, modes for carrying out the present disclosure will be described with reference to the drawings.
<1. Overall configuration>
First, the configuration of the acceleration suppression system 100 according to the present embodiment will be described with reference to FIGS. 1 and 2.

The acceleration suppression system 100 is mounted on the vehicle 80. The acceleration suppression system 100 includes an acceleration suppression device 20, a sound output function addition device 118, a blinking function addition device 128, a display device 90, a driving force control unit 200, an accelerator pedal sensor 11, and two forward monitoring units. It includes sensors 13a and 13b, two rear monitoring sensors 14a and 14b, and a vehicle speed sensor 15.

The accelerator pedal sensor 11 measures the accelerator opening degree and outputs a first signal indicating the measured accelerator opening degree. The accelerator pedal sensor 11 is connected to the acceleration suppression device 20 with a wire harness, and the first signal output from the accelerator pedal sensor 11 is output to the driving force control unit 200 via the acceleration suppression device 20. For example, the first signal represents an accelerator opening degree of 0% to 100% in the range of voltages VA1 to VA2. VA1 <VA2. The unit of accelerator opening is%. The accelerator opening degree is 0% when the driver does not step on the accelerator pedal 12 at all. The accelerator opening degree when the driver depresses the accelerator pedal 12 to the upper limit is 100%.

The driving force control unit 200 controls the driving force of the vehicle according to the accelerator opening degree indicated by the output signal output from the acceleration suppression device 20. The driving force control unit 200 sets the throttle opening degree according to, for example, the accelerator opening degree indicated by the output signal. Examples of the driving force control unit 200 include a power management controller and the like.

The front monitoring sensors 13a and 13b and the rear monitoring sensors 14a and 14b are, for example, ultrasonic sensors, and are connected to the acceleration suppression device 20 by a wire harness. The front monitoring sensor 13a is mounted on the front right side of the vehicle 80, and the front monitoring sensor 13b is mounted on the front left side of the vehicle 80. The rear monitoring sensor 14a is mounted on the rear right side of the vehicle 80, and the rear monitoring sensor 14b is mounted on the rear left side of the vehicle 80. The front monitoring sensors 13a and 13b and the rear monitoring sensors 14a and 14b measure the distance from the vehicle 80 to the obstacles around the vehicle 80, and output the measurement signal to the acceleration suppression device 20.

The vehicle speed sensor 15 is connected to the acceleration suppression device 20 via the connector 10. The vehicle speed sensor 15 measures the speed of the vehicle 80 and outputs the measurement signal to the acceleration suppression device 20.
The acceleration suppression device 20 is a retrofit device. Therefore, it is not connected to the network in the vehicle (for example, CAN network). Therefore, the acceleration suppression device 20 acquires measurement signals from various sensors by being connected to various sensors via a wire harness.

The acceleration suppression device 20 includes a control unit 50, a second signal generation unit 63, a coil power supply 61, and a relay switch 70.
The control unit 50 includes a microcomputer having a CPU 51 and a semiconductor memory 52 (hereinafter, memory 52) including a ROM and a RAM. Each function of the control unit 50 is realized by the CPU 51 executing a program stored in a non-transitional substantive recording medium. In this embodiment, the memory 52 corresponds to a non-transitional substantive recording medium in which the program is stored. Moreover, when this program is executed, the method corresponding to the program is executed. The control unit 50 may include one microcomputer or a plurality of microcomputers.

The relay switch 70 includes a first contact 71, a second contact 72, an output side contact 73, a movable piece 74, and a coil 75.
The first contact 71 is connected to an input terminal into which the first signal is input via a signal line 42. The second contact 72 is connected to the second signal generation unit 63 via the signal line 44. The output side contact 73 is connected to an output terminal that outputs an output signal to the driving force control unit 200 via the signal line 45.

One end of the movable piece 74 is connected to the output side contact 73. The opposite end of the movable piece 74 is connected to one of the first contact 71 and the second contact 72. That is, the movable piece 74 can be moved to a position where the first contact 71 and the output side contact 73 are connected (hereinafter, the first position), and a position where the second contact 72 and the output side contact 73 are connected. It is also possible to move to (hereinafter, the second position).

The coil power supply 61 is connected between one end of the coil 75 and the control unit 50. The coil power supply 61 supplies power to the coil 75 when it is turned on by the control unit 50, and does not supply power to the coil 75 when it is turned off by the control unit 50.

When the coil power supply 61 is turned on, the coil 75 is energized, a current flows, and a magnetic force is generated. Further, the coil 75 is in a non-energized state when the coil power supply 61 is off, and does not generate a magnetic force.

The movable piece 74 moves from the first position to the second position or from the second position to the first position by the magnetic force generated by the coil 75. That is, the position of the movable piece 74 can be switched by controlling the energization of the coil 75. In the present embodiment, when the coil 75 is in the non-energized state, the movable piece 74 is located in the first position, and when the coil 75 is in the energized state, the movable piece 74 is located in the second position.

The second signal generation unit 63 generates a second signal indicating the second accelerator opening degree. The second accelerator opening is 0%. The second signal generation unit 63 generates a signal indicating the voltage VA1 as the second signal when the second signal generation unit 63 is turned on.

Therefore, when the movable piece 74 is located at the first position, the output signal output from the acceleration suppression device 20 to the driving force control unit 200 becomes the first signal, and the movable piece 74 is located at the second position. If so, the output signal becomes the second signal.

When a predetermined condition is satisfied, the control unit 50 detects that the driver mistakenly stepped on the accelerator pedal 12 and turns on the coil power supply 61 and the second signal generation unit 63. As a result, instead of the first signal indicating the first accelerator opening according to the amount of depression of the accelerator pedal 12 by the driver, the second signal indicating the second accelerator opening is transmitted from the acceleration suppression device 20 to the driving force control unit 200. Is output. As a result, the acceleration of the vehicle 80 is suppressed.

The predetermined conditions are, for example, that the vehicle speed is equal to or lower than the preset reference speed, that an obstacle is detected in the traveling direction of the vehicle, that the first accelerator opening is equal to or higher than the reference opening, and the like. It is a combination of one or more conditions. The reference speed is a low speed value that can be regarded as traveling in a parking lot or the like.

That is, when the driver accidentally depresses the accelerator pedal instead of the brake when the vehicle is stopped in a parking lot or the like, the control unit 50 uses a pseudo signal instead of the first signal indicating the actual accelerator opening degree. The second signal is output to the driving force control unit 200 to suppress the acceleration of the vehicle 80.

Further, the control unit 50 is connected to the device signal terminal 32 of the acceleration suppression device 20 via the signal line 33. When the coil power supply 61 and the second signal generation unit 63 are turned on and the second signal is output to the driving force control unit 200, the control unit 50 transmits the second signal from the device signal terminal 32 via the signal line 33. The acceleration suppression device 20 operates to output a control signal indicating that acceleration is suppressed.

The display device 90 is installed at a position that is easily visible to the driver in the vehicle interior, for example, near the rear-view mirror. The display device 90 includes a display unit 92 including a liquid crystal display and an organic EL display, a function off switch 91, a signal line 93, a display signal terminal 94, and a buzzer (not shown).

The display signal terminal 94 is configured in a second shape that can be connected to the device signal terminal 32 that is configured in the first shape. The signal line 93 is connected to the display signal terminal 94. The display signal terminal 94 is connected to the device signal terminal 32 via the first connection line 113 of the sound output function addition device 118 and the first connection line 123 of the blinking function addition device 128, which will be described later.

When the control signal output from the device signal terminal 32 is input from the display signal terminal 94, the display unit 92 displays a warning prompting the accelerator pedal 12 to be released. At this time, the buzzer sounds at the same time.

The function off switch 91 is a switch operated by the driver. When the driver turns on the function off switch 91, an on signal is output via the signal line 93 and the display signal terminal 94. The output on signal is input to the control unit 50 via the device signal terminal 32 and the signal line 33. When the control unit 50 acquires the on signal, the control unit 50 prohibits the execution of acceleration suppression. That is, the control unit 50 does not execute switching the output signal from the acceleration suppression device 20 to the driving force control unit 200 from the first signal to the second signal. As a result, the second signal is not output from the acceleration suppression device 20 to the driving force control unit 200.

The sound output function addition device 118 and the blinking function addition device 128 are function addition devices for adding a function to the acceleration suppression device 20 that processes a control signal and exerts a predetermined function. That is, the sound output function addition device 118 and the blinking function addition device 128 are retrofit devices that are retrofitted to the acceleration suppression device 20.

Generally, the acceleration suppression device 20 is shipped as a set with the display device 90, and the acceleration suppression device 20 is used by connecting the display signal terminal 94 of the display device 90 to the device signal terminal 32. When the user wants to add a function to the acceleration suppression device 20, the user obtains the function addition device and connects the function addition device between the acceleration suppression device 20 and the display device 90 as a retrofit.

The function addition device includes a first terminal, a second terminal, a first connection line, a second connection line, and a function unit. The first terminal is configured in a second shape that can be connected to the device signal terminal 32. The second terminal has the same first shape as the device signal terminal 32. The first connection line connects the first terminal and the second terminal, and transmits the control signal input to the first terminal to the second terminal. The second connection line is connected to the first connection line and transmits a control signal branched from the control signal propagating the first signal. The functional unit includes a control circuit that is connected to the second connecting line and executes a predetermined process in response to receiving a control signal propagating through the second connecting line. Function addition The function unit differs depending on the function to be added depending on the device. Hereinafter, the configurations of various function addition devices will be described.

<2. Configuration of function addition device>
First, the configuration of the sound output function addition device 118 will be described with reference to FIGS. 1, 2 and 3. The sound output function addition device 118 includes a first terminal 111, a second terminal 112, a first connection line 113, a second connection line 114, and an external speaker unit 110.

The first terminal 111 is connected to the second terminal 122 of the blinking function addition device 128. The second terminal 112 is connected to the display signal terminal 94 of the display device 90. The control signal input from the first terminal 111 branches at the connection point between the first connection line 113 and the second connection line 114, propagates through the first connection line 113, and is output from the second terminal 122. It propagates through the second connection line 114 and is input to the external speaker unit 110.

The external speaker unit 110 includes a control circuit (for example, a microcomputer) 115 and a speaker 116, and is mounted in a corner of the engine room of the vehicle 80. The speaker 116 is a speaker with a built-in amplifier, and outputs a sound having a volume that reaches the outside of the vehicle. When the control circuit 115 receives the control signal, the control circuit 115 outputs a sound stored in advance. For example, when the control circuit 115 receives the control signal, it outputs a voice notifying that the acceleration suppression device 20 is operating and a voice prompting evacuation from the vehicle 80.

Next, the configuration of the blinking function addition device 128 will be described with reference to FIGS. 1, 2, and 4. The blinking function addition device 128 includes a first terminal 121, a second terminal 122, a first connection line 123, a second connection line 124, and a hazard blinking unit 120.

The first terminal 121 is connected to the device signal terminal 32 of the acceleration suppression device 20. The second terminal 122 is connected to the first terminal 111 of the sound output function addition device 118. The control signal input from the device signal terminal 32 to the first terminal 121 propagates through the first connection line 123 and is input to the sound output function addition device 118, and at the same time, propagates through the second connection line 124 and causes a hazard blinking unit. It is input to 120.

The hazard flashing unit 120 includes a control circuit 125 and a diode 126, and is installed in the instrument panel of the vehicle 80. The diode 126 is connected to lights 130 such as blinkers and headlights of the vehicle 80. The diode 126 is provided to prevent erroneous lighting of the lights 130.

When the control circuit 125 receives the control signal, the control circuit 125 outputs the lights drive signal for driving the lights 130 to the blinker or the headlight via the diode 126 to blink the blinker or turn on the headlight. Or something. Further, the control circuit 125 outputs electric power for blinking or lighting the lights. The electric power for blinking or lighting the lights 130 is also supplied from the device signal terminal 32 via the first connection line 123 and the second connection line 124. As a result, an emergency situation in which the acceleration suppression device 20 is operating outside the vehicle is notified.

Further, the control circuit 125 may be connected to a smoke bomb 140 provided in the vehicle 80. The smoke bomb 140 is installed in, for example, the engine room of the vehicle 80, and a heating wire is provided at the tip thereof. In this case, when the control circuit 125 receives the control signal, it outputs an ignition signal for igniting the smoke bomb 140 to the heating wire of the smoke bomb 140, and heats the heating wire to ignite the smoke bomb 140.

Further, the control circuit 125 may be connected to the door lock controller 150 that controls the door lock of the vehicle 80. In this case, when the control circuit 125 receives the control signal, it outputs an unlock signal for the door lock to the door lock controller 150 to release the door lock.

Further, the control circuit 125 may be connected to the engine ECU 160 that controls the engine of the vehicle 80. In this case, when the control circuit 125 receives the control signal, it outputs a stop signal for stopping the engine of the vehicle 80 to the engine ECU 160 to stop the engine.

The hazard flashing unit 120 can also be used to add a function other than the above-mentioned function. For example, the control circuit 125 may be connected to a horn provided on the vehicle 80. In this case, when the control circuit 125 receives the control signal, it outputs the horn drive signal for driving the horn to the horn and causes the horn to be repeatedly hit.

The number of function addition devices connected between the device signal terminal 32 of the acceleration suppression device 20 and the display signal terminal 94 of the display device 90 is not limited. One function addition device may be connected between the device signal terminal 32 and the display signal terminal 94, or two or more function addition devices may be connected in series.

Further, the type of the function addition device connected between the device signal terminal 32 and the display signal terminal 94 is not limited. The function addition device may be a device that processes a control signal to add a function. For example, the function addition device may be the communication function addition device 178 shown in FIG. 5 or the brake function addition device 188 shown in FIG.

The configuration of the communication function addition device 178 will be described below with reference to FIG. The communication function addition device 178 includes a first terminal 171, a second terminal 172, a first connection line, a second connection line, and an external communication unit 170, and is installed in the instrument panel of the vehicle 80. NS.

The external communication unit 170 includes a control circuit 175 and a data communication module 176. When the control circuit 175 receives the control signal, the data communication module 176 causes the data communication module 176 to send an e-mail to a pre-registered address. Further, when the control circuit 175 receives the control signal, the data communication module 176 causes the data communication module 176 to transmit a short message to the telephone number registered in advance. The location information of the vehicle 80 may be transmitted together with an e-mail or a short message.

Further, the data communication module 176 may be connected to the audio system of the vehicle 80. By connecting the data communication module 176 to the audio system, the call function is realized. In this case, when the control circuit 175 receives the control signal, the control circuit 175 makes a call to a telephone number registered in advance.

The pre-registered address and the pre-registered telephone number may be a family address and a telephone number, or may be a help service address or a telephone number. The help service is a service in which a specialized operator responds in an emergency and quickly arranges an emergency vehicle. Therefore, if the address and telephone number of the help service are registered, it is possible to arrange an emergency vehicle based on the position information automatically transmitted from the vehicle 80.

Next, the configuration of the brake function addition device 188 will be described with reference to FIG. The brake function addition device 188 includes a first terminal 181, a second terminal 182, a first connection line 183, a second connection line 184, and a brake pedal drive unit 180.

The brake pedal drive unit 180 includes a control circuit 185 and a drive motor 186, and is installed in the vicinity of the brake pedal 12. The output shaft of the drive motor 186 is connected to the brake pedal 12 via the pedal drive rod 18. Therefore, by driving the drive motor 186, the rotational force generated by the drive motor 186 moves the brake pedal 12 in the additional stepping direction, and the brake is activated.

When the control circuit 185 receives the control signal, the control circuit 185 outputs the motor drive signal to the drive motor 186 to drive the drive motor 186. Further, the control circuit 185 supplies electric power for driving the drive motor 186 to the drive motor. The electric power for driving the drive motor 186 is also supplied via the first connection line 183 and the second connection line 184.

<3. Effect>
According to the first embodiment described above, the following effects can be obtained.
(1) By connecting the first terminals 111, 121, 171 and 181 of various function addition devices 118, 128, 178 and 188 to the device signal terminal 32 of the acceleration suppression device 20, the first terminals 111, 121, The control signal input from 171 and 181 is propagated to the second terminals 112, 122, 172 and 182 via the first connection lines 113, 123, 173 and 183, and from the second terminals 112, 122, 172 and 182. It is output. Further, the control signals input from the first terminals 111, 121, 171 and 181 are controlled via the second connection lines 114, 124, 174 and 184 connected to the first connection lines 113, 123, 173 and 183. Propagate to circuits 115, 125, 175, 185. Then, the control circuits 115, 125, 175, and 185 execute a predetermined process in response to the reception of the control signal.

Further, since the second terminals 112, 122, 172, 182 of the various function addition devices 118, 128, 178, and 188 are configured to have the same shape as the device signal terminal 32, the device signal terminal 32 of the acceleration suppression device 20 can be used. The originally connected display device 90 can be connected to the second terminals 112, 122, 172, 182 of various function addition devices 118, 128, 178, 188, and the display device 90 can be used as before. Therefore, the 20 structure of the acceleration suppression device is changed by connecting the first terminals 111, 121, 171 and 181 of the various function addition devices 118, 128, 178 and 188 to the device signal terminal 32 of the acceleration suppression device 20. A function can be added to the acceleration suppression device 20 without any problem. Further, various function addition devices 118, 128, 178, and 188 can be connected in series to the acceleration suppression device 20 to add various functions.

(2) Since the external speaker unit 110 of the sound output function addition device 118 includes the speaker 116 mounted outside the vehicle interior, the sound set from the speaker 116 is output to the outside of the vehicle in response to the operation of the acceleration suppression device 20. Will be done. As a result, it is possible to notify pedestrians and vehicles outside the vehicle of an emergency situation in which the acceleration suppression device 20 is operating. As a result, it can be expected that secondary damage will be suppressed by urging pedestrians and vehicles around the vehicle 80 to evacuate and informing them that a situation requiring rescue is required.

(3) The control circuit 125 of the hazard blinking unit 120 included in the blinking function addition device 128 outputs a lighting drive signal to the lighting 130 in response to the operation of the acceleration suppression device 20, thereby causing a blinker, a headlight, or the like. The lights 130 are driven. As a result, it is possible to notify pedestrians and vehicles outside the vehicle of an emergency situation in which the acceleration suppression device 20 is operating.

(4) The control circuit 125 of the hazard blinking unit 120 outputs a horn drive signal to the horn in response to the operation of the acceleration suppression device 20, so that the horn is repeatedly hit. As a result, it is possible to notify pedestrians and vehicles outside the vehicle of an emergency situation in which the acceleration suppression device 20 is operating.

(5) The control circuit 125 of the hazard flashing unit 120 outputs an ignition signal to the smoke bomb 140 in response to the operation of the acceleration suppression device 20, so that the smoke bomb 140 is ignited and smoke is generated. As a result, it is possible to notify pedestrians and vehicles outside the vehicle of an emergency situation in which the acceleration suppression device 20 is operating.

(6) The control circuit 125 of the hazard blinking unit 120 outputs a stop signal for stopping the engine to the engine ECU 160 in response to the operation of the acceleration suppression device 20, so that the engine can be forcibly stopped in an emergency.

(7) The door lock can be released by the control circuit 125 of the hazard blinking unit 120 outputting an unlock signal for releasing the door lock to the door lock controller 150 in response to the operation of the acceleration suppression device 20. .. As a result, in an emergency, the passengers of the vehicle can be quickly rescued from outside the vehicle.

(8) Since the external communication unit 170 included in the communication function addition device 178 includes the communication module 176, the control circuit 175 of the external communication unit 170 has a telephone number registered in advance according to the operation of the acceleration suppression device 20. Can be sent to. As a result, it is possible to notify the family and the help service of the emergency situation in which the acceleration suppression device 20 is activated. As a result, an emergency vehicle can be arranged based on the position information of the vehicle 80.

(9) When the external communication unit 170 included in the communication function addition device 178 includes the communication module 176, the control circuit 175 of the external communication unit 170 moves to the address registered in advance according to the operation of the acceleration suppression device 20. You can send an email. As a result, it is possible to notify the family and the help service of the emergency situation in which the acceleration suppression device 20 is activated. As a result, an emergency vehicle can be arranged based on the position information of the vehicle 80.

(10) The brake pedal drive unit 180 included in the brake function addition device 188 includes a drive motor 186 that moves the brake pedal 12 in the stepping-up direction, so that the control circuit 185 of the brake pedal drive unit 180 is the acceleration suppression device 20. The brake can be actuated according to the actuation. As a result, the vehicle 80 can be forcibly stopped in an emergency.

(Other embodiments)
Although the embodiment for carrying out the present disclosure has been described above, the present disclosure is not limited to the above-described embodiment, and can be implemented in various modifications.

(A) A plurality of functions possessed by one component in the above embodiment may be realized by a plurality of components, or one function possessed by one component may be realized by a plurality of components. .. Further, a plurality of functions possessed by the plurality of components may be realized by one component, or one function realized by the plurality of components may be realized by one component. Further, a part of the configuration of the above embodiment may be omitted. In addition, at least a part of the configuration of the above embodiment may be added or replaced with the configuration of the other above embodiment.

(B) In addition to the above-mentioned function addition device, a system having the function addition device as a component, a program for operating a computer as the function addition device, a non-transitional actual record of a semiconductor memory or the like in which this program is recorded, etc. The present disclosure can also be realized in various forms such as a medium.

20 ... Acceleration suppression device, 80 ... Vehicle, 110 ... External speaker unit, 111, 121, 171, 181 ... First terminal, 112, 122, 172, 182 ... Second terminal, 113, 123, 173, 183 ... First Connection line, 114, 124, 174, 184 ... 2nd connection line, 115, 125, 175, 185 ... Control circuit, 116 ... Speaker, 118 ... Sound output function addition device, 120 ... Hazard flashing unit, 126 ... Diode, 128 ... Blinking function addition device, 170 ... External communication unit, 178 ... Communication function addition device, 180 ... Brake pedal drive unit, 188 ... Brake function addition device.

Claims (10)

A shape that can be connected to a device signal terminal (32) for outputting a control signal indicating that the acceleration suppression device is operating, which is provided in the acceleration suppression device (20) mounted on the vehicle (80) and suppresses acceleration. The first terminal (111, 121, 171, 181) configured in
A second terminal (112, 122, 172, 182) configured to have the same shape as the device signal terminal, and
A first connection line (113, 123, 173, 183) that connects the first terminal and the second terminal and transmits the control signal input to the first terminal to the second terminal.
A second connection line (114, 124, 174, 184) that is connected to the first connection line and transmits a control signal branched from the control signal that propagates through the first connection line.
Functional units (110, 120) including control circuits (115, 125, 175, 185) that are connected to the second connection line and execute predetermined processing in response to reception of the control signal propagating through the second connection line. , 170, 180), and
Function addition device for acceleration suppression device. The functional unit (170) further includes a speaker (116) mounted outside the vehicle interior.
The control circuit (115) outputs a set sound from the speaker in response to the reception of the control signal.
A function addition device for the acceleration suppression device according to claim 1. The control circuit (125) outputs a lights drive signal for driving the lights (130) provided in the vehicle to the lights in response to the reception of the control signal.
A function addition device for the acceleration suppression device according to claim 1. The control circuit (125) outputs a horn drive signal for driving a horn provided in the vehicle to the horn in response to receiving the control signal.
A function addition device for the acceleration suppression device according to claim 1. The control circuit (125) outputs an ignition signal for igniting the smoke bomb (140) provided in the vehicle to the smoke bomb in response to the reception of the control signal.
A function addition device for the acceleration suppression device according to claim 1. The functional unit (170) further includes a communication module (176).
The control circuit (175) causes the communication module to make a call to a telephone number registered in advance in response to the reception of the control signal.
A function addition device for the acceleration suppression device according to claim 1. The functional unit (170) further includes a communication module (176).
The control circuit (175) causes the communication module to send an e-mail to a pre-registered address in response to the reception of the control signal.
A function addition device for the acceleration suppression device according to claim 1. The control circuit (125) outputs a stop signal for stopping the engine of the vehicle to the vehicle in response to the reception of the control signal.
A function addition device for the acceleration suppression device according to claim 1. The control circuit (125) outputs an unlock signal for the door lock of the vehicle to the vehicle in response to the reception of the control signal.
A function addition device for the acceleration suppression device according to claim 1. The functional unit (180) further includes a motor (186) that moves the brake pedal (12) of the vehicle in an additional direction by a rotational force.
The control circuit (185) drives the motor in response to the reception of the control signal.
A function addition device for the acceleration suppression device according to claim 1.

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