CN208432900U - Vehicle control syetem - Google Patents

Abstract

The utility model provides a kind of vehicle control syetem, comprising: automatic Pilot switch generates pattern switching instruction according to the current state of vehicle；Crosswise joint switch, generates the first automatic Pilot signal, to indicate the automatic driving mode of vehicle for lateral automatic driving mode；Longitudinally controlled switch generates the second automatic Pilot signal, to indicate the automatic driving mode of vehicle for longitudinal automatic driving mode；Emergency stop switch, generate the first emergency brake signal, and bottom vehicle control device is sent to by CAN bus, and generate emergency stop status signal, and it is sent to control unit for vehicle, so that control unit for vehicle obtains emergency stop status information according to emergency stop status signal, and emergency stop status information is sent to server；Locking device is connected with emergency stop switch, for when emergency stop switch is pressed, control emergency stop switch to be in the lock state.A variety of automatic driving modes are provided as a result, are improved the emergency processing speed of vehicle, are improved user experience.

Description

Vehicle control syetem

Technical field

The utility model relates to control technology field more particularly to a kind of vehicle control syetems.

Background technique

With the rapid development of computer technology and artificial intelligence technology, intelligent robot technology has become both at home and abroad The hot spot of numerous scholar's researchs.Wherein, service humanoid robot opens the frontier of robot application, services going out for humanoid robot Now mainly has the tendency that following three aspects reason: in a first aspect, domestic labor cost has rising；Second aspect, population are aged Change and improving for the social welfare system provides extensive market application prospect for service humanoid robot；The third aspect, the mankind think Get rid of duplicate labour.

In order to more easily distinguish and define wire control technology, the classification of line traffic control is just at a major issue.Global Auto at present Two generally acknowledged classifying systems of industry are by United States highways safety management bureau (abbreviation NHTSA) and international automatic machine work respectively What teachers learn (abbreviation SAE) proposed.Wherein, the wire control technology of L4 and L5 rank can be known as complete wire control technology, arrive This rank, automobile can carry out all driver behaviors under the case where intervening completely without driver, drive Member such as works or rests in terms of attention can also be placed on to others.But the difference of the two is, the line traffic control of L4 rank Suitable for typically referring in city or on highway under the scene of part.And L5 rank then requires line traffic control automobile any It can accomplish to drive vehicle driving completely under scene.

In the prior art, when vehicle is in automatic driving mode, automatic driving mode is relatively simple, emergency processing speed Slowly, user experience is bad.

Utility model content

The purpose of the utility model embodiment is to provide a kind of vehicle control syetem, to solve in the prior art to drive automatically It is single to sail mode, emergency processing speed is slow, the bad problem of user experience.

To solve the above problems, the utility model provides a kind of vehicle control syetem, the vehicle control syetem includes: Automatic Pilot switch, crosswise joint switch, longitudinally controlled switch, emergency stop switch and locking device；

The locking device is connected with the emergency stop switch；

The automatic Pilot switch according to the current state of vehicle, generates pattern switching instruction, to refer to when pressed Show that vehicle switches to automatic driving mode, or switches to manual drive mode from automatic driving mode；

The crosswise joint switch when pressed, generates first and drives automatically when vehicle will enter automatic driving mode Signal is sailed, to indicate the automatic driving mode of vehicle for lateral automatic driving mode；Alternatively, when vehicle is in automatic driving mode When, it when pressed, generates the first automatic Pilot and exits signal, to indicate that vehicle exits lateral automatic driving mode, and by institute It states the first automatic Pilot signal or the first automatic Pilot exits signal and is sent to bottom vehicle control device, so that the bottom vehicle The first automatic Pilot signal or first automatic Pilot are exited signal and are sent to control unit for vehicle by controller；

The longitudinally controlled switch when pressed, generates second and drives automatically when vehicle will enter automatic driving mode Signal is sailed, to indicate the automatic driving mode of vehicle for longitudinal automatic driving mode；Alternatively, when vehicle is in automatic driving mode When, it when pressed, generates the second automatic Pilot and exits signal, to indicate that vehicle exits longitudinal automatic driving mode, and by institute It states the second automatic Pilot signal or the second automatic Pilot exits signal and is sent to the bottom vehicle control device, so that the bottom The second automatic Pilot signal or second automatic Pilot are exited signal and are sent to the vehicle by layer vehicle control device Control unit；

The emergency stop switch generates the first emergency brake signal, and by first emergency brake signal when pressed It is sent to bottom vehicle control device by controller local area network's CAN bus, so that the bottom vehicle control device is according to The brake system of first emergency brake signal control vehicle；

The locking device controls the emergency stop switch and is in the lock state when the emergency stop switch is pressed.

Preferably, the vehicle control syetem further includes upper and lower electric switch；

The electric switch up and down according to the current state of vehicle, generates power on signal or lower electric signal when pressed, So that power supply module according to the power on signal be the vehicle control syetem power, alternatively, so that the power supply module according to The lower electric signal cuts off the power supply of the vehicle control syetem；

Preferably, the crosswise joint switch and the longitudinally controlled switch, when vehicle will enter automatic driving mode, The crosswise joint switch and it is described it is longitudinally controlled switch simultaneously be pressed when, generate third automatic Pilot signal, with indicate Vehicle is full-automatic driving mode；Alternatively, when pressed, generating third when vehicle is in automatic driving mode and driving automatically It sails and exits signal, to indicate that vehicle exits full-automatic driving mode, and the third automatic Pilot signal or third is automatic Driving exits signal and is sent to the bottom vehicle control device, so that the bottom vehicle control device is by the third automatic Pilot Signal or the third automatic Pilot exit signal and are sent to the control unit for vehicle.

Preferably, the crosswise joint switch, when the automatic driving mode of vehicle is longitudinal automatic driving mode, in quilt When pressing, the 4th automatic Pilot signal is generated, to indicate that vehicle switches to full-automatic driving mode from longitudinal automatic driving mode.

Preferably, the longitudinally controlled switch, when the automatic driving mode of vehicle is lateral automatic driving mode, in quilt When pressing, the 5th automatic Pilot signal is generated, to indicate that vehicle switches to full-automatic driving mode from lateral automatic driving mode.

Preferably, the emergency stop switch when screwing out the emergency stop switch from the locking device, generates notice letter Number, and the notification signal is sent to the control unit for vehicle.

Preferably, the vehicle control syetem further include: display screen；

The display screen is connected with the control unit for vehicle；

The display screen receives the running state information for the vehicle that control unit for vehicle is sent, and shows the operating status Information.

Preferably, the vehicle control syetem further includes enabled switch；

The enabled switch, for being switched with the crosswise joint while being pressed preset first time threshold；Alternatively, It is pressed preset second time threshold simultaneously with the longitudinally controlled switch；Alternatively, alternately pressing crosswise joint switch and When longitudinally controlled switch, it is pressed preset third time threshold.

As a result, by applying vehicle control syetem provided by the embodiment of the utility model, a variety of automatic Pilot moulds are provided Formula, and the security level into automatic driving mode is improved, the handoff-security between driving mode is realized, user is improved Experience, and improve the emergency processing speed of vehicle.

Detailed description of the invention

Fig. 1 is vehicle control syetem structural schematic diagram provided by the embodiment of the utility model.

Specific embodiment

The application is described in further detail with reference to the accompanying drawings and examples.It is understood that this place is retouched The specific embodiment stated is used only for explaining relevant utility model, rather than the restriction to the utility model.It further needs exist for illustrating , for ease of description, illustrating only part relevant to related utility model in attached drawing.

It should be noted that in the absence of conflict, the features in the embodiments and the embodiments of the present application can phase Mutually combination.The application is described in detail below with reference to the accompanying drawings and in conjunction with the embodiments.

First, second hereinafter only distinguishes, and has no other meanings.

Fig. 1 is vehicle control syetem structural schematic diagram provided by the embodiment of the utility model.The vehicle control syetem 100 can To be applied in automatic driving vehicle.As shown in Figure 1, the vehicle control syetem 100 includes:

Upper and lower electric switch 110 for the current state according to vehicle, generates power on signal or lower telecommunications when pressed Number, so that power supply module is vehicle control syetem power supply according to power on signal, alternatively, so that power supply module is cut according to lower electric signal The power supply of disconnected vehicle control syetem.

Specifically, the current state of vehicle, may include driving status and halted state.Wherein, driving status can wrap Include automatic driving mode and manual drive mode.When vehicle is in driving status, when upper and lower electric switch 110 is pressed, cut Disconnected power supply of the power supply module to entire vehicle (including vehicle control syetem).When vehicle is in halted state, establishing by cable up and down When pass 110 is pressed, power supply module is entire vehicle (including vehicle control syetem) power supply.

Wherein, power supply module can be battery group, and battery group can be by being made up of multiple concatenated batteries, can To be battery charging by charge port.

Automatic Pilot switch 120 for the current state according to vehicle, generates pattern switching instruction when pressed, with Instruction vehicle switches to automatic driving mode, or switches to manual drive mode from automatic driving mode.

Specifically, when vehicle is in automatic driving mode, if pressing automatic Pilot switch 120, enters and drives manually Sail mode.When vehicle is in manual drive mode, if pressing automatic Pilot switch 120, enters automatic Pilot module.

Crosswise joint switch 130, for when pressed, generating first certainly when vehicle will enter automatic driving mode It is dynamic to drive signal, to indicate the automatic driving mode of vehicle for lateral automatic driving mode；Alternatively, when vehicle is in automatic Pilot When mode, when pressed, generates the first automatic Pilot and exit signal, to indicate that vehicle exits lateral automatic driving mode, and First automatic Pilot signal or the first automatic Pilot are exited into signal and are sent to bottom vehicle control device, so that bottom vehicle control First automatic Pilot signal or the first automatic Pilot are exited signal and are sent to control unit for vehicle by device processed.

Longitudinally controlled switch 140, for when pressed, generating second certainly when vehicle will enter automatic driving mode It is dynamic to drive signal, to indicate the automatic driving mode of vehicle for longitudinal automatic driving mode；Alternatively, when vehicle is in automatic Pilot When mode, when pressed, generates the second automatic Pilot and exit signal, to indicate that vehicle exits longitudinal automatic driving mode, and Second automatic Pilot signal or the second automatic Pilot are exited into signal and are sent to bottom vehicle control device, so that bottom vehicle control Second automatic Pilot signal or the second automatic Pilot are exited signal and are sent to control unit for vehicle by device processed.

Further, vehicle control syetem further include: when vehicle will enter automatic driving mode, switched in crosswise joint 130 and longitudinally controlled switch 140 simultaneously when being pressed, third automatic Pilot signal is generated, to indicate vehicle as full-automatic driving Mode；Alternatively, when pressed, generating third automatic Pilot when vehicle is in automatic driving mode and exiting signal, with instruction Vehicle exits full-automatic driving mode, and third automatic Pilot signal or third automatic Pilot are exited signal and are sent to bottom Vehicle control device is sent to so that third automatic Pilot signal or third automatic Pilot are exited signal by bottom vehicle control device Control unit for vehicle.

Specifically, automatic driving mode includes three types: lateral automatic driving mode, longitudinal automatic driving mode and complete Automatic driving mode.When vehicle enters automatic driving mode from manual drive mode or halted state, if only pressing is horizontal When to control switch 130, indicate to turn to automatic driving mode, i.e. the steering of vehicle is to automatically control, and the speed of vehicle is artificial Control.When only pressing longitudinally controlled switch 140, speed automatic driving mode, i.e. steering people's manual control of vehicle, vehicle are indicated Speed be automatically control.When pressing the two simultaneously, indicates full-automatic driving mode, that is, turn to and speed is all to control automatically System.Hereby it is achieved that the switching of a variety of automatic driving modes, improves user experience.

Emergency stop switch 150 generates the first emergency brake signal for when pressed, and by the first emergency brake signal It is sent to bottom vehicle control device by controller local area network (Controller Area Network, CAN) bus, so that Bottom vehicle control device controls the brake system of vehicle according to the first emergency brake signal.

Locking device 160 is connected with emergency stop switch 150, for when emergency stop switch 150 is pressed, control emergency stop to be opened 150 are closed to be in the lock state.

Specifically, emergency stop switch 150 is pressed, and locking means 160 lock when burst emergency, first is urgent Brake signal is sent to bottom vehicle control device by CAN bus, and bottom vehicle control device controls the brake force of braking system, with It realizes emergency braking when emergency, since emergency stop switch 150 is directly connected with bottom vehicle control device, requires no vehicle The processing of control unit, this improves the processing speeds that vehicle copes with urgent emergency situations.

Further, emergency stop switch 150 is also used to, and when pressed, generates emergency stop status signal, and emergency stop state is believed Number it is sent to control unit for vehicle, so that control unit for vehicle obtains emergency stop status information according to emergency stop status signal, and will be anxious Stop status information and is sent to server.

Wherein, emergency stop status information includes the current location information of vehicle, (video information can be by taking the photograph herein for video information As head is shot) etc..

Emergency stop switch 150 is while sending the first emergency brake signal to bottom vehicle control device as a result, also to vehicle Control unit sends emergency stop status signal, so that control unit for vehicle obtains vehicle and be in emergency stop shape according to emergency stop status signal Video information, location information when state etc., and the corresponding video information of the current state of vehicle is sent to server, server Can be according to video information, when acquisition emergency stop switch 150 is pressed, the state of vehicle, in order to subsequent processing.Subsequent processing It include: to send the current state of the vehicle to other neighbouring vehicles, to achieve the purpose that notice.

Further, emergency stop switch 150 is also used to, and when emergency stop switch is screwed out from locking device, generates notification signal, And notification signal is sent to control unit for vehicle.

Emergency stop switch 150 passes through as a result, and locking device 160 is acted on, when so that emergency stop switch being pressed, in lock Determine state, if to solve lock state, needs just to may be implemented by certain dynamics, therefore, avoid emergency stop switch 150 are accidentally pressed, also, when unlocking state, and emergency stop switch 150 is by generating notification signal, so that control unit for vehicle After receiving notification signal, according to notification signal, the emergency stop status information of vehicle is obtained, the path of vehicle is advised again It draws.

Further, vehicle control syetem further includes enabled switch 170.

The enabled switch 170, for being pressed preset first time threshold simultaneously with the crosswise joint switch 130 Value；Alternatively, being pressed preset second time threshold simultaneously with the longitudinally controlled switch 140；Alternatively, alternately pressing laterally When control switch 130 and longitudinally controlled switch 140, it is pressed preset third time threshold.

Specifically, pressing enabled switch 170 while pressing crosswise joint switch 130, the duration is at the first time Threshold value, hereby it is achieved that when pressing enabled switch 170 and crosswise joint switch 130 at the same time, into or exit laterally oneself Dynamic driving mode.Correspondingly, press enabled switch 170 simultaneously and longitudinally controlled switch 140 continues second time threshold, into or Person exits longitudinal automatic driving mode.When pressing enabled switch 170, crosswise joint switch 130 is first pressed, then press longitudinally controlled Switch 140, or longitudinally controlled switch 140 is first pressed, rear to press crosswise joint switch 130, total duration is the third time Threshold value, into or exit full-automatic driving mode.140 quilt of crosswise joint switch 130 or longitudinally controlled switch is avoided as a result, The accidentally switching of on time caused driving mode, improves the security level of automatic Pilot, avoids false triggering.

Wherein, first time threshold and second time threshold can be equal, and third time threshold is not less than first and second Time threshold.Example and it is non-limiting, first time threshold and second time threshold can be 2s, and third time threshold can be 4s。

In the following, vehicle is specifically described from halted state into full-automatic driving mode.

When the automatic Pilot switch 120, crosswise joint switch 130 and longitudinally controlled switch 140 of vehicle are pressed, vehicle into Enter full-automatic driving mode, after bottom vehicle control device receives third automatic Pilot signal, by CAN bus, certainly by third The dynamic signal that drives is sent to control unit for vehicle.

Control unit for vehicle is connected, for receiving bottom vehicle control with bottom vehicle control device by CAN bus The third automatic Pilot signal that device is sent；It is connected by wireless interface with server, for receiving going out for server transmission Row mission bit stream；It is connected by network interface with the first sensing module, for receiving the first of the transmission of the first sensing module Data；Then third automatic Pilot signal, trip mission bit stream and the first data are handled, generate result of decision information, And decision result information is handled, generate torque control message and course changing control information, finally to torque control message and Course changing control information is handled.

Wherein, trip mission bit stream may include departure place, destination, travel time, trip number etc..

Control unit for vehicle and server can pass through forth generation mechanics of communication (the 4th Generation Communication system, 4G) technology, the 5th generation mechanics of communication (the 5th Generation communication System, 5G) technology or Wireless Fidelity (Wireless Fidelity, WI-FI) technology etc. communicated.

Wherein, the first sensing module includes integrated navigation system, laser radar, ultrasonic radar and millimetre-wave radar.The First sensor in one sensing module is integrated navigation system, and second sensor is laser radar, and 3rd sensor is ultrasound Wave radar, the 4th sensor are millimetre-wave radar.

Integrated navigation system includes Differential Global Positioning System (Differential Global Positioning System, DGPS) chip and Inertial Measurement Unit (Inertial measurement unit, IMU).The DGPS chip is external Main global positioning system (Principal Global Positioning System, PGPS) antenna and from global positioning system (Subordinate Global Positioning System, SGPS) antenna, to get the location information and of vehicle One velocity information.Inertial Measurement Unit is used to measure the angular speed and acceleration of mobile object.Therefore, first environment perception data The angular speed and acceleration of mobile object in velocity information, location information and ambient enviroment including vehicle.

Example and it is non-limiting, the quantity of laser radar can be three, two 16 line laser radars, a 32 line laser thunders It reaches, first 16 line laser radar is properly termed as first laser radar, and 32 line laser radars are properly termed as second laser radar, separately One 16 line laser radar is properly termed as third laser radar.Two 16 line laser radars can be set in the left and right of vehicle two Side, 32 line laser radars can be set in roof.Two 16 line laser radars and a 32 line laser radars, each has its right The environment sensing data answered, are referred to as second environment perception data.It is worked together, is reduced by three laser radars as a result, The blind area of laser scanning.

At this point, second environment perception data is the general designation for the perception data that three laser radars obtain.

Ultrasonic radar can measure the range information of barrier, which is properly termed as third environment sense Primary data.

Wherein, example and it is non-limiting, the quantity of millimetre-wave radar can be two, the first millimetre-wave radar and second millimeter Wave radar.First millimetre-wave radar can be set in the front of vehicle, and second laser radar can be set at the rear of vehicle.This When, the 4th environment perception data is the general designation for the data that two millimetre-wave radars obtain.

By the common monitoring of the first sensing module, the precision of the environmental information of acquisition is improved, it is thus achieved that high-precision Degree control.

Autoamtic boosting steering system (Electric Power Steering, EPS), signal input part passes through CAN bus It is connected with bottom vehicle control device, sends treated course changing control information, and root for receiving bottom vehicle control device According to treated course changing control information, the steering angle and turning velocity of vehicle are controlled.

Dynamical system, signal input part is connected by CAN bus with bottom vehicle control device, for receiving bottom vehicle Controller sends that treated torque control signal, and according to treated torque control message, control the speed of vehicle.

It wherein, herein include three kinds of situations.The first, according to result of decision information, course changing control information is only generated.The second, According to result of decision information, torque control message is only generated.Third, according to result of decision information, generate course changing control information and Torque control message.In the first scenario, dynamical system is people's work control model.In the latter case, EPS is people's industry control Molding formula.Therefore, the application is only illustrated full-automatic driving mode.For above first, second kind of situation, the application is not It repeats again.

Further, control unit for vehicle is also used to, and receives the second data that the second sensing module is sent, and to the second number According to being handled, the second emergency brake signal is generated.Braking system, second for receiving the transmission of bottom vehicle control device are urgent Brake signal, and according to the second emergency brake signal, the brake force of vehicle is controlled, to carry out emergency braking.

Wherein, the second sensing module is vision module.Vision module is mainly used for collision detection.

For example, there is pedestrian running red light in 15 meters of front, control unit for vehicle is calculated according to speed, ambient enviroment, judgement Vehicle can or can not meet pedestrian, if pedestrian can be met, after the second emergency brake signal is sent to bottom vehicle control device, Bottom vehicle control device is stopped in emergency by being sent to dynamical system to control vehicle, avoids the generation of fortuitous event, is protected Safe driving is demonstrate,proved.

As a result, by individually handling the second data of the second sensing module, collision detection is carried out, is further improved automatic Emergency processing speed when driving.

Further, crosswise joint switch 130 is also used to, when the automatic driving mode of vehicle is longitudinal automatic driving mode When, when pressed, the 4th automatic Pilot signal is generated, is automatically driven with indicating that vehicle is switched to from longitudinal automatic driving mode Sail mode.

Further, longitudinally controlled switch 140 is also used to, when the automatic driving mode of vehicle is lateral automatic driving mode When, when pressed, the 5th automatic Pilot signal is generated, is automatically driven with indicating that vehicle is switched to from lateral automatic driving mode Sail mode.

When vehicle is in automatic driving mode, if crosswise joint switch 130, which is in, is not pressed state, press at this time Crosswise joint switch 130 indicates that vehicle enters full-automatic driving mode.If longitudinally controlled switch 140 is in and is not pressed shape State indicates that vehicle enters full-automatic driving mode if pressing longitudinally controlled switch 140 at this time.If crosswise joint switch 130 With longitudinally controlled switch 140 all in pressing state, crosswise joint switch 130 is pressed at this time, indicates that the steering of vehicle is switched to Manual control mode.Longitudinally controlled switch 140 is pressed, indicates that the speed of vehicle is switched to manual control mode.Hereby it is achieved that Switching between a variety of driving modes, further improves user experience.

Further, control unit for vehicle is also used to, and according to course changing control information, generates steering controling signal.

Bottom vehicle control device is also used to, and receives the steering controling signal that control unit for vehicle is sent, and control according to turning to Signal processed generates the first driving signal and/or the second driving signal；Wherein, the first driving signal is for driving in lighting system At least one lamp flashed, the second driving signal for drive loudspeaker generate alarm signal.

Wherein, lighting system includes left steering lamp, right turn lamp and left and right dipped headlight.For example, when vehicle turns left, control Left steering lamp flashing processed.In driving at night and left-hand bend, control dipped headlight starting, and control left steering lamp starting.

Further, control unit for vehicle is also used to, and receives the first video data that third sensing module is sent, and by the One video data is sent to server, and the first video data is sent to long-range allotment monitor terminal, remote vehicle behaviour by server The manipulation that control rack carries out vehicle according to the first video data according to remote control person generates remote control commands, and will be remote Process control instruction is sent to long-range allotment monitor terminal so that remotely allotment monitor terminal according to remote control commands to vehicle into The long-range control of row.Hereby it is achieved that the long-range Driving control of vehicle, enriches the control mode of vehicle.

Wherein, third sensing module includes camera, and the quantity of camera can be multiple.

First video data passes through universal serial bus concentrator (Universal Serial Bus Hub, USB HUB), Control unit for vehicle is given in forwarding.

Wherein, camera may include the first camera, second camera, third camera and the 4th camera.First Camera can be preceding wide-angle camera, and second camera can be rear wide-angle camera, and third camera can be left wide-angle Camera, the 4th camera can be right wide-angle camera.It is separately positioned on the different location of vehicle, in order to realize shooting blind area Minimize, can the installation site to four cameras repeatedly tested, to determine best position.Camera passes through USB interface is connected with USB HUB, and the video data of camera is forwarded to control unit for vehicle, vehicle control list by USB HUB Member carries out compression processing to video data, to reduce data volume, and by the video data transmission after compression processing to background service Device.Since control unit for vehicle compresses data, data transmission efficiency is substantially increased.

Further, control unit for vehicle is also used to, and receives the second video data that the 4th sensing module is sent, and by the Two video datas are sent to server, so that server is monitored vehicle according to the second video data.

Wherein, the 4th sensing module is joint vision technique (Allied Vision Technologies, AVT) camera. The second video data that AVT camera obtains first is transferred to router, then is transmitted to control unit for vehicle by router.

Further, vehicle control syetem further include: display screen.

Display screen is connected with control unit for vehicle, the operating status letter of the vehicle for receiving control unit for vehicle transmission Breath, and show the running state information.

Wherein, running state information include the travel speed of vehicle, the current location of vehicle, vehicle distances destination when Between, distance etc..Satisfaction of users is improved as a result,.

As a result, by applying vehicle control syetem provided by the embodiment of the utility model, a variety of automatic Pilot moulds are provided Formula, and the security level into automatic driving mode is improved, the handoff-security between driving mode is realized, user is improved Experience, and by emergency stop switch, improve the emergency processing speed of vehicle.

Professional should further appreciate that, described in conjunction with the examples disclosed in the embodiments of the present disclosure Unit and algorithm steps, can be realized with electronic hardware, computer software, or a combination of the two, hard in order to clearly demonstrate The interchangeability of part and software generally describes each exemplary composition and step according to function in the above description. These functions are implemented in hardware or software actually, the specific application and design constraint depending on technical solution. Professional technician can use different methods to achieve the described function each specific application, but this realization It is not considered that exceeding the scope of the utility model.

Above specific embodiment has carried out further the purpose of this utility model, technical scheme and beneficial effects It is described in detail, it should be understood that the above is only the specific embodiments of the utility model, is not used to limit originally practical Novel protection scope, within the spirit and principle of the utility model, any modification, equivalent substitution, improvement and etc. done, It should be included within the scope of protection of this utility model.

Claims (8)

1. a kind of vehicle control syetem, which is characterized in that the vehicle control syetem includes: automatic Pilot switch, crosswise joint Switch, longitudinally controlled switch, emergency stop switch and locking device；

The locking device is connected with the emergency stop switch；

The automatic Pilot switch according to the current state of vehicle, generates pattern switching instruction, when pressed to indicate vehicle Automatic driving mode is switched to, or switches to manual drive mode from automatic driving mode；

The crosswise joint switch when pressed, generates the first automatic Pilot letter when vehicle will enter automatic driving mode Number, to indicate the automatic driving mode of vehicle for lateral automatic driving mode；Alternatively, when vehicle is in automatic driving mode, When pressed, it generates the first automatic Pilot and exits signal, to indicate that vehicle exits lateral automatic driving mode, and by described the One automatic Pilot signal or the first automatic Pilot exit signal and are sent to bottom vehicle control device, so that the bottom vehicle control The first automatic Pilot signal or first automatic Pilot are exited signal and are sent to control unit for vehicle by device processed；

The longitudinally controlled switch when pressed, generates the second automatic Pilot letter when vehicle will enter automatic driving mode Number, to indicate the automatic driving mode of vehicle for longitudinal automatic driving mode；Alternatively, when vehicle is in automatic driving mode, When pressed, it generates the second automatic Pilot and exits signal, to indicate that vehicle exits longitudinal automatic driving mode, and by described the Two automatic Pilot signals or the second automatic Pilot exit signal and are sent to the bottom vehicle control device, so that the bottom vehicle The second automatic Pilot signal or second automatic Pilot are exited signal and are sent to the vehicle control by controller Unit；

The emergency stop switch generates the first emergency brake signal, and first emergency brake signal is passed through when pressed Controller local area network's CAN bus is sent to bottom vehicle control device, so that the bottom vehicle control device is according to described first The brake system of emergency brake signal control vehicle；

The locking device controls the emergency stop switch and is in the lock state when the emergency stop switch is pressed.

2. vehicle control syetem according to claim 1, which is characterized in that the vehicle control syetem further includes power-on and power-off Switch；

The electric switch up and down according to the current state of vehicle, generates power on signal or lower electric signal when pressed, so that Power supply module is vehicle control syetem power supply according to the power on signal, alternatively, so that the power supply module is according to Lower electric signal cuts off the power supply of the vehicle control syetem.

3. vehicle control syetem according to claim 1, which is characterized in that the crosswise joint switch and longitudinal control System switchs, when vehicle will enter automatic driving mode, in crosswise joint switch and the longitudinally controlled switch while quilt When pressing, third automatic Pilot signal is generated, to indicate vehicle as full-automatic driving mode；Alternatively, being driven automatically when vehicle is in When sailing mode, when pressed, generates third automatic Pilot and exit signal, to indicate that vehicle exits full-automatic driving mode, and The third automatic Pilot signal or third automatic Pilot are exited into signal and are sent to the bottom vehicle control device, so that institute State bottom vehicle control device by the third automatic Pilot signal or the third automatic Pilot exit signal be sent to it is described Control unit for vehicle.

4. vehicle control syetem according to claim 1, which is characterized in that crosswise joint switch, when vehicle from When dynamic driving mode is longitudinal automatic driving mode, when pressed, the 4th automatic Pilot signal is generated, to indicate vehicle from vertical Full-automatic driving mode is switched to automatic driving mode.

5. vehicle control syetem according to claim 1, which is characterized in that the longitudinally controlled switch, when vehicle from When dynamic driving mode is lateral automatic driving mode, when pressed, the 5th automatic Pilot signal is generated, to indicate vehicle from cross Full-automatic driving mode is switched to automatic driving mode.

6. vehicle control syetem according to claim 1, which is characterized in that the emergency stop switch, by the emergency stop switch When screwing out from the locking device, notification signal is generated, and the notification signal is sent to the control unit for vehicle.

7. vehicle control syetem according to claim 1, which is characterized in that the vehicle control syetem further includes display Screen；

The display screen is connected with the control unit for vehicle；

The display screen receives the running state information for the vehicle that control unit for vehicle is sent, and shows the operating status letter Breath.

8. vehicle control syetem according to claim 1, which is characterized in that the vehicle control syetem further includes enabled opens It closes；

The enabled switch and the crosswise joint switch while being pressed preset first time threshold；Alternatively, with described vertical It is pressed preset second time threshold simultaneously to control switch；Alternatively, alternately pressing crosswise joint switch and it is longitudinally controlled When switch, it is pressed preset third time threshold.