CN113744441A - Vehicle inspection method and system - Google Patents

Abstract

The embodiment of the application provides a vehicle checking method, which comprises the following steps: when a vehicle is detected, collecting vehicle information and driver information, and storing the vehicle information and the driver information; when the vehicle is detected to enter the exit examination area, acquiring the identification information of the vehicle, and reading the vehicle information and the driver information corresponding to the identification information of the vehicle from the pre-stored data; acquiring an outbound checking result, and if the outbound checking result indicates that the verification fails, forbidding passing; when the vehicle is detected to enter the entry inspection area, acquiring identification information of the vehicle, and reading vehicle information and driver information corresponding to the identification information of the vehicle from pre-stored data; and acquiring an inbound check result, and if the inbound check result indicates that the verification fails, forbidding the passage. The embodiment overcomes the problems of high construction cost, low clearance efficiency, complex operation and the like through the sharing of the collected information.

Description

Vehicle inspection method and system

Technical Field

The embodiment of the application relates to the technical field of electronic information, in particular to a vehicle checking method and device.

Background

At present, vehicles need to be checked at two side inspection ports respectively when entering and exiting the border of China, and then can be released. For example, when a Shenzhen is driven to hong Kong, the electronic inspection channel is started, the electronic inspection channel passes through the port electronic inspection system at the Shenzhen end to be inspected successfully, then the electronic inspection channel leaves the Shenzhen to reach the port at the hong Kong end, and the electronic inspection channel can enter the hong Kong border after being inspected successfully by the similar electronic inspection system. In the period, the processes of twice license plate identification and inspection, twice fingerprint inspection, twice face inspection, twice certificate inspection and the like are required, so that the clearance efficiency is low and the operation is complicated.

Disclosure of Invention

In view of this, the present embodiment provides a vehicle checking method and device, so as to overcome the problems of high construction cost, low clearance efficiency, and complicated operation.

In a first aspect, an embodiment of the present application provides a vehicle inspection method, including:

when a vehicle is detected, collecting vehicle information and driver information, and storing the vehicle information and the driver information;

when detecting that the vehicle enters the exit examination area, acquiring identification information of the vehicle, and reading vehicle information and driver information corresponding to the identification information of the vehicle from pre-stored data so as to use the vehicle information and the driver information for examination;

acquiring an outbound checking result, and if the outbound checking result indicates that the verification fails, forbidding passing; if the outbound checking result indicates that the verification is successful, releasing;

when detecting that the vehicle enters the entry inspection area, acquiring identification information of the vehicle, and reading vehicle information and driver information corresponding to the identification information of the vehicle from pre-stored data so as to inspect by using the vehicle information and the driver information;

acquiring an inbound check result, and if the inbound check result indicates that the verification fails, forbidding passing; and if the inbound check result indicates that the verification is successful, releasing.

Optionally, in an embodiment, the vehicle inspection method further includes:

when the vehicle is detected to enter the exit checking area, controlling the information acquisition terminal to be in communication connection with the exit checking device and controlling the information acquisition terminal to be disconnected with the entry checking device;

and when the vehicle is detected to enter the entry inspection area, controlling the information acquisition terminal to be in communication connection with the entry inspection device and controlling the information acquisition terminal to be disconnected with the exit inspection device.

Optionally, in one embodiment, when the vehicle is detected, collecting the vehicle information and the driver information includes:

when a vehicle is detected, certificate information, fingerprint information and facial information of a driver are collected, and license plate data and vehicle bottom information of the vehicle are collected.

Optionally, in an embodiment, the vehicle inspection method further includes:

when the vehicle is detected to enter the exit inspection area, the linkage controller controls the exit lane traffic indicator lamp to display a passable state, and controls the exit traffic signal lamp to display a red light and the entry traffic signal lamp to display a green light;

when the vehicle is detected to enter the entry inspection area, the linkage controller controls the exit lane traffic indicator lamp to display the passable state, and controls the exit traffic signal lamp to display a green light and the entry traffic signal lamp to display a red light.

Optionally, in an embodiment, the vehicle inspection method further includes:

when the situation that the vehicle enters the exit inspection area and the release instruction of the exit inspection system is not received is detected, the exit barrier device and the entrance barrier device are controlled to be closed, and the anti-gateway-off ground pillar is controlled to rise to the highest point;

when the vehicle is detected to enter the entry inspection area and a release instruction of the entry inspection system is received, the linkage controller controls the entry barrier device to be opened and controls the anti-gateway ground pillar to descend to the lowest point.

Optionally, in an embodiment, the vehicle inspection method further includes:

and when the vehicle is detected to enter or exit the exit inspection area, displaying the inspection progress through the display screen.

In a second aspect, an embodiment of the present application provides a vehicle inspection system, including: the system comprises an information acquisition terminal, an outbound checking device and an inbound checking device;

the information acquisition terminal is used for acquiring vehicle information and driver information and storing the vehicle information and the driver information;

the exit checking device is used for reading the corresponding vehicle information and the driver information which are stored by the information acquisition terminal when detecting that the vehicle enters the exit checking area, and checking by utilizing the vehicle information and the driver information;

the entry inspection device is used for reading the corresponding vehicle information and the driver information which are stored in the information acquisition terminal when the entry inspection area of the vehicle is detected, and inspecting by using the vehicle information and the driver information.

Optionally, in an embodiment, the vehicle inspection system further includes: a network switch and a linkage controller;

the outbound checking device is in communication connection with the information acquisition terminal through the network change-over switch and is in communication connection with the linkage controller through the serial interface;

the entry checking device is in communication connection with the information acquisition terminal through the network selector switch and is in communication connection with the linkage controller through the serial interface;

the network switch is respectively in communication connection with the linkage controller, the outbound checking device, the inbound checking device and the information acquisition terminal host, and the network switch is controlled by the linkage controller and is used for switching the network connection between the information acquisition terminal host and the outbound checking device and the inbound checking device so as to ensure that the information acquisition terminal host can only be in communication connection with the network of one of the inbound checking device and the outbound checking device at the same time.

Optionally, in an embodiment, the information collecting terminal includes:

the system comprises an information acquisition terminal host, a certificate acquisition module, a fingerprint acquisition module, a face acquisition module, an information interaction module, an intercom device and an information prompt device;

the system comprises an information acquisition terminal host, a certificate acquisition module, a fingerprint acquisition module, a face acquisition module, an information interaction module, an intercom device and an information prompt device, wherein the information acquisition terminal host is respectively in communication connection with the certificate acquisition module, the fingerprint acquisition module, the face acquisition module, the information interaction module, the intercom device and the information prompt device and is used for collecting and storing acquired information;

the certificate acquisition module is used for acquiring certificate information; the fingerprint acquisition module is used for acquiring fingerprint information; the face acquisition module is used for acquiring face information; the information interaction module is used for displaying and inputting information; the intercom device is used for carrying out conversation between field operators and background police officers; the information prompting device is used for displaying and broadcasting information.

Optionally, in an embodiment, the information acquisition terminal is in communication connection with the license plate recognition module and the ferry prevention device;

the license plate recognition module is used for collecting license plate data; the anti-sneaking crossing device is used for collecting vehicle bottom information.

According to the vehicle checking method and the vehicle checking system, when a vehicle is detected, vehicle information and driver information are collected and stored;

when detecting that the vehicle enters the exit examination area, acquiring identification information of the vehicle, and reading vehicle information and driver information corresponding to the identification information of the vehicle from pre-stored data so as to use the vehicle information and the driver information for examination;

acquiring an outbound checking result, and if the outbound checking result indicates that the verification fails, forbidding passing; if the outbound checking result indicates that the verification is successful, releasing;

when detecting that the vehicle enters the entry inspection area, acquiring identification information of the vehicle, and reading vehicle information and driver information corresponding to the identification information of the vehicle from pre-stored data so as to inspect by using the vehicle information and the driver information;

acquiring an inbound check result, and if the inbound check result indicates that the verification fails, forbidding passing; and if the inbound check result indicates that the verification is successful, releasing.

The vehicle related information data is collected and stored to be called by an exit and entry two-place inspection system, so that the sharing of the collected information is realized; because the information is collected and then stored, the verification can be carried out twice, and the information is collected only once, so that the checking efficiency is improved.

Drawings

Some specific embodiments of the present application will be described in detail hereinafter by way of illustration and not limitation with reference to the accompanying drawings. The same reference numbers in the drawings identify the same or similar elements or components. Those skilled in the art will appreciate that the drawings are not necessarily drawn to scale. In the drawings:

FIG. 1 is a flow chart of vehicle inspection provided by an embodiment of the present application;

fig. 2 is a structural diagram of a vehicle inspection system according to an embodiment of the present disclosure;

FIG. 3 is a more complete flowchart of vehicle inspection provided by the embodiments of the present application;

FIG. 4 is a more detailed diagram of a vehicle inspection system according to an embodiment of the present disclosure;

fig. 5 is a layout diagram of an inspection site for vehicles at an edge inspection port according to an embodiment of the present application;

Detailed Description

It is not necessary for any particular embodiment of the invention to achieve all of the above advantages at the same time.

In order to make those skilled in the art better understand the technical solutions in the embodiments of the present application, the technical solutions in the embodiments of the present application will be described clearly and completely below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, but not all embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application shall fall within the scope of the protection of the embodiments in the present application.

The following further describes specific implementations of embodiments of the present application with reference to the drawings of the embodiments of the present application.

Example one

An embodiment of the present application provides a vehicle inspection method, which is shown in fig. 1, and includes the following steps:

step 101, when a vehicle is detected, collecting vehicle information and driver information, and storing the vehicle information and the driver information.

The vehicle here is any vehicle, and the vehicle information indicates a vehicle identification. For example, the vehicle information may include license plate data information, underbody information; the driver information may include at least one of credential information, fingerprint information, and facial information.

Optionally, in one embodiment, when the vehicle is detected, collecting the vehicle information and the driver information includes: when a vehicle is detected, certificate information, fingerprint information and facial information of a driver are collected, and license plate data and vehicle bottom information of the vehicle are collected.

It should be further noted that the detection of the vehicle means that the vehicle is detected to enter the detection area, and the detection may specifically be performed by radar, infrared ray or a camera. For example, in one implementation, the method further comprises: whether a vehicle exists in the detection area is detected through a radar.

The collected information can be collected through a collection terminal host, a certificate collection module, a fingerprint collection module, a face collection module, a license plate recognition module and an anti-ferry system.

The saving may be storing the collected vehicle information and driver information in the information collecting terminal.

And 102, when the vehicle is detected to enter the exit and exit inspection area, acquiring the identification information of the vehicle, and reading the vehicle information and the driver information corresponding to the identification information of the vehicle from the pre-stored data so as to inspect by using the vehicle information and the driver information.

Here, the exit refers to the travel from the inland of china to other countries or regions, from the inland of china to the hong kong special administrative district, the australian special administrative district, and from the continent of china to the taiwan region, and can be expanded and explained as the cross province city, the autonomous region, and the direct prefecture city.

Here, the inspection process is explained by taking two examples:

alternatively, in the first example, the corresponding vehicle information and driver information may be acquired from pre-stored data according to the identification information of the vehicle, and the inspection person may inspect the vehicle and the driver on site according to the acquired vehicle information and driver information and input an inspection result to the linkage controller.

Optionally, in a second example, according to the license plate identification information, corresponding reference information is obtained from a preset database, where the reference information is information that is collected in advance and proves the identity of the vehicle and the driver.

Step 103, obtaining an outbound checking result, and if the outbound checking result indicates that the verification fails, forbidding passing; and if the outbound checking result indicates that the verification is successful, releasing.

It should be noted that the no-pass here refers to prompting the driver to exit and return from the exit fire passage; let-go here means to allow passage.

And 104, when the vehicle is detected to enter the entry inspection area, acquiring the identification information of the vehicle, and reading the vehicle information and the driver information corresponding to the identification information of the vehicle from the pre-stored data so as to inspect by using the vehicle information and the driver information.

Similar to step 102.

Step 105, obtaining an inbound check result, and if the inbound check result indicates that the verification fails, forbidding passing; and if the inbound check result indicates that the verification is successful, releasing.

Similar to step 103.

According to the vehicle inspection method provided by the embodiment of the application, the vehicle information and the driver information are collected and stored before the outbound inspection, and are called when the outbound inspection or the inbound inspection is carried out, namely, the vehicle related information data are collected and stored, and are supplied to the outbound and inbound inspection system for calling, so that the sharing of the collected information is realized, and the purposes of one-time collection and two-time inspection are achieved.

It should be noted that, in combination with the above steps 101-105, 4 specific application scenarios are listed for further description here.

Optionally, in the first application scenario, the outbound examination device and the inbound examination device may be isolated from each other, for example, the method further includes:

when the vehicle is detected to enter the exit checking area, controlling the information acquisition terminal to be in communication connection with the exit checking device and controlling the information acquisition terminal to be disconnected with the entry checking device;

and when the vehicle is detected to enter the entry inspection area, controlling the information acquisition terminal to be in communication connection with the entry inspection device and controlling the information acquisition terminal to be disconnected with the exit inspection device.

It should be noted that, here, controlling the communication connection between the information collection terminal and the outbound check device or the inbound check device means controlling the network switch through the linkage controller to make the information collection terminal host communicatively connected to one of the outbound check device and the inbound check device and to disconnect the communication connection with the other check device.

Because the network change-over switch is controlled by the linkage controller to control the information acquisition terminal host to be only in communication connection with one of the entry examination device and the exit examination device at the same time, the exit examination device and the entry examination device are not directly connected, the information acquisition terminal host is communicated with the network of one of the examination and release systems in a time-sharing manner to realize the calling of shared information, thereby realizing physical network isolation and ensuring the independence of the information of the two systems.

Optionally, in a second application scenario, the inspection progress may be displayed by using a signal light prompt and an information display screen, and the method further includes:

when the vehicle is detected to enter the exit inspection area, the linkage controller controls the exit lane traffic indicator lamp to display a passable state, controls the exit traffic signal lamp to display a red light and controls the entry traffic signal lamp to display a green light;

it should be noted that the linkage controller herein refers to a microcontroller as a core, and may have a function of storing field programming, and has various communication interfaces, for example: remote online can be realized through the RS232 serial port, and various linkage control logics can be realized.

When the vehicle is detected to enter the entry inspection area, the linkage controller controls the exit lane traffic indicator lamp to display the passable state, and controls the exit traffic signal lamp to display a green light and the entry traffic signal lamp to display a red light.

Because signal lamp prompting and information display screen are adopted to display the checking progress, the whole checking and playing process is simple and convenient to operate and is in actual fit.

Optionally, in a third application scenario, the method further includes: when the situation that the vehicle enters the exit inspection area and the release instruction of the exit inspection system is not received is detected, the exit barrier device and the entrance barrier device are controlled to be closed, and the anti-gateway-off ground pillar is controlled to rise to the highest point;

when the vehicle is detected to enter the entry inspection area and a release instruction of the entry inspection system is received, the linkage controller controls the entry barrier device to be opened and controls the anti-gateway ground pillar to descend to the lowest point.

Therefore, a barrier and an anti-driving-off ground pillar are arranged, and vehicles which do not meet the conditions are prevented from forcibly passing through.

Optionally, in a fourth application scenario, the method further includes:

and when the vehicle is detected to enter or exit the exit inspection area, displaying the inspection progress through the display screen.

The checking progress is displayed by setting the display screen, so that the checking process is more humanized.

The application scenarios can be used alone as a technical scheme, and can also be combined randomly to form a new technical scheme.

Example two

With reference to fig. 2, a vehicle inspection method described in conjunction with the first embodiment provides a vehicle inspection system, configured to perform the vehicle inspection method, including: the system comprises an information acquisition terminal 201, an outbound checking device 202 and an inbound checking device 203;

the information acquisition terminal 201 is used for acquiring vehicle information and driver information and storing the vehicle information and the driver information;

the outbound inspection device 202 is used for reading the corresponding vehicle information and driver information stored by the information acquisition terminal 201 when detecting that the vehicle enters the outbound inspection area, and inspecting by using the vehicle information and the driver information;

the entry inspection device 203 is configured to read the corresponding vehicle information and driver information stored in the information acquisition terminal 201 when detecting that the vehicle enters the entry inspection area, and perform inspection using the vehicle information and the driver information.

It should be noted that the above embodiments are combined. Here, the vehicle inspection method is further described by exemplifying 3 specific implementations.

Optionally, in a first implementation manner, the vehicle inspection system further includes:

a network switch and a linkage controller;

the outbound inspection device 202 is in communication connection with the information acquisition terminal 201 through a network switch and in communication connection with the linkage controller through a serial interface;

the entry checking device 203 is in communication connection with the information acquisition terminal 201 through a network switch and in communication connection with the linkage controller through a serial interface;

the network switch is respectively in communication connection with the linkage controller, the outbound checking device 202, the inbound checking device 203 and the host of the information acquisition terminal 201, and the network switch is controlled by the linkage controller and is used for switching the network connection between the host of the information acquisition terminal 201 and the outbound checking device 202 and the inbound checking device 203, so that the host of the information acquisition terminal 201 can only be in communication connection with the network of one of the outbound checking device 202 and the inbound checking device 203 at the same time.

Optionally, in a second implementation manner, the vehicle inspection system further includes:

the system comprises an information acquisition terminal 201 host, a certificate acquisition module, a fingerprint acquisition module, a face acquisition module, an information interaction module, an intercom device and an information prompt device;

the information acquisition terminal 201 host is in communication connection with the certificate acquisition module, the fingerprint acquisition module, the face acquisition module, the information interaction module, the intercom device and the information prompting device respectively;

the certificate acquisition module is used for acquiring certificate information; the fingerprint acquisition module is used for acquiring fingerprint information; the face acquisition module is used for acquiring face information; the information interaction module is used for displaying and inputting information; the intercom device is used for carrying out conversation between field operators and background police officers; the information prompting device is used for displaying and broadcasting information.

Optionally, in a third implementation:

the information acquisition terminal 201 is in communication connection with the license plate recognition module and the anti-ferrying device; the license plate recognition module is used for collecting license plate data; the anti-sneak device is used for collecting vehicle bottom information.

EXAMPLE III

The present embodiment describes a more complete vehicle inspection process.

Fig. 3 shows a vehicle inspection flow according to the present invention, and fig. 5 shows a layout of a vehicle inspection field according to the embodiment of the present invention. The overall flow is as follows: the method comprises the steps of firstly carrying out outbound inspection, collecting driver information and vehicle information, if the outbound inspection is passed, releasing and carrying out inbound inspection, and releasing after the inbound inspection is passed, thereby completing a clearance inspection flow; and if the inspection is not passed, the passage is forbidden, and the driver is informed to return from the corresponding fire fighting access.

The specific steps of the embodiment are described in detail below with reference to the accompanying drawings:

step S1: the outbound checking device 1 and the inbound checking device 3 are started, and after the systems are ready, the systems of the two parties send a system ready instruction to the linkage controller 5;

step S2: the linkage controller 5 initializes the relevant components, including: the control network change-over switch 2 enables the information acquisition terminal host 401 to be in network communication with the exit checking device 1, controls the exit lane traffic indicator light 9 to display a passable state, controls the exit traffic signal light 10 and the entry traffic signal light 18 to display a green light, controls the exit barrier device 12 and the entry barrier device 16 to be in a barrier closing position, controls the anti-scour barrier pillar 20 to rise to the highest point, and controls the checking progress display screen 14 to display information such as current checking progress or operation guidance, for example, checking progress of driving into a lane;

step S3: when the vehicle enters the exit examination area, the vehicle entrance detection device 6 detects the entrance of the vehicle and transmits the detection result to the linkage controller 5, and the linkage controller 5 controls the exit traffic signal lamp 10 to be switched to a red light state so as to warn that the vehicle behind cannot enter; meanwhile, the linkage controller 5 triggers the license plate recognition module 8 to recognize the license plate, simultaneously triggers the anti-sneak device 7 to scan the vehicle bottom, and the license plate recognition module 8 and the anti-sneak device 7 transmit respective data information to the information acquisition terminal host 401;

step S4: when the vehicle arrives at the position of the information acquisition terminal 4, the driver performs related information acquisition operations such as certificate acquisition, fingerprint acquisition, face acquisition and the like, corresponding data information is stored on the information acquisition terminal host 401, and an acquisition ready instruction is sent to the outbound inspection device 1 through the network change-over switch 2;

step S5: the outbound inspection device 1 reads data information on the information acquisition terminal host 401 through the network change-over switch 2, and performs inspection comparison on the certificate, fingerprint and face information of the driver and the license plate and vehicle bottom photo of the vehicle:

if the exit examination does not pass, on one hand, the exit examination device 1 informs the information acquisition terminal host 401 through the network change-over switch 2, and the information acquisition terminal host 401 controls the information prompting device 407 to play the relevant voice information to prompt the driver to exit and return from the exit fire fighting channel; on the other hand, the exit examination device 1 sends a corresponding instruction to the linkage controller 5, and the linkage controller 5 controls the information display screen 14 to display corresponding information so as to prompt the driver to exit and return from the exit fire fighting access;

if the conditions are met, the exit checking device 1 sends a pass permission instruction to the linkage controller 5, and the linkage controller 5 controls the exit barrier gate device 12 to open the gate;

step S6: when the vehicle leaves the exit checking area, the vehicle exit detection device 11 and the exit infrared detection device 13 detect that the vehicle leaves the exit checking area, and then send corresponding detection results to the linkage controller 5, and the linkage controller 5 controls the exit barrier device 12 to close the gate and controls the exit traffic signal lamp 10 to switch to a green light;

step S7: the vehicle which passes the exit inspection enters the entry inspection area, the entry vehicle entry detection device 19 detects that the vehicle enters the entry inspection area, the detection result is transmitted to the linkage controller 5, and the linkage controller 5 controls the entry traffic signal lamp 18 to be switched to a red light state so as to warn that the vehicle behind cannot enter; meanwhile, the linkage controller 5 controls the network switch 2 to connect the information acquisition terminal host 401 with the entry checking device 2 through the network, and the linkage controller 5 informs the entry checking device 3 that a vehicle enters;

step S8: the entry checking device 3 reads data information on the information acquisition terminal host 401 through the network change-over switch 2, and checks and compares the certificate, fingerprint, face information of the driver, license plate of the vehicle, vehicle bottom photo and other information:

if the entry inspection is not passed, on one hand, the entry inspection device 3 informs the information acquisition terminal host 401 through the network change-over switch 2, and the information acquisition terminal host 401 controls the information prompting device 407 to play the relevant voice information to prompt the driver to exit and return from the entry fire fighting channel; on the other hand, the entry checking device 3 sends a corresponding instruction to the linkage controller 5, and the linkage controller 5 controls the information display screen 14 to display corresponding information so as to prompt the driver to exit and return from the entry fire fighting channel;

if the traffic condition is met, the entry checking device 3 sends a traffic permission instruction to the linkage controller 5, the linkage controller 5 controls the anti-closing ground pillar 20 to descend to the lowest point, and then the entry barrier gate device 16 is controlled to open;

step S9: when the vehicle leaves the entry inspection area, the entry vehicle leaves the detection device 17 and the entry infrared detection device 15 detect that the vehicle leaves the entry inspection area, then corresponding detection results are sent to the linkage controller 5, and the linkage controller 5 sequentially controls the entry barrier gate device 16 to close the gate, the anti-closing ground pillar 20 to ascend to the highest point and the entry traffic signal lamp 18 to switch to a green light state;

step S10: at this point, the exit/entry checking process ends, and returns to step S2 to enter the next exit/entry checking process.

The following describes the specific structure of the embodiment in detail with reference to fig. 4:

as shown in fig. 4, the present invention provides a quick customs clearance system for a vehicle at an inspection port, the system comprising: the system comprises an outbound inspection device 1, a network change-over switch 2, an inbound inspection device 3, an information acquisition terminal 4, a linkage controller 5, a vehicle entering detection device 6, an anti-sneak device 7, a license plate recognition module 8, an outbound lane traffic indicator lamp 9, an outbound traffic signal lamp 10, a vehicle leaving detection device 11, an outbound barrier gate device 12, an outbound infrared detection device 13, an information display screen 14, an inbound infrared detection device 15, an inbound barrier gate device 16, an inbound vehicle leaving detection device 17, an inbound traffic signal lamp 18, an inbound vehicle entering detection device 19 and an anti-customs pillar 20. Wherein, information acquisition terminal 4 still includes: the system comprises an information acquisition terminal host 401, a certificate acquisition module 402, a fingerprint acquisition module 403, a face acquisition module 404, an information interaction module 405, an intercom device 406 and an information prompting device 407.

One end of the outbound checking device is connected with the network of the information acquisition terminal host through the network selector switch, and the other end of the outbound checking device is connected with the linkage controller through the RS232 serial port, so that the outbound checking device is used for checking, controlling and managing the vehicle.

Similarly, one end of the inbound inspection device is connected with the network of the information acquisition terminal host through the network selector switch, and the other end of the inbound inspection device is connected with the linkage controller through the RS232 serial port, so that the inbound inspection device is used for inspecting and controlling inbound vehicles.

One end of the network switch is connected with the linkage controller, the other end of the network switch is respectively connected with the outbound checking device, the inbound checking device and the information acquisition terminal host, and the network switch is controlled by the linkage controller and is used for switching the network connection between the information acquisition terminal host and the outbound checking device and the inbound checking device so as to ensure that the information acquisition terminal host can only be connected with the network of one checking system at the same time and realize physical network isolation.

The information acquisition terminal is installed in the outbound inspection area and used for carrying out certificate information acquisition, fingerprint information acquisition and facial information acquisition on outbound drivers, and meanwhile, the acquired driver information data, the license plate data acquired by the license plate identification module and the vehicle bottom information acquired by the anti-ferrying device are stored on the host of the information acquisition terminal and used for two-place inspection systems to call. The information acquisition terminal comprises the following main components:

the information acquisition terminal host is used for collecting and storing the acquired information; the certificate acquisition module is used for acquiring certificate information; the fingerprint acquisition module is used for acquiring fingerprint information; a face acquisition module for acquiring face information; the information interaction module is used for displaying and inputting information; the intercom device is used for the conversation between the field operator and the background police officer; the information prompting device is used for displaying and broadcasting information;

the information acquisition terminal host is in communication connection with the certificate acquisition module, the fingerprint acquisition module, the face acquisition module, the information interaction module, the intercom device and the information prompt device respectively;

meanwhile, the information acquisition terminal host is also in communication connection with a network switch, and respectively transmits data with the exit and entry inspection devices through the network switch;

the information acquisition terminal host is also in communication connection with the license plate recognition module and receives license plate data sent by the license plate recognition module; and the vehicle bottom information is communicated with the anti-stealing and crossing device and is received by the anti-stealing and crossing device.

Particularly, the invention also comprises a linkage controller which is respectively connected with the outbound checking device and the inbound checking device through RS232 serial ports and communicates with each other, thereby playing the role of a bridge for information communication of the two-place system, and the outbound checking device and the inbound checking device transmit information through the linkage controller, thereby ensuring that the two-place system is not directly connected electrically. Meanwhile, the linkage controller is also connected with the network change-over switch to control the change-over direction of the network change-over switch.

Also in communicative connection with the linkage controller are the following:

the exit lane traffic indicator lamp is used for indicating whether the current exit lane can normally pass or not;

an outbound traffic signal for guiding a vehicle into an outbound lane generally includes a red light and a green light;

the vehicle driving-in detection device for detecting the vehicle driving-in and driving-out of the inspection area generally comprises a ground induction coil and a ground induction controller;

the anti-stealing device for detecting whether the vehicle chassis is hidden by people generally comprises a linear scanning camera and a matched control host;

the license plate recognition module is used for recognizing license plate information;

an exit gate device for exit release;

the exit infrared detection device for preventing the barrier gate from smashing the car in the exit inspection area generally comprises an infrared correlation sensor and a detection control main board;

a vehicle leaving detection means for detecting that the vehicle leaves the outbound inspection area;

an inbound traffic signal for directing vehicles into an inbound lane, typically comprising a red light, a green light;

an entry vehicle entry detection device for detecting entry of a vehicle into an entry inspection area, generally comprising a ground induction coil and a ground induction controller;

an entry barrier device for entry release;

the entry infrared detection device for preventing the barrier gate from smashing the vehicle in the entry inspection area generally comprises an infrared correlation sensor and a detection control main board;

an inbound vehicle departure detection means for detecting a departure of the vehicle from the inbound inspection area;

an anti-gate-off ground pillar for preventing forced vehicle gate-off;

and the information display screen is used for displaying information such as the current checking progress and the like, is arranged at the entrance barrier gate bayonet and is used for a driver and field policemen to look up.

The above are merely examples of the present application and are not intended to limit the present application. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the scope of the claims of the present application.

Claims (10)

1. A vehicle inspection method, characterized by comprising:

when a vehicle is detected, vehicle information and driver information are collected and stored;

when the vehicle is detected to enter the exit examination area, acquiring the identification information of the vehicle, and reading the vehicle information and the driver information corresponding to the identification information of the vehicle from pre-stored data so as to use the vehicle information and the driver information for examination;

acquiring an outbound checking result, and if the outbound checking result indicates that the verification fails, forbidding passing; if the outbound checking result indicates that the verification is successful, releasing;

when the vehicle is detected to enter the entry inspection area, acquiring the identification information of the vehicle, and reading the vehicle information and the driver information corresponding to the identification information of the vehicle from pre-stored data so as to inspect by using the vehicle information and the driver information;

acquiring an inbound check result, and if the inbound check result indicates that the verification fails, forbidding passing; and if the inbound check result indicates that the verification is successful, releasing.

2. The vehicle inspection method according to claim 1, further comprising:

when the vehicle is detected to enter the exit checking area, controlling the information acquisition terminal to be in communication connection with the exit checking device and controlling the information acquisition terminal to be disconnected with the entry checking device;

and when the vehicle is detected to enter the entry inspection area, controlling the information acquisition terminal to be in communication connection with the entry inspection device and controlling the information acquisition terminal to be disconnected with the exit inspection device.

3. The vehicle inspection method according to claim 1, wherein the collecting of the vehicle information and the driver information when the vehicle is detected includes:

when a vehicle is detected, certificate information, fingerprint information and facial information of a driver are collected, and license plate data and vehicle bottom information of the vehicle are collected.

4. The vehicle inspection method according to claim 1, further comprising:

when the vehicle is detected to enter the exit inspection area, the linkage controller controls the exit lane traffic indicator lamp to display a green light, and controls the exit traffic signal lamp to display a red light and the entry traffic signal lamp to display a green light;

when the vehicle is detected to enter the entry inspection area, the linkage controller controls the exit lane traffic indicator lamp to display a green light, and controls the exit traffic signal lamp to display a green light and the entry traffic signal lamp to display a red light.

5. The vehicle inspection method according to claim 1, further comprising:

when the vehicle is detected to enter the exit inspection area and a release instruction of the exit inspection system is not received, the exit barrier device and the entrance barrier device are controlled to be closed, and the anti-closing ground pillar is controlled to rise to the highest point;

when the vehicle is detected to enter the entry inspection area and a release instruction of the entry inspection system is received, the linkage controller controls the entry barrier device to be opened and controls the anti-gateway ground pillar to descend to the lowest point.

6. The vehicle inspection method according to claim 1, further comprising:

and when the vehicle is detected to enter or exit the exit inspection area, displaying the inspection progress through the display screen.

7. A vehicle inspection system, characterized by comprising: the system comprises an information acquisition terminal, an outbound checking device and an inbound checking device;

the information acquisition terminal is used for acquiring vehicle information and driver information and storing the vehicle information and the driver information;

the exit checking device is used for reading the corresponding vehicle information and the driver information which are stored by the information acquisition terminal when the vehicle is detected to enter the exit checking area, and checking by using the vehicle information and the driver information;

the entry inspection device is used for reading the corresponding vehicle information and the driver information which are stored in the information acquisition terminal when the entry inspection area of the vehicle is detected, and inspecting by using the vehicle information and the driver information.

8. The vehicle inspection system according to claim 7, wherein the vehicle inspection system further comprises: a network switch and a linkage controller;

the outbound checking device is in communication connection with the information acquisition terminal through a network switch and is in communication connection with the linkage controller through a serial interface;

the entry checking device is in communication connection with the information acquisition terminal through a network selector switch and is in communication connection with the linkage controller through a serial interface;

the network change-over switch is respectively in communication connection with the linkage controller, the outbound checking device, the inbound checking device and the information acquisition terminal host, and is controlled by the linkage controller and used for switching network connection between the information acquisition terminal host and the outbound checking device and between the information acquisition terminal host and the inbound checking device, so that the information acquisition terminal host can only be in network communication connection with one of the inbound checking device and the outbound checking device at the same time.

9. The vehicle inspection system according to claim 7, wherein the information collection terminal includes:

the system comprises an information acquisition terminal host, a certificate acquisition module, a fingerprint acquisition module, a face acquisition module, an information interaction module, an intercom device and an information prompt device;

the information acquisition terminal host is in communication connection with the certificate acquisition module, the fingerprint acquisition module, the face acquisition module, the information interaction module, the intercom device and the information prompt device respectively;

the information acquisition terminal host is used for storing acquired information; the certificate acquisition module is used for acquiring certificate information; the fingerprint acquisition module is used for acquiring fingerprint information; the face acquisition module is used for acquiring face information; the information interaction module is used for displaying and inputting information; the intercom device is used for carrying out conversation between field operators and background police officers; the information prompting device is used for displaying and broadcasting information.

10. The vehicle inspection system according to claim 9, wherein the information collection terminal is in communication connection with the license plate recognition module and the anti-ferry device; the license plate recognition module is used for collecting license plate data; the anti-sneaking crossing device is used for collecting vehicle bottom information.

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