CN107255638A - A kind of vehicle checking method, apparatus and system - Google Patents

Abstract

The present invention relates to detection technique field, more particularly to a kind of vehicle checking method apparatus and system.This method is：Monitor to need to be checked vehicle drive into when, gather the above-mentioned examination information to be checked validated the car；Above-mentioned examination information is analyzed and processed, corresponding result is obtained；Based on above-mentioned result, judge it is above-mentioned it is to be checked validate the car meet the lading clearance of non-violation vehicle when, determine that above-mentioned to be checked validate the car is non-violation vehicle.Using the above method, reduce the working strength of examination personnel, it is to avoid while ping procedure is opaque, improve the accuracy of examination result, further increase examination efficiency.

Description

Vehicle checking method, device and system

Technical Field

The invention relates to the technical field of detection, in particular to a vehicle inspection method, device and system.

Background

With the rapid development of the expressway in recent years, the vehicle passing distance of the expressway is increased, the network is enlarged, and the network management work is more and more delicate and complicated. The highway green channel (hereinafter referred to as green channel) is used for establishing a smooth and convenient fresh agricultural product circulation network, supporting the transportation and sale of fresh agricultural products, promoting the income increase of farmers and playing an important role. Green channel implementation management provisions: the whole vehicle loading (the fresh agricultural products must reach the nuclear loading tonnage of the vehicle or the occupied space of the fresh agricultural products reaches more than 80 percent of the effective loading space of the vehicle, and other goods which do not belong to the variety range of the fresh agricultural products are not mixed and loaded), and the vehicle for transporting the fresh agricultural products can enjoy the preferential policy of green channels by adopting a hybrid method.

Currently, the following method is generally adopted to inspect a green traffic vehicle.

The first method comprises the following steps: the sensory method is to adopt a manual inspection method to inspect the green traffic vehicles, specifically, judge the cargo loading condition by depending on the touch, vision and smell of an inspector, and photograph the loaded cargo by using a camera to finish information acquisition.

However, the first method is adopted, the objects need to be moved to check the loading condition in the vehicle, the checking speed is low, the work intensity of checking personnel is high, the information acquisition is incomplete, the judgment subjectivity is high, the checking result is inaccurate, the checking process is opaque, and the vehicle release randomness is high.

The second method is as follows: the radar inspection method is to apply ground penetrating radar technology to road surface inspection.

However, with the second method, since the electromagnetic wave emitted from the radar cannot penetrate through the metal, it is impossible to check the enclosed container vehicle, and the penetration capability of the electromagnetic wave emitted from the radar is limited, it is impossible to check whether the inside of the vehicle is mixed with non-fresh agricultural products.

The third method is as follows: the fluoroscopy is used for fluoroscopy inspection of vehicles by using X-rays or gamma-rays.

However, with the third method, when the X-ray or γ -ray device is operated, a certain amount of radioactive substances are generated, which causes radiation pollution to fresh agricultural products and drivers and passengers, and the X-ray or γ -ray device is expensive, requires high installation site, and is extremely complicated to debug.

In view of the above, a new vehicle inspection method, device and system are needed to overcome the defects and shortcomings in the prior art.

Disclosure of Invention

The embodiment of the invention aims to provide a vehicle checking method, a device and a system, which are used for solving the problems of low vehicle checking efficiency, inaccurate checking result and opaque checking process in the prior art.

The embodiment of the invention provides the following specific technical scheme:

a vehicle checking device at least comprises a dual-frequency wireless fidelity Wi-Fi device, a wireless camera, an image processing display device, a battery device, a handheld grab handle and a camera angle adjusting rod, wherein,

the dual-frequency Wi-Fi equipment is in wireless connection with the wireless transmitter through a first Wi-Fi module and is in wireless connection with the wireless camera through a second Wi-Fi module;

the wireless camera is used for collecting the checking information of the vehicle to be checked and transmitting the checking information to the image processing and displaying equipment through the dual-frequency Wi-Fi equipment;

the image processing and displaying device is used for receiving and displaying the checking information transmitted by the wireless camera, and reporting the checking information through the dual-frequency WiF device and a wireless transmitter;

the battery device is used for providing power for the vehicle inspection device.

Preferably, the wireless camera is installed on the camera angle adjusting rod.

Preferably, the image processing display device at least comprises a main control panel and a high-definition touch screen, wherein,

the main control board is used for receiving the checking information transmitted by the wireless camera, controlling the high-definition touch screen to display the checking information and reporting the checking information through the wireless transmitter by the dual-frequency Wi-Fi equipment;

the high-definition touch screen is used for displaying the checking information, receiving an operation instruction input by a user through the high-definition touch screen, and sending the operation instruction to the main control board for execution.

Preferably, the battery device is a rechargeable lithium battery.

Preferably, further comprising:

a charging hanger for storing the vehicle inspection device;

the charging rack further comprises a charging interface, and when the charging interface of the charging rack is contacted with the charging interface of the battery equipment, the battery equipment is charged.

A vehicle inspection system including at least a plurality of vehicle inspection devices, a plurality of wireless transmitters, and a central management platform, wherein,

the vehicle checking device at least comprises a double-frequency wireless fidelity Wi-Fi device, a wireless camera and an image processing and displaying device, wherein the dual-frequency Wi-Fi device is wirelessly connected with the wireless transmitter through a first Wi-Fi module, the wireless camera is wirelessly connected with the wireless camera through a second Wi-Fi module and is used for collecting the checking information of the vehicle to be checked, and transmitting the ping information to the image processing display device through the dual-frequency Wi-Fi device, the image processing and displaying device is used for receiving and displaying the checking information transmitted by the wireless camera, and the checking information is reported to the central management platform through the wireless transmitter by the dual-frequency Wi-Fi equipment, receiving a control instruction issued by the central management platform through the wireless transmitter by the dual-frequency Wi-Fi equipment;

the wireless transmitter is connected with the central management platform through a network and is used for converting wired network signals into wireless network signals and providing wireless network signals for the dual-frequency Wi-Fi equipment;

the central management platform is used for receiving the checking information reported by the vehicle checking device, analyzing and processing the checking information to obtain a corresponding processing result, generating a corresponding control instruction based on the processing result, and sending the control instruction to the vehicle checking device.

Preferably, further comprising:

the switch is used for providing wired network signals for the wireless transmitter, and the wireless transmitter is connected into the switch through an Ethernet interface.

Preferably, the ethernet interface is an RJ-45 network interface.

Preferably, further comprising:

and the network firewall is arranged between the wireless transmitter and the switch and used for detecting and scanning data communication between the wireless transmitter and the switch.

Preferably, the switch is a monitoring network switch; or,

the switch is a charging network switch.

A vehicle inspection method comprising:

when monitoring that a vehicle to be inspected enters, acquiring inspection information of the vehicle to be inspected;

analyzing and processing the checking information to obtain a corresponding processing result;

and determining that the vehicle to be inspected is a non-violation vehicle when the vehicle to be inspected is determined to meet the loading regulation of the non-violation vehicle based on the processing result.

Preferably, the collecting the inspection information of the vehicle to be inspected specifically includes:

at least collecting vehicle characteristic information of a vehicle to be inspected, and cargo loading information of the vehicle to be inspected.

Preferably, the analyzing the inspection information to obtain a corresponding processing result includes:

acquiring the license plate information of the vehicle to be inspected based on the vehicle characteristic information, determining the vehicle type of the vehicle to be inspected, and at least determining the cargo type loaded by the vehicle to be inspected based on the cargo loading information;

at least acquiring the weight of the goods loaded on the vehicle to be inspected based on the license plate information;

and comparing the cargo weight with a first set threshold value to obtain a comparison result, wherein the first set threshold value is the minimum weight required to be loaded when the cargo of the cargo type is loaded on the vehicle of the vehicle type.

Preferably, based on the processing result, when it is determined that the vehicle to be inspected conforms to the loading regulation of the non-violation vehicle, determining that the vehicle to be inspected is the non-violation vehicle includes:

and according to the comparison result, when the weight of the cargo is judged to be greater than or equal to the first set threshold value, determining that the vehicle to be inspected is a non-violation vehicle.

Preferably, further comprising:

and according to the comparison result, when the weight of the cargo is judged to be smaller than the first set threshold value, determining that the vehicle to be inspected is an illegal vehicle.

The invention has the following beneficial effects:

in summary, in the embodiment of the present invention, in the vehicle inspection process, when it is monitored that the vehicle to be inspected enters, the inspection information of the vehicle to be inspected is collected; analyzing and processing the checking information to obtain a corresponding processing result; and determining the vehicle to be inspected as a non-violation vehicle when the vehicle to be inspected is judged to be in accordance with the loading regulation of the non-violation vehicle based on the processing result. By adopting the method, the working intensity of the checking personnel is reduced, the opaque checking process is avoided, the accuracy of the checking result is improved, and the checking efficiency is further improved.

Drawings

Fig. 1 is a schematic structural diagram of a vehicle inspection device according to an embodiment of the present invention;

FIG. 2 is a system diagram of a vehicle inspection system according to an embodiment of the present invention;

FIG. 3 is a system diagram of another vehicle inspection system according to an embodiment of the present invention;

fig. 4 is a detailed flowchart of a vehicle inspection method according to an embodiment of the present invention.

Detailed Description

In order to solve the problems of low vehicle inspection efficiency, inaccurate inspection result and opaque inspection process in the prior art, the embodiment of the invention provides a novel vehicle inspection method, a novel vehicle inspection device and a novel vehicle inspection system, wherein the method comprises the following steps: when monitoring that the vehicle to be inspected enters, acquiring inspection information of the vehicle to be inspected; analyzing and processing the checking information to obtain a corresponding processing result; and determining the vehicle to be inspected as a non-violation vehicle when the vehicle to be inspected is judged to be in accordance with the loading regulation of the non-violation vehicle based on the processing result.

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The scheme of the present invention will be described in detail by way of specific examples, but the present invention is not limited to the following examples.

Referring to fig. 1, in the embodiment of the present invention, a vehicle inspection apparatus at least includes an LED ring light source 1, a Wireless camera 2, a camera angle adjustment rod 3, a first hand grip 4, an image processing display device 5, a battery device 6, a dual-frequency Wireless Fidelity (Wi-Fi) device 7, an industrial key 8, a second hand grip 9 and a charging hanger 10, wherein,

the dual-frequency Wi-Fi module 7 is wirelessly connected with the wireless transmitter through a first Wi-Fi module and is wirelessly connected with the wireless camera 2 through a second Wi-Fi module;

the wireless camera 2 is used for collecting the checking information of the vehicle to be checked and transmitting the checking information to the image processing and displaying device 5 through the dual-frequency Wi-Fi device 7;

the image processing and displaying device 5 is used for receiving and displaying the checking information transmitted by the wireless camera 2, and reporting the checking information through a wireless transmitter by the dual-frequency WiF device 7;

and a battery device 6 for supplying power to the vehicle inspection apparatus.

Further, the wireless camera 2 is installed at one end of the camera angle adjusting rod 3 far away from the handheld grab handle 4.

Preferably, wireless camera 2 adopts the mode of dismantling, installs in the camera angle adjusting rod 3 one end of keeping away from handheld grab handle 4.

The image processing display device 5 comprises at least a main control board and a high definition touch screen, wherein,

the main control board is used for receiving the checking information transmitted by the wireless camera 2, controlling the high-definition touch screen to display the checking information and reporting the checking information through the wireless transmitter by the dual-frequency Wi-Fi device 7;

and the high-definition touch screen is used for displaying the checking information, receiving an operation instruction input by a user through the high-definition touch screen, and sending the operation instruction to the main control board for execution.

Preferably, the battery device is a rechargeable lithium battery.

Furthermore, in order to facilitate management of the vehicle inspection device, in the embodiment of the present invention, a corresponding charging hanger 10 is provided for each vehicle inspection device, and is used for storing the vehicle inspection device.

Preferably, the above-mentioned stores pylon that charges further includes the interface that charges, and the above-mentioned stores pylon that charges when interface and the above-mentioned battery equipment interface that charges contact, charges for above-mentioned battery equipment to avoid vehicle inspection device when using, be in the not enough state of electric energy, guaranteed that vehicle inspection device can all weather incessant use, promoted user experience.

Referring to fig. 2, in an embodiment of the present invention, a vehicle inspection system at least includes a plurality of vehicle inspection devices, a plurality of wireless transmitters and a central management platform, wherein,

the vehicle checking device at least comprises a double-frequency wireless fidelity Wi-Fi device, a wireless camera and an image processing and displaying device, wherein the dual-frequency Wi-Fi device is wirelessly connected with the wireless transmitter through a first Wi-Fi module, the wireless camera is wirelessly connected with the wireless camera through a second Wi-Fi module and is used for collecting the checking information of the vehicle to be checked, and transmitting the ping information to the image processing display device through the dual-frequency Wi-Fi device, the image processing and displaying device is used for receiving and displaying the inspection information transmitted by the wireless camera, and the checking information is reported to the central management platform through the wireless transmitter by the dual-frequency Wi-Fi equipment, and receiving a control instruction issued by the central management platform through the wireless transmitter by the dual-frequency Wi-Fi equipment;

the wireless transmitter is connected with the central management platform through a network and is used for converting wired network signals into wireless network signals and providing wireless network signals for the dual-frequency Wi-Fi equipment;

the central management platform is used for receiving the inspection information reported by the vehicle inspection device, analyzing and processing the inspection information to obtain a corresponding processing result, generating a corresponding control instruction based on the processing result, and sending the control instruction to the vehicle inspection device.

In the embodiment of the invention, at least one vehicle inspection device is respectively arranged for each charging channel at the exit of the expressway. Preferably, a vehicle inspection device is respectively arranged for each charging channel. When it is determined that the vehicle to be inspected enters, the corresponding vehicle inspection device is awakened, and the vehicle inspection device is used for collecting inspection information of the vehicle to be inspected which enters, of course, the inspection information at least comprises the vehicle characteristic information of the vehicle to be inspected and the cargo loading information of the vehicle to be inspected.

In the embodiment of the invention, the vehicle checking device is connected with the wireless transmitters through a wireless network, and in practical application, the wireless network information provided by one wireless transmitter can effectively cover 4-6 charging channels, namely, one wireless transmitter is connected with 4-6 vehicle checking devices.

Of course, if the highway exit is provided with the green channel, the vehicle inspection device may be disposed at the green channel, and if the highway exit is not provided with the green channel, the vehicle inspection device may also be disposed at the ordinary lane.

In practical application, in the process of collecting the inspection information, the vehicle inspection device displays the collected process in a screen of the vehicle inspection device, and transmits the collected inspection information to a central management platform in real time through a wireless transmitter connected with the vehicle inspection device, and the central management platform stores the inspection information reported by the vehicle inspection device, analyzes and processes the inspection information to obtain a corresponding processing result, so as to judge whether the cargo loading condition of the vehicle to be inspected conforms to the loading regulation of non-illegal vehicles.

Further, referring to fig. 3, in an embodiment of the present invention, a vehicle inspection system includes, in addition to a plurality of vehicle inspection devices, a plurality of wireless transmitters and a central management platform, a switch, and a network firewall, wherein,

the switch is used for providing wired network signals for the wireless transmitter, and the wireless transmitter is connected into the switch through an Ethernet interface. Preferably, the ethernet interface is an RJ-45 network interface.

Preferably, the switch is a monitoring network switch, or the switch is a charging network switch.

In practical application, a monitoring network and a charging network are arranged at an exit of the highway, the wireless transmitter can be in wired connection with a monitoring network switch through a network interface, so that wired network signals of the monitoring network can be converted into wireless network signals, and the vehicle inspection device is connected into the monitoring network through the wireless transmitter, so that network communication with the central management platform is completed. The wireless transmitter can be connected with the toll network switch in a wired mode through the network interface, so that wired network signals of the toll network can be converted into wireless network signals, the vehicle inspection device is connected into the toll network through the wireless transmitter, and network communication with the central management platform is completed.

And the network firewall is arranged between the wireless transmitter and the switch and used for detecting and scanning data communication between the wireless transmitter and the switch.

In the embodiment of the invention, the vehicle checking device at least comprises a dual-frequency Wi-Fi device, a wireless camera and an image processing and displaying device, wherein,

the dual-frequency Wi-Fi equipment is in wireless connection with the wireless transmitter through a first Wi-Fi module and is in wireless connection with the wireless camera through a second Wi-Fi module;

the wireless camera is used for collecting the checking information of the vehicle to be checked and transmitting the checking information to the image processing and displaying equipment through the dual-frequency Wi-Fi equipment;

the image processing and displaying device is used for receiving and displaying the checking information transmitted by the wireless camera, reporting the checking information to the central management platform through the wireless transmitter by the dual-frequency Wi-Fi device, and receiving a control instruction issued by the central management platform through the wireless transmitter by the dual-frequency Wi-Fi device.

In the embodiment of the invention, the vehicle checking device adopts dual-frequency Wi-Fi equipment, so that the wireless camera and the image processing and displaying equipment can be connected through the wireless Wi-Fi, after the wireless camera collects the checking information of the vehicle to be checked, the ping information may be transmitted to the image processing display device via wireless Wi-Fi and, further, because the wireless camera is detachably arranged at one end of the camera angle adjusting rod away from the handheld grab handle, the wireless camera of the vehicle checking device can be detached from the vehicle checking device, the checking information of the vehicle to be checked is collected by the wireless camera, therefore, the checking personnel can collect the checking information of the vehicle to be checked more conveniently, so that the checking information is more comprehensive, and the danger of the checking personnel in collecting the checking information is reduced.

Furthermore, in the embodiment of the invention, each vehicle checking device in the vehicle checking system is provided with the corresponding vehicle checking device charging hanger so as to store the vehicle checking device and charge the vehicle checking device when the vehicle checking device is stored, so that the vehicle checking device can be continuously used all the day long, and the user experience is improved.

Referring to fig. 4, in the embodiment of the present invention, a detailed flow of a vehicle inspection method is as follows:

step 400: and when monitoring that the vehicle to be inspected enters, the vehicle inspection system acquires the inspection information of the vehicle to be inspected.

In practical applications, if a special inspection channel (for example, a green channel for highway transportation of fresh agricultural products) is arranged at the exit of the highway, the vehicle inspection device in the vehicle inspection system may be arranged at the special inspection channel, and if the special inspection channel is not arranged at the exit of the highway, the vehicle inspection device in the vehicle inspection system may be arranged at a common toll lane.

Specifically, when step 400 is executed, the vehicle inspection system monitors whether a vehicle enters an inspection lane in real time, wakes up a vehicle inspection device arranged on the inspection lane in the vehicle inspection system when it is determined that the vehicle enters, and uses the vehicle inspection device to sequentially shoot the head, two sides of the cargo box and the interior of the cargo box of the vehicle entering, so as to acquire the inspection information of the vehicle to be inspected.

Preferably, the vehicle inspection device at least collects vehicle characteristic information of the vehicle to be inspected and cargo loading information of the vehicle to be inspected.

For example, if it is monitored that the vehicle X to be inspected enters the inspection channel 1, the vehicle inspection device in the vehicle inspection system corresponding to the inspection lane 1 is awakened, a high-definition camera on the vehicle inspection device is used to collect video streams with clear images, such as license plate information of the vehicle X to be inspected, and a high-definition camera on the vehicle inspection device is used to collect video streams of cargo information loaded in a cargo box of the vehicle X to be inspected, the vehicle inspection device displays the collected video streams on a high-definition display screen of the vehicle inspection device in real time, and meanwhile, each video stream is transmitted to a central management platform in the vehicle inspection system through a wireless network.

Certainly, above-mentioned vehicle inspection device adopts high definition digtal camera to and adopt the synchronous light filling lamp of professional LED to carry out the light filling to vehicle and goods, can both gather the clear inspection information of image in each time quantum in order to ensure.

Step 410: the vehicle checking system analyzes and processes the checking information to obtain a corresponding processing result.

In practical application, the vehicle inspection device in the vehicle inspection system collects the vehicle characteristic information of the vehicle to be inspected and the cargo loading information of the vehicle to be inspected, and transmits the collected vehicle characteristic information of the vehicle to be inspected and the collected cargo loading information of the vehicle to be inspected to a central management platform in the vehicle inspection system through a wireless network, and the central management platform in the vehicle inspection system analyzes and processes data information reported by the vehicle inspection device in the vehicle inspection system to obtain a corresponding processing result.

When a vehicle to be inspected enters a charging channel, a charging system collects the license plate information of the vehicle to be inspected, the weight of goods loaded on the vehicle to be inspected, charging information and the like, so that in the process of inspecting the vehicle to be inspected, a central management platform in the vehicle inspection system can obtain the license plate information of the vehicle to be inspected according to the vehicle characteristic information collected by a vehicle inspection device, and at least obtain the weight and other information of the goods loaded on the vehicle to be inspected from the charging system according to the obtained license plate information of the vehicle to be inspected, wherein the charging system and the vehicle inspection system are two relatively independent systems.

Specifically, when step 410 is executed, first, a central management platform in the vehicle inspection system acquires license plate information of the vehicle to be inspected based on the vehicle characteristic information, determines a vehicle type of the vehicle to be inspected, and determines at least a cargo type loaded by the vehicle to be inspected based on the cargo loading information;

then, a central management platform in the vehicle inspection system at least acquires the weight of the goods loaded on the vehicle to be inspected based on the license plate information;

and finally, comparing the weight of the goods with a first set threshold value by a central management platform in the vehicle checking system to obtain a comparison result, wherein the first set threshold value is the minimum weight which needs to be loaded when the goods of the goods type are loaded on the vehicle of the vehicle type.

For example, assume that when a potato is loaded for a vehicle of which the vehicle type is type 1, the preset minimum weight to be loaded is 2000 kg; when loading tomatoes for a vehicle of type 1, the preset minimum weight to be loaded is 1600 kg.

For another example, assume that the preset minimum weight to be loaded is 2000 kg when potatoes are loaded on a vehicle of type 1, and 5000 kg when potatoes are loaded on a vehicle of type 2.

It should be noted that, when the cargo loaded on the vehicle to be inspected is non-illegal cargo (for example, fresh agricultural products), the comparison between the cargo weight and the first set threshold is performed, and if the cargo loaded on the vehicle to be inspected is illegal, the vehicle to be inspected is directly determined to be illegal.

Step 420: and the vehicle checking system determines that the vehicle to be checked is a non-violation vehicle when the vehicle to be checked is judged to be in accordance with the loading regulation of the non-violation vehicle based on the processing result.

In practical applications, the green channel implements management rules: the whole vehicle loading (the fresh agricultural products must reach the nuclear loading tonnage of the vehicle or the occupied space of the fresh agricultural products reaches more than 80 percent of the effective loading space of the vehicle, and other goods which do not belong to the variety range of the fresh agricultural products are not mixed and loaded), and the vehicle for transporting the fresh agricultural products can enjoy the preferential policy of green channels by adopting a hybrid method.

Specifically, the central management platform in the vehicle inspection system determines that the vehicle to be inspected is a non-violation vehicle when the cargo weight is determined to be greater than or equal to the first set threshold according to the comparison result.

For example, if the vehicle 1 is a van with a container length of 13.5 m and potatoes are loaded on the van with a container length of 13.5 m, the preset minimum weight is 10 tons, and the center management platform determines that the weight of the goods loaded on the vehicle 1 is 12 tons (i.e., 12 tons > 10 tons), the center management platform can determine that the vehicle 1 is a non-illegal vehicle.

Further, the central management platform in the vehicle inspection system determines that the vehicle to be inspected is an illegal vehicle when the weight of the cargo is judged to be smaller than the first set threshold according to the comparison result.

For example, if the vehicle 2 is a van with a container length of 9.5 meters and potatoes are loaded on the van with a container length of 9.5 meters, the preset minimum weight is 7 tons, and the weight of the cargo loaded on the vehicle 2 determined by the central management platform is 6 tons (i.e., 6 tons is less than 7 tons), then the central management platform can determine that the vehicle 2 is an illegal vehicle.

Certainly, in the embodiment of the present invention, the central management platform in the vehicle inspection system may store the inspection information (e.g., information such as videos and photos related to the inspection process) reported by the vehicle inspection device and the corresponding processing data in the local, and further, the central management platform may further provide a corresponding data query and retrieval interface to the outside.

In summary, in the embodiment of the present invention, in the vehicle inspection process, when it is monitored that the vehicle to be inspected enters, the inspection information of the vehicle to be inspected is collected; analyzing and processing the checking information to obtain a corresponding processing result; and determining the vehicle to be inspected as a non-violation vehicle when the vehicle to be inspected is judged to be in accordance with the loading regulation of the non-violation vehicle based on the processing result. By adopting the method, the working intensity of the checking personnel is reduced, the opaque checking process is avoided, the accuracy of the checking result is improved, and the checking efficiency is further improved.

As will be appreciated by one skilled in the art, embodiments of the present invention may be provided as a method, system, or computer program product. Accordingly, the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present invention may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present invention is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the invention. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

While preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all such alterations and modifications as fall within the scope of the invention.

It will be apparent to those skilled in the art that various modifications and variations can be made in the embodiments of the present invention without departing from the spirit or scope of the embodiments of the invention. Thus, if such modifications and variations of the embodiments of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to encompass such modifications and variations.

Claims (15)

1. The vehicle checking device is characterized by at least comprising a dual-frequency wireless fidelity Wi-Fi device, a wireless camera, an image processing and displaying device, a battery device, a handheld grab handle and a camera angle adjusting rod, wherein,

the dual-frequency Wi-Fi equipment is in wireless connection with the wireless transmitter through a first Wi-Fi module and is in wireless connection with the wireless camera through a second Wi-Fi module;

the wireless camera is used for collecting the checking information of the vehicle to be checked and transmitting the checking information to the image processing and displaying equipment through the dual-frequency Wi-Fi equipment;

the image processing and displaying device is used for receiving and displaying the checking information transmitted by the wireless camera, and reporting the checking information through the dual-frequency WiF device and a wireless transmitter;

the battery device is used for providing power for the vehicle inspection device.

2. The vehicle inspection apparatus of claim 1, wherein the wireless camera is mounted on the camera angle adjustment lever.

3. The vehicle inspection apparatus according to claim 1 or 2, wherein the image processing display device includes at least a main control board and a high definition touch screen, wherein,

the main control board is used for receiving the checking information transmitted by the wireless camera, controlling the high-definition touch screen to display the checking information and reporting the checking information through the wireless transmitter by the dual-frequency Wi-Fi equipment;

the high-definition touch screen is used for displaying the checking information, receiving an operation instruction input by a user through the high-definition touch screen, and sending the operation instruction to the main control board for execution.

4. The vehicle inspection apparatus according to claim 3, wherein the battery device is a rechargeable lithium battery.

5. The vehicle inspection apparatus according to claim 4, further comprising:

a charging hanger for storing the vehicle inspection device;

the charging rack further comprises a charging interface, and when the charging interface of the charging rack is contacted with the charging interface of the battery equipment, the battery equipment is charged.

6. A vehicle inspection system comprising at least a plurality of vehicle inspection devices, a plurality of wireless transmitters and a central management platform, wherein,

the vehicle checking device at least comprises a double-frequency wireless fidelity Wi-Fi device, a wireless camera and an image processing and displaying device, wherein the dual-frequency Wi-Fi device is wirelessly connected with the wireless transmitter through a first Wi-Fi module, the wireless camera is wirelessly connected with the wireless camera through a second Wi-Fi module and is used for collecting the checking information of the vehicle to be checked, and transmitting the ping information to the image processing display device through the dual-frequency Wi-Fi device, the image processing and displaying device is used for receiving and displaying the checking information transmitted by the wireless camera, and the checking information is reported to the central management platform through the wireless transmitter by the dual-frequency Wi-Fi equipment, receiving a control instruction issued by the central management platform through the wireless transmitter by the dual-frequency Wi-Fi equipment;

the wireless transmitter is connected with the central management platform through a network and is used for converting wired network signals into wireless network signals and providing wireless network signals for the dual-frequency Wi-Fi equipment;

the central management platform is used for receiving the checking information reported by the vehicle checking device, analyzing and processing the checking information to obtain a corresponding processing result, generating a corresponding control instruction based on the processing result, and sending the control instruction to the vehicle checking device.

7. The system of claim 6, further comprising:

the switch is used for providing wired network signals for the wireless transmitter, and the wireless transmitter is connected into the switch through an Ethernet interface.

8. The system of claim 6, wherein the ethernet interface is an RJ-45 network interface.

9. The system of claim 6, further comprising:

and the network firewall is arranged between the wireless transmitter and the switch and used for detecting and scanning data communication between the wireless transmitter and the switch.

10. The system of claim 7, 8 or 9, wherein the switch is a monitoring network switch; or,

the switch is a charging network switch.

11. A vehicle inspection method, characterized by comprising:

when monitoring that a vehicle to be inspected enters, acquiring inspection information of the vehicle to be inspected;

analyzing and processing the checking information to obtain a corresponding processing result;

and determining that the vehicle to be inspected is a non-violation vehicle when the vehicle to be inspected is determined to meet the loading regulation of the non-violation vehicle based on the processing result.

12. The method according to claim 11, wherein collecting the inspection information of the vehicle to be inspected specifically comprises:

at least collecting vehicle characteristic information of a vehicle to be inspected, and cargo loading information of the vehicle to be inspected.

13. The method according to claim 12, wherein analyzing the inspection information to obtain a corresponding processing result comprises:

acquiring the license plate information of the vehicle to be inspected based on the vehicle characteristic information, determining the vehicle type of the vehicle to be inspected, and at least determining the cargo type loaded by the vehicle to be inspected based on the cargo loading information;

at least acquiring the weight of the goods loaded on the vehicle to be inspected based on the license plate information;

and comparing the cargo weight with a first set threshold value to obtain a comparison result, wherein the first set threshold value is the minimum weight required to be loaded when the cargo of the cargo type is loaded on the vehicle of the vehicle type.

14. The method according to claim 13, wherein determining that the vehicle to be inspected is a non-violation vehicle when it is determined that the vehicle to be inspected conforms to the loading regulation of the non-violation vehicle based on the processing result specifically includes:

and according to the comparison result, when the weight of the cargo is judged to be greater than or equal to the first set threshold value, determining that the vehicle to be inspected is a non-violation vehicle.

15. The method of claim 14, further comprising:

and according to the comparison result, when the weight of the cargo is judged to be smaller than the first set threshold value, determining that the vehicle to be inspected is an illegal vehicle.