CN210721052U - Vehicle detection device and system - Google Patents

Abstract

The utility model provides a vehicle detection device and system, vehicle detection device includes first treater, first communication module, circuit board detection circuitry, battery detection circuitry, air conditioner detection circuitry and intelligent control system detection circuitry, first treater respectively with first communication module, circuit board detection circuitry, battery detection circuitry, air conditioner detection circuitry, intelligent control system detection circuitry electricity is connected, circuit board detection circuitry is connected with vehicle circuit board electricity, battery detection circuitry is connected with vehicle battery electricity, air conditioner detection circuitry is connected with vehicle air conditioner electricity, intelligent control system detection circuitry is connected with vehicle intelligent control system electricity. Like this, the running state of vehicle detects and can be accomplished by itself, and need not the user and place the vehicle and detect to appointed detection mechanism for the detection of vehicle state is more nimble and convenient, promotes the efficiency that the vehicle detected.

Description

Vehicle detection device and system

Technical Field

The utility model relates to a vehicle detection technology field especially relates to a vehicle detection device and system.

Background

With the development of vehicle manufacturing technology, vehicles are becoming more and more popular and have become a main means of transportation in people's daily life. However, if the vehicle condition needs to be detected, the vehicle is usually placed in a special detection mechanism (such as a maintenance station) to detect the operation data of each part of the vehicle. For example, during a vehicle transaction, a buyer needs to acquire vehicle conditions of a vehicle to measure a transaction price and determine a vehicle purchasing intention, and then a seller and the buyer are required to bring the vehicle to a detection mechanism for detection together, so that the vehicle detection process is time-consuming and labor-consuming, and the vehicle detection efficiency is low. Therefore, the problem of low efficiency exists in the current vehicle detection process.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides a vehicle detection device and system to there is the problem of inefficiency in solving present vehicle testing process.

In order to solve the above technical problem, an embodiment of the present invention is such:

in a first aspect, the embodiment of the utility model provides a vehicle detection device, including first treater, first communication module, circuit board detection circuitry, battery detection circuitry, air conditioner detection circuitry and intelligent control system detection circuitry, first treater respectively with first communication module circuit board detection circuitry battery detection circuitry air conditioner detection circuitry intelligent control system detection circuitry electricity is connected, circuit board detection circuitry is connected with vehicle circuit board electricity, battery detection circuitry is connected with vehicle battery electricity, air conditioner detection circuitry is connected with vehicle air conditioner electricity, intelligent control system detection circuitry is connected with vehicle intelligent control system electricity.

In a second aspect, the embodiment of the present invention provides a vehicle detecting system, which includes a first user terminal, a server and a vehicle detecting device as in the first aspect, wherein the server is respectively connected to the first user terminal and the vehicle detecting device in a communication manner.

Optionally, the server includes a second communication module and a second processor, and the second processor is electrically connected to the second communication module.

Optionally, the first user terminal includes a third communication module and a fingerprint input device electrically connected to the third communication module, and the third communication module is in communication connection with the server.

Optionally, the vehicle detection system further includes a cloud storage, and the server is further connected to the cloud storage in a communication manner.

Optionally, the vehicle detection system further includes a second user terminal in communication connection with the server.

Optionally, the vehicle detection system further includes an alarm device disposed in the vehicle, and the alarm device is electrically connected to the first communication module of the vehicle detection device.

Optionally, the vehicle detection system further includes a display device disposed in the vehicle, and the display device is electrically connected to the first communication module.

Optionally, the display device is a digital head-up display arranged on a front windshield of the vehicle.

Optionally, the vehicle detection system further includes a positioning device disposed on the vehicle, and the positioning device is electrically connected to the first communication module.

The embodiment of the utility model provides an in, vehicle detection device includes first treater, first communication module, circuit board detection circuitry, battery detection circuitry, air conditioner detection circuitry and intelligent control system detection circuitry, first treater respectively with first communication module, circuit board detection circuitry, battery detection circuitry, air conditioner detection circuitry, intelligent control system detection circuitry electricity is connected, circuit board detection circuitry is connected with vehicle circuit board electricity, battery detection circuitry is connected with vehicle battery electricity, air conditioner detection circuitry is connected with vehicle air conditioner electricity, intelligent control system detection circuitry is connected with vehicle intelligent control system electricity. Like this, the running state of vehicle detects and can be accomplished by itself, and need not the user and place the vehicle and detect to appointed detection mechanism for the detection of vehicle state is more nimble and convenient, promotes the efficiency that the vehicle detected.

Drawings

Fig. 1 is a schematic structural diagram of a vehicle detection device provided in an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a vehicle detection system provided by an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, of the embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1, an embodiment of the present invention provides a vehicle detection device, as shown in fig. 1, a vehicle detection device 10 includes a first processor 11, a first communication module 111, a circuit board detection circuit 12, a battery detection circuit 13, an air conditioner detection circuit 14, and an intelligent control system detection circuit 15, the first processor 11 is electrically connected to the first communication module 111, the circuit board detection circuit 12, the battery detection circuit 13, the air conditioner detection circuit 14, and the intelligent control system detection circuit 15, the circuit board detection circuit 12 is electrically connected to a vehicle circuit board 16, the battery detection circuit 13 is electrically connected to a vehicle battery 17, the air conditioner detection circuit 14 is electrically connected to a vehicle air conditioner 18, and the intelligent control system detection circuit 15 is electrically connected to a vehicle intelligent control system 19.

In this embodiment, the circuit board detection circuit 12 may detect an operation parameter of the vehicle circuit board 16, such as at least one of an input current, an input voltage, an output current, an output voltage, and the like; the battery detection circuit 13 may detect an operation parameter of the vehicle battery 17, where in a case where the vehicle is an electric vehicle, the vehicle battery 17 may provide electric energy output as power for the electric vehicle, and the operation parameter of the vehicle battery 17 may include at least one of remaining electric energy, available mileage, estimated remaining number of battery usage, and the like; the air conditioner detection circuit 14 may detect an operation parameter of the vehicle air conditioner 18, such as at least one of a cooling capacity, a heating capacity, an air purification coefficient, and the like; the above-described smart control system detection circuit 15 may detect an operation parameter of the vehicle smart control system 19 including an automatic cruise system, a tire pressure monitoring system, a pedestrian protection system, and the like, and the operation parameter of the vehicle smart control system 19 may include an index value (such as an input current value and an output current value, or an input voltage value and an output voltage value, and the like) for reflecting whether each system is malfunctioning, and a detection index value (such as a tire pressure value of a vehicle tire detected by the tire pressure monitoring system, and the like) of each system.

The vehicle circuit board may be a circuit board that carries various circuits in the vehicle, and may include a circuit board that carries at least one of the circuit of the first processor 11, the circuit of the first communication module 111, the circuit of the vehicle battery 17, the circuit of the vehicle air conditioner 18, the circuit of the vehicle smart control system 19, and the like.

In addition, the first processor 11 is electrically connected to the first communication module 111, the circuit board detection circuit 12, the battery detection circuit 13, the air conditioner detection circuit 14, and the intelligent control system detection circuit 15, so that the first processor 11 can receive the vehicle detection instruction transmitted from the external device through the first communication module 111, and controls the above-mentioned circuit board detection circuit 12, battery detection circuit 13, air conditioner detection circuit 14 and intelligent control system detection circuit 15 to detect the operating parameters of the vehicle circuit board 16, vehicle battery 17, vehicle air conditioner 18 and vehicle intelligent control system 19, respectively, in response to the vehicle detection command, so that the vehicle's operating state detection can be performed by the vehicle itself, and need not the user and place the vehicle to appointed detection mechanism and detect for the detection of vehicle state is more nimble and convenient, promotes the efficiency that the vehicle detected.

Referring to fig. 2, an embodiment of the present invention further provides a vehicle detection system, as shown in fig. 2, the vehicle detection system includes a first user terminal 20, a server 30 and the vehicle detection device 10, where the server 30 is in communication connection with the first user terminal 20 and the vehicle detection device 10, respectively;

the first user terminal 20 sends a vehicle detection request to the server 30;

the vehicle detection device 10, upon receiving a vehicle detection command, automatically detects the vehicle and acquires detection data, and transmits the detection data to the server 30;

the server 30 is configured to send a vehicle detection command to the vehicle detection device 10; and sending the received detection data to the first user terminal 20.

Here, the first user terminal 20 may transmit a vehicle detection command to the vehicle detection device 10 through the server 30, so that it is possible to remotely control the vehicle for automatic detection.

In this embodiment, the first user terminal 20 may be a user terminal (such as a mobile phone or a tablet computer) used by a vehicle owner.

The first user terminal 20 may transmit the vehicle detection command to the vehicle detection device 10, where the first user terminal 20 transmits the vehicle detection command in response to a received operation for instructing transmission of the vehicle detection command. For example, a preset vehicle detection control may be displayed on the display screen of the first user terminal 20, and if the first user terminal 20 detects a click operation on the vehicle detection control, the first user terminal 20 sends a vehicle detection command to the vehicle detection device 10, and so on.

In addition, the first user terminal 20 may include an operation input device (e.g., a touch screen) that receives a user input for instructing an operation of transmitting a vehicle detection command, and a communication module (e.g., a data communication module, a bluetooth module, or an infrared module); the communication module sends a vehicle detection request to the server 30.

In this embodiment, in the case where the first user terminal 20 transmits the vehicle detection request to the server 30, the server 30 may transmit the vehicle detection command to the vehicle detection device 10 in response to the vehicle detection request, specifically, the server 30 may transmit the vehicle detection transmission command to the first communication module 111 of the vehicle detection device 10, and the first communication module 111 transmits the vehicle detection command to the first processor 11.

Wherein, the server 30 may include a second communication module 31 and a second processor 32, and the second processor 32 is electrically connected to the second communication module 31; the second processor 31 receives the vehicle detection request through the second communication module 31, generates the vehicle detection command in response to the vehicle detection request, and transmits the vehicle detection command to the vehicle detection device 10 through the second communication module 31; the second communication module 31 receives the detection data sent by the vehicle detection device and sends the detection data to the first user terminal.

Here, the second communication module 31 may transmit the vehicle detection command to the vehicle detection device 10 and receive the detection data transmitted by the vehicle detection device 10 through the interaction of the second communication module 31 and the first communication module 111; similarly, the second communication module 31 may receive the vehicle detection request sent by the first user terminal 20 and send the detection data to the first user terminal 20, or the second communication module 31 may interact with the communication module of the first user terminal 20, that is, the server 30 may interact with the first user terminal 20 and the vehicle detection device 10 through both communication modules.

It should be noted that the second processor 32 may also generate a detection report based on the detection data, and transmit the generated detection report as the detection data to the first user terminal 20 through the second communication module 31.

In addition, the generation of the detection report based on the detection data may be performed by adding each detection data to a preset detection report template by the server 30 to form a new detection report corresponding to the detection data.

In some embodiments, the first user terminal 20 may include a third communication module 21 and a fingerprint input device 22 electrically connected to the third communication module 21, the third communication module 21 is communicatively connected to the server 30, and the fingerprint input device 22 may transmit the received fingerprint information to the server through the third communication module 21, for example, the vehicle detection request transmitted by the third communication module 21 carries the fingerprint information received by the fingerprint input device 21;

the server 30 also verifies the fingerprint information, and sends a vehicle detection command to the vehicle detection device 10 if the fingerprint information is verified.

Here, the server 30 may verify the fingerprint information carried in the vehicle detection request when receiving the vehicle detection request, and send the vehicle detection command to the vehicle detection device 10 only when the fingerprint information is verified, so as to avoid that a user without operation authority (i.e., an illegal user) indicates to detect the vehicle, thereby improving the security of the vehicle detection system. Of course, in the case that the fingerprint information is not verified, the server 30 may not perform any operation, or feed back a prompt message indicating that the fingerprint information is not verified to the first user.

The fingerprint information verification may be that the server 30 matches the received fingerprint information with the stored fingerprint information, and confirms that the received fingerprint information passes verification when the fingerprint information matched with the received fingerprint information is found to be stored in the server.

In addition, the fingerprint information may be a fingerprint image of the user, or may be other unique identifiers determined by the fingerprint image, for example, a user operation certificate configured by the first user terminal according to the fingerprint image received by the fingerprint input device of the first user terminal.

In some embodiments, the first user terminal 20 may further perform verification on the received user registration information input by the first user, acquire fingerprint information of the first user when the user registration information is verified, and send a vehicle detection request carrying the fingerprint information to the server 30.

Here, the first user terminal 20 sends the vehicle detection request carrying the fingerprint information to the server 30 only when the user registration information is verified, so as to further improve the security of the vehicle detection system. Of course, in the case where the user registration information authentication is not passed as described above, the first user terminal 20 may not perform any operation or display information for prompting the user that the user registration information authentication is not passed.

In this embodiment, the user registration information may include user information and vehicle information, for example, in a case that the first user terminal 20 is an owner terminal, the user information may include login account information (such as an account and a login password of an owner) registered by the owner and owner identity information (such as an owner name and an id number); the above-mentioned vehicle information may include a vehicle model and vehicle ownership information, and the like.

In addition, the verifying the user registration information may be that the first user terminal 20 matches the user registration information with preset registration information, and determines that the verification is passed if the user registration information is consistent with the preset registration information, and otherwise, the verification is not passed.

In this embodiment, in the case where the server 30 transmits the vehicle detection command, the vehicle detection device 10 may receive the vehicle detection command, acquire detection data in response to the vehicle detection command, where the detection data may include operating parameters of the vehicle circuit board 16, the vehicle battery 17, the vehicle air conditioner 18, and the vehicle smart control system 19, and transmit the acquired detection data to the server 30.

The vehicle detection device 10 may automatically detect the vehicle and obtain the detection data, and may trigger the automatic detection when the vehicle receives a vehicle detection command in any scene.

Alternatively, in some embodiments, the vehicle detection device 10 determines whether the vehicle satisfies a detection condition when receiving the vehicle detection command; and under the condition that the vehicle meets the detection condition, responding to the vehicle detection command, and automatically detecting the vehicle.

Here, the vehicle detection device 10 may perform automatic detection only in a case where the vehicle satisfies the detection condition upon receiving the vehicle detection command, thereby making the vehicle automatic detection more severe.

In a further embodiment, the detection condition comprises at least one of:

the vehicle is in stationary parking;

the battery capacity of the vehicle is greater than or equal to a preset capacity, for example, the battery capacity is greater than 30%;

the response time of the network environment stable communication test in which the vehicle is located is within a preset time range, for example, the response time of the stable communication test is within 1 second.

In some embodiments, the vehicle detection system may further include a second user terminal 40 communicatively connected to the server 30, the second user terminal 40 sending a data query request to the server 30;

the server 30 transmits the detection data to the second user terminal 40 upon receiving the data query request.

Here, the server 30 may also transmit the detection data (which may also be a detection report) to the second user terminal 40 according to a data query request of the second user terminal 40, so as to enable other user terminals besides the first user terminal 20 to view the detection data.

In the present embodiment, the server 30 may transmit the detection data to the second user terminal 40, when the authority of the second user terminal 40 is verified and the verification is passed, the detection data may be transmitted to the second user terminal 40.

It should be noted that the second user terminal 40 may be any user terminal except the first user terminal 20, for example, in the used car transaction, the first user terminal 20 is a user terminal of a seller (i.e., an owner of a car), the second user terminal 40 may be a user terminal of a buyer, and so on.

In some embodiments, the vehicle detection system further comprises an alarm device 50 disposed in the vehicle, the alarm device 50 being electrically connected to the first communication module 111 of the vehicle detection device 10;

the server 30 further determines whether the detection data is abnormal, and sends a prompt message to the first communication module 111 if the detection data is abnormal; the first communication module 111 transmits the prompt message to the alarm device 50, and the alarm device 50 gives an alarm according to the prompt message, so that the vehicle owner can be timely reminded of the abnormal condition of the vehicle, and the safety of the vehicle is improved.

The prompt information may be associated with a severity level of the detected data anomaly, so as to improve a prompt effect, for example, the severity level of the detected data anomaly may be divided into a level 1 and a level 2, and only the detection parameter of the anomaly is sent when the severity level of the detected data anomaly is the level 1; in the case of level 2, an abnormal detection parameter and a warning word are transmitted, and the like.

In a further embodiment, the vehicle detection system further comprises a display device 60 disposed within the vehicle, the display device 60 being electrically connected to the first communication module 111; the first communication module 111 further transmits the prompt message to the display device 60, and the display device 60 displays the prompt message. In this way, the display device 60 can also display the abnormal prompt information of the vehicle, so as to further improve the prompt effect and further improve the safety of the vehicle.

The display device 60 may be a liquid crystal display panel or the like; alternatively, the display device 60 may be a digital head-up display disposed on a front windshield of the vehicle, so as to improve a display effect.

In a further embodiment, the vehicle detection system further includes a positioning device 70 disposed on the vehicle, the positioning device 70 is electrically connected to the first communication module 111, and when the first communication module 111 receives the prompt message, the positioning device 70 acquires the position information of the vehicle and sends the position information to the server 30 through the first communication module 111; the server 30 sends the maintenance station information closest to the vehicle to the first communication module 111 according to the position information, the first communication module 111 transmits the maintenance station information to the display device 60, and the display device 60 displays the maintenance station information, so that the vehicle can be maintained in time.

It should be noted that, the server 30 may buffer the detection data and the detection report in a local database; alternatively, in some embodiments, the vehicle detection system further includes a cloud storage 80, the server 30 is further connected in communication with the cloud storage 80, and the server 30 further sends the detection data to the cloud storage 80, so that archiving of the detection data can be achieved. Here, the cloud storage may be a cloud storage based on a block chain technology, so as to improve storage security of the detection data.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The utility model provides a vehicle detection device, its characterized in that, includes first treater, first communication module, circuit board detection circuitry, battery detection circuitry, air conditioner detection circuitry and intelligent control system detection circuitry, first treater respectively with first communication module circuit board detection circuitry battery detection circuitry air conditioner detection circuitry intelligent control system detection circuitry electricity is connected, circuit board detection circuitry is connected with vehicle circuit board electricity, battery detection circuitry is connected with vehicle battery electricity, air conditioner detection circuitry is connected with vehicle air conditioner electricity, intelligent control system detection circuitry is connected with vehicle intelligent control system electricity.

2. A vehicle detection system comprising a first user terminal, a server and the vehicle detection device of claim 1, the server being communicatively coupled to the first user terminal and the vehicle detection device, respectively.

3. The system of claim 2, wherein the server comprises a second communication module and a second processor, the second processor being electrically connected to the second communication module.

4. The system of claim 2, wherein the first user terminal comprises a third communication module and a fingerprint input device electrically connected to the third communication module, the third communication module communicatively connected to the server.

5. The system of claim 2, wherein the vehicle detection system further comprises a cloud storage, and wherein the server is further communicatively coupled to the cloud storage.

6. The system of claim 2, wherein the vehicle detection system further comprises a second user terminal communicatively coupled to the server.

7. The system of claim 2, further comprising an alarm device disposed within the vehicle, the alarm device electrically connected to the first communication module of the vehicle detection device.

8. The system of claim 7, further comprising a display device disposed within the vehicle, the display device being electrically connected to the first communication module.

9. The system of claim 8, wherein the display device is a digital heads-up display disposed on a front windshield of the vehicle.

10. The system of claim 8, wherein the vehicle detection system further comprises a locating device disposed on the vehicle, the locating device being electrically connected to the first communication module.

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