CN211075416U - Vehicle tire pressure monitoring learning system and car - Google Patents

Abstract

The utility model relates to a vehicle electron technical field specifically is a vehicle tire pressure monitoring learning system and car, tire pressure monitoring learning system includes tire pressure sensor, cell-phone terminal, cloud platform, vehicle mounted terminal and tire pressure monitoring controller, tire pressure sensor sets up in the vehicle tire, tire pressure sensor is provided with communication module, tire pressure sensor passes through communication module with cell-phone terminal communication connection, the cloud platform respectively with cell-phone terminal with vehicle mounted terminal communication connection, vehicle mounted terminal with tire pressure monitoring controller electricity is connected. The utility model discloses a learning operation of tire pressure monitoring system can be simplified to vehicle tire pressure monitoring learning system to improve the success rate and the efficiency of study greatly.

Description

Vehicle tire pressure monitoring learning system and car

Technical Field

The utility model relates to a vehicle electron technical field, in particular to vehicle tire pressure monitoring learning system and car.

Background

Due to various reasons, the tire pressure of an automobile tire may be increased, the grip of the tire is reduced, the driving stability and riding comfort are affected, certain potential safety hazards exist, and even tire burst may be caused, so that the change condition of the tire pressure needs to be detected in real time. Tire pressure monitoring systems can be divided into indirect tire pressure monitoring systems and direct tire pressure monitoring systems according to technical principles. The indirect tire pressure monitoring system is mainly used for indirectly judging the tire pressure based on the rotation speed difference of each wheel of the automobile, and the accuracy is poor; the direct type tire pressure monitoring system is based on a sensor technology, directly measures the pressure and temperature information of the tire, and is high in accuracy.

The purpose of the tire pressure monitoring system learning is to make one-to-one correspondence between the tire pressure sensors and the tires, and to store the correspondence in the tire pressure monitoring controller. The tire pressure monitoring system which succeeds in learning only receives the learned sensor signals and displays the signals on the display terminal according to the corresponding relation.

In the prior art, the following main ways of learning a tire pressure monitoring system are available: the tire pressure monitoring system has the advantages that firstly, the relevant information of the tire pressure sensor is recorded through the handheld device, and the relevant information is sent to the tire pressure monitoring controller through the vehicle diagnosis interface to complete the learning process, but the handheld device is high in price and complex in operation procedure; the second is an automatic positioning learning mode, that is, when the vehicle is in a running mode, the tire pressure sensor continuously sends a message for automatic positioning learning to the tire pressure monitoring controller, and the tire pressure monitoring controller adopts an algorithm to compare information such as frequency, phase and the like of the sensors in the four wheels, distinguishes the positions of the positioning wheels and completes the learning process, but the implementation condition of the mode is more; and thirdly, the four wheels are deflated in sequence by adopting a diagnostic instrument to complete the learning process, and then air is supplied subsequently, and the operation is complex.

SUMMERY OF THE UTILITY MODEL

In view of the above problems of the prior art, an object of the present invention is to provide a learning system for monitoring tire pressure of a vehicle, which enables a user to easily and efficiently complete the learning process of the tire pressure monitoring system without using a dedicated device.

In order to solve the problem, the utility model provides a vehicle tire pressure monitoring learning system, including tire pressure sensor, cell-phone terminal, cloud platform, vehicle mounted terminal and tire pressure monitoring controller, tire pressure sensor sets up in the vehicle tire, tire pressure sensor is provided with communication module, tire pressure sensor passes through communication module with cell-phone terminal communication connection, the cloud platform respectively with cell-phone terminal with vehicle mounted terminal communication connection, vehicle mounted terminal with the tire pressure monitoring controller electricity is connected.

Preferably, the communication module is an NFC communication module.

Preferably, the cloud platform is in communication connection with the mobile phone terminal through a wireless network or a 4G network.

Preferably, the cloud platform is in communication connection with the vehicle-mounted terminal through a wireless network.

Further, the tire pressure sensor is in radio frequency connection with the tire pressure monitoring controller.

Further, the mobile phone terminal is provided with application software matched with the tire pressure monitoring learning system.

Further, the cloud platform comprises a storage module for storing the corresponding relation between the tire pressure sensor and the wheel.

Further, the cloud platform comprises a judging module for judging the learning condition of the tire pressure monitoring learning system.

The utility model discloses another aspect protects an automobile, including foretell a vehicle tire pressure monitoring learning system.

Because of the technical scheme, the utility model discloses following beneficial effect has:

(1) the utility model discloses a heavy and expensive characteristics of traditional handheld device have been overcome to vehicle tire pressure monitoring learning system, and the substitute is lightweight cell-phone terminal, has reduced manufacturing cost by a wide margin, has simplified the operation degree of difficulty, has improved user experience.

(2) The utility model discloses a vehicle tire pressure monitoring learning system has adopted NFC's communication mode, receives environmental impact less, and the success rate is higher.

(3) The utility model discloses a data transmission function of vehicle tire pressure monitoring learning system operational vehicle networking, through mobile phone terminal and cloud platform, cloud platform and vehicle mounted terminal's information exchange, the sensor identification information who realizes reading is write in into tire pressure monitoring controller automatically, and is more intelligent.

Drawings

In order to more clearly illustrate the technical solution of the present invention, the drawings used in the description of the embodiment or the prior art will be briefly described below. It is obvious that the drawings in the following description are only some embodiments of the invention, and that for a person skilled in the art, other drawings can be derived from them without inventive effort.

Fig. 1 is a schematic structural diagram of a vehicle tire pressure monitoring learning system provided by an embodiment of the present invention;

fig. 2 is a schematic view of a learning process of a vehicle tire pressure monitoring learning system provided by an embodiment of the present invention.

In the figure: the tire pressure monitoring system comprises a tire pressure sensor, a mobile phone terminal, a cloud platform, a vehicle-mounted terminal, a tire pressure monitoring controller and a communication module, wherein the mobile phone terminal is 2, the cloud platform is 3, and the vehicle-mounted terminal is 4, the tire pressure monitoring controller is 5, and the communication module is 6.

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 only some embodiments of the present invention, not all embodiments. 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.

Example 1

Referring to the attached drawing 1 of the specification, the embodiment provides a vehicle tire pressure monitoring learning system, including tire pressure sensor 1, cell phone terminal 2, cloud platform 3, vehicle mounted terminal 4 and tire pressure monitoring controller 5, tire pressure sensor 1 sets up in the vehicle tire, tire pressure sensor 1 is provided with communication module 6, tire pressure sensor 1 passes through communication module 6 with cell phone terminal 2 communication connection, cloud platform 3 respectively with cell phone terminal 2 with vehicle mounted terminal 4 communication connection, vehicle mounted terminal 4 with tire pressure monitoring controller 5 electricity is connected.

The tire pressure sensors 1 correspond to wheels one by one, and the communication module 6 records the ID information of the tire pressure sensors 1. The mobile phone terminal 2 comprises an NFC communication module and application software matched with the tire pressure monitoring learning system, the application software responds to the operation of a user, the NFC communication module is communicated with the tire pressure sensor 1 to obtain identification information of the tire pressure sensor 1, and the identification information is sent to the cloud platform 3 and comprises ID information of the tire pressure sensor 1; the application software responds to the operation of a user, generates a tire pressure monitoring learning instruction and sends the learning instruction to the cloud platform 3; and the application software displays system information through an interface, wherein the system information comprises the identification information and the learning condition of the tire pressure monitoring learning system. It should be noted that these information are only examples, and different information may be customized according to the need.

The cloud platform 3 is communicated with the mobile phone terminal 2 through a wireless network or a 4G network, and the cloud platform 3 is communicated with the vehicle-mounted terminal 4 through the wireless network; the cloud platform 3 comprises a storage module, which is used for storing the corresponding relation between the tire pressure sensor 1 and the wheel; the cloud platform 3 comprises a judging module for judging the learning condition of the tire pressure monitoring learning system. The vehicle-mounted terminal 4 is used for interacting data information and transmitting instruction information with the cloud platform 3 and the tire pressure monitoring controller 5. The tire pressure monitoring controller 5 performs a learning operation to write the correspondence relationship between the tire pressure sensor 1 and the wheel into the tire pressure monitoring controller 5.

It should be noted that, the mobile phone terminal 2 is a common smart phone on the market, has an independent operating system and a display screen, can access a wireless network and installation software, and as long as the above conditions are satisfied, the utility model discloses do not limit the type of smart phone.

Example 2

Referring to the attached drawings 1 and 2 of the specification, the embodiment provides an automobile which comprises a vehicle tire pressure monitoring learning system, wherein the tire pressure monitoring learning system comprises a tire pressure sensor 1, a mobile phone terminal 2, a cloud platform 3, a vehicle-mounted terminal 4 and a tire pressure monitoring controller 5, the tire pressure sensor 1 is arranged in a vehicle tire, the tire pressure sensor 1 is provided with a communication module 6, the tire pressure sensor 1 passes through the communication module 6 and the mobile phone terminal 2 are in communication connection, the cloud platform 3 is respectively in communication connection with the mobile phone terminal 2 and the vehicle-mounted terminal 4, and the vehicle-mounted terminal 4 is electrically connected with the tire pressure monitoring controller 5.

The tire pressure sensors 1 correspond to wheels one by one, and the communication module 6 records the ID information of the tire pressure sensors 1. The mobile phone terminal 2 comprises an NFC communication module and application software matched with the tire pressure monitoring learning system, the application software responds to the operation of a user, the NFC communication module is communicated with the tire pressure sensor 1 to obtain identification information of the tire pressure sensor 1, and the identification information is sent to the cloud platform 3 and comprises ID information of the tire pressure sensor 1; the application software responds to the operation of a user, generates a tire pressure monitoring learning instruction and sends the learning instruction to the cloud platform 3; and the application software displays system information through an interface, wherein the system information comprises the identification information and the learning condition of the tire pressure monitoring learning system. It should be noted that these information are only examples, and different information may be customized according to the need.

The cloud platform 3 is communicated with the mobile phone terminal 2 through a wireless network or a 4G network, and the cloud platform 3 is communicated with the vehicle-mounted terminal 4 through the wireless network; the cloud platform 3 comprises a storage module, which is used for storing the corresponding relation between the tire pressure sensor 1 and the wheel; the cloud platform 3 comprises a judging module for judging the learning condition of the tire pressure monitoring learning system. The vehicle-mounted terminal 4 is used for interacting data information and transmitting instruction information with the cloud platform 3 and the tire pressure monitoring controller 5. The tire pressure monitoring controller 5 performs a learning operation to write the correspondence relationship between the tire pressure sensor 1 and the wheel into the tire pressure monitoring controller 5.

It should be noted that, the mobile phone terminal 2 is a common smart phone on the market, has an independent operating system and a display screen, can access a wireless network and installation software, and as long as the above conditions are satisfied, the utility model discloses do not limit the type of smart phone.

In this embodiment, the learning process of the tire pressure monitoring learning system is as follows:

starting application software of the mobile phone terminal 2, and entering a tire pressure monitoring learning interface;

the application software is used for sequentially reading the ID information of the tire pressure sensors 1 in the 4 wheels of the vehicle to obtain the corresponding information of the tire pressure sensors 1 and the wheels, and the corresponding information is displayed through an interface;

clicking a learning button of the application software to send a tire pressure monitoring learning instruction, and sending the corresponding information and the learning instruction to the cloud platform 3 by the mobile phone terminal 2;

the storage module of the cloud platform 3 stores the corresponding information of the tire pressure sensor 1 and the wheel, and the cloud platform 3 sends the corresponding information and the learning instruction to the vehicle-mounted terminal 4;

the vehicle-mounted terminal 4 receives the corresponding information and the learning instruction and then sends the corresponding information and the learning instruction to the tire pressure monitoring controller 5;

the tire pressure monitoring controller 5 enters a learning state after receiving the learning instruction, writes the corresponding information of the tire pressure sensor 1 and the wheels into the tire pressure monitoring controller 5, and feeds back the learning condition to the vehicle-mounted terminal 4;

the vehicle-mounted terminal 4 sends the received learning condition to the cloud platform 3;

the judging module of the cloud platform 3 judges whether the learning is successful according to the received learning condition and feeds the learning result back to the mobile phone terminal 2;

the application software of the mobile phone terminal 2 displays the learning result through the interface, and if the learning is successful, the learning success is displayed; if the learning is not successful, displaying 'learning fails, please operate again'.

The utility model discloses a vehicle tire pressure monitoring learning system has following beneficial effect:

(1) the utility model discloses a heavy and expensive characteristics of traditional handheld device have been overcome to vehicle tire pressure monitoring learning system, and the substitute is lightweight cell-phone terminal, has reduced manufacturing cost by a wide margin, has simplified the operation degree of difficulty, has improved user experience.

(2) The utility model discloses a vehicle tire pressure monitoring learning system has adopted NFC's communication mode, receives environmental impact less, and the success rate is higher.

(3) The utility model discloses a data transmission function of vehicle tire pressure monitoring learning system fortune car networking, through the information exchange of cell-phone end and cloud platform, cloud platform and vehicle end, the sensor identification information who realizes reading is write in into tire pressure monitoring controller automatically, and is more intelligent.

The foregoing description has disclosed fully the embodiments of the present invention. It should be noted that those skilled in the art can make modifications to the embodiments of the present invention without departing from the scope of the claims of the present invention. Accordingly, the scope of the claims of the present invention is not to be limited to the specific embodiments described above.

Claims (9)

1. The utility model provides a vehicle tire pressure monitoring learning system, its characterized in that, includes tire pressure sensor (1), cell phone terminal (2), cloud platform (3), vehicle mounted terminal (4) and tire pressure monitoring controller (5), tire pressure sensor (1) sets up in the vehicle tire, tire pressure sensor (1) is provided with communication module (6), tire pressure sensor (1) passes through communication module (6) with cell phone terminal (2) communication connection, cloud platform (3) respectively with cell phone terminal (2) with vehicle mounted terminal (4) communication connection, vehicle mounted terminal (4) with tire pressure monitoring controller (5) electricity is connected.

2. The vehicle tire pressure monitoring learning system according to claim 1, wherein the communication module (6) is an NFC communication module.

3. The vehicle tire pressure monitoring learning system according to claim 1, wherein the cloud platform (3) is in communication connection with the mobile phone terminal (2) through a wireless network or a 4G network.

4. The vehicle tire pressure monitoring learning system according to claim 1 or 3, wherein the cloud platform (3) is in communication connection with the vehicle-mounted terminal (4) through a wireless network.

5. A vehicle tire pressure monitoring learning system according to claim 1, wherein the tire pressure sensor (1) is radio frequency connected to the tire pressure monitoring controller (5).

6. The vehicle tire pressure monitoring and learning system according to claim 1, wherein the mobile phone terminal (2) is installed with application software matched with the tire pressure monitoring and learning system.

7. The vehicle tire pressure monitoring learning system according to claim 1, wherein the cloud platform (3) comprises a storage module.

8. The vehicle tire pressure monitoring learning system according to claim 1 or 6, wherein the cloud platform (3) comprises a determination module.

9. An automobile comprising a vehicle tire pressure monitoring learning system according to any one of claims 1 to 8.

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