TW202334870A - System for setting storing position for tires and method for the same - Google Patents

Abstract

A method for storing position for tires and a system for the same are disclosed. The method includes: inputting information for a tire by a hand held tool, sending the information for the tire and a storing position of the tire to a remote server, and generating an index information including the storing position of the tire by the remote sever. Accordingly, the storing position of the tire can be conveniently inquired, such that the time-consuming of changing the tires of vehicle can be effectively reduced.

Description

System and method for setting tire storage location

The invention relates to a system and method for setting tire storage positions based on a handheld mobile device.

Tires are in direct contact with the ground when a vehicle is driving, so it is very important whether they are in good condition. Generally speaking, depending on the season, tires are roughly divided into summer tires suitable for summer use, winter tires suitable for winter use, and all-season tires. For drivers who are more particular about driving safety or in countries with obvious seasonal changes, it is necessary to replace different tires according to different seasons. It is also necessary for maintenance shops or tire factories to manage the different tires replaced by different customers. A convenient and effective method to save time in finding specific tires for specific customers each time, especially when maintenance shops or tire factories place most of the replaced tires in a tire warehouse (tire hotel), and the tires stored in the tire warehouse There are a huge number of tires, and it is quite time-consuming and laborious to find the specific tires of a specific customer among the huge number of tires. Therefore, it is necessary to provide a method that can quickly find the tire storage location to save the time required to replace tires and improve its efficiency. efficiency.

The purpose of the present invention is to provide a method and system for setting a tire storage position, which has a handheld mobile device and can input tire-related information into the handheld mobile device by inputting, scanning or taking pictures, and uses the handheld mobile device to Upload tire related information and tire storage location to the remote server. Through this, tire manufacturers or brands can easily know the storage location of tires through the remote server, which can save time and cost and achieve the purpose of convenient storage and retrieval of tires.

In order to achieve the above object, the present invention provides a system for setting the tire storage position, which includes:

A handheld mobile device used to input basic information related to a tire and store the tire in a tire storage location in a tire warehouse. The handheld mobile device at least includes a first circuit board, and a first circuit board is provided on the first circuit board. A chip module. The first chip module is electrically connected to and controls a power module, a memory, an operation module and a controller area network module. The controller area network module combines the basic The message and the tire storage location are transmitted outward; and;

A remote server that receives the tire storage location and basic information related to the tire transmitted by the handheld mobile device, and generates a message containing the tire storage location and the tire storage location on one of the handheld mobile device and the remote server. A list of messages for this basic message.

The above-mentioned system for setting the tire storage position further includes a tire sensor. The tire sensor includes a storage module and a receiving module. The receiving module is electrically connected to the storage module. The tire sensor further includes A microprocessor control module, a power module, a transmission module and a detection module, the The power module, transmission module, receiving module and detection module are all electrically connected to the microprocessor control module.

The above-mentioned system for setting the tire storage position further includes a radio frequency identification sticker and an information processing device. The chip module is electrically connected to and controls an RFID reader/writer. The radio frequency identification sticker is used for The RFID reader/writer on the handheld mobile device directly reads the basic information related to the tire stored on the radio frequency identification sticker. The information processing device can communicate with the handheld mobile device and the remote server. Transmission and receipt of data.

The above-mentioned system for setting the tire storage position further includes a receiving device. The receiving device includes a display screen and a sound module. The tire sensor sends a tire pressure signal to the receiving device. When the tire pressure signal indicates When the tire pressure value is lower than a tire pressure threshold, the sound module emits a prompt sound, and the display screen displays the tire pressure value.

The above-mentioned system for setting the tire storage position further includes a second tire sensor, and the serial number of the tire sensor is transmitted to the second tire sensor through the handheld mobile device.

In the above-mentioned system for setting the tire storage location, after the handheld mobile device inputs the manufacturer, model and year of production of a vehicle, the handheld mobile device determines the tire storage location based on the inputted data from an internal database that stores a plurality of communication protocols. Manufacturer, model and production year, select a communication protocol and send the communication protocol to the tire sensor to burn the communication protocol to the tire sensor.

In the above system for setting the tire storage position, the handheld mobile device sends a selection and activation signal to the tire sensor, and the tire sensor is based on the Select and activate the signal, select a communication protocol from a plurality of communication protocols stored in the tire sensor, and activate the communication protocol.

In the above-mentioned system for setting the tire storage location, when using the handheld mobile device to input basic tire-related information, one of a display module and an operating module on the handheld mobile device is directly used to directly input the license plate. One of the number, Vehicle Identification Number (VIN) or vehicle owner information, where the vehicle owner information is information sufficient to identify the vehicle owner.

In the above-mentioned system for setting the tire storage location, the basic tire information is stored on a radio frequency identification tag (RFID tag) or a tire sensor installed on the tire. When using the handheld mobile device When inputting the basic tire information, an RFID reader/writer on the handheld mobile device directly reads the basic tire information stored on the radio frequency identification sticker or tire sensor.

In the above-mentioned system for setting the tire storage location, the operation module or a lens module on the handheld mobile device is used to input one of the serial number of the tire sensor, the serial number of the radio frequency identification sticker and the tire identification information, and then use The RFID reader/writer of the handheld mobile device transmits information to a radio frequency identification sticker or tire sensor.

In the above-mentioned system for setting the tire storage location, when the basic information is input using the handheld mobile device, a lens module of the handheld mobile device is used to scan or take a photo to obtain the text on the tire.

The above-mentioned system for setting the tire storage position further includes a tire tread depth measurement tool for measuring the tire tread depth or using a lens module of the handheld mobile device to scan or take pictures of the tire tread depth, measure The tread depth or the scanned or photographed tread depth is sent to the handheld mobile device, and then the tread depth is transmitted to the remote server via the handheld mobile device.

In the above-mentioned system for setting the tire storage location, after inputting the basic information, the handheld mobile device is then used to input the tire type, tire identification information, tire serial number, storage date and time of the tire according to the season, and At least one of the stored quantities of tires is retrieved and the data is transmitted to the remote server.

In the above-mentioned system for setting the tire storage location, after inputting the basic information, a lens module of the handheld mobile device is used to capture the appearance of the tire, and the image data is transmitted to the remote server.

The above-mentioned system for setting the tire storage location further includes a computer device, which after connecting to the remote server or the handheld mobile device, accesses the list information from the remote server or the handheld mobile device. .

The above-mentioned system for setting the tire storage position further includes a tire sensor triggering device. The tire sensor triggering device includes a second circuit board. A second chip module is disposed on the second circuit board. The second chip module The set is electrically connected to and controls a second power module, an operation module, a Bluetooth module, a low-frequency (125KHz) transceiver and a high-frequency (315MHz/433MHz) transceiver, and operates the operation button to enable the low-frequency The transceiver transmits a 125KHz trigger signal to a tire sensor. The high-frequency transceiver receives a tire pressure signal returned by the tire sensor. The tire pressure signal includes an ID identification code of the tire sensor. The Bluetooth module and the The handheld mobile device is connected to transmit the tire pressure signal to the handheld mobile device.

In the above-mentioned system for setting the tire storage position, the tire sensor triggering device further includes a controller area network (CANBUS) module, which controls The server area network module is wired to a trip computer, and the ID is transmitted from the tire sensor triggering device to the trip computer, so that the ID is written into a memory of the trip computer, or the tire stored in the trip computer is The sensor ID is read into the tire sensor triggering device.

In the above-mentioned system for setting the tire storage position, the first chip module is further connected to and controls a WIFI module, a second Bluetooth module, a lens module, a display module, and a controller area network ( CANBUS) module, a USB module, a low-frequency (125KHz) transceiver, a high-frequency (315MHz/433MHz) transceiver and an RFID reader/writer, the high-frequency (315MHz/433MHz) transceiver transmits the list Send a message to a tire sensor to store the list information in a storage module of the tire sensor.

In the above system for setting the tire storage position, the first chip module is further connected to and controls a buzzer and a vibration device. When the list message is sent to the tire sensor, the buzzer makes a sound or the vibration device Send out vibrations.

In the above-mentioned system for setting the tire storage position, the first chip module is further connected to and controls a third Bluetooth module, and the third Bluetooth module transmits the list information to a tire sensor to store the list information. A second storage module in the tire sensor.

In the above-mentioned system for setting the tire storage position, the first chip module is further connected to and controls a display module, and the handheld mobile device uses one of the display module and the operation module to manually input. Manually enter the tire storage location where the tire is stored in the tire warehouse into the handheld mobile device.

The invention also provides a method for determining a tire storage location, which includes:

Use a handheld mobile device to input basic tire-related information;

Use the handheld mobile device to input the storage location of the tire in a tire warehouse; and

Use the handheld mobile device to upload the basic information and the tire storage location to a remote server, and generate a list containing the tire storage location and the basic information on one of the handheld mobile device and the remote server. message.

In the above method of setting the tire storage location, the basic tire information is stored on a radio frequency identification tag (RFID tag) or a tire sensor installed on the tire, and the tire is input using a handheld mobile device. For basic information, an RFID reader/writer on a handheld mobile device directly reads the basic tire information stored on the radio frequency identification sticker or tire sensor.

In the above method of setting the tire storage location, the basic tire information contains at least one of the following: tire manufacturer, tire ID, model, size or date of manufacture.

In the above method of setting the tire storage location, the radio frequency identification sticker is directly attached to the tire.

In the above method of setting the tire storage location, the radio frequency identification sticker is set on a tire sensor (Tire Pressure Monitoring System sensor, TPMS sensor).

The above-mentioned method of setting the tire storage location includes using an operation module or a display module on a handheld mobile device to input one of the ID of the tire sensor, the ID of the radio frequency identification sticker, and the tire identification information, and then using the handheld mobile device to The RFID reader/writer transmits the information to the radio frequency identification sticker or tire sensor.

The above-mentioned method of setting the tire storage location uses a lens module on a handheld mobile device to scan and input one of the ID of the tire sensor, the ID of the radio frequency identification sticker, and the tire identification information, and then uses the RFID reader on the handheld mobile device to read the tire. Take the writer and transfer it to the RFID sticker or tire sensor.

In the above method of setting the tire storage location, when using a handheld mobile device to input basic tire information, one of a display module and an operating module on the handheld mobile device is used to directly input the license plate number and vehicle identification code (Vehicle Identification Code). Identification Number, VIN) or one of the vehicle owner information, where the vehicle owner information is information sufficient to identify the vehicle owner.

In the above-mentioned method of setting the tire storage location, when using a handheld mobile device to input tire-related information, a lens module on the handheld mobile device is used to scan or take a photo to obtain the text on the tire.

In the above method of setting the tire storage location, after inputting basic information, the handheld mobile device is then used to input the tire type according to season, tire identification information, tire serial number, the location of the tire on the vehicle and the storage date of the tire. and time, and transmit the data to the remote server.

In the above method of setting the tire storage position, a tire tread depth measuring tool is used to measure or a handheld mobile device is used to photograph the tread depth of the tire, and then the measured or photographed tread depth is sent to the handheld mobile device, and then the The handheld mobile device transmits the tread depth to the remote server.

In the above-mentioned method of setting the tire storage location, after inputting the manufacturer, model and year of production of a vehicle using a handheld mobile device, the handheld mobile device then obtains the information from the vehicle. A suitable communication protocol is selected from the internal database of the handheld mobile device, and the communication protocol is sent to a tire sensor to burn the communication protocol into the tire sensor.

In the above method of setting the tire storage position, the handheld mobile device sends a selection activation signal to a tire sensor, and the tire sensor selects a suitable communication protocol for activation from among many communication protocols stored in its own memory.

In the above method of setting the tire storage position, a handheld mobile device is used to input a trigger signal to a tire sensor, and the tire sensor returns the ID of the tire sensor to the handheld mobile device.

The above-mentioned method of setting the tire storage location includes displaying the location of the tire on the vehicle on a display module of the handheld mobile device, and inputting the brand, model or size of the tire.

A method of setting a tire storage location includes using a display module or an operation module of the handheld mobile device to input an ID of a tire sensor into the handheld mobile device.

A method of setting a tire storage location, wherein after the handheld mobile device receives the ID transmitted from the tire sensor, the handheld mobile device transmits the ID of the tire sensor to a second tire sensor.

The present invention also provides an electronic device with a program for setting the tire storage position, which includes:

Provide selection interface means for an operator to click into the reservation interface, customer information interface, tire storage data search interface, etc. in a selection interface;

The means for inputting basic tire information is used to input basic tire-related information in an input interface;

The tire storage location input means is used to input the tire storage location where the tires are stored in a tire warehouse in the input interface; and

The transmission means is used to transmit basic tire information and the tire storage location to a remote server.

The above-mentioned electronic device with a program for setting the tire storage location further includes a printing means for selectively printing basic information related to the tire and data such as the tire storage location.

The present invention also provides an electronic device with a program for obtaining the tire storage position, which includes:

Input means for inputting basic information related to the tire and storing the basic information in a memory of the electronic device; and

The return transmission means is used to transmit the basic information to a remote server. The remote server stores list information related to the basic information, and returns the list information to use the list information to find the tire. The location where the tire is stored in the warehouse, or the location where the tire is stored in the warehouse is directly searched for in the memory of the electronic device.

In the above-mentioned electronic device with a program for obtaining the tire storage location, when inputting basic information related to the tire, one of the license plate number, vehicle identification number (VIN) or vehicle owner information is directly input, and the vehicle owner information is sufficient for identification. Information about the identity of the vehicle owner.

The invention also provides a method for finding the location of tires stored in a tire warehouse, which includes:

Using a handheld mobile device to input basic information related to a tire and transmitting the basic information to a remote server; and

Search the remote server for a list message of the location where a tire is stored in the warehouse related to the basic information, send the list message back to the handheld mobile device, and use the list message to find the location where the tire is stored. location in the warehouse.

In the method of finding the location of tires stored in a tire warehouse, when inputting basic information related to tires, one directly inputs one of the license plate number, vehicle identification number (VIN) or vehicle owner information, where the vehicle owner information is It is information sufficient to identify the car owner.

Through the above technical means, the present invention can easily upload the basic information of the tire and the tire storage location to a remote server for storage. In this way, when the car owner replaces the tire, the maintenance shop or tire factory can use the handheld mobile device to conveniently And quickly querying the tire storage location can save the time and cost of tire replacement, making it easier to store and retrieve tires.

In addition, because the present invention stores data in the remote server instead of in the tire sensor, it can prevent the tire sensor from being unable to read when there is no power due to the limited memory space and limited battery life of the tire sensor. The big data in the tire sensor is taken from the tire sensor. Generally, the tire sensor cannot be connected to an external memory, but the handheld mobile device of the present invention can be connected to an external memory. At the same time, the storage space of the remote server can be very large. The handheld mobile device can be charged at any time, thus solving the problem of being unable to read data due to exhausted battery power.

【00100】

100: Vehicle tire management device

110: RFID sticker

120:Handheld mobile device

120a: Chip module

120b:Power module

140:Remote server

150: Tire sensor trigger device

150a:Chip module

150b:Power module

150g: buzzer

120c: battery

120d: memory

120e: Lens module

120f: Display module

120g: buzzer

120h: Vibration device

120i: Controller Area Network Module

120j:USB module

120k: Operation module

120l: low frequency transceiver

120m: high frequency transceiver

120n: RFID reader/writer

121:Grip

122:Button

123: Function selection key

124:Touch input interface

130:Message processing device

150h: Vibration motor

150i: Controller Area Network Module

150l: low frequency transceiver

150m: high frequency transceiver

150p:Bluetooth module

160: Tire sensor

161: Microprocessor control module

162:Storage module

163:Power module

164:Receive module

165:Teleport module

166:Detection module

170: Second tire sensor

180: Wheel pattern depth measuring tool

S100, S101, S102, S103: steps

S104, S105, S106, S107: steps

Figure 1 is a schematic structural diagram of a vehicle tire management device according to an embodiment of the present invention;

Figure 2 is a block diagram of the hardware architecture of the handheld mobile device in Figure 1;

Figure 3 is a schematic diagram showing the appearance of a physical product of the handheld mobile device in Figure 2;

Figure 4 is a schematic diagram showing basic information input using a handheld mobile device;

Figure 5 is a block diagram of the hardware architecture of the tire sensor;

Figure 6 is a flow chart illustrating a method for setting a tire storage position according to the present invention;

Figure 7 is an architectural block diagram of a tire management system according to another embodiment of the present invention;

Figure 8 is an architectural block diagram of a tire management system according to another embodiment of the present invention; and

Figure 9 is a flow chart illustrating a method for setting a tire storage position according to an embodiment of the present invention.

Figure 10 is a schematic diagram of the operation interface for the remote server to store or retrieve tires according to the present invention.

Figure 11 is a schematic diagram of an embodiment of the present invention when reading or writing radio frequency identification sticker data.

Figure 12 is a system block diagram of another embodiment of the present invention.

Figure 13 is a front view of the tire sensor triggering device according to the present invention.

Figure 14 is a block diagram of the hardware architecture of the tire sensor triggering device;

Figure 15 is an operation flow chart of the application program of the present invention.

Figures 16 to 20 are schematic diagrams of part of the display interface of the application of the present invention.

In the following description, specific embodiments of the present invention will be described with reference to the accompanying drawings. Many practical details will be explained in the following description. However, these practical details should not be used to limit the invention. That is, in some embodiments of the present invention, these practical details are not necessary. also, In order to simplify the drawings, some commonly used structures and components are shown in the drawings in a simple schematic manner; and repeated components may be represented by the same numbers.

Please refer to pictures 1 to 4. Figure 1 is a schematic architectural diagram of a vehicle tire management device 100 according to an embodiment of the present invention; Figure 2 is a block diagram of the hardware architecture of the handheld mobile device 120 in Figure 1; Figure 3 is a schematic diagram of the hardware architecture of the handheld mobile device 120 in Figure 1; 2 is a schematic diagram of the appearance of a physical product of the handheld mobile device 120.

In Figure 1, the vehicle tire management device 100 generally includes a radio frequency identification sticker 110 and a handheld mobile device 120. The radio frequency identification sticker 110 can store various information about the tire. In Figure 2, the handheld mobile device 120 can be mainly a handheld tool, and can be an object independent of the vehicle. The handheld mobile device 120 can be carried by the user and moved to any predetermined position for use. In an embodiment, the handheld mobile device 120 may be a tire sensor setting tool as shown in FIG. 3 , and the handheld mobile device 120 has a circuit board (not shown). A chip module 120a is provided on the circuit board. The chip module 120a is a control center that is electrically connected to and controls a power module 120b, a memory 120d, a lens module 120e, a display module 120f, a buzzer 120g, a vibration motor 120h, a Controller area network (CANBUS) module 120i, a USB module 120j, an operation module 120k, a low frequency (125KHz) transceiver 120l, a high frequency (315MHz/433MHz) transceiver 120m and an RFID read and write Inserter 120n.

The chip module 120a has a logic operation function and integrates a wireless communication chip to exchange data with external devices through various communication protocols (such as Wi-Fi, Bluetooth, etc.). For example, data can be exchanged with a remote server through the Wi-Fi protocol, and data can be exchanged with a mobile phone through the Bluetooth protocol.

The power module 120b provides power necessary for hardware operation. In one example, the battery 120c can be used as the power supply source, but is not limited to this.

The memory 120d can store data and carry software programs to process vehicle service information and tire operation information. The vehicle service information can include a tire buyer's name, a tire seller's name, a tire buyer's address, and a tire seller's address. And the tire's own ID, etc., and the tire's operating information can include but is not limited to a tire pressure, a tire temperature, a sensor's own battery level, and a sensor's own ID, etc.

The lens module 120e can be equipped with a lens to scan or take pictures of a one-dimensional bar code, a two-dimensional QR code, or a number on a tire tread. The number on the tire tread, for example, can be the ID of the tire itself. After using the lens module 120e to scan or take a photo of the tire's own ID, a photo is generated to the chip module 120a. An image recognition software is then used to identify the photo, and the tire itself can be known. ID. At this time, after inputting the tire buyer's name, tire seller's name, tire buyer's address, and tire seller's address using the operation module 120k or the display module 120f, the tire buyer's name, tire seller's name, tire buyer's address, tire seller's address, and the tire itself are The ID is associated into a file, and the file is stored in the memory 120d, or the chip module 120a is used to transmit the file to a remote server 140. Alternatively, after the handheld mobile device 120 obtains the tire ID, the tire buyer's name, the tire seller's name, the tire buyer's address, and the tire seller's address, these data can be directly uploaded to the remote server 140, and then these data can be associated into one Related information. After the tire brand or tire manufacturer uses the remote server 140 to obtain this file or related data, it can know the location of the tire. After a certain period of time, when the tire needs to be recycled, the file or related data can be used Data is used to recycle tires.

The display module 120f can use a touch input interface. Through the touch input interface, vehicle information, tire information and vehicle service information can be input. The vehicle information can include the vehicle owner's name, owner's address, vehicle model or license plate number, etc. , and the tire information itself may include tire model, size, installation location, etc.

The low-frequency (125KHz) transceiver 120l can send a trigger signal to a tire sensor. The tire sensor 160 receives the trigger signal and returns operation information or vehicle service information.

The high-frequency (315MHz/433MHz) transceiver 120m can receive operation information and process the operation information and vehicle service information through the software program stored in the memory 120d. The chip module 120a executes instructions of the software program. The instructions of the software program include: generating a user profile to store operation information and vehicle service information; sending vehicle service information or operation information to the remote server through the chip module 120a; and sending through the low frequency (125KHz) transceiver 120l Vehicle service messages.

The above vehicle service information can be sent to a remote server through the chip module 120a.

The above controller area network (CANBUS) module 120i can be used to connect the receiving device 150 of the vehicle's computer host. The receiving device 150 is built into the vehicle's computer host, or the receiving device 150 can also be an external independent device. , use wireless or wired (plug into the cigarette hole) to connect to the vehicle's computer host.

The USB module 120j can be connected to an external mobile phone or computer through wired means.

The operation module 120k can use operation buttons or knobs for function confirmation, and can input vehicle service information and basic information.

The buzzer 120g and the vibration motor 120h can issue a sound or vibration warning when an error occurs.

The RFID reader/writer 120n is used to read the data stored on the RFID sticker 110 or write the data on the RFID sticker 110. The RFID reader/writer 120n can be built-in or externally connected to the RFID reader/writer 120n. Handheld mobile device 120.

The above-mentioned handheld mobile device 120 may be provided with a slot. An additional memory (such as an SD card) can be inserted into the slot to store operating information or vehicle service information.

The Radio Frequency Identification tag (RFID tag) 110 records and stores basic information about a tire, such as tire manufacturer, tire ID, model, size, date of manufacture or owner's name. In addition, it can also be used The handheld mobile device 120 transmits and records other data on the radio frequency identification sticker 110, such as the car owner's phone number, email, or the location of the tire in the vehicle, such as whether the tire is located on the left front wheel, left rear wheel, right front wheel, or right rear wheel, etc. .

In one embodiment, the radio frequency identification sticker can be directly attached to the tread of the tire. In another embodiment, the radio frequency identification sticker can also be integrated into a tire sensor (Tire Pressure Monitoring System sensor, TPMS). sensor), the tire sensor can be used to detect the operating status of the tire and generate an operating message, and can transmit the operating message to the outside.

Please refer to Figure 5. The tire sensor 160 may include a storage module 162 and a receiving module 164. The storage module 162 can store operation information. The receiving module 164 is electrically connected to the storage module 162 and can receive a vehicle service message and store the vehicle service message with the storage module 162. The tire sensor 160 can further include a microprocessor control module 161 and a power module 163. , a transmission module 165 and a detection module 166 . The power module 163, the transmission module 165, the receiving module 164 and the detection module 166 are all electrically connected to the microprocessor control module 161.

Figure 3 illustrates a possible physical finished product appearance of the handheld mobile device 120. The handheld mobile device 120 generally has a handle 121, a button 122 (which can be used as a confirmation button or a return button), a function selection button 123 and a touch input interface 124. The button 122 and the function selection button 123 can cooperate with the software program to perform different functions, and a connection port can be connected to an external mobile phone or computer. One slot is available for installing additional memory (such as an SD card), and one button is used to confirm function options. The physical product structure of the handheld mobile device 120 of the present invention is not limited to the one disclosed above, and may also have other types of physical product structures.

Please refer to Figure 6. Figure 6 is a flow chart illustrating a method for setting a tire storage position according to the present invention. The present invention discloses a method for setting a tire storage location, which includes the following steps: Step S100 is to input basic information of a tire through a handheld mobile device, where the basic information of the tire can be tire-related information, vehicle-related information or vehicle owner information. Among them, the tire-related information may include the tire manufacturer, tire ID, model, size or manufacturing date, etc. The vehicle-related information may include the license plate number or vehicle identification code of the installed vehicle, and the vehicle owner information. It is information sufficient to identify the car owner, and may include one of the car owner's name, phone number or email; Step S102 is to input the storage location of a tire in a tire warehouse (tire hotel) through the handheld mobile device; Step S103 is to input the storage location of a tire in a tire warehouse (tire hotel) through the handheld mobile device Send basic tire information and tire storage location to a The remote server can also input the tire storage location first and then input the basic information of the tire, that is, execute step S102 and then step S100. The operation principle of the above vehicle tire management method will be further explained later.

Among them, the tire storage location in the tire warehouse refers to the specific location where the tires are stored in the tire warehouse, such as a specific storage location in a specific cabinet in the tire warehouse. It does not refer to the location on the vehicle, such as the left front wheel, The location of the left rear wheel, right front wheel or right rear wheel does not refer to the location of the spare tire on the vehicle, nor does it refer to the location or address of the tire warehouse itself. Optically scanning the barcode on the tire with the lens module of the handheld mobile device cannot obtain the tire storage location in the tire warehouse, because the information about the tire storage location in the tire warehouse does not exist in the barcode on the tire. The tire storage location in the tire warehouse requires manual input. The tire storage location is manually entered into the handheld mobile device. The tire storage location can be stored in the memory of the handheld mobile device or in a remote server.

Please refer to Figures 2 and 4 together. When inputting the basic information of a tire using the handheld mobile device 120, the display module 120f or the operating module 120k on the handheld mobile device 120 can be used to directly input the information of the tire. Install the vehicle's license plate number, vehicle identification code or vehicle owner information, such as the owner's name, phone number, etc., or directly read the radio frequency identification sticker 110 stored on the tire with the RFID reader/writer 120n of the handheld mobile device 120h. Read the tire-related information, or use the lens module 120e on the handheld mobile device 120 to obtain the text on the tire, such as the ID or model on the tire, and input the basic information of the tire, and use the lens module 120e can use scanning or taking photos to obtain the text on the tire.

In addition, after inputting the basic information of the tire, step S101 can be performed. In step S101, the handheld mobile device 120 can be used to input the type of tire, such as winter tire, summer tire or all-season tire, etc., the number of stored tires, the number of tires stored, etc. Identification information (Department of transportation, DOT) or tire serial number, etc., you can also use the handheld mobile device 120 to input the position of the tire on the vehicle, such as the left rear tire position, left front tire position, right front tire position or right rear tire position. , to confirm which tire position of the vehicle the stored tire is located, or to use the lens module 120e on the handheld mobile device 120 to photograph the appearance of the tire to confirm whether there is any defect in the appearance of the tire, so as to record the appearance of the tire. Records are first stored in the remote server 140 to avoid unnecessary disputes about whether the tires are damaged in the future, and data such as the number of tires, tire identification information, tire serial numbers, and photos of the tires are transmitted to the remote server. Device 140.

Please refer to Figure 7 together. Figure 7 is an architectural block diagram of a tire management system according to another embodiment of the present invention.

In Figure 7, a tire management system architecture disclosed in the present invention includes a radio frequency identification sticker 110, a handheld mobile device 120, an information processing device 130 and a remote server 140. The RFID sticker 110 is used to store a tire-related information, and the handheld mobile device 120 can be used to read the information stored in the RFID sticker 110 or send other information, such as the ID of the RFID sticker and the related tire sensor. The ID or serial number is written and stored in the radio frequency identification sticker 110, as shown in Figure 11; the handheld mobile device 120 can also receive an external message, such as the tire installation location, a car model name, a vehicle model, a The vehicle year or a vehicle number, etc. and set the storage location of the tire, and can send tire-related information, tire storage location and exterior appearance to the outside. Part of the message is received by the message processing device 130, and can be sent out to the remote server 140 through the message processing device 130 or directly from the handheld mobile device 120, as shown in Figure 10, and generated by the remote server 140 A package contains the inventory information of the tire storage location and is stored.

The external information received by the above-mentioned handheld mobile device 120 includes but is not limited to a handheld mobile device ID, a tire sensor ID, a tire mileage, a tread depth, a load, a tire brand, and a tire. Model, tire installation time, tire installation location, tire sensor installation time and location, tire installation store location, vehicle manufacturer name, vehicle model name, vehicle model, vehicle year, vehicle number, repair and replacement The location of the tire store, the serial number of the steel rim itself, the employee number or identification number of the maintenance worker, the tire storage location, the name of the tire agent, the name of the tire retailer, the address of the tire agent, the address of the tire retailer, The tire buyer's name, a tire buyer's address, a car owner's name, a car owner's address, whereby the tire sensor 160 communicates with the receiving device 150 using the communication protocol, tire pressure value, tire size, license plate number, and the car owner's reservation for the tire The date and time of the repair shop or a system error message in the setting tool or information processing device can also be uploaded to the remote server 140. System developers, such as TPMS manufacturers, etc., can learn about the system from the remote server. After there is an error message, it can be used as a basis and reference for improving the system or the remote server 140 in the future.

The handheld mobile device 120 transmits the operating information/external information it has through a wired channel (such as a physical network line) or a wireless channel (such as WiFi, Bluetooth, 3G/4G/5G or other possible wireless transmission protocols). to message processing Device 130 or remote server 140. The information processing device 130 can be a mobile phone, a tablet computer, a notebook computer or a desktop computer, but is not limited thereto. Next, the information processing device 130 can transmit the tire information/external information to the remote server 140 for storage through wireless or wired methods, so the holder of the handheld mobile device 120 can retrieve it by connecting to the remote server 140 This location information allows the tire storage location and other related information to be known, so that when the car owner wants to replace the tire in the future, he only needs to input the basic information of the tire through the handheld mobile device 120, such as the license plate number, vehicle identification code, car owner information (such as the car owner (name, phone number, email, residential address, zip code or city of residence) or the manufacturer, model and year of production of the vehicle, and then transmit the basic tire information to the remote server 140, which is then served by the remote server The device 140 finds out the associated list information based on the received tire-related information, and can easily query where the car owner's tires are stored, and transmits it back to the handheld mobile device 120, which is convenient for the maintenance shop or tire factory to access and Replace the required tires. In addition, the car owner can input the reservation data to the tire repair shop through the message processing device 130. The reservation data can be any of the above external messages. The reservation data can form a reservation order number. The message processing device 130 The reservation number is then transmitted to the handheld mobile device 120 through the remote server 140. The tire repair shop employee operates the handheld mobile device 120 and can manually click on the reservation number. After clicking, a lot of reservation information can be displayed. Tire repair shop employees can obtain information about the car owner, vehicle or tire to be scheduled for repair in advance before the car owner arrives.

Secondly, the tread depth measuring tool 180 can be used to measure the tread depth of the tire, and then the measured tread depth can be transmitted to the handheld mobile device. 120, and then transmit the tread depth to the remote server 140 via the handheld mobile device 120.

Please refer to Figure 8, which shows another tire management system architecture disclosed by the present invention. The operation information of the tire sensor 160 can also be received through a receiving device 150, which can be a vehicle computer host or a dedicated receiving device. The tire pressure detection host of the tire sensor 160 transmits the information to the information processing device 130 through a wireless channel. The information processing device 130 may, in turn, also send the operation information to the remote server 140 for storage and analysis. In addition, the basic tire information or external information received by the handheld mobile device 120 can also be transmitted back to the tire sensor 160 through a wireless channel, and then transmitted outward through the receiving device 150, or directly transmitted to the remote end by the handheld mobile device 120. Server 140. Finally, the remote server 140 has both operational information and external information, and can analyze/pair the operational information and external information, and send the analysis/matching results back to the information processing device 130 or the handheld mobile device 120. In this way, the holder of the information processing device 130 (mobile phone or computer) or the handheld mobile device 120 can obtain relevant information services based on the returned analysis/matching results.

The handheld mobile device 120 is used to input one of the manufacturer (Make), the car model (Model) and the production year (Year) or all three of the above, where Make, Model and Year are abbreviated as MMY. The handheld mobile device 120 then selects a suitable communication protocol from the internal database of the handheld mobile device 120 and transmits the communication protocol to the tire sensor 160 to burn the communication protocol into the tire sensor 160, so that the tire Sensor 160 can communicate with receiving device 150.

The handheld mobile device 120 is used to input a trigger signal to the tire sensor 160, and the tire sensor 160 returns the ID of the tire sensor 160 and the tire pressure of the relative tire to the handheld mobile device 120. In addition, a part of the handheld mobile device 120 can also be used. The display module or operation module inputs the ID of the tire sensor 160 into the handheld mobile device. Next, the handheld mobile device 120 receives the ID transmitted from the tire sensor 160 or inputs the tire sensor 160ID. 120 then transmits the ID of the tire sensor 160 to a second tire sensor 170 .

For example, since a tire sensor 160 is installed in each of the winter tire and the summer tire, the respective tire sensors 160 have different tire sensor IDs. If summer tires are installed at the beginning, the ID of the tire sensor 160 in the summer tire is, for example, A01, and the car's driving computer must also record the ID A01, so that the driving computer can recognize the tire sensor 160 and the tire sensor 160 can successfully detect the tire. Pressure and other data are sent to the trip computer. When it is time to put on winter tires, because there is another tire sensor 160 in the winter tire, its ID is A02, but the trip computer only recognizes A01, so the trip computer cannot communicate with this tire sensor 160. And if the trip computer records ID A02, the trip computer must be reset. However, the process of setting the trip computer is quite cumbersome. Therefore, the handheld mobile device 120 must be used to first transmit the ID A01 obtained from the tire sensor 160 in the summer tire to Hold the mobile device 120, and then send the ID A01 to the tire sensor 160 in the winter tire, so the trip computer recognizes the ID A01. The tire sensor 160 in the winter tire can successfully transmit the information to the trip computer, so there is no need to reset the trip computer, saving time. Lots of setup time.

In addition, the radio frequency identification sticker 110 of the present invention is installed on the tire of the vehicle, and the handheld mobile device 120 is held by a tire repair shop (such as a vehicle maintenance shop, tire dealer, etc.), and the tire repair shop also Configurable with Information processing device 130 (such as mobile phones, desktop computers, etc. used by manufacturers). In addition, the information processing device 130 may also be a mobile phone held by the vehicle driver. Accordingly, various application methods will be produced. For example: in winter, summer tires are replaced and placed on the rack of the tire warehouse. The handheld mobile device 120 first scans the radio frequency identification sticker 110 on the tire to obtain information related to the tire, and inputs the position on the rack, such as the tenth Ranked third, and then sent to the remote server 140 to create a list message for storage. The next time the tire is replaced, the basic information of the tire, such as the license plate number, vehicle related information or vehicle owner information, is input through the handheld mobile device 120 or MMY, input one of the above four types, and use the basic information of this tire to read the tire position stored in the remote server 140, so that you can easily access and replace the tire; please refer to Figure 9 for the implementation steps. A flowchart is shown of a method for setting tire storage locations using the tire information management device 100, which includes: Step S104 is to provide a tire storage area, and the tire storage area includes a plurality of tire storage locations; Step S105 is to store a tire in these locations. One of the tire storage locations; step S106 is to input the tire storage location to the handheld mobile device 120; step S107 is to transmit the tire storage location from the handheld mobile device 120 to the remote server 140; when the vehicle enters the factory next time, through the handheld mobile device By inputting tire-related information into the device 120, the tire storage location can be immediately known to facilitate tire replacement. In addition, the execution order of the three steps S105, S106 and S107 can also be exchanged with each other. For example, S106 is executed first, and then S107 is executed. Then execute step S105, or execute step S106 first, then execute step S105 and finally execute step S107.

The above shows an application method based on the handheld mobile device 120 being able to read the information on the radio frequency identification sticker 110, input the tire position, and combine it with the remote server 140. Therefore, through the setting wheel constructed in the present invention, The method and system of tire position can also be combined with other diverse external information to provide drivers with more comprehensive and real-time information services.

Please refer to Figures 12 to 14, which show another embodiment of a handheld mobile device. The handheld mobile device can be a tire sensor triggering device 150. The tire sensor triggering device 150 includes a circuit board. The circuit board Assume a chip module 150a. The chip module 150a is electrically connected to a power module 150b, a Bluetooth module 150p, a low-frequency (125KHz) transceiver 150l, a high-frequency (315MHz/433MHz) transceiver 150m and a switch button, the high-frequency transceiver 150m receives a tire pressure signal returned by the tire sensor, the tire pressure signal includes an ID identification code of the tire sensor, the Bluetooth module 120p is connected to the mobile phone, and the tire pressure signal is The signal is transmitted to a mobile phone, and the on button can be pressed to control the tire sensor triggering device 150. A long press of the switch button can be used to turn the tire sensor triggering device 150 on or off, and a short press of the switch button can be used to trigger the tire sensor. The device 150 emits a LF low frequency signal to the tire sensor.

In addition, the tire sensor triggering device 150 further includes a buzzer 150g, a vibration motor 150h and a controller area network (CANBUS) module 150i. The controller area network module 150I can communicate with the on-board diagnostic system (On-Board Diagnostic System). -Board Diagnostic (OBD) or a trip computer through a wired connection, transmit the ID identification code from the tire sensor triggering device 150 to the trip computer, so as to write the ID into a memory of the trip computer, or to the trip computer. The stored ID of the tire sensor is read into the tire sensor triggering device 150 .

Thereby, after the Bluetooth module 150p of the tire sensor triggering device 150 is connected to a mobile phone, the tire sensor triggering device 150 can be controlled using the screen of the mobile phone, and the tire pressure signal of the tire sensor is obtained through the tire sensor triggering device 150, and The tire pressure signal is transmitted to the mobile phone, and then the mobile phone is used to input the tire pressure signal. Relevant basic information, such as the tire's ID, owner's name, license plate number, vehicle-related information or owner's information or MMY, etc., and the tire storage location where the tire is stored in a tire warehouse, etc., and then the basic information and tire storage location, etc. is sent to the remote server 140, and a list message containing the tire storage location and the basic information is generated in one of the mobile phone and the remote server 140, thus completing the process of setting the tire storage location.

When you want to pick up and replace a tire, you only need to input the basic information of the tire through the mobile phone, and use the basic information of the tire to read the tire position stored in the remote server 140, so that you can easily and quickly know the previous tire. Storage location to facilitate obtaining specific tires from the tire warehouse for car owners to replace.

In addition, the information processing device 130 can also be an electronic device such as a mobile phone or a laptop computer, and the electronic device is used to download an application program for setting the tire position. The electronic device is held by a tire factory or a garage and is provided by a tire sensor manufacturer. application, and input the basic information of the tire and the tire storage location through the application, and transmit the basic information and tire storage location to the remote server 140, and when you want to access the accessed tire, you can also Directly use the electronic device to input the basic information of the tire through the application, so that the storage location of the tire can be quickly found in the remote server, making it easy to access and replace the tire. Secondly, when the basic information is input, You can also use the Bluetooth module on the electronic device to directly connect to a tire sensor 160 and obtain a tire pressure signal from the tire sensor 160. The tire pressure signal may include an ID identification code of the tire sensor 160, etc.

Please refer to Figure 15. The operation process of the application with the electronic device is as follows:

A selection interface is provided, as shown in Figure 16, in which the operator can click on the reservation interface, customer information interface, work scheduling interface, and tire storage data search interface.

Input basic tire information. First, when the customer has made an appointment, he can enter the input interface shown in Figure 17 by clicking on the appointment interface to enter tire-related information such as license plate number, vehicle identification number (VIN) or car owner information. Basic information. If the customer has no reservation, he can directly click to enter the input interface to enter basic tire-related information. When entering basic tire-related information, he can first enter vehicle information such as vehicle make, year or owner's name, and Fill in the tire information such as tire brand, model and tire size, and then fill in the tire identification information (Department of Transportation, DOT) and tire serial number. When entering the tire serial number, you can enter it by filling in or scanning the tire surface. You can also choose to enter it. For tire tread depth, you can use a tire tread depth measurement tool to measure the tire tread depth, and transmit the measurement results to your mobile phone through a Bluetooth module. You can also use your mobile phone to take a photo of the tire appearance and send it to the application. In the program, you can also use a tire sensor setting tool or a tire sensor triggering device to read the serial number, tire pressure, tire temperature, battery and other information of a tire sensor, and then transmit the aforementioned information to the mobile phone, and input it into the input interface. in the relevant fields.

Enter the tire storage location, and enter the tire storage location where the tires are stored in a tire warehouse in the input interface, as shown in Figure 18.

Transmit to a remote server, transmit the basic tire information and the tire storage location to a remote server, store it in the remote server, and generate a message containing the tire on the electronic device using the application. The tire storage location and the list information of the basic information are simultaneously transmitted to the remote server. In addition, the list information can also be directly generated by the remote server.

When printing data, you can choose to print basic tire-related information and tire storage location information, as shown in Figure 19, for the customer's final confirmation.

When the customer wants to change a tire, he clicks on the customer information interface, as shown in Figure 20, and enters the basic information of any tire, such as the license plate number, car owner's name, etc., and uses the application to transmit the basic information to the remote server The remote server stores the list information related to the basic information, and then sends the list information back to the electronic device, and then uses the list information to find the location where the tires are stored in the warehouse, and displays the relevant information. In order to facilitate the customer to change the tire, or the basic information and tire transmission position can be stored in the memory of the electronic device, and the customer can be found from the memory of the electronic device after directly inputting the basic information into the electronic device. Tire storage location.

Although the present invention has been disclosed in the above embodiments, it is not intended to limit the present invention. Anyone skilled in the art can make various modifications and modifications without departing from the spirit and scope of the present invention. Therefore, the protection of the present invention is The scope shall be determined by the appended patent application scope.

S100, S101, S102, S103: steps

Claims (45)

A system for setting tire storage locations, including: A handheld mobile device used to input basic information related to a tire and store the tire in a tire storage location in a tire warehouse. The handheld mobile device at least includes a first circuit board, and a first circuit board is provided on the first circuit board. A chip module. The first chip module is electrically connected to and controls a power module, a memory, an operation module and a controller area network module. The controller area network module combines the basic The message and the tire storage location are transmitted outward; and A remote server that receives the tire storage location and basic information related to the tire transmitted by the handheld mobile device, and generates a message containing the tire storage location and the tire storage location on one of the handheld mobile device and the remote server. A list of messages for this basic message. The system for setting the tire storage position as described in item 1 of the patent application further includes a tire sensor. The tire sensor includes a storage module and a receiving module. The receiving module is electrically connected to the storage module. module, the tire sensor further includes a microprocessor control module, a power module, a transmission module and a detection module. The power module, transmission module, receiving module and detection module are all electrical Sexually connected microprocessor control module. As described in item 2 of the patent application, the system for setting the tire storage location further includes a radio frequency identification sticker and an information processing device. The chip module is electrically connected to and controls an RFID reader/writer. The radio frequency identification sticker is used for the RFID reader and writer on the handheld mobile device Directly reading the basic information related to the tire stored on the radio frequency identification sticker, the information processing device can transmit and receive data with the handheld mobile device and the remote server. The system for setting the tire storage position as described in item 2 of the patent application further includes a receiving device, the receiving device includes a display screen and a sound module, and the tire sensor transmits a tire pressure signal to the receiving device. Device, when the tire pressure value represented by the tire pressure signal is lower than a tire pressure threshold, the sound module emits a prompt sound, and the display screen displays the tire pressure value. The system for setting the tire storage location described in item 2 of the patent application further includes a second tire sensor, and the serial number of the tire sensor is transmitted to the second tire sensor through the handheld mobile device. For example, the system for setting the tire storage position as described in item 2 of the patent application scope, wherein after the handheld mobile device inputs the manufacturer, model and production year of a vehicle, the handheld mobile device stores a plurality of communication protocols from within In the database, a communication protocol is selected based on the entered manufacturer, model and production year, and the communication protocol is sent to the tire sensor to burn the communication protocol into the tire sensor. The system for setting the tire storage position as described in item 6 of the patent application, wherein the handheld mobile device sends a selection and activation signal to the tire sensor, and the tire sensor stores data from the tire sensor based on the selection and activation signal. Select a communication protocol from a plurality of communication protocols and activate the communication protocol. The system for setting the tire storage location as described in item 1 of the patent application scope, wherein when using the handheld mobile device to input basic tire-related information, a display module and an operation on the handheld mobile device are directly used. One of the modules directly inputs one of the license plate number, Vehicle Identification Number (VIN) or vehicle owner information, where the vehicle owner information is information sufficient to identify the vehicle owner. The system for setting the tire storage location as described in item 1 of the patent application, wherein the basic information of the tire is stored in a Radio Frequency Identification tag (RFID tag) installed on the tire or a tire On the sensor, when the handheld mobile device is used to input the basic tire information, an RFID reader/writer on the handheld mobile device directly reads the basic tire information stored on the radio frequency identification sticker or the tire sensor. As described in Item 9 of the patent application, the system for setting the tire storage location uses the operation module or a lens module on the handheld mobile device to input the serial number of the tire sensor, the serial number of the radio frequency identification sticker and the tire identification. One of the pieces of information is transmitted to a radio frequency identification sticker or tire sensor using the RFID reader/writer of the handheld mobile device. The system for setting the tire storage location as described in item 1 of the patent application scope, wherein when using the handheld mobile device to input the basic information, a lens module of the handheld mobile device is used to scan or take a photo to obtain the information on the tire. Text. The system for setting the tire storage position as described in item 1 of the patent application further includes a tire tread depth measuring tool for measuring the tire tread depth. or use a lens module of the handheld mobile device to scan or take a picture of the tire tread depth, transmit the measured tread depth or the scanned or photographed tread depth to the handheld mobile device, and then use the handheld mobile device to The device transmits the tread depth to the remote server. The system for setting the tire storage location as described in item 1 of the patent application scope, wherein after inputting the basic information, the handheld mobile device is then used to input the tire type, tire identification information, tire serial number, At least one of the location of the tire on the vehicle, the storage date and time of the tire, and the storage quantity of the tire, and transmit the data to the remote server. The system for setting the tire storage location as described in item 1 of the patent application scope, wherein after inputting the basic information, a lens module of the handheld mobile device is used to capture the appearance of the tire and transmit the image data to the remote server. The system for setting the tire storage position as described in item 1 of the patent application further includes a computer device. After the computer device is connected to the remote server or the handheld mobile device, the computer device obtains data from the remote server or the handheld mobile device. Access the list information on a handheld mobile device. The system for setting the tire storage position as described in item 1 of the patent application further includes a tire sensor triggering device, the tire sensor triggering device includes a second circuit board, and a second circuit board is provided on the second circuit board. chip module, the second chip module is electrically connected to and controls a second power module, an operation module, and a Bluetooth module, a low-frequency (125KHz) transceiver and a high-frequency (315MHz/433MHz) transceiver, operate the operation button to cause the low-frequency transceiver to transmit a 125KHz trigger signal to a tire sensor, and the high-frequency transceiver receives the The tire sensor returns a tire pressure signal, and the tire pressure signal includes an ID identification code of the tire sensor. The Bluetooth module is connected to the handheld mobile device and transmits the tire pressure signal to the handheld mobile device. As described in item 16 of the patent application, the system for setting the tire storage position, wherein the tire sensor triggering device further includes a controller area network (CANBUS) module, the controller area network module and a vehicle The computer is wired to transmit the ID from the tire sensor triggering device to the trip computer, so as to write the ID into a memory of the trip computer, or to read the ID of the tire sensor stored in the trip computer to the tire sensor. Trigger device. As described in item 16 of the patent application, the system for setting the tire storage position, wherein the first chip module is further connected to and controls a WIFI module, a second Bluetooth module, a lens module, and a display module. set, a controller area network (CANBUS) module, a USB module, a low-frequency (125KHz) transceiver, a high-frequency (315MHz/433MHz) transceiver and an RFID read-writer, the high-frequency (125KHz) transceiver 315MHz/433MHz) transceiver transmits the list information to a tire sensor to store the list information in a storage module of the tire sensor. As described in item 18 of the patent application, the system for setting the tire storage position, wherein the first chip module is further connected to and controls a buzzer and a vibration device When the list message is sent to the tire sensor, the buzzer sounds or the vibration device vibrates. As in the system for setting the tire storage location described in item 1 of the patent application, the first chip module is further connected to and controls a third Bluetooth module, and the third Bluetooth module sends the list message to a The tire sensor stores the list information in a second storage module of the tire sensor. As in the system for setting the tire storage position described in item 1 of the patent application, the first chip module is further connected to and controls a display module, and the handheld mobile device uses the display module and the operation module One of them is to manually input the tire storage location where the tire is stored in the tire warehouse into the handheld mobile device through manual input. A method of setting the tire storage location, including: Use a handheld mobile device to input basic tire-related information; Use the handheld mobile device to input the storage location of the tire in a tire warehouse; and Use the handheld mobile device to upload the basic information and the tire storage location to a remote server, and generate a list containing the tire storage location and the basic information on one of the handheld mobile device and the remote server. message. As described in item 22 of the patent application, the method of setting the tire storage location is wherein the basic information of the tire is stored on a Radio Frequency Identification tag (RFID tag) or a tire sensor provided on the tire. , when using a handheld mobile device to input basic tire information, the handheld mobile device An RFID reader/writer directly reads the basic tire information stored on the radio frequency identification sticker or tire sensor. For example, in the method of setting the tire storage location described in item 23 of the patent application, the basic information of the tire contains at least one of the following: tire manufacturer, tire ID, model, size or date of manufacture. For example, in the method of setting the tire storage location described in item 23 or 24 of the patent application, the radio frequency identification sticker is directly attached to the tire. For the method of setting the tire storage location described in item 23 or 24 of the patent application, the radio frequency identification sticker is set on a tire sensor (Tire Pressure Monitoring System sensor, TPMS sensor). As described in item 23 of the patent application, the method of setting a tire storage location uses an operation module or a display module on a handheld mobile device to input the ID of the tire sensor, the ID of the radio frequency identification sticker, and the tire identification information. One, and then use the RFID reader and writer on the handheld mobile device to transmit the information to the radio frequency identification sticker or tire sensor. For example, in the method of setting the tire storage location described in item 23 of the patent application, a lens module on a handheld mobile device is used to scan and input one of the ID of the tire sensor, the ID of the radio frequency identification sticker, and the tire identification information. Then use the RFID reader and writer on the handheld mobile device to transmit the information to the radio frequency identification sticker or tire sensor. As described in item 22 of the patent application, in the method of setting the tire storage position, when inputting basic tire information using a handheld mobile device, one of a display module and an operating module on the handheld mobile device is directly used. Enter one of the license plate number, Vehicle Identification Number (VIN) or vehicle owner information, where the vehicle owner information is information sufficient to identify the vehicle owner. As described in item 22 of the patent application, the method of setting the tire storage location is wherein when inputting tire-related information using a handheld mobile device, a lens module on the handheld mobile device is used to scan or take a photo to obtain the text on the tire. . For example, the method of setting the tire storage location as described in any one of items 22, 23, 29 or 30 of the patent application, wherein after inputting basic information, a handheld mobile device is then used to input tire types and tire identification information differentiated by season. , at least one of the serial number of the tire, the location of the tire on the vehicle, and the storage date and time of the tire, and transmit the data to the remote server. For example, the method of setting the tire storage location described in any of the 22, 23, 29 or 30 patent scope, wherein after inputting basic information, a camera module on a handheld mobile device is used to capture the appearance of the tire. and transmit the image data to the remote server. The method for setting the tire storage position as described in item 22 of the patent application, wherein the tire tread depth is measured or photographed using a tread depth measuring tool or a handheld mobile device, and then the measured or photographed tread pattern is The depth is transmitted to the handheld mobile device, and then the tread depth is transmitted to the remote server via the handheld mobile device. For example, in the method of setting the tire storage location described in item 22 of the patent application, after inputting the manufacturer, model and year of production of a vehicle using a handheld mobile device, the handheld mobile device then retrieves the data from the internal database of the handheld mobile device. Select a suitable communication protocol and send the communication protocol to a tire sensor to burn the communication protocol into the tire sensor. As described in item 34 of the patent application, the method for setting the tire storage position is in which the handheld mobile device sends a selection activation signal to a tire sensor, and the tire sensor selects one of the many communication protocols stored in its own memory. Appropriate communication protocol is enabled. As described in Item 22 of the patent application, a method for setting a tire storage position is provided, in which a handheld mobile device is used to input a trigger signal to a tire sensor, and the tire sensor returns the ID of the tire sensor to the handheld mobile device. As described in item 36 of the patent application, the method for setting the tire storage location includes displaying the location of the tire on the vehicle on a display module of the handheld mobile device, and inputting the brand, model or size of the tire. As described in Item 22 of the patent application, the method for setting the tire storage position includes using a display module or operation module of the handheld mobile device to input the ID of a tire sensor into the handheld mobile device. For example, in the method of setting the tire storage location described in item 36 or 38 of the patent application, after the handheld mobile device receives the ID transmitted from the tire sensor, the handheld mobile device transmits the ID of the tire sensor to a Second tire sensor. An electronic device with a program for setting tire storage positions, which includes: Provide selection interface means for an operator to click into the reservation interface, customer information interface, tire storage data search interface, etc. in a selection interface; The means for inputting basic tire information is used to input basic tire-related information in an input interface; The tire storage location input means is used to input the tire storage location where the tires are stored in a tire warehouse in the input interface; and The transmission means is used to transmit basic tire information and the tire storage location to a remote server. For example, the electronic device with a program for setting the tire storage location described in item 40 of the patent application further includes a printing means for selectively printing basic information related to the tire and data such as the tire storage location. An electronic device with a program for obtaining the tire storage location, which includes: Input means for inputting basic information related to the tire and storing the basic information in a memory of the electronic device; and The return transmission means is used to transmit the basic information to a remote server. The remote server stores list information related to the basic information, and returns the list information to use the list information to find the tire. The location where the tire is stored in the warehouse, or the location where the tire is stored in the warehouse is directly searched for in the memory of the electronic device. For example, in the electronic device with a program for obtaining the tire storage location as described in item 42 of the patent application, when inputting basic information related to the tire, the license plate number, vehicle identification number (VIN) or vehicle owner information is directly input. One, in which the car owner information is information sufficient to identify the car owner. A method to find the location of tires stored in a tire warehouse, including: Using a handheld mobile device to input basic information related to a tire and transmitting the basic information to a remote server; and Search the remote server for a list message of the location where a tire is stored in the warehouse related to the basic information, send the list message back to the handheld mobile device, and use the list message to find the location where the tire is stored. location in the warehouse. For example, in the method of finding the location of tires stored in a tire warehouse as described in item 44 of the patent application, when entering basic information related to the tires, the license plate number, vehicle identification number (VIN) or vehicle owner information is directly entered. One of them, the car owner information is enough to identify the car owner.

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