WO2017206358A1

WO2017206358A1 - Intelligent suitcase having remote unlocking and positioning functions

Info

Publication number: WO2017206358A1
Application number: PCT/CN2016/095045
Authority: WO
Inventors: 应佳伟; 谢洪波
Original assignee: 海宁滴滴箱包智能科技有限公司
Priority date: 2016-06-03
Filing date: 2016-08-12
Publication date: 2017-12-07
Also published as: CN106037200A

Abstract

An intelligent suitcase having remote unlocking and positioning functions, comprising a suitcase body (1) and a mobile control terminal (3). The suitcase body (1) is provided with an electronic combination lock (11), a microprocessor (12) connected to the electronic combination lock (11), and a GPS positioner (16) connected to the microprocessor (12); the mobile control terminal (3) comprises a controller (32) and a touch liquid crystal screen (35) connected to the controller (32); the microprocessor (12) implements data transmission with the controller (32) by means of remote wireless communication modules (14, 34); the GPS positioner (16) is used for acquiring location information of the suitcase body (1) and sending the location information of the suitcase body (1) to the controller (32) by means of the microprocessor (12); the touch liquid crystal screen (35) is used for a user to input operation information; the controller (32) is used for the microprocessor (12) to set an unlocking password of the electronic combination lock (11), or for controlling the microprocessor (12) to open the electronic combination lock (11) or displaying the location information acquired by the GPS positioner (16) on the touch liquid crystal screen (35). The intelligent suitcase implements real-time positioning, remote suitcase unlocking, and password setting for the suitcase.

Description

Smart luggage with remote unlocking and positioning

Technical field

The invention relates to the technical field of luggage, and in particular to a smart luggage with remote unlocking and positioning functions.

Background technique

When people travel, various suitcases become the first choice for people, and valuables are placed in the trunk. Ordinary suitcases are mostly protected by a combination lock to prevent theft of items in the trunk. The luggage in the prior art is inconvenient to find when it is lost. Even if the trunk is found, since the password lock of the luggage needs to manually input the unlocking password, the luggage owner cannot open the luggage when the luggage is not around the owner of the luggage. The luggage box inspects the contents of the luggage, and the owner of the luggage must entrust others to check whether the valuables in the luggage are lost, which may easily lead to password leakage and waste of manpower.

Summary of the invention

It is an object of the present invention to provide a smart case with remote unlocking and positioning functions to solve the above technical problems.

The embodiment of the invention provides a smart bag with a remote unlocking and positioning function, comprising a bag body and a mobile control terminal, wherein the bag body is provided with an electronic code lock, a microprocessor connected to the electronic code lock, and a a microprocessor-connected GPS locator and a first remote wireless communication module coupled to the microprocessor; the mobile control terminal includes a controller, coupled to the controller, and the first remote wireless communication module a second remote wireless communication module for wireless communication and a touch liquid crystal panel connected to the controller; the GPS locator is configured to acquire position information of the main body of the luggage box Sending, by the microprocessor, position information of the luggage body to the controller; the touch liquid crystal screen is configured to input operation information by a user, where the operation information includes an unlock password setting command, and the set unlocking a password, an unlocking command, an unlocking password, and a location information obtaining instruction, wherein the controller is configured to control, according to the operation information, the microprocessor to set an unlock password of the electronic password lock, or control the microprocessor to be turned on. The electronic code lock, or location information acquired by the GPS locator is displayed on the touch screen.

Further, the controller includes a password setting module and a control module connected to the password setting module, the microprocessor includes a processing module and a storage module connected to the processing module, and the password setting module The control module is configured to generate the unlock password setting command and the set unlock password, and the control module receives the unlock password setting command and the set unlock password and controls the processing module to store the set unlock password In the storage module.

Further, the password setting module is displayed in the form of an identifier on the touch screen.

Further, the controller further includes an unlocking module connected to the control module, the unlocking module is configured to generate the unlocking instruction and the unlocking password, and the control module receives the unlocking instruction and the unlocking password And transmitting the unlocking command and the unlocking password to the processing module, the processing module determining whether the unlocking password matches a set unlocking password stored in the storage module, and matching the two The processing module turns on the electronic code lock.

Further, the unlocking module is displayed in the form of an identifier on the touch screen.

Further, the GPS locator is connected to the processing module, the processing module stores location information acquired by the GPS locator in the storage module, and the controller further includes a connection with the control module. a location information acquisition module, the location information acquisition module is configured to generate a location information acquisition instruction, and the control module, after receiving the location information acquisition instruction, controls the processing module to feed back location information in the storage module to the touch Control the LCD display.

Further, the location information acquisition module is displayed in the form of an identifier on the touch screen.

Further, data transmission is performed between the control module and the processing module by using the first remote wireless communication module and the second remote wireless communication module.

Further, the first remote wireless communication module and the second remote wireless communication module are one of a wifi wireless communication module, a zigbee communication module, and a GPRS communication module.

Compared with the prior art, the smart bag with remote unlocking and positioning function of the present invention sets the unlocking password of the electronic code lock on the main body of the bag through the remote control end, and remotely controls the opening of the electronic code lock; The smart bag uses the GPS receiver to locate the position information of the bag body in real time and sends the position information to the remote control end, realizing real-time monitoring of the bag body, which is convenient for the user to find the position of the bag.

DRAWINGS

FIG. 1 is a schematic structural view of a smart luggage bag with remote unlocking and positioning functions according to the present invention.

2 is a schematic block diagram of a smart luggage with remote unlocking and positioning functions according to the present invention.

3 is a schematic block diagram of the microprocessor of FIG. 2.

4 is a schematic block diagram of the controller of FIG. 2.

FIG. 5 is a schematic block diagram of the RF signal transmitter of FIG.

6 is a schematic block diagram of the RF signal feedback device of FIG. 2.

The invention will be further illustrated by the following detailed description in conjunction with the accompanying drawings.

detailed description

The technical solutions provided by the present invention will be further described below with reference to the accompanying drawings.

Referring to FIG. 1 and FIG. 2, an embodiment of the present invention provides a smart luggage package with a remote unlocking and positioning function, including a luggage main body 1 and a mobile control terminal 3.

The luggage main body 1 is provided with an electronic code lock 11, a microprocessor 12, a first Bluetooth communication module 13, a first remote wireless communication module 14, a weight sensor 15, and a handle 10 connected to the weight sensor 15. The electronic code lock 11, the first Bluetooth communication module 13, the first remote wireless communication module 14, and the weight sensor 15 are all connected to the microprocessor 12.

The mobile control terminal 3 is, for example, a personal mobile smart phone, and includes a controller 32, a second Bluetooth communication module 33, a second remote wireless communication module 34, and a touch LCD panel 35, a second Bluetooth communication module 33, and a second remote wireless communication module. Both the 34 and the touch panel 35 are connected to the controller 32. The second Bluetooth communication module 33 is wirelessly connected to the first Bluetooth communication module 13 one-to-one, and the first remote wireless communication module 14 is wirelessly connected to the second remote wireless communication module 34 one-to-one.

It can be understood that the wireless connection is implemented between the controller 32 and the microprocessor 12 through two Bluetooth communication modules and two remote wireless communication modules, and the luggage main body 1 and the mobile control terminal 3 are respectively provided with a network communication selection module. When two Bluetooth communication modules can be normally connected, the mode of Bluetooth communication is preferentially selected for data transmission; when two Bluetooth communication modules cannot be normally connected, data transmission is performed by two remote wireless communication modules. It should be noted that the data transmission using the Bluetooth communication module is generally applied to short-distance data transmission. The so-called close-range data transmission means that the distance between the luggage main body 1 and the mobile control terminal 3 is 0-100 meters. The distance is the effective connection distance between the two Bluetooth modules. In the case of short-distance data transmission, the data transmission using the Bluetooth communication module can ensure the data transmission speed between the luggage main body 1 and the mobile control terminal 3 is fast, and the network resources can be saved. Of course, in other embodiments, the Bluetooth communication module may not be disposed on the luggage main body 1 and the mobile control terminal 3, and data transmission is performed only through two remote wireless communication modules.

The touch screen 35 is used for the user to input operation information, and the controller 32 operates according to the user input. The instructions control the microprocessor 12 to perform corresponding operations. In this embodiment, the user inputs the unlock password setting command and the input unlock password by using the touch panel 35, and the controller 32 controls the microprocessor 12 to set the unlock password of the electronic password lock 11; for example, the user The controller 32 controls the microprocessor 12 to turn on the electronic code lock 11 by inputting an unlock command and inputting an unlock code through the touch panel 35.

The weight sensor 15 is configured to sense the weight information of the luggage body 1 and is sent to the controller 32 through the microprocessor 12. The operation information input by the user further includes a weight information acquisition command, and the controller 32 inputs the weight information through the touch liquid crystal panel 35. The weight information is displayed on the touch liquid crystal panel 35 when the command is acquired, so that the user can know the weight of the luggage body 1. Specifically, the user senses the weight sensor 15 to sense the weight information of the luggage body 1 by operating the handle 10.

Specifically, in conjunction with FIG. 3 and FIG. 4, in the embodiment, the controller 32 includes a password setting module 320 and a control module 321 connected to the password setting module 320. The microprocessor 12 includes a processing module 120 and The storage module 121 connected to the processing module 120, the password setting module 320 is displayed on the touch liquid crystal panel 35 in the form of an identifier, and when the user inputs the unlock password setting command through the liquid crystal touch screen 35 and inputs the set unlock password, The password setting module 320 is configured to generate an unlock password setting command and a set unlock password, the control module 321 receives the unlock password setting command and the set unlock password, and the control processing module 120 stores the set unlock password in the storage module. 121. It should be noted that the password setting module 320 is configured to generate an unlock password setting command and a set unlock password, and refers to generating digital information corresponding to the unlock password setting command and the set unlock password.

The specific principle of the user setting the unlock password is as follows: the user first clicks on the identifier of the password setting module 320 on the touch screen 35, and generates an unlock password setting command after the password setting module 320 is clicked, and the control module 321 receives the After the unlocking password setting command is executed, the control password setting module 320 is further displayed on the touch liquid crystal panel 35 in the form of an input interface, and the control module 321 sends the unlocking password setting command to the processing module 120, and the user passes the touch liquid crystal panel 35. Enter settings on the input screen The unlocking password, the password setting module 320 generates the set unlocking password, the control module 321 receives the set unlocking password and sends the set unlocking password to the processing module 120, and the processing module 120 stores the set unlocking password in the storage. Module 121, it can be understood that at this time, the processing module 120 overwrites the unlock password previously stored in the storage module 121.

In this embodiment, the controller 32 further includes an unlocking module 323 connected to the control module 321 . The unlocking module 323 is displayed on the touch liquid crystal screen 35 in the form of an identifier, and the user inputs an unlocking command through the touch liquid crystal panel 35 . When the password is unlocked, the unlocking module 323 generates an unlocking command and an unlocking password, and the control module 321 receives the unlocking command and the unlocking password and controls the processing module 120 to turn on the electronic password lock 11. It should be noted that the unlocking module 323 generates an unlocking command and an unlocking password, and refers to generating digital information corresponding to the unlocking command and the unlocking password.

Specifically, the specific principle of the user turning on the electronic code lock 11 is as follows: the user first clicks on the identifier of the unlocking module 323 on the touch liquid crystal panel 35. After the unlocking module 323 is clicked, the unlocking module 323 generates an unlocking command, and the control module 321 receives After the unlocking command, the control unlocking module 323 is further displayed on the touch liquid crystal panel 35 in the form of an input interface, and the control module 321 sends the unlocking command to the processing module 120, and the user inputs the unlocking password on the input interface through the touch liquid crystal panel 35. The unlocking module 323 further generates an unlocking password, and the control module 321 receives the unlocking password and sends the unlocking password to the processing module 120. The processing module 120 determines whether the received unlocking password is the same as the unlocking password stored in the storage module 121. When the same is the case, the processing module 120 turns on the electronic code lock 11.

The controller 32 further includes a weight information acquiring module 324 connected to the control module 321 . The weight information of the bag body 1 sensed by the weight sensor 15 stores the weight information in the storage module 121 through the processing module 120, and the weight information acquiring module 324 identifies The form of the symbol is displayed on the touch liquid crystal panel 35, and the weight information acquisition mode is obtained when the user inputs the weight information instruction through the touch liquid crystal screen 35. The block 324 is configured to generate a weight information acquisition instruction, and the control module 321 displays the weight information stored in the storage module 121 on the touch liquid crystal panel 35 when receiving the weight information acquisition instruction. The weight information acquisition module 324 is configured to generate a weight information acquisition instruction, which is to generate digital information corresponding to the weight information acquisition instruction. It can be understood that when the processing module 120 stores the weight information in the storage module 121, the weight information stored in the storage module 121 is overwritten.

The specific principle of the user obtaining the weight information of the bag body 1 is as follows: the user first clicks on the identifier of the weight information acquiring module 324 on the touch screen 35, and after the weight information acquiring module 324 is clicked, the weight information acquiring module 324 generates the weight information. After the control module 321 receives the weight information acquisition command, the control weight information acquisition module 324 further displays on the touch liquid crystal panel 35 in the form of a weight information display interface, and the control module 321 controls the weight of the processing module 120 in the storage module 121. After the information is fed back, the control module 321 displays the weight information in the touch liquid crystal panel 35.

In the embodiment, the radio frequency signal transmitter 21 and the alarm 22 are both connected to the microprocessor 12, and the mobile control terminal 3 is further provided with a radio frequency signal feedback device 36. The radio frequency signal transmitter 21 is used. The microprocessor 12 stores the set anti-drop distance and is used to transmit the electromagnetic wave signal and receive the feedback signal of the RF signal feedback device 36 and calculate the actual distance between the RF signal transmitter 21 and the RF signal feedback device 36 according to the feedback signal. When it is judged that the actual distance is greater than the set anti-lost distance, the alarm device 22 is turned on to remind the user that the luggage main body 1 has exceeded the set anti-lost distance. Specifically, the storage module 121 of the microprocessor 12 stores the set anti-lost distance, and the processing module 120 is configured to receive the actual distance and determine whether the actual distance is greater than the set anti-lost distance, and the processing module 120 determines that the actual distance is greater than When the set anti-lost distance is set, the alarm 22 is turned on.

In this embodiment, the controller 32 further includes a distance setting module 325 connected to the control module 321 , and the operation information input by the user through the touch liquid crystal screen 35 further includes an anti-lost distance setting command and setting. The anti-lost distance setting command 325 is used to generate the anti-lost distance setting command and the set anti-lost distance when the user inputs the anti-lost distance setting command and the set anti-lost distance through the touch panel 35. The control module 321 receives the anti-lost distance setting command and the set anti-drop distance and the control processing module 120 stores the set anti-lost distance in the storage module 121. It should be noted that the distance setting module 325 generates the anti-lost distance setting command and the set anti-lost distance, and refers to the digital information corresponding to the anti-lost distance setting command and the set anti-lost distance.

Specifically, the specific principle of the user setting the anti-lost distance is as follows: the user first clicks the identifier of the representative distance setting module 325 on the touch screen 35, and generates an anti-lost distance setting command after the distance setting module 325 is clicked. After the control module 321 receives the anti-lost distance setting command, the control distance setting module 325 further displays on the touch liquid crystal panel 35 in the form of an input interface, and the control module 321 sends the anti-lost distance setting command to the processing module 120. The user inputs the set anti-lost distance on the input interface through the touch screen 35, the distance setting module 325 generates the set anti-lost distance, and the control module 321 receives the set anti-lost distance and sets the anti-lost distance. The processing module 120 sends the set anti-drop distance to the storage module 121. It can be understood that the processing module 120 will overwrite the previously stored set anti-lost distance.

Further, in the embodiment, the luggage body 1 is further provided with a GPS locator 16 connected to the microprocessor 12. When the microprocessor 12 determines that the actual distance is greater than the anti-lost distance, the microprocessor 12 turns on the GPS positioning. And acquiring the position information of the bag body 1 through the GPS locator 16 and transmitting the acquired position information of the bag body 1 to the controller 32, and the controller 32 indicates the position of the bag body 1 on the touch liquid crystal panel 35. Out so that the user can accurately know the location of the bag. Specifically, the GPS locator 16 is connected to the processing module 120. The processing module 120 first stores the location information acquired by the GPS locator 16 in the storage module 121. The controller 32 further includes a location information acquiring module 326 connected to the control module 321 . The location information obtaining module 326 is shown on the touch screen 35, the user The operation information input through the touch panel 35 further includes a location information acquisition instruction, the location information acquisition module 326 is configured to generate a location information acquisition instruction, and the control module 321 receives the location information acquisition instruction, and the control processing module 120 determines the location in the storage module 121. The information is fed back to the touch screen 35 for display. It should be noted that the location information acquisition module 326 is configured to generate a location information acquisition instruction, which is the digital information corresponding to the location information acquisition instruction. The processing module 120 stores the location information in the storage module 121 when the location information is stored in the storage module 121. The location information stored first is overwritten.

The principle of the user obtaining the location information of the main body 1 of the luggage is as follows:

After the user finds that the main body 1 of the luggage bag is lost, the user first clicks the identifier of the location information acquiring module 326 on the touch panel 35, generates a location information obtaining instruction after the location information acquiring module 326 is clicked, and the control module 321 receives the location information. After the command, the control signal is output to the processing module 120, and the processing module 120 transmits the location information stored in the storage module 121 to the control module 321, and then the control module 321 displays the location information transmitted by the processing module 120 on the touch liquid crystal panel 35. .

Specifically, in the embodiment, a power module is further disposed in the main body 1 of the bag, and the power module is configured to be disposed in the main body 1 of the bag for the microprocessor 12, the radio frequency signal transmitter 21, the GPS locator 16, and the wireless communication module. The power supply device is powered by an electronic switch connected between the power module and the GPS positioner 16. The control end of the electronic switch is connected to the microprocessor 12. The microprocessor 12 determines the actual distance to be greater than the anti-lost distance. Closing causes the GPS locator 16 to determine the position information of the luggage body 1 and transmits the position information of the luggage body 1 to the microprocessor 12 for energy saving purposes. Of course, in other embodiments, the GPS locator 16 can continuously obtain the location information of the luggage body 1, that is, the location information of the luggage body 1 is sent to the mobile control terminal 3 in real time, and the user can operate when searching for the location of the luggage body 1. The position information acquisition module 326 in the controller 32 acquires the position information of the luggage body 1.

It should be noted that, in the foregoing embodiment, the first Bluetooth communication module 13 and the first remote wireless The communication modules 14 are all connected to the processing module 120, and the second Bluetooth communication module 33 and the second remote wireless communication module 34 are both connected to the control module 321. The control module 321 and the processing module 120 transmit data through Bluetooth when the first Bluetooth communication module 13 and the second Bluetooth communication module 33 are normally connected; the control module 321 and the processing module 120 are in the first Bluetooth communication module 13 and the second Bluetooth communication module. 33 When it is unable to connect, data transmission is performed through two remote wireless communication modules.

Referring to FIG. 5, the RF signal transmitter 21 includes a first signal transceiver module 210 and a distance calculation module 212 connected to the signal receiving module 210. The first signal transceiver module 210 is configured to send electromagnetic waves to the RF signal feedback device 36. The signal and the feedback signal sent by the RF signal feedback device 36 are used; the distance calculation module 212 is configured to calculate the actual distance between the RF signal transmitter 21 and the RF signal feedback device 36 according to the feedback signal and send the actual distance to the microprocessor 12. The calculation module 212 calculates the actual distance. The specific principle is that the RF signal transmitter 21 sends an electromagnetic wave signal to the RF signal feedback device 36. After receiving the electromagnetic wave signal, the RF signal feedback device 36 transmits a feedback signal to the RF signal transmitter 21, and the calculation module 212 is The actual distance is calculated by the time difference between the electromagnetic wave signal transmitter 21 and the received feedback signal.

Referring to FIG. 6, in the embodiment, the RF signal feedback device 36 includes a second signal transceiver module 361 and a feedback signal generation module 362 connected to the second signal transceiver module 361. The second signal transceiver module 361 is configured to receive The electromagnetic wave signal sent by the RF signal transmitter 21 and the feedback signal are sent to the RF signal transmitter 21; the feedback signal generating module 362 is configured to generate a feedback signal and transmit the feedback information to the second signal transceiver module 361.

In this embodiment, the first Bluetooth communication module 13 and the second Bluetooth communication module 33 both adopt a 4.0 Bluetooth unit to ensure that signals can be transmitted between the two Bluetooth communication modules in a low-power Bluetooth penetration manner.

In this embodiment, the first remote wireless communication module 14 and the second remote wireless communication module 34 It is one of the wifi wireless communication module, the zigbee communication module and the GPRS communication module, so that the mobile control terminal 3 can remotely control the luggage main body 1.

In the present embodiment, the top end and the bottom end of the main body 1 of the luggage body 1 are respectively provided with a tie rod 17 and a roller 18 to facilitate the user to pull the main body 1 of the luggage.

In the present embodiment, the alarm 22 is a buzzer alarm, and the alarm 22 can beep to raise the owner of the package when the alarm is issued.

The mobile control terminal 3 has, for example, an APP software installed therein, and the APP software has a password setting function, an unlocking function, a weight information acquiring function, a distance setting function, and a position information acquiring function, so that the mobile control terminal 3 has a password setting function, an unlocking function, and The weight information acquisition function, the distance setting function, and the position information acquisition function, in other words, the password setting module 320 of the controller 32, the unlocking module 323, the weight information acquiring module 324, the distance setting module 325, and the position information acquisition The module 326 is formed by, for example, APP software division. The password setting module 320, the unlocking module 323, the weight information acquiring module 324, the distance setting module 325, and the location information acquiring module 326 will be on the operation interface of the APP software with a specific identifier. The user can first open the APP software when the operation information is input through the touch panel 35. The operation interface of the APP software is displayed on the touch screen 35, and then the user can complete various operations by clicking a specific identifier. Input of information.

The smart bag with remote unlocking and positioning function of the invention sets the unlocking password of the electronic code lock 11 on the main body of the bag through the mobile control terminal 3, and remotely controls the opening of the electronic code lock 11; in addition, the smart bag passes the GPS The locator 16 locates the location information of the luggage body in real time and transmits the location information to the mobile control terminal 3, realizing real-time monitoring of the luggage main body, and facilitating the user to find the location of the luggage.

The above description of the embodiments is merely to assist in understanding the method of the present invention and its core idea. It should be noted that those skilled in the art will be able to devote themselves to the principles of the present invention without departing from the principles of the invention. A number of modifications and variations of the present invention are possible, and such modifications and modifications are also intended to fall within the scope of the appended claims.

The above description of the disclosed embodiments enables those skilled in the art to make or use the invention. Various modifications to these embodiments are obvious to those skilled in the art, and the general principles defined herein may be implemented in other embodiments without departing from the spirit or scope of the invention. Therefore, the present invention is not to be limited to the embodiments shown herein, but the scope of the invention is to be accorded

Claims

A smart case with a remote unlocking and positioning function, comprising: a bag body (1) and a mobile control terminal (3), the bag body (1) is provided with an electronic code lock (11), and the a microprocessor (12) connected to the electronic code lock (11), a GPS locator (16) connected to the microprocessor (12), and a first remote wireless communication module connected to the microprocessor (12) (14); the mobile control terminal (3) includes a controller (32), a second remote wireless communication module connected to the controller (32) and in wireless communication with the first remote wireless communication module (14) (34) and a touch liquid crystal screen (35) connected to the controller (32); the GPS locator (16) is configured to acquire position information of the luggage body (1) and pass the microprocessor (12) transmitting location information of the bag body (1) to the controller (32); the touch screen (35) is configured for the user to input operation information, and the operation information includes an unlock password setting An instruction, a set unlock password, an unlock command, an unlock password, and a location information acquisition instruction, wherein the controller (32) is configured to control according to the operation information The microprocessor (12) sets an unlock password of the electronic code lock (11), or controls the microprocessor (12) to open the electronic code lock (11), or locate the GPS The location information acquired by the device (16) is displayed on the touch liquid crystal panel (35).
The smart luggage with remote unlocking and positioning function according to claim 1, wherein the controller (32) comprises a password setting module (320) and a control connected to the password setting module (320) a module (321), the microprocessor (12) includes a processing module (120) and a storage module (121) connected to the processing module (120), the password setting module (320) is configured to generate the The unlocking password setting command and the set unlocking password, the control module (321) receiving the unlocking password setting command and the set unlocking password and controlling the processing module (120) to set the unlocking password. Stored in the storage module (121).
The smart case with remote unlocking and positioning function according to claim 2, wherein the password setting module (320) is displayed in the touch screen (35) in the form of an identifier.
The smart case with remote unlocking and positioning function according to claim 2, wherein the controller (32) further comprises an unlocking module (323) connected to the control module (321), the unlocking module (323) for generating the unlocking instruction and the unlocking password, the control module (321) receiving the unlocking instruction and the unlocking password, and transmitting the unlocking instruction and the unlocking password to the processing module (120), the processing module (120) determines whether the unlock password and the set unlock password stored in the storage module (121) match, and when the two match, the processing module (120) ) Turn on the electronic password lock (11).
The smart case with remote unlocking and positioning function according to claim 4, wherein the unlocking module (323) is displayed in the touch screen (35) in the form of an identifier.
The smart case with remote unlocking and positioning function according to claim 2, wherein the GPS locator (16) is connected to the processing module (120), and the processing module (120) uses the GPS The location information acquired by the locator (16) is stored in the storage module (121), and the controller (32) further includes a location information acquisition module (326) connected to the control module (321), the location The information acquisition module (326) is configured to generate a location information acquisition instruction, and the control module (321) controls the processing module (120) to feedback the location information in the storage module (121) after receiving the location information acquisition instruction. Displayed on the touch screen (35).
The smart case with remote unlocking and positioning function according to claim 6, wherein the position information acquiring module (326) is displayed in the form of an identifier on the touch liquid crystal screen (35).
The smart case with remote unlocking and positioning function according to claim 2, wherein the first remote wireless communication module (14) is passed between the control module (321) and the processing module (120) Data transmission is performed with the second remote wireless communication module (34).
The smart luggage with remote unlocking and positioning function according to claim 1, characterized in that The first remote wireless communication module (14) and the second remote wireless communication module (34) are one of a wifi wireless communication module, a zigbee communication module, and a GPRS communication module.