CN114677788A - Equipment activation method, intelligent lock, mobile terminal and activation system - Google Patents

Abstract

The invention relates to the field of electronic equipment, in particular to an equipment activation method, an intelligent lock, a mobile terminal and an activation system. A device activation method, comprising: acquiring equipment information through a first preset mode; acquiring a first activation code from a server based on the equipment information; and transmitting the first activation code to the equipment in a second preset mode so as to enable the equipment to activate the equipment based on the first activation code. The mobile terminal acquires equipment information of the equipment in a first preset mode, further acquires a corresponding first activation code from the server side, and transmits the first activation code to the equipment, so that the equipment can be activated, and the mobile terminal is used as a medium, so that the activation safety is high, and the activation is convenient; the equipment terminal only needs to display the equipment information externally through a first preset mode, and then receives a first activation code transmitted by the mobile terminal, so that equipment activation can be achieved quickly, and the equipment terminal is convenient and fast to use.

Description

Equipment activation method, intelligent lock, mobile terminal and activation system

Technical Field

The invention relates to the field of electronic equipment, in particular to an equipment activation method, an intelligent lock, a mobile terminal and an activation system.

Background

With the development of the internet of things technology, smart homes gradually enter the daily life of people. The applications of intelligent electrical appliances, intelligent monitoring, intelligent elevators, intelligent locks and the like are increasingly wide.

At present, the safety factor of the activation of the intelligent lock is not high, the intelligent lock can be easily used by bypassing the activation step, or the activation can be realized after the equipment parameters of the intelligent lock are obtained by using a technical means, the benefits of manufacturers are seriously damaged, and meanwhile, the safety performance of the lock is greatly reduced.

Disclosure of Invention

In view of the foregoing disadvantages of the prior art, an object of the present invention is to provide an apparatus activation method, an intelligent lock, a mobile terminal, and an activation system, which can implement secure activation of the intelligent lock.

In order to achieve the purpose, the invention adopts the following technical scheme:

in one aspect, the present invention provides a device activation method, including:

acquiring equipment information in a first preset mode;

acquiring a first activation code from a server based on the equipment information;

and transmitting the first activation code to the equipment in a second preset mode so as to enable the equipment to activate the equipment based on the first activation code.

Further, in the device activation method, the device activation specifically includes:

Acquiring a unique identification code of the equipment;

generating a second activation code based on the unique identification code;

and when the first activation code is the same as the second activation code, generating an activation success file.

Further, in the device activation method, the generating process of the second activate code includes: encrypting the unique identification code to obtain a ciphertext, and performing digital conversion on the ciphertext to obtain the second activation code;

the first preset mode comprises code scanning acquisition and short-distance wireless data reading;

the second preset mode comprises a wireless transmission mode and a manual input mode.

In another aspect, the present invention further provides an intelligent lock using any one of the foregoing device activation methods, including:

the information module is used for outputting equipment information to the outside in a first preset mode;

the first processing module is used for receiving a first activation code transmitted by the mobile terminal through a second preset mode and activating equipment based on the first activation code so as to enable the intelligent lock to normally operate; the mobile terminal acquires equipment information through a first preset mode and acquires the first activation code from a server side based on the equipment information.

Furthermore, the intelligent lock also comprises a communication module, wherein the communication module is provided with a unique identification code;

the first processing module is further configured to:

acquiring a unique identification code of the equipment;

generating a second activation code based on the unique identification code;

and when the first activation code is the same as the second activation code, generating an activation success file.

Furthermore, the intelligence lock, the communication module includes bluetooth module, wiFi module.

Furthermore, the intelligent lock further comprises a proximity sensing module, which is connected with the first processing module and used for realizing human body detection and generating a human body detection signal;

the first processing module is further used for driving the intelligent lock to respond after receiving the human body detection signal.

Further, the smart lock, the proximity sensing module includes: the intelligent lock comprises a first sensing unit for detecting a first human body detection signal at one side end of the intelligent lock, and a second sensing unit for detecting a second human body detection signal at the other side end of the intelligent lock;

the first processing module is further configured to activate a corresponding side end of the smart lock after receiving the first human detection signal or the second human detection signal.

In another aspect, the present invention further provides a mobile terminal, including:

the interaction module is used for acquiring equipment information in a first preset mode;

the second processing module is used for acquiring a first activation code from the server based on the equipment information; and transmitting the first activation code to the equipment through a second preset mode so that the equipment activates the equipment based on the first activation code.

In another aspect, the present invention further provides an intelligent lock activation system, including:

the mobile terminal is used for acquiring equipment information in a first preset mode; acquiring a first activation code from a server based on the equipment information and transmitting the first activation code to the intelligent lock in a second preset mode;

and the intelligent lock receives the first activation code and activates the equipment based on the first activation code.

Compared with the prior art, the equipment activation method, the intelligent lock, the mobile terminal and the activation system provided by the invention have the following beneficial effects:

by using the equipment activation method provided by the invention, the mobile terminal acquires the equipment information of the equipment through the first preset mode, further acquires the corresponding first activation code from the server side, and transmits the first activation code to the equipment, so that the equipment activation operation can be completed, and the mobile terminal is used as a medium, so that the activation safety is higher, and the activation is more convenient; the equipment terminal only needs to display the equipment information externally through a first preset mode, and then receives a first activation code transmitted by the mobile terminal, so that equipment activation can be achieved quickly, and the equipment terminal is convenient and fast to use.

Drawings

FIG. 1 is a flow chart of a method for device activation provided by the present invention;

FIG. 2 is a block diagram of the structure of the intelligent lock provided by the present invention;

FIG. 3 is a flow chart of the operation of the smart lock provided by the present invention;

fig. 4 is a block diagram of the intelligent lock activation system provided by the present invention.

Detailed Description

In order to make the objects, technical solutions and effects of the present invention clearer and clearer, the present invention is further described in detail below with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It is to be understood by those skilled in the art that the foregoing general description and the following detailed description are exemplary and explanatory of specific embodiments of the invention, and are not intended to limit the invention.

The terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process or method that comprises a list of steps does not include only those steps, but may include other steps not expressly listed or inherent to such process or method. Also, without further limitation, one or more devices or subsystems, elements or structures or components beginning with "comprise. The appearances of the phrases "in one embodiment," "in another embodiment," and similar language throughout this specification may, but do not necessarily, all refer to the same embodiment.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.

Referring to fig. 1, the present invention provides a device activation method, which is applied to a mobile terminal, and more particularly, to a mobile terminal that participates in activation of an electronic device that needs to be activated to be normally used when the electronic device needs to be activated. This mobile device has selected to have networking function, scanning function or NFC function etc. can load computer program APP operation to realize the function that corresponds, for example in this implementation, need the mobile device can download cell-phone APP, and the installation operation has the function of making a video recording simultaneously, can the two-dimensional code information on the scanning equipment, and communicate the interaction with the server.

The equipment activation method comprises the following steps:

s1, acquiring equipment information in a first preset mode; specifically, the first predetermined mode is preferably code scanning acquisition, NFC data reading, or RFID scanning acquisition, and it is understood that, in order to ensure data security, the first predetermined mode is preferably a close-range data acquisition mode. Of course, the corresponding mobile terminal needs to have the corresponding function, which is not described herein again.

Preferably, the device information includes warehousing time, a serial number, a product model, a physical address MAC, and the like, and can display a specific identifier of the device.

S2, acquiring a first activation code from the server based on the equipment information; specifically, the mobile terminal communicates with a server, the obtained device information is sent to the server, and the server matches the device information to obtain a first activation code corresponding to the device and transmits the first activation code to the mobile terminal. The server side comprises a server, an IOT cloud platform, a cloud side and the like.

Further, the first activation code is directly stored in the server in the form of a specific character string (for example, if the first activation code is 123456, the content stored in the server is 123456), and the matching manner may be direct matching according to the device information, or matching according to the following manner: the server stores the device information data of the device in the server in a first preset mode, for example, the first preset mode is code scanning acquisition, the corresponding two-dimensional code image is stored in the server and stored according to the corresponding association relation, after the server receives the device information, the server reads the data of the two-dimensional code image to obtain the stored device information, compares the two device information, judges that the information is correct if the two device information are the same, and sends the corresponding first activation code to the mobile terminal; otherwise, the information is incorrect, and the first activation code is not fed back.

In some embodiments, the first activation code is obtained through calculation, that is, after receiving device information sent by the mobile terminal, the device information is calculated through a predetermined algorithm to obtain the first activation code, and then the first activation code is sent to the mobile terminal (the mobile terminal does not participate in calculation, so that data security is ensured). For example, if the first predetermined mode is code scanning acquisition, the device is pasted with a two-dimensional code image capable of reading the MAC address of the device, and the two-dimensional code image is uploaded to the server when the device leaves the factory; and after receiving the equipment information sent by the mobile terminal, the server side performs matching to obtain a corresponding two-dimensional code image, obtains the MAC address of the equipment through the two-dimensional code image, and then calculates by using a preset algorithm to obtain the first activation code.

Further, the specific process of calculating the device information through the predetermined algorithm to obtain the first activate code is as follows: firstly, equipment information is encrypted through an encryption method such as an AES algorithm to obtain a ciphertext, the ciphertext is digitally converted to obtain a first activation code, and the digital conversion method can be a verification method specifically, for example, an exclusive or verification method.

And S3, transmitting the first release code to the equipment in a second preset mode so that the equipment activates the equipment based on the first release code. Preferably, the second predetermined mode includes WiFi data transmission, bluetooth data transmission, zigbee data transmission, manual entry, and the like. The manual entry is to directly input the first activation code on the device, for example, after the mobile terminal scans a two-dimensional code image on the device, the first activation code obtained through the server is 23456, and then the 23456 is manually input into the device through a keypad on the device for activation.

By using the equipment activation method provided by the invention, the mobile terminal acquires the equipment information of the equipment through the first preset mode, further acquires the corresponding first activation code from the server side, and transmits the first activation code to the equipment, so that the equipment activation operation can be completed, and the mobile terminal is used as a medium, so that the activation safety is higher, and the activation is more convenient; the equipment terminal only needs to display the equipment information externally through a first preset mode, and then receives a first activation code transmitted by the mobile terminal, so that equipment activation can be achieved quickly, and the equipment terminal is convenient and fast to use.

Further, the device, when participating in activation, performs the steps of:

receiving a first activation code transmitted by the mobile terminal through a second preset mode, and activating equipment based on the first activation code; the mobile terminal acquires the equipment information through a first preset mode, and further acquires a first activation code corresponding to the equipment information from the server.

Further, as a preferred scheme, in this embodiment, the device activation specifically includes:

acquiring a unique identification code of the equipment; specifically, each electronic device has a unique identification code, and a physical MAC address of a communication module in the device may also be used, for example, each WiFi module or bluetooth module of the smart lock has a globally unique MAC address.

Generating a second activation code based on the unique identification code; specifically, the process of generating the second activation code by using the unique identification code is not limited, and in this embodiment, after the unique identification code is encrypted by using an AES algorithm, the number is converted into the second activation code. For example, the main control of the intelligent lock is powered on to obtain the MAC address of the WiFi module, the MAC plaintext is encrypted into an AES ciphertext through AES, and the ciphertext is subjected to digital conversion, for example, XOR check, to obtain an 8-bit second activation code.

And when the first activation code is the same as the second activation code, generating an activation success file. And if the first activation code is different from the second activation code, not generating an activation success file or generating an activation failure file. In the using process of the equipment, whether the activation success file exists in the equipment at one time or not is detected every time the equipment is powered on or activated, if yes, the equipment system is normally activated to operate, and if not, the external prompt needs to be activated.

Further, the activation success file may include an aging date, that is, a time range in which the device is guaranteed to be in the activated state, and a time range out of which the device is in the inactivated state.

Specifically, the activation code only exists in the server and the device, and the user must be registered to obtain the device information by scanning the two-dimensional code and obtain the activation code through the server, so that the security is high.

Further, as a preferred solution, in this embodiment, the generating process of the second activate code includes: encrypting the unique identification code to obtain a ciphertext, and performing digital conversion on the ciphertext to obtain the second activation code; preferably, in the encryption process, the encryption algorithm used is the AES algorithm. It should be understood that in practical applications, those skilled in the art may also use other similar AES algorithms for the encryption process.

The first preset mode comprises code scanning acquisition and short-distance wireless data reading; preferably, the close range wireless data reading comprises NFC data reading.

The second preset mode comprises a wireless transmission mode and a manual input mode. Preferably, the wireless transmission mode includes bluetooth data transmission and WiFi data transmission.

Referring to fig. 2-3, the present invention further provides an intelligent lock using the device activation method according to any of the foregoing embodiments, including:

the information module is used for outputting equipment information to the outside in a first preset mode; specifically, the application scenario of the information module includes that the two-dimensional code is posted at a certain position of the device, or the NFC module is used to record corresponding device information, and the like.

The first processing module is used for receiving a first activation code transmitted by the mobile terminal through a second preset mode and activating equipment based on the first activation code so as to enable the intelligent lock to normally operate; the mobile terminal acquires equipment information in a first preset mode and acquires the first activation code from a server side based on the equipment information. Specifically, in the operation process of the device, each time the intelligent lock is powered on or activated for use, an activation result is detected (for example, whether an activation success file exists in the intelligent lock is detected), if the activation result is detected, the intelligent lock unlocking system operates normally, otherwise, the system prompts to be activated for use, or only provides use of a part of functions. The server side comprises a server, an IOT cloud platform, a cloud side and the like. The IOT cloud platform is used for performing user registration management and other system settings on the intelligent lock and performing data association management on the whole system.

Further, in some embodiments, if the smart lock is used for the first time and no successfully activated file is detected, all functions cannot be used, and after the smart lock is activated for one time, no activated file is detected again, and a part of functions are provided for use.

Further, as a preferred scheme, in this embodiment, the mobile terminal further includes a communication module having a unique identification code; specifically, the communication module is further configured to be in communication connection with the mobile terminal and the server.

The first processing module is further configured to:

acquiring a unique identification code of the equipment;

generating a second activation code based on the unique identification code;

and when the first activation code is the same as the second activation code, generating an activation success file.

Further, as a preferred solution, in this embodiment, the communication module includes a bluetooth module and a WiFi module. Specifically, the WiFi module is used for realizing networking of the intelligent lock, urban positioning and uploading of data of the lock end of the intelligent lock to the IOT platform.

Further, as a preferred scheme, in this embodiment, the mobile terminal further includes a proximity sensing module, connected to the first processing module, and configured to implement human body detection and generate a human body detection signal; specifically, the proximity sensing module is preferably a human body infrared sensor and is used for sensing the wavelength (about 8-12nm) of a human body infrared pyroelectric signal, and when a human body is close to the action area of the sensor, the infrared sensor module responds to a signal to the first processing module of the intelligent lock, so that the human body detection function is realized. When other objects than people approach the sensor action area, the proximity sensing module does not respond.

The first processing module is further used for driving the intelligent lock to respond after receiving the human body detection signal.

Further, as a preferable scheme, in this embodiment, the proximity sensing module includes: the intelligent lock comprises a first sensing unit for detecting a first human body detection signal at one side end of the intelligent lock, and a second sensing unit for detecting a second human body detection signal at the other side end of the intelligent lock;

the first processing module is further configured to activate a corresponding side end of the smart lock after receiving the first human detection signal or the second human detection signal.

Further, in practical application of the above embodiment, the intelligent lock further includes: the full-automatic lock body realizes the real-time detection of states such as opening/closing a door, an oblique bolt, a dead bolt, a lock cylinder and the like.

The present invention also provides a mobile terminal, comprising:

the interaction module is used for acquiring equipment information in a first preset mode;

the second processing module is used for acquiring a first activation code from the server based on the equipment information; and transmitting the first activation code to the equipment in a second preset mode so as to enable the equipment to activate the equipment based on the first activation code.

Further, the mobile terminal is preferably an intelligent device installed and operated with a mobile phone APP, and is used for realizing distribution network and linkage with the WIFI module, monitoring state information of the intelligent lock end and simultaneously activating the intelligent lock in a matching mode.

Referring to fig. 4, the present invention further provides an intelligent lock activation system, including:

the mobile terminal is used for acquiring equipment information in a first preset mode; acquiring a first activation code from a server based on the equipment information and transmitting the first activation code to the intelligent lock in a second preset mode;

and the intelligent lock receives the first activation code and activates the equipment based on the first activation code. The cloud management and data analysis of the intelligent lock are greatly improved, the activation code binds production information, activation state and use duration, data support is provided for large data analysis of the platform, and maintenance is facilitated.

It should be understood that equivalents and modifications of the technical solution and inventive concept thereof may occur to those skilled in the art, and all such modifications and alterations should fall within the scope of the appended claims.

Claims (10)

1. A method of device activation, comprising:

acquiring equipment information in a first preset mode;

acquiring a first activation code from a server based on the equipment information;

and transmitting the first activation code to the equipment in a second preset mode so as to enable the equipment to activate the equipment based on the first activation code.

2. The device activation method according to claim 1, wherein the device activation specifically includes:

acquiring a unique identification code of the equipment;

generating a second activation code based on the unique identification code;

and when the first activation code is the same as the second activation code, generating an activation success file.

3. The device activation method as recited in claim 2, wherein the generating of the second activate code comprises: encrypting the unique identification code to obtain a ciphertext, and performing digital conversion on the ciphertext to obtain the second activation code;

the first preset mode comprises code scanning acquisition and short-distance wireless data reading;

the second preset mode comprises a wireless transmission mode and a manual input mode.

4. A smart lock using the device activation method of claims 1-3, comprising:

the information module is used for outputting equipment information to the outside in a first preset mode;

the first processing module is used for receiving a first activation code transmitted by the mobile terminal through a second preset mode and activating equipment based on the first activation code so as to enable the intelligent lock to normally operate; the mobile terminal acquires equipment information through a first preset mode and acquires the first activation code from a server side based on the equipment information.

5. The smart lock of claim 4, further comprising a communication module having a unique identification code;

the first processing module is further configured to:

acquiring a unique identification code of the equipment;

generating a second activation code based on the unique identification code;

and when the first activation code is the same as the second activation code, generating an activation success file.

6. The smart lock of claim 5, wherein the communication module comprises a Bluetooth module or a WiFi module.

7. The intelligent lock according to claim 4, further comprising a proximity sensing module, connected to the first processing module, for performing human detection and generating a human detection signal;

the first processing module is further used for driving the intelligent lock to respond after receiving the human body detection signal.

8. The smart lock of claim 7, wherein the proximity sensing module comprises: the intelligent lock comprises a first sensing unit for detecting a first human body detection signal at one side end of the intelligent lock, and a second sensing unit for detecting a second human body detection signal at the other side end of the intelligent lock;

the first processing module is further configured to activate a corresponding side end of the smart lock after receiving the first human detection signal or the second human detection signal.

9. A mobile terminal, comprising:

the interaction module is used for acquiring equipment information in a first preset mode;

the second processing module is used for acquiring a first activation code from the server based on the equipment information; and transmitting the first activation code to the equipment in a second preset mode so as to enable the equipment to activate the equipment based on the first activation code.

10. An intelligent lock activation system, comprising:

the mobile terminal is used for acquiring equipment information in a first preset mode; acquiring a first activation code from a server based on the equipment information and transmitting the first activation code to the intelligent lock in a second preset mode;

and the intelligent lock receives the first activation code and activates the equipment based on the first activation code.

Images