CN111814927A - Dynamic two-dimensional code generation module and code scanning energy management system - Google Patents

Abstract

The invention provides a dynamic two-dimensional code generation module and a code scanning energy utilization management system, and belongs to the technical field of electricity utilization safety. This developments two-dimensional code generation module includes: a remote communication module: the cloud master station is used for realizing communication between the control module and the cloud master station; the security encryption chip: the system comprises a control module, a cloud master station and a client side, wherein the control module is used for verifying an APP download link address configured by the cloud master station and sending the APP download link address which is successfully verified to the control module; a control module: the device comprises an energy-using equipment body, a dynamic APP download link address two-dimensional code generation module, a communication interface and a dynamic APP download link address two-dimensional code generation module, wherein the energy-using equipment body is used for generating the dynamic APP download link address two-dimensional code and forwarding received energy-using instruction information to the energy-using equipment body through the communication interface; a display module: the dynamic APP download link address two-dimensional code generating module is used for displaying the dynamic APP download link address two-dimensional code generated by the control module for scanning by a user; a communication interface: the communication between the control module and the energy utilization equipment body is realized. By adopting the mode of dynamically generating the two-dimensional code, the APP download link address obtained by scanning the dynamic APP download link address two-dimensional code by the user is ensured to be safe and reliable.

Description

Dynamic two-dimensional code generation module and code scanning energy management system

Technical Field

The invention relates to a dynamic two-dimensional code generation module and a code scanning energy utilization management system, and belongs to the technical field of electricity utilization safety.

Background

At present, the mode of electric power consumer accessible scanning two-dimensional code realizes sweeping yard power consumption, sharing power consumption and with the real-time settlement of third party payment interface, and this kind of mode has not only made things convenient for electric power consumer greatly, has still reduced the on-the-spot fortune dimension degree of difficulty of energy consumption equipment body, has reduced fortune dimension expense for unmanned on duty and sharing power consumption become possible. However, in this way, the security of the APP download link address used by the power consumer in the code scanning power utilization and payment process is difficult to guarantee, that is, the APP download link address is difficult to guarantee to be not tampered and phishing, once the APP download link address is tampered or phished, the requirements of the user on timely code scanning, timely registration authentication and timely power utilization cannot be met, and in order to meet the power utilization requirements of the power consumer, the problem needs to be solved urgently.

Disclosure of Invention

The invention provides a dynamic two-dimensional code generation module which is used for solving the problem of potential safety hazard of an APP download link address in the code scanning energy utilization process; the invention also provides a code scanning energy consumption management system which is used for solving the problem of potential safety hazard of the APP downloading link address in the code scanning energy consumption process.

In order to achieve the above object, the present invention provides a dynamic two-dimensional code generation module, which is arranged on an energy-using device body, and includes:

a remote communication module: the cloud master station is used for realizing communication between the control module and the cloud master station;

the security encryption chip: the system comprises a control module, a cloud master station and a client side, wherein the control module is used for verifying an APP download link address configured by the cloud master station and sending the APP download link address which is successfully verified to the control module;

a control module: the system comprises a cloud master station, a communication interface and an energy consumption device body, wherein the cloud master station is used for generating a dynamic APP download link address two-dimensional code according to the current time, the number of the energy consumption device body and the APP download link address configured by the cloud master station verified by a security encryption chip, receiving energy consumption instruction information sent by the cloud master station and forwarding the received energy consumption instruction information to the energy consumption device body through the communication interface;

a display module: the dynamic APP download link address two-dimensional code generating module is used for displaying the dynamic APP download link address two-dimensional code generated by the control module for scanning by a user;

a communication interface: the energy utilization equipment body is used for realizing communication between the control module and the energy utilization equipment body and sending the energy utilization instruction information to the energy utilization equipment body.

The beneficial effect of this developments two-dimensional code generation module is: the dynamic two-dimensional code generation module firstly utilizes the built-in safety encryption chip to verify the APP download link address configured by the cloud master station, and then generates the dynamic APP download link address two-dimensional code according to the current time, the number of the equipment body and the APP download link address successfully verified, namely the APP download link address used by the dynamic two-dimensional code generation module to generate the dynamic APP download link address two-dimensional code is verified, and the current time is used as the dispersion factor of the safety encryption algorithm for generating the dynamic APP download link address two-dimensional code, so that the dynamic APP download link address two-dimensional code displayed by the display module is dynamic and is updated in real time, and the difficulty of cracking the encryption measure can be increased by adopting the mode of dynamically generating the two-dimensional code, thereby ensuring that the download link address obtained by scanning the dynamic APP download link address two-dimensional code by a user is safe and reliable APP, effectively prevented that APP from downloading the link address and falsely being makeed or phishing, improved APP and downloaded the security of link address.

In order to improve the safety of code scanning energy utilization, the control module is further used for generating a dynamic energy utilization two-dimensional code according to the number of the energy utilization equipment body, the asset number and the current time.

In order to control the energy consumption equipment body to stop energy supply, further, the control module is further used for verifying an energy consumption stop instruction issued by the cloud master station through the safety encryption chip after receiving the energy consumption stop instruction, and controlling the energy consumption equipment body to trip and stop energy supply after the verification is successful.

In order to facilitate the electricity getting of the dynamic two-dimensional code generation module, further, the control module is connected with the energy utilization equipment body through a power interface.

In order to improve the security of the dynamic APP download link address two-dimensional code, further, the dynamic APP download link address two-dimensional code generated by the control module includes name, usage, ownership, and download link address information, where the name and usage are plaintext, and the ownership and download link address information are ciphertext.

In order to improve the security of the dynamic energy-using two-dimensional code, the dynamic energy-using two-dimensional code generated by the control module further includes device information, asset information, user information, network and operation information, energy-using information and settlement information, wherein the device information and the asset information are plaintext, and the user information, the network and operation information, the energy-using information and the settlement information are ciphertext.

The invention also provides a code scanning energy consumption management system which comprises a cloud master station, a user APP and a dynamic two-dimensional code generation module, wherein the dynamic two-dimensional code generation module is arranged on the energy consumption equipment body, the cloud master station is communicated with the user APP and the dynamic two-dimensional code generation module, the cloud master station is used for generating an APP download link address according to the set encryption algorithm configuration, the user APP is obtained by scanning the dynamic APP download link address two-dimensional code generated by the dynamic two-dimensional code generation module by the user, and authentication and binding are realized by the user; the dynamic two-dimensional code generation module comprises:

a remote communication module: the cloud master station is used for realizing communication between the control module and the cloud master station;

the security encryption chip: the system comprises a control module, a cloud master station and a client side, wherein the control module is used for verifying an APP download link address configured by the cloud master station and sending the APP download link address which is successfully verified to the control module;

a control module: the system comprises a cloud master station, a communication interface and an energy consumption device body, wherein the cloud master station is used for generating a dynamic APP download link address two-dimensional code according to the current time, the number of the energy consumption device body and the APP download link address configured by the cloud master station verified by a security encryption chip, receiving energy consumption instruction information sent by the cloud master station and forwarding the received energy consumption instruction information to the energy consumption device body through the communication interface;

a display module: the dynamic APP download link address two-dimensional code generating module is used for displaying the dynamic APP download link address two-dimensional code generated by the control module for scanning by a user;

a communication interface: the energy utilization equipment body is used for realizing communication between the control module and the energy utilization equipment body and sending the energy utilization instruction information to the energy utilization equipment body.

The beneficial effects of the code scanning energy management system are that: the dynamic two-dimensional code generation module in the energy management system for code scanning firstly verifies the APP download link address configured by the cloud master station by using the built-in security encryption chip, and then generates the dynamic APP download link address two-dimensional code by using the number of the energy equipment body and the APP download link address successfully verified according to the current time, namely the APP download link address used by the dynamic APP download link address two-dimensional code generation module for generating the dynamic APP download link address two-dimensional code is verified, and the current time is used as the dispersion factor of the security encryption algorithm for generating the dynamic APP download link address two-dimensional code, so that the dynamic APP download link address two-dimensional code displayed by the display module is dynamic and is updated in real time, the difficulty of encryption measures can be increased by adopting the mode of dynamically generating the two-dimensional code, thereby ensuring that the APP download link address obtained by scanning the dynamic download link address two-dimensional code by a user is safe and reliable APP, effectively prevented that APP from downloading the link address and falsely being makeed or phishing, improved APP and downloaded the security of link address.

In order to improve the safety of code scanning energy utilization, the control module is further used for generating a dynamic energy utilization two-dimensional code according to the number of the energy utilization equipment body, the asset number and the current time.

In order to control the energy consumption equipment body to stop energy supply, further, the control module is further used for verifying an energy consumption stop instruction issued by the cloud master station through the safety encryption chip after receiving the energy consumption stop instruction, and controlling the energy consumption equipment body to trip and stop energy supply after the verification is successful.

In order to facilitate the electricity getting of the dynamic two-dimensional code generation module, further, the control module is connected with the energy utilization equipment body through a power interface.

Drawings

FIG. 1 is a schematic diagram of a power management system for code scanning according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

The embodiment of the code scanning energy management system comprises:

as shown in fig. 1, the code scanning energy management system of the present embodiment includes: the password machine, high in the clouds main website, user APP and be used for setting up the developments two-dimensional code generation module on with can the equipment body, high in the clouds main website and user APP and developments two-dimensional code generation module communication.

The cloud master station is used for generating an APP download link address according to the configuration of an encryption algorithm set in the cipher machine; as other implementation manners, a secure encryption chip may be arranged inside the cloud master station without setting a cryptographic engine, and the cloud master station generates the APP download link address according to the configuration of the encryption algorithm in the secure encryption chip.

The cloud master station further has core functions of energy utilization equipment archive management, APP link address management, dynamic two-dimensional code generation management, dynamic two-dimensional code asset management, user information management, energy utilization application management, energy utilization monitoring management, energy utilization finishing management, energy utilization settlement management, energy utilization detail management, energy utilization reconciliation management, energy utilization balance analysis, marketing interfaces, energy utilization interfaces, third-party payment interfaces and the like. The cloud master station can dynamically allocate resources and realize load balance according to the actual energy consumption load condition on site so as to ensure real-time link management of field equipment and meet the real-time application requirement of code scanning energy consumption of a user.

The user APP is obtained by a dynamic APP download link address two-dimensional code generated by a user scanning dynamic two-dimensional code generation module, the user APP has core functions of real-name authentication, energy utilization application, energy utilization monitoring, energy utilization ending, account management, account binding, energy utilization query and the like, and daily energy utilization requirements of the user are met. When the user carries out real-name authentication and account binding, the identity card and the real-time photo of the user must be uploaded to allow the cloud master station and the user APP to carry out identity checking, after the check is passed, the user can immediately pass through the real-name authentication and successfully bind the account number, and at the moment, the user can scan the code using energy. In addition, user APP is embedded to have the CPK (combined Public Key) safe operation package unanimous with the high in the clouds main website to guarantee that it can correctly discern the two-dimensional code information that developments two-dimensional code generation module generated, be equipped with encryption and decryption algorithm in this CPK safe operation package, can guarantee with the real-time butt joint of high in the clouds main website, possess function such as anti-shelling, fishing and decompilation, can guarantee that safe encryption information is not revealed, falsify and fishing, also can guarantee user APP's security and legitimacy simultaneously.

The energy utilization equipment body is an intelligent terminal equipment body integrating power supply, metering, storage, control and calculation, for example, equipment bodies such as a charging pile, shore power, an agricultural discharge control terminal and a shared power supply.

The dynamic two-dimensional code generation module comprises: the device comprises a remote communication module, a security encryption chip, a control module, a display module, a communication interface, a power interface and a load switch.

Wherein, the remote communication module is used for realizing the communication of control module and high in the clouds main website to developments two-dimensional code generation module carries out safe connection, authentication management and developments two-dimensional code encryption and decryption with high in the clouds main website and handles, and the remote communication module of this embodiment supports communication modes such as electric power private network, ethernet, GPRS, 3G, 4G.

The secure encryption chip (for example, an embedded secure control module (esam) embedded with a cryptographic algorithm) can implement secure encryption and decryption management of the internal information of the dynamic two-dimensional code generation module to ensure that the information is not tampered and phishing in the generation and transmission processes, and is mainly used for verifying an APP download link address configured by the cloud master station and sending the APP download link address which is successfully verified to the control module. The encryption and decryption algorithm of the cloud master station side corresponds to the encryption and decryption algorithm of the dynamic two-dimensional code generation module.

The control module (e.g. micro control unit mcu (micro Controller unit)) has the following functions: (1) generating a dynamic APP download link address two-dimensional code according to the current time, the number of the energy utilization equipment body and the APP download link address configured by the cloud master station verified by the security encryption chip; (2) generating a dynamic energy utilization two-dimensional code according to the number of the energy utilization equipment body, the asset number and the current time; (3) receiving energy utilization instruction information sent by a cloud master station, and forwarding the received energy utilization instruction information to the energy utilization equipment body through a communication interface; after an energy consumption stopping instruction issued by the cloud master station is received, the instruction is verified through the safety encryption chip, and after verification is successful, the energy consumption equipment body where the instruction is located is controlled to trip to stop energy supply.

And the display module (such as a display screen) is used for displaying the dynamic APP download link address two-dimensional code generated by the control module for scanning by a user.

The communication interface is used for realizing the communication between the control module and the energy-using equipment body and sending the energy-using instruction information to the energy-using equipment body.

The power interface is used for realizing connection (for example, connection in an insertion or connection mode) between the control module and the energy consumption equipment body so as to finish power taking of the dynamic two-dimensional code generation module. As another embodiment, the dynamic two-dimensional code generation module may also use an ac power supply or a storage battery to obtain electricity.

The load switch is used for realizing load control management, namely, the control energy equipment body is switched on or tripped, so that the energy supply of the load connected to the energy equipment body is started or stopped.

The dynamic two-dimensional code generation module of this embodiment also has an alarm function, and by scanning the security interface of the remote communication module and the security interface (i.e., communication interface) of the local communication module, once the dynamic two-dimensional code generation module is found to be illegally attacked or artificially damaged, the control module can automatically generate an alarm event, and report to the cloud master station through the remote communication module, wherein the alarm event has different levels, the higher the level is, the more urgent the alarm event is represented, the more timely the alarm event needs to be processed, and the cloud master station preferentially processes the alarm event with a high alarm level according to the alarm level.

The dynamic two-dimensional code generation module in this embodiment can generate three types of two-dimensional codes, that is, a dynamic APP download link address two-dimensional code, a dynamic energy-using two-dimensional code, and an equipment asset two-dimensional code, and in order to ensure the universality of two-dimensional code information, a two-dimensional code generation mechanism in this embodiment is as follows: keeping the two-dimensional code encoding rule unchanged, adopting a three-section information combination mode according to the size of generated information quantity of a code, dividing original information before encoding into three sections, adopting a plaintext encoding mode for the first section of information, and mainly using equipment factory number or geographical position information as part of information, namely generally equipment self information and the installation position of the equipment; the second section of information adopts a weak cipher text encoding mode, namely, a built-in simple encryption algorithm is utilized to encrypt part of information to generate a cipher text, wherein the part of information mainly comprises asset information, manufacturer information, equipment communication information, simple configuration information or operation parameter information; the third section of information adopts a strong ciphertext coding mode, namely, the encryption and decryption processing of the part of information needs to be carried out real-time communication with a cipher machine at the cloud end master station side through a security key so as to complete security authentication, and the part of information generally comprises user information, user account information, energy consumption price, operation parameters, pre-authorization information or settlement information and the like.

Wherein, developments APP downloads link address two-dimensional code includes: name, purpose, ownership and download link address information (of the user APP), wherein the name and the purpose generally adopt a plaintext coding mode to generate plaintext; the ownership and download link address information is encrypted to generate a ciphertext generally by adopting a weak ciphertext or strong ciphertext coding mode.

The dynamic energy-using two-dimensional code comprises: the system comprises equipment information, asset information, user information, network and operation information, energy utilization information and settlement information, wherein the equipment information and the asset information generally generate plaintext by adopting a plaintext coding mode; user information, network and operation information are generally encrypted by adopting a weak ciphertext coding mode to generate a ciphertext, and energy information and settlement information are generally encrypted by adopting a strong ciphertext coding mode to generate the ciphertext.

The equipment asset two-dimensional code includes: the equipment factory number, the installation position information, the asset information, the manufacturer information and the information of the responsible person, wherein the equipment factory number and the installation position information generally adopt a plaintext coding mode to generate a plaintext; the asset information, the manufacturer information and the responsible person information are encrypted to generate a ciphertext generally by adopting a weak ciphertext coding mode.

The three types of two-dimensional codes are generally displayed in a key display or navigation display manner, and are used for scanning by a user to select corresponding functions, for example: the user scans dynamic APP download link address two-dimensional code download user APP, scans dynamic energy two-dimensional code and scans code power consumption, and scanning equipment asset two-dimensional code obtains equipment asset information. If the key display mode is adopted, the user selects the corresponding two-dimensional code to scan through keys, for example, a button of 'download user APP' is pressed, the dynamic APP download link address two-dimensional code is displayed, and the user can scan the two-dimensional code to download the user APP; if the patrol display mode is adopted, the three types of two-dimensional codes can appear in a display window in a circulating mode, when the two-dimensional code which the user wants to scan appears, the user can scan the two-dimensional code, and the patrol display interval of the two-dimensional code can be configured according to actual requirements; because the equipment asset two-dimensional code generally does not need to be updated in real time, the equipment asset two-dimensional code is generally pasted on the energy-using equipment body in a pasting mode for scanning by a user.

The following describes in detail the process of the user scanning the three types of two-dimensional codes to realize the corresponding functions:

(1) user APP for scanning dynamic APP download link address two-dimensional code download

The cloud master station generates an APP download link address according to the configuration of an encryption algorithm set in the cryptograph and sends the APP download link address to the dynamic two-dimensional code generation module through the remote communication module in a ciphertext mode;

a safety encryption chip in the dynamic two-dimensional code generation module verifies the APP download link address configured by the cloud master station and sends the APP download link address successfully verified to the control module;

the control module generates a dynamic APP download link address two-dimensional code according to the current time, the number of the energy utilization equipment body and the APP download link address configured by the cloud master station verified by the security encryption chip, and displays the dynamic APP download link address two-dimensional code through the display module for scanning by a user;

and the user scans the dynamic APP generated by the dynamic two-dimensional code generation module to download the link address two-dimensional code, downloads the user APP, and completes real-name authentication and account binding.

Because the APP download link address used for generating the dynamic APP download link address two-dimensional code is verified, and the current time is used as a dispersion factor of a security encryption algorithm for generating the dynamic APP download link address two-dimensional code, the dynamic APP download link address two-dimensional code displayed by the display module is updated in real time, so that the APP download link address obtained by scanning the dynamic APP download link address two-dimensional code by a user is safe and reliable. And moreover, the generated dynamic APP download link address two-dimensional code is displayed through the display module, so that the user, the instant download and the instant authentication binding which are required immediately are provided, and the timeliness of code scanning power utilization (energy utilization) is ensured.

(2) Scanning dynamic energy two-dimensional code for code scanning power consumption (energy consumption)

A control module in the dynamic two-dimensional code generation module generates a dynamic energy utilization two-dimensional code according to the number of the energy utilization equipment body, the asset number and the current time, and displays the dynamic energy utilization two-dimensional code through a display module; the dynamic energy-using two-dimensional code is internally provided with information such as a serial number, equipment information, geographical position information, starting time, starting table code, multiplying power and the like for the safe identification of a user APP;

the user scans the dynamic energy utilization two-dimensional code through the user APP, a certain amount of money is preauthorized, power utilization order information is generated, and the power utilization order information is safely uploaded to the cloud master station through the dynamic two-dimensional code generation module and the user APP respectively;

the cloud end master station checks the power consumption order information, generates a power consumption starting instruction after the power consumption order information passes the checking, encrypts the instruction through a cipher machine, and sends the encrypted power consumption starting instruction to the dynamic two-dimensional code generation module through the remote communication module;

after the dynamic two-dimensional code generation module receives the encrypted power utilization starting instruction, the legality of the instruction is verified through the safety encryption chip, and after the instruction is successfully verified, the control module controls the load switch to be closed, so that the energy utilization equipment body is controlled to be switched on, and the energy utilization equipment body starts to supply energy;

stopping the power supply when one of the following two conditions is met, one is: when the control module in the dynamic two-dimensional code generation module detects that the energy consumption cost exceeds the pre-authorized amount, the control module controls the load switch to be switched off, and then the energy consumption equipment body is controlled to trip, and the energy consumption equipment body stops supplying energy; secondly, the following steps: the user sends an energy consumption stopping instruction to the cloud master station through the user APP, the cloud master station encrypts the instruction through the cipher machine after receiving the energy consumption stopping instruction, the encrypted energy consumption stopping instruction is sent to the dynamic two-dimensional code generation module through the remote communication module, the dynamic two-dimensional code generation module verifies the legality of the instruction through the safety encryption chip after receiving the instruction, the control module controls the load switch to be disconnected after the instruction is verified successfully, the energy consumption equipment body is controlled to trip, and the energy consumption equipment body stops supplying energy;

the energy consumption cost settlement is carried out after stopping the energy supply, and corresponding energy consumption data message is generated, and the generated energy consumption data message is encrypted by a safety encryption chip in the dynamic two-dimensional code generation module and then is uploaded to a cloud main station through a remote communication module, and the cloud main station verifies the received energy consumption data message, and sends the verification result to a user APP after passing through the verification, and the payment operation is completed by the user.

Because the current time is used as a safety factor for generating the dynamic energy consumption two-dimensional code, the dynamic energy consumption two-dimensional code displayed by the display module is updated in real time, so that the safety and reliability of code scanning and power consumption of a user for scanning the dynamic energy consumption two-dimensional code are ensured; in addition, the encryption and decryption processes are inserted in the whole code scanning energy utilization process, and the safety and the reliability of sensitive information such as energy utilization information, user information, settlement information and the like are also ensured.

As another embodiment, after receiving the encrypted energy consumption instruction information (including the energy consumption start instruction and the energy consumption stop instruction), the dynamic two-dimensional code generation module may forward the received energy consumption instruction information to the energy consumption device body through the communication interface, and the energy consumption device body controls itself to complete a switching-on or tripping operation according to the received energy consumption instruction information to start or stop energy supply.

(3) Scanning equipment asset two-dimensional code to acquire equipment asset information

The dynamic two-dimension code generation module generates an equipment asset two-dimension code according to the equipment asset number, the equipment delivery number, the manufacturer information, the asset information, the installation position information and the information of the responsible person, and the equipment asset two-dimension code is pasted on the energy consumption equipment body;

the operating personnel scans the equipment asset two-dimensional code on the energy equipment body, acquires the equipment asset information contained in the equipment asset two-dimensional code, and can improve the efficiency of equipment general survey and equipment inspection.

This embodiment cooperatees through the safe encryption chip in high in the clouds main website side cipher machine and the developments two-dimensional code generation module, it produces and uses at developments APP download link address to alternate the encryption and decryption processing, developments are with the overall process that can the two-dimensional code generate and use, can prevent the fishing, the shelling, safety attacks such as injection, guaranteed that the user carries out the APP download, sweep the sign indicating number with the ability, with the security of operation such as ability settlement, the ability field two-dimensional code safety application has been realized, for sharing the ability scale application provides technical guarantee and safety guarantee.

The embodiment of the dynamic two-dimensional code generation module comprises:

the structure of the dynamic two-dimensional code generation module of this embodiment is the same as that of the dynamic two-dimensional code generation module in the code scanning energy management system embodiment, and details are not repeated here.

Claims (10)

1. The utility model provides a developments two-dimensional code generation module, its characterized in that, this developments two-dimensional code generation module is used for setting up on the energy consumption equipment body, includes:

a remote communication module: the cloud master station is used for realizing communication between the control module and the cloud master station;

the security encryption chip: the system comprises a control module, a cloud master station and a client side, wherein the control module is used for verifying an APP download link address configured by the cloud master station and sending the APP download link address which is successfully verified to the control module;

a control module: the system comprises a cloud master station, a communication interface and an energy consumption device body, wherein the cloud master station is used for generating a dynamic APP download link address two-dimensional code according to the current time, the number of the energy consumption device body and the APP download link address configured by the cloud master station verified by a security encryption chip, receiving energy consumption instruction information sent by the cloud master station and forwarding the received energy consumption instruction information to the energy consumption device body through the communication interface;

a display module: the dynamic APP download link address two-dimensional code generating module is used for displaying the dynamic APP download link address two-dimensional code generated by the control module for scanning by a user;

a communication interface: the energy utilization equipment body is used for realizing communication between the control module and the energy utilization equipment body and sending the energy utilization instruction information to the energy utilization equipment body.

2. The dynamic two-dimensional code generation module according to claim 1, wherein the control module is further configured to generate the dynamic energy-using two-dimensional code according to the number of the energy-using device body, the asset number, and the current time.

3. The dynamic two-dimensional code generation module according to claim 1, wherein the control module is further configured to verify an energy consumption stop instruction issued by the cloud master station through the secure encryption chip after receiving the instruction, and control the energy consumption device body to trip to stop energy supply after the instruction is successfully verified.

4. The dynamic two-dimensional code generation module according to claim 1, wherein the control module is connected to the energy-consuming device body via a power interface.

5. The dynamic two-dimensional code generation module of claim 1, wherein the dynamic APP download link address two-dimensional code generated by the control module includes name, usage, ownership, and download link address information, wherein the name and usage are plaintext, and the ownership and download link address information are ciphertext.

6. The dynamic two-dimensional code generation module according to claim 2, wherein the dynamic energy-using two-dimensional code generated by the control module includes device information, asset information, user information, network and operation information, energy-using information and settlement information, wherein the device information and the asset information are plaintext, and the user information, the network and operation information, the energy-using information and the settlement information are ciphertext.

7. A code scanning energy consumption management system is characterized by comprising a cloud master station, a user APP and a dynamic two-dimensional code generation module, wherein the dynamic two-dimensional code generation module is arranged on an energy consumption device body, the cloud master station is communicated with the user APP and the dynamic two-dimensional code generation module, the cloud master station is used for generating an APP download link address according to a set encryption algorithm configuration, the user APP is obtained by scanning a dynamic APP download link address two-dimensional code generated by the dynamic two-dimensional code generation module by a user, and authentication and binding are realized by the user; the dynamic two-dimensional code generation module comprises:

a remote communication module: the cloud master station is used for realizing communication between the control module and the cloud master station;

the security encryption chip: the system comprises a control module, a cloud master station and a client side, wherein the control module is used for verifying an APP download link address configured by the cloud master station and sending the APP download link address which is successfully verified to the control module;

a control module: the system comprises a cloud master station, a communication interface and an energy consumption device body, wherein the cloud master station is used for generating a dynamic APP download link address two-dimensional code according to the current time, the number of the energy consumption device body and the APP download link address configured by the cloud master station verified by a security encryption chip, receiving energy consumption instruction information sent by the cloud master station and forwarding the received energy consumption instruction information to the energy consumption device body through the communication interface;

a display module: the dynamic APP download link address two-dimensional code generating module is used for displaying the dynamic APP download link address two-dimensional code generated by the control module for scanning by a user;

a communication interface: the energy utilization equipment body is used for realizing communication between the control module and the energy utilization equipment body and sending the energy utilization instruction information to the energy utilization equipment body.

8. The code-scanning energy management system according to claim 7, wherein the control module is further configured to generate a dynamic energy-using two-dimensional code according to the number of the energy-using device, the asset number and the current time.

9. The code scanning energy consumption management system according to claim 7, wherein the control module is further configured to verify an energy consumption stop instruction issued by the cloud master station through the secure encryption chip after receiving the instruction, and control the energy consumption device body to trip to stop energy supply after the instruction is successfully verified.

10. The code-scanning energy-consumption management system as claimed in claim 7, wherein the control module is connected with the energy-consumption equipment body through a power interface.

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