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DCEP-based intelligent electric meter internet-of-things payment interaction terminal and method

A smart meter and interactive terminal technology, applied in the field of electric power Internet of Things, can solve problems such as inflexible application, inability to meet user personalized, differentiated and flexible payment service demands, etc.

Pending Publication Date: 2021-11-12
STATE GRID JIANGSU ELECTRIC POWER CO LTD MARKETING SERVICE CENT +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] In the pilot application, the existing technology completes the electricity bill settlement through the main station, and the user settlement cycle is relatively fixed, but it cannot be flexibly applied to application scenarios that require "real-time settlement" and "pay-as-you-go" such as rental users and public electricity consumption; at the same time , with the widespread application of 5G, Internet of Things, artificial intelligence and other technologies, the traditional payment methods used in existing technologies cannot meet users' personalized and differentiated "flexible payment" service demands

Method used

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  • DCEP-based intelligent electric meter internet-of-things payment interaction terminal and method
  • DCEP-based intelligent electric meter internet-of-things payment interaction terminal and method
  • DCEP-based intelligent electric meter internet-of-things payment interaction terminal and method

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0112] Such as figure 2 , when the user performs a recharge operation, the first recharge operation is regarded as an account opening operation. The workflow of the DCEP-based smart meter IoT payment interactive terminal is as follows:

[0113] Step A1, the user needs to recharge, initiate a recharge request on the DCEP operation terminal, and enter the recharge amount through the touch screen;

[0114] Step A2, the DCEP terminal initiates the recharge operation instruction code 03, and submits it to the DCEP module for processing; the DCEP module controller inside the DCEP module sends control and operation instructions to the coin box assembly to complete the recharge,

[0115] In step A3, the DCEP module completes the recharge and returns the result, that is, generates an instruction code 83 and feeds it back to the DCEP terminal, and finally displays the recharge result on the DCEP terminal.

Embodiment 2

[0117] Such as image 3 , when the user conducts electricity bill settlement operations, the electricity bill settlement frequency can be adjusted according to the preset transaction interval period. The workflow of the DCEP-based smart meter IoT payment interactive terminal is as follows:

[0118] Step B1, determine whether the user is in the power-off state, if the user is in the power-off state, remind the user to perform the recharge operation, and display the waiting recharge interface; perform the electricity bill settlement operation when the user is not in the power-off state;

[0119] Step B2, determine whether the user needs to settle the electricity bill. If electricity bill settlement is required, the DCEP terminal will initiate the settlement electricity bill operation command code 02 to the DCEP module, and the DCEP module will perform specific settlement operations under the control of the DCEP module controller; if If electricity bill settlement is not required...

Embodiment 3

[0123] Such as Figure 4 , when the user performs a withdrawal operation, all withdrawals are regarded as an account cancellation operation. The workflow of the DCEP-based smart meter IoT payment interactive terminal is as follows:

[0124] Step C1, the user needs to withdraw cash, initiate a withdrawal request on the DCEP terminal, and initiate the withdrawal process through the touch screen;

[0125] Step C2, the DCEP terminal receives the cash withdrawal request, first generates the command code 02 to call the electricity bill settlement operation, and determines whether the user is in arrears by judging whether the settlement is successful. If the settlement is successful, the electricity bill settlement operation is completed to indicate that the user has no arrears. If successful, send arrears information to the user, end the withdrawal process and switch off the power;

[0126] Step C3, if the user has no arrears, continue the cash withdrawal operation, initiate the ba...

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Abstract

The invention discloses a DCEP-based intelligent electric meter internet-of-things payment interaction terminal and method. The terminal comprises an electric quantity metering module, an electric charge metering module and a DCEP module; a local electric charge clearing function is added, and through communication with the local DCEP module, a power-off and power-on command of a local intelligent internet-of-things control module is responded in real time, so that switching-on and switching-off operation is realized; the DCEP module is introduced to realize "pay-and-play, real-time settlement and flexible payment" of electricity utilization at a client side, the local intelligent internet-of-things control module is added, so that the terminal has the functions of automatic identity recognition, balance alarm, local control of power failure and recovery, active event reporting, remote upgrading and the like; through interaction control with a digital currency transaction module, off-line payment of the DCEP terminal is realized, and on-site payment and power-on are realized. The digital currency transaction module is added, the functions of account opening, recharging, transaction, settlement, withdrawal, data synchronization, information submission and the like are achieved, and local interaction between a user and equipment is achieved.

Description

technical field [0001] The present invention relates to the technical field of electric power internet of things, and more specifically, to a DCEP-based smart meter IoT payment interaction terminal and method. Background technique [0002] Since 2014, Digital Currency Electronic Payment (DCEP) has been further advanced. Among them, DCEP has carried out relevant pilot applications in the field of electricity bill settlement. [0003] In recent years, the development of the power Internet of Things has advanced by leaps and bounds, and the power Internet of Things IoT devices have grown exponentially. Large-scale Internet of Things device information and data interaction applications have generated huge value, and value transactions have put forward higher requirements for currency flow carriers. DCEP has M0 (in circulation currency) replacement, two-tier operation mode, loose account coupling, and support for dual offline transactions, etc., which naturally fits with mobile ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G07F15/00G07F15/10G06Q20/14G06Q20/24G06Q20/28G06Q20/36
CPCG07F15/003G07F15/10G06Q20/14G06Q20/28G06Q20/24G06Q20/3674G06Q20/3678Y04S50/12
Inventor 周玉陈霄邵雪松马云龙仇新宇黄奇峰李悦裴子霞高凡穆卓文
Owner STATE GRID JIANGSU ELECTRIC POWER CO LTD MARKETING SERVICE CENT
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