CN113129517A - Intelligent sharing power supply metering box - Google Patents

Abstract

The invention discloses an intelligent shared power supply metering box, and relates to the technical field of power metering boxes; the power supply metering box comprises a metering box body and a metering box door, the power switch, the controller, the intelligent electric meter and the communication device are all arranged inside the metering box body, the proximity switch is arranged on the metering box body and the metering box door, the user box comprises the user box body and the user box door, and the power socket and the circuit breaker are all arranged inside the user box body; it is through power supply batch meter, user's case, switch, controller, smart electric meter, communication device, first electric control lock, proximity switch, supply socket, circuit breaker, second electric control lock and setting up at the outside identification code of user's case etc. and it is convenient to have realized the short-term power consumption of user.

Description

Intelligent sharing power supply metering box

Technical Field

The invention relates to the technical field of power metering boxes, in particular to an intelligent shared power metering box.

Background

The current situation of power utilization, temporary, short-time and power utilization scenes: including capital construction of covered houses, stage performance, emergency rescue, rural power, mobile vendor, village and town cities, temple, etc.

There are problems: user's short-term power consumption difficulty! | A | A

The details are as follows:

in the last two years, about 30 ten thousand parts of feedback opinions of rural customers are collected through electronic channels such as 95598, WeChat public numbers and the like, and the temporary and short-time electricity utilization difficulties in rural areas are generally reflected. 1. The temporary power utilization procedure is cumbersome. 2. The temporary electricity utilization is difficult. 3. Utility power is not well-found. 4. The short-time electricity utilization charging is difficult.

And (3) analyzing the demand: wherein 16.31 ten thousand temporary power utilization feedback programs are complicated and account for 54 percent; 8.15 ten thousand parts of feedback temporary power utilization and power connection difficulty accounts for 27 percent; 2.54 ten thousand feedback public power sources are not well found, and account for 9 percent.

The current management situation is as follows: temporary, short-time and power utilization, a unified and complete power supply management flow does not exist, and accurate metering, payment of electric charge and safe power utilization cannot be achieved. 1. The electricity consumption cannot be measured and only the line loss can be brought into consideration. 2. There is no standardized payment channel. 3. The power utilization safety can not be guaranteed, and safety accidents are easy to happen.

The current construction situation is as follows: 1. shared-use WeChat applets have been deployed. 2. 3 shared power supply points have been established.

There are problems: 1. operation failure or timeout phenomena are prone to occur. 2. The average time of key links is about 250 seconds, the timeliness is low, and the user experience effect is extremely poor.

Reason analysis: 1. the carrier communication is affected by power line interference signals, and field tripping and closing failures or tripping and closing result return failures are easy to occur. 2. The line link is long, the line link needs to pass through a field terminal, a pre-system service and a fee control service are acquired, a marketing system calls, manages, calculates fees of the system, shares a power supply WeChat small program and the like, and the timeliness is poor.

Problems with the prior art and considerations:

how to solve the technical problem that the short-time power utilization of users is difficult.

Disclosure of Invention

The invention aims to solve the technical problem of providing an intelligent shared power supply metering box, which realizes the convenience of short-time power utilization of a user through a power supply metering box, a user box, a power switch, a controller, an intelligent ammeter, a communication device, a first electric control lock, a proximity switch, a power socket, a circuit breaker, a second electric control lock, an identification code arranged outside the user box and the like.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows: an intelligent sharing power supply metering box comprises a power supply metering box, a user box, a power switch, a controller, an intelligent electric meter, a communication device, a first electric control lock, a proximity switch, a power socket, a circuit breaker, a second electric control lock and an identification code arranged outside the user box, wherein the power supply metering box is connected with the user box to form two mutually independent boxes, the power supply metering box comprises a metering box body and a metering box door, the metering box door is movably connected with the metering box body, the power switch, the controller, the intelligent electric meter and the communication device are all arranged inside the metering box body, the first electric control lock is arranged on the metering box body, the proximity switch is arranged on the metering box body and the metering box door, the user box comprises a user box body and a user box door, the user box door is movably connected with the user box body, the power socket and the circuit breaker are both arranged inside the user box body, and the second electric control, the power switch is electrically connected with the intelligent electric meter, the circuit breaker and the power socket are electrically connected in sequence, and the controller is electrically connected with the intelligent electric meter, the communication device, the first electric control lock, the proximity switch, the circuit breaker and the second electric control lock and is in communication.

The further technical scheme is as follows: the controller is a single chip microcomputer, the identification code is a two-dimensional code used for identifying the identity of the user box, the identification code is arranged outside the user box door, the metering box door is rotatably connected with the metering box body, and the user box door is rotatably connected with the user box body.

The further technical scheme is as follows: the proximity switch is connected with the controller and is in one-way communication, the controller is electrically connected with the communication device and is in two-way communication, the controller is electrically connected with the circuit breaker and is in one-way communication, the controller is electrically connected with the first electric control lock and is in one-way communication, the controller is electrically connected with the second electric control lock and is in one-way communication, and the intelligent electric meter is electrically connected with the controller and is in one-way communication.

The further technical scheme is as follows: the communication device comprises a positioning antenna and a communication antenna, and the controller is electrically connected with and communicates with the positioning antenna and the communication antenna respectively.

The further technical scheme is as follows: the communication device further comprises a Bluetooth communication device, and the controller is connected with the Bluetooth communication device and communicates with the Bluetooth communication device.

The further technical scheme is as follows: the intelligent power supply system is characterized by further comprising a charge control management module, wherein the charge control management module is a program module and used for the controller to acquire power utilization information of a user from the intelligent electric meter, the controller acquires a power-off instruction and sends the power-off instruction to the circuit breaker, and the circuit breaker receives the power-off instruction sent by the controller to power off.

The further technical scheme is as follows: the intelligent electric meter, the concentrator, the first server, the second server and the third server are sequentially connected and communicated, and the third server is connected and communicated with a communication device inside the metering box body.

The further technical scheme is as follows: the charge control management module is a first charge control management module and is used for the controller to send the electricity utilization information of the user to the third server through the communication device in the metering box, the third server receives the electricity utilization information of the user sent by the controller and calculates the arrearage information of the user, when the third server learns the arrearage of the user, the third server generates a power-off instruction and sends the power-off instruction to the controller through the communication device in the metering box.

The further technical scheme is as follows: the fee control management module is a second fee control management module and is used for acquiring the amount information of the user from the third server through the communication device in the metering box body by the controller, calculating the arrearage information of the user by the controller, and generating a power-off instruction when the controller learns the arrearage of the user.

The further technical scheme is as follows: the electricity consumption information of the user comprises information of electric quantity, current and voltage.

Adopt the produced beneficial effect of above-mentioned technical scheme to lie in:

an intelligent sharing power supply metering box comprises a power supply metering box, a user box, a power switch, a controller, an intelligent electric meter, a communication device, a first electric control lock, a proximity switch, a power socket, a circuit breaker, a second electric control lock and an identification code arranged outside the user box, wherein the power supply metering box is connected with the user box to form two mutually independent boxes, the power supply metering box comprises a metering box body and a metering box door, the metering box door is movably connected with the metering box body, the power switch, the controller, the intelligent electric meter and the communication device are all arranged inside the metering box body, the first electric control lock is arranged on the metering box body, the proximity switch is arranged on the metering box body and the metering box door, the user box comprises a user box body and a user box door, the user box door is movably connected with the user box body, the power socket and the circuit breaker are both arranged inside the user box body, and the second electric control, the power switch is electrically connected with the intelligent electric meter, the circuit breaker and the power socket are electrically connected in sequence, and the controller is electrically connected with the intelligent electric meter, the communication device, the first electric control lock, the proximity switch, the circuit breaker and the second electric control lock and is in communication. This technical scheme, it is through power supply batch meter, user's case, switch, controller, smart electric meter, communication device, first electric control lock, proximity switch, supply socket, circuit breaker, second electric control lock and setting at the outside identification code of user's case etc. and it is convenient to have realized the short-term power consumption of user.

See detailed description of the preferred embodiments.

Drawings

FIG. 1 is a block diagram of a case according to the present invention;

FIG. 2 is a schematic block diagram of embodiment 1 of the present invention;

FIG. 3 is a schematic block diagram of an application of embodiment 1 of the present invention;

FIG. 4 is a schematic block diagram of embodiment 2 of the present invention;

fig. 5 is a schematic block diagram of an application of embodiment 2 of the present invention.

Wherein, 1 switch, 2 smart electric meters, 3 supply socket, 4 measurement boxes, 5 measurement chamber doors, 6 user's boxes, 7 user's chamber doors.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the application, its application, or uses. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application, but the present application may be practiced in other ways than those described herein, and it will be apparent to those of ordinary skill in the art that the present application is not limited to the specific embodiments disclosed below.

Example 1:

as shown in fig. 1 and 2, the invention discloses an intelligent shared power metering box, which comprises a power supply metering box, a user box, a power switch 1, a controller, an intelligent electric meter 2, a communication device, a first electric control lock, a proximity switch, a power socket 3, a circuit breaker, a second electric control lock, an identification code and a fee control management module, wherein the identification code and the fee control management module are pasted outside the user box, the controller is a single chip microcomputer, the fee control management module is a program module, and the communication device comprises a positioning antenna, a communication antenna and a bluetooth communication device.

As shown in fig. 1, the power supply metering box is connected with the user box and forms two mutually independent boxes, the power supply metering box comprises a metering box body 4 and a metering box door 5, the metering box door 5 is rotatably connected with the metering box body 4, a power switch 1, a controller, an intelligent electric meter 2 and a communication device are all fixed inside the metering box body 4, a first electric control lock is fixed on the metering box body 4, and a proximity switch is installed on the metering box body 4 and the metering box door 5. The user box comprises a user box body 6 and a user box door 7, the user box door 7 is rotatably connected with the user box body 6, the power socket 3 and the circuit breaker are both fixed inside the user box body 6, the second electric control lock is fixed on the user box body 6, the identification code is a two-dimensional code for identifying the identity of the user box, and the identification code is fixed outside the user box door 7.

The power switch 1 is electrically connected with the intelligent electric meter 2.

As shown in fig. 2, smart electric meter 2, circuit breaker and supply socket 3 are connected electrically in proper order, proximity switch is connected and single-way communication with the controller, the controller is connected and two-way communication with the location antenna electricity, the controller is connected and two-way communication with the communication antenna electricity, the controller is connected and two-way communication with bluetooth communication device electricity, the controller is connected and single-way communication with the circuit breaker electricity, the controller is connected and single-way communication with first electric control lock electricity, the controller is connected and single-way communication with the second electric control lock electricity, smart electric meter 2 is connected and single-way communication with the controller electricity.

And the second fee control management module is used for acquiring the electricity utilization information of the user from the intelligent electric meter 2 by the controller, calculating the arrearage information of the user by the controller, acquiring the arrearage of the user by the controller, generating a power-off instruction by the controller and sending the power-off instruction to the circuit breaker, receiving the power-off instruction sent by the controller by the circuit breaker and powering off, wherein the electricity utilization information of the user comprises information of electric quantity, current and voltage.

Wherein, switch, controller, smart electric meter, communication device, first electric control lock, proximity switch, supply socket, circuit breaker, second electric control lock itself and corresponding communication connection technique are no longer repeated here for prior art.

Example 1 description of use:

as shown in fig. 3, the first server is used for collecting power consumption information and installing power consumption information collection system software, the second server is used for marketing service application and installing marketing service application system software, and the third server is used for intelligent sharing power consumption operation management and installing intelligent sharing power consumption operation management system software, and accesses the intelligent sharing power metering box into an application system.

The intelligent electric meter 2 is connected with the concentrator through a power carrier or an RS485 line and is in one-way communication, namely the intelligent electric meter 2 is connected with the concentrator through the power carrier and is in one-way communication, or the intelligent electric meter 2 is connected with the concentrator through the RS485 line and is in one-way communication.

The concentrator is connected with the first server through the GPRS communication unit and the CDMA communication unit and is in one-way communication with the first server through the 4G communication unit.

The intelligent electric meter 2 is connected with the first server and is in one-way communication through the GPRS communication unit, the CDMA communication unit and the 4G communication unit respectively, namely the intelligent electric meter 2 is connected with the first server and is in one-way communication through the GPRS communication unit, the intelligent electric meter 2 is connected with the first server and is in one-way communication through the CDMA communication unit, and the intelligent electric meter 2 is connected with the first server and is in one-way communication through the 4G communication unit.

The first server and the second server are connected through a communication interface and are in bidirectional communication, and the second server and the third server are connected through a communication interface and are in bidirectional communication.

The third server is in wireless connection and two-way communication with the positioning antenna inside the metering box body 4 through the GPRS communication unit, the CDMA communication unit and the 4G communication unit respectively, namely the third server is in wireless connection and two-way communication with the positioning antenna inside the metering box body 4 through the GPRS communication unit, the third server is in wireless connection and two-way communication with the positioning antenna inside the metering box body 4 through the CDMA communication unit, and the third server is in wireless connection and two-way communication with the positioning antenna inside the metering box body 4 through the 4G communication unit.

The third server is in wireless connection and two-way communication with the communication antenna inside the metering box body 4 through the GPRS communication unit, the CDMA communication unit and the 4G communication unit respectively, namely the third server is in wireless connection and two-way communication with the communication antenna inside the metering box body 4 through the GPRS communication unit, the third server is in wireless connection and two-way communication with the communication antenna inside the metering box body 4 through the CDMA communication unit, and the third server is in wireless connection and two-way communication with the communication antenna inside the metering box body 4 through the 4G communication unit.

The user uses the smart phone to scan the two-dimensional code on the user box door 7, the operation request is sent to the third server, the third server checks the identity, the authority, the amount of money and other information of the user, if the information is normal, the third server sends the information of authorizing the user to unlock to the controller of the power supply metering box, and the controller opens the second electric control lock of the user box and allows the user to use the second electric control lock.

In the charging process, the controller acquires the power utilization information of the user from the intelligent electric meter 2, the controller acquires the amount information of the user from the third server through the communication antenna inside the metering box body 4, the controller calculates the arrearage information of the user, when the controller acquires the arrearage of the user, the controller generates a power-off instruction and sends the power-off instruction to the circuit breaker, and the circuit breaker receives the power-off instruction sent by the controller to power off.

Example 2:

embodiment 2 is different from embodiment 1 in that the fee control management module is a first fee control management module, and is configured to send, by the controller, power consumption information of a user to a third server through a communication device inside the metering box 4, the third server receives the power consumption information of the user sent by the controller and calculates arrearage information of the user, and when the third server learns that the user is arrearage, the third server generates a power-off instruction and sends the power-off instruction to the controller through the communication device inside the metering box 4.

As shown in fig. 1 and 4, the intelligent shared power metering box comprises a power supply metering box, a user box, a power switch 1, a controller, an intelligent electric meter 2, a communication device, a first electric control lock, a proximity switch, a power socket 3, a circuit breaker, a second electric control lock, an identification code and a fee control management module, wherein the identification code and the fee control management module are pasted outside the user box, the controller is a single chip microcomputer, the fee control management module is a program module, and the communication device comprises a positioning antenna, a communication antenna and a bluetooth communication device.

As shown in fig. 1, the power supply metering box is connected with the user box and forms two mutually independent boxes, the power supply metering box comprises a metering box body 4 and a metering box door 5, the metering box door 5 is rotatably connected with the metering box body 4, a power switch 1, a controller, an intelligent electric meter 2 and a communication device are all fixed inside the metering box body 4, a first electric control lock is fixed on the metering box body 4, and a proximity switch is installed on the metering box body 4 and the metering box door 5. The user box comprises a user box body 6 and a user box door 7, the user box door 7 is rotatably connected with the user box body 6, the power socket 3 and the circuit breaker are both fixed inside the user box body 6, the second electric control lock is fixed on the user box body 6, the identification code is a two-dimensional code for identifying the identity of the user box, and the identification code is fixed outside the user box door 7.

The power switch 1 is electrically connected with the intelligent electric meter 2.

As shown in fig. 4, smart electric meter 2, circuit breaker and supply socket 3 are connected electrically in proper order, proximity switch is connected and single-way communication with the controller, the controller is connected and two-way communication with the location antenna electricity, the controller is connected and two-way communication with the communication antenna electricity, the controller is connected and two-way communication with bluetooth communication device electricity, the controller is connected and single-way communication with the circuit breaker electricity, the controller is connected and single-way communication with first electric control lock electricity, the controller is connected and single-way communication with the second electric control lock electricity, smart electric meter 2 is connected and single-way communication with the controller electricity.

First expense accuse management module for the controller acquires user's power consumption information from smart electric meter 2, and the controller sends user's power consumption information to the outside through the inside communication antenna of measurement box 4, and the controller receives the outage instruction and sends to the circuit breaker, and the circuit breaker receives the outage instruction outage that the controller sent, user's power consumption information includes the information of electric quantity, electric current and voltage.

Wherein, switch, controller, smart electric meter, communication device, first electric control lock, proximity switch, supply socket, circuit breaker, second electric control lock itself and corresponding communication connection technique are no longer repeated here for prior art.

Example 2 description of use:

as shown in fig. 5, the first server is used for collecting power consumption information and installing power consumption information collection system software, the second server is used for marketing service application and installing marketing service application system software, and the third server is used for intelligent sharing power consumption operation management and installing intelligent sharing power consumption operation management system software, and accesses the intelligent sharing power metering box into an application system.

The intelligent electric meter 2 is connected with the concentrator through the power carrier and the RS485 line and is in one-way communication, namely the intelligent electric meter 2 is connected with the concentrator through the power carrier and is in one-way communication, and the intelligent electric meter 2 is connected with the concentrator through the RS485 line and is in one-way communication.

The concentrator is connected with the first server through the GPRS communication unit and the CDMA communication unit and is in one-way communication with the first server through the 4G communication unit.

The intelligent electric meter 2 is connected with the first server and is in one-way communication through the GPRS communication unit, the CDMA communication unit and the 4G communication unit respectively, namely the intelligent electric meter 2 is connected with the first server and is in one-way communication through the GPRS communication unit, the intelligent electric meter 2 is connected with the first server and is in one-way communication through the CDMA communication unit, and the intelligent electric meter 2 is connected with the first server and is in one-way communication through the 4G communication unit.

The first server and the second server are connected through a communication interface and are in bidirectional communication, and the second server and the third server are connected through a communication interface and are in bidirectional communication.

The third server is in wireless connection and two-way communication with the positioning antenna inside the metering box body 4 through the GPRS communication unit, the CDMA communication unit and the 4G communication unit respectively, namely the third server is in wireless connection and two-way communication with the positioning antenna inside the metering box body 4 through the GPRS communication unit, the third server is in wireless connection and two-way communication with the positioning antenna inside the metering box body 4 through the CDMA communication unit, and the third server is in wireless connection and two-way communication with the positioning antenna inside the metering box body 4 through the 4G communication unit.

The third server is in wireless connection and two-way communication with the communication antenna inside the metering box body 4 through the GPRS communication unit, the CDMA communication unit and the 4G communication unit respectively, namely the third server is in wireless connection and two-way communication with the communication antenna inside the metering box body 4 through the GPRS communication unit, the third server is in wireless connection and two-way communication with the communication antenna inside the metering box body 4 through the CDMA communication unit, and the third server is in wireless connection and two-way communication with the communication antenna inside the metering box body 4 through the 4G communication unit.

The user uses the smart phone to scan the two-dimensional code on the user box door 7, the operation request is sent to the third server, the third server checks the identity, the authority, the amount of money and other information of the user, if the information is normal, the third server sends the information of authorizing the user to unlock to the controller of the power supply metering box, and the controller opens the second electric control lock of the user box and allows the user to use the second electric control lock.

In the charging process, the controller acquires user's power consumption information from smart electric meter 2, the controller sends user's power consumption information to the third server through the inside communication antenna of measurement box 4, the third server receives user power consumption information that the controller sent and calculates this user's arrearage information, learn user's arrearage when the third server, the third server generates the outage instruction and sends to the controller through the inside communication antenna of measurement box 4, the controller receives the outage instruction and sends to the circuit breaker, the circuit breaker receives the outage instruction outage that the controller sent.

Project objectives:

1. new technologies such as big data, cloud architecture, Internet of things and mobile internet are fused with the sharing concept of 'internet + marketing mode', and the bottleneck and pain point of the shared power utilization technology are solved.

2. An intelligent 'shared power supply' product integrating registration, navigation, recharging, electricity utilization, settlement and invoice printing is built for temporary electricity utilization customers.

3. The power supply is combined with an on-line service product of a power system, the function of sharing a power supply is switched on the line, and a power utilization device of the sharing power supply is adopted under the line, so that a power utilization mode is innovated.

4. The method has the advantages of simplifying electricity handling procedures, facilitating electricity utilization processes, improving electricity utilization perception, realizing 'sweeping' and 'using' and 'paying' and 'knowing' of customer electricity utilization, and starting a new electricity sharing era.

The meaning of the project is as follows:

1. standardize sharing power consumption management flow, satisfy the various interim power consumption demands of user, promote user's power consumption and experience, realize that short-time power consumption measurement is accurate, the charges of electricity is collect and the power consumption safety.

2. The Internet and marketing mode expands a new service channel, solves the short-time electricity utilization problem of the three farmers at low cost, and improves the marketing capability.

3. The electric power brand image is improved, the service concept of 'power utilization and mind use' is more intimate, and good social benefits are generated.

Two types of user service applications:

the electricity utilization user: and binding the electricity utilization account, and bringing the electricity utilization account into an electricity marketing business management system, which is called an electricity utilization user for short.

Sharing power utilization users: and newly registering the user not bound with the electricity consumption number, which is called sharing electricity consumption user for short.

The electricity utilization user management system comprises: when registering, the electricity utilization account is bound, so that the users are already brought into the power marketing user management system.

The power utilization user registration mode comprises the following steps: the electricity consumption user needs to bind the electricity consumption user number, and when the electricity consumption user number is bound, the electricity consumption user number, the user number password, the dynamic verification code and the payment password received by the mobile phone of the user number contact person need to be input.

And (3) charging management of the electricity users: and the electricity consumption user directly enters the electricity consumption account by the recharging amount.

And (3) the settlement mode of the electricity user: and after the electricity utilization is finished, the consumption amount of the electricity utilization user is directly deducted from the electricity utilization account.

Sharing power utilization user management system: and newly registering the user not bound with the electricity consumption number, which is called sharing electricity consumption user for short.

Sharing power utilization user registration mode: inputting a mobile phone number, dynamically verifying a code, binding a payment treasure, generating user registration information, and generating a sharing electricity user.

And (3) recharging and managing shared electricity utilization users: in order to avoid generating the electricity arrearage information, a user needs to recharge before starting to use electricity. The electric power company registers the commercial tenant in the payment treasure, and the shared fee paid by the electricity user is frozen in the personal account of the payment treasure.

And (3) settlement mode of shared electricity users: and after the electricity is used, the amount of the personal account is unfrozen, the consumption amount is transferred from the personal account of the payment treasure to a bank account of the power company, and the consumption balance is continuously frozen in the account and can be returned in the original way.

Sharing the electric mobile phone operation:

sharing power consumption cell-phone operation supports cell-phone APP, believe little procedure and the precious little procedure of payment three kinds of modes, introduces with e share electricity APP as an example:

e share electric APP, can realize convenient for people's electricity consumption through operation cell-phone APP, mainly divide following several major functions: navigation, registration, appointment, recharge, power usage, settlement and invoicing.

Navigation: and selecting a power supply point on a shared power supply home page, checking the details of the equipment, and guiding a user to reach the shared power supply point from the current position through a navigation function.

And (3) registering the electricity user: and establishing a binding relationship by binding the account number, and when binding the electricity consumption account, inputting the electricity consumption account number, the account number password, the dynamic verification code and the payment password received by the mobile phone of the contact person of the account number.

And (3) registration of the shared electricity users: inputting a mobile phone number, dynamically verifying a code, binding a payment account, generating user registration information, and generating a shared power utilization user.

Reserving: the shared power supply supports the reserved power utilization. After the user makes an appointment, the time from the current time to the point that the user himself expects to reach the shared power supply can be reserved, and the user can be guaranteed to reach the charging point to be charged smoothly.

Recharging: the charge paid by the electricity user directly enters an electricity account; the electric power company registers the commercial tenant at the payment bank, and the fee paid by the sharing electricity utilization user is frozen in the account of the sharing electricity utilization user.

Power utilization: 1. the code scanning power consumption finger user scans the bar code of the shared power supply point device, signs a power consumption service protocol after real-name authentication and carries out power consumption. 2. Before starting charging, the metering box door must be closed, the access equipment is prepared perfectly, and the safe power utilization is ensured. 3. The charging process adopts a real-time fee control mode, and a user can check information such as power utilization duration, power utilization electric quantity and electric quantity consumption on a power utilization monitoring page.

And (4) settlement: and after the electricity utilization is finished, the consumption amount of the electricity utilization user is directly deducted from the electricity utilization account. And after the electricity utilization is finished, the consumption amount is unfrozen, and the electricity is transferred from the shared electricity utilization user account to the bank account of the power company.

Invoice: after the user consumes by using the shared power supply, if the user needs to reimburse, the user can select the shared power consumption records in batch, enter invoice details and initiate invoicing application. And after receiving the invoicing application, the power supply company business hall issues an invoice according to the requirement of the user, and after issuing the invoice, the user is informed to get the paper invoice from the power supply company business hall through e-sharing electricity. And the electricity user supports the electronic invoice application.

The e electricity sharing APP and the background management system realize management and flow control of electricity utilization services of users, and realize data interaction with the electricity utilization information acquisition operation and maintenance closed-loop system, the marketing service application system, the short message platform and the intelligent sharing power metering box through interfaces.

The advantages are that: 1. front-end and background management are realized in the e-share power, and coordination and control are easy. 2. And the loose coupling design is adopted, the service integration level is low, and the maintenance is easy. 3. There is no risk of affecting the operation of the existing service. 4. Data are managed uniformly, and statistical analysis is facilitated.

Remarking: if the local charge control function cannot be added in a short time, the functions of controlling a circuit breaker, charging management and power utilization information acquisition can be added in the intelligent shared power utilization operation management system.

Shorten circuit topology, improve the power consumption ageing: an intelligent shared power utilization operation management system is established, unified management is carried out, communication interaction is carried out between the intelligent shared power utilization operation management system and a shared power box, request routes are reduced, response time is shortened, and power utilization experience of users is improved.

The access of the safety equipment ensures the data safety: the method adopts internal and external network isolation, and establishes a uniform security access integral scheme from the aspects of terminal equipment, wireless channels, connection access, application programs, data security and the like.

Two types of fee control modes: the shared power supply metering box supports two modes of remote system fee control and intelligent module local fee control, wherein the local fee control can effectively reduce the arrearage risk. The remote communication of the two modes adopts a GPRS/CDMA/4G network for communication transmission, so that the stability of data transmission between the shared power box and the operation management system is ensured.

The first mode is as follows: remote system cost control

1. The remote system charge control is realized by acquiring the electric quantity information of the electric energy meter in real time through an intelligent module in a shared power supply metering box, realizing a remote charge control function in the charge control module of the intelligent shared power utilization operation management system, and sending a tripping and closing instruction to control a circuit breaker through the intelligent module so as to open/close a power utilization socket circuit.

2. The communication mode of the existing electric energy meter and the electricity consumption information acquisition system is kept unchanged. The electric energy meter passes through carrier wave or RS485 communication network in the shared power supply batch meter, via the concentrator, gives electric energy meter data transmission for power consumption information acquisition system or sends electric quantity information to power consumption information acquisition system through the GPRS network, and the concrete mode is decided according to on-the-spot actual conditions.

3. The electricity charge information in the marketing business application system is subject to an intelligent shared electricity utilization operation management system, and data transmitted by the electricity utilization information acquisition system is used as reference.

And a second mode: local intelligent module fee control

1. The local intelligent module is controlled by the fee, the intelligent module has a fee control function, the intelligent sharing power utilization operation management system sends user amount information to the intelligent module, the intelligent module collects the electric quantity information of the electric energy meter in real time and charges the electric quantity information to realize the local fee control function, and a tripping and closing instruction is sent to control the breaker to open/close the power utilization socket circuit.

2. The communication mode of the existing electric energy meter and the electricity consumption information acquisition system is kept unchanged. The electric energy meter passes through carrier wave or RS485 communication network in the shared power supply batch meter, via the concentrator, gives electric energy meter data transmission for power consumption information acquisition system or sends electric quantity information to power consumption information acquisition system through the GPRS network, and the concrete mode is decided according to on-the-spot actual conditions.

3. The electricity charge information in the marketing business application system is subject to an intelligent shared electricity utilization operation management system, and data transmitted by the electricity utilization information acquisition system is used as reference.

For review:

1. in the two modes, the local intelligent module has higher cost control response speed and better user experience.

2. The local intelligent module cost control mode is more stable and reliable.

3. The local intelligent module charges and controls, and the risk that the user arrears the power can be effectively reduced.

4. If the intelligent module can not increase the local charge control function in a short time, the charge control function is completed in the intelligent shared power utilization operation management system by adopting a remote system charge control mode.

Claims (10)

1. The utility model provides an intelligence sharing power metering box which characterized in that: the power supply metering box is connected with the user box to form two mutually independent boxes, the power supply metering box comprises a metering box body and a metering box door, the metering box door is movably connected with the metering box body, the power switch, the controller, the intelligent ammeter and the communication device are all arranged in the metering box body, the first electric control lock is arranged on the metering box body, the proximity switch is arranged on the metering box body, the user box comprises a user box body and a user box door, the user box door is movably connected with the user box body, the power socket and the circuit breaker are both arranged in the user box body, the second electric control lock is arranged on the user box body, and the power switch is electrically connected with the intelligent ammeter, the intelligent electric meter, the circuit breaker and the power socket are electrically connected in sequence, and the controller is electrically connected with and communicates with the intelligent electric meter, the communication device, the first electric control lock, the proximity switch, the circuit breaker and the second electric control lock respectively.

2. The smart shared power metering box of claim 1, wherein: the controller is a single chip microcomputer, the identification code is a two-dimensional code used for identifying the identity of the user box, the identification code is arranged outside the user box door, the metering box door is rotatably connected with the metering box body, and the user box door is rotatably connected with the user box body.

3. The smart shared power metering box of claim 1, wherein: the proximity switch is connected with the controller and is in one-way communication, the controller is electrically connected with the communication device and is in two-way communication, the controller is electrically connected with the circuit breaker and is in one-way communication, the controller is electrically connected with the first electric control lock and is in one-way communication, the controller is electrically connected with the second electric control lock and is in one-way communication, and the intelligent electric meter is electrically connected with the controller and is in one-way communication.

4. The smart shared power metering box of claim 1, wherein: the communication device comprises a positioning antenna and a communication antenna, and the controller is electrically connected with and communicates with the positioning antenna and the communication antenna respectively.

5. The smart shared power metering box of claim 4, wherein: the communication device further comprises a Bluetooth communication device, and the controller is connected with the Bluetooth communication device and communicates with the Bluetooth communication device.

6. The smart shared power metering box of claim 1, wherein: the intelligent power supply system is characterized by further comprising a charge control management module, wherein the charge control management module is a program module and used for the controller to acquire power utilization information of a user from the intelligent electric meter, the controller acquires a power-off instruction and sends the power-off instruction to the circuit breaker, and the circuit breaker receives the power-off instruction sent by the controller to power off.

7. The smart shared power metering box of claim 6, wherein: the intelligent electric meter, the concentrator, the first server, the second server and the third server are sequentially connected and communicated, and the third server is connected and communicated with a communication device inside the metering box body.

8. The smart shared power metering box of claim 7, wherein: the charge control management module is a first charge control management module and is used for the controller to send the electricity utilization information of the user to the third server through the communication device in the metering box, the third server receives the electricity utilization information of the user sent by the controller and calculates the arrearage information of the user, when the third server learns the arrearage of the user, the third server generates a power-off instruction and sends the power-off instruction to the controller through the communication device in the metering box.

9. The smart shared power metering box of claim 7, wherein: the fee control management module is a second fee control management module and is used for acquiring the amount information of the user from the third server through the communication device in the metering box body by the controller, calculating the arrearage information of the user by the controller, and generating a power-off instruction when the controller learns the arrearage of the user.

10. The smart shared power metering box of claim 6, wherein: the electricity consumption information of the user comprises information of electric quantity, current and voltage.

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