CN107230164A - A kind of management method and system of self-service electricity-selling terminal - Google Patents
A kind of management method and system of self-service electricity-selling terminal Download PDFInfo
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- CN107230164A CN107230164A CN201710433775.1A CN201710433775A CN107230164A CN 107230164 A CN107230164 A CN 107230164A CN 201710433775 A CN201710433775 A CN 201710433775A CN 107230164 A CN107230164 A CN 107230164A
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L67/00—Network arrangements or protocols for supporting network services or applications
- H04L67/01—Protocols
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- G06Q50/00—Information and communication technology [ICT] specially adapted for implementation of business processes of specific business sectors, e.g. utilities or tourism
- G06Q50/06—Energy or water supply
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- G—PHYSICS
- G07—CHECKING-DEVICES
- G07F—COIN-FREED OR LIKE APPARATUS
- G07F15/00—Coin-freed apparatus with meter-controlled dispensing of liquid, gas or electricity
- G07F15/003—Coin-freed apparatus with meter-controlled dispensing of liquid, gas or electricity for electricity
- G07F15/005—Coin-freed apparatus with meter-controlled dispensing of liquid, gas or electricity for electricity dispensed for the electrical charging of vehicles
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L63/00—Network architectures or network communication protocols for network security
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Abstract
The application provides a kind of management method and system of self-service electricity-selling terminal, and management method includes:Cloud platform receives the electricity consumption request from the first mobile client;Cloud platform sends the second identity coding corresponding with self-service electricity-selling terminal to self-service electricity-selling terminal;If cloud platform receives the codes match successful information from self-service electricity-selling terminal, cloud platform sends electrical instruction to self-service electricity-selling terminal;If cloud platform receives the information that the real-time power consumption from self-service electricity-selling terminal is equal to preset charged duration equal to the information or real-time electricity consumption duration of preset charged amount, cloud platform sends cut-offing instruction to self-service electricity-selling terminal;Wherein, cloud platform internet protocol-based is communicated with the first mobile client, and cloud platform is communicated based on Internet of Things fidonetFido with self-service electricity-selling terminal.Present invention reduces O&M cost, be conducive to joint venture and be widely applied, increase the quantity of self-service electricity-selling terminal, improve power consumption efficiency, meet the demand of user.
Description
Technical field
The present invention relates to self-service sale of electricity technical field, more particularly to a kind of self-service electricity-selling terminal management method and be
System.
Background technology
There are some powered products in existing public place (such as property, cell, store, park, railway station, airport),
The charging pile of such as electric bicycle and electric automobile, these powered products are separate, and operation side needs periodically right to scene
These equipment are safeguarded that O&M cost is higher, and largely use traditional manual charge or coin-charging pattern, expense
The efficiency of management is low and cost is high, is unfavorable for joint venture, therefore can not be widely applied.
Meanwhile, as user's request is improved constantly, public place needs more more dense powered products, which results in
The quantity and management mode of powered products can not be matched with actual demand.
The content of the invention
It is an object of the invention to provide a kind of management method and system of self-service electricity-selling terminal, O&M cost is reduced,
Simplify expenses management mode, facilitate joint venture and large scale application.
To reach above-mentioned purpose, the present invention provides a kind of management method of self-service electricity-selling terminal, comprised the following steps:
Cloud platform receives the electricity consumption request from the first mobile client, and electricity consumption request includes the two of self-service electricity-selling terminal
Tie up code information, the first identity coding of user and preset charged amount or preset charged duration;
Cloud platform sends the second identity coding corresponding with self-service electricity-selling terminal to self-service electricity-selling terminal;
If cloud platform receives the codes match successful information from self-service electricity-selling terminal, cloud platform is sold to self-service
Electric terminals send electrical instruction;
If cloud platform receives the information or reality that the real-time power consumption from self-service electricity-selling terminal is equal to preset charged amount
When electricity consumption duration be equal to the information of preset charged duration, then cloud platform sends cut-offing instruction to self-service electricity-selling terminal;
Wherein, cloud platform internet protocol-based communicates with the first mobile client, cloud platform be based on Internet of Things fidonetFido with
Self-service electricity-selling terminal communication.
As above, wherein, in addition to:Status information and electric current letter of the cloud platform real-time reception from self-service electricity-selling terminal
Breath;
Under the "on" position of self-service electricity-selling terminal, if the first current value of self-service electricity-selling terminal exceeds the first electric current
Threshold range, then cloud platform generation Fisrt fault information, and Fisrt fault information is sent to the second mobile client, second moves
Dynamic client joins keeper for self-service electricity-selling terminal;
Under the off-position of self-service electricity-selling terminal, if the second current value of self-service electricity-selling terminal exceeds the second electric current
Threshold range, then cloud platform generates the second fault message, and the second fault message is sent into the second mobile client.
As above, wherein, in addition to:If cloud platform receives the barcode scanning failure information from the first mobile client,
Cloud platform generates the 3rd fault message, and the 3rd fault message is sent into the second mobile client.
As above, wherein, in addition to:
Gathered data of the cloud platform real-time reception from self-service electricity-selling terminal, gathered data includes status information, used
Information and power information;Use information includes 2 D code information, cost information and and the cost information of self-service electricity-selling terminal
The first identity coding of corresponding user and electricity consumption date;Power information includes electricity consumption duration corresponding with cost information or electricity consumption
Amount;
Cloud platform storage gathered data;
Cloud platform is handled gathered data, obtains processing information, the total electricity consumption of processing information including user, total is taken
With with the first electricity consumption time distribution curve, and self-service electricity-selling terminal affiliated area, the total electricity consumption of self-service electricity-selling terminal
Information, total cost information and the second electricity consumption time distribution curve;
Processing information is sent to the keeper of management system by cloud platform, to adjust the self-service electricity-selling terminal in each region
Capacity and the charging regulation of each period.
As above, wherein, in addition to:Cloud platform is entered according to the second mobile client to gathered data and/or processing information
Row packet, and corresponding with the second mobile client gathered data and/or processing information are sent to the second mobile client.
The present invention also provides a kind of management system of self-service electricity-selling terminal, including multiple self-service electricity-selling terminals, Yun Ping
Platform and the first mobile client;
First mobile client is accessed for the user of electricity consumption, and user has unique first identity coding;First movement visitor
Family end is communicated to connect with cloud platform internet protocol-based;
Self-service electricity-selling terminal is provided with 2 D code information, and each self-service electricity-selling terminal has unique second body
Part coding;
Self-service electricity-selling terminal is based on Internet of Things fidonetFido and communicated to connect by gateway and cloud platform.
As above, wherein, in addition to the second mobile client, the second mobile client is joined for self-service electricity-selling terminal
Keeper.
As above, wherein, cloud platform include status information receiving module, current information receiving module, current comparing module,
Scan failure information receiving module, failure generation module and failure sending module;
Wherein, status information receiving module is communicated to connect with self-service electricity-selling terminal, for real-time reception from self-service
The status information of electricity-selling terminal;
Current information receiving module is communicated to connect with self-service electricity-selling terminal, whole from self-service sale of electricity for real-time reception
The current information at end;
Current comparing module is electrically connected with status information receiving module and current information receiving module, is used for:Self-service
Under the "on" position of electricity-selling terminal, the first electric current of self-service electricity-selling terminal is compared with the first current threshold scope;With
And under the off-position of self-service electricity-selling terminal, the second electric current of self-service electricity-selling terminal is entered with the second current threshold scope
Row compares;
Scan failure information receiving module and the first mobile client is communicated to connect, the first movement visitor is come from for receiving
The barcode scanning failure information at family end;
Failure generation module is electrically connected with current comparing module and scanning failure information receiving module, is used for:Self-service
Under the "on" position of electricity-selling terminal, if the first current value of self-service electricity-selling terminal exceeds the first current threshold scope, generate
Fisrt fault information;Under the off-position of self-service electricity-selling terminal, if the second current value of self-service electricity-selling terminal is beyond the
Two current threshold scopes, then generate the second fault message;If receiving the barcode scanning failure information from the first mobile client,
Generate the 3rd fault message;
Failure sending module is electrically connected with failure generation module, for by Fisrt fault information, the second fault message and/or
3rd fault message is sent to the second mobile client.
As above, wherein, management system also include keeper;
Cloud platform includes gathered data receiving module, memory module, processing module and the first sending module;Wherein:
Gathered data receiving module, for receiving the gathered data from self-service electricity-selling terminal, gathered data includes shape
State information, use information and power information;The 2 D code information of use information including self-service electricity-selling terminal, cost information, with
And the first identity coding and the electricity consumption time of user corresponding with cost information;Power information includes use corresponding with cost information
Electric duration or power consumption;
Memory module, for storing gathered data;
Processing module, for handling gathered data, obtains processing information, processing information includes total electricity consumption of user
Amount, total cost and the first electricity consumption time distribution curve, and self-service electricity-selling terminal affiliated area, self-service electricity-selling terminal are total
Power consumption information, total cost information and the second electricity consumption time distribution curve;
First sending module, the keeper for processing information to be sent to management system, to adjust the self-service of each region
The capacity of formula electricity-selling terminal and the charging regulation of each period.
As above, wherein, cloud platform include grouping module and the second sending module;Wherein,
Grouping module is electrically connected with gathered data receiving module and processing module, for the second mobile client of foundation to adopting
Collection data and/or processing information are grouped;
Second sending module is electrically connected with grouping module, for will gathered data corresponding with the second mobile client and/
Or processing information is sent to the second mobile client.
What the present invention was realized has the beneficial effect that:
(1) self-service electricity-selling terminal obtains authentication by uniquely encoding in cloud platform, makes multiple self-service sell
Electric terminals are managed collectively in cloud platform, and are charged by online way of paying, reduce O&M cost, favorably
In joint venture and it is widely applied, increases the quantity of self-service electricity-selling terminal, improves power consumption efficiency, meet the demand of user.
(2) gathered data of the self-service electricity-selling terminal of cloud platform real-time reception, and to the fortune of each self-service electricity-selling terminal
Battalion's situation is planned as a whole and analyzed, be conveniently adjusted self-service electricity-selling terminal distribution situation and guiding user adjustment the electricity consumption time and
Power consumption, makes self-service electricity-selling terminal be equalized using.
(3) cloud platform can carry out breakdown judge automatically, and transmitting fault information is easy to keeper is joined accordingly
On-call maintenance.
(4) self-service electricity-selling terminal is combined by gateway and cloud platform formation Internet of Things, and by Internet of Things and internet
Mode be managed, expand the range of management of cloud platform significantly, reduce the quantity of gateway, simplify cloud platform management system,
Reduce the O&M cost of management system.
Brief description of the drawings
, below will be to embodiment or existing in order to illustrate more clearly of the embodiment of the present application or technical scheme of the prior art
There is the accompanying drawing used required in technology description to be briefly described, it should be apparent that, drawings in the following description are only this
Some embodiments described in application, for those of ordinary skill in the art, can also obtain other according to these accompanying drawings
Accompanying drawing.
The schematic diagram of the management system for the self-service electricity-selling terminal that Fig. 1 provides for the present invention;
The structure chart for the cloud platform that Fig. 2 provides for present invention implementation;
The flow chart of the management method for the self-service sale of electricity method that Fig. 3 provides for invention;
The flow chart of the one embodiment for the breakdown judge that Fig. 4 provides for invention;
The flow chart of another embodiment of the breakdown judge that Fig. 5 provides for invention.
Embodiment
With reference to the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete
Ground is described, it is clear that described embodiment is a part of embodiment of the invention, rather than whole embodiments.Based on the present invention
In embodiment, the every other implementation that those of ordinary skill in the art are obtained under the premise of creative work is not made
Example, belongs to the scope of protection of the invention.
Embodiment one
The schematic diagram of the management system for the self-service electricity-selling terminal that Fig. 1 provides for the present invention.
As described in Figure 1, self-service electricity-selling system includes cloud platform 4, gateway 3, multiple self-service electricity-selling terminals 2 and first
Mobile client 5, keeper 6, the second mobile client 7 and memory 8, the self-service electricity supply and use equipment 1 of electricity-selling terminal 2 charge.
Each self-service electricity-selling terminal 2 is provided with 2 D code information, and each self-service electricity-selling terminal 2 has uniquely
Second identity coding, can uniquely determine the specific letter of self-service electricity-selling terminal 2 in cloud platform 4 according to second identity coding
Breath, such as geographical position, encrypt-decrypt algorithm information.
Self-service electricity-selling terminal 2 can be connected with the direct communication of cloud platform 4.Self-service electricity-selling terminal 2 can also pass through net
Close 3 to communicate to connect with cloud platform 4, connected between gateway 3 and cloud platform 4 based on TCP/IP internet protocol communications.
Preferably, self-service electricity-selling terminal 2 is communicated to connect based on RS-485 communications protocol with gateway 3 or cloud platform 4.RS-
485 communications protocol make to form Internet of Things between self-service electricity-selling terminal and cloud platform 4, it is possible to achieve multiple self-service electricity-selling terminals
Networking centralized Control, be easy to manager to monitor all self-service electricity-selling terminals, reduce O&M cost, be easy to be widely applied
Using.
Alternatively, self-service electricity-selling terminal 2 can use the Internet of Things such as Lora, GPRS, Sigfox, NB-lot, Zigbee
Agreement is communicated to connect with gateway 3 or cloud platform 4.
Cloud platform 4 controls the power supply and power-off of self-service electricity-selling terminal 2.In addition, cloud platform 4 be additionally operable to it is self-service to each
The energy information of electricity-selling terminal 2 is stored, is collected, is classified, analyzed and is grouped, and its traffic-operating period is planned as a whole and divided
Analysis.Cloud platform 4 can also carry out troublshooting etc. to self-service electricity-selling terminal 2, and particular content is see embodiment two.
First mobile client 5, the mobile client 7 of keeper 6 and second are based respectively on TCP/IP Internet protocols and cloud
Platform 4 is communicatively coupled.
The user of the electricity supply and use equipment 1 of first mobile client 5 accesses, for data processings such as reimbursement of expense, troublshootings
Program.Cloud platform 4 sets to control self-service electricity-selling terminal 2 according to the reimbursement of expense state of the first mobile client 5 or electricity consumption
Power supply and power-off.Wherein, the payment of expense can be carried out by platforms such as wechat, Alipays.User has unique first body
Part coding.
The keeper 6 of management system carries out routine work management to cloud platform 4, such as according to the pool and analysis of cloud platform 4
As a result the setting and management to self-help electric-selling terminal are adjusted.
Second mobile client 7 joins keeper for self-service electricity-selling terminal 2, and it is to self-service in oneself compass of competency
Formula electricity-selling terminal 2 is managed.
Memory 8 is used to store gathered data and result that cloud platform is received, to back up.
At least one of voltage, electric current, power that cloud platform 4 passes through self-service electricity-selling terminal 2 or at least both combinations
To judge that self-service electricity-selling terminal whether there is failure.
The structure chart for the cloud platform that Fig. 2 provides for present invention implementation.As one embodiment, as shown in Fig. 2 cloud platform 4
The electric current of self-service electricity-selling terminal 2 can be monitored with failure judgement situation, and failure situation is sent to corresponding second movement
Client 7, to arrange maintenance personal to be overhauled.
Specifically, cloud platform 4 includes status information receiving module 41, current information receiving module 43, current comparing module
42nd, scanning failure information receiving module 46, failure generation module 44 and failure sending module 45.
Status information receiving module 41 is communicated to connect with self-service electricity-selling terminal 2, is sold for real-time reception from self-service
The status information of electric terminals 2.
Current information receiving module 43 is communicated to connect with self-service electricity-selling terminal 2, is sold for real-time reception from self-service
The current information of electric terminals 2.
Current comparing module 42 is electrically connected with status information receiving module 41 and current information receiving module 43, is used for:
Under the "on" position of self-service electricity-selling terminal 2, the first electric current of self-service electricity-selling terminal 2 and the first current threshold scope are carried out
Compare;And under the off-position of self-service electricity-selling terminal 2, by the second electric current and the second electric current of self-service electricity-selling terminal 2
Threshold range is compared.Wherein, the first current threshold scope is【16A, 18A】, the second current threshold scope is【0A,
0.1A】。
Scanning failure information receiving module 46 is communicated to connect with the first mobile client 5, and the first shifting is come from for receiving
The barcode scanning failure information of dynamic client 5.
Failure generation module 44 is electrically connected with current comparing module 42 and scanning failure information receiving module 46, is used for:
Under the "on" position of self-service electricity-selling terminal 2, if the first current value of self-service electricity-selling terminal 2 exceeds the first current threshold model
Enclose, then generate Fisrt fault information;Under the off-position of self-service electricity-selling terminal 2, if the second electricity of self-service electricity-selling terminal 2
Flow valuve exceeds the second current threshold scope, then generates the second fault message;If receiving the barcode scanning from the first mobile client 5
Failure information, then generate the 3rd fault message.
Failure sending module 45 is electrically connected with failure generation module 44, for by Fisrt fault information, the second fault message
And/or the 3rd fault message be sent to the second mobile client 7.
As shown in Fig. 2 cloud platform 4 can be planned as a whole and be analyzed to the traffic-operating period of each self-service electricity-selling terminal 2, with
Just management strategy is regularly updated, is oriented to for consumption.
Specifically, cloud platform 4 includes gathered data receiving module 47, memory module 48, the transmission of processing module 49 and first
Module 410.
Gathered data receiving module 47, for receiving the gathered data from self-service electricity-selling terminal 2, gathered data includes
Status information, use information and power information;The 2 D code information of use information including self-service electricity-selling terminal 2, cost information,
And the first identity coding and the electricity consumption time of user corresponding with cost information;Power information includes corresponding with cost information
Electricity consumption duration or power consumption.
Memory module 48, for storing gathered data.
Processing module 49, for handling gathered data, obtains processing information, processing information includes total use of user
Electricity, total cost and the first electricity consumption time distribution curve, and the affiliated area of self-service electricity-selling terminal 2, self-service electricity-selling terminal 2
Total electricity consumption information, total cost information and the second electricity consumption time distribution curve.
First sending module 410, the keeper for processing information to be sent to management system, with adjust each region from
Help the capacity and the charging regulation of each period of formula electricity-selling terminal 2.
As shown in Fig. 2 in the case of being runed in the self-service electricity-selling terminal 2 of management system by multiple encrypt-decrypt algorithms, Yun Ping
Above-mentioned gathered data and/or processing information can also be sent to the second mobile client 7 by platform 4, for joining keeper to certainly
The self-service electricity-selling terminal 2 of own compass of competency is managed collectively and monitored.
Specifically, cloud platform 4 also includes the sending module 412 of grouping module 411 and second.
Grouping module 411 is electrically connected with gathered data receiving module 47 and processing module 49, for according to the second movement visitor
Family end 7 is grouped to gathered data and/or processing information.
Second sending module 412 is electrically connected with grouping module 411, for will collection corresponding with the second mobile client 7
Data and/or processing information are sent to the second mobile client 7.
Alternatively, the management system is provided with the memory 8 separate with cloud platform 4 and self-service electricity-selling terminal 2, with right
All data are backed up.Cloud platform 4 also includes the 3rd sending module 413, for the gathered data that receives cloud platform 4 and/
Or the processing information obtained is sent to memory 8.
The present invention makes multiple self-service electricity-selling terminals 2 and gateway 3 and the formation Internet of Things of cloud platform 4, and is entered by cloud platform 4
Row management, and paying is realized by on-line payment, the integrated management and coordination of system are realized, O&M cost is reduced,
It is convenient that operation management is carried out to the more self-service electricity-selling terminals 2 of quantity, help to be widely applied, meet the need of user
Ask.
Embodiment two
The flow chart of the management method for the self-service sale of electricity method that Fig. 3 provides for invention.
As shown in figure 3, the management method for the self-service sale of electricity method that the present invention is provided comprises the following steps:
Step 101:Cloud platform 4 receives the electricity consumption request from the first mobile client 5, and electricity consumption request includes self-service sell
The 2 D code information of electric terminals 2, the first identity coding of user and preset charged amount or preset charged duration.
Wherein, the way of paying of user include post-pay paystation and post-paid both of which.Under post-pay paystation pattern, user is according to pre-
If charge volume or preset charged duration are paid, or specified total cost, then calculate pre- according to total cost and charging regulation
If charge volume or preset charged duration.As one embodiment, under post-paid pattern, user is needed in the first mobile client
5 set preset charged amount or preset charged duration, charging to be paid after terminating.As another embodiment, in post-paid mould
Under formula, it can limit the power consumption or the electricity consumption duration upper limit of user to determine this power consumption according to the credit line of user
And duration, charge and paid after terminating.
Step 102:Cloud platform 4 sends second identity coding corresponding with self-service electricity-selling terminal 2 to self-service sale of electricity
Terminal 2.
If cloud platform 4 receives the codes match successful information from self-service electricity-selling terminal 2, step 103 is performed:Cloud
Platform 4 sends electrical instruction to self-service electricity-selling terminal 2.Otherwise, the flow is terminated, and formerly under payment mode, reimbursement is given
User.
If cloud platform 4 receive the real-time power consumption from self-service electricity-selling terminal 2 equal to preset charged amount information or
Real-time electricity consumption duration is equal to the information of preset charged duration, then performs step 104:Cloud platform 4 is sent to self-service electricity-selling terminal 2
Cut-offing instruction.Otherwise, continue to charge, until meeting the condition for performing step 104.
As shown in figure 3, cloud platform 4 gathers the gathered data of self-service electricity-selling terminal 2, at these gathered datas
Reason, and result is sent to keeper 6.Specifically include following steps:
Step 105:Gathered data of the real-time reception of cloud platform 4 from self-service electricity-selling terminal 2.
Gathered data includes the information such as status information, use information and power information.Use information includes self-service sale of electricity
2 D code information, the first identity coding of cost information and user corresponding with cost information and the electricity consumption date of terminal 2
Deng.Power information includes electricity consumption duration corresponding with cost information or power consumption etc..
Step 106:Cloud platform 4 stores gathered data.
Step 107:Cloud platform 4 is handled gathered data, obtains processing information.Processing information includes total use of user
Electricity, total cost and the first electricity consumption time distribution curve, and the affiliated area of self-service electricity-selling terminal 2, self-service electricity-selling terminal 2
The information such as total electricity consumption information, total cost information and the second electricity consumption time distribution curve.
Step 108:Processing information is sent to the keeper of management system by cloud platform 4, to adjust the self-service of each region
The capacity of electricity-selling terminal 2 and the charging regulation of each period.
For example, distribution situation of the self-service electricity-selling terminal 2 in regional is adjusted according to the power consumption demand of user, or
The charging regulation of each period, guiding user's adjustment electricity consumption time and power consumption are adjusted according to the distribution of electricity consumption time, made self-service
Formula electricity-selling terminal 2 is equalized using.
Alternatively, as shown in figure 3, cloud platform 4, which can be transferred data to, joins keeper, so as to oneself compass of competency
Interior self-service electricity-selling terminal 2 carries out unified or individually management.Specifically include following steps:
Step 109:Cloud platform 4 is grouped according to the second mobile client 7 to gathered data and/or processing information, is made
Each one packet data package of formation of self-service electricity-selling terminal 2 joined in keeper's compass of competency.
Step 110:The second movement will be sent to the second mobile client 7 corresponding gathered data and/or processing information
Client 7.
Alternatively, see Fig. 3 step 111, gathered data and/or processing information can be sent to storage by cloud platform 4
Device 8.
Cloud platform 4 can monitor the failure situation of self-service electricity-selling terminal 2, and failure situation is sent into corresponding second
Mobile client 7, to arrange maintenance personal to be overhauled.
Fig. 4 comprises the following steps to invent the flow chart of one embodiment of the breakdown judge provided:
Step 201:Status information and current information of the real-time reception of cloud platform 4 from self-service electricity-selling terminal 2.
Under the "on" position of self-service electricity-selling terminal 2, if the first current value of self-service electricity-selling terminal 2 is beyond the first electricity
Threshold range is flowed, then performs following steps:
Step 202:Cloud platform 4 generates Fisrt fault information.
Step 203:Fisrt fault information is sent to the second mobile client 7.
Wherein, the first current threshold scope is【16A, 18A】, determined according to different charging equipments.
Under the off-position of self-service electricity-selling terminal 2, if the second current value of self-service electricity-selling terminal 2 is beyond the second electricity
Threshold range is flowed, then performs following steps:
Step 204:Cloud platform 4 generates the second fault message.
Step 205:Second fault message is sent to the second mobile client 7.
Wherein the second current threshold scope is【0A, 0.1A】.
Fig. 5 comprises the following steps to invent the flow chart of another embodiment of the breakdown judge provided:
If cloud platform 4 receives the barcode scanning failure information from the first mobile client 5, following steps are performed:
Step 301:Cloud platform 4 generates the 3rd fault message.
Step 302:3rd fault message is sent to the second mobile client 7.
What the present invention was realized has the beneficial effect that:
(1) self-service electricity-selling terminal obtains authentication by uniquely encoding in cloud platform, makes multiple self-service sell
Electric terminals are managed collectively in cloud platform, and are charged by online way of paying, reduce O&M cost, favorably
In joint venture and it is widely applied, increases the quantity of self-service electricity-selling terminal, improves power consumption efficiency, meet the demand of user.
(2) gathered data of the self-service electricity-selling terminal of cloud platform real-time reception, and to the fortune of each self-service electricity-selling terminal
Battalion's situation is planned as a whole and analyzed, be conveniently adjusted self-service electricity-selling terminal distribution situation and guiding user adjustment the electricity consumption time and
Power consumption, makes self-service electricity-selling terminal be equalized using.
(3) cloud platform can carry out breakdown judge automatically, and transmitting fault information is easy to keeper is joined accordingly
On-call maintenance.
(4) self-service electricity-selling terminal and gateway and cloud platform formation Internet of Things, and combined by Internet of Things and internet
Mode is managed, and the range of management of cloud platform is expanded significantly, reduces the quantity of gateway, simplifies cloud platform management system, drop
The low O&M cost of management system.
Although having been described for the preferred embodiment of the application, those skilled in the art once know basic creation
Property concept, then can make other change and modification to these embodiments.So, appended claims are intended to be construed to include excellent
Select embodiment and fall into having altered and changing for the application scope.Obviously, those skilled in the art can be to the application
Various changes and modification are carried out without departing from spirit and scope.So, if these modifications and variations of the application
Belong within the scope of the application claim and its equivalent technologies, then the application is also intended to exist comprising these changes and modification
It is interior.
Claims (10)
1. a kind of management method of self-service electricity-selling terminal, it is characterised in that comprise the following steps:
Cloud platform receives the electricity consumption request from the first mobile client, and the electricity consumption request includes the two of self-service electricity-selling terminal
Tie up code information, the first identity coding of user and preset charged amount or preset charged duration;
The second identity coding corresponding with the self-service electricity-selling terminal is sent whole to the self-service sale of electricity by the cloud platform
End;
If the cloud platform receives the codes match successful information from the self-service electricity-selling terminal, the cloud platform to
The self-service electricity-selling terminal sends electrical instruction;
If the cloud platform receives the real-time power consumption from the self-service electricity-selling terminal equal to the preset charged amount
Information or real-time electricity consumption duration are equal to the information of the preset charged duration, then the cloud platform is to the self-service electricity-selling terminal
Send cut-offing instruction;
Wherein, the cloud platform internet protocol-based communicates with first mobile client, and the cloud platform is based on Internet of Things
FidonetFido communicates with the self-service electricity-selling terminal.
2. the management method of self-service electricity-selling terminal according to claim 1, it is characterised in that also include:The cloud is put down
Status information and current information of the platform real-time reception from the self-service electricity-selling terminal;
Under the "on" position of the self-service electricity-selling terminal, if the first current value of the self-service electricity-selling terminal exceeds first
Current threshold scope, then the cloud platform generation Fisrt fault information, and the Fisrt fault information is sent to the second movement
Client, second mobile client joins keeper for the self-service electricity-selling terminal;
Under the off-position of the self-service electricity-selling terminal, if the second current value of the self-service electricity-selling terminal exceeds second
Current threshold scope, then the cloud platform generates the second fault message, and second fault message is sent into described second
Mobile client.
3. the management method of self-service electricity-selling terminal according to claim 1 or 2, it is characterised in that also include:If described
Cloud platform receives the barcode scanning failure information from first mobile client, then the cloud platform generates the 3rd failure letter
Breath, and the 3rd fault message is sent to second mobile client.
4. the management method of self-service electricity-selling terminal according to claim 1, it is characterised in that also include:
Gathered data of the cloud platform real-time reception from the self-service electricity-selling terminal, the gathered data is believed including state
Breath, use information and power information;The use information includes the 2 D code information of the self-service electricity-selling terminal, expense letter
Breath and the first identity coding and the electricity consumption date of user corresponding with the cost information;The power information includes and institute
State the corresponding electricity consumption duration of cost information or power consumption;
Gathered data described in the cloud platform storage;
The cloud platform is handled the gathered data, obtains processing information, and the processing information includes the user's
Total electricity consumption, total cost and the first electricity consumption time distribution curve, and it is the self-service electricity-selling terminal affiliated area, described self-service
Total electricity consumption information, total cost information and the second electricity consumption time distribution curve of formula electricity-selling terminal;
The processing information is sent to the keeper of management system by the cloud platform, whole with the self-service sale of electricity for adjusting each region
The capacity at end and the charging regulation of each period.
5. the management method of self-service electricity-selling terminal according to claim 4, it is characterised in that also include:The cloud is put down
Platform is grouped according to the second mobile client to the gathered data and/or the processing information, and will be moved with described second
The dynamic corresponding gathered data of client and/or the processing information are sent to second mobile client.
6. a kind of management system of self-service electricity-selling terminal, it is characterised in that including multiple self-service electricity-selling terminals, cloud platform and
First mobile client;
First mobile client is accessed for the user of electricity consumption, and the user has unique first identity coding;Described
One mobile client is communicated to connect with the cloud platform internet protocol-based;
The self-service electricity-selling terminal is provided with 2 D code information, and each self-service electricity-selling terminal has unique the
Two identity codings;
The self-service electricity-selling terminal is based on Internet of Things fidonetFido and communicated to connect by gateway and the cloud platform.
7. the management system of self-service electricity-selling terminal according to claim 6, it is characterised in that also including the second movement visitor
Family end, second mobile client joins keeper for the self-service electricity-selling terminal.
8. the management system of self-service electricity-selling terminal according to claim 7, it is characterised in that the cloud platform includes shape
State information receiving module, current information receiving module, current comparing module, scanning failure information receiving module, failure generation mould
Block and failure sending module;
Wherein, the status information receiving module is communicated to connect with the self-service electricity-selling terminal, and institute is come from for real-time reception
State the status information of self-service electricity-selling terminal;
The current information receiving module is communicated to connect with the self-service electricity-selling terminal, for real-time reception from described self-service
The current information of formula electricity-selling terminal;
The current comparing module is electrically connected with the status information receiving module and the current information receiving module, is used for:
Under the "on" position of the self-service electricity-selling terminal, by the first electric current and the first current threshold of the self-service electricity-selling terminal
Scope is compared;And under the off-position of the self-service electricity-selling terminal, by the second of the self-service electricity-selling terminal
Electric current is compared with the second current threshold scope;
Scanning failure information receiving module and first mobile client are communicated to connect, and described the is come from for receiving
The barcode scanning failure information of one mobile client;
The failure generation module is electrically connected with the current comparing module and the scanning failure information receiving module, is used for:
Under the "on" position of the self-service electricity-selling terminal, if the first current value of the self-service electricity-selling terminal exceeds the first electric current
Threshold range, then generate Fisrt fault information;Under the off-position of the self-service electricity-selling terminal, if the self-service sale of electricity
Second current value of terminal exceeds the second current threshold scope, then generates the second fault message;If receiving from described first
The barcode scanning failure information of mobile client, then generate the 3rd fault message;
The failure sending module is electrically connected with the failure generation module, for by the Fisrt fault information, described second
Fault message and/or the 3rd fault message are sent to the second mobile client.
9. the management system of the self-service electricity-selling terminal according to claim 6 or 8, it is characterised in that the management system
Also include keeper;
The cloud platform includes gathered data receiving module, memory module, processing module and the first sending module;Wherein:
The gathered data receiving module, for receiving the gathered data from the self-service electricity-selling terminal, the collection number
According to including status information, use information and power information;The use information includes the Quick Response Code of the self-service electricity-selling terminal
Information, the first identity coding of cost information and user corresponding with the cost information and electricity consumption time;It is described to use telecommunications
Breath includes electricity consumption duration corresponding with the cost information or power consumption;
The memory module, for storing the gathered data;
The processing module, for handling the gathered data, obtains processing information, the processing information includes described
Total electricity consumption, total cost and the first electricity consumption time distribution curve of user, and the self-service electricity-selling terminal affiliated area, institute
State the total electricity consumption information, total cost information and the second electricity consumption time distribution curve of self-service electricity-selling terminal;
First sending module, the keeper for the processing information to be sent to management system, to adjust each region
The capacity of self-service electricity-selling terminal and the charging regulation of each period.
10. the management system of self-service electricity-selling terminal according to claim 9, it is characterised in that the cloud platform includes
Grouping module and the second sending module;Wherein,
The grouping module is electrically connected with the gathered data receiving module and the processing module, for according to the second movement visitor
Family end is grouped to the gathered data and/or the processing information;
Second sending module is electrically connected with the grouping module, for will be corresponding with second mobile client described
Gathered data and/or the processing information are sent to second mobile client.
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