CN112200975A - Controlled intelligent socket system - Google Patents

Abstract

The invention relates to the technical field of intelligent sockets and discloses a controlled intelligent socket system which comprises a socket body, a terminal control system and a server background system, wherein the socket body comprises a socket shell and a socket control circuit board, the socket system adopts a mobile phone terminal control system to pay, and greatly facilitates the payment operation of users relative to coin-in and card-swiping products. The flexibility requirement of socket operation has been satisfied.

Description

Controlled intelligent socket system

Technical Field

The invention relates to the technical field of intelligent sockets, in particular to a controlled intelligent socket system.

Background

In the cities and towns, use the district as the unit, the district has a plurality of high-rise buildings to constitute again, and along with the social development building is higher more, and in the resident life, most people go out more or less use the storage battery car, and the storage battery car is kept a quantity and is increased year by year, along with the storage battery car that comes charges and become social problem, the district resident can take the storage battery car home to charge many times, some low-rise residents, can pull the line and connect the socket privately, there is huge potential safety hazard, and the storage battery car takes place occasionally at home charge deflagration incident.

At the moment, coins are inserted, the card is swiped, the code scanning charging pile is produced at the same time, the charging problem of a residential battery car in a community is solved, and certain problems still exist in the products.

Firstly, charging piles in the market are 1 charging cabinet with a plurality of sockets, 1 drags 10 sockets, 1 drags 12 sockets and 1 drags 16 sockets, if 1 socket is damaged, a charging cabinet control panel is damaged, so that other sockets can not be used, and one socket is bad, the utilization rate is reduced, secondly, coin charging piles are easy to be stolen, and users also need to prepare coins at any time, the payment is inconvenient, the card-swiping charging piles have defects, the cost is required for preparing magnetic cards, the personnel maintenance is required, the quick large-scale expansion is not facilitated, meanwhile, the large amount of money such as 50 yuan and 100 yuan is required to be recharged once by the magnetic cards, in the actual operation process, users can reflect excessive recharging, but if the recharging is less, the card-swapping frequency is too high, the card-swapping cost and the time cost are increased, the operation efficiency is reduced, and the defects brought by coin charging and card-swiping charging are well solved by the code-scanning charging piles, it is 2G mostly to sweep the sign indicating number electric pile on the market at present, with the electric pile that fills of 4G network communication, can carry out data interaction with backend server, the sign indicating number payment is swept to the cell-phone, backend server opens and charges, it is convenient nimble, but it also has the weak point, there is not the signal in many districts basements, the no signal just can not use to sweep the sign indicating number electric pile that fills, the use of this type of electric pile that fills has restricted greatly, 2G simultaneously, and 4G network module is precious, still need to pay the flow rate charge annually, manufacturing cost and operating cost are high.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a controlled intelligent socket system which has the advantages of controllable socket power supply, power consumption monitoring, timing, communication, online payment settlement and offline payment settlement, and solves the problems that the socket cannot be controlled, one socket is broken and totally broken, the power consumption cannot be monitored, the timing and communication cannot be carried out, and the offline payment settlement cannot be carried out.

(II) technical scheme

In order to realize the purposes of controllable socket power supply, monitoring power consumption, timing, communication and online and offline payment settlement, the invention provides the following technical scheme: the utility model provides a controlled smart jack system, includes socket ontology, terminal control system to and server backstage system, socket ontology include socket shell and socket control circuit board, from taking the control panel mode in the socket, the switch board of 1 dragging a plurality of sockets on the non-market, its advantage lies in, can effectively prevent, when the electricity consumption takes place unusually, leads to the switch board to damage and the condition emergence of other unable uses of socket.

Further, socket shell is including 1 group or 2 group metal contact's jack, and the jack number of every group jack or 2 holes, 3 holes, or 5 these three kinds of types in hole, 5 hole socket shell's jack is by 2 holes and 3 holes's close coupling together, satisfies in geometry and can only insert a plug, and blocks the use of another plug for every group jack can only a storage battery car charge, prevents to steal the electricity.

Furthermore, the socket shell is provided with a two-dimensional code or a bar code or an equipment code, can be matched with a server background system and a terminal control system to perform operations such as targeted adjustment of electricity price and the like, and is used as a unique identification ID of the socket.

Furthermore, the socket control circuit board comprises a switch module, a processor module, an electricity meter metering module, a power conversion module and a wireless communication module, wherein the power conversion module converts alternating current into direct current, and provides direct current power for the processor module and the electricity meter metering module to enable the processor module and the electricity meter metering module to work normally, the access end of the switch module is connected with alternating current of commercial power, the output end of the switch module is connected to a metal contact of a jack of the socket shell so as to supply power to the outside, the switch module can receive a level signal of the processor module and carry out on-off control on the alternating current power supply of the commercial power accessed to the socket according to the level signal, namely, the power supply is switched on or. If the socket has 2 groups of jacks, then 2 switch modules are needed to independently control the power supply of each group of jacks to be turned on and off respectively. The electric meter metering module is connected with the socket jacks, the electricity utilization condition of the electric equipment connected with the socket jacks is monitored, the data such as current, voltage, power and electricity quantity during electricity utilization can be read, the electricity utilization data can be transmitted into the processor module, the processor module carries out statistical analysis and processing according to the data transmitted by the electric meter metering module, the electricity utilization abnormity is found, for example, the current is overlarge, the power exceeds the standard, necessary protection measures can be carried out, the control switch module is used for turning off power supply, the circuit and the external electric equipment are prevented from being damaged, the wireless transmission module can receive command signals of a terminal control system and transmit the command signals to the processor module, and the processor module executes corresponding control actions according to commands, or turns on power supply, or turns off power supply, or carries out timed power supply, or carries out fixed electricity quantity power supply.

Further, the power conversion module of the socket control circuit board includes an isolated power module and a non-isolated power module, the isolated power module converts the incoming mains supply 220V into 5V or 3.3V for the switch module and the processor module to use, while the non-isolated power module converts the incoming mains supply 220V into 5V or 3.3V for the meter metering module to use, and the 5V and 3.3V described herein are the optimal power supply voltages of the module chip components and devices, and should not be understood as an exact value. Such as 5.01V or 4.96V, are understood to be in the 5V range, which is common knowledge in electrical design.

Furthermore, the wireless communication module of the socket control circuit board is a Bluetooth communication module scheme, and the wireless communication module and the processor module of the socket control circuit board are combined into a whole. The Bluetooth communication module of the socket control circuit board can be communicated with the Bluetooth function program block of the terminal control system. The Bluetooth communication module of the socket control circuit board adopts a Bluetooth hardware chip module with a processor function, and organically combines a wireless communication module and a processor module of the socket together by using a programming mode of a Bluetooth protocol stack mode to form a Bluetooth processor combination module.

Further, the terminal control system is a software system and is a WeChat applet developed based on a smart phone, or a Paibao applet or a mobile phone APP. The program implements the following functions: the first one, can scan the content of two-dimensional code and analytic two-dimensional code, two-dimensional code content is equipment number, its two: setting different electricity prices of the sockets according to different equipment numbers; thirdly, the payment of the electricity consumption cost can be completed according to the price and the duration of the electricity consumption selected by the user; fourthly, the method comprises the following steps: after the electricity charge is paid, a corresponding electricity instruction is sent to the socket through the Bluetooth; the power consumption instruction needs to be encrypted before being sent, and the instruction exists in a ciphertext form in the transmission process. Fifthly, through bluetooth wireless communication, can read the data in the treater of the control circuit board in the socket, it includes: socket state data, socket ID number, socket power price data, power when socket power consumption, electric current, voltage, electric quantity and other monitoring data.

Furthermore, the processor module of the socket control circuit board stores socket electricity price data in a nonvolatile memory, and a payment function program module of the terminal control system can be connected with the wireless communication module of the socket control circuit board through a mobile phone Bluetooth control program to read the electricity price data stored in the processor module and charge and calculate the electricity consumption of the user according to the price, so that different sockets adopt different electricity prices.

Further, the background server system is a software system, and performs data interaction with the terminal control system: the system can complete a payment task in cooperation with a terminal control system; 2, completing a refund function by matching with a terminal control system; and 3, receiving user data, socket use state data and payment order data when the socket is used, which are transmitted by the terminal control system.

Further, the terminal control system interacts with the offline data of the background server system, and the implementation method comprises the following steps: under the non-network environment, such as a basement, a user starts a terminal control system, data are firstly cached in terminal equipment, such as data of order information, coupon consumption information, socket numbers, socket use condition information and the like are cached in a storage card of the terminal equipment, then the user leaves a non-signal area and moves to a signal area, at the moment, the terminal control system reads the data cached in the storage card of the mobile phone terminal equipment and sends the data to a background server, and data interaction under the non-network signal environment is realized in a caching mode.

(III) advantageous effects

Compared with the prior art, the invention provides a controlled intelligent socket system, which has the following beneficial effects:

this patent socket system, the cell-phone terminal control system who adopts pays, for insert coins with the product of punching the card, user's payment operation has been made things convenient for greatly, this patent socket control circuit board's bluetooth communication module and processor module, the composite module that combines together organically, can save the use of processor chip, reduce socket hardware cost, combine terminal control system's voucher function simultaneously, the off-line interactive mode of data cache, let under the no network signal environment, also can control the socket and open and charge or close and charge, reach the off-line and use the purpose, terminal control system can be according to the difference of socket number, realize the individuation and the differentiation setting of socket power consumption price, the flexibility demand of socket operation has been satisfied.

Drawings

FIG. 1 is a diagram of a first system of the present invention;

FIG. 2 is a diagram of a second system of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. 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 invention.

Referring to fig. 1-2, a controlled smart socket system includes a socket body, a terminal control system, and a server background system, where the socket body includes a socket shell and a socket control circuit board, the socket shell has a jack with a metal contact to allow a plug of an electric device to be plugged in and supply power, the socket control circuit board can control the socket to supply power, or turn on the power, or turn off the power, or supply power at regular time, or supply power at fixed power amount according to an instruction of the terminal control system, and the background server system needs to complete payment and settlement of charging fees in cooperation with the terminal control system.

Socket shell is including 1 group or 2 jacks of group metal contact, and every group jack only allows the use of an consumer, can only insert a plug, its characterized in that: the number of the jacks is 2, 3 or 5, the 5 jacks are formed by tightly combining the 2 jacks and the 3 jacks, only one plug can be plugged in the 5 jacks geometrically, and the other plug is blocked from being used, for example, the 2 jacks are plugged by a power plug, the plug can cover the 3 jacks in volume, so that the 3 jacks cannot be used.

The socket shell is provided with two-dimensional codes or bar codes or equipment codes, the two-dimensional codes or the bar codes or the equipment codes are unique identification ID information of the socket, and the code ID of the socket needs to be consistent with the socket ID broadcasted by the socket control board wireless communication module. Socket coded ID, has the following usefulness: firstly, a user scans a code to read ID information through a mobile phone terminal control program; the mobile phone terminal searches for the ID of the socket by searching the Bluetooth broadcast of the surrounding sockets and compares the ID with the ID of the scanned code. If equal, connect the bluetooth of this socket. Therefore, the mobile phone terminal and the socket for wireless communication are connected in a one-to-one correspondence mode, and the disorder of signals is avoided. Secondly, in a program block of the payment function of the terminal control system, different electricity prices can be set according to different ID codes.

The socket control circuit board includes: the power supply conversion module converts alternating current into direct current to provide direct current power for the processor module and the ammeter metering module so that the processor module and the ammeter metering module can work normally, the input end of the switch module is connected with alternating current of commercial power, and the output end of the switch module is connected with a metal contact of a jack of the socket shell to supply power to the outside. The switch module can receive the level signal of the processor module and carry out on-off control on the commercial power alternating current power supply accessed to the socket according to the level signal, namely, power supply is turned on or off. If the socket has 2 groups of jacks, then 2 switch modules are needed to independently control the power supply of each group of jacks to be turned on and off respectively. 2 switch modules, the processor is required to independently control the on and off of each switch module by two paths of level control signals. The switch module is implemented with a relay. The electric meter metering module is connected with the socket jacks, monitors the electricity utilization condition of the electric equipment connected with the socket jacks, can read data such as current, voltage, power and electric quantity during electricity utilization, and can transmit the electricity utilization data into the processor module, and the electric meter metering module is realized by adopting a special electric meter metering chip, such as an HLW8032 chip and an HLW8012 chip. If the socket has 2 groups of jacks, then also need to have 2 ammeter metering modules to independently monitor the power consumption condition data of each group of jacks respectively, then two sets of data all transmit to the processor module. The processor module is responsible for controlling the whole socket circuit, reading electric meter signals and operating data, and can perform statistical analysis and processing according to data transmitted by the electric meter metering module, find that electricity consumption is abnormal, such as overlarge current and excessive power, necessary protection measures can be performed, the switch module is controlled to close power supply, the circuit and external electric equipment are prevented from being damaged, if the electric meter metering module reads that the electricity consumption current of the external circuit of the socket is 0 and the power is 0, the power indicates that the power supply of the electric equipment connected with the socket is pulled out or the battery of the battery car is fully charged, for safety, the processor module controls the switch module to cut off the power supply of the socket, and the processor module can use a single chip microcomputer system, such as C51, STM32 and other processor chips. The wireless communication module can receive an instruction signal of a terminal control system and transmit the instruction signal to the processor module, and the processor module executes corresponding control operation according to the instruction content, or starts the socket to supply power, or closes the socket to supply power, or supplies power at regular time, or supplies power at fixed electric quantity, and the like. For example, a user pays 2-hour charging fee, an instruction is sent to the wireless communication module of the socket control circuit board through a Bluetooth program of the terminal control system and then transferred to the processor module, the processor module immediately starts the socket to supply power after receiving an instruction of using the power for 2 hours, and the power supply is turned off after 2 hours, so that a timed power supply task is completed. The user can also pay according to the electric quantity, for example pay the expense of 1 degree electricity, through wireless communication module, with the instruction of using 1 degree electricity, pass to processor module, processor module opens the power supply to carry out the power consumption analysis according to the data that the ammeter module transmitted, after the ammeter detected the power consumption electric quantity and exceeded 1 degree electricity, processor module control switch module turned off the power supply.

The power supply conversion module of the socket control circuit board comprises an isolation power supply module and a non-isolation power supply module, wherein the isolation power supply module converts the accessed mains supply 220V into 5V or 3.3V for the switch module and the processor module to use, and the non-isolation power supply module converts the accessed mains supply 220V into 5V or 3.3V for the meter metering module to use. When the processor module which uses the isolated power supply for supplying power and the ammeter metering module which is connected with the non-isolated power supply are used for signal intercommunication, the data signal of the ammeter metering module can be connected to the processor module through the photoelectric coupler. The isolation power supply circuit can be realized by adopting a switch power supply circuit, and the non-isolation circuit can be realized by a resistance-capacitance voltage reduction and stabilization circuit. The power conversion module converts alternating current into 5V or 3.3V direct current power supply according to the power supply required by the electric elements, so that the direct current voltage for normal operation of the elements is the standard, and the direct current voltage is more than 5V or 3.3V. Components with 12V are not excluded.

The wireless communication module of socket control panel is the bluetooth communication module scheme, can communicate with terminal control system's bluetooth function program piece each other, and user's terminal equipment is the cell-phone, the bluetooth is from the area, compare in other wireless communication means, socket control circuit board adopts the bluetooth, the cost is more economized, the signal is more stable, do not have 2G, 4G, and under the wifi network signal, the bluetooth communication can be used as usual, when realizing no network signal, the user can use the socket as usual, open the socket power supply.

The socket control panel wireless communication module and the processor module are combined into one, a Bluetooth hardware chip module with a processor function is adopted, such as CC2541 and CC2540 chips, a programming mode of a Bluetooth protocol stack mode is adopted, the wireless communication module and the processor module are organically combined together, and a Bluetooth processor combination module is formed. After the combination, the expense of a single processor module is saved, the cost is saved, the circuit is simpler, and the failure rate is lower.

Terminal control system, for software system, the little letter applet based on smart mobile phone development, or pay precious applet or cell-phone APP, the function that its needs to possess is: the mobile phone Bluetooth payment system has the advantages that the two-dimensional codes or the bar codes can be scanned and analyzed, the two-dimensional codes or the bar codes on the socket shell can be read and analyzed, the payment function can be completed, the mobile phone Bluetooth communication function can be started, the background server can be accessed through mobile phone signals or wifi signals, the payment function program block can perform statistical charging according to the electricity price and the electricity utilization time selected by a user, the payment work of electricity utilization cost can be completed under the cooperation of the background server program, after the payment is completed, the terminal control system generates operation instructions such as timing charging instructions, the instruction data are transmitted to the socket through the mobile phone Bluetooth communication program block, and the further, the instruction data are transmitted to the processor module in the control circuit board of the socket.

The payment function program of the terminal control system can set different charging prices according to different socket numbers, so that charging statistics of different sockets by adopting different electricity utilization prices is realized, convenience is brought to socket operation, for example, the charging function program meets the requirements of community managers and gives preference to residents during operation, all sockets installed in the community by an operator need to be different from other communities when electricity is used, the calculation of the electricity cost price is different from that of the socket numbers of other communities, and the different charging prices can be adopted by detecting that the socket numbers are different from the socket numbers of the other communities through the payment function program of the terminal control system. For example, the charging pile installed in the cell B of the operator a needs to set the electricity price to 1 yuan for 5 hours according to the requirement of the manager of the cell B, and the cell B is provided with numbered sockets such as the sockets cz1 and cz 2. And the terminal control system scans the code to identify the socket number cz1, belongs to the socket of the cell B, and sets the pricing to be 0.2 yuan for 1 hour when in payment. If the cell C is priced for 1 yuan and 2 hours, the cell C has sockets C1, C2 and the like; when the terminal control system scans the code and recognizes that the socket number is C1, the electricity price is set to be 1 hour and 0.5 yuan at the moment. The difference of socket serial numbers is used for realizing the differentiated setting of electricity price. The socket operation is more flexible.

The payment function program module of the terminal control system can read the socket electricity price data stored in the socket processor module through the socket wireless communication program, and the price data is used for carrying out charge statistics on the electricity demand of the user, so that different sockets can adopt different electricity prices. By the method, different electricity prices of different sockets are realized, and the charging is more flexible and variable. And the operator sends the electricity price data of a certain socket to the control circuit board processor module of the socket through the Bluetooth by a program of the terminal control system. When the user uses, start terminal control system, through the bluetooth program with the electricity price data read out can, can realize the advantage of revising the price at any time during the operation, and need not revise terminal control system's program code. For example, the operator a sets up the electricity price for 1 yuan for 5 hours in the charging pile installed in the cell B, and the cell B is installed with the sockets numbered by the sockets cz1, cz2, and the like. At ordinary times, the program of the terminal control system is updated and changed rarely, and the electricity price needs to be changed to 1 yuan 10 hours in one day according to the requirements of the managers in the community B, so that the program of the terminal control system is not easy to change, and the operator A can send the price data to the processor module of the control circuit board of the socket for storage through the Bluetooth function program of the mobile phone terminal control system. When the user uses the system, the mobile phone terminal control system of the user reads the electricity price data in the processor module of the socket control circuit board through the Bluetooth function program, and then charges and pays according to the price data, namely the electricity price of 0.1 yuan per hour. Through the method, differential setting of electricity price can be realized. The socket operation is more flexible.

The Bluetooth communication function program block of the terminal control system can be connected with a wireless communication module of a socket, can read monitoring data and power consumption price data of the socket and can send an operation instruction of a user to the socket, for example, the Bluetooth communication function program of the terminal control system can read the power consumption of electric equipment on the socket and can read serial number data of the socket and can send a timing charging instruction or a constant-power charging instruction to the socket, the terminal equipment is a mobile phone generally, and most mobile phones have a Bluetooth function.

The payment function program block of the terminal control system also has a coupon function, namely virtual currency similar to electronic currency, wherein a certain amount of coupons are equal to a certain amount of currency, for example, 1 yuan is equal to 1 electric coupon. The user can purchase a certain amount of coupons through the payment function of the terminal control system, the coupons can be stored in the storage cards of the terminal devices such as the mobile phone, payment settlement can be carried out through the coupons when the power supply of the socket is started, meanwhile, consumption records of the coupons can be stored in the storage cards, and then consumption data of the coupons are sent to the background server through network signals of the mobile phone of the terminal device.

The payment function module of the terminal control system has a refund function, and after the user pays, when the user starts charging, if the user repels or fails, the user does not want to use electricity and refunds, within a certain time, the time is called as electricity repentance period, and within the repentance period, the user can initiate refund and close an electricity utilization task. The repentance time can be freely set according to the requirements of operators, and refund result data can be sent to a background server through a terminal control system.

And the background server system is a software system and can be matched with the terminal control system to complete the payment task and the refund function. The system can receive user data, socket data and the data of the power consumption payment order of the user and the like transmitted by the terminal control system.

The terminal control system and the background server are in data interaction, and a feasible implementation scheme can be provided under the condition of no network signal, and the implementation method comprises the following steps: when a user uses the terminal control system under the condition of no network, such as order information, coupon consumption information, socket numbers, socket use conditions and other information data, the data are cached in a storage card of the terminal equipment, then after the terminal completes a power utilization task, the user leaves a socket area without signals and moves to a work area and a living area with signals, at the moment, the terminal control system reads the cached data in the storage card of the equipment and sends the data to a background server, and data interaction under the condition of no network signals is completed in a caching mode.

The terminal control system and the wireless communication system of the socket control circuit board carry out data communication, data needs to be encrypted, the data exists in a ciphertext mode in the transmission process, the data is encrypted during sending, the data is decrypted during receiving, and the encryption algorithm and the encryption password adopted by encryption need to be strictly secret.

The socket system is owned by an operator, a user uses the socket system, the user needs to charge for electricity consumption by using the socket system, the operator installs the socket body in a certain area, and the two-dimensional code label with socket code ID information is adhered to a socket shell.

When the socket body is installed in a signal area and a user uses electricity, the plug of an electric appliance needs to be inserted into a jack with a metal contact of a shell of the socket, the user uses a mobile phone terminal to start a terminal control system program, a two-dimensional code on the socket shell is scanned, a payment function program block of the terminal control system is started, corresponding electricity price is set according to different socket code IDs, the user selects electricity rules, for example, electricity is selected for 4 hours, the payment function program block calculates electricity cost according to the designation of the user and the corresponding price, then a background server program assists a payment program block of the mobile phone terminal control system to finish payment of the electricity cost, a corresponding charging instruction is formed after the payment is finished, the terminal control system encrypts the electricity instruction to form an instruction ciphertext, and the Bluetooth communication function program block of the terminal control system transmits the instruction ciphertext to a Bluetooth wireless communication module of a socket control panel through Bluetooth communication, the module transfers the instruction ciphertext data to the processor module, the processor module decrypts the instruction ciphertext to form the power utilization instruction, and then the processor executes the power utilization instruction. For example, the timing charging instruction, the processor executes the steps that the processor module firstly starts the switch module of the socket control panel to supply power to the socket, and controls the switch module to cut off the power supply when the timing time is over, so that the socket stops supplying power. And the timed work task is realized by an internal clock peripheral of the processor module. The power utilization process of the socket is complete, in the power supply process of the socket, the electric meter metering module of the socket control circuit board monitors the power utilization condition of the socket at any time, and when abnormity occurs, such as overlarge current, short circuit and the like, the processor module can make abnormal response processing, such as direct power off. After the power consumption task is completed, the terminal control system sends the order data for paying the power consumption to the background server for processing or storing.

When the socket body is installed in a no-signal area for user power utilization, a mobile phone terminal control system is started in a signal area in advance, a certain number of coupons are purchased through a payment function program block of the mobile phone terminal control system, after the coupons are purchased, the payment function program block of the mobile phone terminal control system stores the coupons in a mobile phone memory card, the amount and the content of the coupons are encrypted, and the ciphertext of the coupons is stored in the memory card. When a certain number of coupons are stored in the memory of the mobile phone terminal, the mobile phone terminal can go to a network signal-free area where the socket is located. Such as the socket charging area of a basement, which is frequently without signals.

In no signal area, insert the plug of electrical apparatus in the jack that this patent socket's shell has the metal contact, the user is the terminal with the cell-phone, start terminal control system program, scan the two-dimensional code on the socket shell, terminal control system's payment function program block will start, acquire corresponding power consumption price according to the socket difference, the user selects the power consumption rule, for example appointed power consumption time, or appointed power consumption electric quantity, payment function program can be according to user's appointed and corresponding price, calculate the power consumption expense. At this time, because there is no network signal, the backend server program cannot be contacted, and the payment function of the real money cannot be completed. This requires payment through a ticket, which is called ticket payment. After the payment of the ticket is finished, the data of the amount of the paid ticket, the balance of the ticket, the socket number ID, the payment time and the like are stored in the memory card of the mobile phone. Meanwhile, after the ticket payment is completed, the terminal control system generates a corresponding power utilization instruction, the power utilization instruction is encrypted to form an instruction ciphertext, the instruction ciphertext is transmitted to the Bluetooth wireless communication module of the socket control panel through Bluetooth communication by the Bluetooth communication function program module of the terminal control system, the instruction ciphertext data is transmitted to the processor module by the module, the processor module decrypts the instruction ciphertext to form the power utilization instruction, and then the processor executes the power utilization instruction. For example, if the instruction is power utilization at regular time, the processor module firstly starts the switch module of the socket control panel to enable the socket to supply power, and then controls the switch module to cut off the power supply when the regular time is over, so that the socket stops supplying power. The timed work task is realized by a clock peripheral module in the processor module, which is a complete power utilization process of the socket when no network signal exists. In the power supply process of the socket, the electric meter metering module of the socket control circuit board monitors the power utilization condition of the socket at any time, and when abnormity occurs, the processor module can make abnormal response processing, for example, when the conditions of overlarge current, short circuit and the like occur during power utilization, the power supply is directly turned off. After the electricity is used, electricity order data paid through the coupons, such as the number of paid coupons, the coupon balance, the coupon payment time and other data, can be automatically uploaded to the background server when a signal appears at the mobile phone terminal.

To sum up, this patent socket system, the cell-phone terminal control system who adopts pays, for insert coins and the product of punching the card, user's payment operation has been made things convenient for greatly, this patent socket control circuit board's bluetooth communication module and processor module, the composite module that combines together organically, can save the use of processor chip, reduce socket hardware cost, combine terminal control system's coupon function simultaneously, the offline interaction mode of data cache, let under the no network signal environment, also can control the socket and open and charge or close and charge, reach the off-line and use the purpose, terminal control system can realize individualized and the differentiation setting of socket electricity charge price according to the difference of socket number, the flexibility demand of socket operation has been satisfied.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a controlled smart jack system, includes socket ontology, terminal control system to and backstage server system, socket ontology include socket shell and socket control circuit board, socket shell surface is provided with two-dimensional code or bar code or equipment code.

2. A controlled smart outlet system according to claim 1, wherein: the socket shell comprises 1 group or 2 groups of jacks of metal contacts, the number of the jacks of each group is three types of 2 holes, 3 holes or 5 holes, and the 5 holes of jacks are tightly combined together by the 2 holes and the 3 holes.

3. A controlled smart outlet system according to claim 1, wherein: the socket control circuit board comprises a switch module, a processor module, an ammeter metering module, a power supply conversion module and a wireless communication module.

4. A controlled smart jack system according to claim 3, wherein: the power conversion module of the socket control circuit board comprises an isolation power module and a non-isolation power module.

5. A controlled smart jack system according to claim 3, wherein: the wireless communication module of the socket control circuit board is a Bluetooth communication module scheme, and the wireless communication module and the processor module of the socket control circuit board are combined into a whole.

6. A controlled smart jack system according to claim 3, wherein: the processor module of the socket control circuit board stores socket electricity price data in a nonvolatile memory, and the electricity price data can be read by a terminal control system.

7. A controlled smart outlet system according to claim 1, wherein: the terminal control system is a software system and is a WeChat applet developed based on a smart phone, or a Paibao applet or a mobile phone APP, and the program realizes the following functions: firstly, the two-dimensional code can be scanned and the content of the two-dimensional code can be analyzed; the two-dimension code content is an equipment number; the second step is as follows: setting different electricity prices of the sockets according to different equipment numbers; thirdly, the payment of the electricity consumption cost can be completed according to the price and the duration of the electricity consumption selected by the user; fourthly, the method comprises the following steps: after the electricity charge is paid, a corresponding electricity instruction is sent to the socket through the Bluetooth; the power consumption instruction needs to be encrypted before being sent, and the instruction exists in a ciphertext form in the transmission process.

8. A controlled smart outlet system according to claim 1, wherein: the terminal control system has an off-line payment electricity utilization function, and the specific method comprises the following steps: the user purchases a certain amount of coupons through the payment function of the mobile phone terminal control system, the coupons are stored in a storage device of the mobile phone terminal, under the offline condition, coupon data are read, payment settlement of the coupons is conducted, after settlement is successful, a corresponding power utilization instruction is sent to the socket through a Bluetooth module of mobile phone terminal equipment, and after the power utilization instruction is received by a socket control circuit board processor module, power utilization is started.

9. A controlled smart outlet system according to claim 1, wherein: the background server system is a software system and performs data interaction with the terminal control system: the system 1 can cooperate with a terminal control system to complete a payment task, and 2 receives user data, socket use condition data and payment order data when the socket is used, wherein the user data, the socket use condition data and the payment order data are transmitted by the terminal control system.

10. A controlled smart outlet system according to claim 1, wherein: the terminal control system and the background server system have an offline data interaction function, and the implementation method comprises the following steps: in a network-free environment, a user starts a terminal control system, firstly caches data in the mobile phone terminal equipment, such as data of order information, coupon consumption information, socket numbers and the like, and firstly caches the data in a storage card of the terminal equipment, then the user leaves a signal-free area and moves to a signal-containing area, at the moment, the terminal control system reads the cached data in the equipment storage card and sends the data to a background server, and data interaction in the network-free signal environment is realized in a caching mode.

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