CN204928201U - Big data power wireless transmission charging system - Google Patents

Abstract

The utility model provides a big data power wireless transmission charging system, relates to big data mobile internet technical field and FM high -frequency carrier wireless transmission technical field. The basic station of charging: be used for accepting the management of system management platform, according to the synchronous same phase of data power carrier pass again, synchronous receive demodulate, electric current be parallelly connected / output of the cascade voltage synthetic principle of stack of charging, adopt the long -range wireless transmission data power of FM high -frequency carrier to removing charging terminal, remove charging terminal: be used for accepting the management of system management platform, send charging data instruction identification code to the system management platform, accept through the nearest distance continuity of system management platform identification the charging of basic station of charging of flowing, remove the data power carrier of charging terminal for receiving wireless transmission to the direct solution adjustment is flowed and is charged, need not through any active secondary power amplification circuit. Realize the remote wireless transmission of data power, removed passive dream of charging.

Description

A kind of large data power wireless transmission charging system

Technical field

The utility model relates to large data mobile Internet technical field and FM high frequency carrier radio transmission technical field.

Background technology

Its voltage/current of traditional low-frequency linear power supply 1,00/,240 V AC50/60Hz conduction that the whole world uses is the transmission connected by wire, but cannot the connection charging inlet of convenient fixing under many special places and environment, such as, on field, mountain area and spacious ground and sea, island; Existing " charger baby " replaces the terminal equipment not being with electric current larger, such as Mobile hand-held panel computer, the mobile detection instrument instrument of various uses function, medicine equipment, particularly electric automobile, electric bicycle; Need the terminal equipment of charging really to bring for these much to trouble; Current large data mobile Internet era, the novel intelligent terminal product of the mobile Internet that increasing power is larger all be unable to do without portable power source and charges, and how to solve high-power mobile charging, has become the difficult problem that current technology neighborhood is tackled key problems jointly.

Summary of the invention

In sum, the utility model is to solve data power remote wireless transmission in object, the blank of the global prior art of mobile passive charging, and proposes a kind of large data power wireless transmission charging system.

For realizing the purpose of this utility model, the technical scheme of employing is: a kind of large data power wireless transmission charging system, is characterized in that described system includes:

System management platform: for managing the user profile data corresponding to each mobile charging terminal, the charge data instruction identification code sent mobile charging terminal is carried out data processing and Long-distance Control and respectively to be charged base station, charge data instruction identification code according to receiving carries out GPS location to mobile charging terminal, determine from the nearest charging base station of mobile charging terminal, and charge data instruction identification code is forwarded to nearest charging base station, nearest charging base station is opened to corresponding mobile charging terminal transmission data power supply carrier, to reserve battery and the charging of mobile power consumption equipment after the rectification of mobile charging terminal demodulates, and accept the feedback data of mobile charging terminal complete charge, control system complete charge,

Charging base station: for accepting the management of system management platform, pass again according to the synchronous same-phase of data power carrier, superposition composition principle is charged in the synchronously output of receiving demodulation, current parallel/Voltage Series, adopt FM high frequency carrier long range radio transmissions data power to mobile charging terminal;

Mobile charging terminal: for accepting the management of system management platform, sends charge data instruction identification code to system management platform, accepts the charging of the minimum distance continuity flowing charging base station assert by system management platform; Mobile charging terminal is receive the data power carrier of wireless transmission, and Directly solution adjustment current charge, without the need to through any active secondary power amplifying circuit.

Described charging base station includes rack, and the main electroplax be located in rack, main electroplax includes HD high-frequency data power conversion monolithic integrated circuit, connect the FM carrier frequency monolithic integrated circuit of HD high-frequency data power conversion monolithic integrated circuit, connect the data power earner power amplification circuit of FM carrier frequency monolithic integrated circuit, the data command coding monolithic integrated circuit of connection data power supply earner power amplification circuit, the power stage integrated circuit of connection data power supply earner power amplification circuit, power stage integrated circuit electrical connection antenna circuit, data command coding monolithic integrated circuit is controlled by CPU.

The utility model beneficial effect: be the blank to global prior art, apply large data mobile the Internet, cloud computing management platform is unified, network, calculating, storage, systematic unity, achieve data power remote wireless transmission, the dream of mobile passive charging.The Internet ten mobile phone, lPAd, portable panel computer, need not manually charge; The Internet ten electric bicycle, lightly conveniently to go and charges; The Internet ten electric automobile, charges along race limit, highway limit.

Accompanying drawing explanation

Fig. 1 is the utility model transmission Z base cabinet and reception G extension set structural system flow chart;

Fig. 2 is that the utility model Z base cabinet transmission-G extension set receives network structure;

Fig. 3 is the utility model base cabinet and charger construction figure;

Fig. 4 is that the utility model moves passive charging system flowage structure figure;

Fig. 5 is the utility model gps data board construction figure;

Fig. 6 is the utility model demodulation rectifier diode bridge pile structure figure;

Fig. 7 is the utility model Z base cabinet carrier board construction figure.

Embodiment

Below in conjunction with accompanying drawing and the utility model specific embodiment, the utility model is further described.

With reference to shown in Fig. 1, the utility model system includes: based on the management platform (being also the internet platform 491001 in accompanying drawing) of the Internet, be distributed in charging base station on diverse geographic location (the Z base cabinet 1012 also namely in accompanying drawing), and the mobile charging terminal of synchronously carrying with mobile power consumption equipment (the G extension set charger 2012 also namely in accompanying drawing);

Management platform, for the user profile data management corresponding to each mobile charging terminal, the charge data instruction identification code sent mobile charging terminal is carried out data processing and Long-distance Control and respectively to be charged base station;

Charging base station, adopts FM high frequency carrier long range radio transmissions data power to mobile charging terminal;

Mobile charging terminal, for sending charge data instruction identification code to management platform, management platform carries out GPS location according to the charge data instruction identification code received to mobile charging terminal, determine from the nearest charging base station of mobile charging terminal, and charge data instruction identification code is forwarded to nearest charging base station, nearest charging base station is opened to corresponding mobile charging terminal transmission data power supply carrier, to reserve battery and the charging of mobile power consumption equipment after the rectification of mobile charging terminal demodulates.

1, data power FM carrier, application data (4999999999) instruction identification code corresponding transmission one to one/corresponding mobile passive charger G(1-49999999 received) extension set (2012); As Fig. 3 shows, described mobile passive charger 2012 comprises main antenna 2011 and received vector D transmits main electroplax 1014, by transmission main body Z(499999) base cabinet (1012), the data power of remote wireless transmission, transport vehicle D is received to after separating tuned plate (2014) demodulation rectification, without the need to through any power supply secondary power amplifying circuit through gps data electroplax (2017) identification code correspondence! Directly through USB(2019) interface connects charging wire (2016) and charges to terminal equipment, be called passive charging, realize the system engineering flowage structure that wirelessly transmitting data power supply moves passive charging, fill up the blank of the passive charging of global movement, as shown in Figure 2.

Flow process 1 needs the charger G extension set 2012 of charging to send charge data instruction identification code to internet platform (491001), and mobile Internet platform processes the data command received.

Flow process 2 internet platform (491001) sends charge data cluster instruction to the charging instruction received to Z base cabinet (1012).

Flow process 3Z base cabinet cluster receives the data command of mobile Internet platform charger, and (10 ^-13in second) (K:10 bears 13 powers; ) 2012L(1-49999999 relevant to data command identification) charger G extension set does GPS location, determines (10 ^-13in second) from the nearest Z base cabinet CPU(1013 of charger), program is automatically opened and is exported 1A point, and access transmitting antenna (1011) is corresponding to charger transmission data power carrier D,

Flow process 4G extension set charger starts reserve battery (2018) and the passive charging of mobile terminal device, after charging terminates, charge data is transferred to Z base cabinet (1012) closedown (1014) transport vehicle D instruction by program automatically and internet platform makes charge data (voltage, electric current, time is with a point timing) record, as shown in fig. 1.

2, carrier D board construction (1014), as shown in Figure 4, the main electroplax of data power FM carrier (1014) is by HD high-frequency data power conversion monolithic integrated circuit (2001), FM carrier frequency monolithic integrated circuit (2002), data power earner power amplification circuit (2003), data command coding monolithic integrated circuit (2004), power stage integrated circuit (A1) point connects antenna circuit (2005), control the program (2004) that (2005) export, (2004) CPU(1013 is controlled by), (A1) and B2 point are controlled by again (2004), the high-frequency data power supply carrier D of formation standard transmits electroplax (1014).

3, transmission and receiving system structure, with reference to shown in Fig. 2, application data network is transmission/reception system flow structure one to one: comprise by data power carrier (D) wireless transmission Z base cabinet (1012) cluster, and receiving demodulation charger G extension set cluster (2012) of corresponding data power carrier (D) is combined into;

Wirelessly transmitting data power supply carrier (D) both simple and easy and great system engineerings, described Z base cabinet 1012: volume is little, lightweight, standardization level is high, the system of being convenient to adopts the network installation of special matrix equivalent expression to safeguard, reaches high-effect long distance wireless transmission/reception data power, the intensive equivalent network transmission structure of passive charging, equivalent network can make efficiency of transmission significantly be improved, and just can reach the effect of portable passive charging.

4, Z base cabinet (1012) structure and function, with reference to shown in Fig. 4, according to mobile passive charging system flowage structure feature, the cluster comprising described Z base cabinet (matrix form) is installed, and Z base cabinet system flowage structure (as shown in fig. 1).Ensure that the stability of charger G extension set in Mobile data command flow process and reliability, it is characterized in that often moving different positions, the CPU(1013 in base cabinet when charger G extension set) by according to the up-to-date program arrangement instruction (10 of GPS ^-13in second) frequent switching change the transmission location of Z base cabinet, charger G extension set is made to move passive charging according to the signal transmission receiving demodulation rectification of the best all the time, the Z base cabinet (1012) of transmission data power carrier D, comprise main transmit antenna (1011), central processor CPU (1013), data command coding circuit (1017), USB output socket (1019), BT rechargeable battery for subsequent use (1018), the main electroplax of transmission (1014) of calibration power carrier D, as shown in Figure 3, main transmitting antenna (1011) compatible data transmission simultaneously and receiving function, CPU(1013) command information of GPS positioning function and process mobile Internet is comprised, identification data command encoder (1017), in Z base cabinet, H(1-499 is installed) block power, size, benchmark carrier D electroplax (1014) that data are unified, and base cabinet connects USB interface group (1019) with base cabinet data.

5, the emergent flowage structure of Z base cabinet power failure, is provided with charging (1018) battery for subsequent use in Z base cabinet, when main body Z base cabinet has a power failure, and automatic (10 ^-13in second) open stand-by power supply, CPUz sends power failure data command to nearest Z base cabinet, the CpU of adjacent Z base cabinet revises automatically, transfer charging instruction, and send to the Internet the data command that has a power failure, when stand-by power supply be depleted to remaining 20% electric energy time, in the Z base cabinet had a power failure, CPU sends charging instruction from trend the Internet, namely the Internet sends the instruction to the charging of Z rack to Z base cabinet (station) nearby, the command simultaneously had a power failure by Z base cabinet was to inspection in 24 hours, maintenance person, maintenance man nearby will arrive the in-situ processing of power failure Z base cabinet in 30 minutes, and by safety at power cut in 15 minutes that arrive, the result data of process feeds back to internet system platform.

6, the setting of reserve battery 2018, comprise data power wireless receiving demodulation G extension set (2012), as shown in Figure 3, antenna (2011) set by G outer casing inner wall, GPS framing signal instruction identification code electroplax (2017), the demodulation cowling panel (2024) identical with the multiplying power of reference power carrier D, built-in BT miniature charging battery for subsequent use (2018), and connect the USB interface cluster (2019) of charging terminal equipment, gps signal electroplax (2017) and reserve battery charging instruction plate, instruction identification code is all at same electroplax, built-in aerial has reception and launches compatibility function, in G shell, L(1-4999 is installed) block received power, size, the demodulation cowling panel that data are identical, it is characterized in that solution tuned plate that every block receives is connected with USB output socket (2019) cluster of corresponding data code, comprise BT(2018) inside is provided with BT(2018) automatic/hand charging instruction button.When being arranged at automatic charging data command, BT(2018) power consumption is when remaining 20%, and charging panel (2017) sends charging instruction from trend Internet data center.

GpS framing signal (2017) is supplied to the signal that Z base cabinet location uses, if rechargeable battery (2018) in charger, the replacing that problem wants instant occurs, it is characterized in that the display screen on charger can show battery capacity indication (as shown in Figure 3) automatically.

7, passive charge operation track configuration principle is moved, in Z base cabinet, CPU(1013 is installed) central processing unit and GPS location (receive G extension set (2017) signal) system, base cabinet internal antenna (1011) receives after internet data platform sends charge data instruction, CPU(1013 in base cabinet cluster) fast (10 ^-13in second) do GPS location, by instruction to after the extension set location comparison that need charge, from the Z base cabinet automatic turn-on data power supply carrier D electroplax (1014) that cpu system is nearest, be transferred to corresponding charger G extension set (2014) to receive, and the data feedback of charging is returned internet data platform and the Z base cabinet CPU(1013 to charger transport vehicle), make charge data information record.As shown in Figure 1.

(1017) GPS framing signal electroplax is installed in charger G shell and is connected with program control identification code electroplax, when CPU in Z base cabinet receives the Gps location data signal of charger G transmission, the all CPU receiving gps signal of all Z base cabinet clusters, all program point instruction arrangement ((10 is done in unification ^-13in second)) the new positional alignment of orderly execution, and open transmission data medium D electroplax by new On/Off instruction repertorie, charger G often moves to different positions, the high-frequency data power supply carrier D electroplax received, also by from transmission/reception (10 in different Z base cabinets ^-13in second) switch), guaranteeing charger G(2012) the carrier D that receives receives stronger signal source whenever and wherever possible, network busy automatic order arrangement charging, when charge user is at ordered arrangement, because Z base cabinet (1014) is all full nearby, CPU(1013) automatically postpone at (KS second in) backward, before premature termination, charge volume terminates to 60%, guarantee that the extension set that will charge all fills electricity with within the shortest time, if sequence charging continues to increase, finally reduce to each G charge volume to 50%, namely the next G that automatically switches charges, and indicate busy on G display screen! as shown in Figure 4.

8, the setting of benchmark carrier D and symbols Z DR functional representation, as shown in Figure 5, application data power supply bearer synchronization same-phase passes again, synchronous receiving demodulation, the output charging superposition composition principle of current parallel/Voltage Series, and setting data power reference power carrier D5.0V/1.0A is standard vector symbol, reference power electric energy carrier is represented and each carrier has a receiving code transmitting the data of numeric data code and correspondence with D, if D is a transmission base amount, such as ZDR represents: reference power 5.0 V 1.0A, ZD represents Z-block datum plate synchronous (series connection), voltage and Z-block D plate reference voltage phase making alive total value, DR represents that reference current R multiplying power is multiplied, such as (6D2) represents that 5.0V is synchronously added the series voltage of 6 times=30V, D2 represents 1.0A reference current 2 multiplying powers=2.0A, total 6D2 represents that 30V2.0A exports, power is 60W, in the Z base cabinet of reception instruction, CPU Zi Dong Ji Suan goes out to need the carrier D electroplax of 5W to be 12 pieces, CPU sends transmission charge data code instruction, to the G synchronous transmission 12 pieces of carrier D(1014 that need charge) electroplax to numeric data code corresponding demodulation electroplax (2014) charging, by that analogy, it is characterized in that realizing for different power and different benchmark superimposed voltage demand, and the wireless charger G(2014 of the gross power reception of the multiplying power superposition of calibration power) synchronous demodulation 12 plots of benchmark carrier D electricity slopes, and exported respectively by 12 USB interface.Mate 12 UsB output charging wire to charge to terminal equipment, as shown in Figure 5, by that analogy, different capacity, the G extension set of different voltage, just mates different USB and connects charging wire simultaneously.

According to the above, application of synchronized same-phase passes superposition charging principle again, effectively improve and simplify the efficiency of the passive charging of transmission/demodulation and the transfer process structure of carrier D, the user being applied to terminal equipment no longer will be subject to the size of through-put power and troubling of voltage levels, no matter how terminal equipment voltage and current specification change, only with a kind of benchmark carrier D, just can solve complicated transmission receiving system flow process, user only needs a corresponding configuration G extension set conformed to terminal equipment voltage/current just can charge to terminal equipment, Z base cabinet group is only according to charge power and charging voltage data instruction, automatically benchmark carrier D data command is calculated, and open reference power electroplax automatic transmission charge data power supply carrier D, application reference power carrier D electroplax synchronously passes again, power principle of stacking, immeasurable market efficiency will be carried out being applied to from now on generation in terminal equipment market!

9, demodulation rectifier diode bridge heap packaging technology flow process, application decomposition transmits, receive the principle of superposition, the high frequency big current demodulator diode of this circuit application, adopt principle of stacking, standardized high frequency small area analysis point contact type germanium crystal diode package technological principle in application market, effectively replaces the parameters of traditional big current rectifier bridge stack.Application NPN Joining Technology, as shown in Figure 6, application T220 outline packages.Center is ten, and both sides are one.

10, Intelligent electric bicycle, as shown in Figure 6, wireless receiving charger G demodulation rectification main circuit plate (2014) is when terminal equipment electric bicycle is produced, in advance by the Intelligent electric bicycle of G demodulation (2014) main circuit board of wireless receiving charger together with electric bike battery design and installation simultaneously, it is characterized in that Intelligent electric bicycle does not need to be equipped with jumbo rechargeable battery, not only tare can significantly alleviate, (being less than 13kg), carry on and carry carrying off easily, more importantly can make to fall too low under production cost, it is former cost 50%, and the charging of row limit, mileages of continuation limit, do not worry running through electricity, and be designed with manual/auto charge button switch.Principal character is: be at a stop when charging by manual charging, go charging time charge by automatic transmission, when button is located at automatic transmission, G sends instruction from trend internet platform, charging design principle as shown in Figure 6, by that analogy, electric automobile mounting structure flow process is completely identical with electric bicycle structure;

Wherein BT represents rechargeable battery, and W represents number of batteries (1-499) B1-By, y(1-499), B is expressed as rechargeable battery (-) pole, and A represents rechargeable battery (+) pole, the connection of (2014) demodulation charging panel as shown in (11011),

A1(+) be starting point, B1(-) connect A2(+)

B2(-) A3(+ is connected) B3(-) connect A4(+)

B4(-) A5(+ is connected) B5(-) connect A6(+), arrive by that analogy

By-1(-) y(+ is connected) empty

Setting y=10

B9(-) A10(+ is connected) empty, B10 is terminal (-) pole

10 batteries A1 points are (+) pole, and series connection B10 point is empty, is (-) pole

Voltage 5.0V 10 joint is connected in series=50.0V/1.0A, and namely battery charges from 46-50V1.0A, is practically applicable to the charging of 48V electric bicycle,

Charger user sends the instruction of 48V/1.0A charge data to the Internet, internet platform judges (10 according to the data command identification code of user ^-13second) in send company-data instruction to Z base cabinet, allly receive z base cabinet that identification code instruction conforms to (10 ^-13second) CpU(1013 in the z base cabinet of interior GpS positioning arrangement order minimum distance) automatically in electric bicycle, separate tuned plate (2014) synchronous transmission (10 pieces) D carrier by reception director data, the generated data that charges is: 50.0 V/1.0A records.

11, internet system loads the condition of the grid-connected transmission of high-frequency data power supply bearer synchronization, and this is a far-reaching government system engineering having very much innovation, grid-connected conditions:

(1) internet transmission is audio frequency, video, linear fundamental: frequency range is in the curvilinear motion of 10Hz-20kHz low-frequency sine;

(2) data power only has the switch change of 0 and 1 to be also called Switching Power Supply: frequency

High frequency change between 80kHz-100kHz, and this frequency range is the environmental protection data power reaching (6 grades) efficiency (being greater than 98%) highest level that the whole world is generally acknowledged;

(3) first-harmonic that the Internet loads first-harmonic and data power load can not melt completely mutually, linearly and data mutually can not produce interference;

(4) fundamental frequency that the Internet loads changes in the low volume section of 10Hz-20kHz, the fundamental frequency that data power loads changes at the high band of 80kHz-100kHz, low-and high-frequency is carried in together, region of variation falls far short, can not produce and disturb each other, in conjunction with above theory analysis, if this innovation can obtain the support of country.

One, construction (3-5) time of transmission system project can be shortened;

Two, the investment cost of the repetition of a large amount of (40%) can be saved;

Three, electric automobile and electric bicycle can be made early to say and to realize a dream that need not be at a stop to charge! This brings giving electric automobile and electric bicycle the large market of application that inestimable tool is large! Rechargeable battery is reduced 50% simultaneously, reduces environmental pollution, reduce cost and tare, the maximum market prospects of this patent of invention that Here it is, for environmental protection is contributed, be willing to that this sky arrives early!

When Z base cabinet receives the specific charge data instruction in the Internet (491001), z base cabinet 1012 opens B2001 antenna accessing Internet specific (wAN) interface automatically, and data power carrier D is incorporated to internet system transmission.Charge data power supply carrier D directly loads on synchronous transmission in the Internet specific (wAN), and as shown in Figure 7, all places that can receive the Internet (wifi) signal, only need ask for (dynamically) charging password to mobile Internet.Passive charging can be moved whenever and wherever possible to terminal equipment.

Claims (5)

1. a large data power wireless transmission charging system, is characterized in that described system includes:

System management platform: for managing the user profile data corresponding to each mobile charging terminal, the charge data instruction identification code sent mobile charging terminal is carried out data processing and Long-distance Control and respectively to be charged base station, charge data instruction identification code according to receiving carries out GPS location to mobile charging terminal, determine from the nearest charging base station of mobile charging terminal, and charge data instruction identification code is forwarded to nearest charging base station, nearest charging base station is opened to corresponding mobile charging terminal transmission data power supply carrier, to reserve battery and the charging of mobile power consumption equipment after the rectification of mobile charging terminal demodulates, and accept the feedback data of mobile charging terminal complete charge, control system complete charge,

Charging base station: for accepting the management of system management platform, pass again according to the synchronous same-phase of data power carrier, superposition composition principle is charged in the synchronously output of receiving demodulation, current parallel/Voltage Series, adopt FM high frequency carrier long range radio transmissions data power to mobile charging terminal;

Mobile charging terminal: for accepting the management of system management platform, sends charge data instruction identification code to system management platform, accepts the charging of the minimum distance continuity flowing charging base station assert by system management platform; Mobile charging terminal is receive the data power carrier of wireless transmission, and Directly solution adjustment current charge, without the need to through any active secondary power amplifying circuit.

2. large data power wireless transmission charging system according to claim 1, is characterized in that: described system management platform is the management platform based on the Internet or the management platform based on wireless telecommunications.

3. large data power wireless transmission charging system according to claim 1 and 2, it is characterized in that: described charging base station includes rack, and the main electroplax be located in rack, main electroplax includes HD high-frequency data power conversion monolithic integrated circuit, connect the FM carrier frequency monolithic integrated circuit of HD high-frequency data power conversion monolithic integrated circuit, connect the data power earner power amplification circuit of FM carrier frequency monolithic integrated circuit, the data command coding monolithic integrated circuit of connection data power supply earner power amplification circuit, the power stage integrated circuit of connection data power supply earner power amplification circuit, power stage integrated circuit electrical connection antenna circuit, data command coding monolithic integrated circuit is controlled by CPU.

4. large data power wireless transmission charging system according to claim 3, it is characterized in that: charging base station and mobile charging terminal room application data network transmission/reception system flow structure one to one, include by data power carrier wireless transmission Z rack cluster, and the wirelessly transmitting data power supply carrier that the receiving demodulation charger G extension set cluster corresponding with data power carrier is combined into; Charging base station adopts matrix equivalent expression cluster to install, when mobile charging terminal often moves different positions, the up-to-date gps coordinate information obtained according to its integrated GPS module is switched the charging base station changed on relevant position by the CPU of mobile charging terminal, makes mobile charging terminal move passive charging according to the signal transmission receiving demodulation rectification of the best all the time; The charging base station of transmission data power carrier, comprise main transmit antenna, central processor CPU, data command coding circuit, USB output socket, rechargeable battery for subsequent use, the main electroplax of transmission of calibration power carrier, the compatible data transmission simultaneously of main transmitting antenna and receiving function, CPU is used for the command information of the process of GPS framing signal and process management platform, identification data command encoder, charging base station is provided with the unified benchmark carrier electroplax of 1 ~ 499 piece of power, size and data, and charging base station connects USB interface group.

5. large data power wireless transmission charging system according to claim 3, is characterized in that: charging base station is provided with the rechargeable battery making stand-by power supply; When base station of charging has a power failure, automatically open and use for subsequent use rechargeable battery powered, this charging base station sends power failure data command to other nearest charging base station, is automatically revised by contiguous charging base station, is shifted charging instruction and send to the Internet the data command that has a power failure; When stand-by power supply be depleted to remaining 20% electric energy time, in the Z rack had a power failure, CPU sends charging instruction from trend the Internet, namely the Internet sends the instruction to the charging of Z rack to Z rack nearby, the command simultaneously had a power failure by Z rack was to 24 hours inspection maintenance persons, inspection maintenance person nearby will arrive the in-situ processing of power failure Z rack in 30 minutes, and by safety at power cut in 15 minutes that arrive, the result data of process feeds back to internet system platform.