CN204304527U - Intelligent power supply system in the wearable intelligence equipment of electric power - Google Patents

Abstract

The utility model is the intelligent power supply system in the wearable intelligence equipment of electric power, comprise the intelligence being provided with host-processor and dress main frame, photo-voltaic power supply unit, main battery unit and intelligent battery unit, the electric energy of photo-voltaic power supply unit is input as the access of photovoltaic electric energy and accesses with civil power electric energy, and the input of its electric energy is connected with the electric energy input of each intelligent battery unit; The electric energy of main battery unit is input as the access of civil power electric energy, and its electric energy exports and is connected with the electric energy input of each intelligent battery unit; Host-processor has the functions such as general data constrained input control, data processing, data storage, equipment coordination, Interface Controller, and the battery management and control in order to the wearable intelligent change system of electric power is supported and power supply self-healing management and control is supported; The utility model architectural framework is clear, principle art is ripe, technology realizes simple, builds the intelligent power supply network of wearable intelligence equipment, solves the highly reliable power supply to the wearable intelligence equipment of electric power and the access of Wearable photo-voltaic power supply intelligence comprehensively.

Description

Intelligent power supply system in the wearable intelligence equipment of electric power

Technical field

The utility model belongs to wearable intelligent equipment technology field, and the intelligent power supply system specifically in the wearable intelligence equipment of electric power is a kind of intelligent highly reliable electric power system.

Background technology

Wearable intelligence equipment (also known as: wearable intelligent equipment, intelligence are dressed), be can worn for long periods, highly intelligent device systems.Apply wearable intelligence equipment, will make people at the scene operation time Information perception and processing ability significant increase.The application of wearable intelligence equipment, by special dimensions such as space flight, aviation, deep divings, progressively, has successively entered the wide field of general production field, mankind's daily life.

At present, applying production and the sphere of life of wearable intelligence equipment, to the self-powered of relevant device (device), generally single power supply pattern is adopted.

Retrieval finds, application number be 201020698325.9 Chinese patent application disclose " Wrist wearable type solar power supply apparatus ", the utility model discloses a kind of Wrist wearable type solar power supply apparatus, comprise power pack and belt body, described power pack is the structure with cavity, the middle level cell panel and lower floor's cell panel that can hide and launch be provided with in cavity, top layer cell panel is provided with on described power pack, bottom is provided with controller, side is provided with the function key be connected with controller, pressure regulation display and discharge and recharge interface, described power pack bottom surface is fixedly connected with belt body and forms Wrist wearable type structure, described top layer cell panel, middle level cell panel and lower floor cell panel are serially connected and form solar battery group and be connected with controller and form electric power supply control system.After adopting said structure, make it not take up space and just form jumbo electric supply installation, and make solar battery group have the function that can hide and launch with exclusive design, both reduced volume, sunshine absorbing surface is large again, generated energy is sufficient, thus meets the charging requirement of portable electronics product, significantly promotes instantaneity and convenience that people use power supply.

Retrieval find, application number be 201310329478.4 Chinese patent application disclose " method and apparatus of wearable device power management ", this is the method and apparatus disclosing a kind of wearable device power management.Relate to communication technical field.Adopt after such scheme, avoid unlatching and do not listened waste electricity by the functional module that uses is resistance to, add the service time of wearable device, and then add Consumer's Experience.The method of this invention can comprise: the using state detecting wearable device; Its mode of operation is determined according to the using state of wearable device.Can be applicable in wearable device power management.

Retrieval find, application number be 201310658705.8 Chinese patent application disclose " a kind of safety cap of Tape movement charge power supply ", this invention relates to a kind of safety cap.A kind of safety cap of Tape movement charge power supply, comprise safety cap body, described safety cap body is also provided with mobile charging power supply device, described mobile charging power supply device comprises solar opto-electronic board, battery pack, step-up/step-down circuit device and usb interface slot, described solar opto-electronic board connects described battery pack, and described battery pack is connected with described usb interface slot by described step-up/step-down circuit device.Utilize the wearing position that safety cap is special, as mobile charging power supply device, practicality is very strong.

Retrieval finds, application number be 201320707639.4 Chinese patent application disclose " electric supply installation of Wrist belt-type equipment ", the utility model proposes a kind of electric supply installation of Wrist belt-type equipment, comprise some pieces of batteries, some pieces of described batteries are connected to form wrist strap shape, itself and Wrist belt-type equipment connection thus can Wrist belt-type equipment is fixed on human body wrist, it is its power supply simultaneously, described battery inner surface and human body wrist suitable, to make when described battery is fixed in wrist, its electric supply installation inner surface contacts with wrist surface and arranges, be electrically connected between described battery to form a battery pack.The utility model proposes a kind of battery pack of Wrist belt-type equipment, utilize the architectural feature of wrist strap, some pieces of batteries are arranged to wrist strap form, so namely can are that the Wrist belt-type equipment such as intelligent watch or Wrist belt-type smart mobile phone increases powered battery amount, ensure that it normally uses; Meanwhile, can increase comfortable wearing degree, autgmentability and safety coefficient, make intelligent watch or smart mobile phone break through battery bottleneck, really entering can epoch of practical application.

Mainly there is following key issue in the powering mode of existing patent and existing wearable intelligence equipment above:

(1) generally adopt single power supply power supply mechanism.Relate to wearable intelligence equipment, be commonly single equipment (device), and to provide the kind of electric energy and approach to be single for it, the necessary highly reliable power supply guarantee charge less of wearable intelligence equipment is divided.

(2) fully do not apply contemporary intelligent battery managing electronic technology.Relate to the management of wearable intelligence equipment supplying cell, generally there is no the Power Electronic Technique such as battery status monitoring, battery charging, battery dormancy of abundant design ap-plication intelligent battery in present age management, more do not have the switch scheduling feature of design ap-plication intelligent battery chip processor, wearable intelligence equipment supplying cell automatic operating safeguards the deficient function that should possess.

(3) do not carry out the Top-layer Design Method of wearable intelligence equipment electric power system.The wearable intelligence equipment of electric power dresses main frame by intelligence, Multifunctional intelligent safe cap (video acquisition, interactive voice, satellite fix etc.), distribution type electric energy sensor, condition sensor, multiple smart machines (device) such as photovoltaic cell (group) are formed, and existing wearable intelligent change system, generally only relate to single smart machine (device), more do not carry out complete design from the top layer of wearable intelligence equipment electric power system, substantially the highly reliable power supply to the wearable intelligent change system of electric power and the access of Wearable photo-voltaic power supply intelligence is not solved.

Utility model content

Technical problem to be solved in the utility model is, overcome the shortcoming of prior art, intelligent power supply system in the wearable intelligence equipment of a kind of electric power is provided, for building the intelligent power supply network of wearable intelligence equipment, the distributed intelligence realizing wearable intelligence equipment is powered, abundant guarantee is to the high-quality of wearable intelligence equipment power supply and high reliability, and the intelligence access of Wearable photo-voltaic power supply.

The technical scheme that the utility model solves above technical problem is:

Intelligent power supply system in the wearable intelligence equipment of electric power, comprise the intelligence being provided with host-processor and dress main frame, photo-voltaic power supply unit, main battery unit and intelligent battery unit, intelligent battery unit is divided into the corresponding intelligent battery unit of powering for each smart machine and dresses the intelligent battery unit of host supplying power for intelligence; The electric energy of photo-voltaic power supply unit is input as the access of photovoltaic electric energy and accesses with civil power electric energy, and its electric energy is inputted out and is connected by the electric energy input of power line with each intelligent battery unit; The electric energy of main battery unit is input as the access of civil power electric energy, and its electric energy is exported and is connected by the electric energy input of power line with each intelligent battery unit;

Photo-voltaic power supply unit comprises a photovoltaic cell group, a Voltage stabilizing module, an input switch, an output switch, a cell switch, a battery chip processor, a battery, a voltage regulating module and a communication interface, input switch, output switch and cell switch are all FETs, Voltage stabilizing module is general diode mu balanced circuit, the electric energy that photovoltaic cell produces exports described Voltage stabilizing module to, the source electrode of described input switch is connected to together with the electric energy accessed with civil power electric energy after Voltage stabilizing module voltage stabilizing, input switch, the drain electrode of output switch and cell switch links together, input switch, the grid of output switch and cell switch is connected to 3 switching control instruction outputs of battery chip processor respectively, the source electrode of output switch is by being connected to the electrical energy inputs of each intelligent battery unit after voltage regulating module pressure regulation, the source electrode of cell switch connects the electrical energy inputs of battery, the battery status data of battery exports the battery status data input of termination battery chip processor, the battery status data output of battery chip processor connects communication interface by data/address bus, battery status data is exported to host-processor that intelligence dresses main frame by communication interface,

Main battery unit comprises an input switch, an output switch, a cell switch, a battery chip processor, a local battery, a voltage regulating module and a communication interface, input switch, output switch and cell switch are all FETs, the electric energy of civil power electric energy access is connected to the source electrode of input switch, input switch, the drain electrode of output switch and cell switch links together, input switch, the grid of output switch and cell switch is connected to 3 switching control instruction outputs of battery chip processor respectively, the source electrode of output switch is by being connected to the electrical energy inputs of each intelligent battery unit after voltage regulating module pressure regulation, the source electrode of cell switch connects the electrical energy inputs of local battery, the battery status data of local battery exports the battery status data input of termination battery chip processor, the battery status data output of battery chip processor connects described communication interface by data/address bus, battery status data is exported to host-processor that intelligence dresses main frame by communication interface,

Intelligent battery unit comprises an input switch, a load switch, a cell switch, a battery chip processor, a local battery and a communication interface, described input switch, load switch and cell switch are all FETs, the source electrode of input switch connects the electric energy output of photo-voltaic power supply unit and main battery unit, input switch, the drain electrode of load switch and cell switch links together, input switch, the grid of load switch and cell switch is connected to 3 switching control instruction outputs of battery chip processor respectively, the source electrode of load switch connects the electrical energy inputs of corresponding smart machine, the source electrode of cell switch connects the electrical energy inputs of corresponding local battery, the battery status data of local battery exports the battery status data input of termination battery chip processor, the battery status data output of battery chip processor connects described communication interface by data/address bus, battery status data is exported to host-processor that intelligence dresses main frame by communication interface.

The technical scheme that the utility model limits further is:

Intelligent power supply system in the wearable intelligence equipment of aforesaid electric power, wherein battery chip processor is Maxim Integrated Products Inc. (Maxim Integrated Products, Inc) corresponding product, as DS278x series, serial, MAX860x, MAX856x series (specially joining button Li battery) of MAX187x etc.

Intelligent power supply system in the wearable intelligence equipment of aforesaid electric power, wherein host-processor is AMR system processor.

The beneficial effects of the utility model are: the utility model contrast prior art has following innovative point: the complete framework of the wearable intelligent change system of electric power (1) addressed based on the utility model, from the Top-layer Design Method electric power system of wearable intelligence equipment, define the intelligent power supply network design scheme of the wearable intelligent change system of electric power; (2) the utility model is by ripe Principle Methods such as the reliability service of modern electric intelligent distribution network, automatic dispatching, intelligent maintenances, fully be applied to the electric power system of the wearable intelligence equipment of electric power, developing intellectual resource battery chip functional processor, achieves the supply intelligent self-healing function such as the distributed power source automatic dispatching of electric power system, supply network unusual fluctuation intelligent reconstruction; (3) the battery (group) of photo-voltaic power supply unit of the present utility model, under the United Dispatching of intelligent power supply system, achieves the access of photovoltaic electric energy intelligence, and dexterously for wearable intelligence equipment adds a Large Copacity backup battery.

Accompanying drawing explanation

Fig. 1 is overall connection diagram of the present utility model.

Fig. 2 is the circuit connection diagram of the utility model photo-voltaic power supply unit.

Fig. 3 is the circuit connection diagram of the utility model main battery unit.

Fig. 4 is the circuit connection diagram of the utility model intelligent battery unit.

Detailed description of the invention

Embodiment 1

The present embodiment is the intelligent power supply system in the wearable intelligence equipment of a kind of electric power, connect as shown in Figure 1, connect as shown in Figure 1, in figure, " → " is delivery of electrical energy circuit, " one " is transmission circuit, and the system of the present embodiment comprises the intelligence being provided with host-processor and dresses main frame, photo-voltaic power supply unit, main battery unit and intelligent battery unit, and intelligent battery unit is divided into the corresponding intelligent battery unit of powering for each smart machine and dresses the intelligent battery unit of host supplying power for intelligence; The electric energy of photo-voltaic power supply unit is input as the access of photovoltaic electric energy and accesses with civil power electric energy, and its electric energy is inputted out and is connected by the electric energy input of power line with each intelligent battery unit; The electric energy of main battery unit is input as civil power electric energy access (battery capacity is relatively large), and its electric energy is exported and is connected by the electric energy input of power line with each intelligent battery unit.

Host-processor is AMR system host processor, there is the functions such as general data constrained input control, data processing, data storage, equipment coordination, Interface Controller, in order to the basic management (comprising intelligent battery management and control to support and power supply self-healing management and control support) of the wearable intelligent change system of electric power;

Photo-voltaic power supply unit has the functions such as the access of photovoltaic electric energy accesses with civil power electric energy, battery condition is monitored, battery scheduling controlling, charge in batteries, battery dormancy, in order to the automation management and control of the access of electric power wearable intelligence equipment photovoltaic electric energy, the access of civil power electric energy, the scheduling of battery electric energy; Main battery unit and intelligent battery unit all have the functions such as battery status (electricity, voltage, electric current, temperature, charging times, residual life) monitoring, the charging of electric energy scheduling controlling, battery, battery dormancy, in order to the operation automation management and control of electric power wearable intelligence equipment distribution battery, main battery unit and intelligent battery unit are distinguished and are that the electric energy of main battery unit is input as civil power electric energy, does not have direct local load, battery capacity is relatively large.

The photo-voltaic power supply element circuit of the present embodiment as shown in Figure 2, in figure, " SCI " is " switching control instruction ", " BSD " is that " battery status data (contains: electricity, voltage, electric current and temperature) ", the photo-voltaic power supply unit of the present embodiment comprises a photovoltaic cell group, a Voltage stabilizing module and a main battery administrative unit, main battery administrative unit comprises an input switch, an output switch, a cell switch, a battery chip processor, a battery, a voltage regulating module and a communication interface, battery adopts lithium battery, input switch, output switch and cell switch are all FETs, Voltage stabilizing module is general diode mu balanced circuit, the electric energy that photovoltaic cell produces exports Voltage stabilizing module to, the source electrode of input switch is connected to together with the electric energy accessed with civil power electric energy after Voltage stabilizing module voltage stabilizing, input switch, the drain electrode of output switch and cell switch links together, input switch, the grid of output switch and cell switch is connected to 3 switching control instruction outputs of battery chip processor respectively, the source electrode of output switch is by being connected to the electrical energy inputs of each intelligent battery unit after voltage regulating module pressure regulation, voltage regulating module is conventional voltage regulating module of the prior art, the source electrode of cell switch connects the electrical energy inputs of battery, the battery status data of battery exports the battery status data input of termination battery chip processor, the battery status data output of battery chip processor connects communication interface by data/address bus, battery status data is exported to host-processor that described intelligence dresses main frame by communication interface.The direct current energy of the electric energy that photovoltaic cell produces or civil power conversion, after Voltage stabilizing module voltage stabilizing, exports electric energy, when receiving intelligence and dressing the electric energy dispatch command of main frame, can automatic control electric can export opening/closing.

The main battery element circuit of the present embodiment as shown in Figure 3, in figure, " SCI " is " switching control instruction ", " BSD " is that " battery status data (contains: electricity, voltage, electric current and temperature) ", the main battery unit of the present embodiment comprises an input switch, an output switch, a cell switch, a battery chip processor, a local battery, a voltage regulating module and a communication interface, input switch, output switch and cell switch are all FETs, the electric energy of civil power electric energy access is connected to the source electrode of input switch, input switch, the drain electrode of output switch and cell switch links together, input switch, the grid of output switch and cell switch is connected to 3 switching control instruction outputs of battery chip processor respectively, the source electrode of output switch is by being connected to the electrical energy inputs of each intelligent battery unit after voltage regulating module pressure regulation, voltage regulating module is conventional voltage regulating module of the prior art, the source electrode of cell switch connects the electrical energy inputs of local battery, the battery status data of local battery exports the battery status data input of termination battery chip processor, the battery status data output of battery chip processor connects communication interface by data/address bus, battery status data is exported to host-processor that intelligence dresses main frame by communication interface.

The intelligent battery element circuit of the present embodiment as shown in Figure 4, in figure, " SCI " is " switching control instruction ", " BSD " is that " battery status data (contains: electricity, voltage, electric current and temperature) ", the intelligent battery unit of the present embodiment comprises an input switch, a load switch, a cell switch, a battery chip processor, a local battery and a communication interface, input switch, load switch and cell switch are all FETs, the source electrode of input switch connects the electric energy output of described photo-voltaic power supply unit and main battery unit, input switch, the drain electrode of load switch and cell switch links together, input switch, the grid of load switch and cell switch is connected to 3 switching control instruction outputs of described battery chip processor respectively, the source electrode of load switch connects the electrical energy inputs of corresponding smart machine, the source electrode of cell switch connects the electrical energy inputs of corresponding local battery, the battery status data of local battery exports the battery status data input of termination battery chip processor, the battery status data output of battery chip processor connects communication interface by data/address bus, battery status data is exported to host-processor that intelligence dresses main frame by communication interface.Battery chip processor can be customized based on Maxim Integrated Products Inc. (Maxim Integrated Products, Inc) corresponding product, communication interface, Complex interface are general line socket part, connect battery status data, switching control instruction, electric energy input, electric energy output, battery, load, ground wire.

Data pass to intelligence dress main frame can after, dress main frame by intelligence and carry out power supply scheduling, the power supply scheduling of dressing intelligent change system is by all distributed intelligence power supply points in system, by power line and order wire, be a total logic power with star topology connection, each distributed intelligence equipment (device) in wearable intelligent change system, under intelligence dresses the electric power dispatch management of main frame, shares total logic power; Wearable intelligent change system is powered and is carried out the strategy of United Dispatching, differentiated control, to guarantee the highly reliable operation of electric power system.Described United Dispatching, refers to the distributed intelligence power supply point in wearable intelligent change system, under the pool management and control of main frame, powers to each smart machine (device) overall coordination.Described differentiated control, refer in wearable intelligent change system, Intelligent electric source point is divided into three grades, the first order is photovoltaic intelligent power supply, the second level is main battery power supply, the third level is other distributed intelligence battery supplies, can be " first order power supply ", " second level power supply ", " third level power supply " by each distributed wearing smart machine (device) electricity consumption and the system charge order of priority that is short of alarm and automatic charging.

This enforcement battery chip processor is dressed main frame to intelligence in real time and is provided battery status data (electricity, voltage, electric current, temperature, charging times, residual life), dress main frame by intelligence and press distributed power dispatching method and supply network unusual fluctuation reconstructing method, real-time analysis judges the running status of each intelligent battery unit, switching control instruction is sent from trend intelligent battery unit of being correlated with, control the input switch in its battery chip processor, the combinations of states of cell switch and load switch, intelligence realizes the highly reliable operational mode of the wearable intelligence equipment electric power system shown in following table,

In upper table, "●"-conducting; "○"-disconnection; "-"-arbitrarily;

Wherein, power supplied locally mode of operation is: local load electricity consumption relies on local battery completely and provides, and local power supply is supplying power for outside not, and this pattern is applicable to each intelligent battery unit; Charge mode is: when the battery electric quantity of local power supply point is lower than threshold values, the redundancy electric energy of other power supply points of the wearable intelligence equipment of real-time access or civil power electric energy, local battery charges, no matter whether local load is in " dormancy ", this pattern is applicable to each intelligent battery unit except photo-voltaic power supply unit and main battery unit, 10% ~ 20% of described threshold values power taking pond rated capacity; Being full of pattern is: local battery electricity has filled title electricity up to standard, disconnect cell switch, prevent local battery overcharge, if load switch is connected, then direct by outside input electric energy power, this pattern is suitable for photo-voltaic power supply unit, main battery unit and each intelligent battery unit; Work transacted mode is: internal fault or unusual fluctuation off-line appear in local battery, and local load electricity consumption relies on the redundancy electric energy access of wearable other power supply points of intelligence equipment completely, and this pattern is applicable to intelligent main battery unit and each intelligent battery unit.

The basis of wearable intelligent change system power scheduling is, by all distributed intelligence power supply points in system, by power line and order wire, be a total logic power with star topology connection, each distributed intelligence equipment (device) in wearable intelligent change system, under intelligence dresses the electric power dispatch management of main frame, maximizes reliable shared total logic power; Wearable intelligent change system is powered and is carried out the strategy of United Dispatching, differentiated control, dynamically to guarantee the power supply maximizing the benefits of the total logic power of wearable intelligence equipment.Described United Dispatching, refers to the distributed intelligence power supply point in wearable intelligent change system, and under the pool management and control of main frame, overall coordination ground is to each smart machine (device) power supply comprising main frame.Described differentiated control, refer to that, in wearable intelligent change system, the significance level that intelligent power presses connect local load is divided into three grades, the first order is photovoltaic intelligent power supply and main battery power supply, the second level is main frame intelligent power, and the third level is other distributed intelligence power supplys.Specifically carry out according to the following steps:

(i) gather the status data of photo-voltaic power supply unit, main battery unit and each intelligent battery unit, comprise electricity, voltage, electric current and temperature;

(ii) judge whether photo-voltaic power supply unit, main battery unit and each intelligent battery unit normally work, and if so, then enter next step, if not, then enter supply network unusual fluctuation reconstruct; The prerequisite of scheduling management and control is photovoltaic intelligent power supply, main battery power supply, main frame intelligent power and other distributed intelligence power supplys all normally work, if there is unusual fluctuation, then carry out supply network unusual fluctuation reconstruct;

(iii), when the electricity of main battery unit and each intelligent battery unit is greater than 90% (can arrange), corresponding intelligent battery unit self is to local load supplying;

(iv) when the electricity of main battery unit and each intelligent battery unit is lower than 90% (can arrange), main battery unit charges to the intelligent battery unit of electricity lower than 90% (can arrange), if when main battery unit electricity is lower than 10% (can arrange), switches and charged to the intelligent battery unit of electricity lower than 90% (can arrange) by photo-voltaic power supply unit;

(v) when photo-voltaic power supply unit and main battery unit electricity are all lower than 10% (can arrange), then change main battery unit or access commercial power charged, and warning " photovoltaic storage battery and main battery electricity, all lower than 10%, are changed main battery or access commercial power charged ";

(vi) the current electricity uniquely can dressing the battery of host supplying power to intelligence lower than 5% time, then intelligence is dressed main frame and is automatically closed, and warning " uniquely for the battery electric quantity of main frame lower than 5%, can will protect shutdown " automatically.

The supply network unusual fluctuation reconstruct of the present embodiment is specifically carried out according to the following steps:

(1) gather the status data of photo-voltaic power supply unit, main battery unit and each intelligent battery unit, comprise electricity, voltage, electric current and temperature, judge whether photo-voltaic power supply unit, main battery unit and each intelligent battery unit exist power supply unusual fluctuation, if, then enter next step, if not, then directly enter step (4), the hot plug that described power supply unusual fluctuation comprises automatically cut-offfing of each intelligent battery unit internal fault and main battery unit is changed;

(2) send unusual fluctuation warning, and there is state and the actual electrical value of the battery of power supply unusual fluctuation in display;

(3), when each intelligent battery unit occurs unusual fluctuation to local load supplying, real-time intelligent is connected " input switch " of this power supply point intelligent battery unit and is disconnected " cell switch ", start restructuring directive, and according to the form below carries out distribution battery unusual fluctuation state and reconstruct:

Wherein, " √ "-normal; "×"-fault; "-"-arbitrarily;

(4) judge that intelligence is dressed main frame and whether shut down, if so, then terminate, if not, then return step (1).

In addition to the implementation, the utility model can also have other embodiments.All employings are equal to the technical scheme of replacement or equivalent transformation formation, all drop on the protection domain of the utility model requirement.

Claims (3)

1. the intelligent power supply system in the wearable intelligence equipment of electric power, it is characterized in that: comprise the intelligence being provided with host-processor and dress main frame, photo-voltaic power supply unit, main battery unit and intelligent battery unit, described intelligent battery unit is divided into the corresponding intelligent battery unit of powering for each smart machine and dresses the intelligent battery unit of host supplying power for intelligence; The electric energy of described photo-voltaic power supply unit is input as the access of photovoltaic electric energy and accesses with civil power electric energy, and its electric energy is inputted out and is connected by the electric energy input of power line with each intelligent battery unit; The electric energy of described main battery unit is input as the access of civil power electric energy, and its electric energy is exported and is connected by the electric energy input of power line with each intelligent battery unit;

Described photo-voltaic power supply unit comprises a photovoltaic cell group, a Voltage stabilizing module, an input switch, an output switch, a cell switch, a battery chip processor, a battery, a voltage regulating module and a communication interface, described input switch, output switch and cell switch are all FETs, described Voltage stabilizing module is general diode mu balanced circuit, the electric energy that described photovoltaic cell produces exports described Voltage stabilizing module to, the source electrode of described input switch is connected to together with the electric energy accessed with described civil power electric energy after described Voltage stabilizing module voltage stabilizing, described input switch, the drain electrode of output switch and cell switch links together, described input switch, the grid of output switch and cell switch is connected to 3 switching control instruction outputs of described battery chip processor respectively, the source electrode of described output switch is by being connected to the electrical energy inputs of each intelligent battery unit after described voltage regulating module pressure regulation, the source electrode of described cell switch connects the electrical energy inputs of described battery, the battery status data of described battery exports the battery status data input of battery chip processor described in termination, the battery status data output of described battery chip processor connects described communication interface by data/address bus, battery status data is exported to host-processor that described intelligence dresses main frame by described communication interface,

Described main battery unit comprises an input switch, an output switch, a cell switch, a battery chip processor, a local battery, a voltage regulating module and a communication interface, described input switch, output switch and cell switch are all FETs, the electric energy of civil power electric energy access is connected to the source electrode of described input switch, described input switch, the drain electrode of output switch and cell switch links together, described input switch, the grid of output switch and cell switch is connected to 3 switching control instruction outputs of described battery chip processor respectively, the source electrode of described output switch is connected to the electrical energy inputs of each intelligent battery unit, the source electrode of described cell switch is by connecing the electrical energy inputs of described local battery after described voltage regulating module pressure regulation, the battery status data of described local battery exports the battery status data input of battery chip processor described in termination, the battery status data output of described battery chip processor connects described communication interface by data/address bus, battery status data is exported to host-processor that described intelligence dresses main frame by described communication interface,

Described intelligent battery unit comprises an input switch, a load switch, a cell switch, a battery chip processor, a local battery and a communication interface, described input switch, load switch and cell switch are all FETs, the source electrode of described input switch connects the electric energy output of described photo-voltaic power supply unit and described main battery unit, described input switch, the drain electrode of load switch and cell switch links together, described input switch, the grid of load switch and cell switch is connected to 3 switching control instruction outputs of described battery chip processor respectively, the source electrode of described load switch connects the electrical energy inputs of corresponding smart machine, the source electrode of described cell switch connects the electrical energy inputs of corresponding local battery, the battery status data of described local battery exports the battery status data input of battery chip processor described in termination, the battery status data output of described battery chip processor connects described communication interface by data/address bus, battery status data is exported to host-processor that described intelligence dresses main frame by described communication interface.

2. the intelligent power supply system in the wearable intelligence equipment of electric power as claimed in claim 1, it is characterized in that: described battery chip processor is Maxim Integrated Products Inc.'s corresponding product, be specially DS278x series, MAX187x series, MAX860x or MAX856x series.

3. the intelligent power supply system in the wearable intelligence equipment of electric power as claimed in claim 1, is characterized in that: described host-processor is AMR system processor.