CN109818428A - A kind of indoor wireless charging system and method - Google Patents

Abstract

The present invention provides a kind of indoor wireless charging system and method, it may be programmed super surface coating layer by applying in entire indoor environment, monitor the location information of charging space environment information and reception device in simultaneously collection room, indoor charging space environment information and location information are sent to wireless charging emitter, and the optimal transmission paths determined according to wireless charging emitter, send the microwave energy signal that wireless charging emitter is sent to reception device；Wireless charging emitter determines the transmission path of microwave energy signal, and transmission path and microwave energy signal are sent to and may be programmed super surface coating layer；Reception device receives the microwave energy signal of programmable super surface coating layer transmission, and converts rechargeable electrical energy for microwave energy signal.Based on the present invention, can be realized environment indoors, electron equipment charges whenever and wherever possible, is not limited by charging distance, can be effectively reduced microwave energy signal transmission attenuation, improves the usage experience of user.

Description

A kind of indoor wireless charging system and method

Technical field

The present invention relates to wireless charging technical field more particularly to a kind of indoor wireless charging system and methods.

Background technique

With the development and the improvement of people's living standards of scientific and technological level, electronic product becomes the daily life of people Indispensable a part in work.Wherein, the electronic product of portable rechargeable, such as mobile phone, tablet computer and notebook electricity The electronic products such as brain are most popular.Although the electronic product of these portable rechargeables is easy to carry, still must need Attaching plug is found indoors to charge.

Currently, the mode that most of electronic product is all wired charging charges, charging place is determined by attaching plug, Electronic equipment and attaching plug are connected via data line.The mode of wired charging determine electronic product be limited to attaching plug and Data line cannot arbitrarily change charging place and the distance of electronic product, can not allow user whenever and wherever possible indoors using The usage experience of the electronic product of charging, user substantially reduces.

Summary of the invention

In view of this, the embodiment of the present invention provides a kind of indoor wireless charging system and method, existed with solving electronic product The problem of indoor charging is limited to charging place, can not get rid of attaching plug and data line.

To achieve the above object, the embodiment of the present invention provides the following technical solutions:

First aspect of the embodiment of the present invention discloses a kind of indoor wireless charging system, the indoor wireless charging system packet Include: programmable super surface coating layer, wireless charging emitter and reception device, the reception device are to determine through certification Device to be charged；

The programmable super surface coating layer is set in indoor environment, and covers the indoor environment, for monitoring simultaneously The location information of charging space environment information and the reception device in collection room, by the indoor charging space environment information and The location information of the reception device is sent to the wireless charging emitter, and according to the wireless charging emitter Determining optimal transmission paths send the microwave energy signal that the wireless charging emitter is sent to the reception and fill It sets；

The wireless charging emitter, for according to the indoor charging space environment information that receives and described connecing The location information of receiving apparatus, determines the optimal transmission paths of the microwave energy signal, and by optimal transmission paths and micro- Wave energy signal is sent to the programmable super surface coating layer；

The reception device, the microwave energy signal transmitted for receiving the programmable super surface coating layer, and by institute It states microwave energy signal and is converted into rechargeable electrical energy.

Preferably, in above-mentioned indoor wireless charging system, the programmable super surface coating layer includes: multiple network moulds Block, gateway module, multiple control modules and multiple patch modules, wherein each corresponding control mould of the patch module Block and a network module；

The network module for the space environment information that monitors and charge in collection room, and receives the reception device hair The location information sent；

The gateway module, the indoor charging space environment information and the reception sent for receiving the network module The location information of the indoor charging space environment information and the reception device is sent to wireless charging by the location information of device Electric emitter, and optimal transmission paths and microwave energy signal that the wireless charging emitter is sent are received, it will be described Microwave energy signal and the optimal transmission paths are sent to the corresponding control of first patch module in the transmission path Module；

The control module is corresponded to for receiving the optimal transmission paths, and based on optimal transmission paths control The patch module send the direction of the microwave energy signal；

The patch module, for receiving the microwave energy signal, and the control based on the control module will be described Microwave energy signal is sent to next recipient in the optimal transmission paths, and the recipient includes patch module and connects Receiving apparatus.

Preferably, in above-mentioned indoor wireless charging system, the wireless charging emitter includes: radio-frequency module, intelligence It can module, first antenna module, first communication module and power management module；

The radio-frequency module, for generating the microwave energy signal；

The intelligent object, for according to the indoor charging space environment information and the reception device received The optimal transmission paths of the microwave energy signal are calculated in location information；

The first antenna module, for being sent out to the programmable super surface coating layer according to the optimal transmission paths Send the microwave energy signal；

The first communication module, the indoor charging space sent for receiving the programmable super surface coating layer The location information of environmental information and the reception device, and the optimal transmission paths are sent to the programmable super surface and are applied Coating；

The power management module, for providing operating voltage.

Preferably, in above-mentioned indoor wireless charging system, the reception device includes: the second Anneta module, and second recognizes Demonstrate,prove module, second communication module and rectifying and voltage-stabilizing module；

Second Anneta module, for receiving the microwave energy signal of the programmable super surface coating layer transmission；

Second authentication module, for by carrying out certification interaction with the wireless charging emitter, described in judgement Whether reception device has charging qualification, if having charging qualification, generates charge request；

The second communication module, for may be programmed super surface coating layer to the wireless charging emitter by described The charge request is sent, and sends the location information to the programmable super surface coating layer；

The rectifying and voltage-stabilizing module, for converting the rechargeable electrical energy for the microwave energy signal.

Preferably, in above-mentioned indoor wireless charging system, the reception device further include:

Charge management module is charging for controlling the charging behavior of the electronic equipment to charge, and by described The charged state of electronic equipment is sent to the wireless charging emitter.

Preferably, in above-mentioned indoor wireless charging system, the wireless charging emitter further include:

Display module, for showing the charged state of the electronic equipment to charge to user.

Second aspect of the embodiment of the present invention discloses a kind of indoor wireless charging method, and the indoor wireless charging method is answered For indoor wireless charging system, the system comprises wireless charging emitter, programmable super surface coating layer and dress is received It sets, the reception device is the device to be charged determined through certification, and the indoor wireless charging method includes:

The programmable super surface coating layer is set in indoor environment, and covers the indoor environment, described programmable The location information of charging space environment information and the reception device in super surface coating layer monitoring and collection room, by the interior The location information of charging space environment information and the reception device is sent to the wireless charging emitter, and according to institute State the optimal transmission paths that wireless charging emitter determines, the microwave energy signal that the wireless charging emitter is sent Send the reception device to；

The wireless charging emitter is according to the indoor charging space environment information received and reception dress The location information set, determines the optimal transmission paths of the microwave energy signal, and by the optimal transmission paths and microwave energy Amount signal is sent to the programmable super surface coating layer；

The reception device receives the microwave energy signal that the programmable super surface coating layer transmits, and by the microwave Energy signal is converted into rechargeable electrical energy.

Preferably, in above-mentioned indoor wireless charging method, in the programmable super surface coating layer monitoring and collection room The location information for the space environment information and the reception device of charging, by the indoor charging space environment information and the reception The location information of device is sent to the wireless charging emitter, and determines most according to the wireless charging emitter Excellent transmission path sends the microwave energy signal that the wireless charging emitter is sent to the reception device, comprising:

Charge space environment information in the programmable super surface coating layer monitoring and collection room, and receives the reception dress Set the location information of transmission；

It is described to may be programmed super surface coating layer for the position of indoor the charging space environment information and the reception device Information is sent to wireless charging emitter, and receives optimal transmission paths and microwave that the wireless charging emitter is sent Energy signal；

The programmable super surface coating layer sends the microwave energy signal based on optimal transmission paths control Direction；

The microwave energy signal is sent to the reception device by the programmable super surface coating layer.

Preferably, in above-mentioned indoor wireless charging method, the wireless charging emitter is described according to receiving The location information of indoor charging space environment information and the reception device determines the transmission path of microwave energy signal, and will The transmission path and microwave energy signal are sent to the programmable super surface coating layer, comprising:

The wireless charging emitter generates the microwave energy signal；

The wireless charging emitter is according to the indoor charging space environment information received and reception dress The optimal transmission paths of the microwave energy signal are calculated in the location information set；

The wireless charging emitter is sent according to the optimal transmission paths to the programmable super surface coating layer The microwave energy signal；

The optimal transmission paths are sent to the programmable super surface coating layer by the wireless charging emitter.

Preferably, in above-mentioned indoor wireless charging method, the reception device receives the programmable super surface coating The microwave energy signal of layer transmission, and rechargeable electrical energy is converted by the microwave energy signal, comprising:

The reception device receives the microwave energy signal of the programmable super surface coating layer transmission；

The reception device judges that the reception device is by carrying out certification interaction with the wireless charging emitter It is no that there is charging qualification, if having charging qualification, generate charge request；

The reception device is by the programmable super surface coating layer to described in wireless charging emitter transmission Charge request, and the location information is sent to the programmable super surface coating layer；

The microwave energy signal is converted the rechargeable electrical energy by the reception device.

A kind of indoor wireless charging system and method provided based on the embodiments of the present invention, by entire interior ring Border coating may be programmed super surface coating layer, monitor the position of charging space environment information and the reception device in simultaneously collection room The location information of the indoor charging space environment information and the reception device is sent to the wireless charging and emitted by information Device, and the optimal transmission paths determined according to the wireless charging emitter, the wireless charging emitter is sent out The microwave energy signal sent sends the reception device to；The wireless charging emitter is filled according to the interior received The location information of electric space environment information and the reception device determines the optimal transmission paths of the microwave energy signal, and The transmission path and microwave energy signal are sent to the programmable super surface coating layer；Described in the reception device receives The microwave energy signal of programmable super surface coating layer transmission, and rechargeable electrical energy is converted by the microwave energy signal.It is based on The embodiment of the present invention, can be realized environment indoors, electron equipment charges whenever and wherever possible, not by power supply place and charging The limitation of distance can be effectively reduced microwave energy signal transmission attenuation, improve the usage experience of user.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this The embodiment of invention for those of ordinary skill in the art without creative efforts, can also basis The attached drawing of offer obtains other attached drawings.

Fig. 1 is a kind of structural schematic diagram of indoor wireless charging system provided in an embodiment of the present invention；

Fig. 2 is a kind of schematic diagram of transmission path provided in an embodiment of the present invention；

Fig. 3 is the structural schematic diagram of another indoor wireless charging system provided in an embodiment of the present invention；

Fig. 4 is the structural schematic diagram of another indoor wireless charging system provided in an embodiment of the present invention；

Fig. 5 is the structural schematic diagram of another indoor wireless charging system provided in an embodiment of the present invention；

Fig. 6 is the structural schematic diagram of another indoor wireless charging system provided in an embodiment of the present invention；

Fig. 7 is the structural schematic diagram of another indoor wireless charging system provided in an embodiment of the present invention；

Fig. 8 is the structural schematic diagram of another indoor wireless charging system provided in an embodiment of the present invention；

Fig. 9 is a kind of flow diagram of indoor wireless charging method provided in an embodiment of the present invention；

Figure 10 is the flow diagram of another indoor wireless charging method provided in an embodiment of the present invention；

Figure 11 is the flow diagram of another indoor wireless charging method provided in an embodiment of the present invention；

Figure 12 is the flow diagram of another indoor wireless charging method provided in an embodiment of the present invention.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

In this application, the terms "include", "comprise" or any other variant thereof is intended to cover non-exclusive inclusion, So that the process, method, article or equipment for including a series of elements not only includes those elements, but also including not having The other element being expressly recited, or further include for elements inherent to such a process, method, article, or device.Do not having There is the element limited in the case where more limiting by sentence "including a ...", it is not excluded that in the mistake including the element There is also other identical elements in journey, method, article or equipment.

As shown in Figure 1, being a kind of structural schematic diagram of indoor wireless charging system provided in an embodiment of the present invention, the system System includes:

Programmable super surface coating layer 100, wireless charging emitter 200 and reception device 300, the reception device 300 be the device to be charged determined through certification.

The programmable super surface coating layer 100 is set in indoor environment, and covers the indoor environment, for monitoring And the location information of charge in collection room space environment information and the reception device 300, by the indoor charging space environment The location information of information and the reception device 300 is sent to the wireless charging emitter 200, and according to described wireless The optimal transmission paths that the emitter 200 that charges determines, the microwave energy signal that the wireless charging emitter 200 is sent Send the reception device 300 to.

It should be noted that in embodiments of the present invention, the programmable super surface coating layer 100 includes but is not limited to apply Apply the chamber internal surfaces such as surroundings wall, ground and the ceiling in the indoor environment.

It should be noted that the programmable super surface coating layer 100 is monitored by built-in sensor and is acquired described Indoor charging space environment information, and receive the location information that the reception device 300 is sent.Based on the indoor charging space Environmental information and the location information obtain specific location of the reception device 300 in the indoor environment.

It should be noted that mode receives the wireless charging to the programmable super surface coating layer 100 by wireless communication The optimal transmission paths that electric emitter 200 is sent.The optimal transmission paths indicate the wireless charging emitter 200 to Concrete position in the programmable super surface coating layer 100 sends the microwave energy signal, and may be programmed super table by described Concrete position in face coat 100 sends the microwave energy signal to institute by the transmission mode of one or many reflections State reception device 300.

In order to facilitate understanding programmable transmission mode of the super surface coating layer 100 by one or many reflections described above It sends the microwave energy signal to the reception device 300, is a kind of transmission provided in an embodiment of the present invention with reference to Fig. 2 The schematic diagram in path.

The wireless charging emitter 200, for according to the indoor charging space environment information received and institute The location information for stating reception device 300, determines the optimal transmission paths of the microwave energy signal, and by the optimal transmission road Diameter and microwave energy signal are sent to the programmable super surface coating layer 100.

It should be noted that the wireless charging emitter 200 by wireless communication mode receive it is described programmable super The location information of indoor the charging space environment information and the reception device 300 that surface coating layer 100 is sent.Wherein, The wireless charging emitter 200 is located in the indoor environment, and the position of the wireless charging emitter 200 is fixed Constant.

It should be noted that the location information based on indoor the charging space environment information and the reception device 300, The wireless charging emitter 200 obtains specific location of the reception device 300 in the indoor environment and described Each specific location for blocking object in indoor environment.

The microwave energy signal is calculated from the nothing by simulation modeling in the wireless charging emitter 200 The specific location of line charge electricity emitter 200 is transmitted to multiple transmission paths between the specific location of the reception device 300.

Further, the wireless charging emitter 200 from the multiple transmission path, compile via described by selection Cheng Chao surface coating layer 100 reflects the least transmission path of transmission times as the optimal transmission paths.

It should be noted that when the microwave energy signal is propagated in environment indoors, the microwave energy signal itself Energy undergo multiple reflections transmission when energy loss can occur, to reduce the transfer efficiency of rechargeable electrical energy.It follows that The optimal transmission paths can guarantee that the microwave energy signal plays maximum efficiency of transmission.

The reception device 300, the microwave energy signal transmitted for receiving the programmable super surface coating layer 100, And rechargeable electrical energy is converted by the microwave energy signal.

It should be noted that specific location of the reception device 300 in the indoor environment be not it is unalterable, The specific location of the reception device 300 can be subjected to displacement according to the demand of user.When the reception device 300 is subjected to displacement When, current corresponding location information can be sent again to the programmable super surface coating layer 100.

In embodiments of the present invention, it by covering the programmable super surface coating layer of entire indoor environment, monitors and acquires The location information of indoor charging space environment information and the reception device, by the indoor charging space environment information and described The location information of reception device is sent to the wireless charging emitter, and determines according to the wireless charging emitter Optimal transmission paths, by the wireless charging emitter send microwave energy signal send the reception device to；Institute State position letter of the wireless charging emitter according to the indoor charging space environment information and the reception device that receive Breath determines the optimal transmission paths of the microwave energy signal, and the optimal transmission paths and microwave energy signal is sent It may be programmed super surface coating layer to described；The reception device receives the microwave energy of the programmable super surface coating layer transmission Signal, and rechargeable electrical energy is converted by the microwave energy signal.Based on the embodiment of the present invention, can be realized indoors environment with When everywhere electron equipment charge, do not limited by power supply place and charging distance, can be effectively reduced microwave energy letter Number transmission loss, improves the usage experience of user.

Preferably, in conjunction with Fig. 1, with reference to Fig. 3, for the knot of another indoor wireless charging system provided in an embodiment of the present invention Structure schematic diagram, the programmable super surface coating layer 100 include:

Multiple network modules 101, gateway module 102, multiple control modules 103 and multiple patch modules 104, wherein every The corresponding control module 103 of one patch module 104 and a network module 101.

The network module 101 for the space environment information that monitors and charge in collection room, and receives the reception device The location information of transmission.

It should be noted that the network module 101 is empty especially by charging in built-in sensor monitoring and collection room Between environmental information, and pass through built-in communicator and receive the position that the reception device 300 to be charged by certification is sent Information.

It should be noted that in embodiments of the present invention, the network module 101 include but is not limited to network communication device, The network equipments such as telecommunication circuit and sensor circuit.

The gateway module 102, for receiving the indoor charging space environment information and institute that the network module 101 is sent The location information for stating reception device 300, by the location information of indoor the charging space environment information and the reception device 300 It is sent to wireless charging emitter 200, and receives optimal transmission paths that the wireless charging emitter 200 is sent and micro- Wave energy signal, the first microwave energy signal and the optimal transmission paths are sent in the optimal transmission paths The corresponding control module 103 of a patch module 104.

It should be noted that the programmable super surface coating layer 100 contains multiple patch modules 104, it is each Correspondence contains the control module 103 and a network module 101 again in a patch module 104.It is described Gateway module 102 obtains each control module 103 corresponding specific position on the programmable super surface coating layer 100 It sets, and the specific location is sent to the wireless charging emitter 200, the wireless charging emitter 200 is based on The specific location calculates the optimal transmission paths of the microwave energy signal, so that it is determined that out in the optimal transmission paths The corresponding patch module 104 of each transmission point.

The control module 103, for receiving the optimal transmission paths, and based on optimal transmission paths control pair The patch module 104 answered sends the direction of the microwave energy signal.

It should be noted that the control module 103 is based on the optimal transmission paths, the patch module 104 is obtained Send the direction of the microwave energy signal.Direction of the control module 103 according to the transmission microwave energy signal, Control the direction of antenna transmitting signal built-in in the patch module 104.

It should be noted that in embodiments of the present invention, the control module 103 includes but is not limited to micro controller, nanometer The controllers such as control circuit.

The patch module 104, for receiving the microwave energy signal, and the control based on the control module 103 The microwave energy signal is sent to next recipient in the optimal transmission paths, the recipient includes patch mould Block 104 and reception device 300.

It should be noted that if the patch module 104 is not the last one transmission point in the optimal transmission paths, Then send the microwave energy signal to corresponding to next transmission point in optimal transmission paths patch module 104.If the patch module 104 is the last one transmission point in the optimal transmission paths, the microwave energy is believed Number send the reception device 300 to.

It should be noted that there are at least one to transmit point in the optimal transmission paths, the transmission point is specifically used for Send the microwave energy signal that the wireless charging emitter 200 is sent to the reception device in a manner of reflecting transmission 300。

It should be noted that in embodiments of the present invention, the patch module 104 includes but is not limited to array antenna, institute The material for stating array antenna is specially programmable super surfacing.

In embodiments of the present invention, network module monitoring and the interior charging space environment information of collection room and the reception device Location information；The location information of the indoor charging space environment information and the reception device is sent to institute by gateway module State wireless charging emitter；The optimal biography that control module and patch module are determined according to the wireless charging emitter jointly Defeated path sends the microwave energy signal that the wireless charging emitter is sent to the reception device.Based on the present invention Embodiment, the programmable super surface coating layer increase above-mentioned module, can obtain indoor charging space environment information and connect The location information of receiving apparatus, and the microwave energy signal can be sent to the reception according to the optimal transmission paths and filled It sets, is based on the optimal transmission paths, can be effectively reduced microwave energy signal transmission attenuation.

Preferably, in conjunction with Fig. 1, with reference to Fig. 4, for the knot of another indoor wireless charging system provided in an embodiment of the present invention Structure schematic diagram, the wireless charging emitter 200 include:

Radio-frequency module 201, intelligent object 202, first antenna module 203, first communication module 204 and power management module 205。

The radio-frequency module 201, for generating the microwave energy signal.

It should be noted that in embodiments of the present invention, the radio-frequency module 201 includes but is not limited to radio frequency chip, function Put the electronic devices such as device.

The intelligent object 202, for according to the indoor charging space environment information received and reception dress The optimal transmission paths of the microwave energy signal are calculated in the location information for setting 300.

It should be noted that the location information based on indoor the charging space environment information and the reception device 300, The optimal transmission paths of microwave energy signal are calculated by simulation modeling in the intelligent object 202.The microwave energy letter Number be based on the optimal transmission paths, can be avoided and contacted with the object that blocks in indoor environment, and according to transmitting transmission times Least optimal transmission paths reduce the loss of self-energy.

It should be noted that when the microwave energy signal can be directly by the tool of the wireless charging emitter 200 It does not include described programmable when body position transmission reaches the specific location of the reception device 300, in the optimal transmission paths Super surface coating layer 100.When the microwave energy signal cannot be directly by the specific location of the wireless charging emitter 200 It include that the programmable super surface applies when transmission reaches the specific location of the reception device 300, in the optimal transmission paths Coating 100 has one or more transmission points in the optimal transmission paths.

It should be noted that in embodiments of the present invention, the intelligent object 202 includes but is not limited to single-chip microcontroller, master control The computing devices such as chip.

The first antenna module 203, for may be programmed super surface coating layer to described according to the optimal transmission paths 100 send the microwave energy signal.

It should be noted that the first antenna module 203 emits the direction of signal by the built-in antenna of control, realize According to the optimal transmission paths, the microwave energy signal is sent to the programmable super surface coating layer 100.

The first communication module 204 is filled for receiving the interior that the programmable super surface coating layer 100 is sent The location information of electric space environment information and the reception device 300, and the optimal transmission paths are sent to described can compile Cheng Chao surface coating layer 100.

It should be noted that in embodiments of the present invention, the first communication module 204 includes but is not limited to Bluetooth communication The communication equipments such as device, infrared communication device.

The power management module 205, for providing operating voltage.

Optionally, the first authentication module is additionally provided in wireless charging emitter 200, for providing wireless charging hair Interactive authentication function between injection device 200 and other devices to be charged or equipment, in order to confirm charge to Whether charging equipment or device have charging qualification.

In embodiments of the present invention, first communication module receives the indoor charging space environment information and reception dress The location information set；Intelligent object determines the optimal transmission paths of the microwave energy signal；Radio-frequency module and first antenna mould The optimal transmission paths and microwave energy signal are sent to the programmable super surface coating layer jointly by block；In addition, power supply Management module provides operating voltage.Based on the embodiment of the present invention, the wireless charging emitter increases above-mentioned module, can The optimal transmission paths of microwave energy signal are calculated, and can be applied according to the optimal transmission paths to the programmable super surface Coating sends microwave energy signal.

Preferably, in conjunction with Fig. 1, with reference to Fig. 5, for the knot of another indoor wireless charging system provided in an embodiment of the present invention Structure schematic diagram, the reception device 300 include:

Second Anneta module 301, the second authentication module 302, second communication module 303 and rectifying and voltage-stabilizing module 304.

Second Anneta module 301, the microwave energy letter transmitted for receiving the programmable super surface coating layer 100 Number.

It should be noted that in embodiments of the present invention, second Anneta module 301 includes but is not limited to array day Line, the material of the array antenna are specially programmable super surfacing.

Second authentication module 302, for sentencing by carrying out certification interaction with the wireless charging emitter 200 Whether the reception device 300 of breaking has charging qualification, if having charging qualification, generates charge request.

It should be noted that first recognizing of receiving in the wireless charging emitter 200 of second authentication module 302 The authentication information that module is sent is demonstrate,proved, second authentication module 302 reads and identifies the authentication information.Believed based on the certification Breath, judges whether the reception device 300 has charging qualification, if having charging qualification, generates the charge request.

It should be noted that first authentication module passes through radio frequency identification (Radio Frequency Identification, RFID) technology, the second authentication module of Xiang Suoshu 302 sends the authentication information.

It should be noted that realizing verification process between first authentication module and second authentication module 302 In and do not have sequencing.The two function is identical, wherein " first " and " second " is used to device belonging to difference respectively not Together.

The second communication module 303, for being sent out by the programmable super surface coating layer 100 to the wireless charging Injection device 200 sends the charge request, and sends the location information to the programmable super surface coating layer 100.

It should be noted that in embodiments of the present invention, the second communication module 303 includes but is not limited to Bluetooth communication The communication equipments such as device, infrared communication device.

The rectifying and voltage-stabilizing module 304, for converting the rechargeable electrical energy for the microwave energy signal.

It should be noted that in embodiments of the present invention, the rectifying and voltage-stabilizing module 304 includes but is not limited to that diode is whole The electronic devices such as current circuit, voltage regulator circuit.

It should be noted that between first antenna module 203 and second Anneta module 301 shown in above-mentioned Fig. 4 It realizes during receiving or emitting microwave energy signal and does not have sequencing.The two function is identical, wherein " first " " second " is only used for distinguishing the difference of respective corresponding device.

It should be noted that between first communication module 204 and the second communication module 303 shown in above-mentioned Fig. 4 It realizes during receiving or sending information and does not have sequencing.The two function is identical, wherein " first " and " second " It is only used for distinguishing the difference of respective corresponding device.

In embodiments of the present invention, the second Anneta module receives the microwave energy of the programmable super surface coating layer transmission Signal；The microwave energy signal is converted rechargeable electrical energy by rectifying and voltage-stabilizing module；Second authentication module judges the reception dress Whether have charging qualification, if having charging qualification, generate the charge request if setting.It is described to connect based on the embodiment of the present invention Receiving apparatus increases above-mentioned module, can receive the microwave energy signal, converts charging for the microwave energy signal Electric energy, and the location information belonging to itself can be sent to the programmable super surface coating layer.

Preferably, in conjunction with Fig. 1, with reference to Fig. 6, for the knot of another indoor wireless charging system provided in an embodiment of the present invention Structure schematic diagram, the reception device 300 further include:

Charge management module 305 is charging for controlling the charging behavior of the electronic equipment to charge, and by described The charged state of electronic equipment be sent to the wireless charging emitter 200.

It should be noted that the charged state of electronic equipment described in 305 real-time detection of charge management module, when described When the charged state of electronic equipment is abnormal situation, the charge management module 305 generates exception reporting, and to described wireless Charging emitter 200 sends the exception reporting.The wireless charging emitter 200 is based on the exception reporting, and The position of indoor charging space environment information and the reception device 300 that the programmable super surface coating layer 100 retransmits Confidence breath, redefines the optimal transmission paths of the microwave energy signal.

It should be noted that in embodiments of the present invention, the abnormal conditions can be the decreased effectiveness to charge or charging Situations such as stopping.

It should be noted that in embodiments of the present invention, the charge management module 305 includes but is not limited to power management The electronic devices such as circuit.

In embodiments of the present invention, the charging behavior of electronic equipment that charge management module control is being charged, and by institute The charged state for stating the electronic equipment to charge is sent to the wireless charging emitter.Based on the embodiment of the present invention, institute It states reception device and increases above-mentioned module, can be realized effective management to the electronic equipment of charging, guarantee the electronic equipment It charges normal.

Preferably, in conjunction with Fig. 6, with reference to Fig. 7, for the knot of another indoor wireless charging system provided in an embodiment of the present invention Structure schematic diagram, the wireless charging emitter 200 further include:

Display module 206, for showing the charged state of the electronic equipment to charge to user.

It should be noted that in embodiments of the present invention, the display module 206 include but is not limited to miniature display screen, LED display etc. shows equipment.

In embodiments of the present invention, display module shows the charged state of the electronic equipment to charge to user. Based on the embodiment of the present invention, the wireless charging emitter increases above-mentioned module, can set to user's real-time display electronics Standby charged state increases the usage experience of user.

In order to facilitate the indoor wireless charging system understood shown in above-mentioned Fig. 1 to Fig. 7, below with reference to specific embodiment into Row is described in detail.As shown in figure 8, for the structural schematic diagram of another indoor wireless charging system provided in an embodiment of the present invention, The system comprises:

Programmable super surface coating layer 1000, wireless charging emitter 2000 and reception device 3000.

The programmable super surface coating layer 1000 includes network module 1001, gateway module 1002, control module 1003 With patch module 1004.

Charge space environment information in the monitoring of network module 1001 and collection room, and receives the reception device 300 The location information of transmission.

The gateway module 1002 receives the indoor charging space environment information that the network module 1001 is sent and described The location information of reception device 3000, by the location information of indoor the charging space environment information and the reception device 3000 Be sent to wireless charging emitter 2000, and receive optimal transmission paths that the wireless charging emitter 2000 is sent and Microwave energy signal, the patch microwave energy signal and the optimal transmission paths being sent in the optimal transmission paths The corresponding control module 1003 of piece module 1004.

The control module 1003 receives the optimal transmission paths, and corresponding based on optimal transmission paths control The patch module 1004 sends the direction of the microwave energy signal.

The patch module 1004 receives the microwave energy signal, and the control based on the control module 1003 is by institute It states microwave energy signal and is sent to the reception device 3000.

The wireless charging emitter 2000 includes radio-frequency module 2001, intelligent object 2002, first antenna module 2003, first communication module 2004, power management module 2005, display module 2006 and the first authentication module 2007.

The radio-frequency module 2001 generates the microwave energy signal.

The intelligent object 2002 is according to the indoor charging space environment information received and the reception device The optimal transmission paths of the microwave energy signal are calculated in 3000 location information.

The first antenna module 2003, for being coated to the programmable super surface according to the optimal transmission paths Layer 1000 sends the microwave energy signal.

The first communication module 2004 receives the indoor charging that the programmable super surface coating layer 1000 is sent The location information of space environment information and the reception device 3000, and the optimal transmission paths are sent to described may be programmed Super surface coating layer 1000.

The power management module 2005 provides operating voltage.

The display module 2006 shows the charged state of the electronic equipment 4000 to charge to user.

For first authentication module 2007 by Radio Frequency Identification Technology, the second authentication module of Xiang Suoshu 3002 sends certification letter Breath.

The reception device 3000 includes the second Anneta module 3001, the second authentication module 3002, second communication module 3003, rectifying and voltage-stabilizing module 3004 and charge management module 3005.

Second Anneta module 3001 receives the microwave energy signal that the programmable super surface coating layer 1000 transmits.

Second authentication module 3002 is connect described in judgement by carrying out certification interaction with first authentication module 2007 Whether receiving apparatus 3000 has charging qualification, if having charging qualification, generates charge request.

The second communication module 3003 is emitted by the programmable super surface coating layer 1000 to the wireless charging Device 2000 sends the charge request, and sends the location information to the programmable super surface coating layer 1000.

The microwave energy signal is converted the rechargeable electrical energy by the rectifying and voltage-stabilizing module 3004.

Charge management module 3005 controls the charging behavior of the electronic equipment 4000 to charge, and is charging described The charged state of electronic equipment 4000 be sent to the wireless charging emitter 2000.

In embodiments of the present invention, it by covering the programmable super surface coating layer of entire indoor environment, monitors and acquires The location information of indoor charging space environment information and the reception device, by the indoor charging space environment information and described The location information of reception device is sent to the wireless charging emitter, and determines according to the wireless charging emitter Optimal transmission paths, by the wireless charging emitter send microwave energy signal send the reception device to；Institute State position letter of the wireless charging emitter according to the indoor charging space environment information and the reception device that receive Breath determines the optimal transmission paths of the microwave energy signal, and the optimal transmission paths and microwave energy signal is sent It may be programmed super surface coating layer to described；The reception device receives the microwave energy of the programmable super surface coating layer transmission Signal, and rechargeable electrical energy is converted by the microwave energy signal.Based on the embodiment of the present invention, can be realized indoors environment with When everywhere electron equipment charge, do not limited by power supply place and charging distance, can be effectively reduced microwave energy letter Number transmission loss, improves the usage experience of user.

Based on a kind of indoor wireless charging system that the embodiments of the present invention provide, the embodiment of the present invention is also corresponding to be provided A kind of indoor wireless charging method.As shown in figure 9, being a kind of stream of indoor wireless charging method provided in an embodiment of the present invention Journey schematic diagram, the method are applied in indoor wireless charging system, and the system comprises may be programmed super surface coating layer, nothing Line charge electricity emitter and reception device, the reception device are the device to be charged determined through certification, the method includes Following steps:

S101: programmable super surface coating layer is set in indoor environment, and covers indoor environment, be may be programmed super surface and is applied The location information of charging space environment information and reception device in coating monitoring and collection room, by indoor charging space environment information It is sent to wireless charging emitter with the location information of reception device, and according to the optimal of wireless charging emitter determination Transmission path sends the microwave energy signal that wireless charging emitter is sent to reception device.

In S101, the specific implementation principle and implementation procedure of step S101 and above-mentioned programmable super surface shown in fig. 1 The realization principle of coat 100 is consistent with implementation procedure, reference can be made to, which is not described herein again.

S102: position of the wireless charging emitter according to indoor the charging space environment information and reception device received Information determines the optimal transmission paths of microwave energy signal, and optimal transmission paths and microwave energy signal is sent to and can be compiled Cheng Chao surface coating layer.

In S102, the specific implementation principle and implementation procedure of step S102 and above-mentioned wireless charging shown in fig. 1 emit The realization principle of device 200 is consistent with implementation procedure, reference can be made to, which is not described herein again.

S103: reception device receives the microwave energy signal of programmable super surface coating layer transmission, and microwave energy is believed Number it is converted into rechargeable electrical energy.

In S103, the specific implementation principle and implementation procedure of step S103 and above-mentioned reception device 300 shown in fig. 1 Realization principle is consistent with implementation procedure, reference can be made to, which is not described herein again.

In embodiments of the present invention, it by covering the programmable super surface coating layer of entire indoor environment, monitors and acquires The location information of indoor charging space environment information and the reception device, by the indoor charging space environment information and described The location information of reception device is sent to the wireless charging emitter, and determines according to the wireless charging emitter Optimal transmission paths, by the wireless charging emitter send microwave energy signal send the reception device to；Institute State position letter of the wireless charging emitter according to the indoor charging space environment information and the reception device that receive Breath determines the optimal transmission paths of the microwave energy signal, and the optimal transmission paths and microwave energy signal is sent It may be programmed super surface coating layer to described；The reception device receives the microwave energy of the programmable super surface coating layer transmission Signal, and rechargeable electrical energy is converted by the microwave energy signal.Based on the embodiment of the present invention, can be realized indoors environment with When everywhere electron equipment charge, do not limited by power supply place and charging distance, improve the usage experience of user.

Preferably, the step S101 in conjunction with shown in Fig. 9, the programmable super surface coating layer are set in indoor environment, And indoor environment is covered, it may be programmed the position of charging space environment information and reception device in super surface coating layer monitoring and collection room Confidence breath, is sent to wireless charging emitter for the location information of indoor charging space environment information and reception device, and According to the optimal transmission paths that wireless charging emitter determines, the microwave energy signal that wireless charging emitter is sent is passed Reception device is given during specific implementation, with reference to Figure 10, for another indoor wireless charging provided in an embodiment of the present invention The flow diagram of method, described method includes following steps:

S201: charge space environment information in programmable super surface coating layer monitoring and collection room, and receives the reception The location information that device is sent.

In S201, specific implementation principle and implementation procedure and the network module 101 shown in above-mentioned Fig. 3 of step S201 Realization principle is consistent with implementation procedure, reference can be made to, which is not described herein again.

S202: programmable super surface coating layer sends the location information of indoor charging space environment information and reception device Wireless charging emitter is given, and receives the optimal transmission paths and microwave energy signal of the transmission of wireless charging emitter.

In S202, specific implementation principle and implementation procedure and the gateway module 102 shown in above-mentioned Fig. 3 of step S202 Realization principle is consistent with implementation procedure, reference can be made to, which is not described herein again.

S203: programmable super surface coating layer controls the direction for sending microwave energy signal based on optimal transmission paths.

In S203, specific implementation principle and implementation procedure and the control module 103 shown in above-mentioned Fig. 3 of step S203 Realization principle is consistent with implementation procedure, reference can be made to, which is not described herein again.

S204: microwave energy signal is sent to reception device by programmable super surface coating layer.

In S204, specific implementation principle and implementation procedure and the patch module 104 shown in above-mentioned Fig. 3 of step S203 Realization principle is consistent with implementation procedure, reference can be made to, which is not described herein again.

In embodiments of the present invention, charging space environment information and institute in super surface coating layer monitoring and collection room be may be programmed The location information of the indoor charging space environment information and the reception device is sent to by the location information for stating reception device The wireless charging emitter, and the optimal transmission paths determined according to the wireless charging emitter, by the nothing The microwave energy signal that line charge electricity emitter is sent sends the reception device to.Based on the embodiment of the present invention, can obtain in real time The location information of indoor charging space environment information and reception device is taken, guarantees that microwave energy signal can be according to optimal optimal biography Defeated path sends reception device to.

Preferably, the step S102 in conjunction with shown in Fig. 9, the wireless charging emitter is according to the interior received The location information for the space environment information and the reception device of charging determines the optimal transmission paths of microwave energy signal, and will The optimal transmission paths and microwave energy signal are sent to the programmable super surface coating layer during specific implementation, ginseng Figure 11 is examined, for the flow diagram of another indoor wireless charging method provided in an embodiment of the present invention, the method includes such as Lower step:

S301: wireless charging emitter generates microwave energy signal.

In S301, specific implementation principle and implementation procedure and the radio-frequency module 201 shown in above-mentioned Fig. 4 of step S301 Realization principle is consistent with implementation procedure, reference can be made to, which is not described herein again.

S302: position of the wireless charging emitter according to indoor the charging space environment information and reception device received The optimal transmission paths of microwave energy signal are calculated in information.

In S302, specific implementation principle and implementation procedure and the intelligent object 202 shown in above-mentioned Fig. 4 of step S302 Realization principle is consistent with implementation procedure, reference can be made to, which is not described herein again.

S303: wireless charging emitter sends microwave energy according to optimal transmission paths, to programmable super surface coating layer Measure signal.

In S303, the specific implementation principle and implementation procedure and the first antenna module shown in above-mentioned Fig. 4 of step S303 203 realization principle is consistent with implementation procedure, reference can be made to, which is not described herein again.

S304: optimal transmission paths are sent to by wireless charging emitter may be programmed super surface coating layer.

In S304, the specific implementation principle and implementation procedure of step S304 and the first communication module shown in above-mentioned Fig. 4 204 realization principle is consistent with implementation procedure, reference can be made to, which is not described herein again.

In embodiments of the present invention, the wireless charging emitter is according to the indoor charging space environment received The location information of information and the reception device determines the optimal transmission paths of the microwave energy signal, and will be described optimal Transmission path and microwave energy signal are sent to the programmable super surface coating layer.Based on the embodiment of the present invention, can calculate The optimal transmission paths for obtaining the microwave energy signal can be effectively reduced microwave energy signal transmission attenuation, guarantee microwave Energy signal can be accurately communicated to the reception device.

Preferably, the step S103 in conjunction with shown in Fig. 9, the reception device receive the programmable super surface coating layer and pass The microwave energy signal sent, and convert rechargeable electrical energy during specific implementation for the microwave energy signal, with reference to Figure 12, For the flow diagram of another indoor wireless charging method provided in an embodiment of the present invention, described method includes following steps:

S401: reception device receives the microwave energy signal of programmable super surface coating layer transmission.

In S401, the specific implementation principle and implementation procedure of step S401 and the second Anneta module shown in above-mentioned Fig. 5 301 realization principle is consistent with implementation procedure, reference can be made to, which is not described herein again.

S402: reception device judges whether reception device has by carrying out certification interaction with wireless charging emitter Charging qualification generates charge request if having charging qualification.

In S402, the specific implementation principle and implementation procedure of step S402 and the second authentication module shown in above-mentioned Fig. 5 302 realization principle is consistent with implementation procedure, reference can be made to, which is not described herein again.

S403: reception device sends charge request to wireless charging emitter by programmable super surface coating layer, with And location information is sent to programmable super surface coating layer.

In S403, the specific implementation principle and implementation procedure of step S403 and the second communication module shown in above-mentioned Fig. 5 303 realization principle is consistent with implementation procedure, reference can be made to, which is not described herein again.

S404: microwave energy signal is converted rechargeable electrical energy by reception device.

In S403, the specific implementation principle and implementation procedure and the rectifying and voltage-stabilizing module shown in above-mentioned Fig. 5 of step S403 304 realization principle is consistent with implementation procedure, reference can be made to, which is not described herein again.

In conclusion in a kind of indoor wireless charging system provided in an embodiment of the present invention and method, by entire Indoor environment, which applies, may be programmed super surface coating layer ,-, monitor charging space environment information and the reception device in simultaneously collection room Location information, the location information of the indoor charging space environment information and the reception device is sent to the wireless charging Electric emitter, and the optimal transmission paths determined according to the wireless charging emitter, the wireless charging is emitted The microwave energy signal that device is sent sends the reception device to；The wireless charging emitter is described according to receiving The location information of indoor charging space environment information and the reception device determines the optimal transmission road of the microwave energy signal Diameter, and the optimal transmission paths and microwave energy signal are sent to the programmable super surface coating layer；The reception dress The microwave energy signal for receiving the programmable super surface coating layer transmission is set, and converts charging for the microwave energy signal Electric energy.Based on the embodiment of the present invention, can be realized environment indoors, electron equipment charges whenever and wherever possible, not by power ground The limitation of point and charging distance, can be effectively reduced microwave energy signal transmission attenuation, improves the usage experience of user.

All the embodiments in this specification are described in a progressive manner, same and similar portion between each embodiment Dividing may refer to each other, and each embodiment focuses on the differences from other embodiments.Especially for system or For system embodiment, since it is substantially similar to the method embodiment, so describing fairly simple, related place is referring to method The part of embodiment illustrates.System and system embodiment described above is only schematical, wherein the conduct The unit of separate part description may or may not be physically separated, component shown as a unit can be or Person may not be physical unit, it can and it is in one place, or may be distributed over multiple network units.It can root According to actual need that some or all of the modules therein is selected to achieve the purpose of the solution of this embodiment.Ordinary skill Personnel can understand and implement without creative efforts.

Professional further appreciates that, unit described in conjunction with the examples disclosed in the embodiments of the present disclosure And algorithm steps, can be realized with electronic hardware, computer software, or a combination of the two, in order to clearly demonstrate hardware and The interchangeability of software generally describes each exemplary composition and step according to function in the above description.These Function is implemented in hardware or software actually, the specific application and design constraint depending on technical solution.Profession Technical staff can use different methods to achieve the described function each specific application, but this realization is not answered Think beyond the scope of this invention.

The foregoing description of the disclosed embodiments enables those skilled in the art to implement or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, as defined herein General Principle can be realized in other embodiments without departing from the spirit or scope of the present invention.Therefore, of the invention It is not intended to be limited to the embodiments shown herein, and is to fit to and the principles and novel features disclosed herein phase one The widest scope of cause.

Claims (10)

1. a kind of indoor wireless charging system characterized by comprising programmable super surface coating layer, wireless charging transmitting dress It sets and reception device, the reception device is the device to be charged determined through certification；

The programmable super surface coating layer is set in indoor environment, and covers the indoor environment, for monitoring and acquiring The location information of indoor charging space environment information and the reception device, by the indoor charging space environment information and described The location information of reception device is sent to the wireless charging emitter, and determines according to the wireless charging emitter Optimal transmission paths, by the wireless charging emitter send microwave energy signal send the reception device to；

The wireless charging emitter, for according to the indoor charging space environment information received and reception dress The location information set, determines the optimal transmission paths of the microwave energy signal, and by the optimal transmission paths and microwave energy Amount signal is sent to the programmable super surface coating layer；

The reception device, for receiving the microwave energy signal of the programmable super surface coating layer transmission, and will be described micro- Wave energy signal is converted into rechargeable electrical energy.

2. system according to claim 1, which is characterized in that the programmable super surface coating layer includes: multiple networks Module, gateway module, multiple control modules and multiple patch modules, wherein each corresponding control of the patch module Module and a network module；

The network module for the space environment information that monitors and charge in collection room, and receives what the reception device was sent Location information；

The gateway module, the indoor charging space environment information and the reception device sent for receiving the network module Location information, the location information of the indoor charging space environment information and the reception device is sent to wireless charging hair Injection device, and optimal transmission paths and microwave energy signal that the wireless charging emitter is sent are received, by the microwave Energy signal and the optimal transmission paths are sent to the corresponding control module of first patch module in the transmission path；

The control module controls corresponding institute for receiving the optimal transmission paths, and based on the optimal transmission paths State the direction that patch module sends the microwave energy signal；

The patch module, for receiving the microwave energy signal, and the control based on the control module is by the microwave Energy signal is sent to next recipient in the optimal transmission paths, and the recipient includes patch module and reception dress It sets.

3. system according to claim 1, which is characterized in that the wireless charging emitter includes: radio-frequency module, intelligence It can module, first antenna module, first communication module and power management module；

The radio-frequency module, for generating the microwave energy signal；

The intelligent object, for the position according to indoor the charging space environment information and the reception device that receive The optimal transmission paths of the microwave energy signal are calculated in information；

The first antenna module, for sending institute to the programmable super surface coating layer according to the optimal transmission paths State microwave energy signal；

The first communication module, the indoor charging space environment sent for receiving the programmable super surface coating layer The location information of information and the reception device, and the optimal transmission paths are sent to the programmable super surface and are coated Layer；

The power management module, for providing operating voltage.

4. system according to claim 1, which is characterized in that the reception device includes: the second Anneta module, and second recognizes Demonstrate,prove module, second communication module and rectifying and voltage-stabilizing module；

Second Anneta module, for receiving the microwave energy signal of the programmable super surface coating layer transmission；

Second authentication module, for judging the reception by carrying out certification interaction with the wireless charging emitter Whether device has charging qualification, if having charging qualification, generates charge request；

The second communication module, for being sent by the programmable super surface coating layer to the wireless charging emitter The charge request, and the location information is sent to the programmable super surface coating layer；

The rectifying and voltage-stabilizing module, for converting the rechargeable electrical energy for the microwave energy signal.

5. system according to claim 1, which is characterized in that the reception device further include:

Charge management module, for controlling the charging behavior of the electronic equipment to charge, and by the electronics to charge The charged state of equipment is sent to the wireless charging emitter.

6. system according to claim 5, which is characterized in that the wireless charging emitter further include:

Display module, for showing the charged state of the electronic equipment to charge to user.

7. a kind of indoor wireless charging method, which is characterized in that be applied to indoor wireless charging system, the system comprises wireless Charge emitter, programmable super surface coating layer and reception device, and the reception device is to determine through the to be charged of certification Device, which comprises

The programmable super surface coating layer is set in indoor environment, and covers the indoor environment, described to may be programmed super table The location information of charging space environment information and the reception device in the monitoring of face coat and collection room, by the indoor charging The location information of space environment information and the reception device is sent to the wireless charging emitter, and according to the nothing The optimal transmission paths that line charge electricity emitter determines, the microwave energy signal that the wireless charging emitter is sent transmit To the reception device；

The wireless charging emitter is according to the indoor charging space environment information and the reception device received Location information determines the optimal transmission paths of the microwave energy signal, and the optimal transmission paths and microwave energy is believed It number is sent to and described may be programmed super surface coating layer；

The reception device receives the microwave energy signal that the programmable super surface coating layer transmits, and by the microwave energy Signal is converted into rechargeable electrical energy.

8. the method according to the description of claim 7 is characterized in that in the programmable super surface coating layer monitoring and collection room The location information for the space environment information and the reception device of charging, by the indoor charging space environment information and the reception The location information of device is sent to the wireless charging emitter, and determines most according to the wireless charging emitter Excellent transmission path sends the microwave energy signal that the wireless charging emitter is sent to the reception device, comprising:

Charge space environment information in the programmable super surface coating layer monitoring and collection room, and receives the reception device hair The location information sent；

It is described to may be programmed super surface coating layer for the location information of indoor the charging space environment information and the reception device It is sent to wireless charging emitter, and receives optimal transmission paths and microwave energy that the wireless charging emitter is sent Signal；

The programmable super surface coating layer sends the direction of the microwave energy signal based on optimal transmission paths control；

The microwave energy signal is sent to the reception device by the programmable super surface coating layer.

9. the method according to the description of claim 7 is characterized in that the wireless charging emitter is described according to receiving The location information of indoor charging space environment information and the reception device determines the transmission path of microwave energy signal, and will The transmission path and microwave energy signal are sent to the programmable super surface coating layer, comprising:

The wireless charging emitter generates the microwave energy signal；

The wireless charging emitter is according to the indoor charging space environment information and the reception device received The optimal transmission paths of the microwave energy signal are calculated in location information；

The wireless charging emitter is according to the optimal transmission paths, to described in the programmable super surface coating layer transmission Microwave energy signal；

The optimal transmission paths are sent to the programmable super surface coating layer by the wireless charging emitter.

10. being applied the method according to the description of claim 7 is characterized in that the reception device receives the programmable super surface The microwave energy signal of coating transmission, and rechargeable electrical energy is converted by the microwave energy signal, comprising:

The reception device receives the microwave energy signal of the programmable super surface coating layer transmission；

The reception device judges whether the reception device has by carrying out certification interaction with the wireless charging emitter There is charging qualification, if having charging qualification, generates charge request；

The reception device sends the charging to the wireless charging emitter by the programmable super surface coating layer Request, and the location information is sent to the programmable super surface coating layer；

The microwave energy signal is converted the rechargeable electrical energy by the reception device.