CN107276163A - It is a kind of wirelessly to apply by method for electrically and system, shared electric energy server - Google Patents

Abstract

Wirelessly applied by method for electrically and system, shared electric energy server the invention discloses a kind of, it is mobile network's terminal charge to solve present in prior art due to needing by the third party such as charging wire and/or charger baby charging equipment, causes user to carry the problem of inconvenient, experience effect is poor.Specially：Control module control is applied to be run by electric module；Apply to be performed under the control of control module by electric module and apply accordingly by electrically operated.It is integrated in by that will apply by electric module in mobile network's terminal, the electric energy realized between mobile network's terminal is shared, user need not carry third party's charging equipment such as charging wire and/or charger baby, the mobile network's terminal charge of itself can be shared as by the electric energy between mobile network's terminal, avoid present in prior art due to need by the third party such as charging wire and/or charger baby charging equipment be mobile network's terminal charge, cause the problem of user carries inconvenient, improve Consumer's Experience.

Description

Wireless power application and receiving method and system and shared electric energy server

Technical Field

The invention relates to the technical field of wireless charging, in particular to a wireless power application method and system and a shared electric energy server.

Background

At present, mobile network equipment such as cell-phone, panel computer have become the indispensable partly of modern life, have brought very big facility for people's daily life, along with the continuous development of mobile network equipment business, the function of mobile network terminal is also more and more, and thereupon, the power consumption of mobile network terminal is also more and more big, and among the prior art, mainly there is following concentrated charging mode:

(1) and charging the mobile network terminal through a charging wire connected to a power supply.

(2) And charging the mobile network terminal through third-party charging equipment such as a common charger.

(3) The precious rack that charges through the sharing charges and charges for mobile network terminal, and this sharing charges precious rack embeds has a plurality of treasureds that charge, and the precious rack that charges of near sharing of user's accessible internet inquiry to through modes such as scanning two-dimensional code, make the automatic precious that charges of borrowing of rack, after charging for mobile network terminal, the user need return this precious sharing that charges to near in the precious rack that charges.

Based on above-mentioned analysis can know, among the prior art, mainly charge for mobile network terminal through third party battery charging outfit such as charging wire and/or the treasured that charges, the user when going out, need carry the charging wire and/or the treasured that charges, perhaps finds the sharing that peripheral charges and rents the back, just can in time charge for mobile network terminal, otherwise, the user will be unable to charge for mobile network terminal.

Disclosure of Invention

The embodiment of the invention provides a wireless power application method and system and a shared electric energy server, which are used for solving the problems of inconvenience in carrying and poor experience effect of a user due to the fact that a mobile network terminal needs to be charged through third-party charging equipment such as a charging wire and/or a charger.

The embodiment of the invention provides the following specific technical scheme:

a wireless power receiving system embedded in a mobile network terminal for power sharing between the mobile network terminals, the wireless power receiving system comprising: a control module, and a power applying and receiving module, wherein,

the control module is used for controlling the operation of the power supply and reception module;

and the power supply and reception module is used for executing corresponding power supply and reception operation under the control of the control module.

Preferably, the control module is specifically configured to:

if the mobile network terminal is determined to meet the preset power application condition, controlling the power application and reception module to enter a power application state;

and if the mobile network terminal is determined to meet the preset power receiving condition, controlling the power receiving and applying module to enter a power receiving state.

Preferably, the power applying module is specifically configured to:

if the mobile network terminal is in a power-on state, acquiring electric energy from a battery of the mobile network terminal, and outputting the acquired electric energy in a wireless transmission mode;

and if the mobile network terminal is in the power receiving state, receiving the electric energy and inputting the received electric energy into a battery of the mobile network terminal.

Preferably, the control module is further configured to:

if the mobile network terminal is a power transmission mobile network terminal, acquiring a specific pulse signal used in a power transmission and reception process appointed between the power transmission mobile network terminal and the power reception mobile network terminal, and indicating a power transmission and reception module to modulate the specific pulse signal on electromagnetic waves in a process of outputting electric energy through the electromagnetic waves;

if the mobile network terminal is a powered mobile network terminal, acquiring a specific pulse signal used in a power supplying and receiving process appointed between the power supplying and receiving mobile network terminal and the powered mobile network terminal, and judging whether the specific pulse signal modulated on the electromagnetic wave is the same as the appointed specific pulse signal or not when a power supplying and receiving module receives electric energy output by the power supplying and receiving mobile network terminal through the electromagnetic wave; if so, controlling the power applying and receiving module to input the received electric energy into a battery of the mobile network terminal; otherwise, controlling the power supply module to enter a pause state.

Preferably, if the power supplying module comprises a power supplying module and a power receiving module,

the control module is used for controlling the power generation module to enter a working state and controlling the power receiving module to enter a suspension state if the mobile network terminal is determined to meet the preset power generation condition; if the mobile network terminal is determined to meet the preset power receiving condition, controlling the power generation module to enter a pause state and controlling the power receiving module to enter a working state;

the power generation module is used for acquiring electric energy from a battery of the mobile network terminal under the control of the control module and outputting the acquired electric energy in a wireless transmission mode;

and the power receiving module is used for receiving the electric energy and inputting the received electric energy into a battery of the mobile network terminal under the control of the control module.

Preferably, the control module is specifically configured to:

under the condition that a power supply permission instruction is received or the current electric quantity of the mobile network terminal is determined to be not less than a preset power supply threshold value, the mobile network terminal is determined to meet a preset power supply condition;

and under the condition of receiving the power receiving demand instruction or under the condition of determining that the current electric quantity of the mobile network terminal is smaller than a preset power receiving threshold value, determining that the mobile network terminal meets a preset power receiving condition.

Preferably, the control module is further configured to: if the mobile network terminal is a power transmission mobile network terminal, acquiring a specific pulse signal used in the power transmission and reception process appointed between the power transmission mobile network terminal and the power reception mobile network terminal, and indicating a power transmission module to modulate the specific pulse signal on electromagnetic waves in the process of outputting electric energy through the electromagnetic waves;

if the mobile network terminal is a powered mobile network terminal, acquiring a specific pulse signal used in a power supplying and receiving process appointed between the powered mobile network terminal and the powered mobile network terminal, and judging whether the specific pulse signal modulated on the electromagnetic wave is the same as the appointed specific pulse signal or not when a power receiving module receives electric energy output by the powered mobile network terminal through the electromagnetic wave; if so, controlling the power receiving module to input the received electric energy into a battery of the mobile network terminal; otherwise, controlling the powered module to enter a pause state.

A wireless power supply method is applied to the wireless power supply and reception system, and comprises the following steps:

acquiring electric energy from a battery of the mobile network terminal under the condition that the mobile network terminal meets the preset power application condition, and outputting the acquired electric energy in a wireless transmission mode;

and stopping outputting the electric energy under the condition that the mobile network terminal meets the preset power application termination condition.

Preferably, the determining that the mobile network terminal satisfies the preset power application condition includes:

and determining that the mobile network terminal meets the preset power application condition under the condition that the mobile network terminal receives the power application permission instruction or the condition that the current electric quantity of the mobile network terminal is determined to be not less than the preset power application threshold.

Preferably, the obtaining of the electric energy from the battery of the mobile network terminal and the outputting of the obtained electric energy by using the wireless transmission mode include:

acquiring a specific pulse signal which is appointed between a mobile network terminal and a power receiving mobile network terminal and is used in a power applying and receiving process;

the specific pulse signal is modulated on the electromagnetic wave, and the electric energy is output through the electromagnetic wave modulated with the specific pulse signal.

Preferably, the determining that the mobile network terminal satisfies the preset power application termination condition includes:

and determining that the mobile network terminal meets a preset power application termination condition under the condition that the current electric quantity of the mobile network terminal is determined to be smaller than a preset power application threshold value or the condition that the mobile network terminal receives a power application termination instruction is detected.

A wireless power receiving method is applied to the wireless power receiving system, and comprises the following steps:

under the condition that the mobile network terminal meets the preset power receiving condition, receiving electric energy and inputting the received electric energy into a battery;

and stopping receiving the electric energy under the condition that the mobile network terminal meets the preset power receiving termination condition.

Preferably, the determining that the mobile network terminal satisfies the preset power receiving condition includes:

and determining that the mobile network terminal meets the preset power receiving condition when the mobile network terminal receives the power receiving demand instruction is detected or the current electric quantity of the mobile network terminal is determined to be smaller than the preset power receiving threshold.

Preferably, the receiving the electric energy and inputting the received electric energy into the battery includes:

the method comprises the steps of obtaining a specific pulse signal used in the power supply process appointed between a power supply mobile network terminal and a mobile network terminal, determining that the specific pulse signal modulated on electromagnetic waves is the same as the appointed specific pulse signal under the condition that the electric energy output by the power supply mobile network terminal through the electromagnetic waves is received, and inputting the received electric energy into a battery.

Preferably, the power receiving operation is suspended when it is determined that the specific pulse signal modulated on the electromagnetic wave is different from the predetermined specific pulse signal.

Preferably, the determining that the mobile network terminal satisfies the preset power receiving termination condition includes:

and determining that the mobile network terminal meets the preset power receiving termination condition under the condition that the current electric quantity of the mobile network terminal is not less than the preset power receiving termination threshold value or the condition that the mobile network terminal receives a power receiving termination instruction is detected.

A method of wirelessly applying power, comprising:

the method comprises the steps that under the condition that a shared electric energy control server receives a power application request sent by a first mobile network terminal, first position information of the first mobile network terminal is obtained;

the shared electric energy control server searches each second mobile network terminal of which the distance between the corresponding second position information and the first position information is within a preset range;

and the shared electric energy control server indicates each second mobile network terminal to output electric energy in a wireless transmission mode so that the first mobile network terminal can receive the electric energy output by each second mobile network terminal in the wireless transmission mode.

Preferably, after the shared power control server searches for each second mobile network terminal whose distance between the corresponding second location information and the corresponding first location information is within the preset range, before instructing each second mobile network terminal to output power through the power generation module, the method further includes:

and the shared electric energy control server screens out the second mobile network terminals meeting the preset power application conditions from the searched second mobile network terminals.

Preferably, the step of screening, by the shared electric energy control server, the second mobile network terminals that satisfy the preset power application condition from the searched second mobile network terminals includes:

the shared electric energy control server sends power application inquiry information to each searched second mobile network terminal respectively, and screens out second mobile network terminals which are allowed to apply power based on power application response information returned by each searched second mobile network terminal after receiving the power application inquiry information; or,

and the shared electric energy control server acquires the current electric quantity of each searched second mobile network terminal, and screens out the second mobile network terminals of which the current electric quantity is not less than a preset power application threshold value from each searched second mobile network terminal.

A shared power control server, comprising:

the mobile terminal comprises an acquisition unit, a processing unit and a processing unit, wherein the acquisition unit is used for acquiring first position information of a first mobile network terminal under the condition of receiving a power-on request sent by the first mobile network terminal;

the searching unit is used for searching each second mobile network terminal of which the distance between the corresponding second position information and the first position information is within a preset range;

and the indicating unit is used for indicating each second mobile network terminal to output the electric energy in a wireless transmission mode so that the first mobile network terminal can receive the electric energy output by each second mobile network terminal in the wireless transmission mode.

Preferably, the shared power control server further includes a screening unit, wherein the screening unit is configured to:

and screening out the second mobile network terminals meeting the preset power application condition from the second mobile network terminals searched by the searching unit.

Preferably, when the second mobile network terminal meeting the preset power application condition is selected from the searched second mobile network terminals, the selecting unit is specifically configured to:

respectively sending power application inquiry information to each searched second mobile network terminal, and screening out second mobile network terminals allowed to apply power based on power application response information returned by each searched second mobile network terminal after receiving the power application inquiry information; or,

and obtaining the current electric quantity of each searched second mobile network terminal, and screening out the second mobile network terminals of which the current electric quantity is not less than a preset power application threshold value from each searched second mobile network terminal.

The embodiment of the invention has the following beneficial effects:

in the embodiment of the invention, the power supply and receiving module is integrated in the mobile network terminal, so that the electric energy sharing among the mobile network terminals is realized, a user can charge the mobile network terminal of the user through the electric energy sharing among the mobile network terminals without carrying third-party charging equipment such as a charging wire and/or a charger, the problem that the user is inconvenient to carry because the mobile network terminal needs to be charged through the third-party charging equipment such as a charging wire and/or a charger in the prior art is solved, and the user experience is improved.

Drawings

Fig. 1 is a schematic structural diagram of a wireless power receiving system according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of another wireless power receiving system according to a second embodiment of the present invention;

fig. 3 is a schematic flowchart of a wireless power application method according to a third embodiment of the present invention;

fig. 4 is a flowchart illustrating a wireless power receiving method according to a fourth embodiment of the present invention;

fig. 5 is a flowchart illustrating a power receiving method according to a fifth embodiment of the present invention;

fig. 6 is a flowchart illustrating a method for wirelessly applying power according to a sixth embodiment of the present invention;

fig. 7 is a flowchart illustrating a power receiving method according to a seventh embodiment of the present invention;

fig. 8 is a functional structure schematic diagram of a shared power control server according to an eighth embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In order to solve the problems that in the prior art, a mobile network terminal is inconvenient to carry and poor in experience effect due to the fact that a mobile network terminal needs to be charged through third-party charging equipment such as a charging wire and/or a charger, in the embodiment of the invention, a control module and a power applying and receiving module are integrated in the mobile network terminal, the operation of the power applying and receiving module is controlled through the control module, and the power applying and receiving module executes corresponding power applying and receiving operation under the control of the control module. Through will exerting electric module integration in mobile network terminal, the electric energy sharing between the mobile network terminal has been realized, the user need not to carry third party battery charging outfits such as charging wire and/or treasured that charges, can charge for the mobile network terminal of self through the electric energy sharing between the mobile network terminal, avoided existing among the prior art because need charge for mobile network terminal through third party battery charging outfits such as charging wire and/or treasured that charges, lead to the user to carry inconvenient problem, user experience has been improved.

The present invention will be described in detail with reference to specific examples, but it is to be understood that the present invention is not limited to the examples.

Example one

An embodiment of the present invention provides a wireless power receiving system, which is embedded in a mobile network terminal and used for power sharing between the mobile network terminals, and as shown in fig. 1, the wireless power receiving system at least includes: a control module 100 (wherein, the control module 100 may be integrated in the mobile network terminal alone, or may be combined with the original control unit or main control module of the mobile network terminal, which is not specifically limited herein), and a power applying module 110, wherein,

a control module 100 for controlling the operation of the power applying and receiving module 110;

a power applying and receiving module 110 for performing corresponding power applying and receiving operations under the control of the control module 100.

Preferably, the control module 100 is specifically configured to:

if the mobile network terminal is determined to meet the preset power application condition, controlling the power application and reception module 110 to enter a power application state;

if it is determined that the mobile network terminal satisfies the preset power receiving condition, the power receiving and transmitting module 110 is controlled to enter a power receiving state.

Preferably, the control module is specifically configured to:

determining that the mobile network terminal meets a preset power application condition under the condition that the mobile network terminal receives a power application permission instruction or the condition that the current electric quantity of the mobile network terminal is not smaller than a preset power application threshold value is detected;

and determining that the mobile network terminal meets the preset power receiving condition when the mobile network terminal receives the power receiving demand instruction is detected or the current electric quantity of the mobile network terminal is determined to be smaller than the preset power receiving threshold.

Preferably, the power applying module 110 is specifically configured to:

if the mobile network terminal is in the power-on state, acquiring electric energy from a battery 120 of the mobile network terminal, and outputting the acquired electric energy in a wireless transmission mode;

if the mobile network terminal is in the power receiving state, the mobile network terminal receives power and inputs the received power into the battery 120 of the mobile network terminal.

Preferably, the control module 100 is further configured to:

if the mobile network terminal is a power transmission mobile network terminal, acquiring a specific pulse signal used in a power transmission and reception process appointed between the power transmission mobile network terminal and the power reception mobile network terminal, and instructing the power transmission and reception module 110 to modulate the specific pulse signal on the electromagnetic wave in a process of outputting electric energy through the electromagnetic wave;

if the mobile network terminal is a powered mobile network terminal, acquiring a specific pulse signal used in a power supplying and receiving process appointed between the powered mobile network terminal and the powered mobile network terminal, and when the power supplying and receiving module 110 receives electric energy output by the powered mobile network terminal through electromagnetic waves, judging whether the specific pulse signal modulated on the electromagnetic waves is the same as the appointed specific pulse signal; if yes, controlling the power applying and receiving module 110 to input the received power into the battery 120 of the mobile network terminal; otherwise, the power applying module 110 is controlled to enter a suspend state.

Therefore, in the first embodiment of the present invention, the control module 100 and the power applying and receiving module 110 are integrated in the mobile network terminal, so that electric energy sharing between the mobile network terminals is realized, and a user can charge the mobile network terminal of the user through the electric energy sharing between the mobile network terminals without carrying a charging line and/or a charging pal or other third-party charging device, thereby avoiding a problem that the user is inconvenient to carry due to the need to charge the mobile network terminal through the charging line and/or the charging pal or other third-party charging device in the prior art, and improving user experience.

Example two

In a specific implementation, the power receiving module 110 mentioned in the first embodiment of the present invention may include a power receiving module 111 and a power receiving module 112, and based on this, the second embodiment of the present invention provides another wireless power receiving system embedded in a mobile network terminal, as shown in fig. 2, the wireless power receiving system at least includes: a control module 100 (wherein, the control module 100 may be integrated in the mobile network terminal alone or combined with an original control unit or main control module of the mobile network terminal, and is not limited in detail herein), a power supply module 111, and a power receiving module 112, wherein,

a control module 100 for controlling operations of the power generation module 111 and the power receiving module 112;

a power generation module 111, configured to obtain electric energy from a battery 120 of the mobile network terminal under the control of the control module 100, and output the obtained electric energy in a wireless transmission manner;

and a power receiving module 112 for receiving power and inputting the received power to a battery 120 of the mobile network terminal under the control of the control module 100.

Preferably, the control module 100 is specifically configured to:

if the mobile network terminal is determined to meet the preset power generation condition, controlling the power generation module 111 to enter a working state and controlling the power receiving module 112 to enter a suspension state;

if the mobile network terminal is determined to meet the preset power receiving condition, controlling the power generation module 111 to enter a pause state and controlling the power receiving module 112 to enter a working state;

preferably, the control module 100 is specifically configured to:

determining that the mobile network terminal meets a preset power application condition under the condition that the mobile network terminal receives a power application permission instruction or the condition that the current electric quantity of the mobile network terminal is not smaller than a preset power application threshold value is detected;

and determining that the mobile network terminal meets the preset power receiving condition when the mobile network terminal receives the power receiving demand instruction is detected or the current electric quantity of the mobile network terminal is determined to be smaller than the preset power receiving threshold.

Preferably, the control module 100 is further configured to:

if the mobile network terminal is a power transmission mobile network terminal, acquiring a specific pulse signal used in a power transmission and reception process appointed between the power transmission mobile network terminal and the power reception mobile network terminal, and instructing the power transmission module 111 to modulate the specific pulse signal on the electromagnetic wave in a process of outputting electric energy through the electromagnetic wave;

if the mobile network terminal is a powered mobile network terminal, acquiring a specific pulse signal used in a power supplying and receiving process appointed between the powered mobile network terminal and the powered mobile network terminal, and judging whether the specific pulse signal modulated on the electromagnetic wave is the same as the appointed specific pulse signal or not when the power receiving module 112 receives electric energy output by the powered mobile network terminal through the electromagnetic wave; if yes, controlling the power receiving module 112 to input the received power into the battery 120 of the mobile network terminal; otherwise, the powered module 112 is controlled to enter a suspend state.

As can be seen, in the second embodiment of the present invention, the control module 100, the power application module 111, and the power receiving module 112 are integrated in the mobile network terminal, so that electric energy sharing between the mobile network terminals is realized, and a user can charge the mobile network terminal of the user through the electric energy sharing between the mobile network terminals without carrying third-party charging equipment such as a charging line and/or a charger.

EXAMPLE III

Based on the wireless power transmission and reception system provided in the foregoing embodiment, a third embodiment of the present invention provides a wireless power transmission method, which is mainly applied to a wireless power transmission and reception system embedded in a mobile network terminal, and referring to fig. 3, when the mobile network terminal is used as a power transmission and reception mobile network terminal, a specific flow of the wireless power transmission method adopted by the power transmission and reception system embedded in the mobile network terminal is as follows:

step 300: and under the condition that the mobile network terminal meets the preset power application condition, acquiring electric energy from a battery of the mobile network terminal, and outputting the acquired electric energy in a wireless transmission mode.

In specific implementation, a user may flexibly set the power application authority of the mobile network terminal according to own needs and habits, and specifically, the user may set the power application authority of the mobile network terminal in the following manner:

(1) the user enters the settings interface by clicking the icon "settings".

(2) The user enters into the power application and reception function setting interface by clicking the icon 'power application and reception function', and the power application and reception function setting interface at least comprises: an icon "power reception authority", an icon "power application authority", an enable icon for a power reception mode, an enable icon for a power application mode, and the like.

(3) The user enters a setting interface of the power application authority by clicking the icon 'power application authority', and the setting interface of the power application authority at least comprises: an enable icon for "auto power on," an enable icon for "custom power on," etc. The user can set the power application authority of the mobile network terminal to be automatically powered on by clicking the starting icon of 'automatically powered on'. In this case, the electric energy may be automatically obtained from the battery and the obtained electric energy may be output in a wireless transmission manner, in a case where it is determined that the current electric quantity of the mobile network terminal is not less than the preset power application threshold. Of course, the user may also customize the power application authority of the mobile network terminal by clicking the "customized power application" enabling icon, for example, the user may set the power application authority of the mobile network terminal to perform the power application operation when receiving the power application permission instruction. In this case, when it is detected that the mobile network terminal receives a power application permission instruction, the power application permission instruction may be issued by the user actively or after receiving power application inquiry information, the power supply may be acquired from the battery, and the acquired power supply may be output by using a wireless transmission manner.

Preferably, in order to improve the power receiving efficiency of the power receiving mobile network terminal, a specific pulse signal used in the power receiving process appointed between the mobile network terminal and the power receiving mobile network terminal may be obtained first, and then the specific pulse signal is modulated on the electromagnetic wave, and the electric energy is output through the electromagnetic wave modulated with the specific pulse signal. Therefore, only the power receiving mobile network terminal which has appointed the specific pulse signal with the mobile network terminal can normally input the electric energy into the battery after receiving the electric energy output by the mobile network terminal, and the power receiving mobile network terminal which does not have appointed the specific pulse signal with the mobile network terminal cannot normally input the electric energy into the battery after receiving the electric energy output by the mobile network terminal, thereby effectively reducing the power receiving possibility of other power receiving mobile network terminals and improving the power receiving efficiency of the power receiving mobile network terminal which has appointed the specific pulse signal with the mobile network terminal.

It should be noted that, in the implementation, the specific pulse signal may be agreed between the mobile network terminal and the powered mobile network terminal in various ways, such as: after one of the mobile network terminal and the powered mobile network terminal generates a specific pulse signal, the generated specific pulse signal is sent to the other party through bluetooth transmission, internet transmission, two-dimensional code scanning and other modes, so that the agreement of the specific pulse signal is realized, and the specific implementation mode is not limited specifically herein.

Step 301: and controlling the power generation module to stop outputting the electric energy under the condition that the mobile network terminal is determined to meet the preset power generation termination condition.

In specific implementation, the power generation module may be controlled to stop outputting the electric energy when it is determined that the current electric quantity of the mobile network terminal is smaller than a preset power generation threshold. Of course, the power generation module may be controlled to stop outputting the power when it is detected that the mobile network terminal receives the power generation end instruction.

Therefore, in the third embodiment of the invention, electric energy sharing is realized among the mobile network terminals, and a user can charge the mobile network terminal of the user through the electric energy sharing among the mobile network terminals without carrying third-party charging equipment such as a charging wire and/or a charger, so that the problem that the user is inconvenient to carry because the mobile network terminal needs to be charged through the third-party charging equipment such as a charging wire and/or a charger in the prior art is solved, and the user experience is improved.

Example four

Based on the mobile network terminal provided in the foregoing embodiment, a fourth embodiment of the present invention provides a wireless power receiving method, which is mainly applied to a wireless power receiving system embedded in the mobile network terminal, and referring to fig. 4, when the mobile network terminal is used as a power receiving mobile network terminal, a specific flow of the wireless power receiving method adopted by the power receiving system embedded in the mobile network terminal is as follows:

step 400: and under the condition that the mobile network terminal meets the preset power receiving condition, receiving the electric energy and inputting the received electric energy into the battery.

In specific implementation, a user may flexibly set the power receiving authority of the mobile network terminal according to own needs and habits, and specifically, the user may set the power receiving authority of the mobile network terminal in the following manner:

(1) the user enters the settings interface by clicking the icon "settings".

(2) The user enters into the power application and reception function setting interface by clicking the icon 'power application and reception function', and the power application and reception function setting interface at least comprises: an icon "power reception authority", an icon "power application authority", an enable icon for a power reception mode, an enable icon for a power application mode, and the like.

(3) The user enters a setting interface of the power receiving authority by clicking the icon 'power receiving authority', and the setting interface of the power receiving authority at least comprises: an enable icon for "auto power up," an enable icon for "custom power up," etc. The user can set the power receiving authority of the mobile network terminal to be automatically powered by clicking the enabling icon of 'automatically powered'. In this case, it may be determined that the current power amount of the mobile network terminal is less than a preset power receiving threshold, and the power may be automatically received and input into the battery. Of course, the user may also customize the power receiving authority of the mobile network terminal by clicking the "customized power receiving" enabling icon, for example, the user may set the power receiving authority of the mobile network terminal to execute a power receiving operation when receiving the power receiving demand instruction. In this case, it may be possible to receive the power and input the received power into the battery upon detecting that the mobile network terminal receives the power demand instruction.

Preferably, in order to improve the power receiving efficiency of the mobile network terminal, a specific pulse signal used in the power receiving process appointed between the power transmitting mobile network terminal and the mobile network terminal may be obtained first, and then, under the condition that the electric energy output by the power transmitting mobile network terminal through the electromagnetic wave is received, whether the specific pulse signal modulated on the electromagnetic wave is the same as the appointed specific pulse signal is judged, if yes, the received electric energy is input into the battery; otherwise, execution of the power receiving operation is suspended. Therefore, under the condition that the mobile network terminal and the power supply mobile network terminal agree on a specific pulse signal, the mobile network terminal can normally input the electric energy into the battery after receiving the electric energy output by the power supply mobile network terminal, and other mobile network terminals which do not agree on the specific pulse signal with the power supply mobile network terminal cannot normally input the electric energy into the battery after receiving the electric energy output by the power supply mobile network terminal, so that the power receiving possibility of other mobile network terminals is effectively reduced, and the power receiving efficiency of the mobile network terminal is improved.

It should be noted that, in the implementation, the specific impulse signal may be agreed between the mobile network terminal and the power-applying mobile network terminal in various ways, such as: one of the mobile network terminal and the power-applying mobile network terminal generates a specific pulse signal, and the generated specific pulse signal is sent to the other party through bluetooth transmission, internet transmission, two-dimensional code scanning and other modes, so that the agreement of the specific pulse signal is realized, and the specific implementation mode is not specifically limited herein.

Step 401: and stopping receiving the electric energy under the condition that the mobile network terminal meets the preset power receiving termination condition.

In specific implementation, the receiving of the power may be stopped when it is determined that the current power amount of the mobile network terminal is not less than the preset power receiving termination threshold. Of course, the power reception may be stopped when it is detected that the mobile network terminal receives the power reception termination instruction.

Therefore, in the fourth embodiment of the invention, electric energy sharing is realized among the mobile network terminals, and a user can charge the mobile network terminal of the user through the electric energy sharing among the mobile network terminals without carrying third-party charging equipment such as a charging wire and/or a charger, so that the problem that the user is inconvenient to carry because the mobile network terminal needs to be charged through the third-party charging equipment such as a charging wire and/or a charger in the prior art is solved, and the user experience is improved.

EXAMPLE five

In the following, a wireless power receiving method mentioned in the third embodiment and the fourth embodiment of the present invention is further described in detail by taking only "the mobile network terminal is a mobile phone, the mobile phone a of the user 1 is a power receiving mobile network terminal, and the mobile phone B of the user 2 is a power transmitting mobile network terminal" as a specific application scenario, and as shown in fig. 5, a specific flow of the wireless power receiving method in the fifth embodiment of the present invention is as follows:

step 500: when the user 1 needs to charge the mobile phone a, the user 1 may negotiate with a nearby user, and after the user 2 agrees to charge the mobile phone a of the user 1, the user 1 may enter a setting interface by clicking the icon "set", and enter a setting interface for the power application function by clicking the icon "power application function". Wherein, should exert the electric function setting interface and include at least: an icon "power reception authority", an icon "power application authority", an enable icon for a power reception mode, an enable icon for a power application mode, and the like.

Step 501: the user 1 initiates a power receiving demand instruction to the mobile phone a by clicking the power receiving mode activation icon displayed on the power receiving function setting interface.

Step 502: the mobile phone a enters a power receiving state when receiving the power receiving demand instruction input by the user 1. Specifically, the control module of the mobile phone a may control the power receiving module to enter the power receiving state, or the control module of the mobile phone a may control the power receiving module to enter the working state and control the power receiving module to enter the suspend state.

Step 503: user 2 accessible clicks icon "setting", gets into and sets up the interface to through clicking "execute the electric function", get into and execute the electric function and set up the interface, should execute the electric function and set up the interface and contain at least: an icon "power reception authority", an icon "power application authority", an enable icon for a power reception mode, an enable icon for a power application mode, and the like.

Step 504: the user 2 initiates a power application permission instruction to the mobile phone B by clicking an enable icon of the "power application mode" displayed on the power application function setting interface.

Step 505: the mobile phone B enters the power application state when receiving the power application permission instruction input by the user 2, specifically, the control module of the mobile phone B controls the power application module to enter the power application state, or the control module of the mobile phone B controls the power application module to enter the working state and controls the power reception module to enter the suspension state.

Step 506: the mobile phone A generates a specific pulse signal and sends the generated specific pulse signal to the mobile phone B in the modes of Bluetooth transmission, Internet transmission, two-dimensional code scanning and the like; or the mobile phone B generates a specific pulse signal and sends the generated specific pulse signal to the mobile phone A in the modes of Bluetooth transmission, Internet transmission, two-dimensional code scanning and the like.

Step 507: the mobile phone B obtains electric energy from the battery, modulates the specific pulse signal on the electromagnetic wave, and outputs the electric energy through the electromagnetic wave modulated with the specific pulse signal. In particular, this step may be performed by the power-supplying module or the power-supplying module of the mobile phone B.

Step 508: the mobile phone A receives the electric energy output by the mobile phone B through electromagnetic waves. When implemented, this step can be performed by the power receiving module or the power receiving module of the mobile phone a.

Step 509: the mobile phone a determines whether the specific pulse signal modulated on the electromagnetic wave is the same as the predetermined specific pulse signal, if so, the step 506 is executed; otherwise, go to step 507. In particular implementations, this step may be performed by the control module of the handset B.

Step 510: the mobile phone a inputs the received electric energy into the battery. When implemented, this step can be performed by the power receiving module or the power receiving module of the mobile phone a.

Step 511: the handset a suspends the execution of the power receiving operation. When implemented, this step can be performed by the power receiving module or the power receiving module of the mobile phone a.

EXAMPLE six

In order to implement automatic matching of the mobile network device in the power application process, a sixth embodiment of the present invention provides a wireless power application method based on the foregoing embodiment, and referring to fig. 6, a specific flow of the wireless power application method is as follows:

step 600: the shared electric energy control server acquires first position information of the first mobile network equipment under the condition that the shared electric energy control server receives a power application request sent by the first mobile network equipment.

In particular, the shared power control server may obtain the first location information of the first mobile network device by using various manners in the prior art, such as: the shared electric energy control server may obtain the first location information of the first mobile network device through satellite positioning, may also obtain the first location information of the first mobile network device through bluetooth positioning, or obtain the first location information of the first mobile network device through base station positioning or WIFI positioning, which is not specifically limited herein.

Step 601: and the shared electric energy control server searches each second mobile network device of which the distance between the corresponding second position information and the first position information is within a preset range.

In a specific implementation, the shared power control server may use various manners in the prior art to search for each second mobile network device whose distance between the corresponding second location information and the corresponding first location information is within a preset range, which is not limited herein.

Step 602: and the shared electric energy control server instructs each second mobile network device to output electric energy in a wireless transmission mode, so that the first mobile network device receives the electric energy output by each second mobile network device in the wireless transmission mode.

It is worth mentioning that, after the shared electric energy control server finds each second mobile network device, before executing step 602, the shared electric energy control server may further screen out the second mobile network devices that satisfy the preset power application condition from the found second mobile network devices. Specifically, the shared power control server may be screened in, but not limited to, the following two ways:

the first mode is as follows: and screening by sending the power application inquiry information, namely, the shared electric energy control server respectively sends the power application inquiry information to each searched second mobile network device, and screens out the second mobile network devices which are allowed to apply power based on the power application response information returned by each second mobile network device after receiving the power application inquiry information.

The second mode is as follows: and automatically screening by using the current electric quantity, namely acquiring the current electric quantity of each second mobile network device by using the shared electric energy control server, and screening out the second mobile network devices of which the current electric quantity is not less than a preset power application threshold value from each second mobile network device.

Preferably, in order to improve the power receiving efficiency of the first mobile network device, the first mobile network device and the second mobile network device may agree with a specific pulse signal used in the power receiving process through the shared power control server. In a specific implementation, the specific pulse signal may be generated by the first mobile network device and sent to the second mobile network device through the shared power control server, may also be generated by the second mobile network device and sent to the first mobile network device through the shared power control server, and may also be generated by the shared power control server and sent to the first mobile network device and the second mobile network device, respectively, which is not limited specifically herein.

Further, after the first mobile network device and the second mobile network device agree on a specific pulse signal, the shared power control server may instruct the second mobile network device to output power in a wireless transmission manner, that is, the second mobile network device modulates the agreed specific pulse signal on an electromagnetic wave and outputs power by modulating the electromagnetic wave with the specific pulse signal, the first mobile network device receives power output by the second mobile network device by modulating the electromagnetic wave with the specific pulse signal and determines whether the specific pulse signal modulated on the electromagnetic wave is the same as the agreed specific pulse signal, and if so, inputs the received power into the battery; otherwise, execution of the power receiving operation is suspended. Therefore, under the condition that the first mobile network device and the second power supply mobile network device agree on the specific pulse signal, the first mobile network device can normally input the electric energy into the battery after receiving the electric energy output by the second power supply mobile network device, and other mobile network devices which do not agree on the specific pulse signal with the second power supply mobile network device cannot normally input the electric energy into the battery after receiving the electric energy output by the second mobile network device, so that the power receiving possibility of other mobile network devices is effectively reduced, and the power receiving efficiency of the first mobile network device is improved.

Therefore, in the seventh embodiment of the present invention, the shared alliance control server searches for the power transmitting mobile network device meeting the requirement to power the power receiving mobile network device, so as to implement automatic matching between the power transmitting mobile network device and the power receiving mobile network device.

EXAMPLE seven

In the following, a wireless power receiving method according to a sixth embodiment of the present invention is further described in detail with reference to fig. 7, where a specific process of the wireless power receiving method according to a seventh embodiment of the present invention is as follows, where only "the mobile network terminal is a mobile phone, the shared power server is a first mobile phone matched to a second mobile phone, and a specific pulse signal used between the first mobile phone and the second mobile phone in the power receiving process is generated by the shared power control server":

step 700: the first mobile phone sends a power application request to the shared electric energy control server under the condition of receiving a power receiving demand instruction or under the condition of determining that the current electric quantity is smaller than a preset power receiving threshold value.

Step 701: the shared electric energy control server acquires first position information of the first mobile phone under the condition that the shared electric energy control server receives a power application request sent by the first mobile phone.

Step 702: and the shared electric energy control server searches each second mobile phone of which the distance between the corresponding second position information and the first position information is within a preset range.

Step 703: and the shared electric energy control server screens out the second mobile phones meeting the preset power application conditions from the searched second mobile phones. Specifically, the shared electric energy control server may be screened in two manners mentioned in the sixth embodiment of the present invention, which are not described herein again.

Step 704: the shared electric energy control server generates a specific pulse signal used in the power application process between the first mobile phone and the second mobile phone, sends the specific pulse signal to the first mobile phone and the second mobile phone respectively, and instructs the second mobile phone to output electric energy.

Step 705: the second mobile phone modulates the specific pulse signal on the electromagnetic wave and outputs electric energy through the electromagnetic wave modulated with the specific pulse signal.

Step 706: the first mobile phone receives the electric energy output by the electromagnetic wave and judges whether the specific pulse signal modulated on the electromagnetic wave is the same as the appointed specific pulse signal or not; if yes, go to step 707; otherwise, step 708 is performed.

Step 707: the first mobile phone inputs the received electric energy into the battery.

Step 708: the first mobile phone suspends the execution of the power receiving operation.

Example eight

An eighth embodiment of the present invention provides a shared electric energy control server, as shown in fig. 8, the shared electric energy control server at least includes:

an obtaining unit 800, configured to obtain first location information of a first mobile network device when a power application request sent by the first mobile network device is received;

a searching unit 801, configured to search each second mobile network device whose distance between the corresponding second location information and the corresponding first location information is within a preset range;

an indicating unit 802, configured to instruct each second mobile network device to output power through the power generation module, so that the power receiving module of the first mobile network device receives the power output by each second mobile network device through the power generation module.

Preferably, the shared power control server further includes a screening unit 803, where the screening unit 803 is configured to:

and screening out the second mobile network devices meeting the preset power application condition from the second mobile network devices searched by the searching unit.

Preferably, when each second mobile network device meeting the preset power application condition is selected from the searched second mobile network devices, the selecting unit 803 is specifically configured to:

respectively sending power application inquiry information to each searched second mobile network device, and screening each second mobile network device which is allowed to apply power based on power application response information returned by each second mobile network device after receiving the power application inquiry information; or,

and acquiring the current electric quantity of each second mobile network device, and screening out each second mobile network device of which the current electric quantity is not less than a preset power application threshold value from each second mobile network device.

In summary, in the embodiments of the present invention, the control module and the power applying module are integrated in the mobile network device, the control module controls the operation of the power applying module, and the power applying module executes the corresponding power applying operation under the control of the control module. Through will exerting electric module integration in mobile network equipment, the electric energy sharing between the mobile network equipment has been realized, the user need not to carry third party battery charging outfits such as charging wire and/or treasured that charges, can charge for the mobile network equipment of self through the electric energy sharing between the mobile network equipment, avoided existing among the prior art because need charge for mobile network equipment through third party battery charging outfits such as charging wire and/or treasured that charges, lead to the user to carry inconvenient problem, user experience has been improved.

As will be appreciated by one skilled in the art, embodiments of the present invention may be provided as a method, system, or computer program product. Accordingly, the present invention may take the form of an entirely hardware embodiment, or an embodiment combining software and hardware aspects.

While preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all such alterations and modifications as fall within the scope of the invention.

It will be apparent to those skilled in the art that various modifications and variations can be made in the embodiments of the present invention without departing from the spirit or scope of the embodiments of the invention. Thus, if such modifications and variations of the embodiments of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to encompass such modifications and variations.

Claims (22)

1. A wireless power receiving system, embedded in a mobile network terminal, for power sharing between the mobile network terminals, the wireless power receiving system comprising: a control module, and a power applying and receiving module, wherein,

the control module is used for controlling the operation of the power supply module;

and the power supply and reception module is used for executing corresponding power supply and reception operation under the control of the control module.

2. The wireless power application and reception system of claim 1, wherein the control module is specifically configured to:

if the mobile network terminal is determined to meet the preset power application condition, controlling the power application and reception module to enter a power application state;

and if the mobile network terminal is determined to meet the preset power receiving condition, controlling the power receiving module to enter a power receiving state.

3. The wirelessly powered power system of claim 2, wherein the power module is specifically configured to:

if the mobile network terminal is in a power-on state, acquiring electric energy from a battery of the mobile network terminal, and outputting the acquired electric energy in a wireless transmission mode;

and if the mobile network terminal is in a power receiving state, receiving electric energy and inputting the received electric energy into a battery of the mobile network terminal.

4. The wirelessly-powered electrical system of claim 1, wherein the control module is further to:

if the mobile network terminal is a power-applying mobile network terminal, acquiring a specific pulse signal used in a power applying process appointed between the power-applying mobile network terminal and a power-receiving mobile network terminal, and instructing a power applying module to modulate the specific pulse signal on electromagnetic waves in a process of outputting electric energy through the electromagnetic waves;

if the mobile network terminal is a powered mobile network terminal, acquiring a specific pulse signal used in a power supplying and receiving process appointed between a power supplying mobile network terminal and the powered mobile network terminal, and judging whether the specific pulse signal modulated on the electromagnetic wave is the same as the appointed specific pulse signal or not when the power supplying and receiving module receives electric energy output by the power supplying mobile network terminal through the electromagnetic wave; if so, controlling the power supply module to input the received electric energy into a battery of the mobile network terminal; otherwise, controlling the power supply module to enter a pause state.

5. The wireless power generation and reception system according to claim 1, wherein if the power generation and reception module includes a power generation module and a power reception module,

the control module is used for controlling the power generation module to enter a working state and controlling the power receiving module to enter a suspension state if the mobile network terminal is determined to meet a preset power generation condition; if the mobile network terminal is determined to meet the preset power receiving condition, controlling the power generation module to enter a pause state and controlling the power receiving module to enter a working state;

the power generation module is used for acquiring electric energy from a battery of the mobile network terminal under the control of the control module and outputting the acquired electric energy in a wireless transmission mode;

and the power receiving module is used for receiving electric energy and inputting the received electric energy into a battery of the mobile network terminal under the control of the control module.

6. The wirelessly-powered electrical system according to claim 2 or 5, wherein the control module is specifically configured to:

under the condition that a power supply permission instruction is received or the current electric quantity of the mobile network terminal is determined to be not less than a preset power supply threshold value, the mobile network terminal is determined to meet a preset power supply condition;

and under the condition of receiving a power receiving demand instruction, or under the condition of determining that the current electric quantity of the mobile network terminal is smaller than a preset power receiving threshold value, determining that the mobile network terminal meets a preset power receiving condition.

7. The wirelessly-powered electrical system of claim 5, wherein the control module is further to: if the mobile network terminal is a power transmission mobile network terminal, acquiring a specific pulse signal used in a power transmission and reception process appointed between the power transmission mobile network terminal and a power reception mobile network terminal, and instructing the power transmission module to modulate the specific pulse signal on electromagnetic waves in a process of outputting electric energy through the electromagnetic waves;

if the mobile network terminal is a powered mobile network terminal, acquiring a specific pulse signal used in a power supplying and receiving process appointed between a power supplying mobile network terminal and the powered mobile network terminal, and judging whether the specific pulse signal modulated on the electromagnetic wave is the same as the appointed specific pulse signal or not when the power receiving module receives electric energy output by the power supplying mobile network terminal through the electromagnetic wave; if so, controlling the power receiving module to input the received electric energy into a battery of the mobile network terminal; otherwise, controlling the power receiving module to enter a pause state.

8. A wireless power supply method applied to the wireless power supply system according to any one of claims 1 to 7, the method comprising:

acquiring electric energy from a battery of the mobile network terminal under the condition that the mobile network terminal meets a preset power application condition, and outputting the acquired electric energy in a wireless transmission mode;

and stopping outputting the electric energy under the condition that the mobile network terminal is determined to meet the preset power application termination condition.

9. The method of claim 8, wherein determining that the mobile network terminal satisfies a preset power application condition comprises:

and determining that the mobile network terminal meets a preset power application condition under the condition that the mobile network terminal is detected to receive a power application permission instruction or the condition that the current electric quantity of the mobile network terminal is determined to be not less than a preset power application threshold.

10. The method of claim 8, wherein obtaining power from a battery of the mobile network terminal and outputting the obtained power using wireless transmission comprises:

acquiring a specific pulse signal which is appointed between the mobile network terminal and a power receiving mobile network terminal and is used in a power applying and receiving process;

and modulating the specific pulse signal on an electromagnetic wave, and outputting electric energy through the electromagnetic wave modulated with the specific pulse signal.

11. The method according to any of claims 8-10, wherein determining that the mobile network terminal satisfies a preset power application termination condition comprises:

and determining that the mobile network terminal meets a preset power application termination condition under the condition that the current electric quantity of the mobile network terminal is determined to be smaller than a preset power application threshold value or the condition that the mobile network terminal receives a power application termination instruction is detected.

12. A wireless power receiving method applied to the wireless power receiving system according to any one of claims 1 to 7, the method comprising:

receiving electric energy and inputting the received electric energy into a battery of the mobile network terminal under the condition that the mobile network terminal meets a preset power receiving condition;

and stopping receiving the electric energy under the condition that the mobile network terminal meets the preset power receiving termination condition.

13. The method of claim 12, wherein determining that the mobile network terminal satisfies a preset power condition comprises:

and determining that the mobile network terminal meets a preset power receiving condition under the condition that the mobile network terminal receives a power receiving demand instruction or the condition that the current electric quantity of the mobile network terminal is determined to be smaller than a preset power receiving threshold value.

14. The method of claim 12, wherein receiving power and inputting the received power into the mobile network terminal battery comprises:

the method comprises the steps of obtaining a specific pulse signal used in the power application process appointed between a power application mobile network terminal and the mobile network terminal, determining that the specific pulse signal modulated on electromagnetic waves is the same as the appointed specific pulse signal under the condition that the electric energy output by the power application mobile network terminal through the electromagnetic waves is received, and inputting the received electric energy into a battery of the mobile network terminal.

15. The method of claim 14, wherein it is determined that the specific pulse signal modulated on the electromagnetic wave is different from the agreed specific pulse signal, the execution of the power receiving operation is suspended.

16. The method according to any of claims 12-15, wherein determining that the mobile network terminal satisfies a preset power terminating condition comprises:

and determining that the mobile network terminal meets a preset power receiving termination condition under the condition that the current electric quantity of the mobile network terminal is not less than a preset power receiving termination threshold value or under the condition that the mobile network terminal is detected to receive a power receiving termination instruction.

17. A method of wirelessly applying power, comprising:

the method comprises the steps that under the condition that a shared electric energy control server receives a power-on request sent by a first mobile network terminal, first position information of the first mobile network terminal is obtained;

the shared electric energy control server searches each second mobile network terminal of which the distance between the corresponding second position information and the first position information is within a preset range;

and the shared electric energy control server indicates each second mobile network terminal to output electric energy in a wireless transmission mode so that the first mobile network terminal can receive the electric energy output by each second mobile network terminal in the wireless transmission mode.

18. The method of claim 17, wherein after the shared power control server searches for each second mobile network terminal having a distance between the corresponding second location information and the first location information within a preset range, before instructing each second mobile network terminal to output power through the power application module, the method further comprises:

and the shared electric energy control server screens out the second mobile network terminals meeting the preset power application conditions from the searched second mobile network terminals.

19. The method of claim 18, wherein the step of screening, by the shared power control server, the second mobile network terminals that satisfy the preset power application condition from the searched second mobile network terminals comprises:

the shared electric energy control server respectively sends power application inquiry information to each searched second mobile network terminal, and screens out second mobile network terminals which are allowed to apply power based on power application response information returned by each searched second mobile network terminal after receiving the power application inquiry information; or,

and the shared electric energy control server acquires the current electric quantity of each searched second mobile network terminal, and screens out the second mobile network terminals of which the current electric quantity is not less than a preset power application threshold value from each searched second mobile network terminal.

20. A shared power control server, comprising:

the mobile terminal comprises an acquisition unit, a processing unit and a processing unit, wherein the acquisition unit is used for acquiring first position information of a first mobile network terminal under the condition of receiving a power-on request sent by the first mobile network terminal;

the searching unit is used for searching each second mobile network terminal of which the distance between the corresponding second position information and the first position information is within a preset range;

and the indicating unit is used for indicating each second mobile network terminal to output the electric energy in a wireless transmission mode so that the first mobile network terminal can receive the electric energy output by each second mobile network terminal in the wireless transmission mode.

21. The shared power control server of claim 20, further comprising a screening unit, wherein the screening unit is configured to:

and screening out the second mobile network terminals meeting the preset power application condition from the second mobile network terminals searched by the searching unit.

22. The shared power control server according to claim 21, wherein when the second mobile network terminal satisfying the preset power application condition is screened out from the searched second mobile network terminals, the screening unit is specifically configured to:

respectively sending power application inquiry information to each searched second mobile network terminal, and screening out second mobile network terminals allowing power application based on power application response information returned by each searched second mobile network terminal after receiving the power application inquiry information; or,

and obtaining the current electric quantity of each searched second mobile network terminal, and screening out the second mobile network terminals of which the current electric quantity is not less than a preset power application threshold value from each searched second mobile network terminal.