CN107093917B - Wireless charging method and wireless charging router - Google Patents

Abstract

The invention discloses a wireless charging method and a wireless charging router, comprising the following steps: step S100, monitoring the current electric quantity of each wireless terminal connected to a wireless network; step S200, judging whether the current electric quantity of only one wireless terminal is lower than a preset charging threshold value; step S300, if more than one wireless terminal with the current electric quantity lower than a preset charging threshold value is available, obtaining the wireless terminal to be charged according to a preset charging rule; step S500 is to wirelessly charge the wireless terminal to be charged. The invention can preferentially charge the real important wireless terminal; and the preset warning threshold value is set, so that the wireless terminal cannot be charged preferentially due to low charging priority, the shutdown condition caused by low electric quantity is avoided, and the use experience and satisfaction of a user are improved.

Description

Wireless charging method and wireless charging router

Technical Field

The invention relates to the field of wireless charging, in particular to a wireless charging method and a wireless charging router.

Background

With the development of technology, wireless charging routers have come to be developed, and after a wireless terminal (for example, a mobile phone) of a user is connected to the wireless charging router, the wireless terminal of the user can be used and charged at the same time.

However, the existing wireless charging routers all adopt the preset electric quantity threshold to charge the wireless terminal, for example: when a certain wireless terminal is lower than the preset electric quantity threshold value firstly, the wireless charging router charges the wireless terminal. In this flow, the charging priority of each wireless terminal cannot be determined very efficiently. Generally, the priority is determined according to the importance of each wireless terminal, for example, a commercial mobile phone and a tablet computer, and obviously the priority of the commercial mobile phone should be set higher than that of the tablet computer.

Therefore, the existing method for confirming the charging priority through the remaining current electric quantity of the wireless terminal has defects, so that the real important wireless terminal cannot be charged in time, and the use experience of a user is greatly reduced.

Disclosure of Invention

The invention aims to provide a wireless charging method and a wireless charging router, which can timely charge a really important wireless terminal and improve the use experience of a user.

The technical scheme provided by the invention is as follows:

a wireless charging method, comprising: step S100, monitoring the current electric quantity of each wireless terminal connected to a wireless network; step S200, judging whether the current electric quantity of only one wireless terminal is lower than a preset charging threshold value; step S300, if more than one wireless terminal with the current electric quantity lower than a preset charging threshold value is available, obtaining the wireless terminal to be charged according to a preset charging rule; step S500 is to wirelessly charge the wireless terminal to be charged.

In the technical scheme, when a plurality of wireless terminals need to be charged, the really important wireless terminals can be charged wirelessly according to the preset charging rule, so that the use experience of users is improved.

Further, between the step S200 and the step S500, the method further includes: in step S400, if only the current electric quantity of one wireless terminal is lower than a preset charging threshold, the wireless terminal is used as the wireless terminal to be charged.

In the technical scheme, when the current electric quantity of only one wireless terminal is lower than the preset charging threshold value, the wireless terminal is the wireless terminal to be charged according to the preset charging rule, and processes such as follow-up charging priority query and the like are not needed, so that the reflecting speed of wireless charging is increased, and the satisfaction degree of a user is further increased.

Further, the step S300 includes: step S330, respectively acquiring the IP addresses of the wireless terminals of which the current electric quantity is lower than a preset charging threshold; step S340 of respectively searching charging priorities corresponding to the acquired IP addresses; step S350 compares the charging priorities corresponding to the acquired IP addresses, and takes the wireless terminal with the highest charging priority as the wireless terminal to be charged.

In the technical scheme, only the IP addresses of the wireless terminals with the current electric quantity lower than the preset charging threshold are acquired, which means that only the charging priorities of the wireless terminals with the current electric quantity lower than the preset charging threshold are queried, and the charging priorities of other wireless terminals not needing to be charged are not needed to be queried, so that unnecessary resource occupancy rate is reduced, and the reflecting speed is high.

Further, step S100 is preceded by: step S010, when the wireless terminal is connected to the wireless network for the first time, setting the charging priority of the wireless terminal and allocating an IP address to the wireless terminal; step S020 stores the set charging priority in correspondence with the IP address of the wireless terminal.

In the technical scheme, the setting of the charging priority provides a basis for the subsequent charging priority judgment of each wireless terminal.

Further, the step S300 includes: step S310, judging whether a wireless terminal with the current electric quantity lower than a preset alert threshold exists; step S320, when the wireless terminal with the current electric quantity lower than the preset alert threshold exists, obtaining the wireless terminal to be charged according to a preset priority rule; the preset priority rule is that the wireless terminal with the current electric quantity lower than a preset warning threshold value is used as the wireless terminal to be charged.

In the above technical solution, the preset warning threshold is used for preventing a situation that the use of the user is affected by the sudden shutdown of the wireless terminal when the wireless terminal is powered off, and therefore, the use experience of the user is improved by setting the preset warning threshold.

Further, after the step S500, the method further includes: step S600, when the wireless terminal to be charged is being charged according to a preset priority rule, judging whether the current electric quantity of the wireless terminal which is being wirelessly charged reaches a preset charging threshold value; and step S610, when the preset charging threshold is reached, stopping the wireless charging of the wireless terminal, and executing step S100.

In the technical scheme, each wireless terminal connected to the wireless network is guaranteed not to be powered off due to low electric quantity, so that the use of a user is influenced, and the use experience of the user is improved.

The present invention also provides a wireless charging router, including: the monitoring module is used for monitoring the current electric quantity of each wireless terminal connected to the wireless network; the judging module is electrically connected with the monitoring module and is used for judging whether the current electric quantity of only one wireless terminal is lower than a preset charging threshold value; the analysis module is electrically connected with the judgment module, and is used for obtaining the wireless terminal to be charged according to a preset charging rule if the current electric quantity is lower than a preset charging threshold value; and the charging module is electrically connected with the analysis module and is used for wirelessly charging the wireless terminal to be charged.

In the technical scheme, when a plurality of wireless terminals need to be charged, the really important wireless terminals can be charged wirelessly according to the preset charging rule, so that the use experience of users is improved.

Further, the analysis module includes: the obtaining submodule is used for respectively obtaining the IP addresses of the wireless terminals of which the current electric quantity is lower than a preset charging threshold; the searching submodule is used for respectively searching the charging priority corresponding to each acquired IP address; and the comparison submodule is used for comparing the charging priority corresponding to each acquired IP address and taking the wireless terminal with the highest charging priority as the wireless terminal to be charged.

Further, still include: the wireless terminal charging system comprises a setting module, a charging module and a charging module, wherein the setting module is used for setting the charging priority of the wireless terminal and allocating an IP address to the wireless terminal when the wireless terminal is connected to the wireless network for the first time; and the storage module is electrically connected with the setting module and is used for correspondingly storing the set charging priority and the IP address of the wireless terminal.

Further, if there is more than one wireless terminal with the current electric quantity lower than a preset charging threshold, the judging module is further configured to judge whether there is a wireless terminal with the current electric quantity lower than a preset alert threshold; the analysis module is further used for obtaining the wireless terminal to be charged according to a preset priority rule when the wireless terminal with the current electric quantity lower than the preset warning threshold exists; the preset priority rule is that the wireless terminal with the current electric quantity lower than a preset warning threshold value is used as the wireless terminal to be charged.

Compared with the prior art, the line charging method and the wireless charging router have the advantages that:

the charging can be preferentially carried out on the really important wireless terminal; and the preset warning threshold value is set, so that the wireless terminal cannot be charged preferentially due to low charging priority, the shutdown condition caused by low electric quantity is avoided, and the use experience and satisfaction of a user are improved.

Drawings

The above features, technical features, advantages and implementations of a wireless charging method and a wireless charging router will be further described in the following detailed description of preferred embodiments with reference to the accompanying drawings.

FIG. 1 is a flow chart of one embodiment of a wireless charging method of the present invention;

FIG. 2 is a flow chart of another embodiment of a wireless charging method of the present invention;

fig. 3 is a schematic structural diagram of an embodiment of the wireless charging router of the present invention;

fig. 4 is a schematic structural diagram of another embodiment of the wireless charging router of the present invention.

The reference numbers illustrate:

10. the monitoring module 20, the judging module 30, the analyzing module 31, the obtaining sub-module 32, the searching sub-module 33, the comparing sub-module 40, the charging module 50, the setting module 60 and the storage module.

Detailed Description

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the following description will be made with reference to the accompanying drawings. It is obvious that the drawings in the following description are only some examples of the invention, and that for a person skilled in the art, other drawings and embodiments can be derived from them without inventive effort.

For the sake of simplicity, the drawings only schematically show the parts relevant to the present invention, and they do not represent the actual structure as a product. In addition, in order to make the drawings concise and understandable, components having the same structure or function in some of the drawings are only schematically illustrated or only labeled. In this document, "one" means not only "only one" but also a case of "more than one".

In one embodiment of the present invention, as shown in fig. 1, a wireless charging method includes: step S100, monitoring the current electric quantity of each wireless terminal connected to a wireless network; step S200, judging whether the current electric quantity of only one wireless terminal is lower than a preset charging threshold value; step S300, if more than one wireless terminal with the current electric quantity lower than a preset charging threshold value is available, obtaining the wireless terminal to be charged according to a preset charging rule; step S500 is to wirelessly charge the wireless terminal to be charged.

Specifically, after each wireless terminal is connected to the wireless network of the wireless charging router, wireless communication is established between the wireless charging router and the wireless charging router, so that the wireless charging router can monitor the current electric quantity of each wireless terminal (for example, the wireless terminal can feed back the current electric quantity of the wireless charging router to the wireless charging router in real time).

The preset charging threshold is a reference electric quantity, and if the current electric quantity of the wireless terminal is lower than the preset charging threshold, the wireless terminal is charged in order not to influence the use. And the preset charging threshold can be set by the user, for example: the preset charging threshold value of 30% can be set, and when the current power of the wireless terminal is lower than 30%, the wireless terminal with the current power lower than 30% can be listed in the next step for analysis.

If the current electric quantity of a plurality of (at least two or more) wireless terminals is lower than the preset charging threshold value, which wireless terminal has a high charging priority needs to be determined, and the wireless terminal with the high charging priority can be wirelessly charged. As to which wireless terminal has a high charging priority, the wireless charging router may store a priority list in which the charging priority of the wireless terminal is stored; when the charging priorities of several wireless terminals need to be compared, the charging priorities of the wireless terminals can be confirmed, and the wireless terminal with the highest charging priority can be obtained. The charging priority can be set by the user according to the actual needs of the user, for example: the charging priority of the commercial mobile phone is higher than that of the tablet personal computer for entertainment. Of course, the wireless terminal to be charged may be confirmed by other preset charging rules.

It should be noted that, when the wireless terminal to be charged is wirelessly charged, it can be understood that only whether the wireless terminal is wirelessly charged is concerned, that is, a larger-power electromagnetic wave is emitted toward the wireless terminal, so that the wireless terminal receives the larger-power electromagnetic wave and converts the larger-power electromagnetic wave into electric energy to charge itself. Receiving electromagnetic waves as to whether or not there is another wireless terminal and thus the wireless terminal is located in the same direction; or, the problem that other wireless terminals perform wireless charging due to receiving other electromagnetic waves with smaller power is not taken into consideration.

In addition, when the current electric quantity of each wireless terminal in the wireless network is not lower than a preset charging threshold value, the wireless charging function of the wireless charging router is in a closed state, and only after the wireless terminal to be charged is confirmed, the wireless charging function of the wireless charging router is in an activated state to wirelessly charge the wireless terminal to be charged.

Therefore, step S500 can also be understood as: when the wireless charging function is in a closed state, the wireless charging function is started, and wireless charging is carried out on the wireless terminal to be charged; when the wireless charging function is in an open state, the wireless terminal to be charged is directly charged wirelessly.

In this embodiment, when a plurality of wireless terminals all need to charge, can carry out wireless charging for really important wireless terminal earlier according to predetermineeing the rule of charging to user's use experience has been improved.

Preferably, between the step S200 and the step S500, further comprising: in step S400, if only the current electric quantity of one wireless terminal is lower than a preset charging threshold, the wireless terminal is used as the wireless terminal to be charged.

Specifically, when the current power of only one wireless terminal is lower than the preset charging threshold, there is no need to compare other information (for example, its charging priority), because only one wireless terminal needs to be charged, and thus, the wireless terminal can be used as the wireless terminal to be charged.

When the current electric quantity of only one wireless terminal is lower than the preset charging threshold value, the wireless terminal is the wireless terminal to be charged according to the preset charging rule, subsequent charging priority inquiry and other processes are not needed, the wireless charging reflecting speed is increased, and the user satisfaction degree is further improved.

Preferably, the step S300 includes: step S330, respectively acquiring the IP addresses of the wireless terminals of which the current electric quantity is lower than a preset charging threshold; step S340 of respectively searching charging priorities corresponding to the acquired IP addresses; step S350 compares the charging priorities corresponding to the acquired IP addresses, and takes the wireless terminal with the highest charging priority as the wireless terminal to be charged.

Specifically, when the current electric quantity of a plurality of wireless terminals is lower than a preset charging threshold, the wireless terminals with the highest charging priority need to be compared, and therefore the IP addresses of the wireless terminals need to be acquired, and subsequent query is facilitated.

When a plurality of wireless terminals are connected to the wireless network of the same wireless charging router, the wireless terminals are in the same local area network, so that the wireless charging router can allocate an IP address to the wireless terminals, and subsequent data transmission is facilitated. The wireless charging router generates a unique IP address in the local area network according to the MAC address on each wireless terminal through the DHCP server of the wireless charging router, so that the charging priority of the wireless terminal can be inquired by using the IP address of the wireless terminal. The MAC (media Access control) address refers to a physical address, and the MAC address on each wireless terminal is different, so that the generated IP address is unique within the local area network. In addition, although the allocated IP address is time limited, the user can set this time limit according to his own needs, for example: three months, six months, one year, etc. The issue regarding IP timeframe may be set by the manufacturer of the wireless charging router with a timeframe option.

For example: the time limit is set to three months, then wireless terminal a first attaches to the wireless network and is assigned an IP address of 192.168.1.1, and wireless terminal a will be assigned this IP address during the three months (after disconnection) of the attachment. After three months, if the wireless terminal A is connected again, the user can manually allocate the IP address to the wireless terminal A, or the wireless charging router can automatically reallocate the IP address and set the charging priority to the wireless terminal A again.

Only the IP addresses of the wireless terminals with the current electric quantity lower than the preset charging threshold value are obtained, that is, only the charging priority of the wireless terminals with the current electric quantity lower than the preset charging threshold value is inquired, and the charging priority of other wireless terminals which do not need to be charged is not required to be inquired, so that the unnecessary resource occupancy rate is reduced, and the reflecting speed is high.

Preferably, the step S100 further comprises: step S010, when the wireless terminal is connected to the wireless network for the first time, setting the charging priority of the wireless terminal and allocating an IP address to the wireless terminal; step S020 stores the set charging priority in correspondence with the IP address of the wireless terminal.

Specifically, when the wireless terminal is connected to the wireless network of the wireless charging router for the first time, the user can set the charging priority of the wireless charging router by himself/herself, and (the user or the wireless charging router) can allocate an IP address to the wireless charging router, and then the set charging priority and the IP address of the wireless terminal are stored in the wireless charging router in a corresponding manner, so that the charging priority can be conveniently determined subsequently. For example: the charging priorities of the wireless terminal a and the wireless terminal B are already stored, the charging priority of the wireless terminal a is higher than that of the wireless terminal B, a wireless terminal C is newly added, and the charging priority of the wireless terminal C is set to be higher than that of the wireless terminal a, so that the charging priorities of the wireless terminals after updating are as follows: the charging priority of the wireless charging C is greater than the charging priority of the wireless terminal A and greater than the charging priority of the wireless terminal B.

The charging priority setting provides a basis for the subsequent charging priority judgment of each wireless terminal.

Preferably, the step S300 includes: step S310, judging whether the wireless terminal with the current electric quantity lower than a preset alert threshold exists, if not, executing step S330, and if so, executing step S320; step S320, when the wireless terminal with the current electric quantity lower than the preset alert threshold exists, obtaining the wireless terminal to be charged according to a preset priority rule; the preset priority rule is that the wireless terminal with the current electric quantity lower than a preset warning threshold value is used as the wireless terminal to be charged.

Specifically, the preset alert threshold is smaller than the preset charging threshold, for example: the preset alert threshold is 5% and the preset charge threshold is 30%. The preset warning threshold value is mainly set for charging the wireless terminal which is in the state of being shut down.

For example: the current electric quantity of the wireless terminal a is 20%, the current electric quantity of the wireless terminal B is 4%, the current electric quantity of the wireless terminal C is 3%, and the current electric quantities of the three wireless terminals are lower than a preset charging threshold (for example, 30%), wherein the current electric quantities of the two wireless terminals are lower than a preset warning threshold (for example, 5%), then one of the two wireless terminals with a higher charging priority is selected as the wireless terminal to be charged according to the charging priority corresponding to the IP addresses of the two wireless terminals. Of course, if only one wireless terminal has the current electric quantity lower than the preset warning threshold, the wireless terminal is used as the wireless terminal to be charged and is charged first.

The preset warning threshold value is used for preventing the situation that the use of a user is influenced by sudden shutdown when the wireless terminal is powered off, and therefore the use experience of the user is improved by setting the preset warning threshold value.

Preferably, the step S500 is followed by: step S600, when the wireless terminal to be charged is being charged according to a preset priority rule, judging whether the current electric quantity of the wireless terminal which is being wirelessly charged reaches a preset charging threshold value; and step S610, when the preset charging threshold is reached, stopping the wireless charging of the wireless terminal, and executing step S100.

Specifically, if the wireless terminal to be charged screened out by the preset alert threshold is being charged, it is only to preferentially charge it because of low battery, and does not mean that it is really important. Therefore, when the current electric quantity of the wireless terminal screened out by the preset warning threshold value is charged to the preset charging threshold value, the wireless terminal can be stopped being charged, the situation that the wireless terminal cannot be used due to shutdown cannot be caused by the current electric quantity of the wireless terminal, and the wireless terminal to be charged can be screened out again according to the current electric quantity of each wireless terminal.

For example: the current electric quantity of the wireless terminal A (the mobile phone of the user) is 20%, the current electric quantity of the wireless terminal B (the tablet personal computer) is 3%, then the wireless terminal B (the tablet personal computer) is charged to 30% (the preset charging threshold value), then the current electric quantity of each wireless terminal is seen again, the current electric quantity of the wireless terminal A (the mobile phone of the user) is found to be lower than the preset charging threshold value, and therefore the wireless terminal A is charged.

The setting ensures that each wireless terminal connected to the wireless network cannot be powered off due to low electric quantity, thereby influencing the use of users and improving the use experience of the users.

In another embodiment of the present invention, except the above, if the wireless terminal being charged is a wireless terminal to be charged, which is obtained according to the current electric quantity being lower than the preset charging threshold, the wireless terminal is charged to the preset stop threshold, and the wireless terminal is stopped being charged when the current electric quantity reaches the preset stop threshold, so as to re-screen a new device to be charged. For example: if the current power of only one wireless terminal is lower than the preset charging threshold value and serves as the wireless terminal to be charged, or if the current power of multiple wireless terminals is lower than the preset charging threshold value and serves as the wireless terminal to be charged through the high charging priority of the wireless terminal a, the wireless terminal a is wirelessly charged until the preset stop threshold value (for example, 100% or 80%) is reached, and the preset stop threshold value can be set according to the needs of the user.

After the wireless terminal is stopped being charged, whether a wireless terminal with the current electric quantity lower than the preset charging threshold value exists or not (whether a wireless terminal needing to be charged exists or not can be understood) is judged again, and if the wireless terminal exists, a wireless terminal to be charged is found again to be wirelessly charged; if the wireless charging function is not available within a certain time (for example, within 10 minutes), the wireless charging function on the wireless charging router is turned off, and energy consumption is saved.

The setting of the preset stop threshold gives a judgment mark for ending wireless charging of a certain wireless terminal, and the user-defined setting gives more choices to the user, so that the use experience of the user is improved.

In another embodiment of the present invention, as shown in fig. 2, a wireless charging method includes: step S010, when the wireless terminal is connected to the wireless network for the first time, setting the charging priority of the wireless terminal and allocating an IP address to the wireless terminal; step S020 stores the set charging priority in correspondence with the IP address of the wireless terminal.

Step S100, monitoring the current electric quantity of each wireless terminal connected to a wireless network;

step S200, judging whether the current electric quantity of only one wireless terminal is lower than a preset charging threshold value;

step S300, if more than one wireless terminal with the current electric quantity lower than a preset charging threshold value is available, obtaining the wireless terminal to be charged according to a preset charging rule; the step S300 includes: step S310, judging whether a wireless terminal with the current electric quantity lower than a preset alert threshold exists; step S320, when the wireless terminal with the current electric quantity lower than the preset alert threshold exists, obtaining the wireless terminal to be charged according to a preset priority rule; the preset priority rule is that the wireless terminal with the current electric quantity lower than a preset warning threshold value is used as the wireless terminal to be charged; step S330, when there is no wireless terminal with the current electric quantity lower than a preset alert threshold, respectively acquiring the IP addresses of the wireless terminals with the current electric quantity lower than a preset charging threshold; step S340 of respectively searching charging priorities corresponding to the acquired IP addresses; step S350, comparing the charging priorities corresponding to the acquired IP addresses, and taking the wireless terminal with the highest charging priority as the wireless terminal to be charged;

step S400, if the current electric quantity of only one wireless terminal is lower than a preset charging threshold value, the wireless terminal is used as the wireless terminal to be charged;

step S500, wirelessly charging the wireless terminal to be charged;

step S600, when the wireless terminal to be charged is being charged according to a preset priority rule, judging whether the current electric quantity of the wireless terminal which is being wirelessly charged reaches a preset charging threshold value; and step S610, when the preset charging threshold is reached, stopping the wireless charging of the wireless terminal, and executing step S100.

Specifically, the wireless charging method of the embodiment can preferentially charge the really important wireless terminal; and the preset warning threshold value is set, so that the wireless terminal cannot be charged preferentially due to low charging priority, the shutdown condition caused by low electric quantity is avoided, and the use experience and satisfaction of a user are improved.

In another embodiment of the present invention, as shown in fig. 3, a wireless charging router includes: the monitoring module 10 is used for monitoring the current electric quantity of each wireless terminal connected to the wireless network; the judging module 20 is electrically connected with the monitoring module and is used for judging whether the current electric quantity of only one wireless terminal is lower than a preset charging threshold value; the analysis module 30 is electrically connected with the judgment module, and is used for obtaining the wireless terminal to be charged according to a preset charging rule if the current electric quantity is lower than a preset charging threshold value; and the charging module 40 is electrically connected with the analysis module and is used for wirelessly charging the wireless terminal to be charged.

Specifically, after each wireless terminal is connected to the wireless network of the wireless charging router, wireless communication is established between the wireless charging router and the wireless charging router, so that the wireless charging router can monitor the current electric quantity of each wireless terminal (for example, the wireless terminal can feed back the current electric quantity of the wireless charging router to the wireless charging router in real time).

The preset charging threshold is a reference electric quantity, and if the current electric quantity of the wireless terminal is lower than the preset charging threshold, the wireless terminal is charged in order not to influence the use. And the preset charging threshold can be set by the user, for example: the preset charging threshold value of 30% can be set, and when the current power of the wireless terminal is lower than 30%, the wireless terminal with the current power lower than 30% can be listed in the next step for analysis.

If the current electric quantity of a plurality of (at least two or more) wireless terminals is lower than the preset charging threshold value, which wireless terminal has a high charging priority needs to be determined, and the wireless terminal with the high charging priority can be wirelessly charged. As to which wireless terminal has a high charging priority, the wireless charging router may store a priority list in which the charging priority of the wireless terminal is stored; when the charging priorities of several wireless terminals need to be compared, the charging priorities of the wireless terminals can be confirmed, and the wireless terminal with the highest charging priority can be obtained. The charging priority can be set by the user according to the actual needs of the user, for example: the charging priority of the commercial mobile phone is higher than that of the tablet personal computer for entertainment. Of course, the wireless terminal to be charged may be confirmed by other preset charging rules.

It should be noted that, when the wireless terminal to be charged is wirelessly charged, it can be understood that only whether the wireless terminal is wirelessly charged is concerned, that is, a larger-power electromagnetic wave is emitted toward the wireless terminal, so that the wireless terminal receives the larger-power electromagnetic wave and converts the larger-power electromagnetic wave into electric energy to charge itself. Receiving electromagnetic waves as to whether or not there is another wireless terminal and thus the wireless terminal is located in the same direction; or, the problem that other wireless terminals perform wireless charging due to receiving other electromagnetic waves with smaller power is not taken into consideration.

In addition, when the current electric quantity of each wireless terminal in the wireless network is not lower than a preset charging threshold value, the wireless charging function of the wireless charging router is in a closed state, and only after the wireless terminal to be charged is confirmed, the wireless charging function of the wireless charging router is in an activated state to wirelessly charge the wireless terminal to be charged.

Thus, it can also be understood that: when the wireless charging function is in a closed state, the wireless charging function is started, and wireless charging is carried out on the wireless terminal to be charged; when the wireless charging function is in an open state, the wireless terminal to be charged is directly charged wirelessly.

In this embodiment, when a plurality of wireless terminals all need to charge, can carry out wireless charging for really important wireless terminal earlier according to predetermineeing the rule of charging to user's use experience has been improved.

Preferably, the analysis module is further configured to use the wireless terminal as the wireless terminal to be charged if only one current electric quantity of the wireless terminal is lower than a preset charging threshold.

Specifically, when the current power of only one wireless terminal is lower than the preset charging threshold, there is no need to compare other information (for example, its charging priority), because only one wireless terminal needs to be charged, and thus, the wireless terminal can be used as the wireless terminal to be charged.

When the current electric quantity of only one wireless terminal is lower than the preset charging threshold value, the wireless terminal is the wireless terminal to be charged according to the preset charging rule, subsequent charging priority inquiry and other processes are not needed, the wireless charging reflecting speed is increased, and the user satisfaction degree is further improved.

In another embodiment of the present invention, as shown in fig. 4, the analysis module includes, in addition to the same as described above: the obtaining submodule 31 is configured to obtain the IP addresses of the wireless terminals of which the current electric quantity is lower than a preset charging threshold value; the searching submodule 32 is configured to search for the charging priority corresponding to each acquired IP address; the comparing submodule 33 is configured to compare the charging priorities corresponding to the acquired IP addresses, and use the wireless terminal with the highest charging priority as the wireless terminal to be charged.

Specifically, when the current electric quantity of a plurality of wireless terminals is lower than a preset charging threshold, the wireless terminals with the highest charging priority need to be compared, and therefore the IP addresses of the wireless terminals need to be acquired, and subsequent query is facilitated.

When a plurality of wireless terminals are connected to the wireless network of the same wireless charging router, the wireless terminals are in the same local area network, so that the wireless charging router can allocate an IP address to the wireless terminals, and subsequent data transmission is facilitated. The wireless charging router generates a unique IP address in the local area network according to the MAC address on each wireless terminal through the DHCP server of the wireless charging router, so that the charging priority of the wireless terminal can be inquired by using the IP address of the wireless terminal. The MAC (media Access control) address refers to a physical address, and the MAC address on each wireless terminal is different, so that the generated IP address is unique within the local area network. In addition, although the allocated IP address is time limited, the user can set this time limit according to his own needs, for example: three months, six months, one year, etc. The issue regarding IP timeframe may be set by the manufacturer of the wireless charging router with a timeframe option.

For example: the time limit is set to three months, then wireless terminal a first attaches to the wireless network and is assigned an IP address of 192.168.1.1, and wireless terminal a will be assigned this IP address during the three months (after disconnection) of the attachment. After three months, if the wireless terminal A is connected again, the user can manually allocate the IP address to the wireless terminal A, or the wireless charging router can automatically reallocate the IP address and set the charging priority to the wireless terminal A again.

Only the IP addresses of the wireless terminals with the current electric quantity lower than the preset charging threshold value are obtained, that is, only the charging priority of the wireless terminals with the current electric quantity lower than the preset charging threshold value is inquired, and the charging priority of other wireless terminals which do not need to be charged is not required to be inquired, so that the unnecessary resource occupancy rate is reduced, and the reflecting speed is high.

In another embodiment of the present invention, as shown in fig. 4, in addition to the same as above, further includes: a setting module 50, configured to set a charging priority of a wireless terminal when the wireless terminal first accesses the wireless network, and allocate an IP address to the wireless terminal; and a storage module 60 electrically connected to the setting module, wherein the storage module is configured to correspondingly store the set charging priority and the IP address of the wireless terminal.

Specifically, when the wireless terminal is connected to the wireless network of the wireless charging router for the first time, the user can set the charging priority of the wireless charging router by himself/herself, and (the user or the wireless charging router) can allocate an IP address to the wireless charging router, and then the set charging priority and the IP address of the wireless terminal are stored in the wireless charging router in a corresponding manner, so that the charging priority can be conveniently determined subsequently. For example: the charging priorities of the wireless terminal a and the wireless terminal B are already stored, the charging priority of the wireless terminal a is higher than that of the wireless terminal B, a wireless terminal C is newly added, and the charging priority of the wireless terminal C is set to be higher than that of the wireless terminal a, so that the charging priorities of the wireless terminals after updating are as follows: the charging priority of the wireless charging C is greater than the charging priority of the wireless terminal A and greater than the charging priority of the wireless terminal B.

Preferably, if there is more than one wireless terminal with the current electric quantity lower than a preset charging threshold, the determining module 20 is further configured to determine whether there is a wireless terminal with the current electric quantity lower than a preset alert threshold; the analysis module 30 is further configured to, when there is a wireless terminal whose current electric quantity is lower than a preset alert threshold, obtain the wireless terminal to be charged according to a preset priority rule; the preset priority rule is that the wireless terminal with the current electric quantity lower than a preset warning threshold value is used as the wireless terminal to be charged.

Specifically, the preset alert threshold is smaller than the preset charging threshold, for example: the preset alert threshold is 5% and the preset charge threshold is 30%. The preset warning threshold value is mainly set for charging the wireless terminal which is in the state of being shut down.

For example: the current electric quantity of the wireless terminal a is 20%, the current electric quantity of the wireless terminal B is 4%, the current electric quantity of the wireless terminal C is 3%, and the current electric quantities of the three wireless terminals are lower than a preset charging threshold (for example, 30%), wherein the current electric quantities of the two wireless terminals are lower than a preset warning threshold (for example, 5%), then one of the two wireless terminals with a higher charging priority is selected as the wireless terminal to be charged according to the charging priority corresponding to the IP addresses of the two wireless terminals. Of course, if only one wireless terminal has the current electric quantity lower than the preset warning threshold, the wireless terminal is used as the wireless terminal to be charged and is charged first.

The preset warning threshold value is used for preventing the situation that the use of a user is influenced by sudden shutdown when the wireless terminal is powered off, and therefore the use experience of the user is improved by setting the preset warning threshold value.

Preferably, the determining module 20 is further configured to determine whether the current electric quantity of the wireless terminal performing wireless charging reaches a preset charging threshold value when the wireless terminal to be charged is being charged according to a preset priority rule; the charging module 40 is further configured to stop wirelessly charging the wireless terminal when a preset charging threshold is reached.

Specifically, if the wireless terminal to be charged screened out by the preset alert threshold is being charged, it is only to preferentially charge it because of low battery, and does not mean that it is really important. Therefore, when the current electric quantity of the wireless terminal screened out by the preset warning threshold value is charged to the preset charging threshold value, the wireless terminal can be stopped being charged, the situation that the wireless terminal cannot be used due to shutdown cannot be caused by the current electric quantity of the wireless terminal, and the wireless terminal to be charged can be screened out again according to the current electric quantity of each wireless terminal.

For example: the current electric quantity of the wireless terminal A (the mobile phone of the user) is 20%, the current electric quantity of the wireless terminal B (the tablet personal computer) is 3%, then the wireless terminal B (the tablet personal computer) is charged to 30% (the preset charging threshold value), then the current electric quantity of each wireless terminal is seen again, the current electric quantity of the wireless terminal A (the mobile phone of the user) is found to be lower than the preset charging threshold value, and therefore the wireless terminal A is charged.

The setting ensures that each wireless terminal connected to the wireless network cannot be powered off due to low electric quantity, thereby influencing the use of users and improving the use experience of the users.

In another embodiment of the present invention, if the wireless terminal being charged is a wireless terminal to be charged, which is obtained according to the current electric quantity being lower than the preset charging threshold, the wireless terminal is charged to the preset stop threshold, and the wireless terminal is stopped charging when the current electric quantity reaches the preset stop threshold, and a new device to be charged is re-screened. For example: if the current power of only one wireless terminal is lower than the preset charging threshold value and serves as the wireless terminal to be charged, or if the current power of multiple wireless terminals is lower than the preset charging threshold value and serves as the wireless terminal to be charged through the high charging priority of the wireless terminal a, the wireless terminal a is wirelessly charged until the preset stop threshold value (for example, 100% or 80%) is reached, and the preset stop threshold value can be set according to the needs of the user.

After the wireless terminal is stopped being charged, whether a wireless terminal with the current electric quantity lower than the preset charging threshold value exists or not (whether a wireless terminal needing to be charged exists or not can be understood) is judged again, and if the wireless terminal exists, a wireless terminal to be charged is found again to be wirelessly charged; if the wireless charging function is not available within a certain time (for example, within 10 minutes), the wireless charging function on the wireless charging router is turned off, and energy consumption is saved.

The setting of the preset stop threshold gives a judgment mark for ending wireless charging of a certain wireless terminal, and the user-defined setting gives more choices to the user, so that the use experience of the user is improved.

It should be noted that the above embodiments can be freely combined as necessary. The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (2)

1. A wireless charging method, comprising:

step S010, when the wireless terminal is connected to the wireless network for the first time, setting the charging priority of the wireless terminal and allocating an IP address to the wireless terminal;

step S020 is that the set charging priority and the IP address of the wireless terminal are correspondingly stored;

step S100, monitoring the current electric quantity of each wireless terminal connected to a wireless network;

step S200, judging whether the current electric quantity of only one wireless terminal is lower than a preset charging threshold value;

step S300, if there is more than one wireless terminal whose current electric quantity is lower than the preset charging threshold, obtaining the wireless terminal to be charged according to a preset charging rule, including:

step S310, judging whether a wireless terminal with the current electric quantity lower than a preset charging threshold exists;

step S320, when the wireless terminal with the current electric quantity lower than the preset charging threshold exists, obtaining the wireless terminal to be charged according to a preset priority rule; the wireless terminal with the current electric quantity lower than a preset charging threshold value is used as the wireless terminal to be charged according to the preset priority rule;

step S330, respectively acquiring the IP addresses of the wireless terminals of which the current electric quantity is lower than a preset charging threshold;

step S340 of respectively searching charging priorities corresponding to the acquired IP addresses;

step S350, comparing the charging priorities corresponding to the acquired IP addresses, and taking the wireless terminal with the highest charging priority as the wireless terminal to be charged; step S400, if the current electric quantity of only one wireless terminal is lower than a preset charging threshold value, the wireless terminal is used as the wireless terminal to be charged;

step S500, wirelessly charging the wireless terminal to be charged;

step S600, when the wireless terminal to be charged is being charged according to a preset priority rule, judging whether the current electric quantity of the wireless terminal which is being wirelessly charged reaches a preset charging threshold value;

and step S610, when the preset charging threshold is reached, stopping the wireless charging of the wireless terminal, and executing step S100.

2. A wireless charging router that employs the wireless charging method according to claim 1, comprising:

the monitoring module is used for monitoring the current electric quantity of each wireless terminal connected to the wireless network;

the judging module is electrically connected with the monitoring module and is used for judging whether the current electric quantity of only one wireless terminal is lower than a preset charging threshold value; if the current electric quantity is lower than the preset charging threshold value, the judging module is used for judging whether the wireless terminal with the current electric quantity lower than the preset charging threshold value exists;

the analysis module is electrically connected with the judgment module, and is used for obtaining the wireless terminal to be charged according to a preset charging rule if the current electric quantity is lower than a preset charging threshold value; when the wireless terminal with the current electric quantity lower than the preset charging threshold exists, the analysis module is used for obtaining the wireless terminal to be charged according to a preset priority rule; the wireless terminal with the current electric quantity lower than a preset charging threshold value is used as the wireless terminal to be charged according to the preset priority rule; the analysis module includes:

the obtaining submodule is used for respectively obtaining the IP addresses of the wireless terminals of which the current electric quantity is lower than a preset charging threshold;

the searching submodule is used for respectively searching the charging priority corresponding to each acquired IP address;

the comparison submodule is used for comparing the charging priority corresponding to each acquired IP address and taking the wireless terminal with the highest charging priority as the wireless terminal to be charged;

the wireless terminal charging system comprises a setting module, a charging module and a charging module, wherein the setting module is used for setting the charging priority of the wireless terminal and allocating an IP address to the wireless terminal when the wireless terminal is connected to the wireless network for the first time;

the storage module is electrically connected with the setting module and is used for correspondingly storing the set charging priority and the IP address of the wireless terminal;

and the charging module is electrically connected with the analysis module and is used for wirelessly charging the wireless terminal to be charged.

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