CN114243879B - Charging control method and system for solar outdoor power system and computer readable storage medium - Google Patents

Abstract

The application relates to a charging control method, a charging control system and a computer readable storage medium of a solar outdoor power system, which belong to the technical field of solar energy storage, wherein the charging control method comprises the steps of obtaining the amount of charge to be charged of a device to be charged, the current residual capacity of a solar outdoor power supply and a wireless charging conversion rate; calculating to obtain the actual output electric quantity of the solar outdoor power supply according to the product of the current residual electric quantity of the solar outdoor power supply and the wireless charging conversion rate; judging whether the actual output electric quantity exceeds the amount to be charged, if so, generating a wireless charging strategy, wherein the wireless charging strategy is to wirelessly charge the equipment to be charged; and if not, generating a wired charging strategy, wherein the wired charging strategy is to perform wired charging on the equipment to be charged. The charging method and the charging system have the advantages that the better charging mode can be matched for the user intelligence conveniently according to the outdoor power system and the actual situation of the to-be-charged device, and the effect of improving the user experience is achieved.

Description

Charging control method and system for solar outdoor power system and computer readable storage medium

Technical Field

The present disclosure relates to the field of solar energy storage technologies, and in particular, to a charging control method and system for a solar outdoor power system, and a computer-readable storage medium.

Background

As an inexhaustible and pollution-free energy, solar energy gradually becomes a new star in the energy market, people have higher and higher utilization degree of solar energy, and a common power supply mode is also achieved by supplying power through a solar outdoor power system. With the rapid development of mobile devices such as mobile phones, tablet computers, smart watches and smart wristbands and the increase of outdoor exercises such as long-distance travel and mountain climbing, the outdoor charging of the mobile devices by using the solar outdoor power system becomes the living needs of people.

At present, common charging mode mainly divide into wired charging and wireless two kinds of charging, compares in traditional wired charging mode, and numerous and diverse charging wire problem has been solved to wireless charging mode, has reduced the physical damage that the frequent line pulling of equipment brought to it is more convenient in the use experience, but wireless charging also has shortcomings such as the conversion rate is low, the energy consumption is high and charge efficiency is slow simultaneously.

In view of the above related technologies, the inventor finds that when a solar outdoor power system is used for charging a device to be charged, it is inconvenient to intelligently match a better charging mode for a user according to actual situations of the outdoor power system and the device to be charged, and user experience is reduced.

Disclosure of Invention

In order to improve user experience, the application provides a charging control method and system of a solar outdoor power system and a computer readable storage medium.

In a first aspect, the present application provides a charging control method for a solar outdoor power system, which adopts the following technical scheme:

a charging control method of a solar outdoor power system includes,

acquiring the amount to be charged of the equipment to be charged, the current residual capacity of the solar outdoor power supply and the wireless charging conversion rate;

calculating to obtain the actual output electric quantity of the solar outdoor power supply according to the product of the current residual electric quantity of the solar outdoor power supply and the wireless charging conversion rate;

judging whether the actual output electric quantity exceeds the to-be-charged quantity, if so, generating a wireless charging strategy, wherein the wireless charging strategy is to wirelessly charge the to-be-charged equipment; and if not, generating a wired charging strategy, wherein the wired charging strategy is to perform wired charging on the equipment to be charged.

By adopting the technical scheme, outdoor, because the wireless charging mode is convenient and fast but the conversion rate is low, the actual output electric quantity of the solar outdoor power supply can be obtained according to the current residual electric quantity of the solar outdoor power supply and the wireless charging conversion rate, if the actual output electric quantity exceeds the to-be-charged quantity of the to-be-charged equipment, the to-be-charged equipment is fully charged by adopting the wireless charging mode, a wireless charging strategy is generated, namely, the wireless charging mode is preferentially selected for a user at the moment, and the charging experience is improved; if the actual output electric quantity does not exceed the amount to be charged of the equipment to be charged, generating a wired charging strategy, namely preferentially selecting a wired charging mode for the user at the moment so as to improve the conversion rate and ensure that more electric quantity is output as much as possible; the charging method and the charging system have the advantages that the intelligent matching of the user is facilitated according to the outdoor power supply system and the actual situation of the to-be-charged device, and the user experience is improved.

Optionally, the wireless charging policy includes a first wireless charging policy and a second wireless charging policy; the specific step of generating the wireless charging strategy includes,

judging whether the equipment to be charged has a wireless charging function, if so, generating a first wireless charging strategy, wherein the first wireless charging strategy is to directly charge the equipment to be charged wirelessly;

and if not, generating a second wireless charging strategy, wherein the second wireless charging strategy is to connect the wireless power receiving adapter with the equipment to be charged so that the equipment to be charged has a wireless charging function.

Through adopting above-mentioned technical scheme, judge whether rechargeable devices has the wireless function of charging, when rechargeable devices has the wireless function of charging, can directly treat rechargeable devices and carry out wireless charging, when rechargeable devices does not have the wireless function of charging, be connected wireless power receiving adapter with rechargeable devices, make rechargeable devices have the wireless function of charging, treat rechargeable devices again and carry out wireless charging to be convenient for satisfy the demand of charging of more equipment, improved the adaptability.

Optionally, the step of generating the wireless charging strategy or the step of generating the wired charging strategy further includes,

and generating wireless charging strategy prompt information or wired charging strategy prompt information according to the wireless charging strategy or the wired charging strategy, and sending the wireless charging strategy prompt information or the wired charging strategy prompt information to a display module for displaying.

Through adopting above-mentioned technical scheme, through sending wireless charging strategy prompt information or wired charging strategy prompt information to display module and showing, the user can look over through display module to be convenient for in time learn for waiting the better charging strategy of battery charging outfit matching, improved user experience and felt.

Optionally, the step of generating the wireless charging strategy further comprises,

and judging whether the amount of charge to be charged of the equipment to be charged is lower than preset electric quantity, if so, sending charging completion prompt information to a display module, wherein the charging completion prompt information is used for prompting a user that the charging of the equipment to be charged is completed.

Through adopting above-mentioned technical scheme, after generating wireless charging strategy, the user can treat the battery charging outfit and carry out wireless charging, when treating that the charge capacity of battery charging outfit is less than when predetermineeing the electric quantity, can judge the completion of charging, carries out the suggestion to the user through the completion of charging prompt message to be convenient for the user in time learn the completion of charging information, further improved user's the experience of charging.

Optionally, after sending the charging completion prompting message to the display module,

and judging whether the solar outdoor power supply keeps a charging connection state with the equipment to be charged after a preset time, if so, controlling the solar outdoor power supply to stop charging the equipment to be charged.

By adopting the technical scheme, after the charging completion prompt message is sent, if the solar outdoor power supply still keeps the charging connection state with the equipment to be charged after the preset time, the solar outdoor power supply is controlled to stop charging the equipment to be charged, so that the charging protection effect is achieved, and the charging safety is improved.

Optionally, the charging control method further comprises,

and judging whether the current residual electric quantity of the solar outdoor power supply is lower than a preset electric quantity minimum threshold value, if so, sending an electric quantity early warning prompt signal to a warning module to give an alarm.

Through adopting above-mentioned technical scheme, when solar energy outdoor power's current residual capacity is low excessively, report to the police to alarm module through sending electric quantity early warning prompt signal to indicate the user, so that the user in time charges solar energy outdoor power, has guaranteed the outdoor power supply demand.

In a second aspect, the present application provides a charge control system for a solar outdoor power system.

A charging control system of a solar outdoor power system comprises an acquisition module, a calculation module, a first judgment module and a charging strategy generation module;

the acquisition module is used for acquiring the amount to be charged of the equipment to be charged, the current residual capacity of the solar outdoor power supply and the wireless charging conversion rate;

the calculation module is used for calculating the actual output electric quantity of the solar outdoor power supply according to the product of the current residual electric quantity of the solar outdoor power supply and the wireless charging conversion rate;

the first judging module is used for judging whether the actual output electric quantity exceeds the to-be-charged quantity, and if so, outputting a first judging result; if not, outputting a second judgment result;

the charging strategy generating module is used for responding to a first judgment result to generate a wireless charging strategy, and the wireless charging strategy is used for wirelessly charging the equipment to be charged;

the charging policy generation module is further configured to generate a wired charging policy in response to a second determination result, where the wired charging policy is to perform wired charging on the device to be charged.

By adopting the technical scheme, outdoor, because the wireless charging mode is convenient and fast but the conversion rate is low, the actual output electric quantity of the solar outdoor power supply can be obtained according to the current residual electric quantity of the solar outdoor power supply and the wireless charging conversion rate, if the actual output electric quantity exceeds the to-be-charged quantity of the to-be-charged equipment, the to-be-charged equipment is fully charged by adopting the wireless charging mode, a wireless charging strategy is generated, namely, the wireless charging mode is preferentially selected for a user at the moment, and the charging experience is improved; if the actual output electric quantity does not exceed the amount of electricity to be charged of the equipment to be charged, generating a wired charging strategy, namely preferentially selecting a wired charging mode for a user at the moment so as to improve the conversion rate and ensure that more electric quantity is output as far as possible; the charging method and the charging system have the advantages that the intelligent matching of the user is facilitated according to the outdoor power supply system and the actual situation of the to-be-charged device, and the user experience is improved.

Optionally, the charging control system further includes a second determining module;

the second judging module is used for judging whether the equipment to be charged has a wireless charging function or not, and if so, outputting a third judging result; if not, outputting a fourth judgment result;

the charging strategy generating module is used for responding to a third judgment result to generate a first wireless charging strategy, and the first wireless charging strategy is used for directly and wirelessly charging the equipment to be charged;

the charging strategy generation module is further configured to generate a second wireless charging strategy in response to a fourth determination result, where the second wireless charging strategy is to connect the wireless power receiving adapter with the device to be charged, so that the device to be charged has a wireless charging function.

By adopting the technical scheme, whether the equipment to be charged has the wireless charging function or not is judged, and when the equipment to be charged has the wireless charging function, the equipment to be charged can be directly wirelessly charged; when the charging equipment does not have the wireless charging function, the wireless electric energy receiving adapter is connected with the charging equipment, so that the charging equipment has the wireless charging function, and the charging equipment is wirelessly charged, thereby being convenient for meeting the charging requirements of more equipment and improving the adaptability.

Optionally, the charging control system further comprises a charging policy prompt message generating module and a charging policy prompt message sending module,

the charging strategy prompt message generating module is used for generating wireless charging strategy prompt messages or wired charging strategy prompt messages according to a wireless charging strategy or a wired charging strategy;

and the charging strategy prompt message sending module is used for sending the wireless charging strategy prompt message or the wired charging strategy prompt message to the display module for displaying.

Through adopting above-mentioned technical scheme, through sending wireless charging strategy prompt information or wired charging strategy prompt information to display module and showing, the user can look over through display module to be convenient for in time learn for waiting the better charging strategy of battery charging outfit matching, improved user experience and felt.

In a third aspect, the present application provides a computer-readable storage medium.

A computer-readable storage medium storing a computer program capable of being loaded by a processor and performing the method as in any one of the first aspects.

In summary, the present application includes at least one of the following beneficial technical effects:

1. in the open air, because the wireless charging mode is convenient and fast but the conversion rate is low, the actual output electric quantity of the solar outdoor power supply can be obtained according to the current residual electric quantity of the solar outdoor power supply and the wireless charging conversion rate, if the actual output electric quantity exceeds the to-be-charged quantity of the to-be-charged equipment, the wireless charging strategy is generated, namely, the wireless charging mode is preferentially selected for a user at the moment, and the charging experience is improved; if the actual output electric quantity does not exceed the amount to be charged of the equipment to be charged, generating a wired charging strategy, namely preferentially selecting a wired charging mode for the user at the moment so as to improve the conversion rate and ensure that more electric quantity is output as much as possible; according to the method and the device, a better charging mode can be matched for a user intelligently according to the actual conditions of the outdoor power system and the device to be charged, and the user experience is improved;

2. whether the equipment to be charged has a wireless charging function is judged, when the equipment to be charged has the wireless charging function, the equipment to be charged can be directly wirelessly charged, and when the equipment to be charged does not have the wireless charging function, the wireless electric energy receiving adapter is connected with the equipment to be charged, so that the equipment to be charged has the wireless charging function, and then the equipment to be charged is wirelessly charged, therefore, the charging requirements of more equipment are conveniently met, and the adaptability is improved;

3. after generating wireless charging strategy, the user can treat the battery charging outfit and carry out wireless charging, when treating that the charge capacity of battery charging outfit is less than when predetermineeing the electric quantity, can judge the completion of charging, carries out the suggestion to the user through the completion of charging prompt message to be convenient for the user in time learn the completion of charging information, further improved user's the experience of charging.

Drawings

Fig. 1 is a first flowchart of a charging control method according to an embodiment of the present disclosure.

Fig. 2 is a second flowchart of a charge control method according to an embodiment of the present application.

Fig. 3 is a third flowchart of a charge control method according to an embodiment of the present application.

Fig. 4 is a fourth flowchart illustrating a charging control method according to an embodiment of the present application.

Fig. 5 is a block diagram of a charging control method according to an embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more clearly understood, the present application is further described in detail below with reference to fig. 1-5 and the embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The embodiment of the application discloses a charging control method of a solar outdoor power system.

Referring to fig. 1, a charging control method of a solar outdoor power system, the charging control method includes,

step S101, acquiring a to-be-charged amount of a to-be-charged device, the current residual capacity of a solar outdoor power supply and a wireless charging conversion rate;

the charging amount of the equipment to be charged can be obtained according to the difference value between the current electric quantity and the total electric quantity of the equipment; the wireless charging conversion rate is the energy conversion rate during wireless charging, and can be obtained through the charging parameters of a wireless charging module used for wireless charging on a solar outdoor power supply;

step S102, calculating the product of the current residual electric quantity of the solar outdoor power supply and the wireless charging conversion rate to obtain the actual output electric quantity of the solar outdoor power supply;

step S103, judging whether the actual output electric quantity exceeds the amount to be charged, if so, generating a wireless charging strategy, wherein the wireless charging strategy is to wirelessly charge the equipment to be charged; if not, generating a wired charging strategy, wherein the wired charging strategy is to perform wired charging on the equipment to be charged.

In the above embodiment, during outdoor activities, because the wireless charging mode is convenient and fast but the conversion rate is low, the actual output electric quantity of the solar outdoor power supply can be obtained according to the current remaining electric quantity of the solar outdoor power supply and the wireless charging conversion rate, if the actual output electric quantity exceeds the to-be-charged quantity of the to-be-charged equipment, it indicates that the to-be-charged equipment is fully charged by adopting the wireless charging mode, a wireless charging strategy is generated, that is, the wireless charging mode is preferentially selected for the user at this time, so that the charging experience is improved; if the actual output electric quantity does not exceed the amount to be charged of the equipment to be charged, generating a wired charging strategy, namely preferentially selecting a wired charging mode for the user at the moment so as to improve the conversion rate and ensure that more electric quantity is output as much as possible; the charging method and the charging system have the advantages that the intelligent matching of the user is facilitated according to the outdoor power supply system and the actual situation of the to-be-charged device, and the user experience is improved.

It can be understood that the generated charging strategy is a better charging strategy matched with the actual conditions of the outdoor power system and the device to be charged in order to give priority to charging convenience, and the charging strategy is used for prompting the user so that the user can select a better charging mode to improve user experience.

As an implementation manner of the device to be charged, the device to be charged may be a mobile device such as a mobile phone, a tablet computer, a smart watch, and a smart bracelet.

As an implementation mode of wireless charging, a wireless charging module is configured on a solar outdoor power supply, the wireless charging module can convert electric energy into electromagnetic waves through a power transmission coil by using an electromagnetic induction principle to transmit, and then convert received electromagnetic waves into electric energy by using a power receiving coil to charge a battery of a device to be charged, so that the wireless charging of the device to be charged by the solar outdoor power supply can be realized.

As an implementation mode of wired charging, a charging interface is configured on a solar outdoor power supply, the charging interface can be a USB interface, a Type-C interface or other types of interfaces, and when the equipment to be charged is connected to the charging interface through a charging wire, the solar outdoor power supply can charge the equipment to be charged in a wired mode.

It should be noted that, because the conversion process of the wireless charging mode is a process of converting electric energy into electromagnetic wave and converting the electromagnetic wave into electric energy, the energy conversion rate is low; in the wired charging method, although there is a certain loss in conversion of voltage and current, the energy conversion rate is not so high as that of the wireless charging method.

As a specific embodiment of step 103, the wireless charging policy includes a first wireless charging policy and a second wireless charging policy; the specific step of generating the wireless charging strategy includes,

judging whether the equipment to be charged has a wireless charging function, if so, generating a first wireless charging strategy, wherein the first wireless charging strategy is to directly charge the equipment to be charged wirelessly;

if not, a second wireless charging strategy is generated, and the second wireless charging strategy is to connect the wireless electric energy receiving adapter with the equipment to be charged so that the equipment to be charged has a wireless charging function.

In the above embodiment, judge whether rechargeable devices has the wireless function of charging, when rechargeable devices has the wireless function of charging, can directly treat rechargeable devices and carry out wireless charging, when rechargeable devices does not have the wireless function of charging, receive the adapter with rechargeable devices with wireless electric energy and be connected, make rechargeable devices have the wireless function of charging, treat rechargeable devices again and carry out wireless charging to be convenient for satisfy the demand of charging of more equipment, improved the adaptability.

As an implementation manner for judging whether the device to be charged has the wireless charging function, whether the device to be charged has the wireless charging function can be obtained by acquiring device information of the device to be charged; specifically, for the wireless charging mode using the electromagnetic induction principle, it is possible to determine whether the wireless charging function is available by determining whether the device to be charged is equipped with a built-in power receiving coil.

As an implementation mode of the wireless power receiving adapter, a receiving coil is configured in the wireless power receiving adapter, the wireless power receiving adapter is connected with a charging interface of a device to be charged through a charging wire, the wireless power receiving adapter is charged through a wireless charging module, and the wireless charging function of the device to be charged can be achieved.

As a further embodiment of the charging control method, the method further comprises, after the step of generating the wireless charging strategy or generating the wired charging strategy,

and generating wireless charging strategy prompt information or wired charging strategy prompt information according to the wireless charging strategy or the wired charging strategy, and sending the wireless charging strategy prompt information or the wired charging strategy prompt information to a display module for displaying.

The display module can be an LED display screen on a solar outdoor power supply, and can also be a display screen of an intelligent mobile terminal, and the intelligent mobile terminal can be a mobile phone, a tablet personal computer and the like.

In the above embodiment, through sending wireless charging strategy prompt message or wired charging strategy prompt message to the display module and showing, the user can look over through the display module to be convenient for in time learn for waiting the better charging strategy of battery charging outfit matching, improved user experience and felt.

Referring to fig. 2, as a further embodiment of the charging control method, after the step of generating the wireless charging strategy,

and judging whether the amount of electricity to be charged of the equipment to be charged is lower than the preset electric quantity, if so, sending charging completion prompt information to a display module, wherein the charging completion prompt information is used for prompting a user that the equipment to be charged is charged.

The preset electric quantity can be preset according to actual requirements, and when the to-be-charged amount of the to-be-charged equipment is lower than the preset electric quantity, charging is judged to be completed.

In the above embodiment, after the wireless charging strategy is generated, the user can wirelessly charge the to-be-charged device, when the to-be-charged amount of the to-be-charged device is lower than a preset electric quantity, the charging completion can be judged, and the user is prompted through the charging completion prompt message, so that the user can timely know the charging completion message, and the charging experience of the user is further improved.

Referring to fig. 3, as a further embodiment of the charging control method, after sending the charging completion prompting message to the display module,

and judging whether the solar outdoor power supply keeps a charging connection state with the equipment to be charged after a preset time, and if so, controlling the solar outdoor power supply to stop charging the equipment to be charged.

And stopping charging the equipment to be charged, namely disconnecting power supply to the wireless charging module.

In the above embodiment, after the charging completion prompt message is sent, if the solar outdoor power supply is still in a charging connection state with the device to be charged after a preset time, the solar outdoor power supply is controlled to stop charging the device to be charged, so that a charging protection effect is achieved, and charging safety is improved.

It should be noted that wireless charging is different from wired charging, and in the charging process of wireless charging, no matter whether the device to be charged limits current, as long as the device to be charged and the wireless charging module keep a charging connection state and the wireless charging module is not powered off, electric energy can be converted into current through a magnetic field to charge the device to be charged, which is a great test for the charging protection function of the device to be charged; moreover, because the coil built in the device to be charged is in the magnetic field for a long time, although the device to be charged is not charged due to the charging protection function of the device to be charged, the static electricity generated by the coil can go everywhere, and the long-time charging connection is undoubtedly harmful and useless to the device to be charged, so that the device to be charged is stopped to be charged, namely the power supply to the wireless charging module is cut off, and the effect of charging protection is achieved.

Referring to fig. 4, as a further embodiment of the charging control method, the charging control method further includes,

judging whether the current residual electric quantity of the solar outdoor power supply is lower than a preset electric quantity minimum threshold value or not, if so, sending an electric quantity early warning prompt signal to an alarm module for alarming;

the preset electric quantity minimum threshold value can be preset according to user requirements, and if the current residual electric quantity is lower than the preset electric quantity minimum threshold value, the electric quantity of the solar outdoor power supply can be judged to be low and charging is required to be carried out in time.

In the above embodiment, when the current residual capacity of the solar outdoor power supply is too low, the alarm module gives an alarm by sending the electric quantity early warning prompt signal, so that the user is prompted, the user can charge the solar outdoor power supply in time, and the outdoor power supply requirement is ensured.

As an implementation mode of the alarm module, the alarm module can be an LED flashing light, and can flash rapidly to achieve a prompt effect when the electric quantity is low.

The embodiment of the application also discloses a charging control system of the solar outdoor power system.

Referring to fig. 5, a charging control system of a solar outdoor power system includes an obtaining module, a calculating module, a first judging module and a charging policy generating module;

the acquisition module is used for acquiring the amount of charge to be charged of the equipment to be charged, the current residual capacity of the solar outdoor power supply and the wireless charging conversion rate;

the calculation module is used for calculating the product of the current residual electric quantity of the solar outdoor power supply and the wireless charging conversion rate to obtain the actual output electric quantity of the solar outdoor power supply;

the first judgment module is used for judging whether the actual output electric quantity exceeds the to-be-charged quantity or not, and outputting a first judgment result if the actual output electric quantity exceeds the to-be-charged quantity; if not, outputting a second judgment result;

the charging strategy generation module is used for responding to the first judgment result to generate a wireless charging strategy, and the wireless charging strategy is used for wirelessly charging the equipment to be charged;

and the charging strategy generating module is further used for responding to the second judgment result to generate a wired charging strategy, and the wired charging strategy is used for performing wired charging on the equipment to be charged.

In the above embodiment, during outdoor activities, because the wireless charging mode is convenient and fast but the conversion rate is low, the actual output electric quantity of the solar outdoor power supply can be obtained according to the current remaining electric quantity of the solar outdoor power supply and the wireless charging conversion rate, if the actual output electric quantity exceeds the to-be-charged quantity of the to-be-charged equipment, it is indicated that the to-be-charged equipment is fully charged by adopting the wireless charging mode, a wireless charging strategy is generated, that is, the wireless charging mode is preferentially selected for the user at this time, so as to improve the charging experience; if the actual output electric quantity does not exceed the amount to be charged of the equipment to be charged, generating a wired charging strategy, namely preferentially selecting a wired charging mode for the user at the moment so as to improve the conversion rate and ensure that more electric quantity is output as much as possible; this application is convenient for match better charging mode for user's intelligence according to outdoor power supply system and the actual conditions of the equipment of waiting to charge, has improved user experience and has felt.

As a further embodiment of the charging control system, the charging control system further includes a second determination module;

the second judgment module is used for judging whether the equipment to be charged has a wireless charging function or not, and if so, outputting a third judgment result; if not, outputting a fourth judgment result;

the charging strategy generating module is used for responding to a third judgment result to generate a first wireless charging strategy, and the first wireless charging strategy is used for directly and wirelessly charging the equipment to be charged;

the charging strategy generating module is further configured to generate a second wireless charging strategy in response to the fourth determination result, where the second wireless charging strategy is to connect the wireless power receiving adapter with the device to be charged, so that the device to be charged has a wireless charging function.

In the embodiment, whether the equipment to be charged has the wireless charging function is judged, and when the equipment to be charged has the wireless charging function, the equipment to be charged can be directly wirelessly charged; when the equipment to be charged does not have the wireless function of charging, be connected wireless electric energy receiving adapter with the equipment to be charged, make the equipment to be charged have the wireless function of charging, treat the equipment to be charged again and carry out wireless charging to be convenient for satisfy the demand of charging of more equipment, improved adaptability.

As a further implementation mode of the charging control system, the charging control system further comprises a charging strategy prompt message generation module and a charging strategy prompt message sending module,

the charging strategy prompt message generating module is used for generating wireless charging strategy prompt messages or wired charging strategy prompt messages according to the wireless charging strategy or the wired charging strategy;

and the charging strategy prompt message sending module is used for sending the wireless charging strategy prompt message or the wired charging strategy prompt message to the display module for displaying.

In the above embodiment, through sending wireless charging strategy prompt message or wired charging strategy prompt message to the display module and showing, the user can look over through the display module to be convenient for in time learn for waiting the better charging strategy of battery charging outfit matching, improved user experience and felt.

As a further implementation manner of the charging control system, the charging control system further comprises a third judging module and a charging completion prompt information sending module;

the third judgment module is used for judging whether the amount of electricity to be charged of the equipment to be charged is lower than the preset electric quantity or not, and if yes, outputting a fifth judgment result;

and the charging completion prompt information sending module is used for responding to a fifth judgment result and sending charging completion prompt information to the display module, and the charging completion prompt information is used for prompting a user that the charging of the equipment to be charged is completed.

As a further embodiment of the charging control system, the charging control system further includes a fourth determining module and a wireless charging control module;

the fourth judging module is used for judging whether the solar outdoor power supply keeps a charging connection state with the equipment to be charged after a preset time length, and if so, outputting a sixth judging result;

and the wireless charging control module is used for responding to the sixth judgment result to control the solar outdoor power supply to stop charging the equipment to be charged.

As a further implementation manner of the charging control system, the charging control system further comprises a fifth judgment module and an electric quantity early warning prompt signal sending module;

the fifth judging module is used for judging whether the current residual electric quantity of the solar outdoor power supply is lower than a preset electric quantity minimum threshold value or not, and if yes, outputting a seventh judging result;

and the electric quantity early warning prompt signal sending module is used for responding to the seventh judgment result and sending an electric quantity early warning prompt signal to the alarm module for alarming.

The charging control system of the embodiment of the application can realize any one of the charging control methods, and the specific working process of the charging control system can refer to the corresponding process in the embodiment of the method.

It should be noted that, in the foregoing embodiments, descriptions of the respective embodiments are focused, and for parts that are not described in detail in a certain embodiment, reference may be made to relevant descriptions of other embodiments.

The embodiment of the application also discloses a computer readable storage medium.

A computer-readable storage medium storing a computer program that can be loaded by a processor and executes a charging control method as described above.

The computer-readable storage medium includes, for example: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, an optical disk, or other various media capable of storing program codes.

The foregoing is a preferred embodiment of the present application and is not intended to limit the scope of the present application in any way, and any features disclosed in this specification (including the abstract and drawings) may be replaced by alternative features serving equivalent or similar purposes, unless expressly stated otherwise. That is, unless expressly stated otherwise, each feature is only an example of a generic series of equivalent or similar features.

Claims (8)

1. A charging control method of a solar outdoor power system is characterized by comprising the following steps: the charging control method comprises the steps of,

acquiring the amount to be charged of the equipment to be charged, the current residual capacity of the solar outdoor power supply and the wireless charging conversion rate;

calculating to obtain the actual output electric quantity of the solar outdoor power supply according to the product of the current residual electric quantity of the solar outdoor power supply and the wireless charging conversion rate;

judging whether the actual output electric quantity exceeds the to-be-charged quantity, if so, generating a wireless charging strategy, wherein the wireless charging strategy is to wirelessly charge the to-be-charged equipment; if not, generating a wired charging strategy, wherein the wired charging strategy is to perform wired charging on the equipment to be charged;

further included after the step of generating the wireless charging strategy,

judging whether the amount of charge to be charged of the equipment to be charged is lower than a preset electric quantity, if so, sending a charging completion prompt message to a display module, wherein the charging completion prompt message is used for prompting a user that the charging of the equipment to be charged is completed;

judging whether the solar outdoor power supply keeps a charging connection state with the equipment to be charged after a preset time, if so, controlling the solar outdoor power supply to stop charging the equipment to be charged; and the power supply to the wireless charging module is cut off when the charging of the equipment to be charged is stopped.

2. The charging control method of the solar outdoor power system according to claim 1, characterized in that: the wireless charging strategy comprises a first wireless charging strategy and a second wireless charging strategy; the specific step of generating the wireless charging strategy includes,

judging whether the equipment to be charged has a wireless charging function, if so, generating a first wireless charging strategy, wherein the first wireless charging strategy is to directly charge the equipment to be charged in a wireless manner;

and if not, generating a second wireless charging strategy, wherein the second wireless charging strategy is to connect the wireless electric energy receiving adapter with the equipment to be charged so that the equipment to be charged has a wireless charging function.

3. The charging control method of the solar outdoor power system according to claim 2, characterized in that: further included after the step of generating the wireless charging policy or generating the wired charging policy,

and generating wireless charging strategy prompt information or wired charging strategy prompt information according to the wireless charging strategy or the wired charging strategy, and sending the wireless charging strategy prompt information or the wired charging strategy prompt information to a display module for displaying.

4. The charging control method of the solar outdoor power system according to any one of claims 1 to 3, characterized in that: the charge control method may further include,

and judging whether the current residual electric quantity of the solar outdoor power supply is lower than a preset electric quantity minimum threshold value or not, and if so, sending an electric quantity early warning prompt signal to an alarm module to give an alarm.

5. A charging control system of a solar outdoor power system is characterized in that: the charging control system comprises an acquisition module, a calculation module, a first judgment module and a charging strategy generation module;

the acquisition module is used for acquiring the amount of charge to be charged of the equipment to be charged, the current residual capacity of the solar outdoor power supply and the wireless charging conversion rate;

the calculation module is used for calculating the actual output electric quantity of the solar outdoor power supply according to the product of the current residual electric quantity of the solar outdoor power supply and the wireless charging conversion rate;

the first judging module is used for judging whether the actual output electric quantity exceeds the to-be-charged quantity, and if so, outputting a first judging result; if not, outputting a second judgment result;

the charging strategy generating module is used for responding to a first judgment result to generate a wireless charging strategy, and the wireless charging strategy is used for wirelessly charging the equipment to be charged;

the charging strategy generation module is further configured to generate a wired charging strategy in response to a second determination result, where the wired charging strategy is to perform wired charging on the device to be charged;

the charging control system also comprises a third judgment module and a charging completion prompt message sending module;

the third judgment module is used for judging whether the amount of electricity to be charged of the equipment to be charged is lower than the preset electric quantity or not, and if yes, outputting a fifth judgment result;

the charging completion prompt information sending module is used for responding to a fifth judgment result and sending charging completion prompt information to the display module, and the charging completion prompt information is used for prompting a user that the equipment to be charged is charged;

the charging control system also comprises a fourth judgment module and a wireless charging control module;

the fourth judging module is used for judging whether the solar outdoor power supply keeps a charging connection state with the equipment to be charged after a preset time length, and if so, outputting a sixth judging result;

the wireless charging control module is used for responding to a sixth judgment result to control the solar outdoor power supply to stop charging the equipment to be charged; and stopping charging the equipment to be charged, namely disconnecting power supply to the wireless charging module.

6. The charging control system of a solar outdoor power system according to claim 5, wherein: the charging control system also comprises a second judgment module;

the second judgment module is used for judging whether the equipment to be charged has a wireless charging function or not, and if so, outputting a third judgment result; if not, outputting a fourth judgment result;

the charging strategy generating module is used for responding to a third judgment result to generate a first wireless charging strategy, and the first wireless charging strategy is used for directly and wirelessly charging the equipment to be charged;

the charging strategy generation module is further configured to generate a second wireless charging strategy in response to a fourth determination result, where the second wireless charging strategy is to connect the wireless power receiving adapter with the device to be charged, so that the device to be charged has a wireless charging function.

7. The charging control system of a solar outdoor power system according to claim 5, wherein: the charging control system also comprises a charging strategy prompt message generating module and a charging strategy prompt message sending module,

the charging strategy prompt information generating module is used for generating wireless charging strategy prompt information or wired charging strategy prompt information according to a wireless charging strategy or a wired charging strategy;

and the charging strategy prompt message sending module is used for sending the wireless charging strategy prompt message or the wired charging strategy prompt message to the display module for displaying.

8. A computer-readable storage medium, characterized in that: a computer program which can be loaded by a processor and which executes the method according to any of claims 1 to 4.

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