CN111049217A - Chargeable intelligent terminal, charging control method and storage medium - Google Patents

Abstract

The application provides a chargeable intelligent terminal, a charging control method and a computer readable storage medium, wherein the charging control method comprises the following steps: detecting a real-time electric quantity value, judging whether the real-time electric quantity value is reduced to a first threshold value, if so, detecting factor information causing the reduction of the real-time electric quantity value, and controlling a charging action according to the detected factor information. Through the mode, the method and the device can detect the real-time electric quantity value, judge whether to charge according to the electric quantity reduction factor, realize intelligent management of the electric quantity, further realize an individualized charging management model, help a user to optimize the charging mode, protect the battery, prolong the service life of the battery and improve user experience.

Description

Chargeable intelligent terminal, charging control method and storage medium

Technical Field

The application relates to the technical field of charging control, in particular to a charging control method, a rechargeable intelligent terminal applying the charging control method and a computer readable storage medium.

Background

As is well known, smart terminals such as mobile phones and tablet computers are generally equipped with a battery, which can be charged repeatedly, wherein when the battery is fully charged in a state of being plugged with a charger and the voltage of the battery drops to a small value, such as 100mV, a recharge recharging stage of charging is automatically performed, the charging function is automatically turned on by the system, but if the battery is charged immediately due to a small voltage drop, the rechargeable battery may be damaged due to repeated charging.

For example, if the battery is left in a floating state without control, or if the battery is repeatedly charged immediately after the electric quantity value is reduced by about 1%, the life of the battery is seriously affected by the charging operation. However, the prior art lacks an intelligent control method for charging, lacks intelligent management for battery power, and further lacks a charging management model for user habits.

In view of various defects in the prior art, the inventors of the present application have made extensive studies to provide a rechargeable smart terminal, a charging control method, and a computer-readable storage medium.

Disclosure of Invention

An object of the present application is to provide a rechargeable intelligent terminal, a charging control method, and a computer-readable storage medium, which can detect a real-time electric quantity value, and then determine whether to charge according to a factor of electric quantity reduction, thereby implementing intelligent management of electric quantity, and further implementing an individualized charging management model, and can help a user to optimize a charging mode, protect a battery, prolong the battery life, and improve user experience.

In order to solve the above technical problem, the present application provides a charging control method, as one embodiment, the charging control method includes:

detecting a real-time electric quantity value;

judging whether the real-time electric quantity value is reduced to a first threshold value;

if the real-time electric quantity value is reduced to the first threshold value, detecting factor information causing the reduction of the real-time electric quantity value;

and controlling the charging action according to the detected factor information.

The factor information includes natural power consumption of a battery, artificial power consumption, and power consumption of a third-party application running, as one of embodiments.

As an embodiment, the step of controlling the charging action according to the detected factor information specifically includes:

if the detected factor information is the natural power consumption of the battery, controlling to execute a charging action without triggering charging;

if the detected factor information is artificially consumed power, controlling to execute a charging action of secondary judgment;

and if the detected factor information is that the third-party application program runs and consumes power, controlling to execute a charging action of triggering charging or secondary judgment.

In one embodiment, the step of controlling the charging operation for performing the secondary determination if the detected factor information is artificially consumed power includes:

judging whether a charging protection function is set;

if the charging protection function is not set, executing a charging action for triggering charging; and if the charging protection function is set, executing the charging protection function.

As an embodiment, the step of executing the charging protection function if the charging protection function is set includes:

judging whether the real-time electric quantity value is reduced to a second threshold value;

and if the voltage value is reduced to the second threshold value, controlling to execute a charging action for triggering charging.

As an embodiment, the step of detecting factor information causing the real-time electric quantity value to be decreased specifically includes:

the factor information is detected by at least one of a processor, a distance sensor, an infrared sensor, a camera, a sound sensor, and/or a pressure sensor.

As an embodiment, the step of detecting the factor information by using a distance sensor, an infrared sensor, a camera, a sound sensor and/or a pressure sensor specifically includes:

shooting the surrounding environment through a camera to detect the factor information;

the ambient sound is detected by a sound sensor to detect the factor information.

As an embodiment, the factor information further includes abnormal power consumption of a software system and abnormal power consumption of a hardware facility, and the step of controlling the charging operation according to the detected factor information specifically includes:

if the abnormal power consumption factor information of the software system is detected, controlling and optimizing the software system and executing a charging action for triggering charging;

and if the abnormal power consumption of the hardware facilities is detected, controlling to execute alarm prompt and executing the charging action which does not trigger charging.

As an embodiment, the factor information further includes a current operation time period, and the step of controlling the charging action according to the detected factor information specifically includes:

and if the factor information that the current operation time period is in the low-power-consumption rest time period is detected, controlling to execute a charging action without triggering charging.

As an implementation manner, the factor information further includes a device operated by a human, and a third-party application operated by a human, and the step of controlling the charging action according to the detected factor information specifically includes:

and if the manual operation of the equipment and the manual operation of the third-party application program are detected, controlling and executing a charging action for triggering charging so as to carry out quick charging.

As one embodiment, before the step of detecting the real-time electric quantity value, the method further includes:

acquiring daily use habits of a user;

and generating a charging control strategy suitable for the user according to the daily use habit.

In one embodiment, the step of generating a charging control policy suitable for the user according to the daily usage habit is used to automatically set at least one of a first threshold, a battery natural power consumption parameter, a manual power consumption parameter, a third-party application running power consumption parameter, a parameter setting of non-triggered charging, and a parameter setting of secondary judgment.

As an embodiment, the step of controlling the charging action according to the detected factor information specifically includes:

and calling the charging control strategy according to the detected factor information so as to control and execute a corresponding charging action.

In order to solve the above technical problem, the present application further provides a rechargeable smart terminal, which is configured with a processor for executing program data to implement the charging control method as described above.

In order to solve the above technical problem, the present application further provides a computer-readable storage medium as one of the embodiments, for storing program data, which when executed by a processor, implements the charging control method as described above.

The application provides a chargeable intelligent terminal, a charging control method and a computer readable storage medium, wherein the charging control method comprises the following steps: detecting a real-time electric quantity value, judging whether the real-time electric quantity value is reduced to a first threshold value, if so, detecting factor information causing the reduction of the real-time electric quantity value, and controlling a charging action according to the detected factor information. Through the mode, the method and the device can detect the real-time electric quantity value, judge whether to charge according to the electric quantity reduction factor, realize intelligent management of the electric quantity, further realize an individualized charging management model, help a user to optimize the charging mode, protect the battery, prolong the service life of the battery and improve user experience.

The foregoing description is only an overview of the technical solutions of the present application, and in order to make the technical means of the present application more clearly understood, the present application may be implemented in accordance with the content of the description, and in order to make the above and other objects, features, and advantages of the present application more clearly understood, the following preferred embodiments are described in detail with reference to the accompanying drawings.

Drawings

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

Fig. 2 is a schematic structural diagram of an embodiment of a rechargeable intelligent terminal according to the present application.

Fig. 3 is a schematic flowchart of an embodiment of implementing the charging control method of the present application by using the rechargeable intelligent terminal of the present application.

Detailed Description

To further clarify the technical measures and effects taken by the present application to achieve the intended purpose, the present application will be described in detail below with reference to the accompanying drawings and preferred embodiments.

While the present application has been described in terms of specific embodiments and examples for achieving the desired objects and objectives, it is to be understood that the invention is not limited to the disclosed embodiments, but is to be accorded the widest scope consistent with the principles and novel features as defined by the appended claims.

Referring to fig. 1, fig. 1 is a schematic flow chart illustrating a charging control method according to an embodiment of the present application.

The charging control method according to the present embodiment may be applied to a mobile phone, a tablet computer, a wearable device, a smart camera, and the like, and may include, but is not limited to, the following steps.

Step S101, detecting a real-time electric quantity value;

step S102, judging whether the real-time electric quantity value is reduced to a first threshold value;

step S103, if the real-time electric quantity value is reduced to the first threshold value, factor information causing the reduction of the real-time electric quantity value is detected;

and step S104, controlling the charging action according to the detected factor information.

It is easily understood that the factor information according to the present embodiment may include natural power consumption of a battery, artificial power consumption, and power consumption of a third-party application running.

For example, in the lowest usage situation such as standby, hibernation, and the like, the battery also has a natural power consumption situation, which is used for providing the lowest background operation power. The electricity consumption for manual use is generally the electricity consumption generated when the user uses the terminal device for interaction. In addition, if the terminal device runs some complicated third-party applications such as a player or a game by itself, the terminal device will continuously generate a large power consumption.

Correspondingly, the step of controlling the charging operation according to the detected factor information in this embodiment may specifically include the following several cases:

in the first situation, if the detected factor information is the natural power consumption of the battery, the charging action of the un-triggered charging is controlled to be executed;

in case two, if the detected factor information is artificially consumed power, controlling to execute a charging action of secondary judgment;

and in case of the third situation, if the detected factor information is that the third-party application program runs and consumes power, controlling to execute a charging action of triggering charging or secondary judgment.

Further, in this embodiment, the step of controlling the charging operation for performing the secondary determination if the detected factor information is artificially consumed power may specifically include: judging whether a charging protection function is set; if the charging protection function is not set, executing a charging action for triggering charging; and if the charging protection function is set, executing the charging protection function.

It is easy to understand that if the electricity consumption is artificially used, the default user needs to ensure sufficient electricity usage and continuous supply, so the requirement of the electricity value is maintained in a high state. On the other hand, if the power consumption is not artificially consumed, the continuous charging is not generally required.

It should be noted that, in the present embodiment, if the charging protection function is provided, the step of executing the charging protection function specifically includes: judging whether the real-time electric quantity value is reduced to a second threshold value; and if the voltage value is reduced to the second threshold value, controlling to execute a charging action for triggering charging.

It is easily understood that the first threshold is larger than the second threshold, and the specific value thereof may be set automatically according to the user setting or according to the user's usage habit.

It should be noted that, in this embodiment, the step of detecting factor information that causes the real-time electric quantity value to be decreased specifically includes: the factor information is detected by at least one of a processor, a distance sensor, an infrared sensor, a camera, a sound sensor, and/or a pressure sensor.

For example, the present embodiment can be acquired by a sensor if it is used manually, and requires comprehensive processing by a processor for natural power consumption, application use, and the like.

It will be readily appreciated that in general, the distance sensor may be used to detect whether a user is using the device, the infrared sensor may be used to detect whether a person is near the device, and the pressure sensor may detect whether a user is holding or operating the device from a plurality of orientations.

For example, in the step of detecting the factor information by using a distance sensor, an infrared sensor, a camera, a sound sensor and/or a pressure sensor in the embodiment, the method specifically includes: shooting the surrounding environment through a camera to detect the factor information; the ambient sound is detected by a sound sensor to detect the factor information.

In particular, the factor information according to the present embodiment further includes abnormal power consumption of a software system and abnormal power consumption of a hardware facility, and the step of controlling the charging operation based on the detected factor information specifically includes: if the abnormal power consumption factor information of the software system is detected, controlling and optimizing the software system and executing a charging action for triggering charging; and if the abnormal power consumption of the hardware facilities is detected, controlling to execute alarm prompt and executing the charging action which does not trigger charging.

It is easy to understand that the hardware facility abnormality may be a case of leakage or other circuit abnormality.

In some embodiments, the factor information further includes a current operation time period, and the step of controlling the charging action according to the detected factor information specifically includes: and if the factor information that the current operation time period is in the low-power-consumption rest time period is detected, controlling to execute a charging action without triggering charging.

For example, the low power rest period may be late at night, such as 23 o' clock-5 a.m. in which case the average user is in a sleep state and does not operate the user device.

In addition, the factor information in this embodiment further includes a device operated by a human, and a third-party application operated by a human, and the step of controlling the charging operation according to the detected factor information specifically includes: and if the manual operation of the equipment and the manual operation of the third-party application program are detected, controlling and executing a charging action for triggering charging so as to carry out quick charging.

It can be easily understood that the quick charge of this embodiment can realize the quick electric quantity supply that lasts to equipment, can guarantee that the user tends to full electric quantity state at any time when using equipment, can pull out charging wire etc. promptly when letting go of equipment like this, avoids electrocuteeing danger and floating charge.

It should be added that, before the step of detecting the real-time electric quantity value according to the present embodiment, the method further includes: acquiring daily use habits of a user; and generating a charging control strategy suitable for the user according to the daily use habit.

Specifically, in the step of generating the charging control policy suitable for the user according to the daily usage habit according to the present embodiment, the charging control policy is used to automatically set at least one of a first threshold, a battery natural power consumption parameter, a manual power consumption parameter, a third-party application running power consumption parameter, a parameter setting of non-trigger charging, and a parameter setting of secondary judgment.

Correspondingly, the step of controlling the charging operation according to the detected factor information in the present embodiment specifically includes: and calling the charging control strategy according to the detected factor information so as to control and execute a corresponding charging action.

Referring to fig. 2 in conjunction with fig. 1, the present application further provides a rechargeable intelligent terminal, which is configured with a processor 21 as an embodiment, and the processor 21 is configured to execute program data to implement the charging control method as described above.

In this embodiment, the rechargeable intelligent terminal may further be configured with a charging control interface, configured to obtain a charging control instruction sent by the processor 21, so as to trigger charging or stop charging.

The rechargeable intelligent terminal may further be configured with a heat dissipation pad for dissipating heat of the processor 21 and/or the charging control interface.

It should be added that, in the present embodiment, the processor 21 is configured to detect a real-time electric quantity value;

the processor 21 is configured to determine whether the real-time electric quantity value falls to a first threshold;

if the real-time electric quantity value is decreased to the first threshold value, the processor 21 is configured to detect factor information that causes the decrease of the real-time electric quantity value;

the processor 21 is configured to control the charging action according to the detected factor information.

It is easily understood that the factor information according to the present embodiment may include natural power consumption of a battery, artificial power consumption, and power consumption of a third-party application running.

For example, in the lowest usage situation such as standby, hibernation, and the like, the battery also has a natural power consumption situation, which is used for providing the lowest background operation power. The electricity consumption for manual use is generally the electricity consumption generated when the user uses the terminal device for interaction. In addition, if the terminal device runs some complicated third-party applications such as a player or a game by itself, the terminal device will continuously generate a large power consumption.

Correspondingly, the processor 21 according to this embodiment is configured to control the charging action according to the detected factor information, and specifically includes the following situations:

in case one, if the detected factor information is the natural power consumption of the battery, the processor 21 is configured to control to execute a charging operation without triggering charging;

in case two, if the detected factor information is that the power consumption is consumed, the processor 21 is controlled to perform a charging operation for performing the secondary judgment;

in case three, if the detected factor information is power consumed by the third-party application running, the processor 21 is configured to control to execute a charging action of triggering charging or secondary determination.

Further, in this embodiment, if the detected factor information is artificially consumed power, the processor 21 is configured to control the charging operation for performing the secondary determination, and specifically may include: the processor 21 is configured to determine whether a charging protection function is set; if the charging protection function is not set, the processor 21 is configured to execute a charging action for triggering charging; if the charging protection function is set, the processor 21 is configured to execute the charging protection function.

It is easy to understand that if the electricity consumption is artificially used, the default user needs to ensure sufficient electricity usage and continuous supply, so the requirement of the electricity value is maintained in a high state. On the other hand, if the power consumption is not artificially consumed, the continuous charging is not generally required.

It should be noted that, if the charging protection function is provided in the present embodiment, the processor 21 is configured to execute the charging protection function, and specifically includes: the processor 21 is configured to determine whether the real-time electric quantity value falls to a second threshold; if the voltage drops to the second threshold, the processor 21 is configured to control to perform a charging action that triggers charging.

It is easily understood that the first threshold is larger than the second threshold, and the specific value thereof may be set automatically according to the user setting or according to the user's usage habit.

It should be noted that, in this embodiment, the processor 21 is configured to detect factor information that causes the real-time electric quantity value to decrease, and specifically includes: the processor 21 is configured to detect the factor information through at least one of a distance sensor, an infrared sensor, a camera, a sound sensor, and/or a pressure sensor.

It will be readily appreciated that in general, the distance sensor may be used to detect whether a user is using the device, the infrared sensor may be used to detect whether a person is near the device, and the pressure sensor may detect whether a user is holding or operating the device from a plurality of orientations.

For example, the processor 21 in this embodiment is configured to detect the factor information through a distance sensor, an infrared sensor, a camera, a sound sensor, and/or a pressure sensor, and specifically includes: the processor 21 is configured to capture the surrounding environment through a camera to detect the factor information; the processor 21 is configured to detect the ambient sound by a sound sensor to detect the factor information.

In particular, the factor information according to the present embodiment further includes abnormal power consumption of a software system and abnormal power consumption of a hardware facility, and the processor 21 is configured to control the charging operation according to the detected factor information, and specifically includes: if the information of the abnormal power consumption factor of the software system is detected, the processor 21 is used for controlling and optimizing the software system and executing a charging action for triggering charging; if the abnormal power consumption of the hardware facility is detected, the processor 21 is configured to control to execute the alarm prompt and execute the charging action that does not trigger the charging.

It is easy to understand that the hardware facility abnormality may be a case of leakage or other circuit abnormality.

In some embodiments, the factor information further includes a current running time period, and the processor 21 is configured to control the charging action according to the detected factor information, specifically including: if the factor information that the current operation time period is in the low power consumption rest time period is detected, the processor 21 is configured to control to execute a charging action that does not trigger charging.

For example, the low power rest period may be late at night, such as 23 o' clock-5 a.m. in which case the average user is in a sleep state and does not operate the user device.

In addition, the factor information in this embodiment further includes a manually operated device and a manually operated third-party application, and the processor 21 is configured to control the charging action according to the detected factor information, specifically including: if the device is manually operated and the third-party application program is manually operated, the processor 21 is configured to control to execute a charging action for triggering charging so as to perform quick charging.

It can be easily understood that the quick charge of this embodiment can realize the quick electric quantity supply that lasts to equipment, can guarantee that the user tends to full electric quantity state at any time when using equipment, can pull out charging wire etc. promptly when letting go of equipment like this, avoids electrocuteeing danger and floating charge.

It should be added that, before the processor 21 according to this embodiment is used for detecting the real-time electric quantity value, the method further includes: the processor 21 is used for acquiring the daily use habit of the user; the processor 21 is configured to generate a charging control strategy suitable for the user according to the daily usage habit.

Specifically, the processor 21 of this embodiment is configured to generate a charging control policy suitable for the user according to the daily usage habit, where the charging control policy is used to automatically set at least one of a first threshold, a battery natural power consumption parameter, an artificial power consumption parameter, a third-party application running power consumption parameter, a parameter setting of non-triggered charging, and a parameter setting of secondary judgment.

Correspondingly, the processor 21 according to this embodiment is configured to control the charging operation according to the detected factor information, and specifically includes: the processor 21 is configured to invoke the charging control policy according to the detected factor information to control execution of a corresponding charging action.

The chargeable intelligent terminal can be a mobile phone, a tablet personal computer, wearable equipment, an intelligent camera and the like.

In addition, the present embodiment may employ a charging IC chip of a Ti BQ25601 model, which may employ a PIN9 CE as a charging enable input signal, and the processor 21 is responsible for sending a control signal to the BQ 25601. For example, a low-level control signal is sent to perform a charging operation for triggering charging, and otherwise, the charging operation is turned off to stop charging.

In this embodiment, the charging IC chip may be used to detect the voltage range of the VBus voltage bus to determine whether an external charger is connected.

In addition, the present application also provides a computer readable storage medium, as one embodiment, for storing program data, which when executed by a processor, implements the charging control method according to any one of the above embodiments.

The specific implementation of the charging control method may be as shown in fig. 3, and details are not repeated within a range that a person skilled in the art can comprehensively understand in combination with fig. 1 and the embodiment thereof.

The method and the device can detect the real-time electric quantity value, judge whether to charge according to the electric quantity reduction factor, realize intelligent management of the electric quantity, further realize an individualized charging management model, help a user to optimize a charging mode, protect a battery, prolong the service life of the battery and improve user experience.

In the application, the chargeable intelligent terminal can be a mobile phone, a tablet computer, wearable equipment, an intelligent camera and the like.

It should be added that, in the mobile phone according to the embodiment, preferably, the mobile phone may be provided with an Android (Android) system having an application layer, an application framework layer, a library layer, and a kernel layer.

In the embodiment, the application layer mainly works on the Android SDK, and is developed by using an API (application program interface) provided by the Android to generate an APK (Android package); the application framework layer integrates various controls and classes of the Android and provides an efficient and convenient API interface for application development. The upper part of the pair realizes a uniform interface, and the lower part of the pair also provides a uniform standard to facilitate the moving in of various libraries; the library layer is an Android and bottom hardware communication interface, encapsulates the bottom hardware interface to realize the specific logic of the module, and is exposed to the application framework through a Binder communication mechanism in a service form; the kernel layer is a layer directly connected to hardware, and may be understood as a device driver.

Although the present application has been described with reference to a preferred embodiment, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the application, and all changes, substitutions and alterations that fall within the spirit and scope of the application are to be understood as being included within the following description of the preferred embodiment.

Claims (15)

1. A charge control method, characterized by comprising the steps of:

detecting a real-time electric quantity value;

judging whether the real-time electric quantity value is reduced to a first threshold value;

if the real-time electric quantity value is reduced to the first threshold value, detecting factor information causing the reduction of the real-time electric quantity value;

and controlling the charging action according to the detected factor information.

2. The charge control method according to claim 1, wherein the factor information includes natural power consumption of a battery, artificial power consumption, and power consumption of a third-party application running.

3. The charging control method according to claim 2, wherein the step of controlling the charging operation according to the detected factor information specifically includes:

if the detected factor information is the natural power consumption of the battery, controlling to execute a charging action without triggering charging;

if the detected factor information is artificially consumed power, controlling to execute a charging action of secondary judgment;

and if the detected factor information is that the third-party application program runs and consumes power, controlling to execute a charging action of triggering charging or secondary judgment.

4. The charge control method according to claim 3, wherein the step of controlling the charging operation for performing the secondary determination if the detected factor information is artificially consumed power includes:

judging whether a charging protection function is set;

if the charging protection function is not set, executing a charging action for triggering charging; and if the charging protection function is set, executing the charging protection function.

5. The charging control method according to claim 4, wherein the step of executing the charging protection function if the charging protection function is provided specifically includes:

judging whether the real-time electric quantity value is reduced to a second threshold value;

and if the voltage value is reduced to the second threshold value, controlling to execute a charging action for triggering charging.

6. The charge control method according to claim 1 or 2, wherein the step of detecting the factor information that causes the real-time electric quantity value to decrease specifically includes:

the factor information is detected by at least one of a processor, a distance sensor, an infrared sensor, a camera, a sound sensor, and/or a pressure sensor.

7. The charging control method according to claim 6, wherein the step of detecting the factor information by a distance sensor, an infrared sensor, a camera, a sound sensor, and/or a pressure sensor specifically includes:

shooting the surrounding environment through a camera to detect the factor information;

the ambient sound is detected by a sound sensor to detect the factor information.

8. The charging control method according to claim 1 or 2, wherein the factor information further includes abnormal power consumption of a software system and abnormal power consumption of a hardware facility, and the step of controlling the charging operation according to the detected factor information specifically includes:

if the abnormal power consumption factor information of the software system is detected, controlling and optimizing the software system and executing a charging action for triggering charging;

and if the abnormal power consumption of the hardware facilities is detected, controlling to execute alarm prompt and executing the charging action which does not trigger charging.

9. The charging control method according to claim 1 or 2, wherein the factor information further includes a current operation time period, and the step of controlling the charging action according to the detected factor information specifically includes:

and if the factor information that the current operation time period is in the low-power-consumption rest time period is detected, controlling to execute a charging action without triggering charging.

10. The charging control method according to claim 1 or 2, wherein the factor information further includes a device operated by a human, a third-party application operated by a human, and the step of controlling the charging action according to the detected factor information specifically includes:

and if the manual operation of the equipment and the manual operation of the third-party application program are detected, controlling and executing a charging action for triggering charging so as to carry out quick charging.

11. The charge control method according to any one of claims 1 to 3, wherein the step of detecting the real-time electric quantity value is preceded by:

acquiring daily use habits of a user;

and generating a charging control strategy suitable for the user according to the daily use habit.

12. The charge control method according to claim 11, wherein in the step of generating the charge control policy suitable for the user according to the daily usage habit, the charge control policy is used to automatically set at least one of a first threshold, a battery natural power consumption parameter, an artificial power consumption parameter, a third-party application running power consumption parameter, a parameter setting of non-triggered charging, and a parameter setting of secondary judgment.

13. The charging control method according to claim 12, wherein the step of controlling the charging operation according to the detected factor information specifically includes:

and calling the charging control strategy according to the detected factor information so as to control and execute a corresponding charging action.

14. A chargeable intelligent terminal, characterized in that it is provided with a processor for executing program data for implementing the charge control method according to any one of claims 1-13.

15. A computer-readable storage medium for storing program data which, when executed by a processor, implements a charging control method according to any one of claims 1 to 13.

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