CN114336932A - Power supply control method and system, wearable device and computer readable storage medium - Google Patents

Abstract

The application discloses a power supply control method, a power supply control system, wearable equipment and a computer-readable storage medium, which are applied to equipment capable of being provided with a plurality of power supply devices, wherein the power supply control method comprises the following steps: detecting the state of a working power supply device, wherein the working power supply device is a power supply device which currently supplies power to equipment; and when the state meets the switching condition, switching to any one to-be-selected power supply device to supply power to the equipment, wherein the to-be-selected power supply device is a power supply device which is currently installed on the equipment and is except for the working power supply device. According to the power supply method and device, when the state of the current working power supply device for supplying power to the equipment meets the switching condition, the power supply device to be selected is directly switched to any power supply device to be installed on the equipment to supply power to the equipment, and the influence of power failure on user experience of the equipment is avoided.

Description

Power supply control method and system, wearable device and computer readable storage medium

Technical Field

The present application relates to the field of power management technologies, and in particular, to a power supply control method, system, wearable device, and computer-readable storage medium.

Background

As functions of VR (Virtual Reality) devices are richer and more abundant, power consumption is higher and higher, and therefore, higher requirements are placed on power supply of VR devices. At present, the power supply strategy of VR equipment is that the complete machine power supply is carried out through a battery, and when the battery needs to be changed to the electric quantity of the battery of current use is lower, needs VR equipment temporary power-off, then after changing into new battery, again for VR equipment power supply, when switching the battery, the normal work of VR equipment is interrupted, can influence user experience.

Therefore, how to provide a solution to the above technical problem is a problem that needs to be solved by those skilled in the art.

Disclosure of Invention

The application aims to provide a power supply control method, a power supply control system, wearable equipment and a computer readable storage medium, which can directly switch to any power supply device to be selected installed on the equipment to supply power to the equipment when the state of a working power supply device which supplies power to the equipment currently meets a switching condition, so that the influence of power failure of the equipment on user experience is avoided.

In order to solve the above technical problem, the present application provides a power supply control method applied to an apparatus to which a plurality of power supply devices are mountable, the power supply control method including:

detecting the state of a working power supply device, wherein the working power supply device is the power supply device which currently supplies power to the equipment;

and when the state meets a switching condition, switching to any one power supply device to be selected to supply power to the equipment, wherein the power supply device to be selected is the power supply device which is installed on the equipment at present and is except for the working power supply device.

Optionally, the power supply control method further includes:

when the state meets the switching condition, judging whether the power supply device to be selected exists or not;

if not, generating installation prompt information.

Optionally, the states of the working power supply device include an off-position state and an in-position state, and the switching condition includes that the state is the off-position state.

Optionally, the apparatus includes a plurality of power supply slots, each of the power supply slots is used for installing one power supply device, each of the power supply slots includes a power supply portion and a detection portion, the power supply portion is used for contacting with the power supply device to power on when the power supply device is inserted into the power supply slot and when the power supply device is pulled out from the power supply slot, the detection portion is used for determining that the power supply device is in the in-position state when the power supply device is completely inserted into the power supply slot, generating an in-position signal, and determining that the power supply device is in the out-position state when the power supply device is not completely inserted into the power supply slot, and generating an out-position signal.

Optionally, the power supply control method further includes:

and when the in-place signal is received, configuring power supply parameters of the power supply device corresponding to the in-place signal so that the power supply device can supply power to the equipment according to the power supply parameters.

Optionally, the state includes a charge state;

the switching condition comprises that the electric quantity state is a low electric quantity state;

when the electric quantity of the power supply device is smaller than a first preset electric quantity, the electric quantity state of the power supply device is judged to be the low electric quantity state.

Optionally, the apparatus further includes an emergency power supply device, and the power supply control method further includes:

and when the electric quantity of the emergency power supply device is smaller than a second preset electric quantity, controlling the working power supply device to charge the emergency power supply device.

In order to solve the above technical problem, the present application further provides a power supply control system, which is applied to an apparatus capable of mounting a plurality of power supply devices, and includes:

the detection module is used for detecting the state of a working power supply device, and the working power supply device is the power supply device which supplies power to the equipment at present;

and the switching module is used for switching to any one power supply device to be selected to supply power to the equipment when the state meets a switching condition, wherein the power supply device to be selected is the power supply device which is currently installed on the equipment and is except for the working power supply device.

In order to solve the above technical problem, the present application further provides a wearable device, including:

a memory for storing a computer program;

a processor for implementing the steps of the power supply control method as claimed in any one of the above when executing the computer program.

To solve the above technical problem, the present application further provides a computer-readable storage medium having a computer program stored thereon, where the computer program is executed by a processor to implement the steps of the power supply control method according to any one of the above.

The application provides a power supply control method, a plurality of power supply devices can be installed on equipment, the state of a working power supply device which supplies power to the equipment at present is detected, when the state of the working power supply device is detected to meet a switching condition, the working power supply device is directly switched to any power supply device to be selected installed on the equipment to supply power to the equipment, and the influence of power failure of the equipment on user experience is avoided. The application also provides a power supply control system, wearable equipment and a computer readable storage medium, which have the same beneficial effects as the power supply control method.

Drawings

In order to more clearly illustrate the embodiments of the present application, the drawings needed for the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings can be obtained by those skilled in the art without inventive effort.

Fig. 1 is a flowchart illustrating steps of a power supply control method according to the present application;

fig. 2 is a schematic structural diagram of a power supply control apparatus of a VR device provided in the present application;

fig. 3 is a schematic structural diagram of a power supply control system provided in the present application.

Detailed Description

The core of the application is to provide a power supply control method, a power supply control system, wearable equipment and a computer-readable storage medium, which can directly switch to any power supply device to be selected installed on the equipment to supply power to the equipment when the state of a working power supply device which supplies power to the equipment currently meets a switching condition, so that the influence of power failure of the equipment on user experience is avoided.

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Referring to fig. 1, fig. 1 is a flowchart illustrating steps of a power supply control method provided in the present application, where the power supply control method includes:

s101: detecting the state of a working power supply device, wherein the working power supply device is a power supply device which currently supplies power to equipment;

s102: and when the state meets the switching condition, switching to any one to-be-selected power supply device to supply power to the equipment, wherein the to-be-selected power supply device is a power supply device which is currently installed on the equipment and is except for the working power supply device.

It should be noted that, the apparatus in this embodiment specifically refers to an apparatus that can be installed with multiple power supply devices, where multiple power supply slots are provided in the apparatus, and each power supply slot is used for installing one power supply device. In this embodiment, each power supply slot includes a power supply portion, and in a process of inserting the power supply device into the power supply slot or in a process of pulling the power supply device out of the power supply slot, the power supply device is in contact with the power supply portion and can be powered on to supply power to the device. The power supply slot further comprises a detection part, the detection part is used for judging that the power supply device is in-position state when the power supply device is completely inserted into the power supply slot and generating an in-position signal, and the detection part is also used for judging that the power supply device is in an off-position state when the power supply device is not completely inserted into the power supply slot and generating an off-position signal.

The detection part can be a button or a spring plate, and it can be understood that the states of the button or the spring plate are different when the power supply device is not completely inserted into the power supply slot and is completely inserted into the power supply slot. Of course, the detecting portion may be a button or a spring, or may be other detecting components, and this embodiment is not limited in this respect. By adopting the power supply slot provided by the embodiment, when the power supply device is inserted into the power supply slot, the power supply device is powered on and then generates a signal in place, and when the power supply device is pulled out from the power supply slot, the power supply device generates an off-position signal and then is powered off, so that the power supply device is ensured to be completed under the condition that the power supply device is powered on relative to the insertion operation and the pulling-out operation of the power supply slot, and a hardware basis is provided for the equipment to switch the power supply device without power interruption.

Considering that the detection part of the power supply slot can generate an in-place signal after the power supply device is completely inserted into the power supply slot, the received in-place signal can determine which power supply slot on the equipment is provided with the power supply device, so that the subsequent switching can be carried out. The state of the working power supply device is monitored, and the state comprises but is not limited to an in-place state, an out-of-place state, an electric quantity state and the like. When the condition that the state of the working power supply device meets the switching condition is monitored, the working power supply device is directly switched to a power supply device in the in-place state on the equipment to supply power to the equipment, so that the equipment is prevented from being powered off in the switching process of the power supply device.

In view of that there may be one or more power supply devices to be selected in the in-place state in the apparatus, as an optional embodiment, the present application may further include an operation of acquiring a power supply capability of each power supply device to be selected, and when the state of the working power supply device satisfies a switching condition, switching to the power supply device to be selected with a stronger power supply capability to supply power to the apparatus. As an optional embodiment, the switching condition may include that the power state of the working power supply device is a low power state, in this embodiment, the condition that the power of the power supply device is less than the first preset power is referred to as a low power state, at this time, the power of the working power supply device is not exhausted, and the device can still be powered, and when the working power supply device is in the low power state, the switching operation is performed, so that a situation that the device is powered off due to the power exhaustion of the working power supply device in the switching process can be avoided.

As another optional embodiment, the switching condition may further include that the working power supply device is in an off-position state, where the off-position state may be caused by a user pulling the working power supply device out of the power supply slot, and as the power supply slot is designed in the present application, once the power supply device is not inserted in place, the detection portion in the power supply slot may generate an off-position signal first, and the power supply unit may not be powered off until the working power supply device and the power supply portion are completely contactless.

In this embodiment, each power supply slot is electrically connected, and when the power supply device with insufficient power supply capacity no longer supplies power to the device and is not pulled out of the power supply slot, the working power supply device can also charge the power supply device to be selected with insufficient power supply capacity while supplying power to the device.

It can be seen that, in this embodiment, a plurality of power supply devices may be installed on the device, the state of the working power supply device that currently supplies power to the device is detected, and when it is detected that the state of the working power supply device satisfies the switching condition, the device is directly switched to any power supply device to be selected installed on the device to supply power to the device, so that the user experience is prevented from being influenced by the power failure of the device.

On the basis of the above-described embodiment:

as an optional embodiment, the power supply control method further includes:

when the state meets the switching condition, judging whether a power supply device to be selected exists or not;

if not, generating installation prompt information.

Specifically, when the state of the working power supply device is detected to meet the switching condition, whether other power supply devices to be selected, which are installed in place, exist on the equipment is judged firstly except for the working power supply device, if only the working power supply device is installed on the equipment, installation prompt information is generated, so that a user can install a new power supply device into a corresponding power supply slot in time, when the installation prompt information is generated, the working power supply device can supply power for the equipment, and in the process that the new power supply device is inserted into the power supply slot, the power supply device can be firstly in contact with a power supply part in the power supply slot to be powered on, so that the newly inserted power supply device can supply power for the equipment in the switching process of the power supply device.

As an optional embodiment, the power supply control method further includes:

and when the in-place signal is received, configuring power supply parameters of the power supply device corresponding to the in-place signal so that the power supply device supplies power to the equipment according to the power supply parameters.

Specifically, considering that different power supply devices may have differences in specifications, charging and discharging parameters, and the like, when a power supply device is completely inserted into a certain power supply slot, that is, after receiving an in-place signal output by a detection portion of the power supply slot, an initialization operation is performed on the power supply device, where the initialization operation includes configuring power supply parameters of the power supply device in the device according to the specifications and parameters of the power supply device, and if the power supply device is subsequently selected to supply power to the device, the power supply device is controlled to supply power to the device according to the configured power supply parameters, so as to ensure power supply stability.

It can be understood that when the device is powered by the power supply device, the device may also correspondingly prompt the power supply parameter of the power supply device, and when the power supply device is pulled out from the power supply slot, as an optional embodiment, the operation of clearing the power supply parameter of the power supply device is further included, so as to prompt the power supply parameter of a new power supply device later, which is convenient for a user to know the use condition of the power supply device.

As an alternative embodiment, the apparatus further includes an emergency power supply device, and the power supply control method further includes:

and when the electric quantity of the emergency power supply device is smaller than the second preset electric quantity, controlling the working power supply device to charge the emergency power supply device so as to supply power to the equipment through the emergency power supply device when the working power supply device cannot continuously supply power.

As an alternative embodiment, the emergency supply device is a capacitor.

Specifically, the equipment that this embodiment provided still includes emergency power supply unit, there is electric connection in emergency power supply unit and the work power supply unit, work power supply unit is when for each functional module power supply in the equipment, still charge for emergency power supply unit, when work power supply unit's state is the low battery state, and when there is not other switchable controlling means in the equipment at present, if the user does not in time install new power supply unit in the power supply slot that corresponds, when work power supply unit electric quantity is lower or exhaust, supply power for the equipment by emergency power supply unit, provide more installation time for the user, avoid work power supply unit electric quantity exhaust to make the condition of equipment outage take place.

Specifically, the condition that the work power supply device can not continue to supply power comprises the condition that the electric quantity is too low and the electric quantity is exhausted and also comprises the condition that the work power supply device is pulled out from the power supply slot in the power supply process.

The emergency power supply device can adopt components such as a large-capacity capacitor and the like to form a power supply module capable of providing large output current, and energy is provided for the switching process of the power supply device.

Referring to fig. 2, a VR device including dual batteries is taken as an example for illustration, the VR device includes two power supply slots as above, the first power supply slot is used for installing a battery a, the second power supply slot is used for installing a battery b, the battery a and the battery b are connected with an emergency power supply device 02 and a to-be-powered function module of the VR device through a switch 01, the emergency power supply device 02 is also connected with the to-be-powered function module of the VR device, assuming that the battery a is used to supply power for the device preferentially by default, a movable terminal c of the switch 01 is controlled to be connected with a first stationary terminal d, the battery a is used to supply power for the VR device and charge the emergency power supply device 02 at the same time, when the battery a is in a low power state, if the battery b is detected to be in place, the movable terminal c of the switch 01 is controlled to be connected with a second stationary terminal e, the battery b is used to supply power for the VR device and charge the emergency power supply device 02 and the battery a at the same time, if it is detected that the battery b is not installed in the second power supply slot, installation prompt information is generated, after the electric quantity of the battery a is exhausted and before the battery b is installed in place, the emergency power supply device 02 supplies power to the VR equipment, if the battery b is pulled out when supplying power to the equipment, the detection part of the second power supply slot generates a dislocation signal at the moment when the battery b is dislocated, and after the dislocation signal is received, the movable end c of the change-over switch 01 is controlled to be connected with the first fixed end d, so that the battery a supplies power to the VR equipment, and in order to avoid switching delay, the emergency power supply device 02 provides energy in the switching process. When the battery b is installed in the second power supply slot, after the in-place signal generated by the detection part of the second power supply slot is received, the initialization operation is executed on the battery b, so that when the battery b is switched to supply power for equipment in the following process, the battery b can supply power according to the power supply parameter corresponding to the battery b, the power supply parameter of the battery b can be displayed on VR equipment, and after the battery b is pulled out of the second power supply slot, the relevant parameter of the battery b is correspondingly removed.

Referring to fig. 3, fig. 3 is a schematic structural diagram of a power supply control system provided in the present application, which is applied to an apparatus capable of installing a plurality of power supply devices, and the power supply control system includes:

the device comprises a detection module 1, a power supply module and a power supply module, wherein the detection module is used for detecting the state of a working power supply device, and the working power supply device is a power supply device which is used for supplying power to equipment at present;

and the switching module 2 is used for switching to any one to-be-selected power supply device to supply power to the equipment when the state meets the switching condition, wherein the to-be-selected power supply device is a power supply device which is installed on the equipment at present and is except for the working power supply device.

It can be seen that, in this embodiment, a plurality of power supply devices may be installed on the device, the state of the working power supply device that currently supplies power to the device is detected, and when it is detected that the state of the working power supply device satisfies the switching condition, the device is directly switched to any power supply device to be selected installed on the device to supply power to the device, so that the user experience is prevented from being influenced by the power failure of the device.

As an optional embodiment, the power supply control system further comprises:

and the prompting module is used for judging whether the power supply device to be selected exists or not when the state meets the switching condition, and generating installation prompting information if the power supply device to be selected does not exist.

As an alternative embodiment, the state of the working power supply device includes an off-position state and an on-position state, and the switching condition includes that the state is the off-position state.

As an alternative embodiment, the apparatus includes a plurality of power supply slots, each power supply slot is used for installing a power supply device, each power supply slot includes a power supply portion and a detection portion, the power supply portion is used for contacting and electrifying the power supply device when the power supply device is inserted into the power supply slot and when the power supply device is pulled out of the power supply slot, the detection portion is used for judging that the power supply device is in an in-position state when the power supply device is completely inserted into the power supply slot, generating an in-position signal, and judging that the power supply device is in an out-position state when the power supply device is not completely inserted into the power supply slot, and generating the out-position signal.

As an optional embodiment, the power supply control system further comprises:

and the configuration module is used for configuring the power supply parameters of the power supply device corresponding to the in-place signal when the in-place signal is received, so that the power supply device can supply power to the equipment according to the power supply parameters.

As an alternative embodiment, the status includes a state of charge;

the switching condition comprises that the electric quantity state is a low electric quantity state;

when the electric quantity of the power supply device is smaller than a first preset electric quantity, the electric quantity state of the power supply device is judged to be a low electric quantity state.

As an alternative embodiment, the apparatus further comprises an emergency power supply device, and the power supply control system further comprises:

and the control module is used for controlling the working power supply device to charge the emergency power supply device when the electric quantity of the emergency power supply device is less than a second preset electric quantity, so that the equipment is powered by the emergency power supply device when the working power supply device cannot continue to supply power.

As an alternative embodiment, the emergency supply device is a capacitor.

In another aspect, the present application further provides a wearable device, including:

a memory for storing a computer program;

a processor for implementing the steps of the power supply control method as described in any one of the above embodiments when executing the computer program.

Specifically, the memory includes a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system and computer-readable instructions, and the internal memory provides an environment for the operating system and the computer-readable instructions in the non-volatile storage medium to run. The processor, when executing the computer program stored in the memory, may perform the following steps: detecting the state of a working power supply device, wherein the working power supply device is a power supply device which currently supplies power to equipment; and when the state meets the switching condition, switching to any one to-be-selected power supply device to supply power to the equipment, wherein the to-be-selected power supply device is a power supply device which is currently installed on the equipment and is except for the working power supply device.

It can be seen that, in this embodiment, a plurality of power supply devices may be installed on the device, the state of the working power supply device that currently supplies power to the device is detected, and when it is detected that the state of the working power supply device satisfies the switching condition, the device is directly switched to any power supply device to be selected installed on the device to supply power to the device, so that the user experience is prevented from being influenced by the power failure of the device.

As an alternative embodiment, the processor, when executing the computer subroutine stored in the memory, may perform the following steps: when the state meets the switching condition, judging whether a power supply device to be selected exists or not; if not, generating installation prompt information.

As an alternative embodiment, the processor, when executing the computer subroutine stored in the memory, may perform the following steps: and when the in-place signal is received, configuring power supply parameters of the power supply device corresponding to the in-place signal so that the power supply device supplies power to the equipment according to the power supply parameters.

As an alternative embodiment, the processor, when executing the computer subroutine stored in the memory, may perform the following steps: and when the electric quantity of the emergency power supply device is smaller than the second preset electric quantity, controlling the working power supply device to charge the emergency power supply device.

On the basis of the above embodiment, as a preferred embodiment, the wearable device further includes:

and the input interface is connected with the processor and used for acquiring computer programs, parameters and instructions imported from the outside and storing the computer programs, the parameters and the instructions into the memory under the control of the processor. The input interface may be coupled to an input device for receiving parameters or instructions manually input by a user. The input device can be a touch layer covered on a display screen, and can also be a key, a track ball or a touch pad arranged on a terminal shell.

And the display unit is connected with the processor and is used for displaying the data sent by the processor. The display unit may be a liquid crystal display or an electronic ink display, etc.

And the network port is connected with the processor and is used for carrying out communication connection with each external terminal device. The communication technology adopted by the communication connection can be a wired communication technology or a wireless communication technology, such as a mobile high definition link (MHL) technology, a Universal Serial Bus (USB), a High Definition Multimedia Interface (HDMI), a wireless fidelity (WiFi), a bluetooth communication technology, a low power consumption bluetooth communication technology, an ieee802.11 s-based communication technology, and the like.

In another aspect, the present application further provides a computer-readable storage medium, on which a computer program is stored, and the computer program, when executed by a processor, implements the steps of the power supply control method as described in any one of the above embodiments.

The present application also provides a computer-readable storage medium, which may include: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk. The storage medium having stored thereon a computer program which, when executed by a processor, performs the steps of: detecting the state of a working power supply device, wherein the working power supply device is a power supply device which currently supplies power to equipment; and when the state meets the switching condition, switching to any one to-be-selected power supply device to supply power to the equipment, wherein the to-be-selected power supply device is a power supply device which is currently installed on the equipment and is except for the working power supply device.

It can be seen that, in this embodiment, a plurality of power supply devices may be installed on the device, the state of the working power supply device that currently supplies power to the device is detected, and when it is detected that the state of the working power supply device satisfies the switching condition, the device is directly switched to any power supply device to be selected installed on the device to supply power to the device, so that the user experience is prevented from being influenced by the power failure of the device.

As an alternative embodiment, when executed by a processor, a computer subroutine stored in a computer readable storage medium may specifically implement the following steps: when the state meets the switching condition, judging whether a power supply device to be selected exists or not; if not, generating installation prompt information.

As an alternative embodiment, when executed by a processor, a computer subroutine stored in a computer readable storage medium may specifically implement the following steps: and when the in-place signal is received, configuring power supply parameters of the power supply device corresponding to the in-place signal so that the power supply device supplies power to the equipment according to the power supply parameters.

As an alternative embodiment, when executed by a processor, a computer subroutine stored in a computer readable storage medium may specifically implement the following steps: and when the electric quantity of the emergency power supply device is smaller than the second preset electric quantity, controlling the working power supply device to charge the emergency power supply device.

It is further noted that, in the present specification, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A power supply control method applied to an apparatus to which a plurality of power supply devices can be attached, the power supply control method comprising:

detecting the state of a working power supply device, wherein the working power supply device is the power supply device which currently supplies power to the equipment;

and when the state meets a switching condition, switching to any one power supply device to be selected to supply power to the equipment, wherein the power supply device to be selected is the power supply device which is installed on the equipment at present and is except for the working power supply device.

2. The power supply control method according to claim 1, characterized by further comprising:

when the state meets the switching condition, judging whether the power supply device to be selected exists or not;

if not, generating installation prompt information.

3. The power supply control method according to claim 1, wherein the state of the operating power supply device includes an off-position state and an in-position state, and the switching condition includes that the state is the off-position state.

4. The power supply control method according to claim 3, wherein the apparatus includes a plurality of power supply slots, each of the power supply slots is configured to mount one of the power supply devices, each of the power supply slots includes a power supply portion configured to be in contact with the power supply device for power supply when the power supply device is inserted into the power supply slot and when the power supply device is removed from the power supply slot, and a detection portion configured to determine that the power supply device is in the in-position state when the power supply device is completely inserted into the power supply slot, generate an in-position signal, determine that the power supply device is in the out-of-position state when the power supply device is not completely inserted into the power supply slot, and generate an out-of-position signal.

5. The power supply control method according to claim 4, characterized by further comprising:

and when the in-place signal is received, configuring power supply parameters of the power supply device corresponding to the in-place signal so that the power supply device can supply power to the equipment according to the power supply parameters.

6. The power supply control method according to claim 1, wherein the state includes a power state;

the switching condition comprises that the electric quantity state is a low electric quantity state;

when the electric quantity of the power supply device is smaller than a first preset electric quantity, the electric quantity state of the power supply device is judged to be the low electric quantity state.

7. The power supply control method according to any one of claims 1 to 6, wherein the apparatus further includes an emergency power supply device, the power supply control method further comprising:

and when the electric quantity of the emergency power supply device is smaller than a second preset electric quantity, controlling the working power supply device to charge the emergency power supply device.

8. A power supply control system applied to an apparatus to which a plurality of power supply devices are mountable, comprising:

the detection module is used for detecting the state of a working power supply device, and the working power supply device is the power supply device which supplies power to the equipment at present;

and the switching module is used for switching to any one power supply device to be selected to supply power to the equipment when the state meets a switching condition, wherein the power supply device to be selected is the power supply device which is currently installed on the equipment and is except for the working power supply device.

9. A wearable device, comprising:

a memory for storing a computer program;

a processor for implementing the steps of the power supply control method according to any one of claims 1 to 7 when executing the computer program.

10. A computer-readable storage medium, characterized in that a computer program is stored thereon, which computer program, when being executed by a processor, carries out the steps of the power supply control method according to any one of claims 1 to 7.

Images