CN113676808B - Bluetooth headset and headset box interaction-based control method and control device - Google Patents

Abstract

The invention discloses a control method and a control device based on interaction of a Bluetooth headset and a headset box, wherein the control method comprises the following steps: acquiring a triggering signal of a Bluetooth headset, and activating any headset box based on the triggering signal of the Bluetooth headset; firstly establishing wireless connection between the Bluetooth headset and the headset box, and optimizing a matching coefficient between the Bluetooth headset and the headset box based on the wireless connection; the earphone box monitors the state of the Bluetooth earphone and performs file sharing when the Bluetooth earphone is in a standby state or a storage state; monitoring a first power supply of the Bluetooth headset and a second power supply of the headset box, and constructing an energy management and control module based on the first power supply and the second power supply; and allocating forward and reverse electric quantity transmission between the Bluetooth headset and the headset box based on the energy management and control module, and optimizing the electric quantity duty ratio between the Bluetooth headset and the headset box.

Description

Bluetooth headset and headset box interaction-based control method and control device

Technical Field

The invention relates to the technical field of Bluetooth headphones, in particular to a control method and a control device based on interaction of a Bluetooth headphone and a headphone box.

Background

Bluetooth headset and earphone box collocation use to wear on the user on one's body jointly, bluetooth headset bluetooth headset, among the prior art, the earphone box mainly bear bluetooth headset at present and independently to bluetooth headset output energy, once the earphone box is in the state of losing the allies oneself with, bluetooth headset can't normal use.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, and provides a control method and a control device based on interaction of a Bluetooth headset and a headset box.

In order to solve the above technical problems, an embodiment of the present invention provides a control method based on interaction between a bluetooth headset and a headset case, including: acquiring a triggering signal of a Bluetooth headset, and activating any headset box based on the triggering signal of the Bluetooth headset;

firstly establishing wireless connection between the Bluetooth headset and the headset box, and optimizing a matching coefficient between the Bluetooth headset and the headset box based on the wireless connection;

the earphone box monitors the state of the Bluetooth earphone and performs file sharing when the Bluetooth earphone is in a standby state or a storage state;

monitoring a first power supply of the Bluetooth headset and a second power supply of the headset box, and constructing an energy management and control module based on the first power supply and the second power supply;

and allocating forward and reverse electric quantity transmission between the Bluetooth headset and the headset box based on the energy management and control module, and optimizing the electric quantity duty ratio between the Bluetooth headset and the headset box.

Optionally, the acquiring a trigger signal of the bluetooth headset, and activating any one of the earphone boxes based on the trigger signal of the bluetooth headset includes:

when the earphone box is in a disconnection state, the Bluetooth earphone sends out a first induction signal;

the earphone box in the disconnection state continuously sends out a second induction model, and the second induction model and the first induction signal respond to the position at a preset distance;

if the second induction type and the first induction signal do not respond in preset time or the Bluetooth headset selectively gives up the headset box, the Bluetooth headset retains the original association configuration with the Bluetooth headset;

activating the reselection function of the Bluetooth headset and outputting a trigger signal;

any earphone box acquires the trigger signal and performs configuration traversal initially;

and if the configuration traversal is in an allowed state, inputting the associated configuration of the Bluetooth headset to any one of the headset boxes, and activating and perfecting the configuration of any one of the headset boxes.

Optionally, the first establishing a wireless connection between the bluetooth headset and the headset box, and optimizing a matching coefficient between the bluetooth headset and the headset box based on the wireless connection, includes:

the Bluetooth headset outputs a wireless induction signal to the headset box associated with the Bluetooth headset;

the earphone box receives the wireless induction signal and activates a wireless connection channel of the earphone box and the Bluetooth earphone based on the wireless induction signal;

the earphone box determines object information of the Bluetooth earphone based on the wireless sensing signal, and obtains the service condition of the Bluetooth earphone based on the object information of the Bluetooth earphone;

constructing a first use coefficient of the Bluetooth headset based on the use condition of the Bluetooth headset;

constructing a second use coefficient based on the use condition of the earphone box, and adjusting the second use coefficient by using the first use coefficient of the Bluetooth earphone;

in the adjustment of the second use coefficient, the second use coefficient is matched with the first use coefficient layer by layer in sequence, and the matching conditions under various environments are virtualized to optimize the matching coefficients of the Bluetooth headset and the headset box under various environments; the various environments refer to a learning environment, a working environment, a home environment, a driving environment and a subway environment respectively.

Optionally, the earphone box monitors the state of the bluetooth earphone, and performs file sharing when the bluetooth earphone is in a standby state or a storage state, including:

the earphone box acquires the playing progress of the Bluetooth earphone and monitors the change rate of the playing progress of the Bluetooth earphone; taking the change rate of the playing progress of the Bluetooth headset as a first reference factor;

the earphone box acquires the compression force of the Bluetooth earphone and monitors the change rate of the compression force of the Bluetooth earphone; taking the change rate of the compression force of the Bluetooth headset as a second reference factor;

determining the use state of the Bluetooth headset based on the first reference factor and the second reference factor together, and giving different credit duty ratios to the first reference factor and the second reference factor;

and if the Bluetooth headset is in a standby state or a storage state, activating a file sharing function between the headset box and the Bluetooth headset, wherein the headset box shares files with the Bluetooth headset along a single channel.

Optionally, the earphone box monitors the state of the bluetooth earphone, and performs file sharing when the bluetooth earphone is in a standby state or a storage state, and further includes:

the earphone box is internally provided with a file storage library which can receive external files or configuration information in a wired state or a wireless state;

activating the file storage library by the earphone box on the premise of maintaining the response with the Bluetooth earphone when the Bluetooth earphone is in a use state;

the method comprises the steps that an antivirus device is arranged at a receiving port of the file storage library, and identity authentication and security authentication are carried out on entered files or configuration information through the antivirus device;

and activating a sharing channel between the Bluetooth headset and the headset box, wherein the Bluetooth headset can selectively acquire files or configuration information of the file storage library, and perform suitability adjustment based on the files or the configuration information so as to expand the functions of the Bluetooth headset.

Optionally, the monitoring the first power supply of the bluetooth headset and the second power supply of the headset box, and based on the first power supply and the second power supply, construct an energy management and control module, includes:

the Bluetooth headset is provided with a first power supply and monitors the service condition of the first power supply;

the earphone box is provided with a second power supply, monitors the service condition of the second power supply, and receives the service condition of the first power supply output by the Bluetooth earphone;

combining the service condition of the second power supply and the service condition of the first power supply to construct an energy virtual use scene in the earphone box;

and constructing an energy management and control module based on the first power supply and the second power supply, wherein the energy management and control module manages and controls the virtual use scene of the energy, and determines the use scene of the first power supply and the use scene of the second power supply based on the virtual use scene of the energy so as to facilitate the subsequent energy allocation between the first power supply and the second power supply.

Optionally, the allocating, based on the energy management and control module, forward and reverse electric power transmission between the bluetooth headset and the headset box, and optimizing an electric power duty ratio between the bluetooth headset and the headset box includes:

determining a use scene of the first power supply and a use scene of the second power supply, and giving energy use values of the first power supply and the second power supply; the energy use value is matched with the electric quantity of the corresponding first power supply and the corresponding second power supply;

one end of the energy management and control module is used for accommodating the energy use values of the first power supply and the second power supply, and the other end of the energy management and control module is independently connected with the electric quantity receiving end of the first power supply and the electric quantity receiving end of the second power supply;

the energy management and control module performs energy transfer according to the Bluetooth headset and the headset box in use systems of different use environments and distributes forward and reverse electric energy transmission between the Bluetooth headset and the headset box;

the Bluetooth headset is preferably used, and an energy saving state is configured in the headset box so as to fully supply the energy of the headset box to the Bluetooth headset;

if the electric quantity of the second power supply of the earphone box is in a preset supplement threshold value, the electric quantity part of the first power supply of the Bluetooth earphone is transferred to the electric quantity of the second power supply of the earphone box, so that the electric quantity ratio between the Bluetooth earphone and the earphone box is optimized in real time.

In addition, the embodiment of the invention also provides a control device based on interaction between the Bluetooth headset and the headset box, which comprises:

the acquisition module is used for: the earphone box is used for acquiring a triggering signal of the Bluetooth earphone and activating any earphone box based on the triggering signal of the Bluetooth earphone;

and an optimization module: the Bluetooth headset comprises a Bluetooth headset box, a Bluetooth headset and a headset box, wherein the Bluetooth headset box is used for connecting with the Bluetooth headset box, and the Bluetooth headset box is connected with the Bluetooth headset box;

and a sharing module: the Bluetooth earphone box is used for monitoring the state of the Bluetooth earphone and carrying out file sharing when the Bluetooth earphone is in a standby state or a storage state;

and a monitoring module: the energy management and control module is used for monitoring a first power supply of the Bluetooth headset and a second power supply of the headset box and constructing an energy management and control module based on the first power supply and the second power supply;

and (3) a blending module: the energy management and control module is used for allocating forward and reverse electric quantity transmission between the Bluetooth headset and the headset box and optimizing the electric quantity duty ratio between the Bluetooth headset and the headset box.

In addition, an embodiment of the present invention also provides a computer-readable storage medium storing computer program instructions that, when executed by a computer, cause the computer to perform a method according to the above.

In the embodiment of the invention, any earphone box is activated based on the Bluetooth earphone by the method in the embodiment of the invention, and wireless connection with any earphone box is established and a matching coefficient is optimized, so that the Bluetooth earphone is conveniently associated with the earphone box, and the problem that the Bluetooth earphone cannot be used in the state that the earphone box is in a disconnection state can be avoided.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings which are required in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a flow chart of a control method based on interaction between a bluetooth headset and a headset case according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a control device based on interaction between a bluetooth headset and a headset case according to an embodiment of the present invention;

fig. 3 is a hardware diagram of an electronic device, according to an example embodiment.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Examples

Referring to fig. 1, fig. 1 is a flow chart of a control method based on interaction between a bluetooth headset and a headset case according to an embodiment of the invention.

As shown in fig. 1, a control method based on interaction between a bluetooth headset and a headset case includes:

s11: acquiring a triggering signal of a Bluetooth headset, and activating any headset box based on the triggering signal of the Bluetooth headset;

in the implementation process of the invention, the specific steps can be as follows: when the earphone box is in a disconnection state, the Bluetooth earphone sends out a first induction signal; the earphone box in the disconnection state continuously sends out a second induction model, and the second induction model and the first induction signal respond to the position at a preset distance; if the second induction type and the first induction signal do not respond in preset time or the Bluetooth headset selectively gives up the headset box, the Bluetooth headset retains the original association configuration with the Bluetooth headset; activating the reselection function of the Bluetooth headset and outputting a trigger signal; any earphone box acquires the trigger signal and performs configuration traversal initially; and if the configuration traversal is in an allowed state, inputting the associated configuration of the Bluetooth headset to any one of the headset boxes, and activating and perfecting the configuration of any one of the headset boxes.

The second induction type and the first induction signal are used for carrying out position response at a preset distance, so that the Bluetooth headset is convenient for searching the earphone box in a positioning way, the distance is conveniently represented by the response intensity of the signal, the Bluetooth headset can be accurately searched in a preset range, if the response intensity of the signal is continuously maintained at the same level, the earphone box is judged to be not in a service range, and is judged to be in a disconnection state, the disconnection state is transmitted to a sales background system through a network, so that a search range is conveniently provided under the positioning of the sales background system, the Bluetooth headset is matched with the second induction type and the first induction signal for carrying out accurate search, and the limitation of the search range given under the positioning of the sales background system is overcome.

In addition, the reselection function of the Bluetooth headset is activated, and a trigger signal is output; any earphone box acquires the trigger signal and performs configuration traversal initially; if the configuration traversal is in an allowable state, inputting the associated configuration of the Bluetooth headset to any headset box, and activating and perfecting the configuration of any headset box, so that the Bluetooth headset is used for carrying out the associated configuration on the supplementary headset box, and original associated configuration information is reserved, so that quick adaptation is realized.

S12: the wireless connection between the Bluetooth headset and the headset box is established for the first time, and the matching coefficient between the Bluetooth headset and the headset box is optimized based on the wireless connection;

in the implementation process of the invention, the specific steps can be as follows: the Bluetooth headset outputs a wireless induction signal to the headset box associated with the Bluetooth headset; the earphone box receives the wireless induction signal and activates a wireless connection channel of the earphone box and the Bluetooth earphone based on the wireless induction signal; the earphone box determines object information of the Bluetooth earphone based on the wireless sensing signal, and obtains the service condition of the Bluetooth earphone based on the object information of the Bluetooth earphone; constructing a first use coefficient of the Bluetooth headset based on the use condition of the Bluetooth headset; constructing a second use coefficient based on the use condition of the earphone box, and adjusting the second use coefficient by using the first use coefficient of the Bluetooth earphone; in the adjustment of the second use coefficient, the second use coefficient is matched with the first use coefficient layer by layer in sequence, and the matching conditions under various environments are virtualized to optimize the matching coefficients of the Bluetooth headset and the headset box under various environments; the various environments refer to a learning environment, a working environment, a home environment, a driving environment and a subway environment respectively.

The second use coefficient is matched with the first use coefficient layer by layer in sequence, and the matching conditions under various environments are virtualized, so that the matching coefficients of the Bluetooth headset and the headset box under various environments are optimized; the various environments respectively refer to a learning environment, a working environment, a home environment, a driving environment and a subway environment, so that configuration under different environments is realized, adjustment of a first use coefficient and a second use coefficient under different environments is ensured, and a better effect is output under different environments.

S13: the earphone box monitors the state of the Bluetooth earphone and performs file sharing when the Bluetooth earphone is in a standby state or a storage state;

in the implementation process of the invention, the specific steps can be as follows: the earphone box acquires the playing progress of the Bluetooth earphone and monitors the change rate of the playing progress of the Bluetooth earphone; taking the change rate of the playing progress of the Bluetooth headset as a first reference factor; the earphone box acquires the compression force of the Bluetooth earphone and monitors the change rate of the compression force of the Bluetooth earphone; taking the change rate of the compression force of the Bluetooth headset as a second reference factor; determining the use state of the Bluetooth headset based on the first reference factor and the second reference factor together, and giving different credit duty ratios to the first reference factor and the second reference factor; and if the Bluetooth headset is in a standby state or a storage state, activating a file sharing function between the headset box and the Bluetooth headset, wherein the headset box shares files with the Bluetooth headset along a single channel.

In addition, the earphone box monitors the state of the Bluetooth earphone, and performs file sharing when the Bluetooth earphone is in a standby state or a storage state, and the method further comprises the following steps: the earphone box is internally provided with a file storage library which can receive external files or configuration information in a wired state or a wireless state; activating the file storage library by the earphone box on the premise of maintaining the response with the Bluetooth earphone when the Bluetooth earphone is in a use state; the method comprises the steps that an antivirus device is arranged at a receiving port of the file storage library, and identity authentication and security authentication are carried out on entered files or configuration information through the antivirus device; and activating a sharing channel between the Bluetooth headset and the headset box, wherein the Bluetooth headset can selectively acquire files or configuration information of the file storage library, and perform suitability adjustment based on the files or the configuration information so as to expand the functions of the Bluetooth headset.

The function of taking the earphone box as a main carrier is fully utilized, so that overall management and control and file management are performed when the Bluetooth earphone is in a normal use state, the load of the Bluetooth earphone is reduced, and the use effect of the Bluetooth earphone is improved.

S14: monitoring a first power supply of the Bluetooth headset and a second power supply of the headset box, and constructing an energy management and control module based on the first power supply and the second power supply;

in the implementation process of the invention, the specific steps can be as follows: the Bluetooth headset is provided with a first power supply and monitors the service condition of the first power supply; the earphone box is provided with a second power supply, monitors the service condition of the second power supply, and receives the service condition of the first power supply output by the Bluetooth earphone; combining the service condition of the second power supply and the service condition of the first power supply to construct an energy virtual use scene in the earphone box; and constructing an energy management and control module based on the first power supply and the second power supply, wherein the energy management and control module manages and controls the virtual use scene of the energy, and determines the use scene of the first power supply and the use scene of the second power supply based on the virtual use scene of the energy so as to facilitate the subsequent energy allocation between the first power supply and the second power supply.

The energy management and control module is used for managing and controlling the virtual energy use scene, determining the use scene of the first power supply and the use scene of the second power supply based on the virtual energy use scene, and facilitating energy allocation between the first power supply and the second power supply, so that file sharing and energy management and control between the Bluetooth headset and any earphone box are realized.

S15: and allocating forward and reverse electric quantity transmission between the Bluetooth headset and the headset box based on the energy management and control module, and optimizing the electric quantity duty ratio between the Bluetooth headset and the headset box.

In the implementation process of the invention, the specific steps can be as follows: determining a use scene of the first power supply and a use scene of the second power supply, and giving energy use values of the first power supply and the second power supply; the energy use value is matched with the electric quantity of the corresponding first power supply and the corresponding second power supply; one end of the energy management and control module is used for accommodating the energy use values of the first power supply and the second power supply, and the other end of the energy management and control module is independently connected with the electric quantity receiving end of the first power supply and the electric quantity receiving end of the second power supply; the energy management and control module performs energy transfer according to the Bluetooth headset and the headset box in use systems of different use environments and distributes forward and reverse electric energy transmission between the Bluetooth headset and the headset box; the Bluetooth headset is preferably used, and an energy saving state is configured in the headset box so as to fully supply the energy of the headset box to the Bluetooth headset; if the electric quantity of the second power supply of the earphone box is in a preset supplement threshold value, the electric quantity part of the first power supply of the Bluetooth earphone is transferred to the electric quantity of the second power supply of the earphone box, so that the electric quantity ratio between the Bluetooth earphone and the earphone box is optimized in real time.

The Bluetooth headset is preferably used, and an energy saving state is configured in the headset box so as to fully supply the energy of the headset box to the Bluetooth headset; if the electric quantity of the second power supply of the earphone box is in a preset supplement threshold value, the electric quantity of the first power supply of the Bluetooth earphone is partially transferred to the electric quantity of the second power supply of the earphone box, so that the electric quantity duty ratio between the Bluetooth earphone and the earphone box is optimized in real time, bidirectional charging between the Bluetooth earphone and the earphone box is realized, and energy optimization is carried out in the charging process so as to adapt to different use environments.

In addition, the bluetooth headset can be provided with a command end, the command end is connected with the intelligent home system through another wireless connection channel, the command end is mutually independent of the wireless connection channel of the intelligent home system and the wireless connection channel of the bluetooth headset and the headset box, when people need to dock the intelligent home system, the people output instructions through the command end, the instructions are converted in the wireless connection channel and the command is applied to the intelligent home system, so that the operation of each intelligent home in the intelligent home system is coordinated, the bluetooth headset is used as a control end, and the functions of the bluetooth headset are expanded.

In the embodiment of the invention, any earphone box is activated based on the Bluetooth earphone by the method in the embodiment of the invention, and wireless connection with any earphone box is established and a matching coefficient is optimized, so that the Bluetooth earphone is conveniently associated with the earphone box, and the problem that the Bluetooth earphone cannot be used in the state that the earphone box is in a disconnection state can be avoided.

Examples

Referring to fig. 2, fig. 2 is a schematic structural diagram of a control device based on interaction between a bluetooth headset and a headset case according to an embodiment of the invention.

As shown in fig. 2, a control device based on interaction between a bluetooth headset and a headset case includes:

the acquisition module 21: the earphone box is used for acquiring a triggering signal of the Bluetooth earphone and activating any earphone box based on the triggering signal of the Bluetooth earphone;

optimization module 22: the Bluetooth headset comprises a Bluetooth headset box, a Bluetooth headset and a headset box, wherein the Bluetooth headset box is used for connecting with the Bluetooth headset box, and the Bluetooth headset box is connected with the Bluetooth headset box;

sharing module 23: the Bluetooth earphone box is used for monitoring the state of the Bluetooth earphone and carrying out file sharing when the Bluetooth earphone is in a standby state or a storage state;

monitoring module 24: the energy management and control module is used for monitoring a first power supply of the Bluetooth headset and a second power supply of the headset box and constructing an energy management and control module based on the first power supply and the second power supply;

the deployment module 25: the energy management and control module is used for allocating forward and reverse electric quantity transmission between the Bluetooth headset and the headset box and optimizing the electric quantity duty ratio between the Bluetooth headset and the headset box.

In the embodiment of the invention, any earphone box is activated based on the Bluetooth earphone by the method in the embodiment of the invention, and wireless connection with any earphone box is established and a matching coefficient is optimized, so that the Bluetooth earphone is conveniently associated with the earphone box, and the problem that the Bluetooth earphone cannot be used in the state that the earphone box is in a disconnection state can be avoided.

Examples

Referring to fig. 3, an electronic device 40 according to this embodiment of the present invention is described below with reference to fig. 3. The electronic device 40 shown in fig. 3 is merely an example and should not be construed as limiting the functionality and scope of use of embodiments of the present invention.

As shown in fig. 3, the electronic device 40 is in the form of a general purpose computing device. Components of electronic device 40 may include, but are not limited to: the at least one processing unit 41, the at least one memory unit 42, a bus 43 connecting the different system components, including the memory unit 42 and the processing unit 41.

Wherein the storage unit stores program code that is executable by the processing unit 41 such that the processing unit 41 performs the steps according to various exemplary embodiments of the present invention described in the above-described "example methods" section of the present specification.

The memory unit 42 may include readable media in the form of volatile memory units, such as Random Access Memory (RAM) 421 and/or cache memory 422, and may further include Read Only Memory (ROM) 423.

The storage unit 42 may also include a program/utility 424 having a set (at least one) of program modules 425, such program modules 425 including, but not limited to: an operating system, one or more application programs, other program modules, and program data, each or some combination of which may include an implementation of a network environment.

The bus 43 may be one or more of several types of bus structures including a memory unit bus or memory unit controller, a peripheral bus, an accelerated graphics port, a processing unit, or a local bus using any of a variety of bus architectures.

Electronic device 40 may also communicate with one or more external devices (e.g., keyboard, pointing device, bluetooth device, etc.), one or more devices that enable a user to interact with electronic device 40, and/or any device (e.g., router, modem, etc.) that enables electronic device 40 to communicate with one or more other computing devices. Such communication may be through an input/output (I/O) interface 45. Also, electronic device 40 may communicate with one or more networks such as a Local Area Network (LAN), a Wide Area Network (WAN), and/or a public network, such as the Internet, through network adapter 46. As shown in fig. 3, the network adapter 46 communicates with other modules of the electronic device 40 over the bus 43. It should be appreciated that although not shown in fig. 3, other hardware and/or software modules may be used in connection with electronic device 40, including, but not limited to: microcode, device drivers, redundant processing units, external disk drive arrays, RAID systems, tape drives, data backup storage systems, and the like.

From the above description of embodiments, those skilled in the art will readily appreciate that the example embodiments described herein may be implemented in software, or may be implemented in software in combination with the necessary hardware. Thus, the technical solution according to the embodiments of the present disclosure may be embodied in the form of a software product, which may be stored in a non-volatile storage medium (may be a CD-ROM, a U-disk, a mobile hard disk, etc.) or on a network, including several instructions to cause a computing device (may be a personal computer, a server, a terminal device, or a network device, etc.) to perform the method according to the embodiments of the present disclosure.

Those of ordinary skill in the art will appreciate that all or part of the steps in the various methods of the above embodiments may be implemented by a program to instruct related hardware, the program may be stored in a computer readable storage medium, and the storage medium may include: read Only Memory (ROM), random access Memory (RAM, random Access Memory), magnetic or optical disk, and the like. And which stores computer program instructions which, when executed by a computer, cause the computer to perform a method according to the above.

In addition, the control method, the device and the computer readable storage medium based on interaction between the Bluetooth headset and the headset box provided by the embodiment of the invention are described in detail, and specific examples are adopted to illustrate the principle and the implementation of the invention, and the description of the above embodiments is only used for helping to understand the method and the core idea of the invention; meanwhile, as those skilled in the art will have variations in the specific embodiments and application scope in accordance with the ideas of the present invention, the present description should not be construed as limiting the present invention in view of the above.

Claims (8)

1. The control method based on interaction of the Bluetooth headset and the headset box is characterized by comprising the following steps:

acquiring a triggering signal of a Bluetooth headset, and activating any headset box based on the triggering signal of the Bluetooth headset;

firstly establishing wireless connection between the Bluetooth headset and the headset box, and optimizing a matching coefficient between the Bluetooth headset and the headset box based on the wireless connection;

the earphone box monitors the state of the Bluetooth earphone and performs file sharing when the Bluetooth earphone is in a standby state or a storage state;

monitoring a first power supply of the Bluetooth headset and a second power supply of the headset box, and constructing an energy management and control module based on the first power supply and the second power supply;

the forward and reverse electric quantity transmission between the Bluetooth headset and the headset box is regulated based on the energy management and control module, and the electric quantity ratio between the Bluetooth headset and the headset box is optimized;

the first establishing the wireless connection between the Bluetooth headset and the headset box, optimizing the matching coefficient between the Bluetooth headset and the headset box based on the wireless connection, includes:

the Bluetooth headset outputs a wireless induction signal to the headset box associated with the Bluetooth headset;

the earphone box receives the wireless induction signal and activates a wireless connection channel of the earphone box and the Bluetooth earphone based on the wireless induction signal;

the earphone box determines object information of the Bluetooth earphone based on the wireless sensing signal, and obtains the service condition of the Bluetooth earphone based on the object information of the Bluetooth earphone;

constructing a first use coefficient of the Bluetooth headset based on the use condition of the Bluetooth headset;

constructing a second use coefficient based on the use condition of the earphone box, and adjusting the second use coefficient by using the first use coefficient of the Bluetooth earphone;

in the adjustment of the second use coefficient, the second use coefficient is matched with the first use coefficient layer by layer in sequence, and the matching conditions under various environments are virtualized to optimize the matching coefficients of the Bluetooth headset and the headset box under various environments; the various environments refer to a learning environment, a working environment, a home environment, a driving environment and a subway environment respectively.

2. The control method based on interaction of a bluetooth headset with a headset case according to claim 1, wherein the acquiring a trigger signal of the bluetooth headset and activating any headset case based on the trigger signal of the bluetooth headset comprises:

when the earphone box is in a disconnection state, the Bluetooth earphone sends out a first induction signal;

the earphone box in the disconnection state continuously sends out a second induction model, and the second induction model and the first induction signal respond to the position at a preset distance;

if the second induction type and the first induction signal do not respond in preset time or the Bluetooth headset selectively gives up the headset box, the Bluetooth headset retains the original association configuration with the Bluetooth headset;

activating the reselection function of the Bluetooth headset and outputting a trigger signal;

any earphone box acquires the trigger signal and performs configuration traversal initially;

and if the configuration traversal is in an allowed state, inputting the associated configuration of the Bluetooth headset to any one of the headset boxes, and activating and perfecting the configuration of any one of the headset boxes.

3. The control method based on interaction of a bluetooth headset with a headset case according to claim 1, wherein the headset case monitors a state of the bluetooth headset and performs file sharing when the bluetooth headset is in a standby state or a storage state, comprising:

the earphone box acquires the playing progress of the Bluetooth earphone and monitors the change rate of the playing progress of the Bluetooth earphone; taking the change rate of the playing progress of the Bluetooth headset as a first reference factor;

the earphone box acquires the compression force of the Bluetooth earphone and monitors the change rate of the compression force of the Bluetooth earphone; taking the change rate of the compression force of the Bluetooth headset as a second reference factor;

determining the use state of the Bluetooth headset based on the first reference factor and the second reference factor together, and giving different credit duty ratios to the first reference factor and the second reference factor;

and if the Bluetooth headset is in a standby state or a storage state, activating a file sharing function between the headset box and the Bluetooth headset, wherein the headset box shares files with the Bluetooth headset along a single channel.

4. The control method based on interaction of a bluetooth headset with a headset case according to claim 3, wherein the headset case monitors a state of the bluetooth headset and performs file sharing when the bluetooth headset is in a standby state or a storage state, further comprising:

the earphone box is internally provided with a file storage library which can receive external files or configuration information in a wired state or a wireless state;

activating the file storage library by the earphone box on the premise of maintaining the response with the Bluetooth earphone when the Bluetooth earphone is in a use state;

the method comprises the steps that an antivirus device is arranged at a receiving port of the file storage library, and identity authentication and security authentication are carried out on entered files or configuration information through the antivirus device;

and activating a sharing channel between the Bluetooth headset and the headset box, wherein the Bluetooth headset can selectively acquire files or configuration information of the file storage library, and perform suitability adjustment based on the files or the configuration information so as to expand the functions of the Bluetooth headset.

5. The control method based on interaction of a bluetooth headset with a headset box according to claim 1, wherein the monitoring the first power supply of the bluetooth headset and the second power supply of the headset box, and constructing an energy management module based on the first power supply and the second power supply, comprises:

the Bluetooth headset is provided with a first power supply and monitors the service condition of the first power supply;

the earphone box is provided with a second power supply, monitors the service condition of the second power supply, and receives the service condition of the first power supply output by the Bluetooth earphone;

combining the service condition of the second power supply and the service condition of the first power supply to construct an energy virtual use scene in the earphone box;

and constructing an energy management and control module based on the first power supply and the second power supply, wherein the energy management and control module manages and controls the virtual use scene of the energy, and determines the use scene of the first power supply and the use scene of the second power supply based on the virtual use scene of the energy so as to facilitate the subsequent energy allocation between the first power supply and the second power supply.

6. The method for controlling interaction between a bluetooth headset and a headset case according to claim 5, wherein the adapting forward and reverse power delivery between the bluetooth headset and the headset case and optimizing a power ratio between the bluetooth headset and the headset case based on the energy management and control module comprises:

determining a use scene of the first power supply and a use scene of the second power supply, and giving energy use values of the first power supply and the second power supply; the energy use value is matched with the electric quantity of the corresponding first power supply and the corresponding second power supply;

one end of the energy management and control module is used for accommodating the energy use values of the first power supply and the second power supply, and the other end of the energy management and control module is independently connected with the electric quantity receiving end of the first power supply and the electric quantity receiving end of the second power supply;

the energy management and control module performs energy transfer according to the Bluetooth headset and the headset box in use systems of different use environments and distributes forward and reverse electric energy transmission between the Bluetooth headset and the headset box;

the Bluetooth headset is preferably used, and an energy saving state is configured in the headset box so as to fully supply the energy of the headset box to the Bluetooth headset;

if the electric quantity of the second power supply of the earphone box is in a preset supplement threshold value, the electric quantity part of the first power supply of the Bluetooth earphone is transferred to the electric quantity of the second power supply of the earphone box, so that the electric quantity ratio between the Bluetooth earphone and the earphone box is optimized in real time.

7. Control device based on bluetooth headset and mutual with earphone box, its characterized in that, control device based on bluetooth headset and mutual with earphone box includes:

the acquisition module is used for: the Bluetooth earphone comprises a Bluetooth earphone body, a Bluetooth earphone box and a plurality of earphone boxes, wherein the Bluetooth earphone body is used for acquiring a triggering signal of the Bluetooth earphone and activating any earphone box based on the triggering signal of the Bluetooth earphone;

and an optimization module: the Bluetooth headset comprises a Bluetooth headset box, a Bluetooth headset and a headset box, wherein the Bluetooth headset box is used for connecting with the Bluetooth headset box, and the Bluetooth headset box is connected with the Bluetooth headset box;

and a sharing module: the Bluetooth earphone box is used for monitoring the state of the Bluetooth earphone and carrying out file sharing when the Bluetooth earphone is in a standby state or a storage state;

and a monitoring module: the energy management and control module is used for monitoring a first power supply of the Bluetooth headset and a second power supply of the headset box and constructing an energy management and control module based on the first power supply and the second power supply;

and (3) a blending module: the energy management and control module is used for allocating forward and reverse electric energy transmission between the Bluetooth headset and the headset box and optimizing the electric energy ratio between the Bluetooth headset and the headset box;

the first establishing the wireless connection between the Bluetooth headset and the headset box, optimizing the matching coefficient between the Bluetooth headset and the headset box based on the wireless connection, includes:

the Bluetooth headset outputs a wireless induction signal to the headset box associated with the Bluetooth headset;

the earphone box receives the wireless induction signal and activates a wireless connection channel of the earphone box and the Bluetooth earphone based on the wireless induction signal;

the earphone box determines object information of the Bluetooth earphone based on the wireless sensing signal, and obtains the service condition of the Bluetooth earphone based on the object information of the Bluetooth earphone;

constructing a first use coefficient of the Bluetooth headset based on the use condition of the Bluetooth headset;

constructing a second use coefficient based on the use condition of the earphone box, and adjusting the second use coefficient by using the first use coefficient of the Bluetooth earphone;

in the adjustment of the second use coefficient, the second use coefficient is matched with the first use coefficient layer by layer in sequence, and the matching conditions under various environments are virtualized to optimize the matching coefficients of the Bluetooth headset and the headset box under various environments; the various environments refer to a learning environment, a working environment, a home environment, a driving environment and a subway environment respectively.

8. A computer readable storage medium, characterized in that it stores computer program instructions, which when executed by a computer, cause the computer to perform the method according to any one of claims 1 to 6.