CN112468914B - Multifunctional charging box control method, multifunctional charging box and Bluetooth headset - Google Patents

Abstract

The invention relates to the field of charging boxes of portable terminals, and discloses a multifunctional charging box control method, wherein a charging box is used for charging terminal equipment, the charging box comprises a first charging box and a second charging box, the first charging box comprises a first loudspeaker, the second charging box comprises a second loudspeaker, the terminal equipment comprises a first terminal equipment and a second terminal equipment, and the playing of the first loudspeaker and/or the second loudspeaker is controlled by detecting the connection state between the first charging box and the second charging box and detecting whether audio data transmission exists between the first charging box and/or the second charging box and the first terminal equipment or the second terminal equipment, so that the charging boxes of the two equipment can be used independently or in combination, the charging boxes can be expanded into a three-dimensional double-sound box, the functions and intelligent control of the equipment are increased while the use is facilitated, and the user experience is enriched.

Description

Multifunctional charging box control method, multifunctional charging box and Bluetooth headset

Technical Field

The invention relates to the field of portable charging, in particular to a multifunctional charging box control method, a multifunctional charging box and a Bluetooth headset.

Background

Along with the wide application of portable terminal equipment, for the convenience of carrying, some terminal equipment are smaller and smaller, so the battery capacity of the terminal equipment can be limited, in order to ensure the endurance of the existing portable terminal equipment, a charging box is adopted for charging, for example, wireless terminals such as Bluetooth earphones and the like are adopted, the existing true wireless Bluetooth earphones are in wireless connection between two earphones and between the earphones and a mobile phone, and some of the existing true wireless Bluetooth earphones can be used singly or in combination, but the existing charging boxes are all formed by charging one charging box for one pair of earphones, cannot be used independently, are single in function and low in intelligent control degree, so the charging box control method and the charging box thereof provided by the invention effectively solve the defects in the prior art.

Disclosure of Invention

The invention mainly aims to provide a control method of a multifunctional charging box, the multifunctional charging box and a Bluetooth earphone, which not only can facilitate the earphone to be used independently, but also can ensure that the charging box has a playing function, and further enriches the functions of the charging box and the earphone.

To achieve the above object, in a first aspect, the present invention provides a multifunctional charging box control method for charging a terminal device, the charging box including a first speaker and a second charging box including a second speaker, the terminal device including a first terminal device and a second terminal device, the method comprising:

detecting a connection state between the first charging box and the second charging box, and detecting whether audio data transmission exists between the first charging box and/or the second charging box and the first terminal equipment or the second terminal equipment;

and controlling the playing of the first loudspeaker and/or the second loudspeaker according to the detection result.

Optionally, the controlling the playing of the first speaker and/or the second speaker according to the detection result includes:

confirming that a data transmission channel is formed between the first charging box and the second charging box when the first charging box and the second charging box are detected to be in a connected state;

and controlling the data transmission of the data channel and controlling the playing of the first loudspeaker and/or the second loudspeaker according to a first preset rule.

Optionally, the controlling the data transmission of the data channel and the controlling the playing of the first speaker and/or the second speaker according to the first preset rule includes:

when detecting that first audio signal transmission exists between the first terminal device and the first charging box and second audio signal transmission exists between the second terminal device and the second charging box, controlling the data transmission channel not to transmit audio signals, playing the first audio signals by the first loudspeaker, and playing the second audio signals by the second loudspeaker; alternatively, the first and second electrodes may be,

when detecting that only one of the first charging box and the second charging box has audio signal transmission with the first terminal device or the second terminal device, controlling the data transmission channel to transmit an audio signal, and playing the audio signal by the first loudspeaker and/or the second loudspeaker; or when detecting that only one of the first charging box and the second charging box has audio signal transmission with the first terminal device or the second terminal device, controlling the data transmission channel not to transmit audio signals, and playing the audio signals by the loudspeaker of the charging box receiving the audio signals; alternatively, the first and second electrodes may be,

when the fact that only one of the first charging box and the second charging box has audio signal transmission with the first terminal device or the second terminal device is detected, comparing the battery electric quantity of the first charging box and the second charging box, and controlling the transmission of the audio signal of the data transmission channel according to a comparison result so as to enable the first loudspeaker and/or the second loudspeaker to play the audio signal; alternatively, the first and second electrodes may be,

when the first terminal device and the second terminal device are in a master-slave relationship, if it is detected that first audio signal transmission exists between the first terminal device and the first charging box and second audio signal transmission exists between the second charging box and the second terminal device, the slave device is controlled to stop audio signal transmission, the master device transmits the first audio signal and/or the second audio signal, the data transmission channel is controlled to transmit the audio signal, and the first audio signal and/or the second audio signal is played by the first loudspeaker and/or the second loudspeaker; alternatively, the first and second electrodes may be,

when the first terminal device and the second terminal device are in a master-slave relationship, if it is detected that first audio signal transmission exists between the first terminal device and the first charging box and second audio signal transmission exists between the second charging box and the second terminal device, the slave device is controlled to stop audio signal transmission, the master device transmits the first audio signal and/or the second audio signal, the data transmission channel is controlled not to transmit the audio signal, and the speaker of the charging box which has audio signal transmission with the master device plays the first audio signal and/or the second audio signal.

Optionally, the controlling the playing of the first speaker and/or the second speaker according to the detection result includes:

when the first charging box and the second charging box are detected to be in a non-connection state, it is confirmed that no data transmission channel is formed between the first charging box and the second charging box, and playing of the first loudspeaker and/or the second loudspeaker is controlled according to a second preset rule.

Optionally, the controlling the playing of the first speaker and/or the second speaker according to a second preset rule includes:

when first audio data transmission exists between the first terminal equipment and the first charging box, controlling the first loudspeaker to play the first audio data; and when the second terminal equipment and the second charging box have second audio signal transmission, controlling the second loudspeaker to play the second audio data.

Optionally, the terminal device is a pair of true wireless bluetooth headsets, wherein the first terminal device is a first bluetooth headset; the second terminal equipment is a second Bluetooth headset.

In a second aspect, the present invention further provides a multifunctional charging box, where the charging box is configured to charge a terminal device, the charging box includes a first charging box and a second charging box, the first charging box includes a first speaker, the second charging box includes a second speaker, the terminal device includes a first terminal device and a second terminal device, and the charging box further includes a state detection module configured to detect a connection state between the first charging box and the second charging box; the first charging box further comprises a first transmission detection module for detecting whether data transmission exists between the first charging box and the first terminal device or between the first charging box and the second terminal device, and the second charging box further comprises a second transmission detection module for detecting whether data transmission exists between the second charging box and the first terminal device or between the second charging box and the second terminal device; the charging box further comprises a control module for controlling the playing of the first speaker and/or the second speaker.

Optionally, the first charging box further includes a first data transmission module, the second charging box further includes a second data transmission module, and the first data transmission module and the second data transmission module are configured to form a data transmission channel between the first charging box and the second charging box and control data transmission of the data transmission channel when the first charging box and the second charging box are in a connected state; the control module comprises a first control module and a second control module which are respectively used for controlling the first loudspeaker and the second loudspeaker; the first terminal equipment is a first Bluetooth headset, and the second terminal equipment is a second Bluetooth headset.

In a third aspect, the present invention further provides a bluetooth headset, where the bluetooth headset includes a first bluetooth headset and a second bluetooth headset, and is characterized in that the first bluetooth headset and the second bluetooth headset are a pair of true wireless bluetooth headsets, the first bluetooth headset is charged through a first charging box or a second charging box, the second bluetooth headset is charged through the first charging box or the second charging box, a connection function is provided between the first charging box and the second charging box, and a function of power transmission and/or data transmission is provided between the first charging box and the second charging box in a connection state; the first charging box comprises a first speaker and the second charging box comprises a second speaker; the first Bluetooth headset and the first charging box or the second charging box have a data transmission function, and/or the second Bluetooth headset and the first charging box or the second charging box have a data transmission function.

Optionally, if the first bluetooth headset and the second bluetooth headset have a master-slave relationship, when it is detected that the first bluetooth headset and the first charging box have first audio signal transmission and the second bluetooth headset and the second charging box have second audio signal transmission, the slave bluetooth headset is controlled to be powered off, dormant or stopped from transmitting audio signals of the corresponding charging boxes.

Optionally, detecting a connection status between the first bluetooth headset and the first charging box or the second charging box; detecting a connection state between the second bluetooth headset and the first charging box or the second charging box;

when the first Bluetooth headset is detected to be connected with the first charging box, controlling a microphone of the first Bluetooth headset to collect a first voice signal, and transmitting the first voice signal to the first charging box so as to enable the first loudspeaker to play; when the second Bluetooth headset is detected to be connected with the second charging box, controlling a microphone of the second Bluetooth headset to collect a second voice signal, and transmitting the second voice signal to the second charging box so as to enable the second loudspeaker to play the second voice signal; alternatively, the first and second liquid crystal display panels may be,

when the first Bluetooth headset is detected to be connected with the first charging box, controlling a microphone of the first Bluetooth headset to collect a first voice signal and transmitting the first voice signal to the first charging box; when the second Bluetooth headset is detected to be connected with the second charging box, controlling a microphone of the second Bluetooth headset to collect a second voice signal, and transmitting the second voice signal to the second charging box, so that when the first charging box and the second charging box are in a connected state, the first charging box and/or the second charging box process the first voice signal and the second voice signal to obtain a third voice signal, and the first loudspeaker and/or the second loudspeaker play the third voice signal; alternatively, the first and second liquid crystal display panels may be,

when detecting that only one of the first Bluetooth headset and the second Bluetooth headset is connected with the first charging box or the second charging box, controlling a microphone of the unconnected Bluetooth headset to collect voice signals, transmitting the voice signals to the Bluetooth headset in a connection state with the charging box through a Bluetooth link between the first Bluetooth headset and the second Bluetooth headset, so that the voice signals are played by a speaker of the charging box in the connection state with the Bluetooth headset, and if the first charging box is connected with the second charging box, playing the voice signals by the first speaker and/or the second speaker.

The invention provides a multifunctional charging box control method, a charging box and a Bluetooth headset, wherein the charging box is used for charging terminal equipment, the charging box comprises a first charging box and a second charging box, the first charging box comprises a first loudspeaker, the second charging box comprises a second loudspeaker, the terminal equipment comprises a first terminal equipment and a second terminal equipment, and whether audio data transmission exists between the first charging box and/or the second charging box and the first terminal equipment or the second terminal equipment is detected by detecting the connection state between the first charging box and the second charging box; and controlling the playing of the first loudspeaker and/or the second loudspeaker according to the detection result. The portability of the independent use of the first terminal device and the second terminal device is guaranteed, the playing function of the charging box is expanded, the application scenes of the Bluetooth headset and the charging box are wider and more intelligent, and the use experience of a user is further improved.

Drawings

Fig. 1 is a flowchart of a control method for a multifunctional charging box according to an embodiment of the present invention;

the implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention. In the embodiments and the technical features in the embodiments of the present application may be combined with each other without conflict, and the sequence of the steps in each embodiment is only an example and is not limited, and may be adjusted without conflict.

Example one

As shown in fig. 1, in the present embodiment, there is provided a multi-functional charging box control method, the charging box being used for charging a terminal device, the charging box including a first speaker and a second charging box including a second speaker, the terminal device including a first terminal device and a second terminal device, the method comprising the steps of:

s10, detecting the connection state between the first charging box and the second charging box;

s20, detecting whether audio data transmission exists between the first charging box and/or the second charging box and the first terminal equipment or the second terminal equipment;

and S30, controlling the playing of the first loudspeaker and/or the second loudspeaker according to the detection result.

In this embodiment, the connection state may be a physical wired connection (including a structural combination, for example, the charging boxes include a connecting member, the connecting member is used to combine the two first charging boxes and the second charging box into a whole), or a wireless connection, and preferably, after the first charging box and the second charging box are combined into a whole through the connecting member, the connection state between the first charging box and the second charging box is detected, in the connection state, data and/or electric energy may be shared between the first charging box and the second charging box, and the connection state may be determined according to whether the first charging box and/or the second charging box are in the connection state (how the connection state is determined, a known method in the art, similar to a detection of a plug detection or a wireless connection, and so on, which is not repeated here), and whether audio data transmission exists between the first charging box and/or the second charging box and the first terminal device or the second terminal device (this determination may also be performed based on the prior art, and thus, different control manners of the speaker and so on the selection may be manually set according to user conditions. In this embodiment, the first charging box and the second charging box are respectively used for charging the first terminal device or the second terminal device, so that the two charging boxes have separate batteries, the terminal device may be a bluetooth headset, and the first terminal device and the second terminal device are a left headset and a right headset. It is obvious that the above-mentioned order of S10 and S20 may be exchanged or performed simultaneously.

A possible implementation manner, the controlling the playing of the first speaker and/or the second speaker according to the detection result includes:

when the first charging box and the second charging box are detected to be in a connected state, a data transmission channel is formed between the first charging box and the second charging box, data transmission of the data channel is controlled according to a first preset rule, and playing of the first loudspeaker and/or the second loudspeaker is controlled.

In this embodiment, the data transmission channel may be a wired physical channel, such as an IO channel, or a wireless transmission channel formed by two wireless transmission modules, such as bluetooth communication, so that data transmission may be performed between the first charging box and the second charging box, and the data transmission channel enables the first charging box and the second charging box to select shared data and play the data when they are combined. For example, the first charging box sends the first voice signal obtained from the first terminal device to the second charging box through the data transmission channel, and the first voice signal is played by the second loudspeaker.

A possible implementation manner, the controlling of the data transmission of the data channel and the controlling of the playing of the first speaker and/or the second speaker according to the first preset rule includes:

when detecting that first audio signal transmission exists between the first terminal device and the first charging box and second audio signal transmission exists between the second terminal device and the second charging box, controlling the data transmission channel not to transmit audio signals, playing the first audio signals by the first loudspeaker, and playing the second audio signals by the second loudspeaker;

in this scheme, although there is a data transmission channel between the first charging box and the second charging box, it may be controlled not to transmit audio signals, taking bluetooth headphones as an example, when the first charging box receives left channel audio transmitted by a left headphone, and the second charging box receives right channel audio transmitted by a right headphone, the first speaker and the second speaker are respectively controlled to play left and right channels, so as to form the effect of a stereo speaker. Or when it is detected that only one of the first charging box and the second charging box has audio signal transmission with the first terminal device or the second terminal device, controlling the data transmission channel to transmit an audio signal, and playing the audio signal by the first speaker and/or the second speaker;

for example, only the left earphone transmits the first audio signal to the first charging box, the data transmission channel may be controlled to transmit the audio signal, that is, the first voice signal received by the first charging box is transmitted to the second charging box through the data transmission channel, and then the first speaker and/or the second speaker are controlled to play. If the volume is larger than a certain value, the two loudspeakers can play together, if the volume is smaller than the certain value, only one of the loudspeakers can play, and the intelligent control can be realized through manual control or intelligent control of the charging box. Alternatively, the first and second liquid crystal display panels may be,

when detecting that only one of the first charging box and the second charging box has audio signal transmission with the first terminal equipment or the second terminal equipment, controlling the data transmission channel not to transmit audio signals, and playing the audio signals by a loudspeaker of the charging box receiving the audio signals; alternatively, the first and second electrodes may be,

when the fact that only one of the first charging box and the second charging box has audio signal transmission with the first terminal device or the second terminal device is detected, comparing the battery electric quantity of the first charging box and the second charging box, and controlling the transmission of the audio signal of the data transmission channel according to a comparison result so as to enable the first loudspeaker and/or the second loudspeaker to play the audio signal;

for example: when the electric quantity of the two charging boxes is larger than a first preset value, the two charging boxes are played, otherwise, the one with the higher electric quantity plays; or, the player plays the program by the one with higher electric quantity until the difference between the two electric quantities is greater than a second preset value. In this scheme, the battery capacity values of the two charging boxes can be transmitted through the data transmission channel. Alternatively, the first and second electrodes may be,

when the first terminal device and the second terminal device are in a master-slave relationship, if it is detected that first audio signal transmission exists between the first terminal device and the first charging box and second audio signal transmission exists between the second charging box and the second terminal device, controlling slave devices in the first terminal device and the second charging box to stop audio signal transmission, transmitting the first audio signal and/or the second audio signal by the master device, controlling the data transmission channel to transmit the audio signal, and playing the first audio signal and/or the second audio signal by a first loudspeaker and/or a second loudspeaker;

in this scheme, taking a bluetooth headset as an example, when both the first charging box and the second charging box receive audio signals, the first bluetooth headset and the second bluetooth headset are fed back, so that the slave devices in the first bluetooth headset and the second bluetooth headset stop transmission of the audio signals (including but not limited to power-off or sleep and the like), so that the master device therein continues to transmit the first audio signal and/or the second audio signal, and then transmits the audio signal through the data transmission channel, thereby controlling the first speaker and/or the second speaker to play, wherein the master device may transmit a mixed signal composed of the first audio signal and the second audio signal to play through the first speaker and/or the second speaker, or may be configured to process the mixed signal after the charging box end receives the mixed signal to obtain the first audio signal and the second audio signal (for example, the first audio signal and the second audio signal are left and right), and then the first speaker and the second speaker are respectively played, so that a better stereoscopic effect can be achieved. According to the scheme, under the condition that the playing of the loudspeaker is not influenced, the power consumption of the Bluetooth headset can be saved. Alternatively, the first and second electrodes may be,

when the first terminal device and the second terminal device are in a master-slave relationship, if it is detected that first audio signal transmission exists between the first terminal device and the first charging box and second audio signal transmission exists between the second charging box and the second terminal device, the slave device is controlled to stop audio signal transmission, the master device transmits the first audio signal and/or the second audio signal, the data transmission channel is controlled not to transmit the audio signal, and the speaker of the charging box which has audio signal transmission with the master device plays the first audio signal and/or the second audio signal.

It should be noted that, the master-slave relationship is distinguished by audio signal sources, and a terminal such as a current bluetooth headset not only has a master-slave distinguished true wireless bluetooth headset but also has a master-slave distinguished true wireless bluetooth headset, where an audio signal is acquired from an audio source device such as a mobile phone as a master device and an audio signal is acquired through the master device as a slave device.

In this embodiment, when the first charging box and the second charging box are in a connected state, whether audio signal transmission is performed between the first charging box and the second charging box and whether the first speaker and the second speaker play audio signals may be determined by detecting whether two sub-charging boxes directly acquire audio data from the terminal device and/or electric quantities of the first charging box and the second charging box, the audio data may be intelligently controlled according to a detection result, or may be controlled manually by a user, for example, a bluetooth headset plays a song, the first bluetooth headset is placed in the first charging box and is in wired connection with the first charging box, a first data transmission channel is established, when the first charging box detects a first audio signal sent by the first bluetooth headset through the first data transmission channel, the first speaker is controlled to play the first audio data, because the first charging box and the second charging box are in a connected state, a data transmission channel exists between the first charging box and the second charging box, if the second charging box does not receive an audio signal of the second bluetooth headset (it may be in a second charging state or the second charging box may select the second bluetooth headset to play audio signal simultaneously, or the second bluetooth headset may be selected by the second charging box according to a situation that the first bluetooth headset does not receive the audio signal, or the second bluetooth headset is selected by the second bluetooth headset, and may be selected by the second bluetooth headset; if the second charging box also receives a second audio signal of the second Bluetooth headset, the second loudspeaker can be controlled to play the second audio signal, and if the first audio signal and the second audio signal are used for distinguishing left and right channels, the stereo effect is good.

When the first bluetooth headset and the second bluetooth headset have a master-slave relationship, for example, the first bluetooth headset is a master headset, and when the bluetooth headset receives an audio signal of a mobile phone for playing a song, the master headset generally receives the audio signal sent by an external terminal (such as a mobile phone), and if the audio signal is a left-right channel mixed signal, the master headset divides the audio signal into a left channel and a right channel sound signal, and then sends one of the channels to the second bluetooth headset for playing the left-right channel separately, and if the first bluetooth headset (the master headset) is the left channel and the second bluetooth headset (the slave headset) is the right channel, the second bluetooth headset may be controlled to close, sleep or stop transmitting second audio data to the charging box when the first bluetooth headset and the second bluetooth headset are both put into the charging box, the first charging box detects a first audio signal sent by the first bluetooth headset, and the second charging box detects a second audio signal sent by the second bluetooth headset, and sends a control signal to the first bluetooth headset to send the first audio signal and/or the second audio signal (such as the left-right channel mixed audio signal) to control a speaker to play the first bluetooth headset and/or control the second audio signal and/or the speaker.

A possible implementation manner, the controlling the playing of the first speaker and/or the second speaker according to the detection result includes:

when the first charging box and the second charging box are detected to be in a non-connection state, it is determined that no data transmission channel is formed between the first charging box and the second charging box, and playing of the first loudspeaker and/or the second loudspeaker is controlled according to a second preset rule.

For example, when there is a first audio data transmission between the first terminal device and the first charging box, the first speaker is controlled to play the first audio data; and when the second terminal equipment and the second charging box have second audio signal transmission, controlling the second loudspeaker to play the second audio data. The charging box can be changed into a real wireless Bluetooth double sound box by applying the scheme to a real wireless Bluetooth headset.

In one possible embodiment, the terminal device is a pair of real wireless bluetooth headsets, wherein the first terminal device is a first bluetooth headset; the second terminal equipment is a second Bluetooth headset.

An embodiment two provides a multifunctional charging box, where the charging box is configured to charge a terminal device, the charging box includes a first charging box and a second charging box, the first charging box includes a first speaker, the second charging box includes a second speaker, the terminal device includes a first terminal device and a second terminal device, and the charging box further includes a state detection module configured to detect a connection state between the first charging box and the second charging box; the first charging box further comprises a first transmission detection module for detecting whether data transmission exists between the first charging box and the first terminal device or between the first charging box and the second terminal device, and the second charging box further comprises a second transmission detection module for detecting whether data transmission exists between the second charging box and the first terminal device or between the second charging box and the second terminal device; the charging box further comprises a control module for controlling the playing of the first speaker and/or the second speaker.

For example, the first terminal is a first bluetooth headset, the second terminal is a second bluetooth headset, and the first bluetooth headset and the second bluetooth headset are true wireless bluetooth paired ears. The first charging box and the second charging box can charge the first Bluetooth headset or the second Bluetooth headset independently or can be used in a combined mode. When the first charging box is connected with the second charging box, the first charging box is in a connection state, the first charging box can be in wired connection or wireless connection, and due to the fact that the connection state can cause the change of a data transmission channel or a space distance, the change of playing data of the two speakers or the change of playing sound effect can be further caused, and therefore the first speaker and the second speaker can be further controlled to play audio data according to needs.

In one possible embodiment, the first charging box further includes a first data transmission module, the second charging box further includes a second data transmission module, and the first data transmission module and the second data transmission module are configured to form a data transmission channel between the first charging box and the second charging box and control data transmission of the data transmission channel when the first charging box and the second charging box are in a connected state; the control module comprises a first control module and a second control module which are respectively used for controlling the first loudspeaker and the second loudspeaker; the first terminal equipment is a first Bluetooth headset, and the second terminal equipment is a second Bluetooth headset.

The third embodiment of the present invention further provides a bluetooth headset, where the bluetooth headset includes a first bluetooth headset and a second bluetooth headset, the first bluetooth headset and the second bluetooth headset are a pair of true wireless bluetooth headsets, the first bluetooth headset is charged through a first charging box or a second charging box, the second bluetooth headset is charged through the first charging box or the second charging box, a connection function is provided between the first charging box and the second charging box, and a function of power transmission and/or data transmission is provided between the first charging box and the second charging box in a connection state; the first charging box comprises a first speaker and the second charging box comprises a second speaker; the first Bluetooth headset and the first charging box or the second charging box have a data transmission function, and/or the second Bluetooth headset and the first charging box or the second charging box have a data transmission function.

In this embodiment, the connection state may be a wired connection state, for example, connection of a data communication port; or may be in a wireless connection state, such as a bluetooth connection communication.

In a possible embodiment, if the first bluetooth headset and the second bluetooth headset have a master-slave relationship, when it is detected that the first bluetooth headset and the first charging box have a first audio signal transmission and the second bluetooth headset and the second charging box have a second audio signal transmission, the slave bluetooth headset is controlled to be powered off, dormant or stop audio signal transmission with the corresponding charging box.

In one possible embodiment, a connection state between the first bluetooth headset and the first charging box or the second charging box is detected; detecting a connection state between the second bluetooth headset and the first charging box or the second charging box;

when the first Bluetooth headset is detected to be connected with the first charging box, controlling a microphone of the first Bluetooth headset to collect a first voice signal, and transmitting the first voice signal to the first charging box so as to enable the first loudspeaker to play; when the second Bluetooth headset is detected to be connected with the second charging box, controlling a microphone of the second Bluetooth headset to collect a second voice signal, and transmitting the second voice signal to the second charging box so as to enable the second loudspeaker to play the second voice signal;

in this embodiment, make the box that charges become the function of megaphone, can play the user's pronunciation that the earphone gathered through the box that charges, two earphones and two boxes that charge can separately use in addition, also can use by combining. Alternatively, the first and second electrodes may be,

when the first Bluetooth headset is detected to be connected with the first charging box, controlling a microphone of the first Bluetooth headset to collect a first voice signal and transmitting the first voice signal to the first charging box; when the second Bluetooth headset is detected to be connected with the second charging box, controlling a microphone of the second Bluetooth headset to collect a second voice signal, and transmitting the second voice signal to the second charging box, so that when the first charging box and the second charging box are in a connected state, the first charging box and/or the second charging box process the first voice signal and/or the second voice signal to obtain a third voice signal, and the first loudspeaker and/or the second loudspeaker play the third voice signal; alternatively, the first and second electrodes may be,

when detecting that only one of the first Bluetooth headset and the second Bluetooth headset is connected with the first charging box or the second charging box, controlling a microphone of the unconnected Bluetooth headset to collect voice signals, transmitting the voice signals to the Bluetooth headset in a connection state with the charging box through a Bluetooth link between the first Bluetooth headset and the second Bluetooth headset, so that the voice signals are played by a speaker of the charging box in the connection state with the Bluetooth headset, and if the first charging box is connected with the second charging box, playing the voice signals by the first speaker and/or the second speaker.

In this embodiment, when bluetooth headset and the box that charges are wired connection, can utilize the wireless link between two bluetooth headsets, realize the wireless public address function of further distance.

According to the multifunctional charging box control method, the multifunctional charging box and the Bluetooth headset, provided by the invention, one traditional charging box for charging a pair of Bluetooth headsets is divided into two independent charging boxes which can be used independently or used in a combined manner, so that the functions of the charging boxes are expanded on the basis, the charging boxes can be changed into true wireless three-dimensional double sound boxes, the charging boxes can be controlled only according to the detection condition, and the user experience is improved.

It should be noted that, in this document, 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 phrases "comprising a component of' 8230; \8230;" does not exclude the presence of another like element in a process, method, article, or apparatus that comprises the element. For the sake of simplicity and convenience of description, the description of "and/or" is used in the present application, and it is emphasized that "a and/or B" includes any one of a scheme, B scheme, and a and B scheme, and when some schemes are deleted, no influence is exerted on other schemes.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (8)

1. A multifunctional charging box control method for charging a terminal device, the charging box including a first speaker and a second charging box including a second speaker, the terminal device including a first terminal device and a second terminal device, the control method comprising the steps of:

detecting a connection state between the first charging box and the second charging box, and detecting whether audio data transmission exists between the first charging box and/or the second charging box and the first terminal equipment or the second terminal equipment;

controlling the playing of the first speaker and/or the second speaker according to the detection result, wherein:

confirming that a data transmission channel is formed between the first charging box and the second charging box when the first charging box and the second charging box are detected to be in a connected state; controlling data transmission of the data channel and controlling playing of the first loudspeaker and/or the second loudspeaker according to a first preset rule;

when the first charging box and the second charging box are detected to be in a non-connection state, it is confirmed that no data transmission channel is formed between the first charging box and the second charging box, and playing of the first loudspeaker and/or the second loudspeaker is controlled according to a second preset rule.

2. The multifunctional charging box control method according to claim 1, wherein the controlling of the data transmission of the data channel and the playing of the first speaker and/or the second speaker according to a first preset rule comprises:

when detecting that first audio signal transmission exists between the first terminal device and the first charging box and second audio signal transmission exists between the second terminal device and the second charging box, controlling the data transmission channel not to transmit audio signals, playing the first audio signals by the first loudspeaker, and playing the second audio signals by the second loudspeaker; alternatively, the first and second electrodes may be,

when detecting that only one of the first charging box and the second charging box has audio signal transmission with the first terminal device or the second terminal device, controlling the data transmission channel to transmit an audio signal, and playing the audio signal by the first loudspeaker and/or the second loudspeaker; alternatively, the first and second liquid crystal display panels may be,

when detecting that only one of the first charging box and the second charging box has audio signal transmission with the first terminal device or the second terminal device, controlling the data transmission channel not to transmit audio signals, and playing the audio signals by the loudspeaker of the charging box receiving the audio signals; alternatively, the first and second electrodes may be,

when the fact that only one of the first charging box and the second charging box has audio signal transmission with the first terminal equipment or the second terminal equipment is detected, comparing the battery electric quantity of the first charging box and the second charging box, and controlling the transmission of the audio signal of the data transmission channel according to a comparison result so that the first loudspeaker and/or the second loudspeaker can play the audio signal; alternatively, the first and second liquid crystal display panels may be,

when the first terminal device and the second terminal device are in a master-slave relationship, if it is detected that first audio signal transmission exists between the first terminal device and the first charging box and second audio signal transmission exists between the second charging box and the second terminal device, controlling slave devices in the first terminal device and the second charging box to stop audio signal transmission, transmitting the first audio signal and/or the second audio signal by the master device, controlling the data transmission channel to transmit the audio signal, and playing the first audio signal and/or the second audio signal by a first loudspeaker and/or a second loudspeaker; alternatively, the first and second electrodes may be,

when the first terminal device and the second terminal device are in a master-slave relationship, if it is detected that first audio signal transmission exists between the first terminal device and the first charging box and second audio signal transmission exists between the second charging box and the second terminal device, the slave device is controlled to stop audio signal transmission, the master device transmits the first audio signal and/or the second audio signal, the data transmission channel is controlled not to transmit the audio signal, and the speaker of the charging box which has audio signal transmission with the master device plays the first audio signal and/or the second audio signal.

3. The multifunctional charging box control method according to claim 1, wherein the controlling the playing of the first speaker and/or the second speaker according to a second preset rule comprises:

when first audio data transmission exists between the first terminal device and the first charging box, controlling the first loudspeaker to play the first audio data; and when the second terminal equipment and the second charging box have second audio signal transmission, controlling the second loudspeaker to play the second audio data.

4. The multifunctional charging box control method according to any one of claims 1 to 3, wherein the terminal device is a pair of real wireless Bluetooth headsets, wherein the first terminal device is a first Bluetooth headset; the second terminal equipment is a second Bluetooth headset.

5. A multifunctional charging box is used for charging terminal equipment and is characterized in that the charging box comprises a first charging box and a second charging box, the first charging box comprises a first loudspeaker, the second charging box comprises a second loudspeaker, the terminal equipment comprises a first terminal device and a second terminal device, and the charging box further comprises a state detection module used for detecting the connection state between the first charging box and the second charging box; the first charging box further comprises a first transmission detection module for detecting whether data transmission exists between the first charging box and the first terminal device or between the first charging box and the second terminal device, and the second charging box further comprises a second transmission detection module for detecting whether data transmission exists between the second charging box and the first terminal device or between the second charging box and the second terminal device; the charging box further comprises a control module for controlling the playing of the first speaker and/or the second speaker, wherein: confirming that a data transmission channel is formed between the first charging box and the second charging box when the first charging box and the second charging box are detected to be in a connected state; controlling data transmission of the data channel and controlling playing of the first loudspeaker and/or the second loudspeaker according to a first preset rule;

when the first charging box and the second charging box are detected to be in a non-connection state, it is confirmed that no data transmission channel is formed between the first charging box and the second charging box, and playing of the first loudspeaker and/or the second loudspeaker is controlled according to a second preset rule.

6. The charging box according to claim 5, wherein the first charging box further comprises a first data transmission module, the second charging box further comprises a second data transmission module, and the first data transmission module and the second data transmission module are configured to form a data transmission channel between the first charging box and the second charging box and control data transmission of the data transmission channel when the first charging box and the second charging box are in a connected state; the control module comprises a first control module and a second control module which are respectively used for controlling the first loudspeaker and the second loudspeaker; the first terminal equipment is a first Bluetooth headset, and the second terminal equipment is a second Bluetooth headset.

7. A Bluetooth headset comprises a first Bluetooth headset body and a second Bluetooth headset body, and is characterized in that the first Bluetooth headset body and the second Bluetooth headset body are a pair of true wireless Bluetooth headsets, the first Bluetooth headset body is charged through a first charging box or a second charging box, the second Bluetooth headset body is charged through the first charging box or the second charging box, a connecting function is provided between the first charging box and the second charging box, and a power transmission function and/or a data transmission function is provided between the first charging box and the second charging box in a connecting state; the first charging box comprises a first speaker and the second charging box comprises a second speaker; the first Bluetooth headset and the first charging box or the second charging box have a data transmission function, and/or the second Bluetooth headset and the first charging box or the second charging box have a data transmission function;

detecting a connection state between the first bluetooth headset and the first charging box or the second charging box; detecting a connection state between the second bluetooth headset and the first charging box or the second charging box;

when the first Bluetooth headset is detected to be connected with the first charging box, controlling a microphone of the first Bluetooth headset to collect a first voice signal, and transmitting the first voice signal to the first charging box so that the first loudspeaker plays the first voice signal; when the second Bluetooth headset is detected to be connected with the second charging box, controlling a microphone of the second Bluetooth headset to collect a second voice signal, and transmitting the second voice signal to the second charging box so as to enable the second loudspeaker to play the second voice signal; alternatively, the first and second electrodes may be,

when the first Bluetooth headset is detected to be connected with the first charging box, controlling a microphone of the first Bluetooth headset to collect a first voice signal and transmitting the first voice signal to the first charging box; when the second Bluetooth headset is detected to be connected with the second charging box, controlling a microphone of the second Bluetooth headset to collect a second voice signal, and transmitting the second voice signal to the second charging box, so that when the first charging box and the second charging box are in a connected state, the first charging box and/or the second charging box process the first voice signal and/or the second voice signal to obtain a third voice signal, and the first speaker and/or the second speaker play the third voice signal; alternatively, the first and second electrodes may be,

when detecting that only one of the first Bluetooth headset and the second Bluetooth headset is connected with the first charging box or the second charging box, controlling a microphone of the unconnected Bluetooth headset to collect voice signals, transmitting the voice signals to the Bluetooth headset in a connection state with the charging box through a Bluetooth link between the first Bluetooth headset and the second Bluetooth headset, so that the voice signals are played by a speaker of the charging box in the connection state with the Bluetooth headset, and if the first charging box is connected with the second charging box, playing the voice signals by the first speaker and/or the second speaker.

8. The bluetooth headset of claim 7, wherein if the first bluetooth headset and the second bluetooth headset have a master-slave relationship, when it is detected that the first bluetooth headset and the first charging box have a first audio signal transmission and the second bluetooth headset and the second charging box have a second audio signal transmission, the bluetooth headset is controlled to be powered off, dormant or stopped transmitting audio signals with the corresponding charging box.

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