CN114866896B - Earphone pairing method, equipment and computer readable storage medium - Google Patents

Abstract

The invention discloses a headset pairing method, equipment and a computer readable storage medium, wherein the method is applied to a first headset box and comprises the following steps: if the binaural pairing operation request is detected when the first earphone box is in communication connection with the second earphone box, detecting whether the first earphone box is in a box state; if the first earphone box is detected to be in the box state, and the second earphone box is determined to be in the box state, sending a double-ear pairing message to the first earphone in the first earphone box so that the first earphone can be paired with the second earphone in the second earphone box based on the double-ear pairing message. According to the separable earphone box, earphone pairing is achieved based on communication connection between the separable earphone boxes, and the requirement that a user needs to store earphones separately is met.

Description

Earphone pairing method, equipment and computer readable storage medium

Technical Field

The present invention relates to the field of headphones technologies, and in particular, to a method and apparatus for pairing headphones, and a computer readable storage medium.

Background

With the development and maturity of wireless earphone technology, wireless earphone uses more and more extensively, and the user is also higher to wireless earphone's function demand and experience demand. An earphone box for placing the wireless earphone (also called a charging box when the wireless earphone is charged) is designed for convenient storage and charging of the wireless earphone, but the current earphone box is designed for a pair of earphones, namely, two earphones are placed in the same earphone box, and the requirement that a user needs to store the earphones separately cannot be met.

Disclosure of Invention

The invention mainly aims to provide a headset pairing method, equipment and a computer readable storage medium, and aims to provide a separable headset box and a headset pairing scheme based on the separable headset box so as to meet the requirement of users on separately storing the headset.

To achieve the above object, the present invention provides a headset pairing method applied to a first headset case, the method comprising the steps of:

if a binaural pairing operation request is detected when the first earphone box is in communication connection with the second earphone box, detecting whether the first earphone box is in a box state;

If the first earphone box is detected to be in the box state, and the second earphone box is determined to be in the box state through communication connection with the second earphone box, sending a double-ear pairing message to a first earphone in the first earphone box so that the first earphone can be paired with a second earphone in the second earphone box based on the double-ear pairing message.

Optionally, after the step of detecting whether the first earphone box is in the earphone-in-box state if the binaural pairing operation request is detected while in communication connection with the second earphone box, the method further includes:

If the first earphone box is detected to be in the earphone in-box state, the binaural pairing operation request is forwarded to the second earphone box, so that the second earphone box can detect whether the second earphone box is in the earphone in-box state according to the binaural pairing operation request and returns a detection result.

Optionally, after the step of detecting whether the first earphone box is in the earphone-in-box state, the method further includes:

if the first earphone box is detected not to be in the box state, outputting first prompt information for indicating that the double-ear pairing is failed;

If the first earphone box is detected to be in the box state, the binaural pairing operation request is forwarded to the second earphone box, so that the second earphone box detects whether the second earphone box is in the box state according to the binaural pairing operation request and returns a detection result, and then the method further comprises the following steps:

and if the second earphone box is not in the box state based on the detection result, outputting the first prompt information.

Optionally, after the step of sending the binaural pairing message to the first earphone in the first earphone box if the first earphone box is detected to be in the box state, and the second earphone box is determined to be in the box state through the communication connection with the second earphone box, the method further includes:

If the first earphone is detected to be in the binaural pairing successful state and the second earphone is determined to be in the binaural pairing successful state through the communication connection with the second earphone box, outputting second prompt information for indicating that binaural pairing is successful.

Optionally, before the step of outputting the second prompt information for indicating that the binaural pairing is successful, if the first earphone is detected to be in the binaural pairing successful state and the second earphone is determined to be in the binaural pairing successful state through the communication connection with the second earphone box, the method further includes:

When receiving a feedback message sent by the first earphone and indicating that the first earphone has entered a pairing mode, sending an earphone state query message to the first earphone, so that the first earphone feeds back a message for indicating whether the first earphone is in a double-ear pairing success state to the first earphone box;

And sending an earphone state query message to the second earphone box so that the second earphone box can send the earphone state query message to the second earphone and send a message for indicating whether the second earphone is in a double-ear pairing successful state to the first earphone box.

Optionally, the method further comprises:

If the first earphone box is in a box state when the equipment pairing operation request is detected, detecting whether the first earphone in the first earphone box is in a double-ear connection state;

if the first earphone is not in the binaural connection state, a first equipment pairing message is sent to the first earphone so that the first earphone can be paired with user equipment;

And if the first earphone is in the binaural connection state, sending a second equipment pairing message to the first earphone so that the first earphone and a pair of ears establishing binaural connection with the first earphone can be paired with the user equipment by the main earphone after determining the main earphone.

Optionally, a pairing operation module is set in the first earphone box, and the method further includes:

Detecting whether the first earphone box is in communication connection with the second earphone box or not when a pairing operation triggered by a user is detected through the pairing operation module;

triggering the binaural pairing operation request if the first earphone box is determined to be in communication connection with the second earphone box;

And if the first earphone box and the second earphone box are not established to be in communication connection, triggering the equipment pairing operation request.

Optionally, if it is detected that the first earphone box is in the in-box state, and it is determined that the second earphone box is in the in-box state through the communication connection with the second earphone box, the step of sending the binaural pairing message to the first earphone in the first earphone box includes:

If the first earphone box is detected to be in the box state, and the second earphone box is determined to be in the box state through the communication connection with the second earphone box, receiving the pairing address information of the second earphone sent by the second earphone box;

and sending the pairing address information carried in the double-ear pairing message to the first earphone so as to pair the first earphone with the second earphone based on the pairing address information.

In order to achieve the above object, the present invention also provides an earphone pairing device, including: the device comprises a memory, a processor and a headset pairing program stored on the memory and capable of running on the processor, wherein the headset pairing program realizes the steps of the headset pairing method when being executed by the processor.

In addition, in order to achieve the above object, the present invention also provides a computer readable storage medium, on which a headset pairing program is stored, which when executed by a processor, implements the steps of the headset pairing method as described above.

In the invention, if the first earphone box detects a double-ear pairing operation request when in communication connection with the second earphone box, whether the first earphone box is in a box state or not is detected; if the first earphone box is detected to be in the box state, and the second earphone box is determined to be in the box state through communication connection with the second earphone box, sending a double-ear pairing message to the first earphone in the first earphone box so that the first earphone can be paired with the second earphone in the second earphone box based on the double-ear pairing message. According to the detachable earphone box, earphone pairing is achieved through communication connection among the detachable earphone boxes, and the requirement that a user needs to store the earphone separately is met.

Drawings

Fig. 1 is a flowchart of a first embodiment of an earphone pairing method according to the present invention;

fig. 2 is a schematic diagram of a binaural pairing procedure according to an embodiment of the invention;

fig. 3 is a schematic flow chart of pairing between an earphone and a VR according to an embodiment of the present invention.

The achievement of the objects, functional features and advantages of the present invention will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Referring to fig. 1, fig. 1 is a flowchart of a first embodiment of an earphone pairing method according to the present invention.

The embodiments of the present invention provide embodiments of the headset pairing method, it being noted that although a logical sequence is shown in the flowchart, in some cases the steps shown or described may be performed in a different order than what is shown or described herein. In the present embodiment, the earphone pairing method is applied to the first earphone box. In this embodiment, the earphone pairing method includes:

Step S10, if a binaural pairing operation request is detected when the first earphone box is in communication connection with the second earphone box, detecting whether the first earphone box is in a box state;

In the present embodiment, a detachable earphone box is proposed. Specifically, each earphone box is designed to be capable of placing one earphone, communication connection can be established between the earphone boxes in a wired or wireless mode, pairing between the two earphone boxes can be achieved based on the communication connection, and therefore the earphone in the two earphone boxes can be used as a pair of earphones by a user. In a specific embodiment, the user may separate or combine the two earphone boxes as needed (i.e., connect the two earphone boxes in communication by wired or wireless manner). Since two earphone cases for storing a pair of earphones are separable, such earphone cases will be referred to as separable earphone cases for convenience of description hereinafter, and when the two separable earphone cases are used as a pair, they may be referred to as a pair of separable earphone cases.

In an embodiment, a physical contact point may be designed in each earphone box such that two earphone boxes may establish a communication connection through a contact between the physical contact points. In a specific embodiment, when the earphone is placed in the detachable earphone box, information interaction can also be performed through the established communication connection by the contact between the physical contact point in the earphone and the physical contact point arranged inside the detachable earphone box. There are various implementations of the separable earphone box and the physical contact point in the earphone, as long as the implementation is capable of enabling the communication connection to be established due to the contact of the physical contact point, and the implementation is not limited in this embodiment. The physical contact points mentioned below are all physical contact points provided in the detachable earphone pods for communication with other detachable earphone pods, rather than physical contact points for communication with headphones, for the avoidance of ambiguity.

Further, in an embodiment, a clamping member may be disposed in a pair of separable earphone boxes, and the two earphone boxes are clamped together by the clamping member to ensure contact between the physical contact points, so that a user is not required to always manually control the two earphone boxes to ensure contact between the physical contact points. The implementation manner of the clamping piece is also various, and the implementation manner is not limited in the embodiment.

Further, in an embodiment, a device for fixing the detachable earphone cassette may be provided in the head-mounted device, and one place may be provided at each side of the head-mounted device, so that a user may fix a pair of detachable earphones at each side of the head-mounted device.

The ear speaker pairing method of the present embodiment is applied to the detachable ear speaker box described above, and for convenience of distinction, the description of the specific embodiment is made from the perspective of the first ear speaker box, and other detachable ear speaker boxes involved in performing the ear speaker pairing method of the present embodiment with the first ear speaker box are referred to as the second ear speaker box, it will be understood that the second ear speaker box does not refer to any detachable ear speaker box.

When the first earphone box is in communication connection with the second earphone box, for example, when connection is established through contact between physical contact points, if a binaural pairing operation request is detected, whether the first earphone box is in a box state or not can be detected. The specific detecting method is various, and is not limited in this embodiment.

In a specific embodiment, the binaural pairing operation request may be received by the first earphone box from another device, for example, from a user device having a communication connection with the first earphone box, or may be triggered by a user operating the first earphone box, for example, by long pressing a physical key in the first earphone box, or may be sent by the second earphone box to the first earphone box, which is not limited in this embodiment.

Further, in an embodiment, each separable earphone box may be provided with a pairing operation module for detecting a pairing operation of a user, when the separable earphone box is connected with other separable earphone boxes through communication, if a pairing operation triggered by the user is detected based on the separable earphone box pairing operation module, a binaural pairing operation request may be triggered, so as to detect whether the separable earphone box is in a box state, and the binaural pairing operation request may be forwarded to another separable earphone box connected with the separable earphone box, so that the other separable earphone box detects whether the separable earphone box is in the box state according to the binaural pairing operation request. In another embodiment, the pairing operation module may be provided only in one of a pair of detachable earphone boxes (hereinafter referred to as a master earphone box), and then, for the other slave earphone box, it may only acquire the binaural pairing operation request from the master earphone box, and then detect whether or not itself is in the box state according to the binaural pairing operation request. The pairing operation module may detect whether the user triggers the pairing operation by monitoring a trigger event of a physical key, a touch key or other interaction devices in the earphone device, for example, the physical key triggers a pressing event when pressed by the user, and the pairing operation module determines that the user triggers the pairing operation by monitoring the pressing event.

Step S20, if it is detected that the first earphone box is in the box state, and it is determined that the second earphone box is in the box state through the communication connection with the second earphone box, a binaural pairing message is sent to a first earphone in the first earphone box, so that the first earphone can be paired with a second earphone in the second earphone box based on the binaural pairing message.

If it is detected that the first earphone box is in the box state, and it is determined that the second earphone box is in the box state through communication connection with the second earphone box, the first earphone box may send a binaural pairing message to the earphones in the first earphone box (hereinafter referred to as the first earphone to show distinction). The binaural pairing message is a message for instructing the first earphone to turn on a pairing mode to perform binaural pairing operation. In a specific embodiment, the pairing may refer to bluetooth pairing, and of course, may refer to pairing in other wireless communication modes, and correspondingly, the communication connection established based on the paired information after pairing may also refer to bluetooth connection or other wireless communication connection.

After receiving the binaural pairing message, the first earphone may start a pairing mode, and further pair with the second earphone in the second earphone box. In a specific embodiment, the first earphone may use the earphone closest to the searched earphone (the earphone with the strongest signal as the closest distance) as the second earphone in the second earphone box, and further pair with the second earphone; the first earphone box may send the pairing address information of the second earphone to the first earphone, so that the first earphone locks the second earphone from the searched earphone according to the pairing address information, and further pairs with the second earphone.

Further, in an embodiment, the first earphone may set an earphone that is actively connected back to the paired device after each time of leaving the box, and then after receiving the binaural pairing message, the first earphone may empty the previously stored information of the paired device, and then start the pairing mode to pair with the second earphone. In a specific application scenario, a user can place two earphones in two separable earphone boxes when the two earphones are needed to be used as a pair of earphones for the first time, the two separable earphone boxes are combined, and the two earphones are matched with each other by triggering a double-ear matching operation request in the earphone boxes, so that the two earphones are matched with each other, and further communication connection is quickly established based on information of matched equipment in subsequent use.

Further, in an embodiment, after the first earphone is successfully paired with the second earphone, the first earphone may directly establish a communication connection with the second earphone, or establish a communication connection with the second earphone based on information of the paired device when each time the first earphone and the second earphone are detected to be out of box.

It should be noted that, there are various ways in which the first earphone box determines that the second earphone box is in the earphone-in-box state through the communication connection with the second earphone box, and this embodiment is not limited. For example, in an embodiment, after the operation of detecting whether the second earphone box is in the box state is performed by the second earphone box, the detection result may be sent to the first earphone box, so that the first earphone box knows whether the second earphone box is in the box state according to the detection result. As another example, in another embodiment, the detachable earphone box may be configured to forward the binaural pairing operation request to another detachable earphone box of the communication connection when detecting that the separable earphone box is in a box state based on the binaural pairing operation request detected by the own pairing operation module; then, when the binaural pairing operation request detected by the first headphone box is transmitted by the second headphone box, the first headphone box may determine that the second headphone box is in the headphone-in-box state when the binaural pairing operation request is detected.

Further, in an embodiment, the step S20 includes:

Step S201, if it is detected that the first earphone box is in a box state, and it is determined that the second earphone box is in a box state through the communication connection with the second earphone box, the pairing address information of the second earphone sent by the second earphone box is received;

In this embodiment, if it is detected that the first earphone box is in the box state, and it is determined that the second earphone box is in the box state through communication connection with the second earphone box, the first earphone box may receive the pairing address information of the second earphone sent by the second earphone box. The second earphone box may acquire pairing address information of the second earphone from the second earphone when the second earphone is placed in the second earphone box. Note that, the specific timing of the second earphone box acquiring the pairing address information of the second earphone from the second earphone and the specific timing of the second earphone box transmitting the pairing address information to the first earphone box are not limited in this embodiment. For example, in an embodiment, when the separable earphone box detects that the binaural pairing operation request is detected, if the separable earphone box detects that the separable earphone box is in a box state, the pairing address information of the currently placed earphone is acquired, and the pairing address information is sent to another separable earphone box connected with the separable earphone box through communication.

Step S202, the pairing address information is carried in a binaural pairing message and is sent to the first earphone, so that the first earphone can pair with the second earphone based on the pairing address information.

The first earphone box carries the pairing address information of the second earphone in the double-ear pairing message and sends the pairing address information to the first earphone, so that the first earphone can find the second earphone according to the pairing address information and then pair with the second earphone.

In this embodiment, by detecting whether the first earphone box is in the earphone-in-box state if the first earphone box detects a binaural pairing operation request while in communication connection with the second earphone box; if the first earphone box is detected to be in the box state, and the second earphone box is determined to be in the box state through communication connection with the second earphone box, sending a double-ear pairing message to the first earphone in the first earphone box so that the first earphone can be paired with the second earphone in the second earphone box based on the double-ear pairing message. In the embodiment, the separable earphone box is provided, and the earphone pairing is realized through the communication connection between the separable earphone boxes, so that the requirement that the user needs to store the earphone separately is met.

Further, based on the first embodiment, a second embodiment of the earphone pairing method of the present invention is provided, and in this embodiment, after the step S10, the method further includes:

Step S30, if it is detected that the first earphone box is in the earphone in-box state, forwarding the binaural pairing operation request to the second earphone box, so that the second earphone box detects whether the second earphone box is in the earphone in-box state according to the binaural pairing operation request and returns a detection result.

If the first earphone box detects that the first earphone box is in the box state, the first earphone box can forward the binaural pairing operation request to the second earphone box. After receiving the binaural pairing operation request, the second earphone box can detect whether the second earphone box is in a box state of the earphone, and returns a detection result to the first earphone box, and then the first earphone box can determine whether the second earphone box is in a box state of the earphone according to the detection result.

Further, in a specific embodiment, when the binaural pairing operation request received by the first earphone box is not sent by the second earphone box, or when the first earphone box is used as the main earphone box, if the first earphone box detects that the first earphone box is in a box state, the binaural pairing operation request is forwarded to the second earphone box.

Further, in an embodiment, when the first earphone box receives the binaural pairing operation request forwarded by the second earphone box, it may be detected whether the first earphone box is in a box state, and the detection result may be sent to the second earphone box.

Further, in an embodiment, after the step S10, the method further includes:

step S40, if the fact that the first earphone box is not in the box state is detected, outputting first prompt information for indicating that the double-ear pairing is failed;

if the first earphone box detects that the first earphone box is not in the box state, the binaural pairing message may not be sent, that is, since the earphone is not placed in the first earphone box, the earphone cannot be instructed to perform binaural pairing.

Further, in an embodiment, if the first earphone box detects that the first earphone box is not in the box state, a prompt message (hereinafter referred to as a first prompt message) for indicating that the binaural pairing is failed may be output, so that the user may know that the binaural pairing is failed. There are various ways of outputting the second prompt information, and there are various information forms of the first prompt information, which are not limited in this embodiment. For example, in an embodiment, an indicator light may be provided in a detachable earphone box, or an indicator light may be provided in a main earphone box of a pair of detachable earphone boxes, and the first earphone box may output the first prompt information through the indicator light, where the first prompt information may be indicated by a form such as a flashing frequency or a flashing number of times of the indicator light, for example, the indicator light flashes twice to indicate that binaural pairing fails.

Further, in an embodiment, after the step S30, the method further includes:

Step S50, if it is determined that the second earphone box is not in the box state based on the detection result, outputting the first prompt message.

If the first earphone box determines that the second earphone box is not in the box state based on the detection result returned by the second earphone box, the binaural pairing message may not be sent, that is, since the earphone is not placed in the second earphone box, the second earphone box cannot instruct the earphone to perform binaural pairing.

Further, in an embodiment, if it is determined that the second earphone box is not in the box state based on the detection result, a first prompt message may be output, so that the user may know that the binaural pairing fails.

Further, in an embodiment, after the step S10, the method further includes:

Step S60, if it is detected that the first earphone is in the binaural pairing successful state, and it is determined that the second earphone is in the binaural pairing successful state through the communication connection with the second earphone box, a second prompt message for indicating that binaural pairing is successful is output.

If the first earphone box detects that the first earphone is in the binaural pairing successful state, and the second earphone is determined to be in the binaural pairing successful state through communication connection with the second earphone box, it may be determined to output prompt information (hereinafter referred to as second prompt information) for indicating that binaural pairing is successful. The specific embodiment of outputting the second prompt information may refer to the specific embodiment of outputting the first prompt information, which is not described herein.

The first earphone box may detect that the first earphone is in the binaural pairing successful state in a plurality of ways, and the present embodiment is not limited thereto. For example, in an embodiment, after receiving the binaural pairing message and starting the pairing mode for successful pairing, the first earphone may feed back a feedback message indicating that the first earphone box is in a binaural pairing successful state to the first earphone box.

The first earphone box determines that the second earphone is in the binaural pairing successful state through the communication connection with the second earphone box in various ways, which is not limited in this embodiment. For example, in an embodiment, after the binaural pairing is successful, a feedback message indicating that it is in a binaural pairing successful state may be fed back to the second earphone box by the second earphone, and the second earphone box sends the feedback message to the first earphone box.

Further, in an embodiment, before the step S60, the method further includes:

Step S70, when receiving a feedback message sent by the first earphone and indicating that the first earphone has entered a pairing mode, sending an earphone state query message to the first earphone, so that the first earphone feeds back a message for indicating whether the first earphone is in a double-ear pairing success state to the first earphone box;

In this embodiment, after the first earphone enters the pairing mode according to the binaural pairing message, a feedback message indicating that the first earphone has entered the pairing mode may be transmitted to the first earphone box. After receiving the feedback message sent by the first earphone, the first earphone box may send an earphone state query message to the first earphone to query the state of the first earphone.

After receiving the earphone state query message, the first earphone may feed back a message indicating whether the first earphone is in a binaural pairing successful state to the first earphone box. In a specific embodiment, the first earphone may send a message to the first earphone box after the binaural pairing is successful, where the sent message indicates that the first earphone is in a binaural pairing successful state, or the first earphone may also send a current state back to the first earphone box after receiving the earphone state query message, where the current state may be that the first earphone is in a binaural pairing successful state or may not be in a binaural pairing successful state.

Step S80, sending an earphone status query message to the second earphone box, so that the second earphone box sends an earphone status query message to the second earphone, and sending a message for indicating whether the second earphone is in a binaural pairing successful state to the first earphone box.

The first earphone box may send an earphone status query message to the second earphone box based on the communication connection with the second earphone box, where the earphone status query message is a message for indicating the second earphone box to query the earphone status of the second earphone, and the specific message content may be different from the content of the earphone status query message sent by the first earphone box to the first earphone. After receiving the earphone state query message sent by the first earphone box, the second earphone box sends an earphone state query message to the second earphone, where the earphone state query message is a message for indicating the second earphone to feed back the earphone state of the second earphone, and the specific message content may be different from the content of the earphone state query message sent by the first earphone box to the first earphone. After receiving the earphone state query message, the second earphone may feed back a message indicating whether the second earphone is in a binaural pairing successful state to the second earphone box. In a specific embodiment, the second earphone may send a message to the second earphone box after the binaural pairing is successful, where the sent message indicates that the second earphone is in a binaural pairing successful state, or the second earphone may also send a current state back to the second earphone box after receiving the earphone state query message, where the current state may be that the second earphone is in a binaural pairing successful state, or may not be in a binaural pairing successful state. The second earphone box can determine whether the second earphone is in the binaural pairing successful state according to the information fed back by the second earphone box, and the second earphone box can further feed back to the first earphone box, specifically, can send the information for indicating whether the second earphone is in the binaural pairing successful state to the first earphone box.

The first earphone box can determine whether the first earphone and the second earphone are in a double-ear pairing successful state according to the information fed back by the first earphone and the second earphone box, and when the two earphones are determined to be in the double-ear pairing successful state, the first earphone box can output second prompt information.

Further, based on the first and/or second embodiments, a third embodiment of the earphone pairing method according to the present invention is provided, where in this embodiment, the method further includes:

Step A10, if the first earphone box is in a box state when detecting a device pairing operation request, detecting whether the first earphone in the first earphone box is in a binaural connection state;

When the first earphone box detects the device pairing operation request to determine that the first earphone box is in the box state, it may be detected whether the first earphone in the first earphone box is in the binaural connection state. In a specific embodiment, the device pairing operation request may be received by the first earphone box from the user device connected to the first earphone box in a communication manner, or may be triggered by the user operating the first earphone box, for example, by pressing a physical key in the first earphone box for a long time, which in this embodiment does not limit the triggering manner of the device pairing operation request. The device pairing operation request is a request for instructing the first earphone box to control the first earphone in the first earphone box to make a communication connection with the user device. The user device may be a mobile phone, a headset device, a computer, or other devices, which is not limited in this embodiment. The binaural connection state refers to a state in which two headphones establish a communication connection.

In a specific embodiment, the first earphone box may detect whether the first earphone box is in the earphone in-box state after detecting the device pairing operation request, or may detect whether the device pairing operation request exists when detecting that the first earphone box is in the earphone in-box state.

In a specific embodiment, the first earphone box detecting whether the first earphone is in the binaural connection state may be that the first earphone sends information indicating the current state thereof to the first earphone box, so that the first earphone box knows whether the first earphone is in the binaural connection state.

Step A20, if the first earphone is not in the binaural connection state, a first equipment pairing message is sent to the first earphone so that the first earphone can be paired with user equipment;

If it is determined that the first headphone is not in the binaural connection state, the first headphone box may transmit a device pairing message (hereinafter referred to as a first device pairing message to show distinction) to the first headphone. The first device pairing message is a message for indicating that the first earphone starts a pairing mode to pair with the user device.

After receiving the device pairing message, the first earphone can start a pairing mode so as to pair with the user device. In a specific embodiment, the first earphone may use the device closest to the searched device as the user device, and pair with the user device; the device information of the first earphone can be selected from the paired earphones searched when the user equipment starts the pairing mode, so that the user equipment actively sends a pairing request to the first earphone, and the first earphone is paired with the user equipment according to the pairing request sent by the user equipment.

It should be noted that, the first earphone not being in the binaural connection state may be an earphone that has not been successfully paired, or may be an earphone that has been successfully paired but is in the sleep mode or is spaced from the first earphone by a distance exceeding the communication distance range.

In a specific embodiment, the earphone may be configured to disconnect communication with other devices (headphones or user equipment) and enter a sleep mode when the detachable earphone box is placed, and when the first earphone box detects a device pairing operation request and determines that the first earphone box is in a box state, the first earphone may be awakened first, and then whether the first earphone is in a binaural connection state is determined.

Further, in a specific embodiment, the first earphone may directly establish communication connection with the user equipment after being paired with the user equipment successfully, or may establish communication connection with the user equipment after receiving the indication message sent by the first earphone box, or may establish communication connection with the user equipment after receiving the connection request sent by the user equipment.

Further, in an embodiment, after the first earphone establishes a connection with the user equipment, if another earphone that is successfully paired with the first earphone is awakened from the sleep mode or enters a communication distance range with the first earphone, the first earphone and the second earphone may be connected back based on the paired information.

And step A30, if the first earphone is in the binaural connection state, sending a second device pairing message to the first earphone so that the first earphone and a pair of ears establishing binaural connection with the first earphone can be paired with the user device by the master earphone after determining the master earphone.

If it is determined that the first headphone is in the binaural connection state, the first headphone box may transmit a device pairing message (hereinafter referred to as a second device pairing message to show distinction) to the first headphone. The second device pairing message is a message for indicating that the first earphone and the pair of ears with which the binaural connection is established are paired with the user device by the master earphone after the master earphone is determined.

In an embodiment, when the first earphone is in binaural connection with the other earphone, if the first earphone is the master earphone, the first earphone may start the pairing mode to pair with the user device, and if the other earphone is the master earphone, the first earphone may send an instruction to the other earphone, so that the other earphone starts the pairing mode to pair with the user device.

In another embodiment, when the first earphone is connected to the other earphone in a binaural manner, if the first earphone is the master earphone, the first earphone may start the pairing mode to pair with the user device, and if the other earphone is the master earphone, the first earphone and the other earphone may negotiate to determine that the first earphone is the master earphone, and then the first earphone starts the pairing mode to pair with the user device.

Further, in an embodiment, the method further comprises:

step A40, detecting whether the first earphone box and the second earphone box are in communication connection or not when the pairing operation triggered by the user is detected through the pairing operation module;

The first earphone box may be provided with a pairing operation module, where the pairing operation module is configured to detect whether a user triggers a pairing operation, and determine whether to trigger a binaural pairing operation request or an equipment pairing operation request based on the pairing operation based on a connection condition of the first earphone box and the second earphone box.

Specifically, when a pairing operation triggered by the user is detected by the pairing operation module, the first earphone box may detect whether it is communicatively connected with the second earphone box, for example, whether it establishes a communication connection with the second earphone box through contact between physical contact points.

Step A50, triggering the binaural pairing operation request if the first earphone box is determined to be in communication connection with the second earphone box;

If the first earphone box determines that the first earphone box is in communication connection with the second earphone box, the user can consider that the intention of triggering the pairing operation is to pair the first earphone box with the earphones in the second earphone box, at this time, the first earphone box can trigger the binaural pairing operation, so that the first earphone box indicates that the two earphones are paired when detecting that the first earphone and the second earphone are both in the corresponding earphone boxes, and the user is helped to complete the earphone pairing operation. In a specific application scenario, when two earphones are needed to be used as a pair, the two earphones are respectively placed into the corresponding separable earphone boxes, physical contact points of the two separable earphone boxes are contacted, and then pairing operation is triggered on the first earphone box, so that the pairing operation module can detect the pairing operation, and further the first earphone box executes a procedure of binaural pairing.

And step A60, triggering the equipment pairing operation request if the first earphone box and the second earphone box are not established to be in communication connection.

If it is determined that the first earphone box and the second earphone box do not establish communication connection, the user may consider that the intention of triggering the pairing operation is to pair the earphone in the first earphone box with the user device alone or pair the earphone in the first earphone box with the user device when the earphone in the first earphone box is in a binaural connection state, at this time, the first earphone box may trigger a device pairing operation request, so that the first earphone box controls the first earphone to pair with the user device when detecting that the first earphone is in the box, or pairs the first earphone and the main earphone in the connection object thereof with the user device. In a specific application scenario, when a user needs to use one earphone independently, the earphone is put into a separable earphone box, and then pairing operation is triggered on a first earphone box, so that a pairing operation module can detect the pairing operation, and further the first earphone box executes a process of controlling the earphone to be paired with user equipment; or when the user needs to use a pair of connected earphones, one earphone can be put into the separable earphone box, and then the pairing operation is triggered on the first earphone box, so that the pairing operation module can detect the pairing operation, and further the first earphone box executes a process of controlling the main earphone of the two earphones to be paired with the user equipment.

Further, in one embodiment, the user may bind two detachable charging cartridges and the headset on both sides of the VR, or may combine the two detachable charging cartridges together.

1. The main charging box is provided with a physical key for a user to operate the earphone to enter a pairing mode or restore factory setting;

2. The bottom of the two charging boxes are provided with physical contact points for synchronizing information when the two charging boxes are combined together.

3. There is a physical contact between the two charging cartridges and the headset, which can be used for communication between the headset and the charging cartridges when the headset is in the cartridge.

When the detachable charging cartridges are combined together, the method of operating the earphone to restore factory settings and to perform binaural pairing may be as shown in fig. 2:

The double ears are in box state, the two charging boxes are combined together, and the key of the main charging box is pressed for a long time. The main charging box recognizes the long-press action, the information is synchronized to the slave charging box through the communication of the charging box, the master and slave charging boxes respectively send the messages for restoring the factory setting to the left ear and the right ear, after the left ear and the right ear receive the messages, the messages return to the charging box, and if the ears receive the correct ACK, the LED indicator lamp indicates the state of restoring the factory setting and successful pairing of the ears.

When the detachable charging box is in the detached state, the main charging box is operated, the earphone enters a pairing mode and can be paired with the mobile phone or VR, as shown in FIG. 3:

according to the design thought of the detachable charging box, after the earphone is put into the box, the two ears are disconnected and enter into a sleep mode. The user presses the key of the main charging box for a long time, the charging box wakes up the earphone in dormancy through a physical contact point, and detects that the pair of ears is in a disconnected state, and then the earphone enters a pairing mode. The user can operate the VR and earphone pair, and when the user takes out the ears and uses, the ears all exit the sleep mode, automatically connect back, then connect the VR. If the earphone detects that the pair ear is in a non-disconnected state and the earphone is a slave ear, the master-slave switch is performed to switch the earphone into a master ear, and the pair mode is entered to be paired with the mobile phone VR and other devices.

In addition, the embodiment of the invention further provides an earphone pairing device, and in this embodiment, the earphone pairing device may be the first earphone box in the above embodiment. The first earphone box may comprise a structural shell, a main control module, a memory and the like. The main control module can comprise a microprocessor, an audio decoding unit, a power supply and power supply management unit, sensors and other active or passive devices required by the system and the like (can be replaced, deleted or added according to actual functions) so as to realize the functions of receiving and playing wireless audio. The memory of the earphone box may store an earphone pairing program, and the microprocessor may be configured to call the earphone pairing program stored in the memory and perform the following operations:

if a binaural pairing operation request is detected when the first earphone box is in communication connection with the second earphone box, detecting whether the first earphone box is in a box state;

If the first earphone box is detected to be in the box state, and the second earphone box is determined to be in the box state through communication connection with the second earphone box, sending a double-ear pairing message to a first earphone in the first earphone box so that the first earphone can be paired with a second earphone in the second earphone box based on the double-ear pairing message.

Further, after detecting whether the first earphone box is in the earphone in-box state if the binaural pairing operation request is detected when the first earphone box is in communication connection with the second earphone box, the microprocessor may be further configured to invoke an earphone pairing program stored in the memory to perform the following operations:

If the first earphone box is detected to be in the earphone in-box state, the binaural pairing operation request is forwarded to the second earphone box, so that the second earphone box can detect whether the second earphone box is in the earphone in-box state according to the binaural pairing operation request and returns a detection result.

Further, after the operation of detecting whether the first earphone box is in the earphone-in-box state, the microprocessor may be further configured to invoke an earphone pairing program stored in the memory to perform the following operations:

if the first earphone box is detected not to be in the box state, outputting first prompt information for indicating that the double-ear pairing is failed;

If the first earphone box is detected to be in the box state, the binaural pairing operation request is forwarded to the second earphone box, so that the second earphone box can detect whether the second earphone box is in the box state according to the binaural pairing operation request and returns the detection result, and the microprocessor can be further used for calling an earphone pairing program stored in the memory to execute the following operations:

and if the second earphone box is not in the box state based on the detection result, outputting the first prompt information.

Further, after the operation of sending the binaural pairing message to the first earphone in the first earphone box if the first earphone box is detected to be in the box state and the second earphone box is determined to be in the box state through the communication connection with the second earphone box, the microprocessor may be further configured to call an earphone pairing program stored in the memory to perform the following operations:

If the first earphone is detected to be in the binaural pairing successful state and the second earphone is determined to be in the binaural pairing successful state through the communication connection with the second earphone box, outputting second prompt information for indicating that binaural pairing is successful.

Further, if the first earphone is detected to be in the binaural pairing successful state, and the second earphone is determined to be in the binaural pairing successful state through the communication connection with the second earphone box, before the operation of outputting the second prompt information for indicating that the binaural pairing is successful, the microprocessor may be further configured to invoke an earphone pairing program stored in the memory, to perform the following operations:

When receiving a feedback message sent by the first earphone and indicating that the first earphone has entered a pairing mode, sending an earphone state query message to the first earphone, so that the first earphone feeds back a message for indicating whether the first earphone is in a double-ear pairing success state to the first earphone box;

And sending an earphone state query message to the second earphone box so that the second earphone box can send the earphone state query message to the second earphone and send a message for indicating whether the second earphone is in a double-ear pairing successful state to the first earphone box.

Further, the microprocessor may be further configured to invoke a headset pairing program stored in the memory, to perform the following operations:

If the first earphone box is in a box state when the equipment pairing operation request is detected, detecting whether the first earphone in the first earphone box is in a double-ear connection state;

if the first earphone is not in the binaural connection state, a first equipment pairing message is sent to the first earphone so that the first earphone can be paired with user equipment;

And if the first earphone is in the binaural connection state, sending a second equipment pairing message to the first earphone so that the first earphone and a pair of ears establishing binaural connection with the first earphone can be paired with the user equipment by the main earphone after determining the main earphone.

Further, the first earphone box is provided with a pairing operation module, and the microprocessor can also be used for calling an earphone pairing program stored in the memory to execute the following operations:

Detecting whether the first earphone box is in communication connection with the second earphone box or not when a pairing operation triggered by a user is detected through the pairing operation module;

triggering the binaural pairing operation request if the first earphone box is determined to be in communication connection with the second earphone box;

And if the first earphone box and the second earphone box are not established to be in communication connection, triggering the equipment pairing operation request.

Further, if it is detected that the first earphone box is in the earphone-in-box state, and it is determined that the second earphone box is in the earphone-in-box state through the communication connection with the second earphone box, the operation of sending the binaural pairing message to the first earphone in the first earphone box includes:

If the first earphone box is detected to be in the box state, and the second earphone box is determined to be in the box state through the communication connection with the second earphone box, receiving the pairing address information of the second earphone sent by the second earphone box;

and sending the pairing address information carried in the double-ear pairing message to the first earphone so as to pair the first earphone with the second earphone based on the pairing address information.

In addition, the embodiment of the invention also provides a computer readable storage medium, wherein the storage medium stores a headset pairing program, and the headset pairing program realizes the steps of the headset pairing method when being executed by a processor.

Embodiments of the headset pairing device and the computer readable storage medium of the present invention may refer to embodiments of the headset pairing method of the present invention, and will not be described herein.

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 phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The foregoing embodiment numbers of the present invention are merely for the purpose of description, and do not represent the advantages or disadvantages of the embodiments.

From the above description of the embodiments, it will be clear to those skilled in the art that the above-described embodiment method may be implemented by means of software plus a necessary general hardware platform, but of course may also be implemented by means of hardware, but in many cases the former is a preferred embodiment. Based on such understanding, the technical solution of the present invention may be embodied essentially or in a part contributing to the prior art in the form of a software product stored in a storage medium (e.g. ROM/RAM, magnetic disk, optical disk) comprising instructions for causing a terminal device (which may be a mobile phone, a computer, a server, an air conditioner, or a network device, etc.) to perform the method according to the embodiments of the present invention.

The foregoing description is only of the preferred embodiments of the present invention, and is not intended to limit the scope of the invention, but rather is intended to cover any equivalents of the structures or equivalent processes disclosed herein or in the alternative, which may be employed directly or indirectly in other related arts.

Claims (10)

1. A headset pairing method, the method being applied to a first headset case, the method comprising the steps of:

if a binaural pairing operation request is detected when the first earphone box is in communication connection with the second earphone box, detecting whether the first earphone box is in a box state;

If the first earphone box is detected to be in the box state, and the second earphone box is determined to be in the box state through communication connection with the second earphone box, sending a double-ear pairing message to a first earphone in the first earphone box so that the first earphone can be paired with a second earphone in the second earphone box based on the double-ear pairing message.

2. The headphone pairing method according to claim 1, wherein the step of detecting whether the first headphone box is in a headphone-in-box state if a binaural pairing operation request is detected while being communicatively connected with the second headphone box, further comprises:

If the first earphone box is detected to be in the earphone in-box state, the binaural pairing operation request is forwarded to the second earphone box, so that the second earphone box can detect whether the second earphone box is in the earphone in-box state according to the binaural pairing operation request and returns a detection result.

3. The headset pairing method of claim 2, wherein the step of detecting whether the first headset box is in a headset-in-box state further comprises:

if the first earphone box is detected not to be in the box state, outputting first prompt information for indicating that the double-ear pairing is failed;

If the first earphone box is detected to be in the box state, the binaural pairing operation request is forwarded to the second earphone box, so that the second earphone box detects whether the second earphone box is in the box state according to the binaural pairing operation request and returns a detection result, and then the method further comprises the following steps:

and if the second earphone box is not in the box state based on the detection result, outputting the first prompt information.

4. The headset pairing method of claim 1, wherein the step of sending a binaural pairing message to a first headset of the first headset if the first headset is detected to be in the headset-in-box state and the second headset is determined to be in the headset-in-box state through the communication connection with the second headset, further comprises:

If the first earphone is detected to be in the binaural pairing successful state and the second earphone is determined to be in the binaural pairing successful state through the communication connection with the second earphone box, outputting second prompt information for indicating that binaural pairing is successful.

5. The method of pairing headphones as recited in claim 4, wherein if it is detected that the first headphone is in a binaural pairing successful state and it is determined that the second headphone is in a binaural pairing successful state through the communication connection with the second headphone box, before the step of outputting second prompt information indicating that binaural pairing is successful, further comprising:

When receiving a feedback message sent by the first earphone and indicating that the first earphone has entered a pairing mode, sending an earphone state query message to the first earphone, so that the first earphone feeds back a message for indicating whether the first earphone is in a double-ear pairing success state to the first earphone box;

And sending an earphone state query message to the second earphone box so that the second earphone box can send the earphone state query message to the second earphone and send a message for indicating whether the second earphone is in a double-ear pairing successful state to the first earphone box.

6. The headset pairing method of claim 1, wherein the method further comprises:

If the first earphone box is in a box state when the equipment pairing operation request is detected, detecting whether the first earphone in the first earphone box is in a double-ear connection state;

if the first earphone is not in the binaural connection state, a first equipment pairing message is sent to the first earphone so that the first earphone can be paired with user equipment;

And if the first earphone is in the binaural connection state, sending a second equipment pairing message to the first earphone so that the first earphone and a pair of ears establishing binaural connection with the first earphone can be paired with the user equipment by the main earphone after determining the main earphone.

7. The headphone pairing method according to claim 6, wherein a pairing operation module is provided in the first headphone case, the method further comprising:

Detecting whether the first earphone box is in communication connection with the second earphone box or not when a pairing operation triggered by a user is detected through the pairing operation module;

triggering the binaural pairing operation request if the first earphone box is determined to be in communication connection with the second earphone box;

And if the first earphone box and the second earphone box are not established to be in communication connection, triggering the equipment pairing operation request.

8. The headphone pairing method according to any one of claims 1 to 7, wherein the step of transmitting a binaural pairing message to a first headphone of the first headphone set if it is detected that the first headphone set is in a box state, and it is determined that the second headphone set is in a box state through the communication connection with the second headphone set, comprises:

If the first earphone box is detected to be in the box state, and the second earphone box is determined to be in the box state through the communication connection with the second earphone box, receiving the pairing address information of the second earphone sent by the second earphone box;

and sending the pairing address information carried in the double-ear pairing message to the first earphone so as to pair the first earphone with the second earphone based on the pairing address information.

9. A headset pairing device, the headset pairing device comprising: memory, a processor and a headset pairing program stored on the memory and executable on the processor, which headset pairing program, when executed by the processor, implements the steps of the headset pairing method according to any one of claims 1 to 8.

10. A computer-readable storage medium, characterized in that the computer-readable storage medium has stored thereon a headset pairing program, which when executed by a processor, implements the steps of the headset pairing method according to any one of claims 1 to 8.