CN113467102A - Glasses leg equipment, control method and device of wireless earphone glasses and wireless earphone - Google Patents

Abstract

The invention discloses a glasses leg device, a control method and a control device of wireless earphone glasses and a wireless earphone, wherein the glasses leg device comprises a wireless earphone component and also comprises: the contact connector is used for being in contact connection with a matched contact connector in matched glasses leg equipment when the glasses leg equipment and the matched glasses leg equipment connected to the glasses frame component are rotated and folded, so that the glasses leg equipment and the matched glasses leg equipment can transmit communication signals or communication signals and electric energy through the contact connector; wherein the mating contact connector is a contact connector in a mating temple device; according to the wireless earphone, the contact connector in the glasses leg equipment is arranged, so that the two glasses leg equipment in the wireless earphone glasses can be in wired communication through the contact connector when the two glasses leg equipment are rotated and folded, the wireless earphone in the glasses leg form can be conveniently and quickly in wireless pairing connection without using a glasses storage box, and the user experience is improved.

Description

Glasses leg equipment, control method and device of wireless earphone glasses and wireless earphone

Technical Field

The invention relates to the technical field of wireless earphones, in particular to a glasses leg device, a control method and a control device of wireless earphone glasses and a wireless earphone.

Background

At present, the traditional pairing between the wireless earphone and the Host device (Host) often uses a charging box; pairing between two earphones, such as a TWS (True Wireless Stereo) earphone, requires that the pairing between the two earphones be completed by placing the TWS earphone into a charging box, the user operating the charging box, and communication between the charging box and the earphones.

And to the wireless earphone of earpiece form, because traditional glasses are exclusive use usually, the user need not to hand-carry glasses receiver for it is difficult to adopt the wireless connection of pairing between two earpieces of traditional mode of charging box assistance to accomplish. Therefore, how can be under the condition that does not utilize the glasses receiver, make the wireless earphone of glasses leg form can convenient and fast carry out wireless pairing connection, improve user experience, be the problem that needs to solve now urgently.

Disclosure of Invention

The invention aims to provide glasses leg equipment, a control method and a control device of wireless earphone glasses and a wireless earphone, so that the wireless earphone in the form of glasses legs can be conveniently and quickly connected in a wireless pairing mode without using a glasses storage box, and user experience is improved.

In order to solve the above technical problem, the present invention provides a temple device, including a wireless earphone assembly, further including:

the contact connector is used for being in contact connection with a matched contact connector in the matched glasses leg equipment when the glasses leg equipment and the matched glasses leg equipment which are connected on the glasses frame component are rotated and folded, so that the glasses leg equipment and the matched glasses leg equipment can carry out communication signals or the communication signals and electric energy transmission through the contact connector; wherein the mating contact connector is a contact connector in the mating temple apparatus.

Optionally, the temple apparatus further comprises:

a contact detection sensor for detecting whether or not the contact connector and the counterpart contact connector are in sufficient contact.

The invention also provides a control method of the wireless earphone glasses, which is applied to the above glasses leg equipment and comprises the following steps:

detecting whether the glasses are connected with the matched glasses leg equipment through the contact connector;

and if so, wirelessly pairing and connecting with the pairing glasses leg equipment by using the contact connector.

Optionally, before the wirelessly pairing and connecting with the paired temple devices by using the contact connector, the method further includes:

acquiring wireless communication information of the paired temple devices through the contact connector;

judging whether the wireless pairing connection with the paired glasses leg equipment is performed or not according to the wireless communication information;

and if the wireless pairing connection with the pairing glasses leg equipment is not carried out, the step of utilizing the contact connector to carry out the wireless pairing connection with the pairing glasses leg equipment is carried out.

Optionally, the acquiring, by the contact connector, the wireless communication information of the paired temple devices includes:

judging whether the glasses leg equipment is TWS main equipment or not;

if the TWS master equipment is the TWS master equipment, sending a Bluetooth state inquiry frame to the paired glasses leg equipment through the contact connector, and receiving the Bluetooth state frame sent by the paired glasses leg equipment through the contact connector; wherein the wireless communication information is the Bluetooth status frame.

Optionally, before the wirelessly pairing and connecting with the paired temple devices by using the contact connector, the method further includes:

judging whether the wireless connection with the host equipment is available;

if the wireless connection with the host equipment is achieved, the wireless connection with the host equipment is disconnected, and the step of utilizing the contact connector to achieve wireless pairing connection with the paired glasses leg equipment is carried out;

and if the wireless connection with the host equipment is not realized, executing the step of utilizing the contact connector to perform wireless pairing connection with the paired glasses leg equipment.

Optionally, after the wireless pairing connection with the paired temple device by using the contact connector, the method further includes:

judging whether the glasses leg equipment is in a charging state or not;

if not, entering a dormant state.

Optionally, the method further includes:

and when the connection with the paired glasses leg equipment is disconnected through the contact connector, wirelessly connecting the paired glasses leg equipment and the host equipment.

The invention also provides a control device of wireless earphone glasses, which is applied to the above glasses leg equipment and comprises:

the contact detection module is used for detecting whether the contact detection module is connected with the matched glasses leg equipment through the contact connector;

and the pairing connection module is used for wirelessly pairing and connecting with the pairing glasses leg equipment by using the contact connector if the pairing connection module is connected with the pairing glasses leg equipment through the contact connector.

In addition, the present invention also provides a wireless headset, comprising: a first temple apparatus and a second temple apparatus; wherein the first temple apparatus and the second temple apparatus are each a temple apparatus as described above.

The invention provides a temple device, which comprises a wireless earphone component and further comprises: the contact connector is used for being in contact connection with a matched contact connector in matched glasses leg equipment when the glasses leg equipment and the matched glasses leg equipment connected to the glasses frame component are rotated and folded, so that the glasses leg equipment and the matched glasses leg equipment can transmit communication signals or communication signals and electric energy through the contact connector; wherein the mating contact connector is a contact connector in a mating temple device;

therefore, through the arrangement of the contact connectors in the glasses leg equipment, the two pieces of glasses leg equipment in the wireless earphone glasses can be in wired communication through the contact connectors when the two pieces of glasses leg equipment are rotated and folded, so that the wireless earphones in the form of glasses legs can be conveniently and quickly in wireless pairing connection without using a glasses storage box, and the user experience is improved. In addition, the invention also provides a control method and device of the wireless earphone glasses and the wireless earphone, and the wireless earphone glasses also have the beneficial effects.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

FIG. 1 is a schematic structural view of a temple apparatus according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a pair of wireless headset eyeglasses according to an embodiment of the present invention;

fig. 3 is a schematic diagram illustrating a Pogo Pin connection for folding the temple of another pair of wireless headset eyeglasses according to an embodiment of the present invention;

FIG. 4 is a schematic structural view of another temple apparatus provided in accordance with an embodiment of the present invention;

fig. 5 is a flowchart illustrating a method for controlling wireless headset glasses according to an embodiment of the present invention;

fig. 6 is a flowchart of another method for controlling wireless headset eyeglasses according to an embodiment of the present invention;

fig. 7 is a schematic flowchart of another method for controlling wireless headset eyeglasses according to an embodiment of the present invention;

fig. 8 is a schematic diagram illustrating an automatic shutdown process of another method for controlling wireless headset glasses according to an embodiment of the present invention;

fig. 9 is a block diagram of a control device of wireless headset glasses according to an embodiment of the present invention.

Detailed Description

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

Referring to fig. 1, fig. 1 is a schematic structural diagram of a temple apparatus according to an embodiment of the present invention; the temple apparatus 10 includes a wireless headset assembly, and may further include:

a contact connector 20 for contacting with a counterpart contact connector 50 in a counterpart temple device 40 when the temple device 10 and the counterpart temple device 40 connected to the frame member 30 are rotatably folded, so that the temple device 10 performs communication signals or transmission of communication signals and electric power with the counterpart temple device 40 through the contact connector 20; wherein the counterpart contact connector 50 is a contact connector in the counterpart temple device 30.

It can be understood that the wireless earphone component in the temple device 10 provided in the present embodiment can implement the function of a wireless earphone, that is, the temple device 10 can be an earphone head in the form of a glasses leg in the wireless earphone; accordingly, the paired temple apparatus 40 may be another temple apparatus that can be paired with the temple apparatus 10 for use. That is, the temple apparatus 10 and the counterpart temple apparatus 40 may each include a wireless headset component (e.g., a wireless communication module, a speaker, etc.) to implement a wireless headset function, i.e., the temple apparatus 10 and the counterpart temple apparatus 40 may be wireless headsets in the form of temples, such as TWS headsets.

Specifically, as shown in fig. 2, the temple device 10 and the counterpart temple device 40 may be wireless earphones (e.g., TWS earphones) in the form of temples wirelessly connected to each other; the temple apparatus 10 and the counterpart temple apparatus 40 can be connected to a frame member 30 (e.g., a normal frame) via respective connection segments 60 to form a wireless headset glasses (e.g., TWS glasses); wherein, the temple device 10 and the pair temple device 40 can be quickly inserted and connected by the corresponding connecting section 60, and the connecting section 60 can be adapted to different types of frame members 30, so as to facilitate the user to replace the frame members 30.

It should be noted that in the present embodiment, by using the arrangement of the contact connector 20 in the temple device 10, when the temple device 10 and the paired temple device 40 connected to the frame member 30 are folded in rotation, the contact connector 20 in the temple device 10 and the paired contact connector 50 in the paired temple device 40 can be connected in contact, and a wired connection between the processors in the temple device 10 and the paired temple device 40 is implemented, so that the processors in the temple device 10 and the paired temple device 40 can perform wired communication, and thus the processors in the temple device 10 and the paired temple device 40 can perform information interaction by using wired communication, and complete a wireless paired connection, such as a TWS paired connection.

Specifically, the processor in the temple device 10 in the present embodiment may be used to perform wired communication with the counterpart temple device 40 connected to the contact connector 20. The embodiment does not limit the specific type of the processor in the temple device 10, for example, the processor in the temple device 10 may be a processing device (such as a single chip) in a wireless headset assembly, that is, the processor in the temple device 10 may also implement a wireless headset function; the processor in the temple apparatus 10 may also be a processing apparatus separately provided for realizing wired communication with the counterpart temple apparatus 40 connected to the contact connector 20, which is not limited in any way by the present embodiment.

Correspondingly, the temple device 10 and the paired temple device 40 in the present embodiment may be a pair of temples (i.e., left side temples and right side temples) that can be connected with the frame member 30 to constitute wireless headset glasses. That is, when the temple apparatus 10 is a left temple, the pairing temple apparatus 40 may be a right temple; when the temple device 10 is a right temple, the pairing temple device 40 may be a left temple.

Specifically, the present embodiment does not limit the specific connector types of the contact connector 20 in the temple apparatus 10 and the counterpart contact connector 50 in the counterpart temple apparatus 40, such as the contact connector 20 and the counterpart contact connector 50 may be specifically Pogo Pin (a precision connector applied in electronic products); such as contact connector 20 and mating contact connector 50, may each be a Pogo Pin comprising two Pogo Pin posts (e.g. L1 and L2 or R1 and R2 in fig. 3) such that after rotational folding of the temple piece 10 and mating temple piece 40 connected to the frame member 30, the two Pogo Pin posts of Pogo pins in the temple piece 10 and mating temple piece 40 are in contact connection, e.g. L1 to R1 and L2 to R2 in fig. 3. The contact connector 20 and the counterpart contact connector 50 may also be embodied as other types of connectors, as long as it is ensured that after the temple device 10 and the counterpart temple device 40 connected to the frame member 30 are rotated and folded, the contact connector 20 and the counterpart contact connector 50 can be in contact connection, and wired communication between the processors in the temple device 10 and the counterpart temple device 40 is realized, which is not limited in this embodiment.

Also, the present embodiment does not limit the specific arrangement positions of the contact connector 20 in the temple apparatus 10 and the counterpart contact connector 50 in the counterpart temple apparatus 40, and as shown in fig. 1, both the contact connector 20 and the counterpart contact connector 50 may be arranged at the middle of the temple; as shown in fig. 4, the counterpart contact connector 50 in the counterpart temple device 40 may be disposed at a position close to the connection site with the frame member 30, and the contact connector 20 in the temple device 10 may be disposed at a position far from the connection site with the frame member 30; the present embodiment does not limit the contact connector 20 and the counterpart contact connector 50 in any way as long as it is ensured that the user can contact and connect after rotating the folding temple apparatus 10 and the counterpart temple apparatus 40 when not wearing the wireless headset glasses.

It should be noted that the contact connector 20 in the lens-leg device 10 in the present embodiment can be used not only for transmitting communication signals, but also for transmitting power; that is, the contact connection between the contact connector 20 in the temple apparatus 10 and the counterpart contact connector 50 in the counterpart temple apparatus 40 in the present embodiment enables not only the wired communication of the processors in the temple apparatus 10 and the counterpart temple apparatus 40 but also the power transfer between the temple apparatus 10 and the counterpart temple apparatus 40.

That is, the contact connector 20 in the temple apparatus 10 in the present embodiment may also be used to transfer the electric power output from the temple apparatus 10 to the counterpart temple apparatus 40 to charge the counterpart temple apparatus 40 when the temple apparatus 10 and the counterpart temple apparatus 40 connected on the frame member 30 are rotationally folded (i.e., the contact connector 20 of the temple apparatus 10 is contact-connected with the counterpart contact connector 50 of the counterpart temple apparatus 40); for example, the processor in the temple device 10 may output power inputted from the charging port in the temple device 10 or power of the battery in the temple device 10 to the counterpart temple device 40 through the contact connector 20 when the temple device 10 and the counterpart temple device 40 are rotatably folded, to charge the counterpart temple device 40. Accordingly, the contact connector 20 in the temple device 10 in the present embodiment may also be used to receive power output from the paired temple device 40 when the temple device 10 and the paired temple device 40 connected to the frame member 30 are folded in rotation, and to charge the battery of the temple device 10; that is, when the temple device 10 and the counterpart temple device 40 connected to the frame member 30 in this embodiment are folded and rotated, the counterpart temple device 40 may transmit power of its own battery or charging port to the temple device 10 through contact connection of the counterpart contact connector 50 and the contact connector 20, thereby charging the temple device 10.

Correspondingly, in this embodiment, a charging port (e.g., a USB interface) may be provided on the temple device 10, and the paired temple device 40 may not be provided with the charging port, that is, the power input by the charging port on the temple device 10 may be used to charge the temple device 10, but also may be used to charge the paired temple device 40, for example, when the temple device 10 and the paired temple device 40 are folded and rotated, the processor in the temple device 10 may output the power input by the charging port to the paired temple device 40 through the contact connector 20, so as to charge the paired temple device 40; that is, when the temple apparatus 10 and the counterpart temple apparatus 40 are rotatably folded, the processor in the temple apparatus 10 may control the corresponding charging circuit to charge the temple apparatus 10 and/or the counterpart temple apparatus 40 with the power input from the charging port. In this embodiment, the temple device 10 and the paired temple device 40 may also be both provided with a charging port, that is, when the temple device 10 and the paired temple device 40 are folded rotationally, the processors in the temple device 10 and the paired temple device 40 may both output the electric power input from their charging ports to another temple device (the temple device 10 or the paired temple device 40) through the contact connection between the contact connector 20 and the paired contact connector 50, and charge the other temple device, thereby realizing one-side charging of the temple device 10 and the paired temple device 40.

Further, in order to ensure that the contact connector 20 and the counterpart contact connector 50 can be sufficiently contacted when the temple apparatus 10 and the counterpart temple apparatus 40 are rotatably folded to ensure stability of communication signal transmission or power transmission between the temple apparatus 10 and the counterpart temple apparatus 40, the temple apparatus 10 in this embodiment may include a magnetic member, such as a magnet, disposed at a position corresponding to the contact connector 20; accordingly, a magnet disposed at a corresponding position of the counterpart contact connector 50 may be included in the counterpart temple apparatus 40, so that when the temple apparatus 10 and the counterpart temple apparatus 40 are rotatably folded, the attractive force between the magnetic attraction part of the temple apparatus 10 and the magnet of the counterpart temple apparatus 40 can make the contact connector 20 and the counterpart contact connector 50 sufficiently contact, ensuring stability of communication signal transmission or power transmission between the contact connector 20 and the counterpart contact connector 50.

Specifically, the present embodiment does not limit the specific types of the magnet and the magnetic attraction component, for example, the magnetic attraction component may be a magnet or a magnetically attractive metal; for example, the magnetically attracting means in the temple apparatus 10 may be a magnet disposed under the contact connector 40, and the magnet in the counterpart temple apparatus 40 may be a magnet disposed under the counterpart contact connector 50, so that when the temple apparatus 10 and the temple apparatus 40 are rotated and folded, the attraction force generated by the magnets in the temple apparatus 10 and the counterpart temple apparatus 40 ensures accurate and sufficient attraction between the contact connector 20 and the counterpart contact connector 50.

Further, the temple apparatus 10 in the present embodiment may be further provided with a contact detection sensor for detecting whether or not the contact connector 20 and the counterpart contact connector 50 are in sufficient contact, that is, detecting a contact connection condition between the contact connector 20 of the temple apparatus 10 and the counterpart contact connector 50 of the counterpart temple apparatus 40, so that the temple apparatus 10 can perform wired communication or charging with the counterpart temple apparatus 40 when the contact connector 20 and the counterpart contact connector 50 are in sufficient contact (that is, the contact connection condition is in a sufficient contact state). Accordingly, the paired temple apparatus 40 may also be provided with a contact detection sensor; that is, the temple apparatus 10 and the paired temple apparatus 40 in the present embodiment may be provided with the touch detection sensors, respectively, or only the temple apparatus 10 may be provided with the touch detection sensors.

Correspondingly, the specific device type of the contact detection sensor may be set by the designer according to the practical situation and the user's requirement, for example, the contact detection sensor may be specifically a dome switch for determining that the contact connector 20 and the counterpart contact connector 50 are in sufficient contact when compressed; if the contact connector 20 is a Pogo Pin, the contact detection sensor may be a dome switch under the Pogo Pin post to determine that the contact connector 20 is in sufficient contact with the Pogo Pin in the counterpart contact connector 50 when the dome switch is compressed. If the temple apparatus 10 includes a magnetically attracting member disposed at a position corresponding to the contact connector 20 and the counterpart temple apparatus 40 includes a magnet disposed at a position corresponding to the counterpart contact connector 50, the contact detecting sensor may also be embodied as a hall switch (e.g., a hall sensor) for determining that the contact connector 20 is sufficiently contacted with the counterpart contact connector 50 when a magnetic flux range corresponding to sufficient contact between the contact connector 20 and the counterpart contact connector 50 is detected. The present embodiment does not impose any limitation as long as the contact detection sensor can detect whether or not the contact connector 20 and the counterpart contact connector 50 are in sufficient contact.

In the embodiment of the invention, through the arrangement of the contact connector 20 in the glasses leg device 10, two glasses leg devices in the wireless headset glasses can perform wired communication through the contact connector 20 when being rotated and folded, so that the wireless headset in the form of glasses legs can be conveniently and rapidly connected in a wireless pairing mode without using a glasses storage box, and the user experience is improved.

Referring to fig. 5, fig. 5 is a flowchart illustrating a method for controlling wireless headset eyeglasses according to an embodiment of the present invention. The method may be applied to the temple apparatus provided in the above embodiment, including:

step 101: detecting whether the glasses are connected with the matched glasses leg equipment through the contact connector; if yes, go to step 102.

The processor in the temple device in this step may detect whether the temple device is connected to the paired temple device through the contact connector, that is, whether the contact connector in the temple device is in contact connection with the paired contact connector in the paired temple device, to determine whether the temple device and the paired temple device connected to the frame component of the wireless headset glasses complete rotational folding, and then determine that the temple device and the paired temple device complete rotational folding, and then proceed to step 102, so as to control the temple device and the paired temple device to complete wireless paired connection by using the contact connector and the paired contact connector.

Specifically, the specific manner in which the processor in the glasses leg device detects whether to connect with the paired glasses leg device through the contact connector in this step can be set by the designer according to the practical scene and the user requirements, and if the processor in the glasses leg device sets the contact detection sensor, the processor in the glasses leg device can determine whether the glasses leg device is connected with the paired glasses leg device through the contact connector according to the information detected by the contact detection sensor; for example, when the contact detection sensor is a hall switch, the processor may determine whether the temple device is connected to the paired temple device through the contact connector according to the magnetic flux detected by the hall switch, that is, whether the magnetic attraction part of the temple device and the magnet in the paired temple device trigger an attraction event. The processor in the temple device may also determine whether the temple device is connected to the paired temple device through the contact connector by detecting whether the information sent by the paired temple device is received through the contact connector, which is not limited in this embodiment.

Correspondingly, for the case that the processor in the glasses leg equipment in the embodiment detects that the glasses leg equipment is not connected with the paired glasses leg equipment through the contact connector, the processor can be set by a designer according to a practical scene and user requirements, and if the processor detects that the glasses leg equipment is not connected with the paired glasses leg equipment through the contact connector, the process can be directly finished; the sleep state may also be ended, for example, when detecting that the contact connection condition of the temple device and the paired temple device through the contact connector is changed from the connection state to the disconnection state, the processor may end the current sleep state to implement automatic power on of the temple device. The present embodiment does not set any limit to this.

Step 102: wirelessly mate with a mating temple device using a contact connector.

It can be understood that, in this step, when detecting that the contact connector in the temple device is in contact connection with the mating contact connector in the mating temple device, the processor in the temple device may perform wired communication between the temple device and the mating temple device by using the connection between the contact connector and the mating contact connector to complete wireless mating connection between the temple device and the mating temple device, so that when a subsequent user uses wireless headset glasses, the temple device and the mating temple device can be connected back to each other quickly and wirelessly, thereby improving user experience.

Correspondingly, before the step, the processor in the temple equipment can also detect whether the temple equipment is in wireless pairing connection with the paired temple equipment; and if the glasses are not in wireless pairing connection with the paired glasses leg equipment, entering the step, and performing wireless pairing connection with the paired glasses leg equipment by using the contact connector. For example, the temple device can acquire wireless communication information (such as Bluetooth state information) of the paired temple device through the contact connector; and judging whether the wireless pairing connection with the paired temple equipment is performed or not according to the wireless communication information of the paired temple equipment.

Specifically, the specific manner of the wireless pairing connection between the processor and the paired temple device by using the contact connector in this step may be set by a designer, for example, when the temple device is a master device (e.g., TWS master device) in the wireless pairing connection, the temple device may first send a pairing request frame to the paired temple device through the contact connector, and after receiving a pairing start frame returned by the paired temple device through the contact connector, enter a normal pairing process; when the temple device is a slave device (e.g., a TWS slave device) connected in a wireless pairing manner, the temple device may enter a normal pairing process and return a pairing start frame to the paired temple device after receiving a pairing request frame sent by the paired temple device through the contact connector.

It can be understood that, since the temple device is connected to the paired temple device through the contact connector, that is, when the temple device and the paired temple device are rotated and folded, the user does not need to continue to use the wireless headset glasses, the temple device may disconnect the wireless connection with the host device (such as a mobile phone or a computer) after the temple device is connected to the paired temple device through the contact connector; if the processor in the temple device can judge whether to be wirelessly connected with the host device before the step; if the wireless connection with the host equipment is achieved, the wireless connection with the host equipment is disconnected, and then the step is carried out, and the contact connector is used for wirelessly pairing and connecting with the matched glasses leg equipment; if the wireless connection with the host equipment is not achieved, the step can be directly carried out, and the contact connector is used for being in wireless pairing connection with the matched glasses leg equipment.

In the embodiment of the invention, the contact connector in the glasses leg equipment is arranged, so that the glasses leg equipment can be in wireless pairing connection with the paired glasses leg equipment by using the contact connector after being connected with the paired glasses leg equipment by using the contact connector, and therefore, the wireless earphones in the form of glasses legs can be in wireless pairing connection conveniently and quickly without using a glasses storage box, and the user experience is improved.

Referring to fig. 6, fig. 6 is a flowchart illustrating another method for controlling wireless headset eyeglasses according to an embodiment of the present invention. The method may be applied to the temple apparatus provided in the above embodiment, including:

step 201: detecting whether the glasses are connected with the matched glasses leg equipment through the contact connector; if yes, go to step 202.

Specifically, when the processor in the temple device in this step detects that the temple device is not connected to the paired temple device through the contact connector, this process may be directly ended; for example, after the glasses leg equipment is started, a processor in the glasses leg equipment detects whether the glasses leg equipment is connected with the matched glasses leg equipment through a contact connector according to a preset time interval; if yes, go to step 202; if not, the process can be directly ended, and whether the device is connected with the matched glasses leg device through the contact connector or not is detected next time.

Step 202: judging whether the wireless connection with the host equipment is available; if yes, go to step 203; if not, go to step 204.

The glasses leg equipment is connected with the matched glasses leg equipment through the contact connector, namely when the glasses leg equipment and the matched glasses leg equipment are rotated and folded, a user does not need to continue to use the wireless earphone glasses; therefore, in this step, after detecting that the temple device is connected to the paired temple device through the contact connector, for example, after the attraction event of the magnet component in the temple device and the magnet in the paired temple device in fig. 7 is triggered, the processor in the temple device determines whether to wirelessly connect to the Host device (Host), thereby disconnecting the currently connected Host device.

Step 203: the wireless connection with the host device is disconnected.

Specifically, in this step, the processor of the temple device may disconnect the wirelessly connected host device after detecting that the temple device is connected to the paired temple device through the contact connector.

Step 204: judging whether the glasses leg equipment is TWS main equipment or not; if yes, go to step 205.

It can be understood that the present embodiment is illustrated by taking the TWS pairing connection between the temple device and the paired temple device as an example, that is, the temple device and the paired temple device are TWS earphones in the form of glasses legs; for the case that other wireless connection modes are adopted between the temple device and the paired temple device, corresponding setting may be performed in a manner similar to the method provided in this embodiment, which is not limited in this embodiment.

Here, the TWS master device in this step may be one of two earpieces of a TWS headset, which is a master device (Primary device), and the other earpiece may be a slave device (Secondary device, that is, TWS slave device). The specific choice of the TWS master device is not limited in this embodiment, and as shown in fig. 7, the right temple device may be the TWS master device by default, and the left temple device may be the TWS slave device.

Correspondingly, in the case that the temple device is not the TWS master device and the temple device is the TWS slave device in this embodiment, the designer may set the configuration by himself, for example, may wait for control data sent by the paired temple device (i.e., the TWS master device) through the contact connector, such as the bluetooth status inquiry frame, the pairing detection end frame, and the pairing request frame in fig. 7, and perform corresponding operations.

Step 205: wireless communication information of a paired temple device is acquired through the contact connector.

In this step, the wireless communication information of the paired temple devices may be related information of wireless communication of the paired temple devices. The specific content of the wireless communication information may be set by the designer, for example, the wireless communication information may include a wireless communication identifier (e.g., a bluetooth address), and the wireless communication information may further include a wireless pairing status (e.g., a TWS pairing status), as long as the temple device may determine whether the temple device has been in wireless pairing connection with the paired temple device by using the acquired wireless communication information of the paired temple device, which is not limited in this embodiment.

Specifically, for the specific manner in which the processor of the temple device acquires the wireless communication information of the paired temple device through the contact connector in this step, the designer can set the method by himself or herself according to a practical scene and user requirements, for example, when the wireless headset assemblies in the temple device and the paired temple device are specifically bluetooth headset assemblies (such as TWS headset assemblies), the temple device can send a bluetooth status query frame to the paired temple device through the contact connector, and receive a bluetooth status frame (such as TWS paired status and bluetooth address) sent by the paired temple device through the contact connector; wherein the wireless communication identifier is a bluetooth status frame.

Step 206: judging whether the wireless pairing connection with the paired glasses leg equipment is performed or not according to the wireless communication information; if not, go to step 207.

It can be understood that, in this step, the processor of the temple device may detect whether the processor is already connected with the paired temple device in a paired manner by using the wireless communication information of the paired temple device, that is, detect the paired connection condition of the temple device and the paired temple device; if the wireless earphone is not connected with the paired glasses leg equipment in a paired mode, the step 207 can be entered, and the paired connection with the paired glasses leg equipment is completed, so that the glasses leg equipment and the paired glasses leg equipment can be quickly and wirelessly connected back when a subsequent user uses the wireless earphone glasses, and the user experience is improved.

Correspondingly, if the processor of the glasses leg equipment determines that the processor is in pairing connection with the matched glasses leg equipment in the step, the processor can be set by a designer, and if the glasses leg equipment can directly finish the process; or as shown in fig. 7, when the temple device is the TWS master device, the temple device may send a detection end frame to the paired temple device through a contact connector or wireless communication, and end the paired detection flow.

Step 207: wirelessly mate with a mating temple device using a contact connector.

Specifically, in this step, the processor of the temple device may utilize the contact connector to connect with the contact connector of the pairing temple device to perform wired communication between the temple device and the pairing temple device, so as to complete wireless pairing connection between the temple device and the pairing temple device, thereby enabling the temple device and the pairing temple device to be connected wirelessly and quickly when a subsequent user uses wireless headset glasses.

Specifically, as shown in fig. 7, when the temple device is a right temple device (i.e., a TWS master device), the temple device may send a pairing request frame to the paired temple device through the contact connector, and after receiving a pairing start frame returned by the paired temple device through the contact connector, enter a normal pairing procedure to perform wireless pairing connection with the paired temple device that also enters the normal pairing procedure.

In the embodiment of the invention, by disconnecting the wireless connection with the host equipment, the wireless connection between the glasses leg equipment and the matched glasses leg equipment and the host equipment can be automatically disconnected when the glasses leg equipment and the matched glasses leg equipment in the wireless headset glasses are rotated and folded, so that the automatic disconnection between the wireless headset and the host equipment is realized, and the user experience is improved.

Based on the above method embodiment, the method for controlling wireless headset glasses provided in this embodiment may further include an automatic shutdown process of the glasses leg device, so as to reduce power consumption of the glasses leg device and improve user experience. Specifically, the method for controlling wireless headset glasses provided in this embodiment may include that the processor of the glasses leg device may determine whether the glasses leg device is in a charging state after the glasses leg device is connected to the paired glasses leg device through the contact connector and the glasses leg device is wirelessly paired with the paired glasses leg device; if the charging state is reached, entering a dormant state; if the battery is not in the charging state, the charging is continued.

As shown in fig. 8, after the temple device is connected to the paired temple device through the contact connector and the temple device is connected to the paired temple device in a wireless pairing manner (after step 208 in the above embodiment), the temple device may enter an automatic shutdown process, and determine whether it is charging by using a timer at preset time intervals; if the self-charging device is charging, starting a timer, and judging whether the self-charging device is charging again after the timer is exhausted; if the glasses are not charged, the glasses are informed to the opposite side (namely the glasses are matched with the glasses) through a contact connector or wireless communication, the glasses are dormant, and then the glasses enter a dormant state, so that the glasses are automatically turned off.

Correspondingly, the processor of the glasses leg equipment can output electric energy to the paired glasses leg equipment through the contact connector, when the paired glasses leg equipment is charged, the glasses leg equipment is connected with the paired glasses leg equipment through the contact connector, and after the glasses leg equipment is in wireless paired connection with the paired glasses leg equipment, whether the glasses leg equipment is in a charging state or the glasses leg equipment charges the paired glasses leg equipment through the contact connector can be judged; if not, entering a dormant state; and if so, continuing to charge the glasses and/or the paired glasses leg equipment.

Based on the above method embodiment, the method for controlling wireless headset glasses provided in this embodiment may further include an automatic boot process of the glasses leg device, so as to improve user experience. Specifically, the control method of the wireless headset glasses provided in this embodiment may include that the glasses leg device may wirelessly loop back with the paired glasses leg device and wirelessly connect with the host device when the glasses leg device is disconnected from the paired glasses leg device through the contact connector.

That is to say, the user opens the mirror leg equipment and the pair mirror leg equipment of wireless earphone glasses, and mirror leg equipment can break off through the connection of contact connector with the pair mirror leg equipment to trigger the automatic start-up of mirror leg equipment and pair mirror leg equipment, at this moment, mirror leg equipment can carry out wireless return connection (such as TWS return connection) and the wireless return connection with host computer equipment with the pair mirror leg equipment.

Specifically, when the TWS connection is performed between the temple device and the paired temple device, the process of wirelessly connecting the temple device and the host device may include: after the connection between the glasses leg equipment and the matched glasses leg equipment is finished, whether the machine is a TWS main equipment or not is judged; if not, ending the process; and if so, sending a message that the local computer enters the pairing state to the host computer equipment, and entering the pairing state so as to carry out Bluetooth connection with the host computer equipment. That is to say, when the wireless headset glasses are TWS glasses, the user opens the leg devices and the paired leg devices of the TWS glasses, and the leg devices and the paired leg devices are connected to the host device after completing the TWS connection; when the glasses leg equipment and the paired glasses leg equipment are in a factory state, no host equipment exists in the paired list, the glasses leg equipment and a TWS master equipment (such as a right side glasses leg equipment) in the paired glasses leg equipment can enter a pairing mode, a TWS slave equipment (such as a left side glasses leg equipment) can directly end the process, and at the moment, TWS glasses can be searched on the host equipment, so that the TWS glasses can be paired and connected with the TWS master equipment; when the temple device and the paired temple device are in a non-factory state, the temple device and the TWS master device in the paired temple device may directly connect back to the host device in the pairing list, and the TWS slave device may directly end the process.

Correspondingly, if the user needs to re-enter the pairing state of the wireless headset glasses so as to perform pairing connection with a new host, the user may trigger the man-machine interaction action on the glasses leg device or the pairing glasses leg device according to a UI (user interface), so that the wireless headset glasses re-enter the pairing state, for example, the TWS host device re-enters the pairing mode. For example, when the temple device is the TWS master device, the temple device may obtain a host pairing instruction; and entering a pairing mode according to the host pairing instruction.

Referring to fig. 9, fig. 9 is a block diagram of a control device of wireless headset eyeglasses according to an embodiment of the present invention. The apparatus may be applied to the temple device as provided in the above embodiment, including:

a contact detection module 100 for detecting whether or not to connect with a counterpart temple apparatus through a contact connector;

and a pairing connection module 200 for wirelessly pairing-connecting with the pairing temple device by using the contact connector if the pairing connection module is connected with the pairing temple device by the contact connector.

Optionally, the apparatus may further include:

the information acquisition module is used for acquiring wireless communication information of the matched glasses leg equipment through the contact connector;

the pairing judgment module is used for judging whether the wireless pairing connection with the paired glasses leg equipment is performed or not according to the wireless communication information; if the wireless pairing connection with the paired temple device is not performed, a start signal is transmitted to the pairing connection module 200.

Optionally, the information obtaining module may include:

the judging submodule is used for judging whether the glasses leg equipment is TWS main equipment or not;

the Bluetooth information acquisition submodule is used for sending a Bluetooth state inquiry frame to the paired glasses leg equipment through the contact connector if the TWS master equipment is used, and receiving the Bluetooth state frame sent by the paired glasses leg equipment through the contact connector; wherein, the wireless communication information is a Bluetooth state frame.

Optionally, the apparatus may further include:

the connection judging module is used for judging whether the wireless connection with the host equipment is realized; if the wireless connection with the host equipment is achieved, the wireless connection with the host equipment is disconnected, and a starting signal is sent to the pairing connection module 200; if the wireless connection with the host device is not established, a start signal is sent to the pairing connection module 200.

Optionally, the apparatus may further include:

the automatic shutdown module is used for judging whether the glasses leg equipment is in a charging state or not after the glasses leg equipment is in wireless pairing connection with the paired glasses leg equipment by using the contact connector; if not, entering a dormant state.

Optionally, the apparatus may further include:

and the automatic starting module is used for wirelessly connecting with the matched glasses leg equipment and wirelessly connecting with the host equipment when the connection between the contact connector and the matched glasses leg equipment is disconnected.

An embodiment of the present invention further provides a wireless headset, including: a first temple apparatus and a second temple apparatus; wherein the first temple apparatus and the second temple apparatus are both temple apparatuses as provided in the above embodiments.

That is, the first temple device and the second temple device in the wireless headset of the present embodiment may be connected to the frame member to form the wireless headset glasses, that is, the first temple device and the second temple device may be two temple devices used in the wireless headset glasses in a matching manner, such as the temple devices and the paired temple devices in the above embodiments.

In addition, an embodiment of the present invention further provides a computer-readable storage medium, on which a computer program is stored, and the computer program, when executed by a processor, implements the steps of the method for controlling wireless headset glasses provided in the above embodiment. The computer storage medium may include: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.

The embodiments are described in a progressive manner in the specification, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. The device disclosed by the embodiment corresponds to the method disclosed by the embodiment, so that the description is simple, and the relevant points can be referred to the method part for description.

The temple device, the control method and the control device of the wireless earphone glasses and the wireless earphone provided by the invention are described in detail above. The principles and embodiments of the present invention are explained herein using specific examples, which are presented only to assist in understanding the method and its core concepts. It should be noted that, for those skilled in the art, it is possible to make various improvements and modifications to the present invention without departing from the principle of the present invention, and those improvements and modifications also fall within the scope of the claims of the present invention.

Claims (10)

1. A temple piece apparatus comprising a wireless headset assembly, further comprising:

the contact connector is used for being in contact connection with a matched contact connector in the matched glasses leg equipment when the glasses leg equipment and the matched glasses leg equipment which are connected on the glasses frame component are rotated and folded, so that the glasses leg equipment and the matched glasses leg equipment can carry out communication signals or the communication signals and electric energy transmission through the contact connector; wherein the mating contact connector is a contact connector in the mating temple apparatus.

2. The temple apparatus of claim 1, further comprising:

a contact detection sensor for detecting whether or not the contact connector and the counterpart contact connector are in sufficient contact.

3. A control method of wireless headset eyeglasses, applied to the temple apparatus of claim 1 or 2, comprising:

detecting whether the glasses are connected with the matched glasses leg equipment through the contact connector;

and if so, wirelessly pairing and connecting with the pairing glasses leg equipment by using the contact connector.

4. The method of controlling wireless headset eyeglasses according to claim 3, further comprising, before said wirelessly pairing-connecting with said paired temple devices using said contact connector:

acquiring wireless communication information of the paired temple devices through the contact connector;

judging whether the wireless pairing connection with the paired glasses leg equipment is performed or not according to the wireless communication information;

and if the wireless pairing connection with the pairing glasses leg equipment is not carried out, the step of utilizing the contact connector to carry out the wireless pairing connection with the pairing glasses leg equipment is carried out.

5. The method of controlling wireless headset eyeglasses according to claim 3, wherein said obtaining wireless communication information of the paired temple devices through the contact connector comprises:

judging whether the glasses leg equipment is TWS main equipment or not;

if the TWS master equipment is the TWS master equipment, sending a Bluetooth state inquiry frame to the paired glasses leg equipment through the contact connector, and receiving the Bluetooth state frame sent by the paired glasses leg equipment through the contact connector; wherein the wireless communication information is the Bluetooth status frame.

6. The method of controlling wireless headset eyeglasses according to claim 3, further comprising, before said wirelessly pairing-connecting with said paired temple devices using said contact connector:

judging whether the wireless connection with the host equipment is available;

if the wireless connection with the host equipment is achieved, the wireless connection with the host equipment is disconnected, and the step of utilizing the contact connector to achieve wireless pairing connection with the paired glasses leg equipment is carried out;

and if the wireless connection with the host equipment is not realized, executing the step of utilizing the contact connector to perform wireless pairing connection with the paired glasses leg equipment.

7. The method of controlling wireless headset eyeglasses according to claim 3, further comprising, after said wirelessly pairing-connecting with said paired temple devices using said contact connector:

judging whether the glasses leg equipment is in a charging state or not;

if not, entering a dormant state.

8. The method for controlling wireless headset eyeglasses according to any one of claims 3 to 6, further comprising:

and when the connection with the paired glasses leg equipment is disconnected through the contact connector, wirelessly connecting the paired glasses leg equipment and the host equipment.

9. A control apparatus of wireless headset eyeglasses, applied to the temple device of claim 1 or 2, comprising:

the contact detection module is used for detecting whether the contact detection module is connected with the matched glasses leg equipment through the contact connector;

and the pairing connection module is used for wirelessly pairing and connecting with the pairing glasses leg equipment by using the contact connector if the pairing connection module is connected with the pairing glasses leg equipment through the contact connector.

10. A wireless headset, comprising: a first temple apparatus and a second temple apparatus; wherein the first temple apparatus and the second temple apparatus are each as in claim 1 or 2.

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