CN115250410A - Charging box and control method of wireless earphone - Google Patents

Abstract

The invention discloses a charging box and a control method of a wireless earphone. The charging box is used for accommodating and charging the wireless earphone and specifically comprises an input module, a processing module and a first communication module. The input module is used for detecting an operation instruction of a user, the processing module is used for converting the operation instruction into a control instruction, and the first communication module is used for forwarding the control instruction to the wireless earphone so as to control the wireless earphone to execute corresponding operation. The charging box and the control method of the wireless earphone provided by the invention can solve the problem that the wireless earphone can be correspondingly operated only when the box is opened after the existing wireless earphone is placed in the charging box, thereby simplifying the operation process of a user.

Description

Charging box and control method of wireless earphone

Technical Field

The invention relates to the field of wireless Bluetooth earphones, in particular to a charging box and a control method of a wireless earphone.

Background

At present, true Wireless Stereo (TWS) Wireless earphones do not need wired connection, a Stereo system is formed by connecting a left Wireless earphone and a right Wireless earphone through Bluetooth, tone quality feeling of a user is improved, and the TWS Wireless earphones are popular with general users. Since the TWS wireless headset has no connecting wire, and in order to prolong the service life of the TWS wireless headset and to facilitate carrying of the TWS wireless headset, a charging box is provided to accommodate the TWS wireless headset. In addition, the charging box can also charge the wireless earphone as a standby power supply.

The existing charging box needs to be operated on the wireless earphone under the condition of opening the box, for example, the wireless earphone is paired or the electric quantity of the wireless earphone is checked, and the use of a user is inconvenient.

Disclosure of Invention

The charging box and the control method of the wireless earphone provided by the invention can solve the problem that the wireless earphone can be correspondingly operated only when the charging box is opened after the existing wireless earphone is placed in the charging box, thereby simplifying the operation process of a user.

In order to solve the technical problems, the first technical scheme adopted by the invention is as follows: the charging box is used for accommodating a wireless earphone and charging the wireless earphone, and specifically comprises an input module, a processing module and a first communication module. The input module is used for detecting an operation instruction of a user, the processing module is used for converting the operation instruction into a control instruction, and the first communication module is used for forwarding the control instruction to the wireless earphone so as to control the wireless earphone to execute corresponding operation.

The operation instruction comprises at least one or a combination of a wake-up instruction, a pairing instruction and a reset instruction, wherein the wake-up instruction is used for controlling the wireless earphone to be switched from a dormant state to a working state, the pairing instruction is used for controlling the wireless earphone to be in Bluetooth pairing connection, and the reset instruction is used for controlling the wireless earphone to restore factory settings.

Wherein, the charging box further comprises an indication module, and the indication module is used for indicating the state of the charging box and/or the wireless earphone.

The charging box further comprises an electric quantity detection module and an indication module, the electric quantity detection module is used for detecting the electric quantity of the charging box, the operation instruction further comprises an electric quantity detection instruction, the electric quantity detection module is connected with the processing module, and the indication module is used for indicating the electric quantity of the charging box.

The first communication module further receives the electric quantity of the wireless earphone fed back by the wireless earphone, and the indicating module further indicates the electric quantity of the wireless earphone.

The charging box further comprises a positioning detection module, the positioning detection module is used for detecting whether the wireless earphone is positioned in the charging box, and the indication module is used for indicating the positioning state detected by the positioning detection module.

The operation instruction further comprises a calling instruction and an editing instruction, the calling instruction is used for controlling the wireless earphone to feed back a play file list stored in the wireless earphone and is displayed by the indicating module, and the editing instruction is used for controlling the wireless earphone to carry out corresponding editing operation on the play files in the play file list.

The first communication module further receives the pairing state of the wireless headset fed back by the wireless headset, and the indication module further indicates the pairing state of the wireless headset.

Wherein, the box that charges includes box body and lid, and wherein box body and lid cooperation form in an accommodation space, and wireless earphone accepts in the accommodation space, is provided with the transparent window that can follow the box outside observation wireless earphone that charges on box body or the lid.

In order to solve the above technical problems, the second technical solution adopted by the present invention is: there is provided a method of controlling a wireless headset, the method comprising: detecting an operation instruction input by a user through the charging box; converting the operation instruction into a control instruction; and forwarding the control instruction to the wireless headset to control the wireless headset to execute corresponding operation. The invention has the beneficial effects that:

different from the prior art, the charging box and the control method of the wireless earphone provided by the invention have the advantages that the charging box can control the wireless earphone through the charging box without opening the cover body of the charging box by arranging the input module, the processing module and the first communication module. The user inputs an operation instruction, the charging box can detect the operation instruction input by the user at any time, the operation instruction is converted into a control instruction, and the control instruction is forwarded to the wireless earphone, so that the wireless earphone is controlled. Therefore, the charging box can control the wireless earphone to execute corresponding operation according to the operation instruction input by the user, and the state of the wireless earphone is changed. The charging box can solve the problem that the wireless earphone is required to be correspondingly operated after being placed in the charging box, so that the operation process of a user is simplified.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings required to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the description below are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an earphone assembly provided in the present application;

fig. 2 is a schematic structural view of a charging box provided in the present application;

fig. 3 is a schematic view of another structure of the earphone assembly provided by the present application;

fig. 4 is a schematic diagram of another structure of the earphone assembly provided by the present application;

fig. 5 is a flowchart of a control method of the wireless headset provided in the present application;

fig. 6 is a flowchart of another control method of a wireless headset provided in the present application.

Detailed Description

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

In the following description, for purposes of explanation and not limitation, specific details are set forth such as particular system structures, interfaces, techniques, etc. in order to provide a thorough understanding of the present application.

The terms "first", "second" and "third" in the present invention are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, features defined as "first", "second", and "third" may explicitly or implicitly include at least one of the described features. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise. In the embodiment of the present invention, all directional indicators (such as up, down, left, right, front, rear \8230;) are used only for explaining the relative positional relationship between the respective components at a certain posture (as shown in the drawing), the motion condition, etc., and if the certain posture is changed, the directional indicators are changed accordingly. The terms "comprising" and "having" and any variations thereof in the embodiments of the present application are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those steps or elements listed, but may alternatively include other steps or elements not listed, or may alternatively include other steps or elements inherent to such process, method, article, or apparatus.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the invention. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein may be combined with other embodiments.

The present application will be described in detail with reference to the drawings and examples.

Referring to fig. 1, fig. 1 is a schematic structural diagram of an earphone assembly 10 according to an embodiment of the present disclosure; in the present embodiment, an earphone assembly 10 is provided, specifically comprising a charging box 12 and a wireless earphone 11. The Wireless headset 11 may be or include any number of audio devices, such as True Wireless Stereo (TWS) Wireless headsets, bone conduction Wireless headsets, in-ear Wireless headsets, open Wireless headsets, and the like. The wireless headset 11 may also be or comprise any wearable device intended to be worn on or around the head or ears of a user, such as audio glasses, helmets, hats, and various other types of devices, such as hearing aids, AR devices, VR devices, head, shoulder or body worn acoustic devices, etc., which may specifically include or be connected to one or more acoustic drivers to produce sound, but may or may not be in contact with the user's ears; in particular, the wireless headset 11 may also include a speaker configured to generate sound in response to an audio signal transmitted to the speaker.

In this embodiment, the wireless headset 11 may be accommodated in the charging box 12, so that the wireless headset 11 is charged through the charging box 12. The wireless headset 11 includes a first headset and a second headset, which are respectively usable to be worn on both ears of a user. The charging box 12 includes a box body 121 and a cover 122, the box body 121 and the cover 122 cooperate to form an accommodating space 123 for accommodating the wireless headset 11, and the wireless headset 11 is accommodated in the accommodating space 123. The inside of the box body 121 may be provided with a battery, a charging management circuit and a charging contact (not shown), so that after the wireless headset 11 is placed in the accommodating cavity, the charging management circuit may be electrically connected to the charging contact, and the charging management circuit is triggered to charge the wireless headset 11.

In one embodiment, the case 121 or the cover 122 is provided with a transparent window for allowing the wireless headset 11 to be viewed from the outside of the charging box 12, so that a user can directly view whether the wireless headset 11 is inside the charging box 12 from the outside. When it is necessary to confirm whether the wireless headset 11 is placed in the charging box 12, the cover 122 of the charging box 12 does not need to be opened, and whether the wireless headset 11 is in the charging box 12 can be observed directly from the outside, so that the situation that a user needs to open the cover 122 because the user needs to check whether the wireless headset 11 is in the charging box 12 can be avoided, and the use of the charging box 12 is more convenient. In other embodiments, part or all of the case 121 and/or the cover 122 are made of transparent materials, so that whether the wireless headset 11 is in the case can be directly observed.

In this embodiment, the charging box 12 includes an input module 124, a processing module 125, and a first communication module 126. The input module 124 is used for detecting an operation instruction of a user. Specifically, an input module 124 is disposed outside the case body 121 or the cover 122 of the charging box 12, and the input module 124 can perform human-computer interaction, and may be a key, a capacitive touch, a pressure sensor, or the like.

The processing module 125 is connected to the input module 124 for converting the operation instructions into the control instructions. Specifically, the processing module 125 is configured to receive an operation instruction of the user detected by the input module 124, and convert the operation instruction into a corresponding control instruction in response to the operation instruction.

The first communication module 126 is connected to the processing module 125, and the first communication module 126 is configured to forward the control instruction to the wireless headset 11 to control the wireless headset 11 to perform a corresponding operation. The wireless headset 11 has a second communication module 111 and an execution module 112 connected to each other, the second communication module 111 can receive the control command forwarded by the first communication module 126 of the charging box 12, and the execution module 112 executes the control command to make the headset perform a corresponding operation.

By providing the input module 124, the processing module 125 and the first communication module 126 connected in sequence, the charging box 12 can control the wireless headset 11 through the charging box 12 without opening the cover 122 of the charging box 12. The charging box 12 can detect an operation instruction input by a user at any time, convert the operation instruction into a control instruction, and forward the control instruction to the wireless headset 11, thereby controlling the wireless headset 11. Therefore, the charging box 12 can relay the control instruction of the user from the charging box 12 to the wireless headset 11 in a communication manner, so as to control the wireless headset 11 to execute corresponding operation and change the state of the wireless headset 11.

In an optional embodiment, the operation instruction includes at least one or a combination of a wake-up instruction, a pairing instruction, and a reset instruction. The wake-up command is used to control the wireless headset 11 to switch from the sleep state to the working state. In the initial state, in order to save power consumption of the wireless headset 11, the wireless headset 11 may be in a sleep state, and most modules in the wireless headset 11 are in a non-operating state. When the input module 124 detects a wake-up command from a user, the processing module 125 converts the wake-up command into a control command for controlling the wireless headset 11 to exit from the sleep state, the first communication module 126 forwards the control command for controlling the wireless headset 11 to exit from the sleep state to the wireless headset 11, and the second communication module 111 of the wireless headset 11 receives the control command and switches the wireless headset 11 from the sleep state to the working state through the execution module 112.

The pairing instruction is used for controlling the wireless headset 11 to perform bluetooth pairing connection. When the input module 124 detects a pairing instruction of a user, the processing module 125 converts the pairing instruction into a control instruction for controlling bluetooth pairing of the wireless headset 11, the first communication module 126 forwards the control instruction for controlling bluetooth pairing of the wireless headset 11 to the wireless headset 11, and the second communication module 111 of the wireless headset 11 receives the control instruction and enables the wireless headset 11 and the terminal device to perform bluetooth pairing connection through the execution module 112.

The reset instruction is used to control the wireless headset 11 to restore factory settings. When the input module 124 detects a reset instruction of the user, the processing module 125 converts the reset instruction into a control instruction for controlling the wireless headset 11 to restore the factory setting, the first communication module 126 forwards the control instruction for controlling the wireless headset 11 to restore the factory setting to the wireless headset 11, and the second communication module 111 of the wireless headset 11 receives the control instruction and causes the wireless headset 11 to restore the factory setting through the execution module 112.

The input module 124 through the charging box 12 detects the awakening instruction, the pairing instruction and the resetting instruction, the user does not need to open the cover 122 of the charging box 12, the wireless earphone 11 can be awakened, the bluetooth is paired and factory settings can be restored through the charging box 12, the operation process is simple, the user experience is good, the use efficiency of the user can be effectively improved, and the learning cost of the user is reduced.

In another alternative embodiment, as shown in fig. 2, fig. 2 is a schematic structural diagram of the charging box 12 in this embodiment. The user can also input an operation instruction for controlling the charging box 12 through the charging box 12, and after the input module 124 detects the operation instruction of the user, the processing module 125 is configured to convert the operation instruction into a control instruction, and the control module 128 of the charging box 12 controls the charging box 12 to perform a corresponding operation in response to the control instruction.

In another alternative embodiment, in the initial state, in order to save power consumption of the charging box 12, the charging box 12 is in the sleep state, and most of the processing module 125, the first communication module 126, and the like are in the non-operation state. In the initial state, the input module 124 is in the working state and can detect the operation instruction of the user at any time. The input module 124 generates a wake-up signal when detecting an operation command from a user, the processing module 125 and the first communication module 126 exit from the sleep state in response to the wake-up signal, and the charging box 12 is switched from the sleep state to the working state.

In another alternative embodiment, as shown in fig. 3, fig. 3 is another schematic structural diagram of the earphone assembly 10 provided in an embodiment of the present application. The charging box 12 further comprises an indication module 127, the indication module 127 is used for indicating the state of the charging box 12 and/or the wireless headset 11, and the indication module 127 is connected with the processing module 125. The indication module 127 may be a display screen, an indicator light, or the like.

The user inputs an operation instruction for controlling the earphone through the charging box 12, and after the execution module 112 of the wireless earphone 11 executes a corresponding operation, the execution module 112 generates indication information and forwards the indication information to the charging box 12 through the second communication module 111 of the wireless earphone 11. The first communication module 126 of the charging box 12 can receive the indication information forwarded by the second communication module 111, the processing module 125 generates an indication instruction according to the indication information received by the first communication module 126, and the indication module 127 indicates the state of the wireless headset 11 according to the indication instruction.

The user inputs an operation instruction for controlling the charging box 12, after the control module 128 of the charging box 12 performs a corresponding operation, the control module 128 generates indication information, the processing module 125 generates an indication instruction according to the indication information, and the indication module 127 indicates the state of the charging box 12 according to the indication instruction.

By setting the indication module 127, after receiving an operation instruction of the user, the charging box 12 can control the wireless headset 11 or the charging box 12 to perform a corresponding operation, and indicate the state of the wireless headset 11 and/or the charging box 12, so that the user can see the working state of the wireless headset 11 and/or the charging box 12, and convenience is brought to the user using the charging box 12.

In another alternative embodiment, the indication module 127 can indicate the power level of the wireless headset 11. Specifically, the first communication module 126 can receive the power information of the wireless headset 11 fed back by the second communication module 111 of the wireless headset 11, the processing module 125 generates a power indication instruction of the wireless headset 11 according to the power information of the wireless headset 11, and the indication module 127 indicates the power of the wireless headset 11 according to the power indication instruction of the wireless headset 11, so that the user can directly see the power of the wireless headset 11 through the indication module 127 of the charging box 12.

In another alternative embodiment, the indication module 127 can indicate the pairing status fed back by the wireless headset 11. Specifically, the first communication module 126 can receive the pairing state of the wireless headset 11 fed back by the second communication module 111 of the wireless headset 11, the processing module 125 generates a pairing state instruction of the wireless headset 11 according to the pairing state of the wireless headset 11, and the indicating module 127 indicates the pairing state of the wireless headset according to the pairing state instruction of the wireless headset 11, so that the user can directly see the pairing state of the wireless headset 11 through the indicating module 127 of the charging box 12. The indication module 127 may indicate the pairing state fed back by the wireless headset 11 after the input module 124 detects a pairing instruction of the user and the charging box 12 controls the wireless headset 11 to perform bluetooth pairing connection with the terminal device. For example, the wireless headset 11 may have both paired and unpaired states of connection. The indication module may be an indication lamp, the charging box 12 receives pairing state information of paired connection fed back by the wireless headset 11, and the indication lamp displays green; the charging box 12 receives the pairing state information of the unpaired connection fed back by the wireless headset 11, and the indicator light displays red. Or, the indication module may be a display screen, the charging box 12 receives pairing state information of paired connection fed back by the wireless headset 11, and the display screen displays a word "the headset is paired and connected"; the charging box 12 receives the pairing state information of the unpaired connection fed back by the wireless headset 11, and the display screen displays the character of 'unpaired connection of the headset'.

In another alternative embodiment, as shown in FIG. 4, the control module 128 may include a charge level detection module 1281 and an in-position detection module 1282. The power detecting module 1281 is connected to the processing module 125 and is used for detecting the power of the battery of the charging box 12. Wherein, the operation instruction further comprises an electric quantity detection instruction. After the input module 124 detects the power detection instruction input by the user, the processing module 125 converts the power detection instruction into a power detection control instruction, and the power detection module 1281 detects the power of the battery of the charging box 12 in response to the power detection control instruction. In addition, the indication module 127 can also be used to indicate the amount of charge of the charging box 12. The electric quantity detecting module 1281 feeds back the electric quantity information of the battery of the charging box 12 to the processing module 125, the processing module 125 generates an electric quantity indicating instruction of the charging box 12 according to the electric quantity information of the battery of the charging box 12, and the indicating module 127 indicates the electric quantity of the charging box 12 according to the electric quantity indicating instruction of the charging box 12, so that a user can directly see the electric quantity of the charging box 12 through the indicating module 127 of the charging box 12. It is noted that the indication module 127 can display the power of the charging box 12 and the power of the wireless headset 11 at the same time.

In another alternative embodiment, the control module 128 may further include a seating detection module 1282 when the charging box 12 cannot directly observe the seating of the wireless headset 11 from the outside. The in-position detection module 1282 is connected to the processing module 125 and is used for detecting whether the wireless headset 11 is in position (placed) in the charging box 12. Wherein the operation instructions further comprise in-position detection instructions. After the input module 124 detects the in-position detection instruction input by the user, the processing module 125 converts the in-position detection instruction into a control instruction for in-position detection, and the in-position detection module 1282 detects whether the wireless headset 11 is located in the charging box 12 in response to the control instruction for in-position detection. In addition, the indication module 127 can also be used to indicate the in-position status detected by the in-position detection module 1282. The in-position detection module 1282 feeds back the in-position state detected by the in-position detection module 1282 to the processing module 125, the processing module 125 generates an in-position state indication instruction according to the in-position state detected by the in-position detection module 1282, and the indication module 127 indicates the in-position state of the wireless headset 11 according to the in-position state indication instruction. It should be noted that the in-position detection instruction is not a necessary condition for the indication module 127 to indicate the in-position state of the wireless headset 11, and the indication module 127 may be directly triggered to indicate when the wireless headset 11 is in place (placed) in the charging box 12.

In another optional embodiment, the operation instruction further comprises a call instruction and an edit instruction. The calling instruction is used to control the wireless headset 11 to feed back the play file list stored inside the wireless headset 11, and the play file list is displayed by the indication module 127. In some cases, the wireless headset 11 may also be a stand-alone player, in addition to playing audio signals transmitted from a connected external device, i.e. allowing a user to store a certain number of audio files on the wireless headset 11 and play them according to the user's instructions. Therefore, when the input module 124 detects a call instruction of a user, the processing module 125 converts the call instruction into a control instruction for controlling the wireless headset 11 to call the playlist, the first communication module 126 forwards the control instruction for controlling the wireless headset 11 to call the playlist to the wireless headset 11, the second communication module 111 of the wireless headset 11 receives the control instruction, and the execution module 112 controls the wireless headset 11 to call the internally stored playlist, and generates playlist feedback information. The second communication module 111 forwards the playlist feedback information to the first communication module 126, and the charging box 12 indicates the playlist feedback information through the indicating module 127, so that the user can see the playlist stored inside the wireless headset 11.

In another alternative embodiment, the charging box 12 may function as a stand-alone player, i.e., allowing a user to store a number of audio files on the charging box 12. The audio files in the charging box 12 can be forwarded to the wireless headset 11 through the first communication module 126 so that the wireless headset 11 can play the audio files stored in the charging box 12. The operating instructions may further include play instructions for controlling the wireless headset 11 to play one or more audio files stored in the charging box 12.

The editing instruction can be used to control the wireless headset 11 to perform corresponding editing operation on the play files in the play file list. When the input module 124 detects an edit instruction of a user, the processing module 125 converts the edit instruction into a control instruction for controlling the wireless headset 11 to perform a corresponding edit operation on a play file in the play file list, the first communication module 126 forwards the control instruction for controlling the wireless headset 11 to perform a corresponding edit operation on a play file in the play file list to the wireless headset 11, the second communication module 111 of the wireless headset 11 receives the control instruction, and the execution module 112 controls the wireless headset 11 to perform a corresponding edit operation on a play file in the play file list. The editing instructions may further include a deletion instruction, a copy instruction, a play sequence/mode modification instruction, a volume/sound quality adjustment instruction, and the like.

Referring to fig. 5, fig. 5 is a flowchart illustrating a control method of the wireless headset 11 according to an embodiment of the present disclosure. In the present embodiment, a control method of a wireless headset 11 is provided, which is specifically applicable to the headset assembly 10 according to the above-described embodiment; specifically, the earphone assembly 10 may include an earphone and an earphone case. The control method of the wireless earphone 11 comprises the following steps:

step S21: detecting an operation instruction input by a user through the charging box 12;

specifically, an operation instruction input by the user through the input module 124 of the charging box 12 is detected, specifically, the input module 124 is arranged outside the box body 121 or the cover 122 of the charging box 12, and the input module 124 can perform human-computer interaction, which may be a key, a capacitive touch, a pressure, and the like.

Step S22: converting the operation instruction into a control instruction;

the processing module 125 is connected to the input module 124 for converting the operation instructions into the control instructions. Specifically, the processing module 125 is configured to receive an operation instruction of the user detected by the input module 124, and convert the operation instruction into a corresponding control instruction in response to the operation instruction.

Step S23: and forwarding a control instruction to the wireless headset 11 to control the wireless headset 11 to perform corresponding operation.

The first communication module 126 is connected to the processing module 125, and the first communication module 126 is configured to forward a control instruction to the wireless headset 11 to control the wireless headset 11 to perform a corresponding operation. The wireless headset 11 has a second communication module 111 and an execution module 112 connected to each other, the second communication module 111 can receive a control command forwarded by the first communication module 126 of the charging box 12, and the execution module 112 executes the control command to make the headset perform a corresponding operation.

With the control method of the wireless headset 11 provided in the present embodiment, the charging box 12 can control the wireless headset 11 through the charging box 12 without opening the lid 122 of the charging box 12. The charging box 12 can detect an operation instruction input by a user at any time, convert the operation instruction into a control instruction, and forward the control instruction to the wireless headset 11, thereby controlling the wireless headset 11. Therefore, the charging box 12 can forward the control instruction of the user from the charging box 12 to the wireless headset 11 in a communication manner, so as to control the wireless headset 11 to perform corresponding operation, and change the state of the wireless headset 11.

In another alternative embodiment, as shown in fig. 6, fig. 6 is a flowchart of a control method of the wireless headset 11 according to another embodiment of the present application. The control method of the wireless headset 11 further includes step S24: the charging box 12 is switched from the sleep state to the operation state. This step S24 is performed after step S21 and before step S22. In the initial state, in order to save power consumption of the charging box 12, the charging box 12 is in the sleep state, and most of the processing module 125, the first communication module 126, and the like are in the non-operation state. When the input module 124 detects an operation instruction of a user, the charging box 12 is switched from the sleep state to the working state, so as to wake up the modules in the charging box 12 to enter the working state.

The method for controlling the wireless headset 11 further includes step S25: and judging whether other operation instructions input by the user are received within the specified time. The predetermined time may be a fixed value set before shipment or a preset time changed by a user. The other operation instruction may be any one or more of the operation instructions described above, and the other operation instruction in step S25 and the operation instruction in step S21 may be the same operation instruction or different operation instructions.

If it is determined that another operation instruction input by the user is received within the predetermined time, the wireless headset 11 is controlled to perform a corresponding operation, and the control method for controlling the wireless headset 11 to perform a corresponding operation is step S21, step S22, and step S23. And if the other operation instructions input by the user are not received within the specified time, controlling the charging box 12 to be switched from the working state to the dormant state. The method can ensure that the power consumption of the charging box 12 is low, the initial state is a dormant state, and the charging box 12 is switched from the dormant state to the working state when an operation instruction of a user is received; after the wireless headset 11 is controlled to execute the operation, if no other control instruction is received after a period of time, the charging box 12 is switched from the working state to the dormant state, so that the power consumption of the charging box 12 is further reduced. If other control instructions are received within a period of time, the charging box 12 can continue to control and execute operations after receiving the operation instruction for the first time, so that the charging box 12 is prevented from being frequently switched between the sleep state and the working state in a short time.

The above embodiments are merely examples and are not intended to limit the scope of the present disclosure, and all modifications, equivalents, and flow charts using the contents of the specification and drawings of the present disclosure or those directly or indirectly applied to other related technical fields are intended to be included in the scope of the present disclosure.

Claims (10)

1. A charging box for housing and charging a wireless headset, the charging box comprising:

the input module is used for detecting an operation instruction of a user;

the processing module is used for converting the operation instruction into a control instruction;

and the first communication module is used for forwarding the control instruction to the wireless earphone so as to control the wireless earphone to execute corresponding operation.

2. The charging box according to claim 1, wherein the operation instruction comprises at least one or a combination of a wake-up instruction, a pairing instruction, and a reset instruction, wherein the wake-up instruction is used to control the wireless headset to switch from a sleep state to an operating state, the pairing instruction is used to control the wireless headset to perform bluetooth pairing connection, and the reset instruction is used to control the wireless headset to restore factory settings.

3. The charging box according to claim 1, further comprising an indication module for indicating a status of the charging box and/or the wireless headset.

4. The charging box according to claim 3, further comprising a power detection module for detecting the power of the charging box, wherein the operation instructions further comprise a power detection instruction, the power detection module is connected to the processing module, and the indication module is used for indicating the power of the charging box.

5. A charging box according to claim 3, wherein said first communication module further receives the power of said wireless headset fed back by said wireless headset, and said indicating module further indicates the power of said wireless headset.

6. A charging box according to claim 3, further comprising a seated detection module for detecting whether the wireless headset is seated in the charging box, and an indication module for indicating a seated state detected by the seated detection module.

7. The charging box according to claim 3, wherein the operation instructions further include a calling instruction and an editing instruction, the calling instruction is used to control the wireless headset to feed back a play file list stored inside the wireless headset and to be displayed by the indication module, and the editing instruction is used to control the wireless headset to perform a corresponding editing operation on a play file in the play file list.

8. A charging box according to claim 3, wherein the first communication module further receives the pairing status of the wireless headset fed back by the wireless headset, and the indicating module further indicates the pairing status of the wireless headset.

9. The charging box according to claim 1, wherein the charging box comprises a box body and a cover body, wherein the box body and the cover body are matched to form an accommodating space, the wireless earphone is accommodated in the accommodating space, and a transparent window through which the wireless earphone can be observed from the outside of the charging box is arranged on the box body or the cover body.

10. A method of controlling a wireless headset, the method comprising:

detecting an operation instruction input by a user through the charging box;

converting the operation instruction into a control instruction;

and forwarding the control instruction to the wireless earphone so as to control the wireless earphone to execute corresponding operation.

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