CN112653956A

CN112653956A - Earphone box, earphone device, mobile terminal and charging method of wireless earphone

Info

Publication number: CN112653956A
Application number: CN201910964473.6A
Authority: CN
Inventors: 刘绍斌
Original assignee: Guangdong Oppo Mobile Telecommunications Corp Ltd
Current assignee: Guangdong Oppo Mobile Telecommunications Corp Ltd
Priority date: 2019-10-11
Filing date: 2019-10-11
Publication date: 2021-04-13
Anticipated expiration: 2039-10-11
Also published as: CN112653956B

Abstract

The embodiment of the application provides an earphone box, an earphone device, a mobile terminal and a charging method of a wireless earphone, wherein the earphone box is used for containing the wireless earphone, the earphone box comprises a box body, a first sound receiver and a first processor, and the box body is provided with a containing groove used for containing the wireless earphone; the first sound receiver is arranged on the box body and used for receiving a first preset sound signal sent by the wireless earphone; the first processor is arranged on the box body, electrically connected with the first sound receiver and used for judging whether the first sound receiver receives a first preset sound signal sent by the wireless earphone; if the first sound receiver receives the first preset sound signal, the wireless earphone is determined to be accommodated in the accommodating groove. The embodiment of the application can detect whether the wireless earphone is stored in the earphone box or not without arranging an additional sensor on the wireless earphone.

Description

Earphone box, earphone device, mobile terminal and charging method of wireless earphone

Technical Field

The present disclosure relates to the field of electronic technologies, and in particular, to an earphone box, an earphone device, a mobile terminal, and a charging method for a wireless earphone.

Background

With the rapid development of earphone technology, wireless earphones are gaining favor of more and more users because the wireless earphones completely eliminate the inconvenient trouble of transmission lines and are more free to use and carry. The power consumption of wireless earphone is generally bigger, has appeared taking in the protection and the earphone box that charges to wireless earphone on the existing market, and wireless earphone can be received and released in the earphone box when not using.

In the related art, a first sensor is generally disposed in the earphone, a second sensor is generally disposed in the earphone case, and whether the earphone is accommodated in the earphone case is determined through communication between the first sensor and the second sensor. However, the space of the earphone itself is limited, and the space of the earphone is occupied by the first sensor.

Disclosure of Invention

The embodiment of the application provides an earphone box, an earphone device, a mobile terminal and a charging method of a wireless earphone, which can detect whether the wireless earphone is contained in the earphone box or not without arranging an additional sensor on the wireless earphone.

The embodiment of the application provides an earphone box for accomodate wireless earphone, earphone box includes:

a case body provided with a receiving groove for receiving the wireless headset;

the first sound receiver is arranged on the box body and used for receiving a first preset sound signal sent by the wireless earphone; and

the first processor is arranged on the box body, the first processor is electrically connected with the first sound receiver, and the first processor is used for:

judging whether the first sound receiver receives a first preset sound signal sent by the wireless earphone or not;

and if the first sound receiver receives the first preset sound signal, determining that the wireless earphone is accommodated in the accommodating groove.

An embodiment of the present application further provides an earphone device, including:

the wireless earphone is provided with a loudspeaker, and the loudspeaker is used for emitting a first preset sound signal; and

the wireless earphone can be contained in the earphone box, and the earphone box is as above.

An embodiment of the present application further provides a mobile terminal, including a third processor, where the third processor is configured to:

when the wireless earphone is arranged in the earphone box, the mobile terminal is controlled to be disconnected with the wireless earphone, and the earphone box is the earphone box;

and when the wireless earphone is taken out of the earphone box, controlling the mobile terminal to be connected with the wireless earphone.

when a wireless earphone in the earphone device is arranged in an earphone box, the mobile terminal is controlled to be disconnected from the wireless earphone, and the earphone device is the earphone device;

The embodiment of the present application further provides a charging method for a wireless headset, which is applied to a headset box, where the headset box includes:

the box body is provided with a receiving groove for receiving the wireless earphone;

the first sound receiver is arranged on the box body and used for receiving a first preset sound signal and a second preset sound signal sent by the wireless earphone; and

the power supply is arranged on the box body and used for providing electric signals for the wireless earphone;

the method comprises the following steps:

if the first sound receiver receives the first preset sound signal, determining that the wireless earphone is stored in the storage groove, and judging whether the first sound receiver receives a second preset sound signal sent by the wireless earphone;

and if the first sound receiver receives the second preset sound signal, controlling the power supply to charge the wireless earphone.

This application embodiment is through setting up first sound receiver in order to receive the first sound signal of predetermineeing that wireless earphone sent at the earphone box to whether receive first sound signal of predetermineeing through first sound receiver and confirm that wireless earphone is accomodate in accomodating the inslot, for prior art, this application embodiment can need not to realize wireless earphone's income box and detect under the condition that additionally sets up other sensors in wireless earphone.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings used in the description of the embodiments will be briefly introduced below. It is obvious that the drawings in the following description are only some embodiments of the application, and that for a person skilled in the art, other drawings can be derived from them without inventive effort.

Fig. 1 is a schematic structural diagram of an earphone device according to an embodiment of the present application.

Fig. 2 is a first structural diagram of an earphone case in the earphone device shown in fig. 1.

Fig. 3 is a second structure diagram of the earphone case of the earphone device shown in fig. 1.

Fig. 4 is a third structural diagram of the earphone case of the earphone device shown in fig. 1.

Fig. 5 is a fourth structural diagram of the earphone case of the earphone device shown in fig. 1.

Fig. 6 is a fifth structural diagram of an earphone case in the earphone device shown in fig. 1.

Fig. 7 is a schematic structural diagram of a wireless headset in the headset device shown in fig. 1.

Fig. 8 is a communication application scene diagram of the earphone box, the wireless earphone and the mobile terminal provided in the embodiment of the present application.

Fig. 9 is a flowchart illustrating a charging method for a wireless headset according to an embodiment of the present disclosure.

Detailed Description

As shown in fig. 1, fig. 1 is a schematic structural diagram of an earphone device according to an embodiment of the present application. Embodiments of the present disclosure provide an earphone device, such as the earphone device 10, the earphone device 10 may include an earphone box, such as the earphone box 20, and a wireless earphone, such as the wireless earphone 40, wherein the earphone box 20 may be configured to store the earphone box of the wireless earphone 40. Wherein wireless headset 40 refers to a very small headset designed to fit directly into the user's ear. The wireless headset 40 may be referred to as an in-ear headphone or an earbud headphone, which includes a small headset that fits inside the outer ear of the user without being inserted into the ear canal, and an in-ear headphone, sometimes referred to as an in-canal headphone, that is inserted into the ear canal itself. The wireless headset 40 may be a bluetooth headset, and the bluetooth headset may establish a connection with the mobile terminal through a bluetooth communication signal to transmit a sound signal of the mobile terminal. It should be noted that the wireless headset 40 is not limited to a bluetooth headset, and may be other types of headsets.

The wireless headset 40 is provided with a speaker such as a speaker 41, and the speaker 41 can emit a sound signal through a sound emitting terminal such as a sound emitting terminal 411. Earphone box 20 may be configured to receive the sound signal and perform corresponding operations according to the type of the sound signal, such as a box-in detection operation, a box-out detection operation, or a charging operation.

As shown in fig. 2 and 3, fig. 2 is a first structural schematic diagram of a headphone case in the headphone apparatus shown in fig. 1, and fig. 3 is a second structural schematic diagram of the headphone case in the headphone apparatus shown in fig. 1. Earphone pod 20 includes a pod such as pod 100, and pod 100 may be formed from plastic, ceramic, fiber composite, other suitable materials, or a combination of any two or more of these materials. The cartridge 100 may be formed using a one-piece configuration in which some or all of the cartridge 100 is machined or molded as a single structure, or may be formed using multiple structures (e.g., an inner frame structure, one or more structures that form an outer housing surface, etc.). Case 100 may serve as a carrier for earphone box 20 and may carry components of earphone box 20, such as a processor, a power supply, etc.

The case 100 may be provided with one or more receiving grooves 120, and the receiving grooves 120 may be used to receive the wireless headset 40. The receiving slot 120 may be sized and shaped to match the size and shape of the wireless headset 40. The receiving groove 120 may have a regular shape, such as a cylindrical structure or a rectangular parallelepiped structure, and the receiving groove 120 may also have an irregular shape.

For example, the case 100 may be provided with two receiving grooves 120, a first receiving groove and a second receiving groove, respectively, the first receiving groove may be used for receiving one earphone of the pair of wireless earphones 40, such as a left-ear earphone, and the second receiving groove may be used for receiving the other earphone of the wireless earphones 40, such as a right-ear earphone. The size and shape of the first accommodating groove are matched with those of the left-ear earphone, and the size and shape of the second accommodating groove are matched with those of the right-ear earphone.

The earphone box 20 may further include a first sound receiver such as the first sound receiver 200, and the first sound receiver 200 may be used to receive a first preset sound signal emitted from the wireless earphone 40. The first sound receiver 200 may be a microphone or other sound receiving device. The first sound receiver 200 may be provided on the case 100, for example, the first sound receiver 200 may be provided on a surface of the case 100, or provided inside the case 100. For example, the case 100 may be provided with a mounting groove, and the first sound receiver 200 may be disposed in the mounting groove, and the mounting groove may be covered by a mounting plate, so that the first sound receiver 200 is not visible from the outside of the case 100. In some embodiments, when the first sound receiver 200 is disposed inside the box body 100, a sound receiving hole may be opened on a surface of the box body 100, so that a first preset sound signal emitted from the wireless headset 40 may be transmitted to the first sound receiver 200 through the sound receiving hole to improve a sound receiving effect of the first sound receiver 200.

Earphone box 20 may further include a first processor, such as first processor 300, where first processor 300 is configured to control devices inside earphone box 20 as a control center of earphone box 20. The first processor 300 may be disposed on the cartridge 100, for example, the first processor 300 may be disposed on a surface of the cartridge 100 or inside the cartridge 100. The first processor 300 is electrically connected to the first sound receiver 200, and the first processor 300 may be configured to determine whether the first sound receiver 200 receives a first predetermined sound signal, and determine that the wireless headset 40 is accommodated in the accommodating slot 120 when the first sound receiver 200 receives the first predetermined sound signal, so as to implement the in-box detection of the wireless headset 40.

For example, when the user opens the cover of the earphone box 20, the first processor 300 may control the first sound receiver 200 to be in an operating state, and the first sound receiver 200 may be used to receive a preset sound signal, such as a first preset sound signal, emitted by the wireless earphone 40 when in the operating state. The first processor 300 determines the sound signal receiving condition of the first sound receiver 200 to determine whether the first sound receiver 200 receives the first predetermined sound signal, and performs different operations according to the determination result. The first preset sound signal sent by the wireless headset 40 may be automatically sent by the wireless headset 40, or may be sent by controlling the wireless headset 40 for a user, for example, when the wireless headset 40 is connected to a mobile terminal, the user may operate the wireless headset 40 by operating on the mobile terminal.

When the first sound receiver 200 receives the first preset sound signal as a result of the determination, it is determined that the wireless headset 40 has been placed into the receiving slot 120. In some embodiments, first processor 300 may be further configured to control earphone box 20 to issue a box reminder message after determining that wireless earphone 40 has been placed into receiving slot 120, indicating to the user that wireless earphone 40 has been successfully placed into receiving slot 120. For example, the first processor 300 may control the earphone box 20 to emit a first prompt sound for reminding the user that the wireless earphone 40 is placed in the earphone box 20, and after receiving the first prompt sound, the user may close the cover of the earphone box 20 to enclose the wireless earphone 40 in the box 100.

When the first sound receiver 200 does not receive the first predetermined sound signal, there may be various situations. For example, the wireless earphone 40 is not placed in the receiving slot 120, or the wireless earphone 40 is not placed in a predetermined position of the receiving slot 120, for example, the left-ear earphone is placed in the second receiving slot or the sound emitting end 411 of the wireless earphone 40 is not placed corresponding to the first sound receiver 200, so that the first sound receiver 200 does not receive the first predetermined sound signal, and the first sound receiver 200 may be damaged to fail to receive the first predetermined sound signal. The above is only an example of the situation where the first sound receiver 200 does not receive the first predetermined sound signal, and is not to be understood as a limitation of the possible situation where the first sound receiver 200 does not receive the first predetermined sound signal.

This application embodiment sets up first sound receiver 200 in order to receive the first sound signal of predetermineeing that wireless earphone 40 sent through setting up earphone box 20, confirms whether wireless earphone 40 accomodates in accomodating groove 120 through receiving first sound signal of predetermineeing to first sound receiver 200, and for prior art, this application embodiment can not need additionally to set up other sensors in wireless earphone 40 and can realize wireless earphone 40's income box and detect.

In some embodiments, the first processor 300 may control the first sound receiver 200 to switch between an on state and an off state, wherein the off state refers to a state without operation, such as a standby state. The first processor 300 may control the first sound receiver 200 to switch from the operating state to the off state when it is determined that the wireless headset 40 has been placed in the receiving slot 120 or it is determined that the wireless headset 40 has left the receiving slot, so as to save power consumption of the headset case 20.

In some embodiments, to prevent the first predetermined sound signal from being mixed with other sound signals emitted by the wireless headset 40, the wireless headset 40 may encode the first predetermined sound according to a predetermined encoding rule before emitting the first predetermined sound signal to distinguish the first predetermined sound signal from other sound signals. The first processor 300 may be further configured to analyze the first predetermined audio signal to determine whether the audio signal received by the first audio receiver 200 is the first predetermined audio signal. The headphone case 20 may also be additionally provided with an analysis module, such as a Digital Signal Processor (DSP), to analyze or decode the sound signal received by the first sound receiver 200.

With continued reference to fig. 2 and 3, the earphone box 20 is further provided with a power source such as a power source 400 for providing an electrical signal, the power source 400 may be provided on the box body 100, for example, the power source 400 may be provided on a surface of the box body 100, such as the power source 400 may be provided on a bottom wall surface for forming the receiving groove 120, and the wireless earphone 40 is provided with a charging port, when the wireless earphone 40 is placed in the receiving groove 120, the power source 400 may be electrically connected with the charging port, and the wireless earphone 40 may be charged through the charging port. For another example, the power supply 400 may be disposed inside the case 100, for example, the power supply 400 may be disposed in a bottom wall for forming the receiving groove 120 or a side wall for forming the receiving groove 120, and one or more power supply ports may be disposed on a surface of the case 100, and electrically connected to the charging port through the power supply port, so as to charge the wireless headset 40.

The power supply 400 is further electrically connected to the first processor 300, and the first processor 300 can control the power supply 400. The first sound receiver 200 may be further configured to receive a second preset sound signal emitted by the wireless headset 40, and the first processor 300 may be further configured to determine whether the first sound receiver 200 receives the second preset sound signal emitted by the wireless headset 40; if the first sound receiver 200 receives the second preset sound signal, the power supply 400 is controlled to charge the wireless headset 40.

For example, the first processor 300 may control the first sound receiver 200 to be in an operating state for receiving the second preset sound signal when it is determined that the wireless headset 40 has been placed in the receiving slot 120. Wherein the second preset sound signal may be used as a prompt signal indicating that the wireless headset 40 and the power supply 400 have been successfully electrically connected. The first processor 300 obtains a sound signal receiving condition of the first sound receiver 200, determines whether the first sound receiver 200 receives a second preset sound signal, and if it is determined that the first sound receiver 200 receives the second preset sound signal, it indicates that the charging port of the wireless headset 40 is successfully electrically connected to the power supply port of the power supply 400, and at this time, the first processor 300 may control the power supply 400 to output an electrical signal to charge the wireless headset 40. If it is determined that the first sound receiver 200 does not receive the second predetermined sound signal, the charging operation is not performed.

The first sound receiver 200 may be further configured to receive a third preset sound signal emitted by the wireless headset 40, and the first processor 300 may be further configured to determine whether the first sound receiver 200 receives the third preset sound signal emitted by the wireless headset 40; if the first sound receiver 200 receives the third preset sound signal, the rate of charging the wireless headset 40 by the power supply 400 is controlled and adjusted.

For example, when the power source 400 charges the wireless headset 40, in order to adjust the charging rate of the power source 400 for the wireless headset 40, the wireless headset 40 may emit a third preset sound signal, the third preset sound signal may be automatically emitted by the wireless headset 40, or may be emitted by the user controlling the wireless headset 40, for example, when the user needs to use the wireless headset 40 urgently and the electric quantity of the wireless headset 40 is low, the user may control the wireless headset 40 to emit the third preset sound signal, and when the first sound receiver 200 receives the third preset sound signal, the first processor 300 may control the power source 400 to increase the charging rate of the wireless headset 40, so as to charge the wireless headset 40 quickly.

Of course, when the first sound receiver 200 receives the third preset sound signal, the first processor 300 may also decrease the rate at which the power supply 400 charges the wireless headset 40, or the first processor 300 may also increase the rate at which the power supply 400 charges the wireless headset 40 and then decrease the rate at which the power supply 400 charges the wireless headset 40, or the first processor 300 may first decrease the rate at which the power supply 400 charges the wireless headset 40 and then increase the rate at which the power supply 400 charges the wireless headset 40. For example, the first processor 300 may first reduce the rate at which the power supply 400 charges the wireless headset 40, determine whether the electrical signal output by the power supply 400 is successfully input into the wireless headset 40, and increase the rate at which the power supply 400 charges the wireless headset 40 when it is determined that the wireless headset 40 can be normally charged. It should be noted that the charging rate for adjusting the power supply 400 to charge the wireless headset 40 is not limited to this, and may be adjusted according to actual situations, such as increasing the charging rate, decreasing the charging rate, and then increasing the charging rate.

As shown in fig. 3, the cartridge 100 may also be provided with one or more indicators, such as indicator 500, and the indicator 500 may be provided on an exterior surface of the cartridge 100, where the exterior surface is the side of the cartridge 100 that is visible from the exterior when viewed from the exterior of the cartridge 100. The indicator 500 may be used to indicate the state of charge of the power supply 400 and/or the wireless headset 40 so that the user can intuitively know the state of charge of the power supply 400 and/or the wireless headset 40 on the outer surface of the cartridge 100. For example, the cartridge 100 may include three indicators 500, one indicator 500 for indicating the power status of the power supply 400 and two other indicators 500 for indicating the power status of the wireless headset 40. One of the indicators 500 may include a plurality of indicator lights (e.g., four indicator lights), and when the power of the power supply 400 or the wireless headset 40 is 0% to 25%, one of the four indicator lights is in a light-on state, and the other three indicator lights are in a light-off state; when the electric quantity of the power supply 400 or the wireless earphone 40 is 25% -50%, two indicator lights of the four indicator lights are in a light-on state, and the other two indicator lights are in a light-off state; when the electric quantity of the power supply 400 or the wireless earphone 40 is 50% -75%, three indicator lamps of the four indicator lamps are in a light-on state, and the other indicator lamps are in a light-off state; when the power supply 400 or the wireless earphone 40 has 75% -100% of the electric quantity, all four indicator lights are in the light state. As another example, an indicator may include only one indicator light that may display different colors to indicate several different power states of the power supply 400 or the wireless headset 40.

Referring to fig. 2, the earphone box 20 may further include a cover body such as the cover body 600, and the cover body 600 may be connected to the box body 100. For example, the cover 600 may be detachably coupled to the case. When the user needs to take out the wireless headset 40, the cover 600 is separated from the case 100, so that the wireless headset 40 received in the receiving groove 120 is exposed to the outside, and the user can take out the wireless headset 40 exposed to the outside from the receiving groove 120. When a user needs to hide the wireless headset 40 in the headset box 20, the cover 600 may be connected to the box 100, and the cover 600 may enclose the wireless headset 40 inside the headset box 20.

The cover 600 is provided with a cover sensor such as cover sensor 620, and the cover sensor 620 may be used to detect when the cover 600 is in an open state and when the cover 600 is in a closed state. The lid sensor 620 may be electrically connected with the first processor 300 so that the first processor 300 may receive signals from the lid sensor 620 indicating when the lid 600 is in the open state and when in the closed state. For example, the cover sensor 620 may generate and transmit an opening signal to the first processor 300 upon detecting when the cover body 600 is in the opened state. The first processor 300 may be configured to communicate with the wireless headset 40 to trigger the wireless headset 40 to turn on its wireless communication device, such as a bluetooth communication device, when the first processor 300 receives the turn-on signal, so that it may automatically establish a connection with the mobile terminal for use by the user. The cover sensor 620 may generate and transmit a closing signal to the first processor 300 upon detecting when the cover body 600 is in a closed state. The first processor 300 may trigger the wireless headset 40 to shut down when receiving the close signal to conserve power of the wireless headset 40. Wherein the lid sensor 620 may be any type of mechanical or electrical switch including, but not limited to, a momentary switch, a capacitive sensor, a magnetic sensor, or an optical sensor, among others.

The first processor 300 may be further configured to determine whether the first sound receiver 200 receives the fourth predetermined sound signal when receiving the detection signal (such as the opening signal or the closing signal), and determine whether the wireless headset 40 is taken out of the receiving slot 120 according to the number of times that the first sound receiver does not receive the fourth predetermined sound signal if the first sound receiver 200 does not receive the fourth predetermined sound signal.

For example, when the first processor 300 receives the turn-on signal, the first processor 300 detects the sound signal received by the first sound receiver 200 within the preset time period, determines whether the sound signal received by the first sound receiver 200 within the preset time period is the fourth preset sound signal, when the determination result is that the first audio receiver 200 does not receive the fourth predetermined audio signal, the first processor 300 may further determine whether the number of times that the first audio receiver 200 does not receive the fourth predetermined audio signal is greater than a predetermined number of times, if the number of times the fourth preset sound signal is not received by the first sound receiver 200 is greater than the preset number of times it is determined that the wireless headset 40 has been taken out of the receiving slot 120, if the number of times that the fourth predetermined sound signal is not received by the first sound receiver 200 is less than or equal to the predetermined number of times, it is determined that the wireless headset 40 has not been taken out of the receiving slot 120. For example, the wireless headset 40 may emit the fourth predetermined sound signal at intervals within a predetermined time, and when the first sound receiver 200 exceeds a predetermined number of times (e.g., three times), it is determined that the wireless headset 40 has left the receiving slot 120. The embodiment of the application can realize the out-of-box detection of the wireless earphone 40 by the mode.

Fig. 4 is a third structural diagram of the earphone case of the earphone device shown in fig. 1, as shown in fig. 4. The cover 600 of the embodiment of the present application may be rotatably coupled to the case 100 such that the cover 600 may be switched between a closed state and an open state, the open state of the cover 600 refers to a state in which the receiving groove 120 is exposed, and the closed state refers to a state in which the receiving groove 120 is enclosed in the case 100. It is understood that when the cover 600 is in the closed state, the cover 600 is aligned over one or more receiving grooves 120 in the closed position of the cover 600 and the case 100, thereby enclosing the wireless headset 40 placed in the receiving groove 120 within the case; when the cover 600 is in the open state, the receiving groove 120 is exposed to the outside so that the user can take out or replace the wireless headset 40 in the receiving groove 120.

The headphone case 20 may further comprise one or more second sound receivers such as a second sound receiver 700, the second sound receiver 700 may be configured to receive the preset sound signal, such as the second sound receiver may be configured to receive a first preset sound signal, a second preset sound signal, a third preset sound signal and/or a fourth preset sound signal. The second sound receiver 700 is spaced apart from the first sound receiver 200, the second sound receiver 700 is electrically connected to the first processor 300, and the first processor 300 can control the second sound receiver 700 to be in an operating state or an off state.

The first processor 300 may be configured to activate one or more second sound receivers 700 to receive the first predetermined sound signal in cooperation with the first sound receiver 200 when the first sound receiver 200 does not receive the first predetermined sound signal. The first processor 300 may also be configured to turn off the first sound receiver 200 and activate one or more of the second sound receivers 700 to receive the first predetermined sound signal when the first sound receiver 200 does not receive the first predetermined sound signal.

For example, the first sound receiver 200 may send an instruction that the first preset sound signal is not received to the first processor 300 when the first preset sound signal is not received, and the first processor 300 may control one or more second sound receivers 700 to be activated when the instruction that the first preset sound signal is not received is received, and the second sound receivers 700 may receive the first preset sound signal after being activated. In the embodiment of the present application, by starting other sound receivers to receive the first preset sound signal, it is prevented that the first sound receiver 200 cannot receive the first preset sound signal because the sound emitting end 411 of the wireless headset 40 is not disposed corresponding to the first sound receiver 200. For another example, the first processor 300 may also control the second sound receiver 700 to start when no instruction of the first sound receiver 200 is received within a preset time period, so as to prevent the first sound receiver 200 from being damaged and thus failing to receive the first preset sound signal and failing to send an instruction to the first processor 300. Of course, the first processor 300 may also control the first sound receiver 200 to be in the off state when the second sound receiver 700 is activated, so as to prevent the first sound receiver 200 from being in the working state all the time and consuming the power of the power supply 400, and prolong the power usage time of the power supply 400.

Fig. 5 is a fourth structural diagram of the earphone case of the earphone device shown in fig. 1, as shown in fig. 5. The earphone case 20 may further include a rotation member such as the rotation member 810 and a first driving mechanism such as the first driving mechanism 910, the rotation member 810 being disposed in the receiving groove 120, for example, the rotation member 810 may be disposed on a bottom wall for forming the receiving groove 120. The rotation member 810 may be rotatably coupled to the case 100, for example, the rotation member 810 may be rotatably coupled to the case 100 by a first coupling member, and the first driving mechanism 910 may drive the rotation member 810 to rotate around the first coupling member, so that the wireless headset 40 placed in the receiving slot 120 follows the rotation member 810. The first driving mechanism 910 is further electrically connected to the first processor 300, and the first processor 300 can be used to control the first driving structure 810 to drive the rotating member 810 to rotate.

The rotation member 810 is provided with a positioning structure for positioning whether the sound emitting end 411 of the wireless headset 40 corresponds to the first sound receiver 200, the positioning structure may be a mechanical structure or an electronic structure, such as a positioning post formed on the rotation member 810, the positioning structure may be a sensor, such as an optical sensor, and the optical sensor may be used for emitting an optical signal. The first processor 300 may be further configured to detect whether the positioning structure is located at a predetermined position when the wireless headset 40 is received in the receiving slot 120 and the first sound receiver 200 does not receive the first predetermined sound signal; if the positioning structure is not located at the predetermined position, the first driving mechanism 910 is controlled to drive the rotating member 810 to rotate so that the positioning structure rotates to the predetermined position, and the sound emitting end 411 of the wireless earphone 40 corresponds to the first sound receiver 200.

For example, the earphone box 20 may be provided with a detector electrically connected to the first processor 300, the detector may be configured to detect whether the positioning structure is located at a preset position, and when the detector detects that the positioning structure is not located at the preset position, the detector may send a first instruction to the first processor 300, and after receiving the first instruction, the first processor 300 controls the first driving mechanism 910 to drive the rotating member 810 to rotate to the preset position. For example, during the rotation of the first driving mechanism 910, the detector may detect the position of the positioning structure in real time, when it is detected that the positioning structure has rotated to the preset position, the detector may send a second instruction to the first processor 300, and after receiving the second instruction, the first processor 300 controls the first driving mechanism 910 to stop operating, so as to stop rotating the rotating member 810. At this time, the positioning structure is located at the predetermined position, and the sound receiving end of the wireless headset 40 corresponds to the first sound receiver 200, so as to reduce the distance between the sound receiving end of the wireless headset 40 and the first sound receiver 200, and improve the box-entering detection accuracy of the wireless headset 40.

The first processor 300 may further control the first driving mechanism 910 to drive the rotation element 810 to rotate when the positioning structure is located at the predetermined position and the first sound receiver 200 still does not receive the first predetermined sound signal, so that the positioning structure is located at another predetermined position, and the sound emitting end 411 of the wireless headset 40 corresponds to another sound receiver, such as the second sound receiver 700.

Fig. 6 is a schematic diagram of a fifth structure of the earphone case of the earphone device shown in fig. 1, as shown in fig. 6. The earphone box 20 in the above-mentioned application embodiment may not be provided with the rotating member 810 and the first driving mechanism 910, alternatively, the earphone box 20 may be provided with the moving member 820 and the second driving mechanism 920, the moving member 820 may be disposed on the box body 100 and movably connected to the box body 100, the first sound receiver 200 is disposed on the moving member 820, and the second driving mechanism 920 may be configured to drive the moving member 820 to rotate, so as to change the position of the first sound receiver 200 on the box body 100. For example, the case 100 may be provided with a sliding groove, the sliding groove may be enclosed around the receiving groove 120, the moving member 820 may be movably connected with the sliding groove, the second driving mechanism 920 may drive the moving member 820 to move in the sliding groove, and change the position of the moving member 820 in the sliding groove, thereby changing the position of the first sound receiver 200 on the case 100, so that the first sound receiver 200 corresponds to the sound emitting end 411 of the wireless headset 40.

The second driving mechanism 920 is electrically connected to the first processor 300, and the first processor 300 is further configured to control the second driving mechanism 920 to drive the moving member 820 to move so that the first sound receiver 200 corresponds to the sound emitting end 411 of the wireless earphone 40 when the wireless earphone 40 is accommodated in the accommodating groove 120 and the first sound receiver 200 does not receive the first predetermined sound signal.

For example, when the wireless headset 40 is received in the receiving slot 120 and the first sound receiver 200 cannot receive the first predetermined sound signal, the first processor 300 may send an instruction that the first preset sound signal is not received, and after receiving the instruction sent by the first sound receiver 200, the first processor 300 controls the second driving mechanism 920 to drive the moving member 820 to move, so that the position of the first sound receiver 200 is changed, the first sound receiver 200 searches for the first predetermined sound signal in real time during the position change, and when the first sound receiver 200 receives the first predetermined sound signal, an instruction that the first preset sound signal has been received is issued to the first processor 300, and after the first processor 300 receives the instruction that the first preset sound signal has been received, the second driving mechanism 920 is controlled to stop working, so that the moving member 820 stops moving.

In some embodiments, during the process that the moving element 820 moves from the initial moving position and returns to the initial moving position, the first sound receiver 200 still does not receive the first predetermined sound signal, the first sound receiver 200 may send an instruction that the first predetermined sound signal cannot be received to the first processor 300, after receiving the related instruction, the first processor 300 may control the first sound receiver 200 to be turned off and start the second sound receiver 700 to receive the first predetermined sound signal, and if the second sound receiver 700 also cannot receive the first predetermined sound signal, the first processor 300 may send a failure notification message to notify the user that the first sound receiver 200 or the second sound receiver 700 may have a failure. It should be noted that the prompting function of the fault prompting message is not limited to this, for example, the fault prompting message may also be used to prompt that the wireless headset 40 may have a fault, so that the first preset sound signal cannot be emitted.

Referring to fig. 1, 3 and 7, fig. 7 is a schematic structural diagram of a wireless headset in the headset device shown in fig. 1. The earphone box 20 may further include a first wireless communication module such as the first wireless communication module 1000, and the first wireless communication module 1000 may be a short-range communication module such as a bluetooth communication module or a wireless fidelity communication module. Earphone box 20 may establish a connection with wireless earphone 40 through first wireless communication module 1000, so as to implement communication between earphone box 20 and wireless earphone 40, and earphone box 20 may also communicate with other electronic devices through first wireless communication module, and send the current state of earphone box 20 or wireless earphone 40 to other electronic devices. For example, earphone box 20 may establish communication with an electronic device such as a smart phone, and send the current power condition of earphone box 20 to the smart phone (e.g., it may send that the current power of earphone box 20 is low or sufficient); when the wireless headset 40 is placed in the headset box 20 for charging, the headset box 20 may also transmit the current charging status of the wireless headset 40 to the smart phone (for example, the current power of the wireless headset 40 may be transmitted to be less than 25% or 100%).

The wireless headset 40 may further include a second processor such as a second processor 42, the speaker 41 is electrically connected to the second processor 42, and the second processor 42 may control the speaker 41 to emit different types of preset sound signals under different conditions.

For example, when the wireless headset 40 is received in the receiving slot 120, the second processor 42 controls the speaker 41 to emit a first preset sound signal, which may be transmitted outward through the sound emitting end 411, so that the first preset sound signal may be transmitted to a sound receiver of the headset case 20, such as the first sound receiver 200 or the second sound receiver 700.

When the wireless earphone 40 leaves the receiving slot 120, the second processor 42 may control the speaker 41 to intermittently emit a fourth preset sound signal, for example, the second processor 42 may control the speaker 41 to intermittently emit the fourth preset sound signal within a preset time period, and when the number of times that the first sound receiver 200 does not receive the fourth preset sound signal exceeds the preset number of times, it is determined that the wireless earphone 40 has been taken out of the receiving slot 120, and the method for detecting the out-of-box of the earphone box 20 is specifically described above, and is not described herein again.

When the power of the wireless headset 40 is too low or the charging port of the wireless headset 40 is electrically connected to the power supply port of the headset case 20, the second processor 42 may control the wireless headset 40 to send a second preset sound signal to trigger the headset case 20 to charge the wireless headset 40. When the wireless headset 40 needs to increase or decrease the charging rate of the headset box 20 for charging the wireless headset 40, the second processor 42 may control the wireless headset 40 to send a third preset sound signal, and after the third preset sound signal is received by the headset box 20, the charging rate may be adjusted accordingly according to actual conditions.

The second processor 42 may be further configured to control the speaker 41 to adjust the intensity of the first preset sound signal when the first sound receiver 200 does not receive the first preset sound signal. For example, when the first sound receiver 200 does not receive the first preset sound signal, the first sound receiver 200 sends the information that the first sound receiver 200 does not receive the first preset sound signal to the wireless headset 40 through the communication between the wireless headset 40 and the headset box 20 (for example, the headset box 20 communicates with the wireless headset 40 through the first wireless communication module 1000), and the second processor 42 may perform a corresponding operation when receiving the information, for example, increase the intensity of the first preset sound signal emitted by the speaker 41, and improve the loudness of the first preset sound signal.

When the wireless headset 40 is worn in the ear of the user to play other sound signals, such as music or video, the wireless headset 40 may interfere with the playing of other sound signals if it sends a preset sound signal (e.g., a first preset sound signal or a second preset sound signal), so as to affect the listening experience of the user.

With continued reference to fig. 7, the wireless headset 40 may further include a wearing detector such as a wearing detector 43, and the wearing detector 43 may be used to detect whether the wireless headset 40 is in a wearing state, which refers to a state in which the wireless headset 40 is worn in the ear of the user. The wear detector 43 may be a capacitive detector or a light-sensitive detector (such as a proximity sensor).

The wearing detector 43 is electrically connected to the second processor 42 to obtain the detection information of the wearing detector 43, and the second processor 42 is configured to control the speaker 41 to emit a preset sound signal (e.g., a first preset sound signal) according to a preset condition when the wireless headset 40 is in an unworn state or an unworn state, where the preset condition refers to any one of the above conditions. For example, when the user wears the wireless headset 40 on the ear, and the wearing detector 43 detects that the wireless headset 40 is in the wearing state, the first detection instruction is sent to the second processor 42, the first detection instruction is an instruction that the wireless headset 40 is in the wearing state, and after receiving the first detection instruction, the second processor 42 controls the speaker 41 not to emit any preset sound signal; when the user does not wear the wireless headset 40 on the ear, the wearing detector 43 detects that the wireless headset is not in the wearing state, and sends a second detection instruction to the second processor 42, where the second detection instruction is an instruction that the wireless headset is not in the wearing state, and after the second processor 42 receives the second detection instruction, the speaker 41 is controlled to emit a corresponding preset sound signal (such as a first preset sound signal, a second preset sound signal, a third preset sound signal, or a fourth preset sound signal) under a preset condition.

As shown in fig. 7, the wireless headset 40 is further provided with a third sound receiver such as a third sound receiver 44, the third sound receiver 44 can be used for receiving sound signals emitted by the user, for example, the third sound receiver 44 can be a microphone, the user can record sound or talk with other users through the third sound receiver 44, and the like.

Fig. 8 is a communication application scene diagram of the earphone box, the wireless earphone and the mobile terminal according to the embodiment of the present application, which is shown in fig. 7 and 8. The wireless headset 40 is further provided with a wireless communication module such as a second wireless communication module 45, and the second wireless communication module 45 may be used for wireless communication with other devices, for example, the wireless headset 40 may establish a connection with the first wireless communication module 1000 of the headset case 20 through the second wireless communication module 45 so that the wireless headset 40 and the headset case 20 may communicate, or communicate with a mobile terminal such as the mobile terminal 60. The second wireless communication module 45 may be a bluetooth module, a wireless fidelity communication module, or the like. The mobile terminal 60 may be an electronic device such as a smart phone, a tablet computer, a Personal Digital Assistant (PDA), and the like.

The wireless headset 40 may wirelessly communicate with the mobile terminal 60 through the second wireless communication module 45, wherein the wireless communication operation of the wireless headset 40 may be initiated by the headset box 20, and the headset box 20 may indicate whether the wireless headset 40 establishes a connection with the mobile terminal 60 according to the state of the wireless headset 40. For example, in a case that the first wireless communication module 1000 of the earphone box 20 and the second wireless communication module 45 of the wireless earphone 40 establish a communication connection, when the wireless earphone 40 is taken out of the earphone box 20, the earphone box 20 may send an instruction for establishing a communication connection between the wireless earphone 40 and the mobile terminal 60 to the second processor 42, after receiving the instruction, the second processor 42 controls the second wireless communication module 45 to be in an operating state and initiates wireless pairing to the mobile terminal 60, and after receiving the wireless pairing, the mobile terminal 60 may establish a wireless communication connection with the wireless earphone 40 to achieve wireless communication between the mobile terminal 60 and the wireless earphone 40, thereby achieving a function of answering a call or listening to music of the mobile terminal 60 through the wireless earphone 40. When the wireless headset 40 is loaded into the headset case 20, the headset case 20 may send an instruction to disconnect the communication connection between the wireless headset 40 and the mobile terminal 60 to the second processor 42, and after receiving the instruction, the second processor 42 controls the second wireless communication module 45 to be in a closed state to disconnect the wireless headset 40 and the mobile terminal 60, so as to save power consumption of the wireless headset 40.

In other embodiments, alternatively, the connection state between the mobile terminal 60 and the wireless headset 40 may also be operated by the mobile terminal 60. For example, the mobile terminal 60 may include a third processor that may be used to operate on the wireless connection state of the mobile terminal 60. For example, in a case where the mobile terminal 60 establishes a communication connection with the first wireless communication module 1000 of the earphone box 20 or the second wireless communication module 45 of the wireless earphone 40, when the wireless earphone 40 is loaded into the earphone box 20, the wireless earphone 40 or the earphone box 20 may send an instruction that the wireless earphone 40 is loaded into the box to the third processor, and after the third processor receives the instruction that the wireless earphone 40 is loaded into the box, the third processor controls the mobile terminal 60 to disconnect from the wireless earphone 40, such as directly disconnecting the mobile terminal 60 from the wireless earphone 40 or directly turning off a wireless connection switch (e.g., a bluetooth switch) of the mobile terminal 60. When the wireless headset 40 is taken out of the headset box 20, the wireless headset 40 or the headset box 20 may send an instruction that the wireless headset 40 is taken out of the box to the third processor, and the third processor controls the mobile terminal 60 to establish a connection with the wireless headset 40, such as establishing a bluetooth communication connection, after receiving the instruction that the wireless headset 40 is taken out of the box.

As shown in fig. 9, fig. 9 is a schematic flowchart of a charging method of a wireless headset according to an embodiment of the present application. The embodiment of the present application further provides a charging method for a wireless headset, where the charging method for a wireless headset is applied to a headset case 20 shown in any one of fig. 1 to 8, and the structure of the headset case 20 is as described above, and is not described herein again. The charging method of the wireless earphone comprises the following steps:

101, determining whether the first sound receiver receives a first preset sound signal emitted by the wireless headset, wherein the structure of the wireless headset is shown in fig. 1 and 7, which is not described herein again.

For example, when the user puts the wireless headset 40 into the headset case 20, the wireless headset 40 emits a first preset sound signal, and the first sound receiver 200 in the headset case 20 receives the first preset sound signal, an instruction of "the first preset sound signal has been received" may be sent to the first processor 300, where the instruction of "the first preset sound signal has been received" is used to indicate that the first sound receiver 200 has received the first preset sound signal. The first processor 300 may determine whether the first sound receiver receives the first preset sound signal emitted by the wireless headset according to whether the instruction of "having received the first preset sound signal" is received.

102, if the first sound receiver receives the first preset sound signal, determining that the wireless headset is stored in the storage groove, and determining whether the first sound receiver receives a second preset sound signal sent by the wireless headset.

For example, when the first sound receiver 200 receives the first preset sound signal, the first sound receiver 200 sends an instruction of "the first preset sound signal has been received" to the first processor 300, and the second processor 300 receives the instruction of "the first preset sound signal has been received", and then determines that the wireless headset 40 has been received in the receiving slot 120. The first processor 300 acquires the sound signal reception condition of the first sound receiver 200 after determining that the wireless headset 40 has been received in the receiving slot 120, and determines whether the first sound receiver 200 receives the second preset sound signal. Wherein the second preset sound signal may be used as a prompt signal indicating that the wireless headset 40 and the power supply 400 have been successfully electrically connected.

103, if the first sound receiver receives the second preset sound signal, controlling the power supply to charge the wireless headset.

For example, when the first sound receiver 200 receives the second preset sound signal, the first sound receiver 200 sends an instruction of "the second preset sound signal has been received" to the first processor 300, and after the second processor 300 receives the instruction of "the second preset sound signal has been received", it is determined that the wireless headset 40 has been successfully electrically connected to the power supply 400, and the power supply 400 is controlled to output an electrical signal to charge the wireless headset 40.

In some embodiments, at 103, after controlling the power supply to charge the wireless headset if the first sound receiver receives the second preset sound signal, the method may further include:

judging whether the first sound receiver receives a third preset sound signal sent by the wireless earphone or not;

and if the first sound receiver receives the third preset sound signal, adjusting the rate of charging the wireless headset by the power supply.

For example, when the first sound receiver 200 receives the third preset sound signal, the first sound receiver 200 sends an instruction of "the third preset sound signal has been received" to the first processor 300, and the second processor 300 determines to adjust the charging rate of the power supply 400 for charging the wireless headset 40 after receiving the instruction of "the third preset sound signal has been received". For example, the first processor 300 may control the power supply 400 to increase the charging rate of the wireless headset 40 to quickly charge the wireless headset 40. For another example, the first processor 300 may also decrease the rate at which the power supply 400 charges the wireless headset 40, or the first processor 300 may increase the rate at which the power supply 400 charges the wireless headset 40 and then decrease the rate at which the power supply 400 charges the wireless headset 40, or the first processor 300 may decrease the rate at which the power supply 400 charges the wireless headset 40 first and then increase the rate at which the power supply 400 charges the wireless headset 40.

The earphone box, the earphone device, the mobile terminal and the charging method of the wireless earphone provided by the embodiment of the application are described in detail above. The principles and implementations of the present application are described herein using specific examples, which are presented only to aid in understanding the present application. Meanwhile, for those skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims

1. An earphone box for housing wireless earphones, the earphone box comprising:

2. The headset case of claim 1, wherein the first sound receiver is further configured to receive a second predetermined sound signal emitted by the wireless headset;

the earphone box is provided with the power that is used for providing the signal of telecommunication, the power with first treater electric connection, first treater still is used for:

judging whether the first sound receiver receives a second preset sound signal sent by the wireless earphone or not;

3. The headset case of claim 2, wherein the first sound receiver is further configured to receive a third predetermined sound signal emitted by the wireless headset;

the first processor is further configured to:

4. The earphone box of claim 1, wherein the box body is configured with one or more second sound receivers, the second sound receivers being spaced apart from the first sound receiver, the second sound receivers being configured to receive the first predetermined sound signal, the second sound receivers being electrically connected to the first processor, the first processor further being configured to:

if the first sound receiver does not receive the first preset sound signal, starting one or more second sound receivers to jointly receive the first preset sound signal with the first sound receiver;

or the first processor is further configured to:

if the first sound receiver does not receive the first preset sound signal, the first sound receiver is closed, and the one or more second sound receivers are started to receive the first preset sound signal.

5. The earphone box of claim 1, further comprising a rotating member and a first driving mechanism, wherein the rotating member is provided with a positioning structure for positioning whether the sound emitting end of the wireless earphone corresponds to the first sound receiver, the rotating member is disposed in the accommodating groove and rotatably connected to the box body, the rotating member is electrically connected to the first driving mechanism, and the first driving mechanism is electrically connected to the first processor;

the first processor is further configured to:

when the wireless earphone is accommodated in the accommodating groove and the first sound receiver does not receive the first preset sound signal, detecting whether the positioning structure is located at a preset position;

if the positioning structure is not located at the preset position, controlling the first driving mechanism to drive the rotating part to rotate so as to enable the positioning structure to rotate to the preset position;

when the positioning structure rotates to the preset position, the sound emitting end of the wireless earphone corresponds to the first sound receiver.

6. The earphone box according to claim 1, further comprising a moving member and a second driving mechanism, wherein the moving member surrounds the periphery of the receiving groove and is movably connected with the box body, the moving member is connected with the second driving mechanism, the second driving mechanism is electrically connected with the first processor, and the first sound receiver is disposed on the moving member;

the first processor is further configured to:

when the wireless earphone is accommodated in the accommodating groove and the first sound receiver does not receive the first preset sound signal, the second driving mechanism is controlled to drive the moving member to move so that the first sound receiver corresponds to the sound emitting end of the wireless earphone.

7. Earphone box according to any of claims 1-6, further comprising:

the cover body is connected with the box body and can be switched between a closed state and an open state, the closed state is a state that the wireless earphone is hidden in the box body, and the open state is a state that the wireless earphone is exposed outside;

the cover sensor is arranged on the cover body and used for generating a detection signal when the closed state is switched to the open state, and the cover sensor is electrically connected with the first processor;

the first sound receiver is also used for receiving a fourth preset sound signal;

the first processor is to:

when the detection signal is received, judging whether the first sound receiver receives the fourth preset sound signal;

and if the first sound receiver does not receive the fourth preset sound signal, determining whether the wireless earphone is taken out of the accommodating groove or not according to the times that the first sound receiver does not receive the fourth preset sound signal.

8. The earphone box of claim 7, wherein the first predetermined sound signal is a sound signal encoded according to a predetermined encoding rule;

the first processor is further configured to analyze a first preset sound signal received by the first sound receiver.

9. An earphone device, comprising:

an earphone box in which the wireless earphone can be housed, the earphone box being as claimed in any one of claims 1 to 8.

10. The earphone device according to claim 9, wherein the wireless earphone is provided with a second processor electrically connected with the speaker;

the second processor is used for controlling the loudspeaker to adjust the intensity of the first preset sound signal when the first sound receiver does not receive the first preset sound signal.

11. The headset apparatus of claim 9, wherein the second processor is further configured to: and when the wireless earphone is taken out of the earphone box, controlling the loudspeaker to emit a fourth preset sound signal at intervals.

12. The earphone device according to any one of claims 9 to 11, wherein the wireless earphone is provided with a wearing detector, the wearing detector is electrically connected with the second processor, and the wearing detector is used for detecting whether the wireless earphone is in a wearing state;

the second processor is used for controlling the loudspeaker to emit a first preset sound signal according to a preset condition when the wireless earphone is not in the wearing state.

13. A mobile terminal comprising a third processor configured to:

when a wireless earphone is arranged in an earphone box, the mobile terminal is controlled to be disconnected with the wireless earphone, and the earphone box is the earphone box of any one of claims 1 to 8;

14. A mobile terminal comprising a third processor configured to:

when a wireless earphone in the earphone device is arranged in an earphone box, the mobile terminal is controlled to be disconnected from the wireless earphone, and the earphone device is the earphone device of any one of claims 9 to 11;

15. A charging method of a wireless earphone is applied to an earphone box, and the earphone box is characterized by comprising the following steps:

the method comprises the following steps:

16. The method of claim 15, wherein the first sound receiving signal is further configured to receive a third preset sound signal emitted by the wireless headset;

if the first sound receiver receives the second preset sound signal, the method for controlling the power supply to charge the wireless headset comprises the following steps: