CN111067221A - Earphone box, device control method and computer readable storage medium - Google Patents

Abstract

The invention discloses an earphone box, a device control method and a computer readable storage medium, wherein the earphone box comprises a box body (110), a circuit board (120) and a driving mechanism (130), the driving mechanism (130) and the circuit board (120) are both arranged in the box body (110), the driving mechanism (130) is electrically connected with the circuit board (120), the box body (110) is provided with an opening and an accommodating groove, when an earphone (310) is placed in the accommodating groove through the opening, the driving mechanism (130) is in contact with the earphone (310), and under the action of the driving mechanism (130), the earphone (310) extends out of the accommodating groove or retracts into the accommodating groove through the opening. When the user needs to take out the earphone, the driving mechanism can drive the earphone to move, so that the earphone extends out of the accommodating groove, and the user can take out the earphone conveniently.

Description

Earphone box, device control method and computer readable storage medium

Technical Field

The present invention relates to the field of earphone technologies, and in particular, to an earphone box, a device control method, and a computer-readable storage medium.

Background

Along with electronic equipment's continuous development, traditional wired earphone is replaced by wireless earphone gradually to realize electronic equipment's nonporous better, solve the winding problem of easily knoing that wired earphone exists simultaneously, thereby promote user experience.

In order to realize the charging and storage of the wireless earphone, a corresponding earphone box needs to be equipped, the wireless earphone can be stored in the earphone box, and the earphone box can charge the wireless earphone. When the wireless earphone is stored in the earphone box, one end of the wireless earphone can be exposed, so that a user can take out the wireless earphone conveniently. However, the exposed portion of the wireless headset is typically not so large that the configuration does not facilitate the user's removal of the wireless headset.

Disclosure of Invention

The invention discloses an earphone box, a device control method and a computer readable storage medium, which aim to solve the problem that a wireless earphone is inconvenient to take out.

In order to solve the problems, the invention adopts the following technical scheme:

the utility model provides an earphone box, includes box body, circuit board and actuating mechanism, actuating mechanism with the circuit board all set up in the box body, actuating mechanism with the circuit board electricity is connected, the box body is equipped with opening and storage tank, and when the earphone passes through the opening is placed during the storage tank, actuating mechanism and earphone contact under actuating mechanism's effect, the earphone passes through the opening stretches out outside the storage tank or retract in the storage tank.

A device control method is applied to the earphone box, and the method comprises the following steps:

and driving the earphone to move relative to the box body through the driving mechanism according to the driving instruction.

The earphone box comprises a control module, and the control module is used for driving the earphone to move relative to the box body through the driving mechanism according to a driving instruction.

An earphone box comprises a processor, a memory and a computer program which is stored on the memory and can run on the processor, wherein the computer program realizes the device control method when being executed by the processor.

A computer-readable storage medium having stored thereon a computer program which, when executed, implements the above-described device control method.

The technical scheme adopted by the invention can achieve the following beneficial effects:

the earphone box disclosed by the invention is internally provided with the driving mechanism, the driving mechanism can be in contact with the earphone, and the earphone can extend out of the accommodating groove or retract into the accommodating groove through the opening under the action of the driving mechanism. When the user needs to take out the earphone, the driving mechanism can drive the earphone to move, so that the earphone extends out of the accommodating groove, and the user can take out the earphone conveniently.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 to 5 are schematic diagrams of an earphone box and an earphone disclosed in an embodiment of the present invention in different states, respectively.

Description of reference numerals:

110-box body, 111-base, 112-cover body, 120-circuit board, 130-driving mechanism, 131-driving source, 132-lead screw, 133-lead screw sleeve, 140-processor, 150-battery, 160-first detection piece, 170-second detection piece, 181-first detection part, 182-second detection part, 190-third detection piece and 310-earphone.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the specific embodiments of the present invention and the accompanying drawings. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The technical solutions disclosed in the embodiments of the present invention are described in detail below with reference to the accompanying drawings.

As shown in fig. 1-5, an embodiment of the invention discloses an earphone box, which can be used for containing an earphone 310. The earphone 310 may specifically be a Wireless earphone, and the Wireless earphone may specifically be a TWS (Wireless Stereo) earphone, where the TWS earphone employs a multipoint Wireless interconnection technology, and electronic devices such as a smart phone and a tablet computer may be connected to a primary earphone, and then the primary earphone is connected to a secondary earphone in a Wireless manner, so as to implement Wireless separation of left and right channels. The outside of the TWS earphone does not adopt the wire connection mode at all, the main earphone can work alone, and when the single track is required to be switched to the double-track stereo, the other earphone is started, and the two-track stereo mode can be formed by automatic back-chaining.

The earphone box disclosed by the embodiment of the invention specifically comprises a box body 110, a circuit board 120 and a driving mechanism 130. The case 110 may be used as an installation base of components included in the earphone case, and may be in an open state (for example, the state shown in fig. 2-4) or a closed state (for example, the state shown in fig. 1 and 5), and when the case 110 is in the open state, the earphone 310 may be taken out (for example, the state shown in fig. 3, and the state after the earphone 310 is taken out is shown in fig. 4), or the earphone 310 may be put into the case 110; when the case 110 is in the closed state, the earphone case is in an empty state (e.g., the state shown in fig. 5), or the earphone case is in a state of housing the earphones 310 (e.g., the state shown in fig. 1). The case 110 has an opening and a receiving groove, the opening is communicated with the receiving groove, and the receiving groove can receive the earphone 310. The driving mechanism 130 and the circuit board 120 are both disposed in the case body 110, the driving mechanism 130 is electrically connected to the circuit board 120, when the earphone 310 is placed in the containing slot through the opening, the driving mechanism 130 contacts the earphone 310, and the driving mechanism 130 can drive the earphone 310 to move relative to the case body 110. That is, under the action of the driving mechanism 130, the earphone 310 can extend out of the accommodating groove through the opening or retract into the accommodating groove. It should be noted that, under the action of the driving mechanism 130, the earphone 310 may extend out of the accommodating groove through the opening portion, or may extend out of the accommodating groove completely, and when the earphone 310 retracts, the earphone 310 may retract into the accommodating groove completely, so as to achieve a better accommodating effect.

Alternatively, the driving mechanism 130 may be in contact with the bottom of the earphone 310, and the operation state of the driving mechanism 130 may be manually triggered by a user, for example, a button may be provided on the case 110, and the user may trigger the driving mechanism 130 to drive the earphone 310 to move.

In addition, the earphone box may further include a processor 140 and a battery 150, the processor 140 may be disposed on the circuit board 120, and the processor 140 may implement data processing, so as to send a control signal to the driving mechanism 130, so that the driving mechanism 130 drives the earphone 310 to move. The battery 150 may be electrically connected to the circuit board 120, so as to supply power to the circuit board 120, the earphone 310, and other components, for the purposes of charging the earphone 310, ensuring that the driving mechanism 130 can output driving force, and the like.

The earphone box is provided with a driving mechanism 130, and the driving mechanism 130 can contact with the earphone 310 to drive the earphone 310 to move relative to the box body 110. When the user needs to take out the earphone 310, the driving mechanism 130 can drive the earphone 310 to move, so that the earphone 310 extends out of the accommodating groove (for example, the state shown in fig. 2 is switched to the state shown in fig. 3), and the degree of extension of the earphone 310 out of the accommodating groove can be flexibly set, thereby facilitating the user to take out the earphone 310.

In an alternative embodiment, the case 110 may specifically include a base 111 and a cover 112, the base 111 is provided with the opening and the containing groove, and the cover 112 is hinged to the base 111, so that the cover 112 can rotate relative to the base 111 to cover the opening or avoid the opening, so as to switch the earphone box between the open state and the closed state. As mentioned above, the operation state of the driving mechanism 130 can be triggered by a user, but in order to control the operation state of the driving mechanism 130 more precisely, the first detecting member 160 may be disposed on the base 111, the second detecting member 170 may be disposed on the cover 112, both the first detecting member 160 and the second detecting member 170 are electrically connected to the circuit board 120, and in case that the cover 112 rotates relative to the base 111, the first detecting member 160 and the second detecting member 170 trigger a signal for driving the driving mechanism 130. That is, when the cover 112 rotates relative to the base 111, the first detecting member 160 and the second detecting member 170 can sense the rotation of the cover 112, and accordingly obtain the rotation direction and the rotation angle of the cover 112, the first detecting member 160 and the second detecting member 170 can send signals to the processor 140, and the processor 140 controls the operating state of the driving mechanism 130 according to the signals. It can be seen that this configuration allows for more precise and sensitive control of the operating state of the drive mechanism 130.

When the headset 310 is at least partially positioned within the cartridge body 110, the position of the headset 310 will affect the state control of the drive mechanism 130. For example, when the earphone 310 is located at the top of the accommodating groove, the earphone 310 may be in a state of waiting for the user to take, or may be in a state of being accommodated in the box body 110; when the earphone 310 is located at the bottom of the receiving groove, the earphone 310 may be already received in place or may be in a state of waiting to extend out of the receiving groove. Therefore, in order to more accurately control the state of the driving mechanism 130, the earphone box may further include an earphone position detection member disposed in the box body 110 and electrically connected to the circuit board 120. The earphone position detector can detect the position of the earphone 310 in the case 110, and the earphone position detector can send the detected position signal to the processor 140, and the processor 140 controls the state of the driving mechanism 130 accordingly.

Alternatively, the earphone position detecting member may include a first detecting portion 181 and a second detecting portion 182, and the first detecting portion 181 and the second detecting portion 182 are disposed in the case 110 at intervals along the moving direction of the earphone. In the case where the earphone 310 is located at the first position, the first detection part 181 triggers a first signal; in case the earphone 310 is located at the second position, the second detection part 182 triggers the second signal. Specifically, the first position may be the top of the receiving groove (for example, as shown in fig. 3), the second position may be the bottom of the receiving groove (for example, as shown in fig. 2), the first signal may be a signal for controlling the driving mechanism 130 to stop moving, or a signal for driving the earphone 310 to retract through the driving mechanism 130, and the second signal may be a signal for controlling the driving mechanism 130 to stop moving, or a signal for driving the earphone 310 to extend through the driving mechanism 130. The earphone position detecting element can send corresponding signals when the earphone 310 is located at the first position and the second position, so that the processor 140 can obtain more comprehensive information, the state of the driving mechanism 130 can be more accurately controlled, and the position of the earphone 310 relative to the earphone box can be more accurately changed.

The specific structural form of the first detecting member 160 and the second detecting member 170 may be flexibly selected, and in order to improve the accuracy of the first detecting member 160 and the second detecting member 170, the first detecting member 160 and the second detecting member 170 may be both configured as hall sensors. When the case 110 rotates relative to the base 111, the distance between the first detecting member 160 and the second detecting member 170 changes, so that the magnetic field changes, and the first detecting member 160 and the second detecting member 170 may convert the change amount of the magnetic field into an electrical signal to be output, thereby implementing a subsequent control operation.

Similarly, the first detection unit 181 and the second detection unit 182 may be both hall sensors.

In a further embodiment, the earphone box further comprises a third detecting element 190, the third detecting element 190 is disposed in the box body 110, and the third detecting element 190 triggers a third signal when the earphone 310 is in contact with the driving mechanism 130. When the earphone 310 is in contact with the driving mechanism 130, it means that the earphone 310 is connected to the earphone box, and when the earphone 310 is not in contact with the driving mechanism 130, it means that the earphone 310 is not connected to the earphone box. The third detecting element 190 may detect whether the earphone 310 is in contact with the driving mechanism 130, and the detection result, i.e. the third signal, may be transmitted to the processor 140, and the processor 140 may determine whether to trigger the driving mechanism 130 according to the detection result. Therefore, the third detecting member 190 can further improve the control accuracy of the driving mechanism 130.

In order to optimize the detection accuracy of the third detection member 190, the third detection member 190 may be provided as a pressure sensor. When the earphone 310 is in contact with the driving mechanism 130, the pressure between the earphone 310 and the driving mechanism 130 changes, so that the third detecting element 190 obtains corresponding detection information. Alternatively, the third sensing member 190 may be provided at a portion of the driving mechanism 130 for contacting the earphone 310, so that the third sensing member 190 can sense the pressure change more sensitively.

In an alternative embodiment, the driving mechanism 130 may include a driving source 131, a lead screw 132, and a lead screw sleeve 133, wherein one end of the lead screw 132 is connected to the driving source 131, the lead screw sleeve 133 is threadedly engaged with the lead screw 132, and the lead screw sleeve 133 contacts the earphone 310 when the earphone 310 is placed in the accommodating groove through the opening. The driving source 131 here may be specifically a driving motor. The driving source 131 can drive the lead screw 132 to rotate, the lead screw 132 further drives the lead screw sleeve 133 to move, and the lead screw sleeve 133 drives the earphone 310 to move. The driving mechanism 130 has the advantages of simple structure, long service life and the like, and the transmission precision of the lead screw 132 and the lead screw sleeve 133 can be improved by the transmission mode.

The embodiment of the invention also discloses a device control method, which can be applied to the earphone box in any embodiment. The device control method specifically comprises the following steps:

and S100, driving the earphone 310 to move relative to the box body 110 through the driving mechanism 130 according to the driving command.

The driving instruction can be manually output by a user, and after the driving instruction is obtained, the driving mechanism 130 can be triggered, so that the driving mechanism 130 drives the earphone 310 to move, and the earphone 310 extends out of the accommodating groove or retracts into the accommodating groove through the opening under the action of the driving mechanism 130. Therefore, when the user needs to take out the earphone 310, the driving mechanism 130 can drive the earphone 310 to move, so that the earphone 310 extends out of the accommodating groove, thereby facilitating the user to take out the earphone 310.

Further, the driving command may include an extension command and a retraction command, and the device control method further includes:

s200, detecting whether the box body 110 is in an open state;

s400, when the box body 110 is in an open state, detecting whether the earphone 310 is positioned at the bottom of the accommodating groove;

s500, when the earphone 310 is located at the bottom of the containing groove, triggering an extending instruction, otherwise triggering a retracting instruction.

In this case, the step S100 specifically includes:

s110, driving the earphone 310 to move relative to the box body 110 along a first direction through the driving mechanism 130 according to the extending instruction until the earphone 310 extends out of the accommodating groove through the opening;

s120, driving the earphone 310 to move relative to the box body 110 along a second direction through the driving mechanism 130 according to the retraction instruction until the earphone 310 retracts into the accommodating groove through the opening;

wherein the first direction is opposite to the second direction.

When the case 110 is in the open state and the earphone 310 is located at the bottom of the accommodating groove, which means that the user may want to take out the earphone 310, an extending instruction may be triggered, and the driving mechanism 130 drives the earphone 310 to move in the first direction according to the extending instruction, so that the earphone 310 extends out of the accommodating groove, so that the user can take out the earphone 310. When the case 110 is in the open state and the earphone 310 is not located at the bottom of the accommodating groove, that is, when the earphone 310 may need to be accommodated in the case 110, a retraction command may be triggered, and the driving mechanism 130 drives the earphone 310 to move along the second direction according to the retraction command, so that the earphone 310 is retracted into the accommodating groove to accommodate the earphone 310.

Further, the step S200 may further include:

s201, when the box body 110 is in an open state, whether the earphone 310 is in contact with the driving mechanism 130 is detected.

In this case, the step S400 specifically includes:

when the case 110 is in the open state and the earphone 310 is in contact with the driving mechanism 130, it is detected whether the earphone 310 is located at the bottom of the accommodating groove.

That is, in this embodiment, only when the earphone 310 is in contact with the driving mechanism 130, it is detected whether the earphone 310 is located at the bottom of the accommodating groove. If the earphone 310 is not in contact with the driving mechanism 130, it is not necessary to detect whether the earphone 310 is located at the bottom of the receiving groove, and thus the embodiment can simplify the device control method.

After the driving mechanism 130 drives the earphone 310 to extend out of the accommodating groove, if the user cannot take out the earphone 310 in time due to other things, the driving mechanism 130 can drive the earphone 310 to be accommodated in the case 110 again in order to protect the earphone 310 and prevent the earphone 310 from falling or colliding with other objects. Therefore, the step S100 may further include:

s600, detecting whether the earphone 310 is in contact with the driving mechanism 130;

s700, when the earphone 310 is in contact with the driving mechanism 130 and the contact time of the earphone 310 and the driving mechanism 130 reaches a preset value, the driving mechanism 130 drives the earphone 310 to retract into the accommodating groove through the opening.

When the earphone 310 contacts the driving mechanism 130 and the contact time of the earphone 310 and the driving mechanism 130 reaches a preset value, that is, the user does not take out the earphone 310 in time, at this time, the driving mechanism 130 can drive the earphone 310 to be accommodated in the case 110 again. Optionally, the preset value may be set in advance, for example, the preset value may be 10s, and of course, other values may also be used as the preset value, which is not limited in this embodiment of the present invention.

The embodiment of the present invention further discloses an earphone box, which may apply the device control method described in any of the above embodiments, and may include a control module, where the control module is configured to drive the earphone 310 to move relative to the box body 110 through the driving mechanism 130 according to a driving instruction, so that the earphone 310 extends out of the accommodating groove through the opening or retracts into the accommodating groove under the action of the driving mechanism 130. Alternatively, the control module may be disposed in the processor 140 as described above. When the user needs to take out the earphone 310, the control module may control the state of the driving mechanism 130, so as to drive the earphone 310 to move through the driving mechanism 130, so that the earphone 310 extends out of the accommodating groove, thereby facilitating the user to take out the earphone 310.

Further, the earphone box may further include a first detection module and a second detection module, the first detection module is configured to detect whether the box body 110 is in an open state, and the second detection module is configured to detect whether the earphone 310 is located at the bottom of the accommodating groove when the box body 110 is in the open state, and trigger the extending instruction or the retracting instruction. The control module is used for driving the earphone 310 to move along the first direction relative to the box body 110 through the driving mechanism 130 according to the extending instruction until the earphone 310 extends out of the accommodating groove through the opening, or driving the earphone 310 to move along the second direction relative to the box body 110 through the driving mechanism 130 according to the retracting instruction until the earphone 310 retracts into the accommodating groove through the opening. Wherein the first direction is opposite to the second direction. The requirements of the user can be more accurately judged through the first detection module and the second detection module, so that the position of the earphone 310 can be more accurately changed. It should be noted that the first detecting module may include the first detecting element 160 and the second detecting element 170, and the second detecting module may be the earphone position detecting element.

In order to more accurately control the state of the driving mechanism 130, the earphone box may further include a third detection module, where the third detection module is configured to detect whether the earphone 310 is in contact with the driving mechanism 130 when the box body 110 is in the open state, and the second detection module is configured to detect whether the earphone 310 is located at the bottom of the accommodating groove when the box body 110 is in the open state and the earphone 310 is in contact with the driving mechanism 130. It should be noted that the third detecting module here can be the third detecting element 190 described above.

As mentioned above, when the driving mechanism 130 drives the earphone 310 to extend out of the accommodating slot, if the earphone 310 is in contact with the driving mechanism 130 and the contact time of the earphone 310 and the driving mechanism 130 reaches a preset value, which means that the user does not take out the earphone 310 in time, the driving mechanism 130 can drive the earphone 310 to be accommodated in the case 110 again. Therefore, the earphone box may further include a third detection module, the third detection module is configured to detect whether the earphone 310 contacts the driving mechanism 130, and the control module is further configured to drive the earphone 310 to retract into the containing groove through the opening by the driving mechanism 130 when the earphone 310 contacts the driving mechanism 130 and the contact duration of the earphone 310 and the driving mechanism 130 reaches a preset value, so as to drive the earphone 310 to be accommodated in the box body 110 again, and prevent the earphone 310 from falling off or colliding with other objects. It should be noted that the third detecting module here can also be the third detecting element 190 described above.

The embodiment of the present invention further discloses an earphone box, which includes a processor 140, a memory, and a computer program stored in the memory and capable of running on the processor 140, wherein when the computer program is executed by the processor 140, the device control method according to any of the above embodiments is implemented.

The embodiment of the invention also discloses a computer readable storage medium, wherein a computer program is stored on the computer readable storage medium, and when the computer program is executed, the device control method of any embodiment is realized.

In the above embodiments of the present invention, the difference between the embodiments is mainly described, and different optimization features between the embodiments can be combined to form a better embodiment as long as they are not contradictory, and further description is omitted here in view of brevity of the text.

The above description is only an example of the present invention, and is not intended to limit the present invention. Various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (18)

1. The utility model provides an earphone box, its characterized in that, includes box body (110), circuit board (120) and actuating mechanism (130), actuating mechanism (130) with circuit board (120) all set up in box body (110), actuating mechanism (130) with circuit board (120) electricity is connected, box body (110) are equipped with opening and storage tank, pass through as earphone (310) the opening is placed during the storage tank, actuating mechanism (130) with earphone (310) contact under the effect of actuating mechanism (130), earphone (310) pass through the opening stretches out outside the storage tank or retract in the storage tank.

2. The earphone box according to claim 1, wherein the box body (110) comprises a base (111) and a cover (112), the base (111) is provided with the opening and the containing groove, the cover (112) is hinged to the base (111), the base (111) is provided with a first detecting member (160), the cover (112) is provided with a second detecting member (170), and the first detecting member (160) and the second detecting member (170) are both electrically connected to the circuit board (120).

3. Earphone case according to claim 2, wherein said first detecting member (160) and said second detecting member (170) are both hall sensors.

4. The earphone box according to claim 1, further comprising an earphone position detector disposed in the box body (110), wherein the earphone position detector is electrically connected to the circuit board (120).

5. Earphone case according to claim 4, wherein the earphone position detection member comprises a first detection portion (181) and a second detection portion (182), and the first detection portion (181) and the second detection portion (182) are disposed in the case body (110) at intervals along the earphone moving direction.

6. Earphone box according to claim 5, wherein the first detection portion (181) and the second detection portion (182) are both Hall sensors.

7. The earphone box according to claim 1, further comprising a third detection member (190), wherein the third detection member (190) is disposed in the box body (110), and the third detection member (190) is a pressure sensor.

8. Earphone case according to claim 1, wherein the driving mechanism (130) comprises a driving source (131), a lead screw (132), and a lead screw sleeve (133), wherein one end of the lead screw (132) is connected to the driving source (131), the lead screw sleeve (133) is in threaded engagement with the lead screw (132), and the lead screw sleeve (133) is in contact with the earphone (310) when the earphone (310) is placed in the receiving slot through the opening.

9. A device control method applied to the headset case of any one of claims 1-8, the method comprising:

and driving the earphone to move relative to the box body through the driving mechanism according to the driving instruction.

10. The device control method according to claim 9, wherein the drive command includes an extension command and a retraction command, the method further comprising:

detecting whether the box body is in an open state;

when the box body is in an open state, detecting whether the earphone is positioned at the bottom of the accommodating groove;

when the earphone is positioned at the bottom of the accommodating groove, triggering an extending instruction, otherwise triggering a retracting instruction;

the driving the earphone to move relative to the box body through the driving mechanism according to the driving instruction specifically comprises:

the earphone is driven to move relative to the box body along a first direction through the driving mechanism according to the extending instruction until the earphone extends out of the accommodating groove through the opening;

the earphone is driven to move relative to the box body along a second direction through the driving mechanism according to the retraction instruction until the earphone retracts into the accommodating groove through the opening;

wherein the first direction is opposite to the second direction.

11. The device control method according to claim 10, wherein the detecting whether the cartridge is in the open state further comprises:

when the box body is in an open state, detecting whether the earphone is in contact with the driving mechanism;

when the box body is in an open state, whether the earphone is located at the bottom of the accommodating groove is detected, and the method specifically comprises the following steps:

when the box body is in an open state and the earphone is in contact with the driving mechanism, whether the earphone is located at the bottom of the accommodating groove is detected.

12. The device control method according to claim 9, further comprising, after the driving the earphone to move relative to the case by the driving mechanism according to the driving instruction:

detecting whether the earphone is in contact with the driving mechanism;

when the earphone is in contact with the driving mechanism and the contact time of the earphone and the driving mechanism reaches a preset value, the driving mechanism drives the earphone to retract into the accommodating groove through the opening.

13. An earphone box to which the device control method of any one of claims 9-12 is applied, wherein the earphone box comprises a control module, and the control module is configured to drive the earphone to move relative to the box body through the driving mechanism according to a driving instruction.

14. The headset case of claim 13, further comprising:

the first detection module is used for detecting whether the box body is in an open state or not;

the second detection module is used for detecting whether the earphone is positioned at the bottom of the accommodating groove or not when the box body is in an open state, and triggering an extending instruction or a retracting instruction;

the control module is used for driving the earphone to move relative to the box body along a first direction through the driving mechanism according to the extending instruction until the earphone extends out of the accommodating groove through the opening, or driving the earphone to move relative to the box body along a second direction through the driving mechanism according to the retracting instruction until the earphone retracts into the accommodating groove through the opening;

wherein the first direction is opposite to the second direction.

15. The earphone box of claim 14, further comprising a third detection module, wherein the third detection module is configured to detect whether the earphone is in contact with the driving mechanism when the box body is in the open state, and the second detection module is configured to detect whether the earphone is located at the bottom of the accommodating groove when the box body is in the open state and the earphone is in contact with the driving mechanism.

16. The earphone box of claim 13, further comprising a third detection module, wherein the third detection module is configured to detect whether the earphone is in contact with the driving mechanism, and the control module is further configured to drive the earphone to retract into the accommodating groove through the opening by the driving mechanism when the earphone is in contact with the driving mechanism and a contact duration of the earphone and the driving mechanism reaches a preset value.

17. Earphone box, characterized in that it comprises a processor, a memory and a computer program stored on said memory and executable on said processor, said computer program, when executed by said processor, implementing the device control method of any of claims 9 to 12.

18. A computer-readable storage medium, characterized in that a computer program is stored thereon, which when executed implements the device control method of any one of claims 9 to 12.

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