CN114631676A - Storage device and electronic apparatus - Google Patents

Abstract

The application provides a containing device and electronic equipment, wherein the containing device comprises a shell, a first bin body, a second bin body and a driving assembly, the driving assembly is arranged in the shell, the driving assembly is used for driving the first bin body and the second bin body to move, specifically, a first accommodating groove is formed in the first bin body, and a second accommodating groove is formed in the second bin body; the driving component can drive the first bin body and the second bin body to move to be close to and far away from each other. When being close to each other, first holding tank on the first storehouse body and the second holding tank on the second storehouse body mutually support, and both lock are in the same place, form a list and hold the chamber. When the first holding tank and the second holding tank are far away from each other, the first holding tank and the second holding tank are separated.

Description

Storage device and electronic apparatus

Technical Field

The application belongs to the technical field of electronic equipment, and particularly relates to an accommodating device and electronic equipment.

Background

In the related art, the earphone bins of the wireless bluetooth earphones are usually inserted into the earphone bins separately from the earphones of the left and right ears, the earphones of the left and right ears and the respective earphone bins are in one-to-one correspondence, and if the earphones are inserted by mistake, the earphones need to be pulled out and replaced into another earphone bin to be inserted again, and the operation is repeated, so that the working efficiency and the user experience are influenced, the accommodating side walls of the earphone bins are scratched by redundant scratches, and the service life of the wireless bluetooth earphones is influenced.

Disclosure of Invention

The application aims at providing a storage device and electronic equipment, can solve among the related art storage device when accomodating the earphone, easily appear one of the technical problem of the condition that left ear and right ear adorn conversely.

In order to solve the technical problem, the present application is implemented as follows:

in a first aspect, the present application provides a storage device, comprising:

a housing;

the first bin body comprises a first accommodating groove;

the second bin body comprises a second accommodating groove;

the casing is located to drive assembly, and drive assembly is used for driving the relative motion in the first storehouse body and the second storehouse body to make first holding tank and second holding tank cooperate and form singly to hold the chamber, or make first holding tank and second holding tank phase separation.

In a second aspect, the present application provides an electronic device comprising:

an earphone;

the storage device as set forth in the first aspect.

In the embodiment of this application, storage device includes casing, the first storehouse body, the second storehouse body and drive assembly, and drive assembly sets up in the casing to, drive assembly is used for driving the motion of the first storehouse body and the second storehouse body, specifically, has first holding tank on the first storehouse body, has the second holding tank on the second storehouse body, and drive assembly can drive the motion of the first storehouse body and the second storehouse body to be close to mutually and keep away from mutually.

When being close to mutually, first holding tank on the first storehouse body and the second holding tank on the second storehouse body mutually support, and both lock together, form a list and hold the chamber, under such state, whole storage device only has a list and holds the chamber, and then when placing the earphone, can only place and hold the chamber at the list to need not storage device's the position of accomodating and the matching state of earphone respectively.

When keeping away from mutually, first holding tank and second holding tank separation, and then an earphone can be placed respectively to first holding tank and second holding tank, specifically, after placing an earphone in storage device, the first storehouse body of drive assembly and the second storehouse body of drive move to keeping away from mutually to first holding tank and second holding tank separation form two storage positions, thereby can place another earphone in storage device.

As above, this application is through the drive of drive assembly to the first storehouse body and the second storehouse body for whole storage device can present the state that has one and accomodate position and two and accomodate the position, and then when accomodating the earphone, only one accomodates the position and has reduced the possibility that left ear earphone and right ear earphone misplaced, realizes the effect of blind insertion, has reduced storage device and earphone and has received frictional influence, has promoted earphone and storage device's life.

Additional aspects and advantages of the present application will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the present application.

Drawings

The above and/or additional aspects and advantages of the present application will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 shows a schematic view of a storage apparatus provided by an embodiment of the present application;

fig. 2 shows an exploded view of a first cartridge body, a first protection member and a first power member in the storage device provided by an embodiment of the present application;

fig. 3 illustrates an exploded view of a second cartridge body, a second protection member, and a second power member in the storage device provided by an embodiment of the present application;

fig. 4 shows a cross-sectional view of a second drive mechanism and a second cartridge body in the storage device provided by one embodiment of the present application;

fig. 5 is a schematic view illustrating a first accommodating groove and a second accommodating groove of a receiving device according to an embodiment of the present application;

FIG. 6 is a cross-sectional view of the storage device A-A shown in FIG. 5;

fig. 7 is a schematic view illustrating a first accommodating groove and a second accommodating groove of a receiving device according to an embodiment of the present application;

fig. 8 is a schematic view illustrating a receiving device provided by an embodiment of the present application being matched with a headset in a state that a first receiving groove and a second receiving groove are matched;

fig. 9 is a schematic view illustrating that the accommodating device provided by an embodiment of the present application is matched with the first main body of the earphone under the condition that the first accommodating groove and the second accommodating groove are matched, and the first bin body is located at the side;

fig. 10 is a schematic view illustrating the receiving device provided by an embodiment of the present application being engaged with the first main body of the earphone when the first receiving groove and the second receiving groove are engaged, the first driving mechanism and the first moving mechanism are both located at the side, and the first protecting member and the first mounting groove form a first receiving cavity;

fig. 11 is a schematic view illustrating the receiving device provided by an embodiment of the present application being engaged with the first main body of the earphone when the first receiving groove and the second receiving groove are engaged, and the first driving mechanism and the first moving mechanism are both located at the side, and the first protecting member and the first mounting groove form a first receiving cavity, and the second protecting member and the second mounting groove form a second receiving cavity;

fig. 12 is a schematic view showing the receiving device provided in an embodiment of the present application, which is fitted to the earphone with the first receiving groove and the second receiving groove separated from each other, and the first protecting member and the first mounting groove form a first receiving cavity and the second protecting member and the second mounting groove form a second receiving cavity;

fig. 13 is a schematic view illustrating the receiving device provided by an embodiment of the present application being engaged with the second main body of the earphone when the first receiving groove and the second receiving groove are engaged, and the first driving mechanism and the first moving mechanism are both located at the side, and the first protecting member and the first mounting groove form a first receiving cavity, and the second protecting member and the second mounting groove form a second receiving cavity;

fig. 14 is a schematic view illustrating a first positioning assembly of the receiving device and a first main body of the earphone according to an embodiment of the present application;

fig. 15 is a schematic view illustrating the second positioning assembly and the second main body of the earphone in the receiving device according to an embodiment of the present application;

FIG. 16 shows a schematic view of an electronic device provided by an embodiment of the present application;

fig. 17 shows a schematic flow chart of the action of the storage device provided by an embodiment of the present application when the earphone is inserted:

fig. 18 is a schematic flow chart illustrating the operation of the storage device when the earphone is taken out according to an embodiment of the present application.

Reference numerals of fig. 1 to 16:

100 receiving device, 110 housing, 112 first guide portion, 114 second guide portion, 120 first cartridge body, 122 first receiving groove, 124 first slide way, 130 second cartridge body, 132 second receiving groove, 134 second slide way, 140 driving component, 142 first driving mechanism, 1422 first power member, 1424 first screw rod, 144 second driving mechanism, 1442 second power member, 1444 second screw rod, 152 first protecting member, 154 first moving mechanism, 156 first slider, 162 second protecting member, 164 second moving mechanism, 166 second slider, 172 first positioning component, 174 second positioning component, 182 single receiving cavity, 184 first receiving cavity, 186 second receiving cavity, 200 electronic device, 210 first main body, 220 second main body, 232 third positioning component, 234 fourth positioning component.

Detailed Description

Reference will now be made in detail to embodiments of the present application, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present application and are not to be construed as limiting the present application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The features of the terms first and second in the description and in the claims of the present application may explicitly or implicitly include one or more of such features. In the description of the present application, "a plurality" means two or more unless otherwise specified. In addition, "and/or" in the specification and claims means at least one of connected objects, a character "/" generally means that a preceding and succeeding related objects are in an "or" relationship.

In the description of the present application, it is to be understood that the terms "upper", "inner", and the like, indicate orientations or positional relationships based on those shown in the drawings, are merely for convenience in describing the present application and simplifying the description, and do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present application.

In the description of the present application, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in this application will be understood to be a specific case for those of ordinary skill in the art.

The housing apparatus and the electronic apparatus 200 according to the embodiment of the present application are described below with reference to fig. 1 to 18.

As shown in fig. 1, a storage apparatus 100 according to an embodiment of the present application includes: a housing 110; a first cartridge body 120, the first cartridge body 120 comprising first receiving slots 122; a second cartridge body 130, the second cartridge body 130 comprising second receiving slots 132; the driving assembly 140 is disposed on the casing 110, and the driving assembly 140 is used for driving the first cartridge body 120 and the second cartridge body 130 to move relatively, so that the first receiving groove 122 and the second receiving groove 132 are matched to form the single receiving cavity 182, or the first receiving groove 122 and the second receiving groove 132 are separated from each other.

In an embodiment of the present application, the storage device 100 comprises a casing 110, a first cartridge body 120, a second cartridge body 130 and a driving assembly 140, wherein the casing 110 has a mounting groove, the driving assembly 140 is disposed in the mounting groove, part or all of the first cartridge body 120 is located in the mounting groove, and part or all of the second cartridge body 130 is located in the mounting groove.

The driving assembly 140 is connected to at least one of the first cartridge body 120 and the second cartridge body 130, so that the driving assembly 140 can drive the first cartridge body 120 and the second cartridge body 130 to move relatively, wherein the first cartridge body 120 has a first receiving groove 122 thereon, and the second cartridge body 130 has a second receiving groove 132 thereon, as shown in fig. 5, the first cartridge body 120 and the second cartridge body 130 can make the first receiving groove 122 of the first cartridge body 120 and the second receiving groove 132 of the second cartridge body 130 cooperate with each other under the action of the driving assembly 140, that is, the notch of the second receiving groove 132 is opposite to the notch of the second receiving groove 132, so as to form a single receiving cavity 182, the single receiving cavity 182 has an opening, the first body 210 or the second body 220 of the earphone can be placed in the single receiving cavity 182 through the opening, and when the first receiving groove 122 and the second receiving groove 132 form the single receiving cavity 182, the first cartridge body 120 and the second cartridge body 130 can be abutted against each other, of course, a certain gap may be left between the first cartridge body 120 and the second cartridge body 130, and the gap is only required to be sufficient that the first main body 210 or the second main body 220 of the earphone is not separated from the single accommodating cavity 182 by the gap after being inserted. Wherein the first and second cartridge bodies 120, 130 can move in a translational or rotational manner.

Specifically, the drive assembly 140 is configured to drive the first and second cartridge bodies 120, 130 toward and away from one another.

When being close to each other, the first receiving groove 122 on the first cartridge body 120 and the second receiving groove 132 on the second cartridge body 130 are mutually matched and buckled together to form a single receiving cavity 182, and in such a state, the whole receiving device 100 only has one single receiving cavity 182, and further when placing earphones, the single receiving cavity 182 can only be placed, so that the receiving position of the receiving device 100 and the matching state of the earphones are not needed.

When the two earphones are far away from each other, the first accommodating groove 122 and the second accommodating groove 132 are separated, and then the first accommodating groove 122 and the second accommodating groove 132 can respectively accommodate one earphone, specifically, after one earphone is placed in the accommodating device 100, the driving assembly 140 can drive the first bin body 120 and the second bin body 130 to move to be far away from each other, so that the first accommodating groove 122 and the second accommodating groove 132 are separated to form two accommodating positions, and thus, another earphone can be placed in the accommodating device 100.

As above, this application is through the drive of drive assembly 140 to first storehouse body 120 and second storehouse body 130 for whole storage device 100 can present the state that has one and accomodate the position and two, and then when accomodating the earphone, only one accomodates the position and has reduced the possibility that left ear earphone and right ear earphone misplaced, has reduced storage device 100 and earphone and has received the influence of friction, has promoted earphone and storage device 100's life.

Specifically, the first and second cartridge bodies 120 and 130 are disposed side by side, and one end of the first and second cartridge bodies 120 and 130 is disposed toward the bottom side of the casing 110, and the other side of the first and second cartridge bodies 120 and 130 is exposed at the notch of the mounting groove of the casing 110, and then the opening of the single accommodating cavity 182 is exposed at the notch of the mounting groove of the casing 110, wherein the notch of the first accommodating groove 122 faces the second cartridge body 130, and the notch of the second accommodating groove 132 faces the first cartridge body 120. Wherein, the first cartridge body 120 is movable relative to the casing 110, and the second cartridge body 130 is movable relative to the casing 110.

Wherein the single receiving cavity 182 is disposed corresponding to a handle of the first body 210 or the second body 220 of the headset.

As shown in fig. 1, 2 and 3, as one possible embodiment, the storage apparatus 100 further includes: a protective member movably disposed on at least one of the first bin body 120 and the second bin body 130; and a moving mechanism disposed on at least one of the first and second cartridges 120 and 130 and connected to the protecting member to allow the protecting member to be engaged with or disengaged from at least one of the first and second receiving grooves 122 and 132. Wherein, the protection member is disposed on the first bin body 120, or on the second bin body 130, or the protection member is disposed on the first bin body 120 and the second bin body 130.

The moving mechanism is disposed on the first cartridge body 120, the protecting member is disposed on the moving mechanism, and the moving mechanism can drive the protecting member to move, so as to cooperate with the first receiving groove 122 to form the first receiving cavity 184, that is, the protecting member forms a part of the sidewall of the first receiving cavity 184, the sidewall of the first receiving groove 122 forms a part of the sidewall of the first receiving cavity 184, so as to form the first receiving cavity 184, the opening of the first receiving cavity 184 is exposed to the notch of the mounting groove of the housing 110, and the first main body 210 of the earphone can be placed in the first receiving cavity 184 through the opening.

Similarly, the motion mechanism is disposed on the second cartridge body 130, the protection member is disposed on the motion mechanism, and the motion mechanism can drive the protection member to move, so as to cooperate with the second accommodating groove 132, forming the second accommodating cavity 186, that is, the protection member forms a part of the sidewall of the second accommodating cavity 186, the sidewall of the second accommodating groove 132 forms a part of the sidewall of the second accommodating cavity 186, thereby forming the second accommodating cavity 186, the opening of the second accommodating cavity 186 is exposed to the notch of the mounting groove of the housing 110, and the second main body 220 of the headset can be placed in the second accommodating cavity 186 through the opening.

Wherein the protection member comprises the first protection member 152 and/or the second protection member 162 and the movement mechanism comprises the first movement mechanism 154 and/or the second movement mechanism 164. A first protector 152 movably disposed on the first chamber 120; the first moving mechanism 154 is arranged on the first bin body 120 and is connected with the first protecting piece 152, so that the first protecting piece 152 is matched with the first accommodating groove 122 to form a first accommodating cavity 184, or the first protecting piece 152 is not matched with the first accommodating groove 122; and/or a second protection member 162 movably disposed on the second chamber body 130; the second moving mechanism 164 is disposed on the second bin 130 and connected to the second protection member 162, so that the second protection member 162 and the second receiving groove 132 cooperate to form the second receiving cavity 186, or the second protection member 162 and the second receiving groove 132 disengage.

Specifically, the storage device 100 may include the first protector 152 and the first moving mechanism 154, or the storage device 100 includes the second protector 162 and the second moving mechanism 164, or the storage device 100 includes the first protector 152, the first moving mechanism 154, the second protector 162, and the second moving mechanism 164.

The first moving mechanism 154 is disposed on the first cartridge body 120, the first protector 152 is disposed on the first moving mechanism 154, and the first moving mechanism 154 can drive the first protector 152 to move, so as to cooperate with the first receiving groove 122 to form the first receiving cavity 184, that is, the first protector 152 forms a part of the side wall of the first receiving cavity 184, the side wall of the first receiving groove 122 forms a part of the side wall of the first receiving cavity 184, so as to form the first receiving cavity 184, the opening of the first receiving cavity 184 is exposed in the notch of the mounting groove of the housing 110, and the first main body 210 of the earphone can be placed in the first receiving cavity 184 through the opening.

Specifically, after the first and second cartridge bodies 120 and 130 are separated and the first and second receiving grooves 122 and 132 are far away from each other, the first moving mechanism 154 can drive the first protector 152 to move, so as to protect the first main body 210 of the earphone and improve the stability of the first main body 210 when being placed on the first cartridge body 120.

The second moving mechanism 164 is disposed on the second cartridge body 130, the second protecting member 162 is disposed on the second moving mechanism 164, and the second moving mechanism 164 can drive the second protecting member 162 to move so as to cooperate with the second receiving groove 132 to form the second receiving cavity 186, that is, the second protecting member 162 forms a part of the sidewall of the second receiving cavity 186, the sidewall of the second receiving groove 132 forms a part of the sidewall of the second receiving cavity 186 so as to constitute the second receiving cavity 186, the opening of the second receiving cavity 186 is exposed to the notch of the mounting groove of the housing 110, and the second main body 220 of the earphone can be placed in the second receiving cavity 186 through the opening.

Specifically, after the first and second storage slots 120 and 130 are separated and the first and second storage slots 122 and 132 are far away from each other, the second moving mechanism 164 can drive the second protecting member 162 to move, so as to protect the second body 220 of the earphone and improve the stability of the second body 220 when being placed on the second storage slot 130.

As shown in fig. 1, 2 and 3, as a possible embodiment, the moving mechanism is a rotating member for driving the protecting member to rotate so that the protecting member is screwed into or out of at least one of the first receiving groove and the second receiving groove.

Specifically, the moving mechanism is a rotating member, and the protecting member can rotate relative to the first bin 120, wherein the moving mechanism can rotate the protecting member to open the first receiving groove 122 toward one side of the second bin 130, and the moving mechanism can also rotate the protecting member to close the first receiving groove 122 toward one side of the second bin 130, where the closing can be complete or partial.

Similarly, the moving mechanism adopts a rotating member, and then the protecting member can rotate relative to the second bin body 130, wherein the moving mechanism can make the protecting member rotate to open the second receiving groove 132 towards one side of the first bin body 120, and the moving mechanism can also make the protecting member rotate to close the second receiving groove 132 towards one side of the first bin body 120, and the closing can be completely closed or partially closed.

Specifically, the first movement mechanism 154 is a first rotating member; and/or the second motion mechanism 164 is a second rotating member.

Specifically, the first moving mechanism 154 is a first rotating member, or the second moving mechanism 164 is a second rotating member, or the first moving mechanism 154 is a first rotating member, and the second moving mechanism 164 is a second rotating member. The first moving mechanism 154 is a motor, and the second moving mechanism 164 is a motor.

Specifically, the first moving mechanism 154 adopts a first rotating member, and then the first protecting member 152 can rotate relative to the first cartridge body 120, wherein the first moving mechanism 154 can make the first protecting member 152 rotate and enter the first receiving groove 122, so that one side of the first receiving groove 122 facing the second cartridge body 130 is open, and the first moving mechanism 154 can also make the first protecting member 152 rotate out of the first receiving groove 122, so as to block the notch of the first receiving groove 122, so that one side of the first receiving groove 122 facing the second cartridge body 130 is closed, and the closing here can be completely closed or partially closed.

The rotation motion mode can make the first protection member 152 occupy less space during the motion process, and reduce the volume of the storage device 100.

The second moving mechanism 164 adopts a second rotating member, and the second protecting member 162 can rotate relative to the second bin 130, wherein the second moving mechanism 164 can make the second protecting member 162 rotate and enter the second receiving groove 132, so that the second receiving groove 132 is open towards one side of the first bin 120, and the second moving mechanism 164 can also make the second protecting member 162 rotate out of the second receiving groove 132, so as to block the notch of the second receiving groove 132, so that the second receiving groove 132 is closed towards one side of the first bin 120, and the closing can be completely closed or partially closed.

The rotation motion mode can make the second protection member 162 occupy less space during the motion process, and reduce the volume of the storage device 100.

As a possible embodiment, as shown in fig. 2 and 3, a side wall of at least one of the first receiving groove and the second receiving groove has a curved surface, and the protection member may follow the curved surface.

Specifically, the protection member is a semi-circular arc structure, and the first receiving groove 122 is also a semi-circular arc structure, and when the motion mechanism drives the protection member to move, the protection member can rotate at one side of the side wall of the first receiving groove 122, and the protection member can rotate to the first receiving groove 122, so that the protection member and the side wall of the first receiving groove 122 are stacked together, and the protection member can also be opposite to the side wall of the first receiving groove 122, thereby forming the first receiving cavity 184.

Similarly, the protection member is a semi-circular arc structure, the second receiving groove 132 is a semi-circular arc structure, and when the motion mechanism drives the protection member to move, the protection member can rotate at one side of the sidewall of the second receiving groove 132, and the protection member can rotate to the second receiving groove 132, so that the protection member and the sidewall of the second receiving groove 132 are stacked together, and the protection member can also be opposite to the sidewall of the second receiving groove 132, thereby forming the second receiving cavity 186.

Wherein, the side wall of the first receiving groove 122 is a curved surface, and the first protection member 152 can rotate along the side wall of the first receiving groove 122; and/or the side wall of the second receiving groove 132 is curved, and the second protection member 162 can rotate along the side wall of the second receiving groove 132.

Specifically, the first protection member 152 can rotate along the curved sidewall of the first receiving groove 122, or the second protection member 162 can rotate along the curved sidewall of the second receiving groove 132, or the first protection member 152 can rotate along the curved sidewall of the first receiving groove 122, and the second protection member 162 can rotate along the curved sidewall of the second receiving groove 132.

The side wall of the first receiving groove 122 is an arc surface, specifically a semi-arc structure, and the side wall of the second receiving groove 132 is an arc surface, specifically a semi-arc structure.

Specifically, the first protection member 152 has a semi-circular arc structure, the side wall of the first receiving groove 122 has the same semi-circular arc structure, and when the first moving mechanism 154 drives the first protection member 152 to move, the first protection member 152 can rotate on one side of the side wall of the first receiving groove 122, and the first protection member 152 can rotate into the first receiving groove 122, so that the first protection member 152 and the side wall of the first receiving groove 122 are stacked together, and the first protection member 152 can also be opposite to the side wall of the first receiving groove 122, thereby forming the first receiving cavity 184.

Further, the first moving mechanism 154 may rotate q degrees at a time, so that the first protector 152 and the side wall of the first receiving groove 122 are stacked, or the first protector 152 and the side wall of the first receiving groove 122 are opposite, and q has a value of 90 degrees to 270 degrees. The first moving mechanism 154 drives the first protection member 152 to move in two adjacent movements, which may be reciprocating movements or equidirectional movements.

The second protection member 162 has a semi-circular arc structure, the side wall of the second receiving groove 132 has the same semi-circular arc structure, and when the second movement mechanism 164 drives the second protection member 162 to move, the second protection member 162 can rotate at one side of the side wall of the second receiving groove 132, and the second protection member 162 can rotate into the second receiving groove 132, so that the second protection member 162 and the side wall of the second receiving groove 132 are stacked together, and the second protection member 162 can also be opposite to the side wall of the second receiving groove 132, thereby forming the second receiving cavity 186.

Further, the second moving mechanism 164 can rotate q degrees at a time, so that the second protection member 162 and the sidewall of the second receiving groove 132 are stacked, or the second protection member 162 and the sidewall of the second receiving groove 132 are opposite to each other, and q is 90 degrees to 270 degrees. The second moving mechanism 164 drives the second protection member 162 to move in two adjacent directions, which may be reciprocating or equidirectional.

Further, be provided with first slide 124 on the lateral wall of first holding tank 122, be provided with first slider 156 on first protection piece 152, first slider 156 slides in first slide 124, specifically, the edge of one side that first protection piece 152 deviates from first motion 154 forms the hem to the convex one side of first protection piece 152, first slider 156 sets up on the hem, first slide 124 is "L" shape structure to first slider 156 can insert in first slide 124, forms sliding connection. Specifically, the first slider 156 and the first guard 152 form a flared structure.

The second slide way 134 is arranged on the side wall of the second accommodating groove 132, the second protection member 162 is provided with a second slider 166, the second slider 166 slides in the second slide way 134, specifically, the edge of the side of the second protection member 162 facing away from the second moving mechanism 164 is folded towards the convex side of the second protection member 162, the second slider 166 is arranged on the folded edge, and the second slide way 134 is in an "L" shape structure, so that the second slider 166 can be inserted into the second slide way 134 to form a sliding connection. Specifically, the second slider 166 and the second protector 162 form a flared structure.

As shown in fig. 1, 4 and 6, as one possible embodiment, the driving assembly 140 includes: the first driving mechanism 142 is arranged on the shell 110, connected with the first bin body 120 and used for driving the first bin body 120 to move; the second driving mechanism 144 is disposed on the housing 110, and connected to the second cartridge body 130, for driving the second cartridge body 130 to move.

Specifically, the driving assembly 140 includes a first driving mechanism 142 and a second driving mechanism 144, the first driving mechanism 142 and the second driving mechanism 144 are both installed in the installation groove of the casing 110, wherein the first driving mechanism 142 is used for driving the first cartridge body 120, the second driving mechanism 144 is used for driving the second cartridge body 130, and then the first cartridge body 120 and the second cartridge body 130 can move in opposite directions or in opposite directions, and under the condition that both the first cartridge body 120 and the second cartridge body 130 can move, the independent stroke of the first cartridge body 120 or the second cartridge body 130 is reduced, so that the overall moving process is quicker.

Moreover, the first driving mechanism 142 and the second driving mechanism 144 can operate independently, so that the reliability of the whole system is improved, the first driving mechanism 142 can drive the first bin body 120 to move to the side position and the middle position, and the second driving mechanism 144 can drive the second bin body 130 to move to the side position and the middle position, so that the first bin body 120 and the second bin body 130 can form three states, namely a first state: the first cartridge body 120 and the second cartridge body 130 are in the middle position, that is, the first cartridge body 120 and the second cartridge body 130 are close to each other, and the first accommodating grooves 122 and the second accommodating grooves 132 are matched with each other to form a single accommodating cavity 182; the second state: one of the first cartridge body 120 and the second cartridge body 130 is in the intermediate position and the other is in the lateral position, so that the first receiving grooves 122 and the second receiving grooves 132 are in a less separated state; the third state: the first cartridge body 120 and the second cartridge body 130 are both in the lateral position such that the first receiving grooves 122 and the second receiving grooves 132 are in a fully separated state.

Specifically, as for the specific process of storing the earphones by the storage device 100, if there is no earphone in the storage device 100, then as shown in fig. 7, the first bin 120 and the second bin 130 are in the first state, as shown in fig. 8, the first body 210 of earphones can be inserted into the single-storage cavity 182 and engaged with the first bin 120, then, as shown in fig. 9, the first driving mechanism 142 is operated, the first bin 120 and the second bin 130 are in the second state, then, as shown in fig. 10, the first moving mechanism 154 drives the first protecting member 152 and the first receiving groove 122 to be engaged to protect the first body 210 of earphones, then, as shown in fig. 11, the second bin 130 is moved, so that the first bin 120 and the second bin 130 are in the third state, and the second moving mechanism 164 drives the second protecting member 162 and the second receiving groove 132 to be engaged, then, as shown in fig. 12, the second body 220 of the earphone can be inserted into the second receiving cavity 186 so that only one jack on the receiving device 100 remains available, thereby achieving blind insertion of the earphone.

If the first body 210 of the earphone is inside the receiving device 100, as shown in fig. 11, the first and second cartridges 120 and 130 are in the third state, and the second protecting member 162 and the second receiving groove 132 are engaged, so that only one available jack of the second receiving cavity 186 is reserved, as shown in fig. 12, the second body 220 of the earphone can be inserted into the second receiving cavity 186, so that only one available jack of the receiving device 100 is kept, and thus the blind insertion of the earphone is realized.

As for a specific process of taking out the receiving device 100, if there is a first body 210 of earphones in the receiving device 100, at this time, as shown in fig. 11, the first and second cartridge bodies 120 and 130 are in the third state, and the second protecting member 162 and the second receiving groove 132 are engaged, only one available jack of the second receiving cavity 186 remains, and after taking out the first body 210, if there is an insertion of earphones within a preset time period, as shown in fig. 7, the first and second cartridge bodies 120 and 130 can move to the first state.

If the first body 210 and the second body 220 of the earphones are present in the storage device 100, at this time, as shown in fig. 12, the first bin body 120 and the second bin body 130 are in the third state, after the first body 210 of the earphones is taken out, as shown in fig. 13, the first bin body 120 and the second bin body 130 are in the third state, and the first protector 152 and the first receiving groove 122 are matched, only one available jack of the first receiving cavity 184 is reserved, and if the second body 220 of the earphones is taken out again and the earphones are inserted within the preset time period, as shown in fig. 7, the first bin body 120 and the second bin body 130 can be moved to the first state.

As shown in fig. 1 and 4, as one possible embodiment, the first driving mechanism 142 includes: a first power member 1422 disposed on the housing 110; a first screw 1424 connected to the first power member 1422 and screwed to the first bin 120; and/or the second drive mechanism 144 includes: a second power member 1442 provided to the housing 110; a second screw 1444 connected with the second power member 1442 and screwed with the second cartridge body 130. The first power member 1422 is a motor, and the second power member 1442 is a motor.

Specifically, the first driving mechanism 142 includes a first power member 1422 and a first screw 1424, or the second driving mechanism 144 includes a second power member 1442 and a second screw 1444, or the first driving mechanism 142 includes a first power member 1422 and a first screw 1424, and the second driving mechanism 144 includes a second power member 1442 and a second screw 1444.

Specifically, the first power member 1422 can drive the first screw 1424 to rotate, and the first bin body 120 and the first screw 1424 are in threaded connection, and then under the driving of the first screw 1424 and the constraint of the casing 110, the first bin body 120 can realize translation, wherein the first power member 1422 can drive the first screw 1424 to perform bidirectional rotation, so that the first bin body 120 can translate in two directions, and the mode that the first screw 1424 drives the first bin body 120 can make the motion process of the first bin body 120 more stable. The first screw 1424 has an external thread, and the first chamber 120 has an internal thread.

Moreover, the structure can realize self-locking, so that the whole first bin body 120 is stable in moving and stable state.

The second power member 1442 can drive the second screw 1444 to rotate, and the second cartridge body 130 and the second screw 1444 are in threaded connection, so that under the driving of the second screw 1444 and the constraint of the casing 110, the second cartridge body 130 can realize translation, wherein the second power member 1442 can drive the second screw 1444 to rotate in two directions, so that the second cartridge body 130 can translate in two directions, and the second screw 1444 drives the second cartridge body 130, so that the movement process of the second cartridge body 130 is more stable. The second screw 1444 has an external thread, and the second bin 130 has an internal thread.

Moreover, the structure can realize self-locking, so that the whole second cabin body 130 can move stably and stably.

In other embodiments of the present application, the first driving mechanism 142 includes a first gear set, or the first driving mechanism 142 includes a first worm wheel and a first worm, or the first driving mechanism 142 includes a first electromagnetic component, so as to realize electromagnetic transmission. The second driving mechanism 144 includes a second gear set, or the second driving mechanism 144 includes a second worm wheel and a second worm, or the second driving mechanism 144 includes a second electromagnetic component, so as to realize electromagnetic transmission.

As shown in fig. 6, as a possible embodiment, the casing 110 comprises a first guide portion 112 and a second guide portion 114, the first cartridge body 120 is matched with the first guide portion 112, and the second cartridge body 130 is matched with the second guide portion 114.

Specifically, a first guide portion 112 and a second guide portion 114 are convexly disposed in the mounting groove of the casing 110, so that a first guide groove is formed on the first bin body 120, and the first guide groove is matched with the first guide portion 112, so that when the first driving mechanism 142 drives the first bin body 120 to move, the first bin body 120 moves along the first guide portion 112, and the movement of the first bin body 120 is more stable.

The first guide portion 112 and the second guide portion 114 are protruded in the mounting groove of the casing 110, so that the second cartridge body 130 has a second guide groove thereon, and the second guide groove is matched with the second guide portion 114, so that when the second driving mechanism 144 drives the second cartridge body 130 to move, the second cartridge body 130 moves along the second guide portion 114, so that the movement of the second cartridge body 130 is more stable.

As shown in fig. 14 and 15, as a possible embodiment, the storage apparatus 100 further includes: the first positioning component 172 is arranged on the first bin body 120; and a second positioning assembly 174 disposed on the second cartridge body 130.

Specifically, the containing device 100 further comprises a first positioning component 172 and a second positioning component 174, the first positioning component 172 is disposed on the first compartment 120 and is capable of positioning the first body 210 of the earphone, the second positioning component 174 is disposed on the second compartment 130 and is capable of positioning the second body 220 of the earphone, specifically, when the first body 210 of the earphone is contained in the first compartment 120, the first positioning component 172 cooperates with the first body 210 of the earphone, so that the first body 210 of the earphone is stably placed on the first compartment 120, and when the second body 220 of the earphone is contained in the second compartment 130, the second positioning component 174 cooperates with the second body 220 of the earphone, so that the second body 220 of the earphone is stably placed on the second compartment 130.

Wherein the first positioning component 172 may be disposed corresponding to a head of the first body 210 of the headset and the second positioning component 174 may be disposed corresponding to a head of the second body 220 of the headset.

The first body 210 of the earphone is provided with a third positioning component 232, the second body 220 of the earphone is provided with a fourth positioning component 234, and then the third positioning component 232 can be matched with the first positioning component 172, and the fourth positioning component 234 can be matched with the second positioning component 174.

As a possible embodiment, the first positioning component 172 includes a first magnetic member or a first magnetizable member; the second positioning assembly 174 includes a second magnetic member or a second magnetizable member. The first magnetic member is a magnet or a magnet, and the first magnetic ring member is a material that can be magnetized by the magnet or the magnet, for example: iron or an alloy of iron. The second magnetic member is a magnet or a magnet, and the second magnetic ring member is a material that can be magnetized by the magnet or the magnet, for example: iron or an alloy of iron.

Specifically, the first positioning assembly 172 includes a first magnetic member or a first magnetizable member, and the third positioning assembly 232 on the first body 210 of the earphone is also provided with a third magnetic member or a third magnetizable member corresponding to the first positioning assembly 172, so that when the first body 210 of the earphone is placed on the first chamber body 120, the first magnetic member or the first magnetizable member on the first chamber body 120 can form an attractive fit with the third magnetic member or the third magnetizable member on the first body 210 of the earphone, thereby improving the stability of the first body 210 of the earphone received in the first chamber body 120.

Wherein, when the first positioning assembly 172 only includes the first magnetic member, the first body 210 of the earphone may be provided with a third magnetic member or a third magnetizable member, and when the first positioning assembly 172 only includes the first magnetizable member, the first body 210 of the earphone may be provided with the third magnetic member.

The second positioning assembly 174 includes a second magnetic member or a second magnetizable member, and the fourth positioning assembly 234 of the second body 220 of the earphone is also provided with a fourth magnetic member or a fourth magnetizable member corresponding to the second positioning assembly 174, so that when the second body 220 of the earphone is placed in the second chamber body 130, the second magnetic member or the second magnetizable member on the second chamber body 130 can form an attractive fit with the fourth magnetic member or the fourth magnetizable member on the second body 220 of the earphone, thereby improving the stability of the second body 220 of the earphone received in the second chamber body 130.

Wherein, when the second positioning assembly 174 only includes the second magnetic member, the second body 220 of the earphone may be provided with a fourth magnetic member or a fourth magnetizable member, and when the second positioning assembly 174 only includes the second magnetizable member, the second body 220 of the earphone may be provided with a fourth magnetic member.

And, based on the design of magnetic force location, when the first bin body 120 and the second bin body 130 are close to each other, and the first receiving groove 122 and the second receiving groove 132 form the single receiving cavity 182, when the first main body 210 of the earphone is put into the single receiving cavity 182, the first positioning component 172 can guide the first main body 210 of the earphone to slide into the position matched with the first bin body 120, and when the second main body 220 of the earphone is put into the single receiving cavity 182, the second positioning component 174 can guide the second main body 220 of the earphone to slide into the position matched with the second bin body 130, thereby further reducing the risk of wrong insertion of the earphone.

As a possible implementation, the storage device 100 further includes: the control assembly is arranged on the shell 110 and is electrically connected with the driving assembly 140; the first detection component is arranged on the first bin body 120, is electrically connected with the control component and is used for detecting whether an earphone is placed in the first bin body 120 or not; the second detection assembly is arranged on the second bin body 130 and is electrically connected with the control assembly for detecting whether the earphone is placed in the second bin body 130, wherein the control assembly controls the driving assembly 140 according to the detection results of the first detection assembly and the second detection assembly. The first detection assembly is disposed in the first cartridge body 120 and the second detection assembly is disposed in the second cartridge body 130.

Specifically, the storage device 100 further includes a control component, a first detection component and a second detection component, wherein the first detection component, the second detection component and the driving component 140 are electrically connected to the control component, the first detection component can detect whether the first main body 210 of the earphone is placed in the first bin 120, the second detection component can detect whether the second main body 220 of the earphone is placed in the second bin 130, and the first detection component and the second detection component feed back a detection result to the control component, the control component controls the driving component 140 to move based on the detection result, and specifically, the control component controls the first driving mechanism 142 and the second driving mechanism 144 to work based on the detection result.

And then through the control of control assembly, can realize the automatic motion of first storehouse body 120 and second storehouse body 130 in storage device 100 for storage device 100 is more convenient to the earphone.

The first detecting component can detect the magnetic field condition of the first positioning component 172, so as to determine whether the first main body 210 of the earphone is placed in the first chamber 120, specifically, the first positioning component 172 and the first detecting component can be two independent components, or can be integrated together. The second detecting component can detect the magnetic field condition of the second positioning component 174, so as to determine whether the second main body 220 of the earphone is placed on the second cartridge body 130, specifically, the second positioning component 174 and the second detecting component can be two independent components, or can be integrated together.

As a possible implementation, the storage device 100 further includes: a cover body arranged on the shell 110; the third detection assembly is disposed on the housing 110, electrically connected to the control assembly, and configured to detect whether the cover and the housing 110 are closed, and the control assembly controls the driving assembly 140 according to detection results of the first detection assembly, the second detection assembly, and the third detection assembly.

Specifically, a cover is disposed on the casing 110, and the cover can be covered and fastened on the casing 110 to close the mounting groove of the casing 110, so as to protect the earphones, wherein the storage device 100 includes a control component, a first detection component, a second detection component and a third detection component, wherein the first detection component, the second detection component, the third detection component and the driving component 140 are all electrically connected to the control component, the first detection component can detect whether the first body 210 of the earphones is placed on the first bin 120, the second detection component can detect whether the second body 220 of the earphones is placed on the second bin 130, the third detection component can detect whether the cover and the casing 110 are closed, and the first detection component, the second detection component and the third detection component feed back detection results to the control component, the control component controls the driving component 140 to move based on the detection results, and further the movement of the first bin 120 and the second bin 130 can be performed in different states of the cover and the casing 110, for example: when the cover and the housing 110 are closed, corresponding actions are performed, so that unnecessary movement time can be saved, and the risk of sundries or users blocking the movement of the first bin body 120 or the second bin body 130 is reduced.

Specifically, as shown in fig. 17, the flow of the operation of the storage device when the earphone is inserted is as follows:

step 1702: a single earphone is inserted.

Specifically, the first body 210 or the second body 220 of the earphone is inserted into the receiving device 100.

Step 1704: judging whether a single earphone exists in the storage device or not; if the determination result is yes, step 1706 is executed, and if the determination result is no, step 1714 is executed.

Specifically, after the first body 210 or the second body 220 of the earphone is inserted into the storage device 100, it is determined whether the first body 210 or the second body 220 of the earphone is present in the storage device 100 before the first body 210 or the second body 220 is not inserted.

Step 1706: a single earphone is inserted into the corresponding position.

Specifically, based on the case where the first body 210 and one of the first bodies 210 of the earphones are already present in the storage device 100, the other is inserted to the corresponding position.

Step 1708: judging whether to take out another earphone or not; if the determination result is yes, step 1710 is executed, and if the determination result is no, step 1712 is executed.

Specifically, it is determined whether the first body 210 or the second body 220 of the earphone is taken out within a preset time period.

Step 1710: the first bin body and the second bin body are in a third state and are accommodated with a single earphone.

Specifically, based on that the first body 210 or the second body 220 of the earphone is not taken out within the preset time period, the first cartridge body 120 and the second cartridge body 130 are maintained in the third state, and the first body 210 and the first cartridge body 120 of the earphone are matched, and the second body 220 and the second cartridge body 130 of the earphone are matched.

Step 1712: the first bin body and the second bin body are in a third state and accommodate two earphones.

Specifically, based on the fact that the first body 210 or the second body 220 of the earphone is taken out within the preset time period, the first cartridge body 120 and the second cartridge body 130 are maintained in the third state, and the first body 210 and the first cartridge body 120 of the earphone are matched, the second cartridge body 130 is not matched with the second body 220 of the earphone, or the second body 220 and the second cartridge body 130 of the earphone are matched, and the first cartridge body 120 is not matched with the first body 210 of the earphone.

Step 1714: the driving assembly drives the single-side bin body to move, and the corresponding moving mechanism drives the protection piece to move.

Specifically, based on the condition that the first body 210 and the second body 220 of the earphones are not provided in the storage device 100, if the first body 210 of the earphones is inserted, the first body 210 and the first bin 120 are engaged, and then the first driving mechanism 142 is operated, the first bin 120 is moved to the side, and the first moving mechanism 154 is operated, so that the first protector 152 is moved to be engaged with the first receiving groove 122, thereby protecting the first body 210 of the earphones.

If the second body 220 of the earphone is inserted, the second body 220 cooperates with the second cartridge body 130, and then the second driving mechanism 144 operates, the second cartridge body 130 moves to the side, and the second moving mechanism 164 operates, so that the second protecting member 162 moves to cooperate with the second receiving groove 132, thereby protecting the second body 220 of the earphone.

Step 1716: judging whether another earphone is inserted; if the determination result is yes, step 1724 is executed, and if the determination result is no, step 1718 is executed.

Specifically, it is determined whether the second body 220 of the earphone is inserted when the first body 210 of the earphone has been inserted, or whether the first body 210 of the earphone is inserted when the second body 220 of the earphone has been inserted.

Step 1718: whether the cover body and the shell are closed or not is detected.

Specifically, when the first body 210 of the earphone has been inserted, without inserting the second body 220 of the earphone, it is detected whether the cover and the case 110 are closed.

When the second body 220 of the earphone has been inserted, without the first body 210 of the earphone being inserted, it is detected whether the cover and the case 110 are closed.

Step 1720: based on the lid and the casing is closed, the storehouse body motion of not inserting single earphone, the protection piece motion is driven to corresponding motion mechanism.

Specifically, when the first body 210 of the earphone has been inserted, and the second body 220 of the earphone is not inserted, based on the case 110 and the cover body having been closed, the second driving mechanism 144 is operated, so that the second cartridge body 130 is moved sideways, so that the first cartridge body 120 and the second cartridge body 130 are in the third state, and the second moving mechanism 164 is operated, so that the second protecting member 162 and the second receiving groove 132 are engaged to form the second receiving cavity 186.

When the second body 220 of the earphone has been inserted, without the first body 210 of the earphone being inserted, based on the case 110 and the cover being closed, the first driving mechanism 142 is operated, so that the first cartridge body 120 is moved sideways, so that the first cartridge body 120 and the second cartridge body 130 are in the third state, and the first moving mechanism 154 is operated, so that the first protector 152 and the first receiving groove 122 cooperate to form the first receiving cavity 184.

Step 1722: the first bin body and the second bin body are in a third state and are accommodated with a single earphone.

Specifically, the first and second cartridge bodies 120 and 130 are in the third state, and receive the first or second body 210 or 220 of the earphone.

Step 1724: the first bin body and the second bin body are in a third state and accommodate two earphones.

Specifically, when the first body 210 of the earphone is inserted and the second body 220 of the earphone is inserted again, the second driving mechanism 144 is operated to move the second cartridge body 130 to the side, so that the first cartridge body 120 and the second cartridge body 130 are in the third state, and then the second moving mechanism 164 is operated to cooperate the second protecting member 162 and the second receiving groove 132 to protect the second body 220 of the earphone.

When the second main body 220 of the earphone is inserted, and the first main body 210 of the earphone is inserted again, the first driving mechanism 142 works to move the first cartridge 120 to the side direction, so that the first cartridge 120 and the second cartridge 130 are in the third state, and then the first moving mechanism 154 works to make the first protector 152 and the first receiving groove 122 cooperate to protect the first main body 210 of the earphone.

At this time, the first and second cartridge bodies 120 and 130 are in the third state, and receive the first and second bodies 210 and 220 of the earphones.

Specifically, as shown in fig. 18, the flow of the operation of the storage device in taking out the earphones is as follows:

step 1802: if it is determined that there is a single earphone in the storage device, step 1810 is executed if the determination result is yes, and step 1804 is executed if the determination result is no.

Specifically, it is determined whether the first body 210 or the second body 220 of the earphone is already present in the housing device 100.

Step 1804: the single earphone is taken out.

Specifically, one of the first body 210 and the second body 220 of the earphone is taken out based on the case where the first body 210 and the second body 220 of the earphone are provided in the container device 100.

Step 1806: it is determined whether or not to take out another earphone, and if the determination result is yes, step 1810 is executed, and if the determination result is no, step 1808 is executed.

Specifically, it is determined whether the other of the first and second bodies 210 and 220 of the earphone is taken out.

Step 1808: the first bin body and the second bin body are in a third state and are accommodated with a single earphone.

Specifically, in the case of having the first body 210 or the second body 220 of the earphone in the storing device 100, the first cartridge body 120 and the second cartridge body 130 are in the third state, and the first body 210 or the second body 220 of the earphone is stored.

Step 1810: the single earphone is taken out.

Specifically, the first body 210 or the second body 220 of the earphone is taken out based on the case where only the first body 210 or the second body 220 of the earphone is present in the storage device 100.

Step 1812: it is determined whether a single earphone is inserted, and if the determination result is yes, step 1808 is executed, and if the determination result is no, step 1814 is executed.

Specifically, it is determined whether the first body 210 or the second body 220 of the earphone is inserted within a preset time period.

Step 1814: whether the cover body and the shell are closed or not is detected.

Specifically, based on the condition that the first body 210 or the second body 220 of the earphone is not inserted within the preset time period, whether the cover and the case 110 are closed is detected.

Step 1816: based on lid and casing close, the storehouse body motion, first holding tank and second holding tank form singly and hold the chamber.

Specifically, in the case that the cover and the housing 110 are closed, the first moving mechanism 154 drives the first protector 152 to move, so that the first protector 152 is transferred into the first receiving groove 122, the second moving mechanism 164 drives the second protector 162 to move, so that the second protector 162 is transferred into the second receiving groove 132, and the first driving mechanism 142 drives the first cartridge body 120 to move, the second driving mechanism 144 drives the second cartridge body 130 to move, so that the first cartridge body 120 and the second cartridge body 130 are in the intermediate position, and the first receiving groove 122 and the second receiving groove 132 form the single receiving cavity 182.

Step 1818: the first bin body and the second bin body are in a first state and do not contain earphones.

Specifically, the first and second cartridge bodies 120, 130 are in the first state and do not house earphones.

As a possible embodiment, structurally, the first cartridge body 120 and the second cartridge body 130 are symmetrical, the first driving mechanism 142 and the second driving mechanism 144 are symmetrical, the first moving mechanism 154 and the second moving mechanism 164 are symmetrical, the first protector 152 and the second protector 162 are symmetrical, and the first positioning assembly 172 and the second positioning assembly 174 are symmetrical.

As shown in fig. 16, an electronic device 200 according to an embodiment of the present application includes: an earphone; the storage device 100 according to any of the above embodiments.

Specifically, the earphone may be received in the receiving device 100.

As shown in fig. 14, 15 and 16, as one possible embodiment, the headset includes: a first body 210, the first body 210 including a third positioning assembly 232; second body 220, second body 220 includes fourth positioning assembly 234.

Wherein the third positioning assembly 232 includes a third magnetic member or a third magnetizable member, and the fourth positioning assembly 234 includes a fourth magnetic member or a fourth magnetizable member.

The third magnetic member is a magnet or a magnet, and the third magnetic ring member is a material that can be magnetized by the magnet or the magnet, for example: iron or an alloy of iron. The fourth magnetic member is a magnet or a magnetite, and the fourth magnetic ring member is a material which can be magnetized by the magnet or the magnetite, for example: iron or an alloy of iron.

Specifically, the earphone includes a first body 210 and a second body 220, a third positioning assembly 232 is disposed on the first body 210, a fourth positioning assembly 234 is disposed on the second body 220, the third positioning assembly 232 includes a third magnetic member or a third magnetizable member, and the first positioning assembly 172 of the receiving device 100 also includes a first magnetic member or a first magnetizable member corresponding to the third positioning assembly 232, so that when the first body 210 of the earphone is placed on the first chamber 120, the first magnetic member or the first magnetizable member on the first chamber 120 can form an attractive fit with the third magnetic member or the third magnetizable member on the first body 210 of the earphone, thereby improving the stability of the first body 210 of the earphone received in the first chamber 120.

Wherein the first positioning assembly 172 includes the first magnetic member or the first magnetizable member when the third positioning assembly 232 includes only the third magnetic member, and the first positioning assembly 172 includes the first magnetic member when the third positioning assembly 232 includes only the third magnetizable member.

The fourth positioning assembly 234 includes a fourth magnetic member or a fourth magnetizable member, and the second positioning assembly 174 of the receiving device 100 is also provided with a second magnetic member or a second magnetizable member corresponding to the fourth positioning assembly 234, so that when the second body 220 of the earphone is placed in the second chamber 130, the second magnetic member or the second magnetizable member on the second chamber 130 can form an attractive fit with the fourth magnetic member or the fourth magnetizable member on the second body 220 of the earphone, thereby improving the stability of the second body 220 of the earphone received in the second chamber 130.

Wherein the second positioning assembly 174 includes a fourth magnetic member or fourth magnetizable member when the fourth positioning assembly 234 includes only a fourth magnetic member, and the second positioning assembly 174 includes a second magnetic member when the fourth positioning assembly 234 includes only a fourth magnetizable member.

And, based on the design of magnetic force location, when the first bin body 120 and the second bin body 130 are close to each other, and the first accommodating groove 122 and the second accommodating groove 132 form the single accommodating cavity 182, when the first main body 210 of the earphone is put into the single accommodating cavity 182, the first positioning component 172 and the third positioning component 232 can guide the first main body 210 of the earphone to be matched with the first bin body 120, and when the second main body 220 of the earphone is put into the single accommodating cavity 182, the second positioning component 174 and the fourth positioning component 234 can guide the second main body 220 of the earphone to be matched with the second bin body 130, thereby further reducing the risk of wrong insertion of the earphone.

Specifically, structurally, the first body 210 and the second body 220 are symmetrical.

Further, the first body 210 includes a first head and a first shank, at least a portion of the first shank cooperating with the first receiving cavity 184, the first receiving groove 122, or the single receiving groove, and the second body 220 includes a second head and a second shank, at least a portion of the second shank cooperating with the second receiving cavity 186, the second receiving groove 132, or the single receiving groove.

In the description herein, reference to the term "one embodiment," or "a specific embodiment," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the application. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present application have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the application, the scope of which is defined by the claims and their equivalents.

Claims (12)

1. A storage device, comprising:

a housing;

a first cartridge body comprising a first receiving slot;

a second cartridge body comprising a second receiving slot;

the driving assembly is used for driving the first bin body and the second bin body to move relatively, so that the first accommodating groove and the second accommodating groove are matched to form a single accommodating cavity, or the first accommodating groove and the second accommodating groove are separated.

2. The storage device of claim 1, further comprising:

the protecting piece is movably arranged on at least one of the first bin body and the second bin body;

and the movement mechanism is arranged on at least one of the first bin body and the second bin body and is connected with the protection piece so that the protection piece is matched with or not matched with at least one of the first accommodating groove and the second accommodating groove.

3. The storage device of claim 2,

the moving mechanism is a rotating member for driving the protection member to rotate so that the protection member is screwed into or out of at least one of the first accommodating groove and the second accommodating groove.

4. The storage device of claim 3,

the side wall of at least one of the first accommodating groove and the second accommodating groove is a curved surface, and the protection piece can rotate along the curved surface.

5. The storage device of any one of claims 1 to 4, wherein the drive assembly comprises:

the first driving mechanism is arranged on the shell, is connected with the first bin body and is used for driving the first bin body to move;

and the second driving mechanism is arranged on the shell, is connected with the second bin body and is used for driving the second bin body to move.

6. The storage device of claim 5,

the first drive mechanism includes:

the first power part is arranged on the shell;

the first screw rod is connected with the first power part and is in threaded connection with the first bin body;

and/or

The second drive mechanism includes:

the second power part is arranged on the shell;

and the second screw is connected with the second power part and is in threaded connection with the second bin body.

7. The storage device of any one of claims 1 to 4,

the shell comprises a first guide part and a second guide part, the first bin body is matched with the first guide part, and the second bin body is matched with the second guide part.

8. The storage device of any one of claims 1 to 4, further comprising:

the first positioning assembly is arranged on the first bin body;

and the second positioning assembly is arranged on the second bin body.

9. The storage device of any one of claims 1 to 4, further comprising:

the control assembly is arranged on the shell and is electrically connected with the driving assembly;

the first detection assembly is arranged in the first bin body, is electrically connected with the control assembly and is used for detecting whether an earphone is placed in the first bin body;

a second detection component which is arranged on the second bin body, is electrically connected with the control component and is used for detecting whether an earphone is placed in the second bin body or not,

wherein the control component controls the driving component according to the detection results of the first detection component and the second detection component.

10. The storage device of claim 9, further comprising:

the cover body is arranged on the shell;

the third detection assembly is arranged on the shell and electrically connected with the control assembly and used for detecting whether the cover body and the shell are closed or not, and the control assembly controls the driving assembly according to detection results of the first detection assembly, the second detection assembly and the third detection assembly.

11. An electronic device, comprising:

an earphone;

the storage device of any one of claims 1 to 10.

12. The electronic device of claim 11, wherein the headset comprises:

a first body including a third positioning component;

a second body including a fourth positioning assembly.

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