CN222484900U - An earphone compartment and an earphone device convenient for charging - Google Patents

Abstract

The embodiment of the present application discloses an earphone compartment and an earphone device that are easy to charge, including: a seat body, having a first receiving groove and a second receiving groove arranged at intervals; a first group of charging interfaces, arranged in the first receiving groove; a second group of charging interfaces, arranged in the second receiving groove; in a first use state, the first receiving groove is used to receive a first ear clip earphone of the earphone device, the first group of charging interfaces is used to charge the first ear clip earphone, the second receiving groove is used to receive a second ear clip earphone of the earphone device, and the second group of charging interfaces is used to charge the second ear clip earphone; in a second use state, the first receiving groove is used to receive the second ear clip earphone, the first group of charging interfaces is used to charge the second ear clip earphone, the second receiving groove is used to receive the first ear clip earphone, and the second group of charging interfaces is used to charge the first ear clip earphone. The earphone compartment of the present application can reduce the charging time of the ear clip earphone and improve the charging experience of the ear clip earphone.

Description

Earphone bin convenient to charge and earphone device

Technical Field

The application relates to the technical field of earphones, in particular to an earphone bin convenient to charge and an earphone device.

Background

Along with the development of acoustic output technology, acoustic devices such as headphones and the like are widely applied to daily life of people, and the acoustic devices can be matched with electronic equipment such as mobile phones, computers and the like for use so as to provide audio in the electronic equipment such as the mobile phones, the computers and the like for users. In the related art, when a wearer wears the earphone structure, the earphone structure is easy to drop, and the user experience of the earphone structure is poor.

Disclosure of utility model

Accordingly, it is desirable to provide a headset bin and a headset device that are convenient for charging.

In order to achieve the above purpose, the technical scheme of the application is realized as follows:

the embodiment of the application provides an earphone bin convenient to charge, which comprises a seat body, a first storage tank and a second storage tank, wherein the seat body is provided with a first storage tank and a second storage tank which are arranged at intervals;

The first group of charging interfaces are arranged in the first accommodating groove;

the second group of charging interfaces are arranged in the second accommodating groove;

In a first use state, a first accommodating groove is used for accommodating a first ear clip type earphone of an earphone device, the first group of charging interfaces is used for charging the first ear clip type earphone, a second accommodating groove is used for accommodating a second ear clip type earphone of the earphone device, and the second group of charging interfaces is used for charging the second ear clip type earphone;

under the second state of use, first holding tank is used for holding second ear clip formula earphone, first group interface that charges is used for second ear clip formula earphone charges, the second holding tank is used for holding first ear clip formula earphone, second group interface that charges is used for first ear clip formula earphone charges.

In some alternative implementations, the method further includes:

The cover body is rotatably connected with the base body and is provided with a buckling state of being covered at the first accommodating groove and the second accommodating groove and an opening state of exposing the first accommodating groove and the second accommodating groove;

The first accommodating groove and the second accommodating groove are arranged at intervals in a first direction, and the first direction is parallel to the rotation axis direction of the cover body.

In some alternative implementations, the first receiving groove includes a first space and a second space spaced apart in a first direction, the first space being located near an edge side of the base in the first direction, the second space being located far from the edge side of the base in the first direction; the second accommodating groove comprises a third space and a fourth space which are arranged at intervals along the first direction, wherein the third space is positioned close to the edge side of the seat body in the first direction, and the fourth space is positioned far away from the edge side of the seat body in the first direction;

The first group of charging interfaces is located in the second space, the second group of charging interfaces is located in the fourth space, or the first group of charging interfaces is located in the first space, and the second group of charging interfaces is located in the third space.

In some alternative implementations, the first set of charging interfaces includes a first positive interface and a first negative interface spaced along a first direction; the second group of charging interfaces comprises a second positive electrode interface and a second negative electrode interface which are arranged at intervals along the first direction;

the first positive electrode interface and the second positive electrode interface are adjacently arranged in a first direction, or the first negative electrode interface and the second negative electrode interface are adjacently arranged in the first direction.

In some optional implementations, the first set of charging interfaces includes a first positive interface and a first negative interface disposed at intervals along a second direction, the second set of charging interfaces includes a second positive interface and a second negative interface disposed at intervals along the second direction, the second direction is perpendicular to the rotational axis direction;

The first positive electrode interface and the second negative electrode interface are adjacently arranged in a first direction, and the second positive electrode interface and the first negative electrode interface are adjacently arranged in the first direction;

The first negative electrode interface is positioned on the side, close to the rotation axis, of the first positive electrode interface, or the first negative electrode interface is positioned on the side, far away from the rotation axis, of the first positive electrode interface.

In some alternative implementations, the first receiving groove includes a first space and a second space spaced apart in a first direction, the first space being located near an edge side of the base in the first direction, the second space being located far from the edge side of the base in the first direction; the second accommodating groove comprises a third space and a fourth space which are arranged at intervals along the first direction, wherein the third space is positioned at the edge side far away from the seat body in the first direction, and the fourth space is positioned at the edge side close to the seat body in the first direction;

The first group of charging interfaces is located in the second space, the second group of charging interfaces is located in the fourth space, or the first group of charging interfaces is located in the first space, and the second group of charging interfaces is located in the third space.

In some alternative implementations, the first set of charging interfaces includes a first positive interface and a first negative interface spaced along a first direction; the second group of charging interfaces comprises a second positive electrode interface and a second negative electrode interface which are arranged at intervals along the first direction;

The first positive electrode interface and the second negative electrode interface are adjacently arranged in a first direction, or the first negative electrode interface and the second positive electrode interface are adjacently arranged in the first direction.

In some alternative implementations, the first set of charging interfaces includes a first positive interface and a first negative interface spaced along a second direction; the first positive electrode interfaces and the second positive electrode interfaces are adjacently arranged in a first direction, and the first negative electrode interfaces and the second negative electrode interfaces are adjacently arranged in the first direction;

The first negative electrode interface is positioned on the side, close to the rotation axis, of the first positive electrode interface, or the first negative electrode interface is positioned on the side, far away from the rotation axis, of the first positive electrode interface.

In some alternative implementations, the first accommodating groove comprises a first space and a second space which are arranged at intervals along a second direction, wherein the first space is positioned on the side close to the rotation axis in the second direction, the second space is positioned on the side far away from the rotation axis in the first direction, and the second accommodating groove comprises a third space and a fourth space which are arranged at intervals along the second direction, the third space is positioned on the side close to the rotation axis in the second direction, and the fourth space is positioned on the side far away from the rotation axis in the second direction, and the second direction is perpendicular to the rotation axis;

The first group of charging interfaces is arranged in the first space, the second group of charging interfaces is arranged in the third space, or the first group of charging interfaces is arranged in the second space, and the second group of charging interfaces is arranged in the fourth space.

In some alternative implementations, the first set of charging interfaces includes a first positive interface and a first negative interface spaced along a first direction; the second group of charging interfaces comprises a second positive electrode interface and a second negative electrode interface which are arranged at intervals along the first direction;

The first positive electrode interface and the second negative electrode interface are adjacently arranged in a first direction, or the first negative electrode interface and the second positive electrode interface are adjacently arranged in the first direction.

In some alternative implementations, the first set of charging interfaces includes a first positive interface and a first negative interface spaced along a second direction; the first positive electrode interfaces and the second positive electrode interfaces are adjacently arranged in the first direction, and the second negative electrode interfaces and the first negative electrode interfaces are adjacently arranged in the first direction;

The first negative electrode interface is positioned on the side, close to the rotation axis, of the first positive electrode interface, or the first negative electrode interface is positioned on the side, far away from the rotation axis, of the first positive electrode interface.

In some alternative implementations, the first receiving slot and the second receiving slot form 180 degrees in the circumferential direction, the first set of charging interfaces and the second set of charging interfaces form 180 degrees in the circumferential direction, or the first receiving slot and the second receiving slot are juxtaposed in a first direction.

In some alternative implementations, the first receiving slot includes first and second adjacently disposed spaces, the second receiving slot includes third and fourth adjacently disposed spaces, and the first receiving slot includes first and second adjacently disposed spaces;

In a first use state, one of the first space and the second space is used for accommodating a first sounding body of the first ear clip earphone, the other of the first space and the second space is used for accommodating a first battery body of the first ear clip earphone, one of the third space and the fourth space is used for accommodating a second sounding body of the second ear clip earphone, and the other of the third space and the fourth space is used for accommodating a second battery body of the second ear clip earphone;

In a second use state, one of the first space and the second space is used for accommodating a second sounding body of the second ear clip earphone, the other of the first space and the second space is used for accommodating a second battery body of the second ear clip earphone, one of the third space and the fourth space is used for accommodating a first sounding body of the first ear clip earphone, and the other of the third space and the fourth space is used for accommodating a first battery body of the first ear clip earphone.

In some alternative implementations, the charging ends of the first set of charging interfaces are exposed within the first receiving slot; the charging end parts of the second group of charging interfaces are exposed in the second accommodating groove;

The first group of charging interfaces is arranged on the bottom wall of the first accommodating groove, the second group of charging interfaces is arranged on the bottom wall of the second accommodating groove, or the first group of charging interfaces is arranged on the side wall of the first accommodating groove, and the second group of charging interfaces is arranged on the side wall of the second accommodating groove.

The embodiment of the application also provides an earphone device which comprises the earphone bin, the first ear clip type earphone and the second ear clip type earphone;

In a first use state, a first accommodating groove accommodates the first ear clip type earphone, the first group of charging interfaces is used for charging the first ear clip type earphone, a second accommodating groove accommodates the second ear clip type earphone, and the second group of charging interfaces is used for charging the second ear clip type earphone;

Under the second state of use, first holding tank holds the second ear clip formula earphone, first group interface that charges is used for the second ear clip formula earphone charges, the second holding tank holds first ear clip formula earphone, second group interface that charges is used for first ear clip formula earphone charges.

According to the earphone bin, the first ear clip type earphone and the second ear clip type earphone can be charged through the first accommodating groove and the second accommodating groove, a wearer does not need to find the accommodating groove corresponding to the first ear clip type earphone for charging the ear clip type earphone each time, the time for charging the ear clip type earphone can be reduced, and the charging experience of the ear clip type earphone is improved.

Drawings

Fig. 1 is a schematic view of an alternative configuration of a ear speaker device according to an embodiment of the present application, wherein the ear speaker compartment is in a first use state;

Fig. 2 is a schematic view of an alternative configuration of a ear speaker device according to an embodiment of the present application, wherein the ear speaker compartment is in a second use position;

Fig. 3 is a schematic view of an alternative construction of a tympanic assembly in accordance with an embodiment of the application, wherein the cover is in an open position;

fig. 4 is a schematic view of an alternative structure of a tympanic device according to an embodiment of the application, wherein the cover is in a snap-fit condition;

Fig. 5 is a schematic view of an alternative configuration of a tympanic cartridge in accordance with an embodiment of the present application;

fig. 6 is a schematic view of an alternative configuration of a tympanic cartridge in accordance with an embodiment of the present application;

fig. 7 is a schematic view of an alternative configuration of a tympanic cartridge in accordance with an embodiment of the application;

Fig. 8 is a schematic view of an alternative configuration of a tympanic cartridge in accordance with an embodiment of the application;

fig. 9 is a schematic view of an alternative configuration of a tympanic cartridge in accordance with an embodiment of the application;

fig. 10 is a schematic view of an alternative configuration of a tympanic cartridge in accordance with an embodiment of the application;

Fig. 11 is a schematic view of an alternative construction of a tympanic cartridge in accordance with an embodiment of the application;

Fig. 12 is a schematic view of an alternative configuration of a tympanic cartridge in accordance with an embodiment of the application;

Fig. 13 is a schematic view of an alternative construction of a tympanic cartridge in accordance with an embodiment of the application;

Fig. 14 is a schematic view of an alternative configuration of a tympanic cartridge in accordance with an embodiment of the application;

fig. 15 is a schematic view of an alternative configuration of a tympanic cartridge in accordance with an embodiment of the application;

fig. 16 is a schematic view of an alternative configuration of a tympanic cartridge in accordance with an embodiment of the application.

Reference numerals 100, a base, 101, a first end, 102, a second end, 103, a third end, 104, a fourth end, 110, a first accommodating groove, 111, a first space, 112, a second space, 120, a second accommodating groove, 121, a third space, 122, a fourth space, 200, a first ear clip type earphone, 210, a first sound generating body, 220, a first battery body, 230, a first connecting body, 300, a second ear clip type earphone, 310, a second sound generating body, 320, a second battery body, 330, a second connecting body, 400, a cover, 510, a first group of charging interfaces, 511, a first positive electrode interface, 512, a first negative electrode interface, 520, a second group of charging interfaces, 521, a second positive electrode interface, 522, and a second negative electrode interface.

Detailed Description

The technical scheme of the application is further elaborated below by referring to the drawings in the specification and the specific embodiments.

In describing embodiments of the present application, unless otherwise indicated and limited thereto, the term "connected" should be construed broadly, for example, it may be an electrical connection, or may be a communication between two elements, or may be a direct connection, or may be an indirect connection via an intermediate medium, and it will be understood by those skilled in the art that the specific meaning of the term may be interpreted according to circumstances.

It should be noted that, the term "first\second\third" related to the embodiment of the present application is merely to distinguish similar objects, and does not represent a specific order for the objects, it is to be understood that "first\second\third" may interchange a specific order or sequence where allowed. It is to be understood that the "first\second\third" distinguishing objects may be interchanged where appropriate such that embodiments of the application described herein may be practiced in sequences other than those illustrated or described herein.

The earphone house and the earphone device which are convenient to charge according to the embodiments of the present application are described in detail below with reference to fig. 1 to 16.

The earphone house includes a housing 100, a first set of charging interfaces 510, and a second set of charging interfaces 520. The base 100 has a first receiving groove 110 and a second receiving groove 120 which are arranged at intervals, a first group of charging interfaces 510 is arranged in the first receiving groove 110, a second group of charging interfaces 520 is arranged in the second receiving groove 120, the first receiving groove 110 is used for receiving a first ear clip type earphone 200 of the earphone device in a first use state, the first group of charging interfaces 510 is used for charging the first ear clip type earphone 200, the second receiving groove 120 is used for receiving a second ear clip type earphone 300 of the earphone device, the second group of charging interfaces 520 is used for charging the second ear clip type earphone 300, the first receiving groove 110 is used for receiving the second ear clip type earphone 300 in a second use state, the first group of charging interfaces 510 is used for charging the second ear clip type earphone 300, the second receiving groove 120 is used for receiving the first ear clip type earphone 200, and the second group of charging interfaces 520 is used for charging the first ear clip type earphone 200.

In the related art, two earphone structures of the ear clip type earphone structure are generally contained in a specific earphone slot of the earphone bin for charging, when a wearer needs to charge one earphone structure of the two earphone structures, the wearer needs to find the earphone slot corresponding to the earphone structure first, then the wearer places the earphone structure in the corresponding earphone slot for charging, and as the wearer needs to find the earphone slot corresponding to the earphone structure first for charging each time, the charging time of the earphone structure is longer, and the charging experience of the earphone structure is poorer. In the first use state, the first accommodating groove 110 is used for accommodating the first ear-clip earphone 200 of the earphone device, the first group of charging interfaces 510 is used for charging the first ear-clip earphone 200, the second accommodating groove 120 is used for accommodating the second ear-clip earphone 300 of the earphone device, the second group of charging interfaces 520 is used for charging the second ear-clip earphone 300, in the second use state, the first accommodating groove 110 is used for accommodating the second ear-clip earphone 300, the first group of charging interfaces 510 is used for charging the second ear-clip earphone 300, the second accommodating groove 120 is used for accommodating the first ear-clip earphone 200, the second group of charging interfaces 520 is used for charging the first ear-clip earphone 200, and at the moment, both the first ear-clip earphone 200 and the second ear-clip earphone 300 can be charged through the first accommodating groove 110 and the second accommodating groove 120, so that a wearer does not need to charge the corresponding accommodating groove for each time for charging the ear-clip earphone, the time for charging the ear-clip earphone can be reduced, and the ear-clip earphone experience can be improved.

In the embodiment of the present application, the structure of the base 100 is not limited. For example, the base 100 may have a rectangular parallelepiped structure. For another example, the base 100 may have a hemispherical structure. Of course, the base 100 may have an irregularly shaped structure. As an example, as shown in fig. 1 and 2, the base 100 has an oblate structure.

The first receiving groove 110 and the second receiving groove 120 are used to receive the ear clip earphone, and the ear clip earphone can be charged through the first receiving groove 110 and the second receiving groove 120. The first receiving groove 110 and the second receiving groove 120 may have the same shape or different shapes. As an example, the first receiving groove 110 and the second receiving groove 120 have the same shape so as to be manufactured.

The structures of the first receiving groove 110 and the second receiving groove 120 are not limited. For example, the first receiving groove 110 may include a first space 111 and a second space 112 provided at intervals, sound emitting bodies and battery bodies of the ear clip type headphones are respectively received in the first space 111 and the second space 112, so that stability of receiving the ear clip type headphones in the first receiving groove 110 can be improved, the second receiving groove 120 may include a third space 121 and a fourth space 122 provided at intervals, sound emitting bodies and battery bodies of the ear clip type headphones are respectively received in the third space 121 and the fourth space 122, and stability of receiving the ear clip type headphones in the second receiving groove 120 can be improved. Here, the first space 111 and the second space 112 may have the same shape or may have different shapes. The third space 121 and the fourth space 122 may have the same shape or different shapes. As an example, as shown in fig. 5 to 16, the shapes of the first space 111 and the second space 112 are different, and the shapes of the third space 121 and the fourth space 122 are different, so that the sounding body and the battery body of the ear clip type earphone are placed to the spaces matching with the shapes thereof, thereby being capable of preventing the sounding body and the battery body from being placed reversely to affect the battery body charge, where the shapes of the first space 111 and the third space 121 may be the same, and the shapes of the second space 112 and the fourth space 122 may be different for manufacturing. For another example, the first receiving groove 110 and the second receiving groove 120 each have one space, that is, the sounding body and the battery body of the ear clip type earphone are received in one space of the earphone cabin.

The arrangement of the first receiving groove 110 and the second receiving groove 120 is not limited. For example, as shown in fig. 5 to 8, the first accommodating groove 110 and the second accommodating groove 120 may form 180 degrees in the circumferential direction, the first group of charging interfaces 510 and the second group of charging interfaces 520 may form 180 degrees in the circumferential direction, that is, the center of the first accommodating groove 110 coincides with the center of the second accommodating groove 120 after rotating 180 degrees in the circumferential direction, the first group of charging interfaces 510 coincides with the second group of charging interfaces 520 after rotating 180 degrees in the circumferential direction, at this time, the ear clip type earphone placed in the first accommodating groove 110 may be turned 180 degrees and then placed in the second accommodating groove 120, or the ear clip type earphone placed in the second accommodating groove 120 may be turned 180 degrees and then placed in the first accommodating groove 110, which is convenient for use. As shown in fig. 9 to 16, for example, the first accommodating groove 110 and the second accommodating groove 120 may be disposed in parallel, that is, the center of the first accommodating groove 110 may be shifted by a specific distance along a specific direction and then coincide with the center of the second accommodating groove 120, in which case the ear clip earphone disposed in the first accommodating groove 110 may be disposed directly in the second accommodating groove 120 after being moved in parallel, or the ear clip earphone disposed in the second accommodating groove 120 may be disposed directly in the first accommodating groove 110 after being moved in parallel, so that the use is convenient.

In the embodiment of the present application, the first set of charging interfaces 510 is disposed in the first receiving slot 110, so as to charge the ear-clip earphone received in the first receiving slot 110 through the first set of charging interfaces 510. The second set of charging interfaces 520 is disposed in the second receiving slot 120 so as to charge the ear-clip earphone received in the second receiving slot 120 through the second set of charging interfaces 520.

The structure of the first group of charging interfaces 510 is not limited. For example, the first group of charging interfaces 510 includes a first positive electrode interface 511 and a first negative electrode interface 512 that are disposed at intervals. The first positive electrode interface 511 may be an elastic electrode or a conductive sheet. The first negative electrode interface 512 may be an elastic electrode or a conductive sheet. As an example, as shown in fig. 5 to 16, the first positive electrode interface 511 and the first negative electrode interface 512 are both elastic electrodes, so as to improve the stability of the first group of charging interfaces 510 in contact with the ear clip type earphone. The structure of the second set of charging interfaces 520 is not limited. For example, the second set of charging interfaces 520 includes a second positive interface 521 and a second negative interface 522 that are disposed at intervals. The second positive electrode interface 521 may be an elastic electrode or a conductive sheet. The second negative electrode interface 522 may be an elastic electrode or a conductive sheet. As an example, as shown in fig. 5 to 16, the second positive electrode interface 521 and the second negative electrode interface 522 are both elastic electrodes so as to improve the stability of the contact of the second group of charging interfaces 520 with the ear clip type earphone.

The charging end portion of the first group of charging interfaces 510 may be exposed in the first accommodating groove 110, and the charging end portion of the second group of charging interfaces 520 may be exposed in the second accommodating groove 120, at this time, the first group of charging interfaces 510 and the second group of charging interfaces 520 may be used to charge the ear clip earphone through contact with the charging interface of the ear clip earphone, so as to improve the stability of charging the ear clip earphone by the earphone cabin. Of course, in other examples, the charging ends of the first set of charging interfaces 510 may not be exposed in the first accommodating groove 110, and the charging ends of the second set of charging interfaces 520 may not be exposed in the second accommodating groove 120, so as to ensure the integrity of the first accommodating groove 110 and the second accommodating groove 120, and as an example, a wireless charging assembly is disposed in the earphone cabin, where the wireless charging assembly corresponds to the positions of the first accommodating groove 110 and the second accommodating groove 120, so as to charge the ear clip earphone in the first accommodating groove 110 and the second accommodating groove 120 through the wireless charging assembly.

The specific arrangement positions of the first and second sets of charging interfaces 510 and 520 are not limited. For example, the first set of charging interfaces 510 may be disposed on the bottom wall of the first receiving slot 110, and the second set of charging interfaces 520 may be disposed on the bottom wall of the second receiving slot 120, so as to ensure that the first set of charging interfaces 510 and the second set of charging interfaces 520 are in stable contact with the charging interfaces of the ear clip earphone. For another example, the first set of charging interfaces 510 may be disposed on a sidewall of the first receiving tank 110, and the second set of charging interfaces 520 may be disposed on a sidewall of the second receiving tank 120. For another example, the first positive electrode interfaces 511 of the first set of charging interfaces 510 may be disposed on the bottom wall of the first accommodating groove 110, the first negative electrode interfaces 512 of the first set of charging interfaces 510 may be disposed on the side wall of the first accommodating groove 110, the second positive electrode interfaces 521 of the second set of charging interfaces 520 may be disposed on the bottom wall of the second accommodating groove 120, and the second negative electrode interfaces 522 of the second set of charging interfaces 520 may be disposed on the side wall of the second accommodating groove 120.

In a first use state, as shown in fig. 1, the first receiving slot 110 is used for receiving the first ear-clip-type earphone 200 of the earphone device, the first set of charging interfaces 510 is used for charging the first ear-clip-type earphone 200, the second receiving slot 120 is used for receiving the second ear-clip-type earphone 300 of the earphone device, and the second set of charging interfaces 520 is used for charging the second ear-clip-type earphone 300, and in a second use state, as shown in fig. 2, the first receiving slot 110 is used for receiving the second ear-clip-type earphone 300, the first set of charging interfaces 510 is used for charging the second ear-clip-type earphone 300, the second receiving slot 120 is used for receiving the first ear-clip-type earphone 200, and the second set of charging interfaces 520 is used for charging the first ear-clip-type earphone 200, that is, both the first ear-clip-type earphone 200 and the second ear-clip-type earphone 300 can be charged through the first receiving slot 110 and the second receiving slot 120, and the receiving slots corresponding thereto are not required for each time the wearer to charge the ear-clip-type earphone, so that the time of charging the ear-clip-type earphone can be reduced.

When the charging end of the first set of charging interfaces 510 is exposed in the first receiving groove 110 and the charging end of the second set of charging interfaces 520 is exposed in the second receiving groove 120, the first receiving groove 110 is configured to receive the first ear clip type earphone 200 of the earphone device, the charging end of the first set of charging interfaces 510 is configured to be docked and electrically connectable with the third set of charging interfaces of the first ear clip type earphone 200, the second receiving groove 120 is configured to receive the second ear clip type earphone 300 of the earphone device, the charging end of the second set of charging interfaces 520 is docked and electrically connectable with the fourth set of charging interfaces of the second ear clip type earphone 300, and the first receiving groove 110 is configured to receive the second ear clip type earphone 300 of the earphone device, the charging end of the first set of charging interfaces 510 is docked and electrically connectable with the fourth set of charging interfaces of the second ear clip type earphone 300, and the second receiving groove 120 is configured to receive the first ear clip type earphone 200 of the earphone device, and the charging end of the second set of charging interfaces 520 is configured to be docked and electrically connectable with the third set of ear clip type earphone 200 of the first ear clip type earphone device, in the second use state.

When the first receiving groove 110 includes the first space 111 and the second space 112 adjacently disposed, the second receiving groove 120 includes the third space 121 and the fourth space 122 adjacently disposed, one of the first space 111 and the second space 112 is used to receive the first sounding body 210 of the first ear-clip earphone 200 in the first use state, the other of the first space 111 and the second space 112 is used to receive the second battery body 220 of the first ear-clip earphone 200, one of the third space 121 and the fourth space 122 is used to receive the second sounding body 310 of the second ear-clip earphone 300, the other of the third space 121 and the fourth space 122 is used to receive the second battery body 320 of the second ear-clip earphone 300, and in the second use state, one of the first space 111 and the second space 112 is used to receive the second sounding body 310 of the second ear-clip earphone 300, the other of the first space 111 and the second space 112 is used to receive the second battery body 320 of the second ear-clip earphone 300, and the other of the third space 121 and the fourth space 122 is used to receive the second battery body 320 of the second ear-clip earphone 300, and the other of the second space 122 is used to receive the second battery body 320 of the second ear-clip earphone 200 in the second use state.

In some alternative implementations of the embodiments of the present application, the earphone bin may further include a cover 400 rotatably connected to the base 100, the cover 400 having a locked state in which the cover is disposed at the first receiving groove 110 and the second receiving groove 120 and an open state in which the first receiving groove 110 and the second receiving groove 120 are exposed, as shown in fig. 4, in which the ear clip earphone disposed in the first receiving groove 110 and the second receiving groove 120 can be protected by the cover 400, as shown in fig. 3, and in which the ear clip earphone can be placed in the first receiving groove 110 and the second receiving groove 120, or removed from the first receiving groove 110 and the second receiving groove 120, so that the safety of the earphone bin for receiving the ear clip earphone can be ensured, without affecting the taking and placing of the ear clip earphone.

In the present embodiment, the cover 400 and the base 100 are not limited to each other. For example, the cover 400 and the base 100 may be rotatably coupled by a rotation shaft structure. In other examples, the cover 400 and the base 100 may not be rotatably connected. For example, the cover 400 may be connected to the base 100 by plugging so that the cover 400 is in a locked state, and here, the cover 400 may be separated from the base 100 so that the cover 400 is in an opened state. Of course, in other implementations, the earphone house may not include the cover 400, and in this case, the earphone house may be placed in an external protective sleeve or protective bag.

In this embodiment, the first receiving groove 110 and the second receiving groove 120 may be disposed at intervals in a first direction a, which is parallel to a rotation axis direction D of the cover 400, as shown in fig. 5 to 16, where the first direction a may be a length direction of a top side of the base 100, the second direction B may be a width direction of the top side of the base 100, where the top side of the base 100 may have a first end 101 and a second end 102 disposed opposite to each other in the first direction a, the top side of the base 100 may have a third end 103 and a fourth end 104 disposed opposite to each other in the second direction B, and the rotation axis may be located near the fourth end 104, and the length of the cover 400 in the second direction B may be set smaller by the first direction a being parallel to the rotation axis direction D, that is, the suspension length of the cover 400 is smaller, so that the strength of the cover 400 in the open state of the earphone bin may be enhanced, and the cover 400 may be prevented from being supported with insufficient in the vibration. Of course, in other examples, the first direction a may not be parallel to the rotation axis direction D of the cover 400, and as an example, the first direction a forms a first included angle with the rotation axis direction D of the cover 400, and the value of the first included angle is not limited, and in one application, the first included angle may be 10 degrees, 30 degrees, or 60 degrees.

In the present embodiment, the arrangement of the first receiving groove 110 and the second receiving groove 120 is not limited. For example, as shown in fig. 5 to 8, the first and second receiving grooves 110 and 120 may be formed 180 degrees in the circumferential direction, and the first and second sets of charging interfaces 510 and 520 may be formed 180 degrees in the circumferential direction. As another example, as shown in fig. 9 to 16, the first accommodating groove 110 and the second accommodating groove 120 may be arranged in parallel in the first direction a, and in this case, the ear clip type earphone accommodated in the first accommodating groove 110 may be accommodated in the second accommodating groove 120 by translating a specific distance along the first direction a, which is convenient for accommodating.

In the present embodiment, the specific structures of the first receiving groove 110 and the second receiving groove 120 are not limited.

As an example, as shown in fig. 5 to 8, the first receiving groove 110 includes a first space 111 and a second space 112 spaced apart in a first direction a, the first space 111 being located near an edge side of the base 100 in the first direction a, the second space 112 being located far from the edge side of the base 100 in the first direction a, the second receiving groove 120 includes a third space 121 and a fourth space 122 spaced apart in the first direction a, the third space 121 being located near the edge side of the base 100 in the first direction a, and the fourth space 122 being located far from the edge side of the base 100 in the first direction a, and stability of receiving the ear clip type earphone by the first receiving groove 110 and the second receiving groove 120 can be improved by providing the receiving grooves as two spaces spaced apart.

In example one, the arrangement space of the first group charging interface 510 and the second group charging interface 520 is not limited.

For example, as shown in fig. 5 and 7, a first set of charging interfaces 510 may be located in the second space 112 and a second set of charging interfaces 520 located in the fourth space 122.

In this example, the first group of charging interfaces 510 may include a first positive electrode interface 511 and a first negative electrode interface 512 that are disposed at intervals along a first direction a, the second group of charging interfaces 520 includes a second positive electrode interface 521 and a second negative electrode interface 522 that are disposed at intervals along the first direction a, the first positive electrode interface 511 and the second positive electrode interface 521 may be disposed adjacently along the first direction a, as shown in fig. 7, where the first positive electrode interface 511 and the second positive electrode interface 521 are disposed adjacently along the first direction a, the first negative electrode interface 512 is located on a side of the first positive electrode interface 511 away from the second positive electrode interface 521, and the second negative electrode interface 522 is located on a side of the second positive electrode interface 521 away from the first positive electrode interface 511 along the first direction a. Of course, the first negative electrode interface 512 and the second negative electrode interface 522 may be disposed adjacent to each other in the first direction a. Here, the first negative electrode interface 512 and the second negative electrode interface 522 are disposed adjacently, and the first positive electrode interface 511 is located at a side of the first negative electrode interface 512 away from the second negative electrode interface 522 in the first direction a, and the second positive electrode interface 521 is located at a side of the second negative electrode interface 522 away from the first negative electrode interface 512 in the first direction a.

In this example, the first group of charging interfaces 510 may include first positive interfaces 511 and first negative interfaces 512 arranged at intervals along the second direction B, the second group of charging interfaces 520 includes second positive interfaces 521 and second negative interfaces 522 arranged at intervals along the second direction B, the second direction B is perpendicular to the rotation axis direction D, the first positive interfaces 511 and the second negative interfaces 522 are arranged adjacent in the first direction a, the second positive interfaces 521 and the first negative interfaces 512 are arranged adjacent in the first direction a, and the first negative interfaces 512 may be located on the side of the first positive interfaces 511 close to the rotation axis as shown in fig. 5. Of course, the first negative electrode interface 512 may be located on the side of the first positive electrode interface 511 away from the rotation axis.

As another example, as shown in fig. 6 and 8, the first set of charging interfaces 510 may be located in the first space 111 and the second set of charging interfaces 520 may be located in the third space 121.

In this example, the first group of charging interfaces 510 may include a first positive electrode interface 511 and a first negative electrode interface 512 that are disposed at intervals along a first direction a, the second group of charging interfaces 520 may include a second positive electrode interface 521 and a second negative electrode interface 522 that are disposed at intervals along the first direction a, the first positive electrode interface 511 and the second positive electrode interface 521 may be disposed adjacent to each other in the first direction a, as shown in fig. 8, where the first positive electrode interface 511 and the second positive electrode interface 521 are disposed adjacent to each other in the first direction a, the first negative electrode interface 512 is located on a side of the first positive electrode interface 511 away from the second positive electrode interface 521, and the second negative electrode interface 522 is located on a side of the second positive electrode interface 521 away from the first positive electrode interface 511 in the first direction a. Of course, the first negative electrode interface 512 and the second negative electrode interface 522 may be disposed adjacent to each other in the first direction a. Here, the first negative electrode interface 512 and the second negative electrode interface 522 are disposed adjacently, and the first positive electrode interface 511 is located at a side of the first negative electrode interface 512 away from the second negative electrode interface 522 in the first direction a, and the second positive electrode interface 521 is located at a side of the second negative electrode interface 522 away from the first negative electrode interface 512 in the first direction a.

In this example, the first group of charging interfaces 510 may include first positive interfaces 511 and first negative interfaces 512 arranged at intervals along the second direction B, the second group of charging interfaces 520 includes second positive interfaces 521 and second negative interfaces 522 arranged at intervals along the second direction B, the second direction B is perpendicular to the rotation axis direction D, the first positive interfaces 511 and the second negative interfaces 522 are arranged adjacent in the first direction a, the second positive interfaces 521 and the first negative interfaces 512 are arranged adjacent in the first direction a, and the first negative interfaces 512 may be located on the side of the first positive interfaces 511 close to the rotation axis as shown in fig. 6. Of course, the first negative electrode interface 512 may be located on the side of the first positive electrode interface 511 away from the rotation axis.

As shown in fig. 9 to 12, the first receiving groove 110 includes a first space 111 and a second space 112 spaced apart in a first direction a, the first space 111 being located near an edge side of the housing 100 in the first direction a, the second space 112 being located far from the edge side of the housing 100 in the first direction a, the second receiving groove 120 includes a third space 121 and a fourth space 122 spaced apart in the first direction a, the third space 121 being located far from the edge side of the housing 100 in the first direction a, and the fourth space 122 being located near the edge side of the housing 100 in the first direction a, and stability of receiving the ear clip type headphones by the first receiving groove 110 and the second receiving groove 120 can be improved by providing the receiving grooves as two spaces spaced apart.

In example two, the arrangement space of the first group charging interface 510 and the second group charging interface 520 is not limited.

For example, as shown in fig. 9 and 11, a first set of charging interfaces 510 may be located in the second space 112 and a second set of charging interfaces 520 located in the fourth space 122.

In this example, the first group of charging interfaces 510 may include a first positive electrode interface 511 and a first negative electrode interface 512 that are disposed at intervals along a first direction a, the second group of charging interfaces 520 may include a second positive electrode interface 521 and a second negative electrode interface 522 that are disposed at intervals along the first direction a, the first positive electrode interface 511 and the second negative electrode interface 522 being disposed adjacent to each other in the first direction a as shown in fig. 9, where the first positive electrode interface 511 and the second negative electrode interface 522 are disposed adjacent to each other in the first direction a, the first negative electrode interface 512 is located on a side of the first positive electrode interface 511 that is away from the second negative electrode interface 522, and the second positive electrode interface 521 is located on a side of the second negative electrode interface 522 that is away from the first positive electrode interface 511 in the first direction a. Of course, the first negative electrode interface 512 and the second positive electrode interface 521 may be disposed adjacent to each other in the first direction a.

In this example, the first group of charging interfaces 510 may include first positive interfaces 511 and first negative interfaces 512 arranged at intervals along the second direction B, the second group of charging interfaces 520 includes second positive interfaces 521 and second negative interfaces 522 arranged at intervals along the second direction B, the first positive interfaces 511 and the second positive interfaces 521 are arranged adjacently in the first direction a, the first negative interfaces 512 and the second negative interfaces 522 are arranged adjacently in the first direction a, and the first negative interfaces 512 are located on a side of the first positive interfaces 511 away from the rotational axis as shown in fig. 11. Of course, the first negative electrode interface 512 may be located on the side of the first positive electrode interface 511 close to the rotation axis.

As another example, as shown in fig. 10 and 12, the first set of charging interfaces 510 may be located in the first space 111 and the second set of charging interfaces 520 may be located in the third space 121.

In this example, the first group of charging interfaces 510 may include a first positive electrode interface 511 and a first negative electrode interface 512 that are disposed at intervals along a first direction a, the second group of charging interfaces 520 may include a second positive electrode interface 521 and a second negative electrode interface 522 that are disposed at intervals along the first direction a, the first positive electrode interface 511 and the second negative electrode interface 522 being disposed adjacent to each other in the first direction a, as shown in fig. 10, where the first positive electrode interface 511 and the second negative electrode interface 522 are disposed adjacent to each other in the first direction a, the first negative electrode interface 512 is located on a side of the first positive electrode interface 511 away from the second negative electrode interface 522, and the second positive electrode interface 521 is located on a side of the second negative electrode interface 522 away from the first positive electrode interface 511 in the first direction a. Of course, the first negative electrode interface 512 and the second positive electrode interface 521 may be disposed adjacent to each other in the first direction a.

In this example, the first group of charging interfaces 510 may include first positive interfaces 511 and first negative interfaces 512 arranged at intervals along the second direction B, the second group of charging interfaces 520 includes second positive interfaces 521 and second negative interfaces 522 arranged at intervals along the second direction B, the first positive interfaces 511 and the second positive interfaces 521 are arranged adjacently in the first direction a, the first negative interfaces 512 and the second negative interfaces 522 are arranged adjacently in the first direction a, and the first negative interfaces 512 are located on a side of the first positive interfaces 511 away from the rotational axis as shown in fig. 12. Of course, the first negative electrode interface 512 may be located on the side of the first positive electrode interface 511 close to the rotation axis.

As an example three, as shown in fig. 13 to 16, the first receiving groove 110 may include a first space 111 and a second space 112 spaced apart in a second direction B, the first space 111 being located on a side close to the rotation axis in the second direction B, the second space 112 being located on a side far from the rotation axis in the first direction a, the second receiving groove 120 including a third space 121 and a fourth space 122 spaced apart in the second direction B, the third space 121 being located on a side close to the rotation axis in the second direction B, the fourth space 122 being located on a side far from the rotation axis in the second direction B, and the second direction B being perpendicular to the rotation axis direction D.

In example three, the arrangement space of the first group charging interface 510 and the second group charging interface 520 is not limited.

For example, as shown in fig. 13 and 15, a first set of charging interfaces 510 may be disposed in the first space 111, and a second set of charging interfaces 520 may be disposed in the third space 121.

In this example, the first group of charging interfaces 510 may include first positive interfaces 511 and first negative interfaces 512 that are disposed at intervals along the first direction a, the second group of charging interfaces 520 may include second positive interfaces 521 and second negative interfaces 522 that are disposed at intervals along the first direction a, and the first positive interfaces 511 and second negative interfaces 522 may be disposed adjacently in the first direction a, as shown in fig. 15. Of course, the first negative electrode interface 512 and the second positive electrode interface 521 may be disposed adjacent to each other in the first direction a.

In this example, the first group of charging interfaces 510 may include first positive interfaces 511 and first negative interfaces 512 arranged at intervals along the second direction B, the second group of charging interfaces 520 includes second positive interfaces 521 and second negative interfaces 522 arranged at intervals along the second direction B, the first positive interfaces 511 and the second positive interfaces 521 are arranged adjacently in the first direction a, the second negative interfaces 522 and the first negative interfaces 512 are arranged adjacently in the first direction a, and the first negative interfaces 512 may be located on a side of the first positive interfaces 511 away from the rotation axis as shown in fig. 13. Of course, the first negative electrode interface 512 may be located on the side of the first positive electrode interface 511 close to the rotation axis.

As another example, as shown in fig. 14 and 16, the first set of charging interfaces 510 may be disposed in the second space 112, and the second set of charging interfaces 520 may be disposed in the fourth space 122.

In this example, the first group of charging interfaces 510 may include first positive interfaces 511 and first negative interfaces 512 that are disposed at intervals along the first direction a, the second group of charging interfaces 520 may include second positive interfaces 521 and second negative interfaces 522 that are disposed at intervals along the first direction a, and the first positive interfaces 511 and second negative interfaces 522 may be disposed adjacently in the first direction a, as shown in fig. 16. Of course, the first negative electrode interface 512 and the second positive electrode interface 521 may be disposed adjacent to each other in the first direction a.

In this example, the first group of charging interfaces 510 may include first positive interfaces 511 and first negative interfaces 512 arranged at intervals along the second direction B, the second group of charging interfaces 520 includes second positive interfaces 521 and second negative interfaces 522 arranged at intervals along the second direction B, the first positive interfaces 511 and the second positive interfaces 521 are arranged adjacently in the first direction a, the second negative interfaces 522 and the first negative interfaces 512 are arranged adjacently in the first direction a, and the first negative interfaces 512 may be located on a side of the first positive interfaces 511 away from the rotation axis as shown in fig. 14. Of course, the first negative electrode interface 512 may be located on the side of the first positive electrode interface 511 close to the rotation axis.

For another example, the first set of charging interfaces 510 may be disposed in the first space 111, and the second set of charging interfaces 520 may be disposed in the fourth space 122. For another example, the first set of charging interfaces 510 may be disposed in the second space 112, and the second set of charging interfaces 520 may be disposed in the third space 121.

The embodiment of the application also discloses an earphone device, which comprises an earphone cabin, a first ear clip earphone 200 and a second ear clip earphone 300, wherein in a first use state, the first receiving groove 110 receives the first ear clip earphone 200, the first group of charging interfaces 510 is used for charging the first ear clip earphone 200, the second receiving groove 120 receives the second ear clip earphone 300, the second group of charging interfaces 520 is used for charging the second ear clip earphone 300, in a second use state, the first receiving groove 110 receives the second ear clip earphone 300, the first group of charging interfaces 510 is used for charging the second ear clip earphone 300, and the second receiving groove 120 receives the first ear clip earphone 200, and the second group of charging interfaces 520 is used for charging the first ear clip earphone 200.

In the embodiment of the present application, both the first ear clip type earphone 200 and the second ear clip type earphone 300 can be charged through the first accommodating groove 110 and the second accommodating groove 120, so that the wearer does not need to find the corresponding accommodating groove for charging the ear clip type earphone each time, the time for charging the ear clip type earphone can be reduced, and the charging experience of the ear clip type earphone is improved.

In the embodiment of the present application, the structure of the first ear clip type earphone 200 is not limited. As shown in fig. 1 and 2, the first ear clip type earphone 200 may include a first sounding body 210, a first battery body 220, and a first connection body 230 connected to the first sounding body 210 and the first battery body 220, respectively. In the wearing state, the first sounding body 210 is located at the front side of the wearer's helix and corresponds to the position of the concha cavity to provide audio information to the wearer, the first battery body 220 is located at the rear side of the wearer's helix such that the first ear clip earphone 200 is held at the wearer's helix by a holding space formed by the first battery body 220 and the first sounding body 210, where the first battery body 220 is used to power the first ear clip earphone 200.

In the embodiment of the present application, the structure of the second ear clip type earphone 300 is not limited. As shown in fig. 1 and 2, the second ear clip type earphone 300 may include a second sounding body 310, a second battery body 320, and a second connection body 330 connected to the second sounding body 310 and the second battery body 320, respectively. In the wearing state, the second sounding body 310 is located at the front side of the wearer's helix and corresponds to the position of the concha cavity to provide audio information to the wearer, and the second battery body 320 is located at the rear side of the wearer's helix so that the second ear clip earphone 300 is held at the wearer's helix by a holding space formed by the second battery body 320 and the second sounding body 310, where the second battery body 320 is used to supply power to the second ear clip earphone 300.

The first ear clip type earphone 200 may be a left earphone or a right earphone, and the second ear clip type earphone 300 may be a left earphone or a right earphone. As an example, the first ear clip type earphone 200 is a left earphone and the second ear clip type earphone 300 is a right earphone.

The foregoing is merely illustrative of the present application, and the present application is not limited thereto, and any person skilled in the art will readily recognize that variations or substitutions are within the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (15)

1. The earphone bin convenient to charge is characterized by comprising a seat body, a first storage tank and a second storage tank, wherein the seat body is provided with the first storage tank and the second storage tank which are arranged at intervals;

The first group of charging interfaces are arranged in the first accommodating groove;

the second group of charging interfaces are arranged in the second accommodating groove;

In a first use state, a first accommodating groove is used for accommodating a first ear clip type earphone of an earphone device, the first group of charging interfaces is used for charging the first ear clip type earphone, a second accommodating groove is used for accommodating a second ear clip type earphone of the earphone device, and the second group of charging interfaces is used for charging the second ear clip type earphone;

under the second state of use, first holding tank is used for holding second ear clip formula earphone, first group interface that charges is used for second ear clip formula earphone charges, the second holding tank is used for holding first ear clip formula earphone, second group interface that charges is used for first ear clip formula earphone charges.

2. The earphone pod of claim 1, further comprising:

The cover body is rotatably connected with the base body and is provided with a buckling state of being covered at the first accommodating groove and the second accommodating groove and an opening state of exposing the first accommodating groove and the second accommodating groove;

The first accommodating groove and the second accommodating groove are arranged at intervals in a first direction, and the first direction is parallel to the rotation axis direction of the cover body.

3. The earphone house of claim 2, wherein the first receiving groove comprises a first space and a second space which are arranged at intervals along a first direction, the first space is positioned at a side close to the edge of the seat body along the first direction, the second space is positioned at a side far away from the edge of the seat body along the first direction, the second receiving groove comprises a third space and a fourth space which are arranged at intervals along the first direction, the third space is positioned at a side close to the edge of the seat body along the first direction, and the fourth space is positioned at a side far away from the edge of the seat body along the first direction;

The first group of charging interfaces is located in the second space, the second group of charging interfaces is located in the fourth space, or the first group of charging interfaces is located in the first space, and the second group of charging interfaces is located in the third space.

4. The earphone pod of claim 3, wherein the first set of charging interfaces comprises a first positive interface and a first negative interface spaced apart along a first direction; the second group of charging interfaces comprises a second positive electrode interface and a second negative electrode interface which are arranged at intervals along the first direction;

the first positive electrode interface and the second positive electrode interface are adjacently arranged in a first direction, or the first negative electrode interface and the second negative electrode interface are adjacently arranged in the first direction.

5. The earphone house of claim 3, wherein the first set of charging interfaces comprises a first positive interface and a first negative interface arranged at intervals along a second direction, wherein the second set of charging interfaces comprises a second positive interface and a second negative interface arranged at intervals along the second direction, and wherein the second direction is perpendicular to the rotation axis direction;

The first positive electrode interface and the second negative electrode interface are adjacently arranged in a first direction, and the second positive electrode interface and the first negative electrode interface are adjacently arranged in the first direction;

The first negative electrode interface is positioned on the side, close to the rotation axis, of the first positive electrode interface, or the first negative electrode interface is positioned on the side, far away from the rotation axis, of the first positive electrode interface.

6. The earphone house of claim 2, wherein the first receiving groove comprises a first space and a second space which are arranged at intervals along a first direction, the first space is positioned close to the edge side of the seat body in the first direction, the second space is positioned far away from the edge side of the seat body in the first direction;

The first group of charging interfaces is located in the second space, the second group of charging interfaces is located in the fourth space, or the first group of charging interfaces is located in the first space, and the second group of charging interfaces is located in the third space.

7. The earphone pod of claim 6, wherein the first set of charging interfaces comprises a first positive interface and a first negative interface spaced apart along a first direction, and wherein the second set of charging interfaces comprises a second positive interface and a second negative interface spaced apart along the first direction;

The first positive electrode interface and the second negative electrode interface are adjacently arranged in a first direction, or the first negative electrode interface and the second positive electrode interface are adjacently arranged in the first direction.

8. The earphone bin of claim 6, wherein the first set of charging interfaces comprises a first positive interface and a first negative interface arranged at intervals along a second direction, wherein the second set of charging interfaces comprises a second positive interface and a second negative interface arranged at intervals along the second direction, wherein the first positive interface and the second positive interface are arranged adjacently in the first direction, and wherein the first negative interface and the second negative interface are arranged adjacently in the first direction;

The first negative electrode interface is positioned on the side, close to the rotation axis, of the first positive electrode interface, or the first negative electrode interface is positioned on the side, far away from the rotation axis, of the first positive electrode interface.

9. The headphone housing according to claim 2, wherein the first accommodation groove includes a first space and a second space which are provided at intervals in a second direction, the first space being located on a side close to the rotation axis in the second direction, the second space being located on a side away from the rotation axis in the first direction; the second accommodating groove comprises a third space and a fourth space which are arranged at intervals along a second direction, wherein the third space is positioned at a side close to the rotating axis in the second direction, and the fourth space is positioned at a side far from the rotating axis in the second direction;

The first group of charging interfaces is arranged in the first space, the second group of charging interfaces is arranged in the third space, or the first group of charging interfaces is arranged in the second space, and the second group of charging interfaces is arranged in the fourth space.

10. The earphone pod of claim 9, wherein the first set of charging interfaces comprises a first positive interface and a first negative interface spaced apart along a first direction; the second group of charging interfaces comprises a second positive electrode interface and a second negative electrode interface which are arranged at intervals along the first direction;

The first positive electrode interface and the second negative electrode interface are adjacently arranged in a first direction, or the first negative electrode interface and the second positive electrode interface are adjacently arranged in the first direction.

11. The earphone bin of claim 9, wherein the first set of charging interfaces comprises a first positive interface and a first negative interface arranged at intervals along a second direction, wherein the second set of charging interfaces comprises a second positive interface and a second negative interface arranged at intervals along the second direction, wherein the first positive interface and the second positive interface are arranged adjacently in the first direction, and wherein the second negative interface and the first negative interface are arranged adjacently in the first direction;

The first negative electrode interface is positioned on the side, close to the rotation axis, of the first positive electrode interface, or the first negative electrode interface is positioned on the side, far away from the rotation axis, of the first positive electrode interface.

12. The earphone pod of claim 2, wherein the first receiving slot and the second receiving slot are formed 180 degrees in a circumferential direction, wherein the first set of charging interfaces and the second set of charging interfaces are formed 180 degrees in a circumferential direction, or wherein the first receiving slot and the second receiving slot are juxtaposed in a first direction.

13. The earphone pod of claim 1, wherein the first receiving slot comprises first and second adjacently disposed spaces, the second receiving slot comprises third and fourth adjacently disposed spaces;

In a first use state, one of the first space and the second space is used for accommodating a first sounding body of the first ear clip earphone, the other of the first space and the second space is used for accommodating a first battery body of the first ear clip earphone, one of the third space and the fourth space is used for accommodating a second sounding body of the second ear clip earphone, and the other of the third space and the fourth space is used for accommodating a second battery body of the second ear clip earphone;

In a second use state, one of the first space and the second space is used for accommodating a second sounding body of the second ear clip earphone, the other of the first space and the second space is used for accommodating a second battery body of the second ear clip earphone, one of the third space and the fourth space is used for accommodating a first sounding body of the first ear clip earphone, and the other of the third space and the fourth space is used for accommodating a first battery body of the first ear clip earphone.

14. The earphone pod of any of claims 1-13, wherein the charging ends of the first set of charging interfaces are exposed within the first receiving slot;

The first group of charging interfaces is arranged on the bottom wall of the first accommodating groove, the second group of charging interfaces is arranged on the bottom wall of the second accommodating groove, or the first group of charging interfaces is arranged on the side wall of the first accommodating groove, and the second group of charging interfaces is arranged on the side wall of the second accommodating groove.

15. An earphone device comprising the earphone house of any one of claims 1 to 14, a first ear clip earphone, and a second ear clip earphone;

In a first use state, a first accommodating groove accommodates the first ear clip type earphone, the first group of charging interfaces is used for charging the first ear clip type earphone, a second accommodating groove accommodates the second ear clip type earphone, and the second group of charging interfaces is used for charging the second ear clip type earphone;

Under the second state of use, first holding tank holds the second ear clip formula earphone, first group interface that charges is used for the second ear clip formula earphone charges, the second holding tank holds first ear clip formula earphone, second group interface that charges is used for first ear clip formula earphone charges.