CN210536909U

CN210536909U - Earphone assembly and earphone box

Info

Publication number: CN210536909U
Application number: CN201922101441.1U
Authority: CN
Inventors: 刘佳
Original assignee: Guangdong Oppo Mobile Telecommunications Corp Ltd
Current assignee: Guangdong Oppo Mobile Telecommunications Corp Ltd
Priority date: 2019-11-27
Filing date: 2019-11-27
Publication date: 2020-05-15
Anticipated expiration: 2029-11-27

Abstract

The embodiment of the utility model discloses earphone assembly and earphone box, wherein, earphone assembly includes: earphones and earphone cases; the earphone is provided with an adsorption part; at least one outer surface of the earphone box comprises at least one magnetic area, and the magnetic area has magnetism, so that the earphone box can adsorb the earphones to the outer surface of the earphone box through the adsorption of the magnetic area to the adsorption component.

Description

Earphone assembly and earphone box

Technical Field

The utility model relates to an earphone technical field especially relates to an earphone assembly and earphone box.

Background

The real wireless earphone has no wire connection, does not generate the stethoscope effect, cancels the traditional wire control operation, integrates various functions on the earphone unit, and has an operation mode more conforming to the ergonomic concept. "wireless" provides consumers with greater freedom and a more portable way of daily travel. Such wireless portable, conveniently connected headsets are rapidly gaining favor of consumers.

In the related art, a real wireless headset is housed by a headset case. When putting into the earphone box with the earphone, need accomodate the position that corresponds in putting into the earphone box that the earphone is accurate, very inconvenient.

SUMMERY OF THE UTILITY MODEL

An embodiment of the utility model provides an earphone subassembly and earphone box can make things convenient for accomodating of earphone, especially makes things convenient for temporarily to accomodate to avoid when losing the user to put into the complicated operation of earphone box when taking off the earphone temporarily.

The embodiment of the utility model provides a technical scheme is so realized:

in a first aspect, an embodiment of the present invention provides an earphone assembly, including: earphones and earphone cases;

the earphone is provided with an adsorption part;

at least one outer surface of the earphone box comprises at least one magnetic area, and the magnetic area has magnetism, so that the earphone box can adsorb the earphones to the outer surface of the earphone box through the adsorption of the magnetic area to the adsorption component.

In a second aspect, an embodiment of the present invention provides an earphone box, where at least one outer surface of the earphone box includes at least one magnetic region;

the magnetic area has magnetism, so that the earphone box can adsorb the earphones on the outer surface of the earphone box through the adsorption of the magnetic area on the adsorption part.

The embodiment of the utility model provides an earphone assembly, earphone assembly includes: the earphone box comprises earphones and an earphone box capable of placing the earphones; the earphone is provided with an adsorption part; at least one outer surface of the earphone box comprises at least one magnetic area, and the magnetic area has magnetism, so that the earphone box can adsorb the earphones to the outer surface of the earphone box through adsorption of the magnetic area to the adsorption component; thereby make the earphone adsorb at will and not drop in the corresponding position of earphone box or even optional position, the user need not to put into the accurate corresponding position of putting into of earphone when not temporarily, makes things convenient for accomodating of earphone to when accomodating the earphone through this earphone subassembly, use cost is low, is difficult to lose the earphone.

Drawings

Fig. 1 is a schematic structural diagram of a related art earphone assembly;

fig. 2A is an alternative schematic structural diagram of the earphone assembly provided by the present invention;

fig. 2B is an alternative schematic structural diagram of the earphone assembly provided by the present invention;

fig. 3A is an alternative schematic structural diagram of the earphone assembly provided by the present invention;

fig. 3B is an alternative schematic structural diagram of the earphone assembly provided by the present invention;

fig. 4 is a schematic region diagram of a non-charging region provided by the present invention;

fig. 5 is an alternative schematic structural diagram of the earphone assembly provided by the present invention;

fig. 6 is an alternative schematic structural diagram of the earphone assembly provided by the present invention;

fig. 7 is an alternative schematic structural diagram of the earphone assembly provided by the present invention;

fig. 8 is an alternative schematic structural diagram of the earphone assembly provided by the present invention;

fig. 9 is an alternative schematic structural diagram of the earphone assembly provided by the present invention;

fig. 10 is a schematic view of an alternative application of the earphone provided by the present invention;

description of some reference numerals: 20, a headset assembly, 21, a headset; 21-1, a first earphone; 21-2, a second earphone; 211, an adsorption member; 211-1, a first magnetic sub-assembly; 211-2, a second magnetic sub-assembly; 212, a wireless receiving coil; 213, a first connection; 22, an earphone box; 221, a face of the earphone box; 222, a magnetic region; 223, magnetic means, 224, cartridge; 225, a box cover; 226, a power supply module; 227, charging the magnetic region; 2271, a charging area; 2272, non-charging area; 228, a wireless transmit coil; 229, a receiving groove; 230, a second connection portion; 231, a charging port; 232, wireless charging area.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It should be understood that the examples provided herein are merely illustrative of the present invention and are not intended to limit the present invention. In addition, the following embodiments are provided as some of the embodiments for implementing the present invention, not all of the embodiments for implementing the present invention, and the technical solutions described in the embodiments of the present invention can be implemented in any combination without conflict.

It is right that the embodiment of the utility model provides an earphone component introduces earlier the earphone component among the correlation technique before going on.

As shown in fig. 1, the earphone assembly 20 includes an earphone 21 and an earphone box 22, wherein the earphone 21 includes: the left earphone 21-1 and the earphone 21-2 are used, when the earphone is required to be stored in the earphone box, the cover of the earphone box needs to be manually opened, then the earphone is accurately placed in the corresponding position in the storage groove to be stored, firstly, the box needs to be opened, and secondly, the left earphone and the right earphone are easily reversed, so that the storage is very inconvenient, and particularly under the condition that the left earphone and the right earphone are not worn temporarily. And, because need open the earphone box and find corresponding position when accomodating, the user is accomodate occasionally use cost, causes lazy phenomenon of accomodating easily to easily lose the earphone.

Based on the above problem, an embodiment of the present invention provides an earphone box 22, as shown in fig. 2A, at least one outer surface 221 of the earphone box 22 includes at least one magnetic region 222, and the magnetic region 222 has magnetism, so that the earphone box 22 can adsorb the earphone 21 to the outer surface 221 of the earphone box 22 by adsorbing the adsorption component 211 on the earphone 21 through the magnetic region 222.

Here, the earphone case is a case in which an earphone can be housed, and the configuration diagram shown in fig. 2A is a cross-sectional view of the earphone case.

In one example, the magnetic material is fused into the material of the earphone box shell where the magnetic region is located, so that the magnetic region has magnetism. Under the condition that the magnetic material is blended into the material of the earphone box shell where the magnetic area is located, the material of the area where the magnetic area of the earphone box shell is located is the magnetic material.

In one example, as shown in fig. 2B, a magnetic component 223 is disposed on the earphone box housing where the magnetic region 222 is located, so that the magnetic region has magnetism.

The magnetic component can be arranged on the outer surface of the earphone box shell where the magnetic area is located, and can also be arranged on the inner surface of the earphone box shell where the magnetic area is located.

In the structure diagram of the earphone box shown in fig. 2B, the magnetic area is exemplarily illustrated by taking an example that the magnetic component is disposed on the earphone box housing where the magnetic area is located so that the magnetic area has magnetism and the magnetic component is disposed on the inner surface of the earphone box housing where the magnetic area is located.

Taking the magnetic region provided with the magnetic component as an example, the shape of the magnetic component in the earphone box 22 may be: square, tile, special-shaped, cylindrical, circular and the like. The embodiment of the utility model provides a do not carry out any restriction to the shape of magnetic part.

The number of magnetic components in earphone box 22 may be one or more, and the location in the earphone box may be any portion of the magnetic area.

In one example, earphone case 22 includes six external surfaces, including: an upper surface, a lower surface and four side surfaces. Wherein, the upper surface is the curved surface, and four sides and lower surface are the plane.

In the embodiment of the present invention, the shape of the earphone case and the number of included outer surfaces are not limited. In one example, the earphone box is a cube including six outer surfaces. In one example, the earphone box is a cylinder including three outer surfaces.

Optionally, the outer surface of the earphone box comprises a plane. Optionally, the outer surface of the earphone box comprises a plane and a curved surface.

The quantity of including the regional surface of magnetism in the earphone box is one or more, the embodiment of the utility model provides a do not prescribe a limit to this. In an example, one of the six outer surfaces comprised by the earphone box comprises a magnetic area. In an example, three of the six outer surfaces comprised by the earphone box comprise magnetic regions, respectively.

The outer surface including the magnetic regions includes one or more (a plurality includes two or more) magnetic regions. In one example, the outer surface a includes magnetic regions and includes only one magnetic region. In one example, the outer surface B includes magnetic regions and includes three magnetic regions.

Optionally, as shown in fig. 3A, a power module 226 is disposed in the earphone box 22, at least one of the magnetic regions 222 includes a charging magnetic region 227, and the charging magnetic region 227 is electrically connected to the power module 226, so that the power module 226 charges the earphone 21 attached to the outer surface of the earphone box 22 through the charging magnetic region 226.

When the earphone is adsorbed on the charging magnetic area, the power module can wirelessly charge the earphone through the charging magnetic area. Here, the charging magnetic region may be wirelessly charged to the headset in the following wireless charging manner: an electromagnetic induction system, an electromagnetic resonance system, an electric field coupling system, a radio wave system, and the like.

Alternatively, the entire face of charging magnetic region 225 is regarded as charging region 2221.

When the entire surface of the charging magnetic region 225 is set as a charging region 2271, the wireless transmission coil 228 is provided at a position corresponding to the charging magnetic region 227. For example, the wireless transmitting coil 228 is disposed inside the earphone box housing corresponding to the charging magnetic region 225.

Alternatively, as shown in fig. 3B and 4, the charging magnetic region includes: a charging area 2271 and a non-charging area 2272; the charging area 2271 is provided with a wireless transmitting coil 228, the wireless transmitting coil 228 being usable for charging in cooperation with a wireless receiving coil of the headset.

Here, the wireless transmission coil 228 is connected to the power supply module 226, and when the earphone 21 is attached to the outer surface of the earphone case 22, the power supply module 226 charges the earphone 21 through the wireless transmission coil 228 and the wireless reception coil 212 on the earphone 21.

A partial region of the charging magnetic region 227 serves as a charging region 2271, and a wireless transmission coil 228 is provided at a position corresponding to the charging region 2271. The region other than the charging region 2271 in the charging magnetic region 227 is a non-charging region 2272.

The embodiment of the utility model provides an earphone box not only possesses the function that holds the earphone to can charge to absorbent earphone through the mode of wireless charging, thereby when accomodating, charge to the earphone through the wireless charging mode, realize multi-functional earphone box.

Optionally, as shown in fig. 5, a receiving groove 229 for receiving the earphone 21 is further disposed in the earphone box 22, and a groove wall of the receiving groove 229 is provided with: a second connection part 230 electrically connected to the power supply module; the power module 226 charges the earphone 21 through the second connection part 230 and the first connection part 213 when the first connection part 213 of the earphone 21 contacts the second connection part 230.

In an embodiment of the present invention, the shape of the accommodating groove 229 may correspond to the shape of the earphone, so as to accommodate the earphone.

The embodiment of the utility model provides a wireless charging and wired two kinds of charge methods of charging can be supported simultaneously to the earphone box that provides, can charge to the earphone based on any kind among two kinds of charge methods to improve charge method's flexibility, provide more charge options for the user.

Optionally, as shown in fig. 6 and 7, the earphone box 22 is further provided with: a charging port 231 or a wireless charging area 232 electrically connected with the power supply module 226; the charging port 231 or the wireless charging area 232 is used for the charging device to charge the power module 226.

The embodiment of the utility model provides a when the earphone box is charged or is charged by battery charging outfit through wired mode on the battery charging outfit that is supported wireless charging, the earphone box can realize being charged on one side and charging for the earphone through wired mode or wireless charging mode to carry out the charging of earphone box and earphone simultaneously, improved the user experience of earphone box.

Based on the earphone box shown in fig. 2A, an embodiment of the present invention further provides an earphone assembly 20, as shown in fig. 2A, including an earphone 21 and an earphone box 22, where the earphone 21 is provided with an adsorption component 211; at least one outer surface 221 of the earphone box 22 includes at least one magnetic region 222, and the magnetic region 222 has magnetism, so that the earphone box 22 can adsorb the earphone 21 to the outer surface of the earphone box 22 by the adsorption of the magnetic region 222 to the adsorption component 211 on the earphone 21.

The material of the attracting member in the earphone 21 may be a magnetic material having magnetism, or a metal material capable of attracting the magnetic material.

The shape of the suction member in the headphone 21 may be: square, tile, special-shaped, cylindrical, circular and the like. The embodiment of the utility model provides a do not carry out any restriction to the shape of adsorbing the part.

The number of the suction members in the earphone 21 may be one or more, and the position in the earphone may be any portion in the earphone case.

In one example, the magnetic material is fused into the material of the earphone box shell where the magnetic region is located, so that the magnetic region has magnetism. Under the condition that the magnetic material is blended into the material of the earphone box shell where the magnetic area is located, the material of the area where the magnetic area is located in the earphone box shell is made of the magnetic material.

In one example, as shown in fig. 2B, a magnetic component 223 is disposed on the earphone box housing where the magnetic region is located, so that the magnetic region has magnetism.

Taking the case that the magnetic component is disposed on the earphone box housing where the magnetic region is located as an example, the shape of the magnetic component in the earphone box 22 may be: square, tile, special-shaped, cylindrical, circular and the like. The embodiment of the utility model provides a do not carry out any restriction to the shape of magnetic part.

In the embodiment of the present invention, the shape of the earphone case and the number of included faces are not limited. In one example, the earphone box is a cube including six outer surfaces. In one example, the earphone box is a cylinder including three outer surfaces.

The quantity of including the regional surface of magnetism in the earphone box is one or more, the embodiment of the utility model provides a do not prescribe a limit to this. In an example, one of the six outer surfaces comprised by the earphone box comprises a magnetic area. In an example, three of the six external surfaces comprised by the earphone box comprise magnetic regions.

The outer surface including the magnetic region includes one or more magnetic regions in number. In one example, the outer surface a includes magnetic regions and includes only one magnetic region. In one example, the outer surface B includes magnetic regions and includes three magnetic regions.

The embodiment of the utility model provides an earphone assembly, on one hand, when the earphone box is put in the bag or the pocket, the user can directly take off the earphone and put in the pocket or the bag, at this time, the earphone can be automatically adsorbed on the earphone box, so that the earphone is not easy to lose because of reasons such as sports coming out of the pocket and the bag; on the other hand, the earphones and the earphone case are provided with magnetic parts, so that the earphones and the earphone case can be adsorbed on other metal equipment such as a computer made of metal materials. Such as: when a user does not want to wear the earphones in the office, the earphones can be taken off and absorbed in the metal material area of the computer, and the computer is convenient and interesting.

As shown in fig. 8, the headphone 21 includes: a first earphone 21-1 and a second earphone 21-2; the adsorption member 211 includes: a first magnetic sub-assembly 211-1 disposed on the first earphone 21-1; a second magnetic sub-assembly 211-2 disposed on the second earphone 21-2; the first magnetic sub-component 211-1 and the second magnetic sub-component 211-2 can attract each other.

Here, the first earphone and the second earphone are one of a left earphone and a right earphone, respectively. In one example, the first earpiece is a right earpiece and the second earpiece is a left earpiece. In yet another example, the first earpiece is a left earpiece and the second earpiece is a right earpiece.

In the embodiment of the utility model, the earphone comprises two parts of an earphone and an earphone body, and the position of the first magnetic part in the first earphone can be the earphone or the earphone body; the position of the second magnetic sub-assembly in the second earpiece may be the earpiece or the earpiece body. The position of the first magnetic sub-assembly in the first earphone and the position of the second magnetic sub-assembly in the second earphone can be the same or different.

In one example, as shown in fig. 8, the first magnetic sub-assembly is located inside the earpiece body of the first earpiece and the second magnetic assembly is located inside the earpiece body of the second earpiece.

In an example, the first magnetic sub-assembly is located on an earpiece of the first earpiece and the second magnetic assembly is located inside an earpiece body of the second earpiece.

In an embodiment, the first magnetic sub-component is disposed on a contour surface of an earpiece portion of the first earphone; or the second magnetic sub-component is arranged on the contour surface of the earphone part of the second earphone.

In one example, the first magnetic sub-assembly is located on a contour surface of an earpiece portion of the first earpiece and the second magnetic sub-assembly is located on a contour surface of an earpiece portion of the second earpiece. In one example, the first magnetic sub-component is located on the earphone body of the first earphone, and the second magnetic sub-component is located on the contour surface of the earphone part of the second earphone. In an example, the first magnetic sub-component is located on a contour surface of an earphone part of the first earphone, and the second magnetic component is located on an earphone body of the second earphone.

The left earphone and the right earphone are attracted and adsorbed together through the first magnetic sub-component and the second magnetic sub-component.

The left earphone and the right earphone can be mutually adsorbed, so that a user can conveniently find the earphone.

The embodiment of the utility model provides an earphone including adsorption element for when the user does not wear the earphone, can adsorb two earphones and store together, make things convenient for two earphones to be found together, still need look for another earphone again after need not finding an earphone.

Alternatively, as shown in fig. 2A, the earphone 21 is attached to the outer surface of the earphone case 22 based on the attaching force between the attaching member and the magnetic region.

Optionally, as shown in fig. 9, the earphone box 22 includes: the box body 224, the box cover 225 and the containing cavity formed on the box cover based on the box body cover; the earphone 21 can be accommodated in the accommodating cavity, wherein the earphone 21 is attracted to the accommodating cavity through the magnetic area 222.

Here, when the box body is covered on the box cover, an accommodating cavity is formed, and at the moment, the earphone box is in a covered state. When the earphone box is in an open state, the box body and the box cover can be connected but are not in a closed state, or the box body and the box cover are separated.

When the earphone 21 is stored in the earphone box 22, the earphone box 22 can absorb the earphone 21 in the containing cavity by the absorption of the magnetic area 222 to the absorption component 211, so that the earphone 21 is fixed and cannot move back and forth in the earphone box.

When the earphone 21 is absorbed in the receiving cavity, the box body 222 and the box cover 223 can be closed, so that the earphone can be received in the earphone box.

Based on the utility model provides an earphone subassembly, earphone selective absorption is in order to carry out interim taking in at the surface of earphone box, also can place and carry out long-time taking in the holding intracavity of earphone box.

Optionally, as shown in fig. 3A, the earphone box is provided with: a power supply module 226; the at least one magnetic region 222 includes a charging magnetic region 227, and the charging magnetic region 227 is electrically connected to the power module 226, so that the power module 226 charges the earphone 21 attached to the outer surface of the earphone box 22 through the charging magnetic region 226.

When the earphone is adsorbed in the charging magnetic area, the power module can wirelessly charge the earphone through the charging magnetic area. Here, the charging magnetic region may be wirelessly charged to the headset in the following wireless charging manner: an electromagnetic induction system, an electromagnetic resonance system, an electric field coupling system, a radio wave system, and the like.

All the magnetic areas of the earphone box can be charging magnetic areas, and part of the magnetic areas can also be charging magnetic areas. In one example, the earphone box includes three magnetic properties: region 1, region 2 and region 3, wherein a charged magnetic region is included: and (4) a region 2. In yet another example, the earphone case includes three magnetic regions: region 1, region 2, and region 3, wherein region 1, region 2, and region 3 are all charged magnetic regions.

Alternatively, the entire surface of the charging magnetic region 227 is the charging region 2221.

When the entire surface of the charging magnetic region 225 is set as the charging region 2221, the wireless transmission coil 228 is provided at a position corresponding to the charging magnetic region 225. For example, the wireless transmitting coil 228 is disposed inside the earphone box housing corresponding to the charging magnetic region 225.

Alternatively, as shown in fig. 3B and 4, the charging magnetic area of the earphone 21 includes: a charging area 2271 and a non-charging area 2272; the charging area 2271 is provided with a wireless transmitting coil 228, the wireless transmitting coil 228 being usable for charging in cooperation with a wireless receiving coil of the headset.

The power supply module 226 charges the earphone 21 through the wireless transmitting coil 228 and the wireless receiving coil 212 when the earphone 21 is attached to the charging area 2271.

Here, the wireless transmission coil 228 and the power supply module 226 are electrically connected, and when the earphone 21 is attached to the earphone case 22, the power supply module 226 charges the earphone 21 through the wireless transmission coil 228 and the wireless reception coil 212 on the earphone 21.

Here, mutually match between wireless transmitting coil and the wireless receiving coil, after the earphone adsorbs behind the charging area, wireless transmitting coil induced wireless receiving coil, sent the signal to power module to instruct power module to begin to charge, power module charges to the earphone through line transmitting coil and wireless receiving coil based on received signal, thereby when the earphone adsorbs the charging area of earphone box, the earphone box charges to the earphone through the mode of wireless charging.

The shape of the charging area may correspond to the shape of the wireless transmission coil.

Here, the position and size of the charging area may be determined according to the position and size of the wireless transmission coil.

The shape and size of the wireless transmitting coil is independent of the shape and size of the magnetic region.

Here, when the earphone is attached to the charging area, the earphone box charges the earphone in a wireless charging manner. When the earphone is adsorbed in the non-charging area, the earphone box only adsorbs the earphone and does not charge the earphone.

Optionally, as shown in fig. 5, the earphone 21 is further provided with: a first connection portion 213; an accommodating groove 229 for accommodating the earphone 21 is further provided in the earphone case 22, and a groove wall of the accommodating groove 229 is provided with: a second connection part 230 electrically connected to the power supply module 226 (not shown); the power module 226 charges the earphone 21 through the electrical connection between the first connection part 213 and the second connection part 230 when the first connection part 213 is in contact with the second connection part 230.

When the earphone is placed in the containing groove, the first connecting portion is in contact with the second connecting portion, so that electric connection is formed between the first connecting portion and the second connecting portion, and when the power supply module detects that electric connection is formed between the second connecting portion and the first connecting portion, the earphone is charged.

In one example, the headset case includes only a charging port. In one example, the headset case includes only a wireless charging area. In an example, the headset case includes a charging port and a wireless charging area.

The charging port is an interface capable of receiving charging of the charging device in a wired manner, and the interface type of the charging port is not limited at all.

The wireless charging area can receive the charging current of the charging equipment in a wireless mode, and the size and the position of the wireless charging area in the earphone box are not limited at all.

In one example, the wireless charging area and the charging magnetic area are the same area. In one example, the wireless charging area is a different area than the charging magnetic area.

The wireless charging area can receive charging of the charging device in the following wireless charging mode: an electromagnetic induction system, an electromagnetic resonance system, an electric field coupling system, a radio wave system, and the like.

The embodiment of the utility model provides an earphone assembly, all have magnetic part on earphone and the earphone box, the earphone can adsorb on the earphone box through magnetic part. The earphone is provided with a wireless receiving coil, the earphone box is provided with a wireless transmitting coil, and the earphone box can charge the earphone in a wireless charging mode through the wireless transmitting coil and the wireless receiving coil.

As shown in fig. 10, the embodiment of the present invention provides an earphone 21 in an earphone assembly, which can also be charged through a wireless charging device supporting wireless charging, except for an earphone box such as a mobile phone 23 or a wireless charging board 24 supporting wireless charging, so that the charging device of the earphone is not limited to the earphone box.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims

1. A headset assembly, the headset assembly comprising: earphones and earphone cases;

the earphone is provided with an adsorption part;

2. The headset assembly of claim 1, wherein the headset comprises: a first earphone and a second earphone; the adsorption member includes:

a first magnetic sub-assembly disposed on the first earphone;

a second magnetic sub-assembly disposed on the second earphone;

the first magnetic sub-component and the second magnetic sub-component can attract each other.

3. The earphone assembly of claim 2,

the first magnetic sub-component is arranged on a contour surface of a receiver part of the first earphone; or

The second magnetic sub-component is arranged on the contour surface of the earphone part of the second earphone.

4. The headset assembly of claim 1, wherein the headset case comprises: the box comprises a box body, a box cover and an accommodating cavity formed on the box cover based on the box body;

the earphone can be accommodated in the accommodating cavity, wherein the earphone is adsorbed in the accommodating cavity through the magnetic area.

5. The headset assembly of claim 1, wherein the headset case has disposed therein: a power supply module;

at least one magnetism region is including the magnetism region that charges, the magnetism region that charges with power module electricity is connected, makes power module pass through the magnetism region that charges to the earphone of adsorbing the surface of earphone box.

6. The earphone assembly of claim 5 wherein the earphone is provided with a wireless receiving coil;

the charging magnetic region includes: a charging area and a non-charging area; the charging area is provided with a wireless transmitting coil, and the wireless transmitting coil can be used for being matched with the wireless receiving coil to be charged.

7. The earphone assembly of claim 6,

the power module is in the earphone adsorbs when charging the region, through wireless transmitting coil with wireless receiving coil to the earphone charges.

8. The headset assembly of claim 5, wherein the headset is further provided with: a first connection portion; still be provided with in the earphone box and be used for the holding the storage tank of earphone, be provided with on the cell wall of storage tank: a second connection part electrically connected to the power supply module;

and the power module charges the earphone through the electric connection of the first connecting part and the second connecting part when the first connecting part is contacted with the second connecting part.

9. The headset assembly of claim 5, wherein the headset case is further provided with: a charging port or a wireless charging area electrically connected with the power supply module;

the charging port or the wireless charging area is used for charging equipment to charge the power module.

10. An earphone box, characterized in that at least one outer surface of the earphone box comprises at least one magnetic area;

the magnetic area has magnetism, so that the earphone box can adsorb the earphones on the outer surface of the earphone box through the adsorption of the magnetic area on the adsorption component on the earphones.

11. The headset box of claim 10, wherein a power module is disposed within the headset box, and wherein at least one of the magnetic regions comprises a charging magnetic region electrically connected to the power module, such that the power module charges a headset attached to an outer surface of the headset box through the charging magnetic region.

12. The earphone box according to claim 11, wherein a containing groove for containing the earphone is further disposed in the earphone box, and a groove wall of the containing groove is provided with: a second connection part electrically connected to the power supply module;

and the power supply module charges the earphone through the second connecting part and the first connecting part when the first connecting part of the earphone is contacted with the second connecting part.

13. The headset case of claim 11, wherein the headset case is further provided with: a charging port or a wireless charging area electrically connected with the power supply module;