CN210670516U - Earphone assembly, earphone and earphone box - Google Patents

Abstract

The application provides an earphone subassembly, earphone and earphone box. The earphone component comprises an earphone box, a first earphone and a second earphone, the earphone box comprises a first accommodating space and a second accommodating space, the first accommodating space is used for accommodating the first earphone, the second accommodating space is used for accommodating the second earphone, the earphone box comprises a box body, a first auxiliary magnetic attraction piece and a second auxiliary magnetic attraction piece, the first auxiliary magnetic attraction piece and the second auxiliary magnetic attraction piece are borne on the box body, the first auxiliary magnetic attraction piece is arranged corresponding to the first accommodating space, the second magnetic attraction piece is arranged corresponding to the second accommodating space, the first earphone comprises a first shell and a first main magnetic attraction piece, the second earphone comprises a second shell and a second main magnetic attraction piece, the first main magnetic attraction piece and the first auxiliary magnetic attraction piece are attracted, the second main magnetic attraction piece and the second auxiliary magnetic attraction piece are attracted, the first main magnetic attraction piece and the second auxiliary magnetic attraction piece are repelled, and the second main magnetic attraction piece and the first auxiliary magnetic attraction piece are repelled. The earphone assembly provided by the application can guide a user to correctly place the first earphone and the second earphone in the earphone box.

Description

Earphone assembly, earphone and earphone box

Technical Field

The application relates to the field of earphones, and concretely relates to earphone assembly, earphone and earphone box.

Background

Along with the improvement of the convenience requirement of the earphone, the wireless earphone without the earphone wire is produced. In the related art, the wireless earphones are usually paired and include a first earphone and a second earphone, and the earphone box has an accommodating space capable of accommodating the wireless earphones, and the accommodating space includes a first accommodating space capable of accommodating the first earphone and a second accommodating space capable of accommodating the second earphone. However, when the user places the wireless headset into the accommodating space, the first headset and the second headset are easily placed incorrectly, for example, the first headset is placed into the second accommodating space, and the second headset is placed into the first accommodating space.

SUMMERY OF THE UTILITY MODEL

The application provides an earphone assembly, when first earphone, second earphone were placed the earphone box, can demonstrate initiatively whether appear placing wrong phenomenon to can guide the user to place it correctly.

The application provides an earphone assembly, which comprises an earphone box, a first earphone and a second earphone, wherein the earphone box comprises a first accommodating space and a second accommodating space, the first accommodating space is used for accommodating the first earphone, the second accommodating space is used for accommodating the second earphone, the earphone box comprises a box body, a first auxiliary magnetic suction piece and a second auxiliary magnetic suction piece, the first auxiliary magnetic suction piece and the second auxiliary magnetic suction piece are both borne on the box body, the first auxiliary magnetic suction piece corresponds to the first accommodating space, the second auxiliary magnetic suction piece corresponds to the second accommodating space, the first earphone comprises a first shell and a first main magnetic suction piece, the second earphone comprises a second shell and a second main magnetic suction piece, the first main magnetic suction piece can be magnetically sucked with the first auxiliary magnetic suction piece, the second main magnetic suction piece can be magnetically sucked with the second auxiliary magnetic suction piece, the first main magnetic attraction piece can repel the second auxiliary magnetic attraction piece, and the second main magnetic attraction piece can repel the first auxiliary magnetic attraction piece.

The application also provides an earphone, the earphone can bear in the earphone box, the earphone includes first earphone and second earphone, first earphone include first casing, and bear in the first main magnetism of first casing is inhaled the piece, the second earphone include the second casing, and bear in the second main magnetism of second casing is inhaled the piece, the magnetic field polarity of first main magnetism is inhaled the piece with the magnetic field polarity of second main magnetism is inhaled the piece is opposite, first main magnetism inhale the piece include with the first main magnetic pole of complex is inhaled to earphone box magnetism, second main magnetism inhale the piece include with the earphone box magnetism is inhaled the complex second main magnetic pole, the magnetic field polarity of first main magnetic pole with the magnetic field polarity of second main magnetic pole is opposite.

The application also provides an earphone box, the earphone box is used for accommodating the earphone, the earphone box includes that box body, first pair magnetism inhale the piece, and the vice magnetism inhale the piece of second, the box body is used for bearing first pair magnetism inhale the piece with the vice magnetism inhale the piece of second, the magnetic field polarity of first pair magnetism inhale the piece with the magnetic field polarity of the vice magnetism inhale the piece of second is opposite, the earphone box includes first accommodation space, and second accommodation space, first pair magnetism inhale the piece and correspond first accommodation space sets up, the vice magnetism of second is inhaled the piece and is corresponded the setting of second accommodation space, first pair magnetism inhale the piece include with the first pair magnetic pole of complex is inhaled to the earphone magnetism, the vice magnetism inhale the piece of second include with the vice magnetic pole of complex is inhaled to the earphone magnetism, the magnetic field polarity of first pair magnetic pole with the magnetic field polarity of the vice magnetic pole of second is opposite.

The earphone assembly provided by the application can actively show whether the first earphone and the second earphone are placed wrongly or not. Specifically, when the first earphone and the second earphone are placed in the earphone box, if the first earphone, the second earphone and the earphone box are in a magnetic attraction state, the correct placement is indicated; if the first earphone, the second earphone and the earphone box are in a repellent state, the placement is incorrect, and therefore a user can be guided to replace the first earphone and the second earphone, and the first earphone and the second earphone can be placed correctly.

Drawings

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

Fig. 2 is a schematic structural diagram of an earphone assembly according to another embodiment of the present application.

Fig. 3 is a schematic structural diagram of an earphone assembly according to another embodiment of the present application.

Fig. 4 is a schematic structural diagram of an earphone assembly according to another embodiment of the present application.

Fig. 5 is a schematic position diagram of a magnetic element according to an embodiment of the present application.

Fig. 6 is a schematic position diagram of a magnetic element according to another embodiment of the present application.

Fig. 7 is a schematic position diagram of a magnetic element according to another embodiment of the present application.

Fig. 8 is a schematic position diagram of a connector according to an embodiment of the present application.

Fig. 9 is a schematic structural diagram of an earphone assembly according to another embodiment of the present application.

Fig. 10 is a schematic structural diagram of an earphone according to an embodiment of the present application.

Fig. 11 is a schematic structural diagram of an earphone box according to an embodiment of the present application.

Fig. 12 is a schematic structural diagram of an earphone assembly according to another embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present application, and it is obvious that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments obtained by a person of ordinary skill in the art without any inventive work based on the embodiments in the present application are within the scope of protection of the present application.

In the related art, the wireless earphones are usually accommodated in the earphone box having the groove, however, when a user places a pair of wireless earphones in the corresponding grooves, the situation that the wireless earphones are not matched with the grooves is easily generated, for example, a left wireless earphone is placed in the right groove, a right wireless earphone is placed in the left groove, and then the wireless earphones and the wireless earphone box may be damaged.

Please refer to fig. 1. The present application provides an earphone assembly 1. The earphone assembly 1 includes an earphone box 10, a first earphone 20, and a second earphone 30. The earphone box 10 includes a first accommodating space 110 and a second accommodating space 120. The first receiving space 110 is used for receiving the first earphone 20. The second receiving space 120 is used for receiving the second earphone 30. The earphone box 10 includes a box body 130, a first pair of magnetic attraction pieces 140, and a second pair of magnetic attraction pieces 150. The first auxiliary magnetic element 140 and the second auxiliary magnetic element 150 are supported on the box 130, for example, disposed on the lower surface or the upper surface of the box 130 or embedded in the wall of the box 130. The first auxiliary magnetic attraction element 140 is disposed corresponding to the first receiving space 110, and it can be understood that the first auxiliary magnetic attraction element 140 is disposed at any position of the box body 130 enclosing the first receiving space 110, for example, at the bottom of the first receiving space 110 or at one side of the top of the first receiving space 110, or even at a position of a sidewall of the first receiving space 110, where the position may be a lower surface, an upper surface, or a wall embedded in the box body 130 of the box body 130. The second pair of magnetic attraction members 150 is disposed corresponding to the second accommodation space 120, and it can be understood that the second pair of magnetic attraction members 150 is disposed at any position of the box body 130 enclosed as the second accommodation space 120, for example, at the bottom of the second accommodation space 120 or at one side of the top of the second accommodation space 120, or even at a position on a sidewall of the second accommodation space 120, where the position may be a lower surface, an upper surface, or embedded in a wall body of the box body 130. The first earphone 20 includes a first housing 210 and a first main magnetic attraction 220, and the second earphone 30 includes a second housing 310 and a second main magnetic attraction 320. The first main magnetic element 220 can magnetically attract the first sub magnetic element 140. The second main magnetic element 320 can magnetically attract with the second auxiliary magnetic element 150. The first main magnetic element 220 can repel the second auxiliary magnetic element 150. The second primary magnetic element 320 is capable of repelling the first secondary magnetic element 140.

Specifically, the earphone assembly 1 includes an earphone box 10, a first earphone 20 and a second earphone 30, wherein the earphone box 10 is used for carrying and accommodating the first earphone 20 and the second earphone 30, thereby facilitating carrying by a user. Further, the earphone box 10 includes a first accommodating space 110 and a second accommodating space 120. The shape of the first accommodating space 110 is matched with that of the first earphone 20, so that the first earphone 20 can be placed in the first accommodating space 110; the second receiving space 120 is matched with the shape of the second earphone 30, so that the second earphone 30 can be placed in the second receiving space 120.

Referring to fig. 1, in one embodiment, the first receiving space 110 and the second receiving space 120 are arranged in a vertical direction, and accordingly, the first earphone 20 and the second earphone 30 are placed in the earphone box 10 in an upright position.

Referring to fig. 2, in another embodiment, the first accommodating space 110 and the second accommodating space 120 are arranged along a horizontal direction, and accordingly, the first earphone 20 and the second earphone 30 are placed in the earphone box 10 in a lying posture.

Of course, in other embodiments, it is easily conceivable that the first accommodating space 110 and the second accommodating space 120 are disposed in an inclined manner, and accordingly, the first earphone 20 and the second earphone 30 are disposed in the earphone box 10 in an inclined posture. It should be noted that, other embodiments of the present application are described by way of example, but should not be construed as limiting the present application, and the first accommodating space 110 and the second accommodating space 120 are arranged in a vertical direction, and the first earphone 20 and the second earphone 30 are placed in the earphone box 10 in an upright posture.

It will be appreciated that conventional headsets are typically paired and that the two headsets are mirror images in shape. The first earphone 20 and the second earphone 30 provided by the present application may be mirror images or slightly different in shape. Accordingly, the shapes of the first accommodating space 110 and the second accommodating space 120 may be mirror symmetry or slightly different. Wherein, the mirror symmetry is arranged to be beneficial to product design and processing, and the arrangement is slightly different to be beneficial to distinguishing.

Further, both the first accommodating space 110 and the second accommodating space 120 may be grooves (see fig. 1) or through holes (see fig. 3) penetrating through the earphone box 10. Wherein, set up to the recess form and be favorable to forming confined space to can once degree keep apart the dust, set up to the through-hole form and be favorable to observing inside earphone box 10 at any time, thereby know first earphone 20 and second earphone 30 and whether lose.

Further, the first earphone 20 and the second earphone 30 may be disposed in a front-to-front manner (see fig. 1) or in a back-to-back manner (see fig. 4).

It should be noted that the specific shapes, positions, and other characteristics of the earphone box 10, the first earphone 20, the second earphone 30, the first accommodating space 110, and the second accommodating space 120 may be determined as required, and the visualized characteristics appearing in the embodiments are only for illustrative purposes and should not be construed as limitations of the present application, and the present application does not limit the relevant characteristics.

Further, the earphone box 10 includes a box body 130, a first pair of magnetic attraction pieces 140, and a second pair of magnetic attraction pieces 150. The first pair of magnetic attraction pieces 140 is disposed corresponding to the first receiving space 110, and the second pair of magnetic attraction pieces 150 is disposed corresponding to the second receiving space 120. The corresponding arrangement here means that the first sub-magnetic attraction element 140 is arranged near the first accommodating space 110 or connected to a sidewall of the first accommodating space 110. The connection may be a fitting connection (for example, the first auxiliary magnetic element 140 is fitted in the sidewall of the first accommodating space 110), or an attaching connection (for example, the first auxiliary magnetic element 140 is attached to the sidewall of the first accommodating space 110). Similarly, the corresponding relationship between the second pair of magnetic attraction elements 150 and the second receiving space 120 is the same as the corresponding relationship between the first pair of magnetic attraction elements 140 and the first receiving space 110, and is not repeated herein, and the application is not limited thereto.

Further, the first earphone 20 includes a first housing 210 and a first main magnetic attraction 220, and the second earphone 30 includes a second housing 310 and a second main magnetic attraction 320. The first main magnetic element 220 is carried by the first housing 210, and the second main magnetic element 320 is carried by the second housing 310. The bearing referred to herein may be a direct bearing or may be an indirect bearing via other components. In a case where the first main magnetic element 220 is directly connected to the first housing 210, a connection relationship between the first main magnetic element 220 and the first housing 210 may be a fitting connection (for example, the first main magnetic element 220 is fitted to a sidewall of the first housing 210), or an attaching connection (for example, the first main magnetic element 220 is fitted to a sidewall of the first housing 210). Similarly, under the condition that the second main magnetic element 320 is directly connected to the second housing 310, the direct connection relationship between the second main magnetic element 320 and the second housing 310 is the same as the direct connection relationship between the first main magnetic element 220 and the first housing 210, which is not described herein again and is not limited in this application.

Further, the first main magnetic element 220 can magnetically attract the first sub magnetic element 140. The second primary magnetic element 320 is capable of magnetically attracting the second secondary magnetic element 150 with respect to each other. It can be understood that the first auxiliary magnetic attraction element 140 is disposed corresponding to the first accommodation space 110, when the first earphone 20 is placed in the first accommodation space 110, the first earphone 20 can be stably accommodated in the first accommodation space 110 through the magnetic attraction effect of the first main magnetic attraction element 220 and the first auxiliary magnetic attraction element 140, and the second earphone 30 is similar to the first earphone.

Further, the first main magnetic element 220 and the second auxiliary magnetic element 150 repel each other. The second main magnetic element 320 and the first sub magnetic element 140 repel each other. It will be appreciated that this arrangement is such that the user does not misplace the first earpiece 20 and the second earpiece 30. For example, when the user places the first earphone 20 in the second receiving space 120, since the first main magnetic attraction member 220 and the second auxiliary magnetic attraction member 150 are repulsive, the first earphone 20 cannot be stably placed in the second receiving space 120, and the user can determine that the placement relationship is wrong accordingly, and then place the first earphone 20 at a correct position, that is, in the first receiving space 110, further, if the mutual exclusion function is not set, the earphone is stuck after being placed due to the small shape difference of the two earphones, and is easily damaged or affected in use. On the contrary, when the user places the first earphone 20 in the first accommodating space 110, the first earphone 20 and the earphone box 10 are attracted to each other, which proves that the placement is correct. That is to say, when the first earphone 20 and the second earphone 30 are placed in the earphone box 10, the phenomenon of whether a wrong placement occurs can be actively presented, so as to guide the user to place the earphone correctly, and meanwhile, due to the suction force, the earphone is more stable in the earphone box 10, and the contact is more stable when the earphone box 10 is used for charging the earphone.

The first main magnetic member 220, the second main magnetic member 320, the first sub magnetic member 140, and the second sub magnetic member 150 may be, but not limited to, a magnetic member having a magnetic substance, an electromagnet, and the like. The magnetic material includes, but is not limited to, one or more of iron, cobalt, nickel, samarium, neodymium, chromium, rubber magnet, plastic magnet, etc., and the form thereof includes, but is not limited to, a square, a circle, a bar, a profile, or a combination of a plurality of magnets, which is not limited in this application.

Further, the above four may be of the same type, for example, the four are all magnets; of course, the four magnetic elements may be of different types, for example, the first main magnetic element 220 and the second main magnetic element 320 are both magnets, and the first auxiliary magnetic element 140 and the second auxiliary magnetic element 150 are both electromagnets, since many combinations are not described herein. The types of the first main magnetic element 220, the second main magnetic element 320, the first auxiliary magnetic element 140, and the second auxiliary magnetic element 150 are not limited herein.

In summary, the earphone assembly 1 provided by the present application can actively show whether the first earphone 20 and the second earphone 30 are placed incorrectly, and avoid being stuck to affect the use. Specifically, when the first earphone 20 and the second earphone 30 are placed in the earphone box 10, if the first earphone 20, the second earphone 30 and the earphone box 10 are in a magnetic attraction state, it indicates that the placement is correct at this time; if the first earphone 20, the second earphone 30 and the earphone box 10 are in the repulsive state, it indicates that the placement is not correct, so that the user can be guided to exchange the positions of the first earphone 20 and the second earphone 30 and then correctly place the first earphone 20 and the second earphone 30.

It should be noted that most of the following embodiments are exemplified based on the structure and the position relationship shown in fig. 1, but should not be considered as limiting the present application, and it should be understood that the simple or easily imaginable changes made on the basis of the technical solutions of the present application are within the protection scope of the present application.

Please refer to fig. 5 in conjunction with fig. 1. Optionally, in the above-described embodiment, the first housing 210 may include the earphone head 211 and the earphone handle 212. The earphone head 211 is connected to the earphone handle 212. The earphone handle 212 can be at least partially received in the first receiving space 110. The first main magnetic attraction piece 220 is disposed at one end of the earphone head 211 close to the earphone handle 212. The case 130 has a bearing part 131. The carrying portion 131 is used for carrying the earphone head 211. The first sub-magnetic attraction piece 140 is disposed adjacent to or connected to the carrying portion 131. The bearing part 131 refers to a solid part of the earphone head 211 contacting the box 130, and has a certain range, and reference may be made to the following description of the bearing part 131.

It can be understood that the above-mentioned neighboring portions may be close to the wall body of the carrying portion 131 but not connected, the first auxiliary magnetic attraction piece 140 may be located at any position of the carrying portion 131131, as long as it can be ensured that when the first earphone 20 is placed into the first accommodating space 110 of the earphone box 10, the first auxiliary magnetic attraction piece 140 can be magnetically attracted corresponding to the first main magnetic attraction piece 220, and when the second earphone 30 is placed into the first accommodating space 110, the first auxiliary magnetic attraction piece 140 can be mutually exclusive corresponding to the second main magnetic attraction piece 320.

The first main magnetic attraction piece 220 is disposed at an end of the earphone head 211 close to the earphone handle 212, that is, when the first earphone 20 is accommodated in the first accommodating space 110, the first main magnetic attraction piece 220 is located at an end of the earphone head 211 close to the earphone box 10, so that the first main magnetic attraction piece 220 can magnetically attract the earphone box 10.

Further, the earphone head 211 is supported on the supporting portion 131, and the first auxiliary magnetic attraction element 140 is adjacent to or connected to the supporting portion 131, and the first main magnetic attraction element 220 is disposed in the earphone head 211, it can be understood that the first earphone 20 can be stably fixed in the first accommodating space 110 by the mutual magnetic attraction effect of the first main magnetic attraction element 220 and the first auxiliary magnetic attraction element 140. It should be noted that fig. 5 is an exemplary illustration in which the earphones are placed in a right-side manner, and the carrying portion 131 is located in the middle of the box 130. In another embodiment, the earphones are placed back to back, and the carrying parts 131 are arranged on two sides of the box body 130 which face away from each other, which can refer to the placing relationship shown in fig. 4. In summary, the carrying portion 131 changes according to the placement form of the earphone, and the present application does not limit this.

It is understood that the above-mentioned process is exemplarily described in terms of standing on the first headset 20, and the above-mentioned features related to the first headset 20 and the related features thereof may be replaced by the second headset 30 and the related features thereof, which are not described herein again. When the second earphone 30 is placed in the first receiving space 110, the user can find that the current placement relationship is wrong through the repulsion between the second main magnetic attraction 320 and the first auxiliary magnetic attraction 140.

Please refer to fig. 6 in conjunction with fig. 1. Optionally, in the above-described embodiment, the first housing 210 may include the earphone head 211 and the earphone handle 212. The earphone head 211 is connected to the earphone handle 212. The earphone handle 212 can be at least partially received in the first receiving space 110. The first main magnetic attraction piece 220 is disposed at an end of the earphone handle 212 far away from the earphone head 211. The first auxiliary magnetic attraction piece 140 is disposed corresponding to the bottom wall of the first accommodating space 110.

It will be appreciated that the headphone head 211 is typically provided with electronics such as a speaker therein. In this embodiment, the first main magnetic attraction member 220 is disposed at one end of the earphone handle 212 far from the earphone head 211, so that the structure of the first earphone 20 is reasonably disposed. The first main magnetic element 220 may be disposed inside or outside the earphone handle 212, or embedded in the earphone handle 212, which is not limited in this application.

Further, the first auxiliary magnetic attraction element 140 is disposed on the bottom wall of the first accommodating space 110. It can be understood that, when the first earphone 20 is placed in the first receiving space 110, the first earphone 20 can be fixed in the first receiving space 110 by the mutual magnetic attraction between the first main magnetic attraction 220 and the first auxiliary magnetic attraction 140.

It is understood that the above-mentioned process is exemplarily described in terms of standing on the first headset 20, and the above-mentioned features related to the first headset 20 and the related features thereof may be replaced by the second headset 30 and the related features thereof, which are not described herein again. When the second earphone 30 is placed in the first receiving space 110, the user can find that the current placement relationship is wrong through the repulsion between the second main magnetic attraction 320 and the first auxiliary magnetic attraction 140.

Please refer to fig. 7 in conjunction with fig. 1, fig. 5, and fig. 6. Optionally, in the above-described embodiment, the first housing 210 may include the earphone head 211 and the earphone handle 212. The earphone head 211 is connected to the earphone handle 212. The earphone handle 212 can be at least partially received in the first receiving space 110. The first main magnetic element 220 includes a first main element 221 and a second main element 222. The first main part 221 is disposed at an end of the earphone head 211 close to the earphone handle 212. The second main part 222 is arranged at an end of the earphone handle 212 remote from the earphone head 211. The first auxiliary magnetic member 140 includes a first auxiliary member 141 and a second auxiliary member 142. The case has a bearing part 131, and the bearing part 131 is used for bearing the earphone head 211. The first auxiliary member 141 is disposed adjacent to or connected to the bearing part 131. The second sub-piece 142 is disposed corresponding to the bottom wall of the first accommodating space 110. The first main part 221 and the first auxiliary part 141 are magnetically attracted to each other, and the second main part 222 and the second auxiliary part 142 are magnetically attracted to each other.

It should be noted that this embodiment may be understood as a combination of fig. 5 and fig. 6, and the related features will not be described repeatedly.

It will be appreciated that the above process is illustrated in terms of standing on the first earpiece 20, and that the above description of the first earpiece 20 and its associated features may be replaced by the second earpiece 30 and its associated features. For example, the second main magnetic element 320 includes a third main element 321 and a fourth main element 322, and the second auxiliary magnetic element 150 includes a third auxiliary element 151 and a fourth auxiliary element 152. The third main part 321 and the third sub-part 151 are magnetically attracted to each other, and the fourth main part 322 and the fourth sub-part 152 are magnetically attracted to each other.

Further, the third main part 321 and the first auxiliary part 141 repel each other, and the fourth main part 322 and the second auxiliary part 142 repel each other. When the second earphone 30 is placed in the first accommodating space 110, the user may find that the current placement relationship is wrong through the repulsion between the third main part 321 and the first auxiliary part 141 or the repulsion between the fourth main part 322 and the second auxiliary part 142.

It can be understood that two pairs of magnetic attraction members are simultaneously disposed on the first earphone 20 and the second earphone 30, which is beneficial to increase the magnetic attraction force, so that the first earphone 20 and the second earphone 30 are more stably accommodated in the earphone box 10. In another aspect, when the position is placed incorrectly, the repulsive force can be increased, the reminding effect presented to the user is better, and the effect of preventing jamming is also better.

Optionally, in the above-described embodiments, the first main magnetic part 220, the second main magnetic part 320, the first sub magnetic part 140, and the second sub magnetic part 150 may be magnetic bodies having magnetic substances. It can be understood that the magnetic body is beneficial to reducing the cost, is easy to obtain and is simple to assemble.

Optionally, in the above embodiments, the first sub-magnetic-attraction member 140 and the second sub-magnetic-attraction member 150 may be electromagnetic members, and/or the first main magnetic-attraction member 220 and the second main magnetic-attraction member 320 may be electromagnetic members.

Please refer to fig. 8. In the above-described embodiment, the earphone box 10 further includes a connector 160 and a battery 170. The connector 160 is at least partially disposed inside the case 130. The battery 170 is accommodated in the case 130. The battery 170 charges at least one of the first earphone 20 and the second earphone 30 through the connector 160.

Specifically, the first earphone 20 is exemplified. When at least one of the first earphones 20 is carried on the earphone box 10, the first earphone 20 is electrically connected to the connector 160, and the connector 160 is electrically connected to the battery 170, so as to realize charging. It will be appreciated that the battery 170 is used to charge the first earpiece 20 via the connector 160, thereby increasing the endurance of the first earpiece 20.

The first earphone 20 is electrically connected to the earphone box 10 through the connector 160, wherein the electrical connection may be a wired electrical connection or a wireless electrical connection.

The wired electrical connection means a physical electrical connection that can be inserted into the connector 160, including but not limited to POGO PIN (POGO PIN) and I/O (Input/Output) socket. It is understood that the charging is realized by the wired electrical connection, which is advantageous for the connection relationship between the first earphone 20 and the earphone box 10 to be more stable.

Here, the so-called radio connection is a non-physical electrical connection between the first earphone 20 and the earphone case 10. As can be appreciated, the connection between the first earphone 20 and the earphone box 10 is more convenient and flexible by implementing wireless charging through the radio connection. The wireless charging mode may be an electromagnetic induction mode, a magnetic field resonance mode, an electric field coupling mode or a radio wave mode. For example, the charging transmitting coil may be disposed inside the earphone box 10, and the charging receiving coil may be disposed inside the first earphone 20. After the first earphone 20 is installed in the earphone box 10, the charging transmitting coil and the charging receiving coil are close to each other, and the charging transmitting coil generates a certain current in the charging receiving coil through electromagnetic induction based on the alternating current with a certain frequency, so that the energy is transferred from the earphone box 10 to the first earphone 20, and the battery 170 wirelessly charges the first earphone 20.

Please refer to fig. 9. In the above embodiment, the box 130 may include an upper cover 132 and a carrying box 133. The upper cover 132 is rotatably connected to the carrying box 133 and can cover the carrying box 133. The carrying case 133 is used for carrying the first earphone 20 and the second earphone 30. The earphone house 10 further comprises a position detector 180. The position detector 180 is carried by at least one of the upper cover 132 and the carrying case 133. The position detector 180 is used for detecting the position of the upper cover 132 relative to the carrying case 133.

The connection mode between the upper cover 132 and the carrying box 133 may be detachable connection or fixed connection. It can be understood that the upper cover 132 covers the carrying case 133 to prevent dust from entering the interior of the earphone box 10.

Further, the earphone box 10 may further include a position detector 180, and the position detector 180 may be configured to detect a position of the upper cover 132 relative to the carrying box 133, that is, the position detector 180 may detect whether the upper cover 132 covers the carrying box 133, so as to facilitate further control over the earphone box 10, the first earphone 20, and the second earphone 30.

For example, when the position detector 180 detects that the upper cover 132 and the carrying case 133 are in the closed state to the non-closed state, the microprocessor in the earphone box 10 turns on the communication function of the first earphone 20 and the second earphone 30, so that the first earphone 20 and the second earphone 30 can be connected to other devices in a communication manner. When the position detector 180 detects that the upper cover 132 and the carrying case 133 are in the non-closed state to the closed state, the first earphone 20 and the second earphone 30 are charged in the earphone case 10. It is understood that other forms of control can be performed according to the detection result of the position detector 180, which are not described herein, but are not limited thereto.

Further, the position detector 180 may be composed of a hall sensor and a magnetic member, the hall sensor is disposed in the carrying box 133, the magnetic member is disposed in the upper cover 132, and when the upper cover 132 rotates relative to the carrying box 133, the hall sensor may sense a change in a magnetic field caused by the magnetic member, and then determine a position relationship between the upper cover 132 and the carrying box 133. The position detector 180 may also be an ultrasonic sensor, which may be disposed in the carrying box 133, and the ultrasonic sensor may sense an ultrasonic signal reflected by the upper cover 132, so as to determine the positional relationship between the upper cover 132 and the carrying box 133. Of course, the position sensor is not limited to the two types, and may be other types of devices that can detect the positional relationship between the upper cover 132 and the carrying case 133, for example, the above-mentioned ultrasonic sensor may be replaced by an infrared sensor. It should be noted that the hall sensor may be disposed in the upper cover 132, the magnetic member may be disposed in the carrying box 133, and the ultrasonic sensor may be carried by the upper cover 132. The present application is not limited to the above-mentioned features for implementing the detection function of the position detector 180.

Please refer to fig. 10. The present application also provides an earphone 2. The earphone 2 may be carried in an earphone case 10. Reference may be made in detail to the related drawings of the first earphone 20, the second earphone 30 and the earphone box 10, and the corresponding description thereof, which are exemplarily given in the related embodiments.

The headset 2 includes a first headset 20 and a second headset 30. The first earphone 20 includes a first housing 210 and a first main magnetic attraction member 220 carried on the first housing 210. The second earphone 30 includes a second housing 310 and a second main magnetic attraction 320 carried by the second housing 310. The polarity of the magnetic field of the first main magnetic element 220 is opposite to the polarity of the magnetic field of the second main magnetic element 320. The first main magnetic attraction element 220 comprises a first main magnetic pole 223 magnetically attracted to the earphone box 10. The second main magnetic attraction piece 320 comprises a second main magnetic pole 323 magnetically engaged with the earphone box 10. The magnetic polarity of the first main pole 223 is opposite to that of the second main pole 323.

In fig. 10, the first main magnetic pole 223 is an S-pole, and the second main magnetic pole 323 is an N-pole. The S pole and the N pole in the drawings are only exemplary, and should not be considered as limiting the present application, which is not limited thereto.

It can be understood that the polarity of the magnetic field of the first main magnetic element 220 is opposite to the polarity of the magnetic field of the second main magnetic element 320. The earphone box 10 with the magnetic attraction piece with the opposite magnetic field polarity can be matched for use according to the characteristics, and the first earphone 20, the second earphone 30 and the earphone box 10 which are matched for use can actively show whether the first earphone 20 and the second earphone 30 are placed wrongly or not, so that a user can be guided to place the earphones correctly, and the earphones are prevented from being placed wrongly and clamped.

Optionally, the first housing 210 includes a headset head 211 and a headset handle 212. The earphone head 211 is connected to the earphone handle 212, and the first main magnetic attraction piece 220 is arranged at one end of the earphone head 211 close to the earphone handle 212. The first main magnetic element 220 further includes a third main pole 224 connected to the first main pole 223. The third main pole 224 is farther from the earphone handle 212 than the first main pole 223. It should be noted that the first main magnetic attraction element 220 is disposed at an end of the earphone head 211 close to the earphone handle 212, and is shown standing in the length direction of the earphone handle 212 in the drawing, in other words, the first main magnetic attraction element 220 is disposed at an end of the earphone head 211 close to the earphone handle 212 in the length direction of the earphone handle 212. In other embodiments, the first main pole 223 and the third main pole 224 may be horizontally disposed or obliquely disposed, so that the positions of the two with respect to the earphone head 211 and the earphone handle 212 may be changed, and the two may represent an N pole and an S pole of the magnet.

Optionally, the first earpiece 20 comprises an earpiece 211, and an earpiece grip 212. The earphone head 211 is connected to the earphone handle 212. The first main magnetic attraction piece 220 is disposed at an end of the earphone handle 212 far away from the earphone head 211. The first main magnetic element 220 further includes a third main pole 224 connected to the first main pole 223. The third main pole 224 is closer to the earpiece 211 than the first main pole 223.

Further, the first housing 210 is mirror symmetrical to the second housing 310. The position of the first main magnetic element 220 relative to the first housing 210 is the same as the position of the second main magnetic element 320 relative to the second housing 310. It can be appreciated that the mirror symmetry is advantageous for product design and processing.

Please refer to fig. 11. The present application further provides an earphone box 10. The earphone case 10 is used for accommodating earphones 2. Reference may be made in detail to the drawings of the first earphone 20, the second earphone 30 and the earphone box 10, and the corresponding description thereof, which are exemplarily given in the foregoing related embodiments.

The earphone box 10 includes a box body 130, a first pair of magnetic attraction pieces 140, and a second pair of magnetic attraction pieces 150. The box body 130 is used for carrying the first pair of magnetic attraction pieces 140 and the second pair of magnetic attraction pieces 150. The polarity of the magnetic field of the first sub-magnetic member 140 is opposite to the polarity of the magnetic field of the second sub-magnetic member 150. The earphone box 10 includes a first accommodating space 110 and a second accommodating space 120. The first auxiliary magnetic attraction piece 140 is disposed corresponding to the first accommodating space 110. The second pair of magnetic attraction pieces 150 is disposed corresponding to the second accommodation space 120. The first secondary magnetic attraction 140 includes a first secondary magnetic pole 143 that magnetically engages the headset 2. The second pair of magnetic elements 150 comprises a second pair of poles 153 for magnetically engaging the headset 2. The magnetic polarity of the first auxiliary magnetic pole 143 is opposite to the magnetic polarity of the second auxiliary magnetic pole 153.

In fig. 11, the first sub-magnetic pole 143 is an N-pole, and the second sub-magnetic pole 153 is an S-pole. The S pole and the N pole in the drawings are only exemplary, and should not be considered as limiting the present application, which is not limited thereto.

It can be understood that the polarity of the magnetic field of the first sub-magnetic member 140 is opposite to the polarity of the magnetic field of the second sub-magnetic member 150. According to the characteristics, the first earphone 20 and the second earphone 30 which are also provided with magnetic attraction pieces with opposite magnetic field polarities can be matched for use, and the matched first earphone 20, second earphone 30 and earphone box 10 can actively show whether the first earphone 20 and the second earphone 30 are placed wrongly or not, so that a user can be guided to place the earphones correctly, and the earphones are prevented from being placed wrongly and clamped.

Optionally, the box body has a bearing portion 131, the bearing portion 131 is used for bearing an earphone, the first auxiliary magnetic attraction element 140 is disposed adjacent to or connected to the bearing portion 131, the first auxiliary magnetic attraction element 140 further includes a third auxiliary magnetic pole 144 connected to the first auxiliary magnetic pole 143, and the third auxiliary magnetic pole 144 is farther away from the wall surface of the bearing portion 131 than the first auxiliary magnetic pole 143.

Optionally, the first auxiliary magnetic attraction element 140 is disposed at a position of the bottom wall of the first accommodating space 110. The first secondary magnetic element 140 further comprises a third secondary magnetic pole 144 connected to the first secondary magnetic pole 143. The third auxiliary magnetic pole 144 is farther from the bottom wall of the first accommodating space 110 than the first auxiliary magnetic pole 143.

Further, the first receiving space 110 and the second receiving space 120 are symmetrical with respect to the box body 130. The position of the first auxiliary magnetic element 140 relative to the first receiving space 110 is the same as the position of the second auxiliary magnetic element 150 relative to the second receiving space 120. It can be appreciated that the symmetrical structure is beneficial to product design and processing.

It should be noted that the specific illustration of the magnetic field polarity (N pole and S pole) of the magnetic attraction member in the embodiments of the present application is only an exemplary illustration. For example, the S pole of the first main magnetic attraction piece 220 in the first earphone 20 is directly opposite to the N pole of the first auxiliary magnetic attraction piece 140 of the earphone box 10, the N pole of the second main magnetic attraction piece 320 in the second earphone 30 is directly opposite to the S pole of the second auxiliary magnetic attraction piece 150 of the earphone box 10 (see fig. 1), and the first main magnetic attraction piece 220 in the first earphone 20 is directly opposite to the S pole of the first auxiliary magnetic attraction piece 140 of the earphone box 10 (see fig. 12), and the second main magnetic attraction piece 320 in the second earphone 30 is directly opposite to the N pole of the second auxiliary magnetic attraction piece 150 of the earphone box 10. It can be understood that such simple transformation can also implement the active matching function, and it should be understood that, within the scope of the present application, since there are many combination forms under each implementation manner, it is not described herein any more, and the present application does not limit this.

It should be noted that, the wireless earphone provided in the present application may be implemented in a wireless form, but not limited to, bluetooth, infrared, 2.4G, and the like, and the present application does not limit this.

The principle and the implementation of the present application are explained herein by applying specific examples, and the above description of the embodiments is only used to help understand the core idea of the present application; meanwhile, for a person skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims (16)

1. An earphone assembly is characterized in that the earphone assembly comprises an earphone box, a first earphone and a second earphone, the earphone box comprises a first accommodating space and a second accommodating space, the first accommodating space is used for accommodating the first earphone, the second accommodating space is used for accommodating the second earphone, the earphone box comprises a box body, a first auxiliary magnetic attraction piece and a second auxiliary magnetic attraction piece, the first auxiliary magnetic attraction piece and the second auxiliary magnetic attraction piece are both carried on the box body, the first auxiliary magnetic attraction piece is arranged corresponding to the first accommodating space, the second auxiliary magnetic attraction piece is arranged corresponding to the second accommodating space, the first earphone comprises a first shell and a first main magnetic attraction piece, the second earphone comprises a second shell and a second main magnetic attraction piece, the first main magnetic attraction piece can be magnetically attracted with the first auxiliary magnetic attraction piece, the second main magnetic attraction piece can be magnetically attracted with the second auxiliary magnetic attraction piece, the first main magnetic attraction piece can repel the second auxiliary magnetic attraction piece, and the second main magnetic attraction piece can repel the first auxiliary magnetic attraction piece.

2. The earphone assembly according to claim 1, wherein the first housing includes an earphone head and an earphone handle, the earphone head is connected to the earphone handle, the earphone handle is at least partially accommodated in the first accommodating space, the first primary magnetic attraction member is disposed at an end of the earphone head close to the earphone handle, the box body includes a bearing portion for bearing the earphone head, and the first secondary magnetic attraction member is disposed adjacent to or connected to the bearing portion.

3. The earphone assembly according to claim 1, wherein the first housing comprises an earphone head and an earphone handle, the earphone head is connected to the earphone handle, the earphone handle can be at least partially accommodated in the first accommodating space, the first main magnetic attraction piece is arranged at one end of the earphone handle far away from the earphone head, and the first auxiliary magnetic attraction piece is arranged corresponding to a bottom wall of the first accommodating space.

4. The earphone assembly according to claim 1, wherein the first housing includes an earphone head and an earphone handle, the earphone head is connected to the earphone handle, the earphone handle is capable of being at least partially accommodated in the first accommodating space, the first primary magnetic attraction member includes a first primary member and a second primary member, the first primary member is disposed at an end of the earphone head close to the earphone handle, the second primary member is disposed at an end of the earphone handle away from the earphone head, the first secondary magnetic attraction member includes a first secondary member and a second secondary member, the box body includes a bearing portion for bearing the earphone head, the first secondary member is disposed adjacent to or connected to the bearing portion, and the second secondary member is disposed corresponding to a bottom wall of the first accommodating space.

5. The earphone assembly according to any one of claims 1-4 wherein the first main magnetic attraction piece, the second main magnetic attraction piece, the first sub magnetic attraction piece, and the second sub magnetic attraction piece are all magnetic bodies having magnetic substances.

6. The headset assembly of any of claims 1-4, wherein the first pair of magnetically attractive elements and the second pair of magnetically attractive elements are electromagnetic elements;

and/or the first main magnetic part and the second main magnetic part are both electromagnetic parts.

7. The headset assembly of claim 1, wherein the headset case further comprises a connector at least partially disposed within the case, and a battery contained within the case, the battery charging at least one of the first headset and the second headset via the connector.

8. The earphone assembly according to claim 1, wherein the case comprises an upper cover and a carrying case, the upper cover is rotatably connected to the carrying case and can be covered on the carrying case, the carrying case is used for carrying the first earphone and the second earphone, the earphone case further comprises a position detector, the position detector is carried on at least one of the upper cover and the carrying case, and the position detector is used for detecting the position of the upper cover relative to the carrying case.

9. The utility model provides an earphone, its characterized in that, the earphone can bear in the earphone box, the earphone includes first earphone and second earphone, first earphone include first casing, and bear in the first main magnetism of first casing is inhaled the piece, the second earphone include the second casing, and bear in the second main magnetism of second casing is inhaled the piece, the magnetic field polarity of first main magnetism is inhaled the piece with the magnetic field polarity of second main magnetism is inhaled the piece, first main magnetism inhale the piece include with the first main magnetic pole of earphone box magnetism complex, second main magnetism inhale the piece include with earphone box magnetism inhales the complex second main magnetic pole, the magnetic field polarity of first main magnetic pole with the magnetic field polarity of second main magnetic pole is opposite.

10. The earphone of claim 9, wherein the first housing comprises an earphone head and an earphone handle, the earphone head is connected to the earphone handle, the first main magnetic attraction member is disposed at an end of the earphone head near the earphone handle, the first main magnetic attraction member further comprises a third main magnetic pole connected to the first main magnetic pole, and the third main magnetic pole is further away from the earphone handle than the first main magnetic pole.

11. The earphone of claim 9, wherein the first earphone comprises an earphone head and an earphone handle, the earphone head is connected to the earphone handle, the first main magnetic attraction member is disposed at an end of the earphone handle away from the earphone head, the first main magnetic attraction member further comprises a third main magnetic pole connected to the first main magnetic pole, and the third main magnetic pole is closer to the earphone head than the first main magnetic pole.

12. The headset of any one of claims 9-11, wherein the first housing is a mirror image of the second housing, and the first primary magnetic attraction is disposed at the same location relative to the first housing as the second primary magnetic attraction is disposed relative to the second housing.

13. The utility model provides a headphone box, its characterized in that, headphone box is used for acceping the earphone, headphone box includes that box body, first pair magnetism inhale the piece, and the vice magnetism inhale the piece of second, the box body is used for bearing first pair magnetism inhale the piece with the vice magnetism inhale the piece of second, the magnetic field polarity of first pair magnetism inhale the piece with the magnetic field polarity of the vice magnetism inhale the piece of second is opposite, headphone box includes first accommodation space, and second accommodation space, first pair magnetism inhale the piece correspond first accommodation space sets up, the vice magnetism of second inhale the piece correspond the setting of second accommodation space, first pair magnetism inhale the piece include with the complex first pair magnetic pole is inhaled to earphone magnetism, the vice magnetism of second inhale the piece include with the complex second pair magnetic pole is inhaled to earphone magnetism, the magnetic field polarity of first pair magnetic pole with the magnetic field polarity of the vice magnetic pole of second is opposite.

14. The earphone box of claim 13, wherein the box body has a carrying portion for carrying earphones, the first auxiliary magnetic attraction member is disposed adjacent to or connected to the carrying portion, and the first auxiliary magnetic attraction member further comprises a third auxiliary magnetic pole connected to the first auxiliary magnetic pole, and the third auxiliary magnetic pole is further away from a wall surface of the carrying portion than the first auxiliary magnetic pole.

15. The earphone box of claim 13, wherein the first auxiliary magnetic attraction piece is disposed at a position of the bottom wall of the first receiving space, and further comprising a third auxiliary magnetic pole connected to the first auxiliary magnetic pole, the third auxiliary magnetic pole being farther from the bottom wall of the first receiving space than the first auxiliary magnetic pole.

16. The earphone box of any one of claims 13-15, wherein the first receiving space and the second receiving space are symmetrical with respect to the box body, and a position of the first pair of magnetic attraction pieces relative to the first receiving space is the same as a position of the second pair of magnetic attraction pieces relative to the second receiving space.

Images