CN113810818A - Earphone assembly - Google Patents

Abstract

The application discloses earphone subassembly belongs to electronic equipment technical field, includes: an earphone; the charging box is used for accommodating the earphone; the first array magnetic piece is movably arranged in the charging box; the second array magnetic piece is arranged in the earphone; when the earphone is arranged in the charging box and the charging box is in a first state, the first array magnetic part and the second array magnetic part are in position correspondence in the depth direction of the charging box, a first acting force is generated between the first array magnetic part and the second array magnetic part, and the earphone is in the first position of the charging box; when the earphone is arranged in the charging box and the charging box is in a second state, the first array magnetic part and the second array magnetic part are arranged in a staggered mode in the depth direction of the charging box, a second acting force is generated between the first array magnetic part and the second array magnetic part, and the earphone is located at a second position of the charging box; the first force is different from the second force.

Description

Earphone assembly

Technical Field

The application belongs to the technical field of electronic equipment, concretely relates to earphone subassembly.

Background

Along with the progress of science and technology, the kind of earphone is more and more, wherein when wireless bluetooth headset used- + opens the box that charges usually, can pair with electronic equipment automatically after taking out the earphone and be connected, between two earphones, need not through the connection of electric lines between earphone and the electronic equipment, can avoid the winding puzzlement of electric wire in the use, and then provide better use impression for the user, so select the user that uses wireless bluetooth headset more and more.

Wherein, in wireless bluetooth headset vertical insertion earphone usually, inhale the realization through magnetism and fix in advance to the earphone, in order to improve the holistic color value of wireless bluetooth headset to and improve the fixed effect to the earphone, so open the lid of charging box after, the earphone exposes the part of the box body of charging box less, and because the volume of earphone itself is less, the material is also comparatively smooth, has caused the puzzlement when taking the earphone for the user.

Disclosure of Invention

The embodiment of the application aims to provide an earphone assembly, which can solve the problem that a user takes out an earphone from a charging box with high difficulty.

The embodiment of the application provides an earphone assembly, include:

an earphone;

a charging case for receiving the earphone;

the first array magnetic piece is movably arranged in the charging box;

a second array of magnetic elements disposed within the earpiece;

when the earphone is arranged in the charging box and the charging box is in a first state, the first array magnetic part and the second array magnetic part are corresponding in position in the depth direction of the charging box, a first acting force is generated between the first array magnetic part and the second array magnetic part, and the earphone is in the first position of the charging box;

when the earphone is arranged in the charging box and the charging box is in a second state, the first array magnetic part and the second array magnetic part are arranged in a staggered mode in the depth direction of the charging box, a second acting force is generated between the first array magnetic part and the second array magnetic part, and the earphone is located at a second position of the charging box;

wherein the first force is different from the second force.

In this application embodiment, through the repulsion that first array magnetic part and second array magnetic part produced when the box that charges is opened, make the earphone remove to the direction of keeping away from the box bottom that charges, make the earphone expose the volume increase of the box that charges, the user can draw bigger volume in the use, takes out the earphone in from the box that charges, has reduced the degree of difficulty when the user gets the earphone, the user of being convenient for uses.

Drawings

Fig. 1 is a sectional view of a charging box closed in an embodiment of the present application;

fig. 2 is a sectional view of the charging box when opened in the embodiment of the present application;

FIG. 3 is an enlarged view of a portion of FIG. 1;

fig. 4 is a partially enlarged view of fig. 2.

Reference numerals

1. An earphone; 11. a main body; 12. an ear handle; 13. a contact; 2. a charging box; 21. a cover body; 211. a first side surface; 22. a box body; 221. a second side surface; 3. a first array of magnetic elements; 31. a first magnet; 32. a second magnet; 4. a second array of magnetic elements; 41. a third magnet; 42. a fourth magnet; 5. a connecting rod; 6. a transmission assembly; 61. a slide bar; 62. a slide block.

Detailed Description

The technical solutions in the embodiments of the present application will be described clearly below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some, but not all, embodiments of the present application. All other embodiments that can be derived by one of ordinary skill in the art from the embodiments given herein are intended to be within the scope of the present disclosure.

The terms first, second and the like in the description and in the claims of the present application are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It will be appreciated that the data so used may be interchanged under appropriate circumstances such that embodiments of the application may be practiced in sequences other than those illustrated or described herein, and that the terms "first," "second," and the like are generally used herein in a generic sense and do not limit the number of terms, e.g., the first term can be one or more than one. In addition, "and/or" in the specification and claims means at least one of connected objects, a character "/" generally means that a preceding and succeeding related objects are in an "or" relationship.

The following describes an earphone assembly provided in the embodiments of the present application in detail through specific embodiments and application scenarios thereof with reference to the accompanying drawings.

An embodiment of the present application provides an earphone assembly as shown in fig. 1 to 4, including:

an earphone 1;

a charging case 2 for housing the earphone 1; in earphone 1 part stretched into charging box 2, charging box 2 was as the structure of accomodating earphone 1, can protect the earphone 1 structure not receive the damage the time, can also charge for earphone 1.

The first array magnetic part 3 is movably arranged in the charging box 2;

the second array magnetic part 4 is arranged in the earphone 1; the two earphones 1 are usually left earphone and right earphone, and the second array magnetic part 4 is arranged in both the left earphone and the right earphone. Accordingly, the first array magnetic members 3 are respectively disposed at positions corresponding to the left and right ear earphones.

When the earphone 1 is in the charging box 2 and the charging box 2 is in the first state, the first array magnetic element 3 and the second array magnetic element 4 correspond in position in the depth direction of the charging box 2, and a first acting force is generated between the first array magnetic element 3 and the second array magnetic element 4, the earphone 1 is in the first position of the charging box 2; when the charging box 2 is in the first state, the cover 21 is in a state of being fastened to the box 22, that is, the charging box 2 is in a closed state; after the charging box 2 is closed, the attraction between the first array magnetic member 3 and the second magnet 32 can assist in fixing the earphone 1, so as to prevent the earphone 1 from easily falling off from the inside of the earphone 1 and causing damage.

When the earphone 1 is disposed in the charging box 2 and the charging box 2 is in the second state, the first array magnetic element 3 and the second array magnetic element 4 are disposed in a staggered manner in the depth direction of the charging box 2, and a second acting force is generated between the first array magnetic element 3 and the second array magnetic element 4, so that the earphone 1 is in the second position of the charging box 2; in the case where the charging box 2 is in the first state, the cover 21 is in a state of being fastened to the box 22, that is, the charging box 2 is in a closed state. After the charging box 2 is opened, the second acting force between the first array magnetic part 3 and the second array magnetic part 4 can push out part of the earphones 1 from the charging box 2, the more the part of the earphones 1 exposing the charging box 2 is, the larger the volume can be pinched by the user in the taking process, and the more convenience is brought to the user.

Wherein the first force is different from the second force. Specifically, the first acting force is an attractive force, and the second acting force is a repulsive force. When a first acting force is generated between the first array magnetic part 3 and the second array magnetic part 4, the stability of the earphone 1 in the earphone box 2 can be assisted to be enhanced. When a second acting force is generated between the first array magnetic part 3 and the second array magnetic part 4, the first array magnetic part 3 is fixed in position in the depth direction of the earphone box 2, and the repulsive force generated between the first array magnetic part 3 and the second array magnetic part 4 pushes the earphone 1, so that the earphone 1 moves in the direction away from the bottom of the charging box 2.

In the prior art, the magnet is also arranged in the earphone 1 and the charging box 2, but the magnet in the charging box 2 has the opposite magnetic pole to the magnet arranged on the earphone 1, and no matter what state the charging box 2 is, the magnet in the charging box 2 can generate attraction force to the earphone 1. When the user need take out earphone 1 from charging box 2, the magnet in charging box 2 continues to produce suction to earphone 1, simultaneously because earphone 1 exposes charging box 2's partial volume less, the part that the user itself can be held is just less, and under the effect of the suction between the magnet in charging box 2 and the magnet on earphone 1, earphone 1 just can be difficult to take out. Meanwhile, in the prior art, a relatively smooth shell is usually adopted as the shell of the earphone 1, so that the color value of the earphone 1 can be improved, a user can feel more comfortable in the wearing process, and the smooth shell further increases the difficulty in taking out the earphone 1. Especially when there is water or dust on the user's hand, the friction between the hand and the headset 1 is further reduced, making the headset 1 more difficult to remove.

However, in this embodiment, by changing the position of the first array magnetic member 3 in the charging box 2, it is achieved that when the earphone 1 needs to be placed in the charging box 2, the cover 21 is opened, and the earphone 1 is placed in the corresponding position, where the position of the first array magnetic member 3 is the push-out position, and a repulsive force exists between the first array magnetic member 3 and the second array magnetic member 4. As the charging box 2 is gradually closed, the position of the first array magnetic member 3 in the charging box 2 is continuously moved until the first array magnetic member 3 is moved to the initial position after the charging box 2 is closed. At this time, the position relationship between the first array magnetic element 3 and the second array magnetic element 4 is changed, a suction force is generated between the first array magnetic element 3 and the second array magnetic element 4, and the first array magnetic element 3 and the second array magnetic element 4 are matched to enable the earphone 1 to be fixed in the charging box 2, so that the stability of the charging process is ensured.

When a user needs to take the earphone 1 out of the charging box 2, the first array magnetic element 3 is moved from the initial position to the push-out position by opening the charging box 2, and the corresponding positional relationship between the first array magnetic element 3 and the second array magnetic element 4 is continuously changed until the charging box 2 is completely opened and the first array magnetic element 3 is moved to the push-out position. At this moment, the attraction between the first array magnetic part 3 and the second array magnetic part 4 disappears and generates repulsion force, the repulsion force between the first array magnetic part 3 and the second array magnetic part 4 can push the earphone 1 to move towards the direction far away from the charging box 2, and then the earphone 1 is exposed out of the volume of the charging box 2, so that a larger grabbing volume is provided for a user, the problem that the earphone 1 is difficult to take out from the charging box 2 is solved, and the difficulty of taking the earphone 1 by the user is greatly reduced.

Alternatively, the first array magnetic member 3 includes a first magnet 31 and a second magnet 32, the magnetic poles of the first magnet 31 and the second magnet 32 are opposite, the second array magnetic member 4 includes a third magnet 41 and a fourth magnet 42, the magnetic poles of the first magnet 31 and the third magnet 41 are opposite, and the magnetic poles of the second magnet 32 and the fourth magnet 42 are opposite. Through setting up first array magnetism spare 3 as opposite magnetic poles's first magnet 31 and second magnet 32, set up second array magnetism spare 4 as opposite magnetic poles's third magnet 41 and fourth magnet 42 to the realization is along with the change of first array magnetism spare 3 position, can appear the effect of repulsion or attraction between first array magnetism spare 3 and the second array magnetism spare 4, and then realizes partly pushing out charging box 2 with earphone 1 or the effect of adsorbing earphone 1 in charging box 2.

Alternatively, when the charging box 2 is in the second state, the first magnet 31 and the fourth magnet 42 are positioned to correspond to each other in the depth direction of the charging box 2. For example, first magnet 31 and third magnet 41 are disposed closer to first side surface 211 than second magnet 32 and fourth magnet 42, and first magnet 31 is an N-pole, second magnet 32 is an S-pole, third magnet 41 is an S-pole, and fourth magnet 42 is an N-pole. With the opening of the charging box 2, the first array magnetic member 3 moves in a direction away from the first side surface 211, at this time, the first magnet 31 corresponds to the fourth magnet 42, the second magnet 32 and the third magnet 41 are arranged in a staggered manner, or a small part of the third magnet 41 corresponds to the first magnet 31, and a small part of the fourth magnet 42 corresponds to the second magnet 32, at this time, a repulsive force is generated between the first array magnetic member 3 and the second array magnetic member 4, so that a part of the earphone 1 can be pushed out of the charging box 2, and the volume of the earphone 1 exposed out of the charging box 2 is increased.

Alternatively, when the charging box 2 is in the first state, the first magnet 31 and the third magnet 41 correspond in position in the depth direction of the charging box 2, and the second magnet 32 and the fourth magnet 42 correspond in position in the depth direction of the charging box 2. When the first magnet 31 is opposite to the third magnet 41 and the second magnet 32 is opposite to the fourth magnet 42, attraction force is generated between the first array magnetic member 3 and the second array magnetic member 4, and the earphone 1 can be relatively fixedly accommodated in the charging box 2.

Optionally, the charging box 2 includes a box body 22 and a cover body 21, the first side surface 211 of the cover body 21 and the second side surface 221 of the box body 22 are rotatably connected, the earphone 1 can be inserted into the box body 22, a connecting rod 5 is disposed on the first side surface 211 of the cover body 21, two ends of the connecting rod 5 are rotatably connected to the first side surface 211 and the first array magnetic member 3, and along with the opening and closing of the cover body 21, the first array magnetic member 3 moves in the box body 22. The linkage 5 allows a transmission effect between the cover 21 and the first array of magnetic elements 3. The first array of magnetic members 3 is located at the initial position when the cover 21 is closed, and the first array of magnetic members 3 is located at the push-out position when the cover 21 is opened. With the opening and closing of the cover 21, the angle of the first side 211 of the cover 21 changes, so as to drive the connecting rod 5 to move in the box 22, and further drive the first array of magnetic members 3 to move between the initial position and the pushed-out position.

Optionally, a transmission assembly 6 is disposed in the box 22, the transmission assembly 6 includes a sliding rod 61 and a sliding block 62, the sliding rod 61 is fixed on the inner wall of the first side surface 211, the sliding block 62 is movably disposed on the sliding rod 61, the first array magnetic element 3 is disposed on the sliding block 62 and moves synchronously with the sliding block 62, and the connecting rod 5 is rotatably connected to the sliding block 62. The sliding rod 61 is used as a guide rod of the sliding block 62, which defines a sliding direction of the sliding block 62, and when the cover 21 is opened and closed, the first side surface 211 drives the connecting rod 5 to move, and at the same time, the sliding block 62 pushes or pulls the sliding block 62 to move along the sliding rail. Thereby realizing the movement of the first array of magnetic members 3 in the case 22 with the opening and closing of the cover 21. Of course, the transmission mechanism and the connecting rod 5 are not limited to the structure mentioned in this embodiment, and any structure that can drive the first array magnetic element 3 to approach or leave the first side surface 211 along with the opening and closing of the cover 21 can be implemented.

Optionally, the extension direction of the slide bar 61 is perpendicular to the insertion direction of the headset 1. The direction of inserting earphone 1 into box body 22 is usually the depth direction of box body 22, through setting up slide bar 61 perpendicularly, makes slider 62 can reach the assigned position through the shorter distance of displacement, has reduced the occupied volume of drive mechanism in charging box 2.

Optionally, the two ends of the connecting rod 5 are connected to the first side surface 211 and the first array of magnetic members 3 by a hinge. In order to avoid that the slider 62 abuts against the first side surface 211 to damage the slider 62 and the first side surface 211 due to an excessively large rotation angle of the connecting rod 5 during the opening and closing of the cover 21, or the slider 62 is separated from the slide rail to prevent the first array magnetic element 3 from reaching the designated initial position and the push-out position along with the opening and closing of the cover 21. The hinge can assist in limiting the opening and closing angle of the cover 21, and thus can limit the position of the first array magnetic member 3 in the charging box 2.

Optionally, a fifth magnet is disposed on the cover 21 opposite to the first side surface 211, a sixth magnet is disposed on the box 22 opposite to the second side surface 221, magnetic poles of the fifth magnet and the sixth magnet are opposite, and when the charging box 2 is in the first state, the fifth magnet and the sixth magnet are attracted to each other. After the cover body 21 is fastened, the cover body 21 can be stably fastened on the cover body 21 by the attraction force between the fifth magnet and the sixth magnet, and the phenomenon that the cover body 21 is opened and the earphone 1 falls off due to collision and other conditions in the daily use process is avoided.

Optionally, the earphone 1 comprises a main body 11, and the second array magnetic element 4 is disposed in the main body 11. Earphone 1 sets up in the opening part of box body 22 usually, and simultaneously, the corresponding molding of main part 11 is made to the opening part of box body 22 to the effect of realizing carrying out spacingly to earphone 1 avoids earphone 1 internal rotation in box body 22. Through setting up second array magnetism spare 4 in main part 11, first array magnetism spare 3 sets up the position that corresponds main part 11 in charging box 2, can the effectual space that utilizes in the charging box 2, avoids the increase of charging box 2 volume.

Optionally, a telescopic probe is arranged in the charging box 2, the earphone 1 comprises a main body 11 and an ear handle 12, one end of the ear handle 12 is connected with the main body 11, the other end of the ear handle 12 is provided with a contact 13, when the charging box 2 is in a first state, the telescopic probe is pressed by the contact 13 and is in a compressed state, and the earphone 1 is electrically connected with the charging box 2; when the charging box 2 is in the second state, the telescopic probe is in a bouncing state. Contact 13 on the ear-handle 12 can realize the electricity after deforming telescopic probe extrusion between contact 13 and the telescopic probe and be connected, and then can realize the effect of charging for earphone 1, earphone 1 puts into back in the box body 22, lock lid 21, make and produce suction between first array magnetic part 3 and the second magnet 32, and then drive earphone 1 and remove to box body 22 bottom, contact 13 extrudes telescopic probe, and make telescopic probe be in compression state, thereby realize the effect of charging earphone 1, the stability of connecting between telescopic probe and the contact 13 has also been guaranteed simultaneously. After the cover 21 is opened, a repulsive force is generated between the first array magnetic part 3 and the second array magnetic part 4, so that the earphone 1 moves in a direction away from the bottom of the box body 22, a user can take out the earphone 1 conveniently, and the telescopic probe is in a bounce state at the moment.

While the present embodiments have been described with reference to the accompanying drawings, it is to be understood that the invention is not limited to the precise embodiments described above, which are meant to be illustrative and not restrictive, and that various changes may be made therein by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. An earphone assembly, comprising:

an earphone;

a charging case for receiving the earphone;

the first array magnetic piece is movably arranged in the charging box;

a second array of magnetic elements disposed within the earpiece;

when the earphone is arranged in the charging box and the charging box is in a first state, the first array magnetic part and the second array magnetic part are corresponding in position in the depth direction of the charging box, a first acting force is generated between the first array magnetic part and the second array magnetic part, and the earphone is in the first position of the charging box;

when the earphone is arranged in the charging box and the charging box is in a second state, the first array magnetic part and the second array magnetic part are arranged in a staggered mode in the depth direction of the charging box, a second acting force is generated between the first array magnetic part and the second array magnetic part, and the earphone is located at a second position of the charging box;

wherein the first force is different from the second force.

2. The earphone assembly of claim 1 wherein the first array of magnetic elements comprises a first magnet and a second magnet having opposite poles, and the second array of magnetic elements comprises a third magnet and a fourth magnet, the first magnet having opposite poles to the third magnet, and the second magnet having opposite poles to the fourth magnet.

3. The earphone assembly of claim 2 wherein the first magnet and the fourth magnet are positioned to correspond in position in a depth direction of the charging box when the charging box is in the second state.

4. The earphone assembly of claim 2 wherein the first magnet and the third magnet correspond in position in a depth direction of the charging box and the second magnet and the fourth magnet correspond in position in the depth direction of the charging box when the charging box is in the first state.

5. The earphone assembly according to claim 1, wherein the charging box comprises a box body and a cover body, a first side surface of the cover body is rotatably connected with a second side surface of the box body, the earphone can be inserted into the box body, a connecting rod is arranged on the first side surface of the cover body, two ends of the connecting rod are rotatably connected with the first side surface and the first array magnetic element, and the first array magnetic element moves in the box body along with the opening and closing of the cover body.

6. The earphone assembly of claim 5 wherein a transmission assembly is disposed in the box body, the transmission assembly comprising a slide bar and a slide block, the slide bar being fixed to the inner wall of the first side surface, the slide block being movably disposed on the slide bar, the first array of magnetic elements being disposed on the slide block and moving synchronously with the slide block, and the connecting rod being rotatably connected to the slide block.

7. The earphone assembly according to claim 6 wherein the direction of extension of the slide bar is perpendicular to the direction of insertion of the earphone.

8. The earphone assembly of claim 5 wherein the two ends of the rod are hingedly connected to the first side and the first array of magnetic elements.

9. The earphone assembly of claim 5 wherein a fifth magnet is disposed on a side of the cover opposite the first side, a sixth magnet is disposed on a side of the case opposite the second side, the fifth magnet and the sixth magnet having opposite poles, and the fifth magnet and the sixth magnet are attracted to each other when the charging case is in the first state.

10. The earphone assembly of claim 9 wherein a retractable probe is disposed in the charging box, the earphone comprises a main body and an ear handle, one end of the ear handle is connected to the main body, the other end of the ear handle is provided with a contact, and when the earphone is disposed in the charging box and the charging box is in a first state, the retractable probe is pressed by the contact and is in a compressed state, and the earphone is electrically connected to the charging box; when the charging box is in the second state, the telescopic probe is in a bouncing state.

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