CN116112842B - Bluetooth headset and headset storehouse that charges - Google Patents

Abstract

The invention discloses a Bluetooth headset and a headset charging bin, which comprises a headset shell (103), wherein a headset plug (102) is arranged in the headset shell (103) in a telescopic manner, the bottom of the headset plug (102) is arranged in the headset shell (103) through a plurality of rebound devices (109), when the headset is not used, the headset plug (102) is retracted into the headset shell (103), and the outer wall surface of the headset plug (102) is flush with the end surface of the headset shell (103); one surface of the earphone shell (103) is a hemispherical surface, and after the end surfaces of the two earphone shells (103) are spliced, the two earphone shells (103) are spliced to form a spherical shape. The invention utilizes the magnetic field structural design of the earphone bin and the counterweight design of the Bluetooth earphone, so that the whole Bluetooth earphone can be quickly placed in the earphone bin, the storage and the charging can be quickly completed without distinguishing left and right earphones, the earphone can be taken and used more conveniently, and complicated steps are saved.

Description

Bluetooth headset and headset storehouse that charges

Technical Field

The invention relates to the technical field of Bluetooth headphones, in particular to a Bluetooth headphone and a headphone charging bin.

Background

The bluetooth headset is the audio equipment that now commonly used, its whole volume is little, after being connected with external equipment audio frequency, can wireless use, bluetooth headset needs to supply power from the battery of taking, have the ability of continuation of the journey use, but after using, in order to carry out the replenishment of electric quantity, usually need charge, in order to carry out better carrying and save with the headset, need be equipped with the storehouse that charges among the prior art, when bluetooth headset does not use, place bluetooth headset in the storehouse that charges and preserve, but present bluetooth headset and headset storehouse that charges have following use defect:

1. because the Bluetooth earphones are independent individuals, two earphone storage cavities are required to be arranged on the earphone charging bin respectively, the corresponding Bluetooth earphones are placed by utilizing the corresponding earphone storage cavities, and the earphone cavities with the corresponding shapes are required to be arranged in the earphone storage cavities because the earphone parts of the Bluetooth earphones are different in general, so that when in charging, a left earphone is required to be placed in the left earphone storage cavity, a right earphone is required to be placed in the right earphone storage cavity, and otherwise, the left earphone and the right earphone cannot be normally placed in the right earphone storage cavity, and therefore, when in charging and storing the earphones each time, the left earphone and the right earphone are required to be distinguished and then are selected to be placed in the corresponding storage cavities, and the charging is very troublesome;

2. because the Bluetooth headset is an independent individual between the two Bluetooth headsets after being taken out of the charging bin, when the two Bluetooth headsets are not used at all, if the two Bluetooth headsets are not placed in the charging bin, one headset is easy to be lost, the two Bluetooth headsets are placed separately, so that the earplug head part is exposed outside, dust is easy to enter, the two headset contacts with water in the outside, and if the two Bluetooth headsets are placed on a tabletop to fall, the whole headset is easy to be damaged;

3. because two Bluetooth earphones cannot be assembled together for charging, two independent earphone storage cavities are required to be arranged on the charging bin, so that the two storage cavities are required to be arranged side by side in the earphone charging bin, the volume of the earphone bin is increased, when the earphones are taken out, one earphone is required to be taken out one by one, and then the other earphone is required to be taken out, so that the two-step placement is very troublesome, and the earphone charging is required to be carried out;

4. be provided with magnetism between bluetooth headset and the earphone storehouse bottom and inhale the structure, utilize magnetism to inhale the structure with bluetooth headset and earphone storehouse magnetism and inhale the location and accomplish and stably charge, when charging, the storehouse lid in earphone storehouse is closed, often also does not have firm closed structure between storehouse lid and the earphone storehouse, when whole earphone storehouse is placed in the clothing, especially has the occasion of motion, leads to the storehouse lid to open because of the extrusion easily, and bluetooth headset in the whole charging is very easy not hard up this moment, leads to the interruption of charging, and the earphone separates in from the storehouse that charges.

Disclosure of Invention

In order to solve the problems, the invention provides the Bluetooth headset and the headset charging bin, the whole Bluetooth headset is spherical after being spliced, the Bluetooth headset can be quickly placed in the headset bin, storage and charging can be quickly completed without distinguishing left and right headsets, and a plurality of technical problems in the prior art are effectively solved.

The invention is realized by the following technical scheme: a bluetooth headset, comprising:

the earphone comprises an earphone shell, wherein an earphone plug is arranged in the earphone shell in a telescopic manner, the bottom of the earphone plug is arranged in the earphone shell through a plurality of rebound devices, when the earphone is not used, the earphone plug is retracted into the earphone shell, and the outer wall surface of the earphone plug is flush with the end surface of the earphone shell;

one surface of the earphone shell is a hemispherical surface, and after the end surfaces of the two earphone shells are spliced, the two earphone shells are spliced to form a sphere shape.

As an optimized technical scheme, an earplug cavity is arranged in the earphone shell, a telescopic cavity is arranged on the bottom surface of the earplug cavity, a circuit board mounting cavity is arranged on the bottom surface of the telescopic cavity, and an earphone main board is mounted in the circuit board mounting cavity;

the earplug head comprises an ear-in part and a main body part, wherein the main body part is arranged in a telescopic cavity in a telescopic mode, the ear-in part is arranged at the outer side end of the main body part, a loudspeaker assembly is arranged in the earplug head, and the loudspeaker assembly is electrically connected with a main board of the earphone through a connecting wire.

As the preferable technical scheme, a step surface is formed between the telescopic cavity and the circuit board mounting cavity, a plurality of mounting holes are uniformly distributed on the step surface, the main body part of the rebound device is arranged in the mounting holes, and the elastic head of the rebound device is fixedly connected with the main body part of the plug head.

As the preferable technical scheme, the earphone comprises an earphone battery, wherein the earphone battery is arranged at the bottom of the earphone shell and is connected with the earphone main board for supplying power to the earphone main board.

As the preferred technical scheme, the earphone mainboard of every earphone all has the earphone contact that charges, is the annular on the earphone casing that is located the earphone contact outside end and lays the earphone magnetism and inhale the array, and the polarity of earphone magnetism on two earphones is inhaled the array and is different.

As the preferable technical scheme, the butt joint surfaces of two earphone shells are contacted and attracted through magnetic force, the positions of the bottom parts of the earphone shells, which are close to the earphone charging contacts, are provided with weight bodies, and the positions of the earphone charging contacts and the earphone magnetic attraction arrays are always downward after the two earphone shells are in butt joint by utilizing the weight bodies.

The invention discloses an earphone charging bin, which comprises a charging bin, wherein the charging bin comprises:

the Bluetooth headset comprises a cabin shell and an inner container, wherein the inner container is arranged in the cabin shell, one side of the cabin shell is hinged with a cabin cover, the cabin cover is provided with a spherical concave cavity, the inner container is provided with a spherical headset cavity, two arc-shaped clamping plates are respectively arranged at two sides of the headset cavity, a spherical clamping cavity is formed between the two arc-shaped clamping plates, and the two sides of the Bluetooth headset are clamped through the two arc-shaped clamping plates after the Bluetooth headset is arranged in the headset cavity;

the rotating ring is rotatably arranged in the liner, one side surface of the arc-shaped clamping plate is in floating connection with one side surface of the rotating ring through a connecting rod, and a floating connection mechanism is arranged between the connecting rod and the back surface of the arc-shaped clamping plate;

the earphone cavity bottom surface of inner bag is provided with two sets of earphone storehouse magnetism and inhales the array, and two sets of earphone storehouse magnetism are inhaled the array and are the annular and lay, are provided with earphone storehouse in the middle of the array and inhale the thimble, and the polarity of array is inhaled to two sets of earphone storehouse magnetism is opposite, when bluetooth headset pack into behind the earphone cavity for bluetooth headset's earphone charging contact is just facing to earphone storehouse in the inner bag and is charged the thimble and contact, and two sets of earphone storehouse magnetism inhale the array and inhale the array corresponding to the earphone magnetism of polarity the same.

As the preferable technical scheme, the floating connecting mechanism comprises an elastic supporting bag with elastic deformation restoring capability, an air storage cavity is arranged in the elastic supporting bag, the elastic supporting bag is arranged in a floating chute formed in the back of the arc-shaped clamping plate, one end of the connecting rod is fixedly connected with the rotating ring, the other end of the connecting rod is slidably arranged in the floating chute, the arranging end is positioned at the bottom of the elastic supporting bag, an air inlet and outlet pipe is further arranged on the elastic supporting bag, and the cross section shape of the floating chute and the connecting rod is T-shaped.

As a preferable technical scheme, a first annular groove is formed in the outer side face of the rotating ring, a second annular groove is formed in the inner container facing the first annular groove, and a plurality of rollers are arranged in the first annular groove and the second annular groove;

the opposite surfaces of the arc clamping plates are respectively provided with an arc contact surface, contact balls are arranged at the four corners of each arc contact surface and used for being in rolling contact with the Bluetooth headset, the arc clamping plates are made of elastic materials, and the arc clamping plates are unfolded after the Bluetooth headset is installed.

As the preferred technical scheme, be located the lower extreme position of shelves in the storehouse shell and still be provided with storehouse body mainboard and earphone storehouse battery, earphone storehouse battery charges through the interface that charges on the storehouse body mainboard, and earphone storehouse battery is used for supplying power for the storehouse body mainboard, and earphone storehouse charge thimble one end is connected with storehouse body mainboard electricity.

The beneficial effects of the invention are as follows: 1. according to the invention, the two Bluetooth earphones are spherical after being spliced, when the earphones are required to be placed for charging, the spherical Bluetooth earphones are only required to be placed between the two arc-shaped clamping plates for clamping, and then self-centering charging is realized by utilizing the magnetic field in the earphone bin and the counterweight of the earphone, so that the left earphone and the right earphone are not required to be distinguished for corresponding charging, the efficiency is improved, and the operation is convenient;

2. because the earphone is in an integrated spherical structure after being assembled, the Bluetooth earphone is not required to be taken out before and after being put into the earphone bin or taken out from the earphone bin, and the spherical Bluetooth earphone is only required to be taken out or put into the earphone bin in an integrated way, so that the earphone is very convenient;

3. the Bluetooth earphone is spherical, so that the overall attractive performance is higher, when the Bluetooth earphone is not placed in the earphone bin, the two earphones are mutually assembled, the situation that a single earphone is lost is effectively prevented, and after the two earphones are spliced, the earplug part is retracted into the shell, so that the earplug part is isolated from the outside, dust and water are effectively prevented, and the Bluetooth earphone is safer to use;

4. according to the invention, the structure of the two Bluetooth headset engaging parts is used as the gravity weight, the structure is simplified, the magnetic absorbing positioning of the spherical Bluetooth headset is used as the magnetic absorbing positioning of the Bluetooth headset during charging, the Bluetooth headset is prevented from being separated from the charging bin during charging, and the Bluetooth headset is more stable with the charging bin due to the clamping capability of the arc clamping plate.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic diagram of the overall structure of the earphone house of the present invention;

FIG. 2 is a schematic cross-sectional view of the earphone house of the present invention;

FIG. 3 is an enlarged view of a portion of the invention at A in FIG. 2;

FIG. 4 is a top view of the earphone house of the present invention;

fig. 5 is a schematic structural view of the spherical earphone of the present invention after being placed in the earphone cabin;

FIG. 6 is a schematic cross-sectional view of a spherical earphone of the present invention after being placed in an earphone house;

fig. 7 is a schematic diagram of the structure of a single bluetooth headset according to the present invention;

fig. 8 is a schematic cross-sectional view of a single bluetooth headset of the present invention;

fig. 9 is a schematic diagram of the structure of the single bluetooth headset according to the present invention when extended for use;

fig. 10 is an assembly schematic diagram of two bluetooth headsets of the present invention after being spliced into a sphere;

reference numerals illustrate:

1. a bin housing; 2. a bin cover; 3. an inner container; 4. an arc clamping plate; 5. spherical concave cavity; 6. a rotating ring; 8. a second annular groove; 9. a roller; 10. contact balls; 11. a cabin main board; 12. a headset bin battery; 13. a first bin magnet; 14. the first earphone bin is provided with a charging thimble; 15. the second earphone bin is provided with a charging thimble; 16. a second bin magnet; 17. an elastic support bladder; 18. an air inlet and outlet pipe; 19. a floating chute; 20. a connecting rod; 21. a first annular groove; 41. an arcuate contact surface; 100. bluetooth earphone; 101. a first engaging block; 102. an ear plug; 103. an earphone housing; 104. an earplug cavity; 105. a second engaging block; 106. a second earphone charging contact; 107. a second earphone magnetic block; 108. a step surface; 109. a rebound device; 110. a headset motherboard; 111. a circuit board mounting cavity; 112. a headset battery; 113. the first earphone magnetic attraction block; 114. a first earphone charging contact; 1001. a first earphone; 1002. a second earphone; 1021. an ear insertion part; 1022. a main body.

Detailed Description

All of the features disclosed in this specification, or all of the steps in a method or process disclosed, may be combined in any combination, except for mutually exclusive features and/or steps.

Any feature disclosed in this specification (including any accompanying claims, abstract and drawings), may be replaced by alternative features serving the same, equivalent or similar purpose, unless expressly stated otherwise. That is, each feature is one example only of a generic series of equivalent or similar features, unless expressly stated otherwise.

In the description of the present invention, it should be understood that the terms "one end," "the other end," "the outer side," "the upper," "the inner side," "the horizontal," "coaxial," "the center," "the end," "the length," "the outer end," and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, merely to facilitate description of the present invention and simplify the description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present invention.

Furthermore, in the description of the present invention, the meaning of "plurality" means at least two, for example, two, three, etc., unless specifically defined otherwise.

Terms such as "upper," "lower," and the like used herein to refer to a spatially relative position are used for ease of description to describe one element or feature's relationship to another element or feature as illustrated in the figures. The term spatially relative position may be intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if the device in the figures is turned over, elements described as "below" or "beneath" other elements or features would then be oriented "above" the other elements or features. Thus, the exemplary term "below" can encompass both an orientation of above and below. The device may be otherwise oriented (rotated 90 degrees or other orientations) and the spatially relative descriptors used herein interpreted accordingly.

In the present invention, unless explicitly specified and limited otherwise, the terms "disposed," "coupled," "connected," "plugged," and the like are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly, through intermediaries, or both, may be in communication with each other or in interaction with each other, unless expressly defined otherwise. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

As shown in fig. 7 and 8, the bluetooth headset of the present invention includes a headset housing 103, an ear plug 102 is telescopically installed in the headset housing 103, the bottom of the ear plug 102 is installed in the headset housing 103 through a plurality of rebound devices 109, when not in use, the ear plug 102 is retracted into the headset housing 103, and the outer wall surface of the ear plug 102 is flush with the end surface of the headset housing 103, the rebound devices 109 are a commonly used elastic switch, the working principle is that the action of ejecting and retracting is realized by using a pressing mode, that is, in this embodiment, when the ear plug 102 is pressed against the headset housing 103, the ear plug 102 can be retracted into the headset housing 103, when the ear plug 102 is pressed down again, the ear plug 102 in each retracted state can be pushed down once relative to the headset housing 103, when the ear plug 102 is required to be ejected for use, as shown in fig. 9, after the use is completed, the ear plug 102 is retracted again, and the end surface of the ear plug 102 is flush with the headset housing 103;

the advantage of using the rebound device 109 in the bluetooth headset 100 is that the earplug head 102 can realize quick telescopic action, realize quick switching between use and hiding, when the earplug head 102 is ejected out by the rebound device 109, as shown in fig. 9, even if the whole bluetooth headset 100 falls on the ground, the inside of the earplug head 102 supports a plurality of rebound devices 109, therefore, if the earplug head 102 falls on the ground, the elastic force of the rebound devices 109 can be used to avoid direct impact between the earplug head 102 and the ground, so that the integral anti-falling capability of the headset is increased;

in order to enable the spherical surface of the earphone shell 103 to have anti-falling capability, the earphone shell 103 can be designed to be made of elastic materials, or an elastic rubber layer is wrapped outside to increase the anti-falling capability of the earphone shell 103, so that the overall strength of the whole Bluetooth earphone 100 is improved, and the influence of falling earphone in a motion state is avoided.

One surface of the earphone shell 103 is a hemispherical surface, after the end surfaces of the two earphone shells 103 are spliced, the two earphone shells 103 are spliced to form a spherical shape, as shown in fig. 10, after the two earphones are spliced, the two earphones are formed into a whole, one earphone is not easy to lose when the portable earphone is carried, the appearance is more attractive, the two earphones after the splicing are respectively hidden with the earplug head 102, dust and water can be effectively isolated, protection of the earplug head 102 is increased, the earplug heads 102 of the earphones are all hidden, and the portable earphone has high integration degree when the portable earphone is integrally carried in a spherical shape and can be used as a playing piece.

In order to realize the expansion and contraction of the ear plug 102, so that the ear plug is switched back and forth between use and non-use, in this embodiment, an ear plug cavity 104 is provided in the earphone housing 103, an expansion cavity is provided at the bottom surface of the ear plug cavity 104, a circuit board mounting cavity 111 is provided at the bottom surface of the expansion cavity, and an earphone motherboard 110 is mounted in the circuit board mounting cavity 111;

the earplug head 102 includes the portion of inserting ear 1021 and main part 1022, and main part 1022 telescopic setting is in flexible intracavity, the portion of inserting ear 1021 sets up the outside end at main part 1022, and earplug head 102 embeds there is the loudspeaker subassembly, and the loudspeaker subassembly passes through connecting wire electric connection earphone mainboard 110, and the connecting wire can set up to the spring wire, satisfies the flexible tractive of earplug head 102, and the portion of inserting ear 1021 can be arbitrary shape that can insert the ear, accords with the best of human engineering mechanics, and main part 1022 can make telescopic action in flexible intracavity, and earplug head 102 stretches out the back, can pack into the earhole with earplug head 102, reaches the purpose of using the earphone, when not using with earplug head 102 shrink into in the earphone casing 103.

Wherein, form a step face 108 between flexible chamber and the circuit board installation cavity 111, be provided with a plurality of mounting holes on this step face 108 equipartition, the main part 1022 of rebound ware 109 all sets up in the mounting hole, the elasticity head of rebound ware 109 and the main part 1022 fixed connection of auricular plug head 102, rebound ware 109 has two kinds of states after the pressurized, one kind is ejecting, one kind is the retract, the theory of operation of specific rebound ware 109 is here not specifically repeated, the structure of this kind only needs to push down auricular plug head 102 can realize the use and retract of auricular plug head 102, very convenience.

In order to let bluetooth headset 100 continue to voyage, still include earphone battery 112, earphone battery 112 sets up in the bottom position of earphone casing 103, and earphone battery 112 connects earphone mainboard 110 for earphone mainboard 110 power supply, when bluetooth headset 100 put into in the earphone storehouse, can utilize earphone storehouse position bluetooth headset 100 to charge.

In this embodiment, the two earphones include a first earphone 1001 and a second earphone 1002, and earphone charging contacts are provided on earphone main boards 110 of the first earphone 1001 and the second earphone 1002, that is, the two earphones include a first earphone 1001 charging contact 114 provided on the first earphone 1001 and a second earphone 1002 charging contact 106 provided on the second earphone 1002, as shown in fig. 10, when the two earphones are engaged, the earphone charging contacts of the two sets of earphones are close to each other and are located at the bottom position of a sphere formed by the whole assembled earphones, so that when the two earphones are matched with an earphone bin for use, the earphone charging contacts are always located at the bottommost position by gravity;

the earphone shell 103 at the outer side of the earphone charging contact is provided with an annular earphone magnetic attraction array, the polarities of the earphone magnetic attraction arrays on the two earphones are different, specifically, the earphone magnetic attraction array comprises a plurality of first earphone 1001 magnetic attraction blocks 113 arranged at the bottom of the first earphone 1001 and a plurality of second earphone 1002 magnetic attraction blocks 107 arranged at the bottom of the second earphone 1002, the first earphone 1001 magnetic attraction blocks 113 and the second earphone 1002 magnetic attraction blocks 107 are all in annular arrangement, after the first earphone 1001 and the second earphone 1002 are spliced, the two sets of earphone magnetic attraction arrays form a circular magnetic attraction block arrangement mode, the magnetism of the first earphone 1001 magnetic attraction blocks 113 is the same, the magnetism of the second earphone 1002 magnetic attraction blocks 107 is the same, but the magnetism of the first earphone 1001 magnetic attraction blocks 113 is opposite to the magnetism of the second earphone 1002 magnetic attraction blocks 107, and the magnetic poles of the exposed end of the first earphone 1001 magnetic attraction blocks 113 are assumed to be N, and the magnetic poles of the exposed end of the second earphone 1002 magnetic attraction blocks 107 are assumed to be S.

The butt joint surfaces of the two earphone shells 103 are in contact attraction through magnetic force, the positions, close to the earphone charging contact points, of the bottoms of the earphone shells 103 are provided with weight bodies, after the two earphone shells 103 are in butt joint, the positions of the earphone charging contact points and the earphone magnetic attraction arrays are always downward by utilizing the weight bodies, the weight bodies can be additionally increased or not increased, namely the purpose of gravity orientation can be achieved by utilizing the magnetic attraction parts, specifically, the upper ends of the first earphone 1001 and the second earphone 1002 are far away from the earphone charging contact points, the first attraction block 101 is arranged at the upper ends of the first earphone 1001 and the second earphone 1002, the second attraction block 105 is arranged at the upper ends of the first earphone 1001 and the second earphone 1002, if the weight bodies are not arranged, the volume of the second attraction block 105 can be larger, the volume of the first attraction block 101 can be kept unchanged, the corresponding first attraction block 101 and the second attraction block 105 can be corresponding to the second attraction block 105, the relative attraction of the two hemispherical earphone shells 103 is achieved, and the purpose of the second attraction block 105 can be achieved when the volume of the second attraction block is larger than the first earphone is the whole volume.

In order to accurately splice the two earphones and form a sphere, the color of the first suction block 101 can be set to be red, and the color of the second suction block 105 can be set to be blue, so that the rapid suction can be realized by red to red and blue to blue, and of course, if the colors are not distinguished, the butting position can be resolved by utilizing the size of the magnetic suction block, and further, after the first earphone 1001 and the second earphone 1002 are sucked, the earphone charging contacts at the bottom of the first earphone 1001 and the second earphone 1002 are all positioned at the same side.

As shown in fig. 1 and fig. 2, the earphone charging bin of the present invention comprises a charging bin, the charging bin comprises a bin shell 1 and an inner container 3, the inner container 3 is installed in the bin shell, one side of the bin shell 1 is hinged with a bin cover 2, the bin cover 2 is provided with a spherical cavity 5, the inner container 3 is provided with a spherical earphone cavity, two arc clamping plates 4 are respectively arranged at two sides of the earphone cavity, a spherical clamping cavity is formed between the two arc clamping plates 4, the bluetooth earphone 100 is clamped at two sides through the two arc clamping plates 4 after being installed in the earphone cavity, when the whole spherical bluetooth earphone 100 is turned into the earphone cavity and clamped through the arc clamping plates 4, the bin cover 2 can be covered, at this time, the spherical cavity 5 of the bin cover 2 is used for covering the other half of the spherical bluetooth earphone 100, the other half sphere of the bluetooth earphone 100 is positioned in the earphone cavity of the inner container 3, and after the bin cover 2 is covered, the spherical cavity 5 and the earphone cavity just seals the whole spherical bluetooth earphone 100, as shown in fig. 5;

as shown in fig. 2 and fig. 4, the Bluetooth headset further comprises a rotating ring 6, the rotating ring 6 is rotatably installed in the inner container 3, the arc-shaped clamping plate 4 is in floating connection with one side surface of the rotating ring 6 through a connecting rod 20, a floating connection mechanism is arranged between the connecting rod 20 and the back surface of the arc-shaped clamping plate 4, the purpose of the rotating ring 6 is that after the spherical Bluetooth headset 100 is clamped and positioned, the whole spherical Bluetooth headset 100 can rotate relative to the whole inner container 3 and the bin shell 1 by utilizing the rotating ring 6, and then the relative position of a headset charging contact at the bottom of the Bluetooth headset 100 is adjusted;

as shown in fig. 4 and fig. 6, two groups of earphone bin magnetic attraction arrays are arranged on the bottom surface of an earphone cavity of the inner container 3, the two groups of earphone bin magnetic attraction arrays are distributed in an annular shape, earphone bin charging ejector pins are arranged in the middle, namely a first earphone 1001 bin charging ejector pin 14 and a second earphone 1002 bin charging ejector pin 15 are arranged in the middle, the polarity of the two groups of earphone bin magnetic attraction arrays is opposite to that of a first earphone 1001 charging contact 114 and a second earphone 1002 charging contact 106, when the bluetooth earphone 100 is arranged in the earphone cavity, the earphone charging contact of the bluetooth earphone 100 faces the earphone bin charging ejector pins in the inner container 3 and contacts with the earphone bin charging ejector pins for charging, and the two groups of earphone bin magnetic attraction arrays correspond to the earphone magnetic attraction arrays with the same polarity;

specifically, the two sets of earphone bin magnet attraction arrays comprise a plurality of first bin magnets 13 and a plurality of second bin magnets 16, which are arranged on the bottom surface of the earphone cavity of the inner container 3, wherein the first bin magnets 13 and the second bin magnets 16 are distributed in a ring shape, the radian formed by the first bin magnets 13 is the same as the radian formed by the first earphone 1001 magnet attraction blocks 113, the radian formed by the second bin magnets 16 is the same as the radian formed by the second earphone 1002 magnet attraction blocks 107, the magnetism formed by the first bin magnets 13 and the second bin magnets 16 is opposite, namely, if the first bin magnets 13 are S poles, the second bin magnets 16 are N poles, then when the Bluetooth earphone 100 is put into the earphone bin, the earphone magnet attraction array of the Bluetooth earphone 100 is close to the earphone bin magnet attraction array, namely, the first earphone 1001 magnet blocks 113 of the earphone magnet attraction array correspond to the first bin magnets 13 of the earphone bin magnet attraction arrays, the second earphone 1002 magnetic attraction block 107 of the earphone magnetic attraction array corresponds to the second cabin magnet 16 of the earphone cabin magnetic attraction array, when the Bluetooth earphone 100 is randomly put in, if the first earphone 1001 magnetic attraction block 113 of the Bluetooth earphone 100 is an S pole, the second earphone 1002 magnetic attraction block 107 is an N pole, if the first cabin magnet 13 is an S pole, the second cabin magnet 16 is an N pole, when the Bluetooth earphone 100 is put in the earphone cabin, the first earphone 1001 magnetic attraction block 113 corresponds to the first cabin magnet 13, then the two are in the homopolar state, the corresponding second earphone 1002 magnetic attraction block 107 corresponds to the second cabin magnet 16, and the two are also in the homopolar state, then under the principle of homopolar repulsion, the arc clamping plate 4 drives the Bluetooth earphone 100 and the rotating ring 6 to complete rotation along the liner 3, and finally, the first earphone 1001 magnetic attraction block 113 rotates to the position of the second cabin magnet 16, the second earphone 1002 magnetic attraction block 107 rotates to the position of the first cabin magnet 13, namely, the opposite attraction principle, so that the Bluetooth earphone 100 can rotate relative to the inner container 3, and further, the earphone charging cabin thimble corresponds to the earphone charging contact of the Bluetooth earphone 100, and thus, after the Bluetooth earphone 100 is in the descending position, the earphone charging cabin thimble corresponds to the earphone charging contact to complete contact charging, because the earphone magnetic attraction array and the earphone cabin magnetic attraction array are structurally arranged, no matter how the Bluetooth earphone 100 is put into the earphone cabin, the earphone charging contact on the Bluetooth earphone 100 corresponds to the earphone charging cabin thimble under the action of the magnetic attraction array;

in order to realize better rotation of the Bluetooth headset 100 and the rotating ring 6 and adjust the position, the angles of the bin magnet and the headset magnet attraction block can be inclined a little, so that the Bluetooth headset 100 can be driven to rotate better, and the relative position of the headset charging bin thimble and the headset charging contact is adjusted.

As shown in fig. 3, in order to prevent the bluetooth headset 100 from sinking down to a position lower than the position of the bluetooth headset 100 when the bluetooth headset 100 is put into the arc-shaped clamping plate 4, in this embodiment, the floating connection mechanism includes an elastic supporting bag 17 with elastic deformation restoring capability, an air storage cavity is arranged in the elastic supporting bag 17, the elastic supporting bag is arranged in a floating chute 19 formed at the back of the arc-shaped clamping plate 4, one end of the connecting rod 20 is fixedly connected with the rotating ring 6, the other end is slidingly arranged in the floating chute 19, and the loading end is positioned at the bottom of the elastic supporting bag 17; the elastic supporting bag 17 is also provided with an air inlet and outlet pipe 18; when the Bluetooth earphone 100 is pressed down to enter into the two arc-shaped clamping plates 4, the two arc-shaped clamping plates 4 are propped open, the spherical Bluetooth earphone 100 is positioned by the two arc-shaped clamping plates 4, at the moment, the weight of the Bluetooth earphone 100 presses down the elastic supporting bag 17 through the connecting rod 20, at the moment, the gas in the elastic supporting bag 17 is slowly extruded out from the gas inlet and outlet pipe 18, before extrusion, the Bluetooth earphone 100 also has a space for rotation adjustment, so the whole Bluetooth earphone 100 rotates relative to the arc-shaped clamping plates 4 under the action of the counterweight body, the gravity center of the whole spherical Bluetooth earphone 100 is downward under the action of the counterweight body, the positions of the earphone charging contact and the earphone magnetic attraction block are downward, as the Bluetooth earphone 100 is arranged in the inner container 3, the earphone magnetic attraction block is close to the cabin magnet, under the action of the magnetic field, the spherical Bluetooth earphone 100 rotates circumferentially relative to the arc-shaped clamping plates 4, when the magnetic field is adjusted completely, the ejector pin of the earphone charging bin corresponds to the earphone charging contact, and the position of the whole Bluetooth earphone 100 is adjusted completely, namely the earphone magnetic attraction array and the opposite end of the earphone magnetic attraction array attract each other to complete magnetic attraction positioning, when the elastic supporting bag 17 is extruded, the ejector pin of the earphone charging bin contacts with the earphone charging contact to complete conductive contact, thus the Bluetooth earphone 100 can be charged, the reaction speed of the position adjustment process is very high, because the Bluetooth earphone 100 is almost completed in a moment by the magnetic field, the bin cover 2 can be covered after the Bluetooth earphone 100 is pressed into the two arc clamping plates 4 to complete charging contact, and because the whole spherical Bluetooth earphone 100 is placed in the earphone bin, half sphere is outside, the Bluetooth earphone can be taken out by fingers after the bin cover 2 is opened for better operation, finger grooves may be suitably provided in the top region of the bluetooth headset 100 to facilitate removal of the headset.

When the elastic support bag 17 is extruded by the weight of the Bluetooth headset 100, the air in the elastic support bag is extruded, and after the Bluetooth headset 100 is taken out, the air outside is sucked in through the air inlet and outlet pipe 18 to recover deformation, so that the arc-shaped clamping plate 4 recovers deformation.

In order to prevent the connecting rod 20 from being separated from the floating chute 19, in this embodiment, the cross-sectional shapes of the floating chute 19 and the connecting rod 20 are both in a T shape. The contact surface of the connecting rod 20 with the elastic support cells 17 may be provided with a horizontal contact surface, so that the contact support is better.

In order to enable the rotating ring 6 to rotate relative to the inner container 3, in the embodiment, a first annular groove 21 is arranged on the outer side surface of the rotating ring 6, a second annular groove 8 is arranged on the inner container 3 opposite to the first annular groove 21, a plurality of rollers 9 are arranged in the first annular groove 21 and the second annular groove 8, the structure of the rotating ring is similar to a bearing, under the action of a magnetic field, the whole arc-shaped clamping plate 4 carries a spherical Bluetooth headset 100 to rotate circumferentially, and then the headset magnetic attraction array contacts and attracts opposite ends of the headset cabin magnetic attraction array;

in order to better clamp the spherical Bluetooth headset 100, as shown in fig. 1 and 6, the opposite surfaces of the arc clamping plates 4 are respectively provided with an arc contact surface 41, and the arc clamping plates are positioned and clamped by utilizing radians, so that the assembly effect is better and more compact;

in order to enable the spherical Bluetooth headset 100 to rotate relative to the arc-shaped clamping plate 4, in the embodiment, as shown in fig. 1, contact balls 10 are arranged at the four corners of the arc-shaped contact surface 41, the contact balls 10 are used for being in rolling contact with the Bluetooth headset 100, the arc-shaped clamping plate 4 is made of elastic materials, when the Bluetooth headset 100 is placed in the rear supporting arc-shaped clamping plate 4, the Bluetooth headset 100 cannot be easily separated from the middle, the contact balls 10 can enable the spherical Bluetooth headset 100 to randomly overturn in the circumferential direction, the rotating ring 6 and the contact balls 10 are utilized, so that the Bluetooth headset 100 rotates more sensitively in the circumferential direction, the required force is smaller, the friction resistance is greatly reduced, and the positions of the Bluetooth headset 100 relative to the headset cabin magnetic attraction array and the headset charging cabin thimble are better adjusted.

When the bluetooth headset 100 is put into the two arc clamping plates 4 at a moment, under the action of gravity, the gravity center of the whole bluetooth headset 100 is immediately downward under the action of the contact balls 10, and the bluetooth headset rotates to a proper angle under the action of a magnetic field, so that the position adjustment of the charging contact and the charging bin ejector pin is completed.

Wherein, as shown in fig. 2, the lower end position that is located the inner gear in the storehouse shell 1 still is provided with storehouse body mainboard 11 and earphone storehouse battery 12, and earphone storehouse battery 12 charges through the interface that charges on the storehouse body mainboard 11, and earphone storehouse battery 12 is used for supplying power for storehouse body mainboard 11, and earphone storehouse charge thimble one end is connected with storehouse body mainboard 11 electricity.

The Bluetooth headset 100 of the invention forms a sphere structure after being spliced, so that when the Bluetooth headset 100 is required to be placed into a charging bin for charging, the Bluetooth headset 100 is not required to be charged, and because of the spherical structure, the Bluetooth headset 100 is only required to be buckled into the arc-shaped clamping plate 4 of the headset bin when in use, the charging angle position can be automatically adjusted, the angle position of the Bluetooth headset 100 relative to the headset bin is not required to be adjusted, the charging mode is more convenient, the charging can be completed without the need of paying attention after the Bluetooth headset 100 is buckled, and the angle of the headset relative to the headset bin is not required to be adjusted.

In addition, the invention utilizes the magnetic attraction structure at the bottom of the arc-shaped clamping plate 4 to ensure that the Bluetooth headset 100 has better contact effect when being charged, can keep continuous charging even when being used in a bumpy environment, has more reliable position contact of the conductive contact, is not easy to loosen, and is not only simple in magnetic attraction positioning, so that the arc-shaped clamping plate 4 and the rotating ring 6 not only can realize automatic angle adjustment of the charging position of the Bluetooth headset 100 relative to the headset cabin, but also can further improve the charging stability of the Bluetooth headset 100 when being placed in the headset cabin.

The foregoing is merely illustrative of specific embodiments of the present invention, and the scope of the invention is not limited thereto, but any changes or substitutions that do not undergo the inventive effort should be construed as falling within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the protection scope defined by the claims.

Claims (7)

1. An earphone storehouse that charges, its characterized in that: the Bluetooth headset comprises a charging bin, wherein the charging bin is used in combination with a Bluetooth headset (100);

the storehouse that charges includes:

the Bluetooth headset comprises a cabin shell (1) and an inner container (3), wherein the inner container (3) is arranged in the cabin shell, one side of the cabin shell (1) is hinged with a cabin cover (2), the cabin cover (2) is provided with a spherical concave cavity (5), the inner container (3) is internally provided with a spherical headset cavity, two arc clamping plates (4) are respectively arranged at two sides of the headset cavity, a spherical clamping cavity is formed between the two arc clamping plates (4), and the two sides of the headset are clamped by the two arc clamping plates (4) after the Bluetooth headset (100) is arranged in the headset cavity;

the rotating ring (6), the rotating ring (6) is rotatably arranged in the liner (3), one side surface of the arc clamping plate (4) and one side surface of the rotating ring (6) are in floating connection through a connecting rod (20), and a floating connection mechanism is arranged between the connecting rod (20) and the back surface of the arc clamping plate (4);

the bottom surface of the earphone cavity of the inner container (3) is provided with two groups of earphone bin magnetic attraction arrays, the two groups of earphone bin magnetic attraction arrays are distributed in an annular shape, the middle is provided with earphone bin charging ejector pins, the polarities of the two groups of earphone bin magnetic attraction arrays are opposite, when the Bluetooth earphone (100) is arranged in the earphone cavity, earphone charging contacts of the Bluetooth earphone (100) are opposite to the earphone bin charging ejector pins in the inner container (3) and are in contact with and charge, and the two groups of earphone bin magnetic attraction arrays correspond to the earphone magnetic attraction arrays with the same polarity;

the Bluetooth headset (100) includes: the earphone comprises an earphone shell (103), wherein an earphone plug (102) is arranged in the earphone shell (103) in a telescopic manner, the bottom of the earphone plug (102) is arranged in the earphone shell (103) through a plurality of rebound devices (109), when the earphone is not used, the earphone plug (102) is retracted into the earphone shell (103), and the outer wall surface of the earphone plug (102) is flush with the end surface of the earphone shell (103);

one surface of the earphone shell (103) is a hemispherical surface, and after the end surfaces of the two earphone shells (103) are spliced, the two earphone shells (103) are spliced to form a spherical shape;

the earphone comprises an earphone shell (103), and is characterized by further comprising an earphone battery (112), wherein the earphone battery (112) is arranged at the bottom of the earphone shell (103), and the earphone battery (112) is connected with an earphone main board (110) and is used for supplying power to the earphone main board (110);

the earphone main board (110) of each earphone is provided with an earphone charging contact, earphone magnetic attraction arrays are annularly distributed on the earphone shell (103) at the outer side end of the earphone charging contact, and polarities of the earphone magnetic attraction arrays on the two earphones are different;

the butt joint surfaces of the two earphone shells (103) are in contact attraction through magnetic force, the positions, close to the earphone charging contacts, of the bottoms of the earphone shells (103) are provided with weight bodies, and the positions of the earphone charging contacts and the earphone magnetic attraction arrays are always downward after the two earphone shells (103) are in butt joint.

2. The earphone charging bin of claim 1, wherein: the floating connecting mechanism comprises an elastic supporting bag (17) with elastic deformation restoring capability, an air storage cavity is arranged in the elastic supporting bag (17), the elastic supporting bag is arranged in a floating chute (19) formed in the back of the arc-shaped clamping plate (4), one end of a connecting rod (20) is fixedly connected with the rotating ring (6), the other end of the connecting rod is slidably arranged in the floating chute (19), the arranging end of the connecting rod is located at the bottom of the elastic supporting bag (17), an air inlet and outlet pipe (18) is further arranged on the elastic supporting bag (17), and the cross section of the floating chute (19) and the cross section of the connecting rod (20) are in a T shape.

3. The earphone charging bin of claim 1, wherein: the outer side surface of the rotating ring (6) is provided with a first annular groove (21), a second annular groove (8) is arranged on the inner container (3) which is opposite to the first annular groove (21), and a plurality of rollers (9) are arranged in the first annular groove (21) and the second annular groove (8);

the arc-shaped clamping plate comprises an arc-shaped clamping plate body, wherein the opposite surfaces of the arc-shaped clamping plate body (4) are respectively provided with an arc-shaped contact surface (41), contact balls (10) are respectively arranged at the four corners of the arc-shaped contact surfaces (41), the contact balls (10) are used for being in rolling contact with a Bluetooth headset (100), the arc-shaped clamping plate body (4) is made of elastic materials, and the arc-shaped clamping plate body (4) is unfolded after the Bluetooth headset (100) is installed in the arc-shaped clamping plate body.

4. The earphone charging bin of claim 1, wherein: the lower extreme position that lies in the interior shelves in storehouse shell (1) still is provided with storehouse body mainboard (11) and earphone storehouse battery (12), and earphone storehouse battery (12) are charged through the interface that charges on storehouse body mainboard (11), and earphone storehouse battery (12) are used for supplying power for storehouse body mainboard (11), and earphone storehouse charge thimble one end is connected with storehouse body mainboard (11) electricity.

5. The earphone charging bin of claim 1, wherein: an earplug cavity (104) is arranged in each earphone shell (103), a telescopic cavity is arranged on the bottom surface of each earplug cavity (104), a circuit board mounting cavity (111) is arranged on the bottom surface of each telescopic cavity, and an earphone main board (110) is mounted in each circuit board mounting cavity (111);

the earplug head (102) comprises an in-ear part (1021) and a main body part (1022), the main body part (1022) is arranged in the telescopic cavity in a telescopic mode, the in-ear part (1021) is arranged at the outer side end of the main body part (1022), a loudspeaker assembly is arranged in the earplug head (102), and the loudspeaker assembly is electrically connected with an earphone main board (110) through a connecting wire.

6. The earphone charging bin of claim 5, wherein: a step surface (108) is formed between the telescopic cavity and the circuit board mounting cavity (111), a plurality of mounting holes are uniformly distributed on the step surface (108), the main body parts (1022) of the rebound device (109) are respectively arranged in the mounting holes, and the elastic heads of the rebound device (109) are fixedly connected with the main body parts (1022) of the earplug heads (102).

7. A bluetooth headset, characterized in that: the Bluetooth headset (100) includes: the earphone comprises an earphone shell (103), wherein an earphone plug (102) is arranged in the earphone shell (103) in a telescopic manner, the bottom of the earphone plug (102) is arranged in the earphone shell (103) through a plurality of rebound devices (109), when the earphone is not used, the earphone plug (102) is retracted into the earphone shell (103), and the outer wall surface of the earphone plug (102) is flush with the end surface of the earphone shell (103);

one surface of the earphone shell (103) is a hemispherical surface, and after the end surfaces of the two earphone shells (103) are spliced, the two earphone shells (103) are spliced to form a spherical shape;

the earphone comprises an earphone shell (103), and is characterized by further comprising an earphone battery (112), wherein the earphone battery (112) is arranged at the bottom of the earphone shell (103), and the earphone battery (112) is connected with an earphone main board (110) and is used for supplying power to the earphone main board (110);

the earphone main board (110) of each earphone is provided with an earphone charging contact, earphone magnetic attraction arrays are annularly distributed on the earphone shell (103) at the outer side end of the earphone charging contact, and polarities of the earphone magnetic attraction arrays on the two earphones are different;

the butt joint surfaces of the two earphone shells (103) are in contact attraction through magnetic force, weight bodies are arranged at the positions, close to the earphone charging contacts, of the bottoms of the earphone shells (103), and the positions of the earphone charging contacts and the earphone magnetic attraction arrays are always downward after the two earphone shells (103) are in butt joint by the weight bodies;

the bluetooth headset (100) is used in combination with a headset charging cartridge according to any of claims 1 to 6.

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