CN111200766A - Wireless bluetooth headset smart charging storage box and bluetooth headset - Google Patents

Abstract

The invention provides an intelligent wireless Bluetooth headset charging storage box (1) and a Bluetooth headset (100), wherein the intelligent wireless Bluetooth headset charging storage box (1) comprises a storage box (20) and a box cover (10), the box cover (10) comprises a touch screen (11), a mainboard (61) and a battery (62) are further installed in the storage box (20), and a processor, a storage device, a charging circuit and a driving circuit are arranged on the mainboard (61). According to the invention, the touch screen (11) is arranged on the box cover (10), the main board (61) is arranged in the storage box (20), and the processor, the memory and the driving circuit are arranged on the main board (61), so that the intelligent charging storage box for the wireless Bluetooth headset can be used for inputting, outputting, displaying, storing and processing information, and simultaneously can store software programs, so as to better perform intelligent interaction experience with users.

Description

Wireless bluetooth headset intelligence receiver and bluetooth headset that charges

Technical Field

The invention belongs to the field of Bluetooth earphones, and particularly relates to an intelligent charging storage box for a wireless Bluetooth earphone and the Bluetooth earphone.

Background

The use of the bluetooth headset is more and more popular, and the bluetooth headset in the market has a variety of styles, but generally has two types; one type is that two earplugs are connected through a lead, and a host module is arranged on the lead, and most earplugs of the Bluetooth headset are the same as earplugs of a common headset, namely the Bluetooth headset is a host external Bluetooth headset; the other type is an integrated Bluetooth earphone integrating a host and earplugs, the Bluetooth earphone is provided with a host shell outside the earplugs, and the mainboard and the Bluetooth module are arranged in the host shell without external leads, namely the wireless Bluetooth earphone. However, the size of the wireless bluetooth headset is limited, the battery in the bluetooth headset is easy to be generally small, so that the storage box is generally arranged at present for providing the standby time of the bluetooth headset, and the battery is arranged in the storage box, so that the bluetooth headset can be stored and charged when the bluetooth headset is not used, and the service time of the bluetooth headset is prolonged. However, the receiver of present bluetooth headset can only charge for bluetooth headset, and the function is single.

Disclosure of Invention

The invention aims to provide an intelligent charging storage box for a wireless Bluetooth earphone and the Bluetooth earphone, and aims to solve the problem that the storage box for the wireless Bluetooth earphone in the prior art is single in function.

In order to achieve the purpose, the invention adopts the technical invention that: the utility model provides an intelligent charging storage box for wireless Bluetooth earphones, which comprises a storage box for storing wireless Bluetooth earphones and a box cover which is covered on the storage box in a matching way, wherein one side of the box cover is hinged on the storage box, a containing cavity for containing the wireless Bluetooth earphones and an elastic needle which extends into the containing cavity and is used for electrically connecting the wireless Bluetooth earphones are arranged in the storage box, the box cover comprises a touch screen, a main board and a battery are also arranged in the storage box, the elastic needle is electrically connected with the main board, the battery is electrically connected with the main board, the touch screen is electrically connected with the main board, a processor, a memory and a charging circuit which controls the battery to charge the wireless Bluetooth earphones stored in the containing cavity are arranged on the main board, a driving circuit which is used for receiving the input content of the touch screen and controlling the display content of the touch screen is also arranged on the main board, the memory, the charging circuit and the driving circuit are electrically connected with the processor.

The invention also aims to provide the Bluetooth headset, which comprises a wireless Bluetooth headset and the intelligent charging storage box for the wireless Bluetooth headset.

The intelligent charging storage box for the wireless Bluetooth headset provided by the invention has the beneficial effects that: compared with the prior art, the accommodating cavity and the battery are arranged in the accommodating box, so that the accommodated wireless Bluetooth headset can be accommodated and charged conveniently; set up the touch screen simultaneously on the lid, and set up the mainboard in the receiver to set up treater, memory and drive circuit on the mainboard, thereby make this wireless bluetooth headset intelligence receiver that charges can also be used for input, output, demonstration, storage and processing information, can save software program simultaneously, so that with the better mutual experience of carrying on of user intelligence.

The Bluetooth earphone of the invention uses the intelligent charging storage box of the wireless Bluetooth earphone, so that the storage box can charge the Bluetooth earphone when the wireless Bluetooth earphone is stored; meanwhile, intelligent interactive experience can be performed with the user, and the user experience is improved.

Drawings

In order to more clearly illustrate the technical invention in the embodiments of the present invention, the drawings needed to be used in the embodiments or the prior art description will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without inventive exercise.

Fig. 1 is a first schematic structural diagram of a bluetooth headset according to a first embodiment of the present invention, which shows a schematic diagram of 360-degree stereo surround sound pickup;

fig. 2 is a schematic structural diagram of a wireless bluetooth headset intelligent charging storage box according to an embodiment of the present invention when a box cover is opened;

fig. 3 is a schematic structural diagram of the bluetooth headset in the wireless bluetooth headset intelligent charging storage box of the bluetooth headset shown in fig. 2 when the bluetooth headset is taken out;

fig. 4 is an exploded schematic view of the wireless bluetooth headset intelligent charging storage box shown in fig. 3;

fig. 5 is a first schematic diagram illustrating an explosion structure of a storage case in the intelligent charging storage box of the wireless bluetooth headset of fig. 4;

fig. 6 is a second schematic view of the explosion structure of the storage case shown in fig. 4;

fig. 7 is a third schematic view of the explosion structure of the storage case shown in fig. 4;

fig. 8 is a schematic structural diagram of an upper shell in the intelligent charging and storage box of the wireless bluetooth headset of fig. 4;

fig. 9 is an enlarged schematic structural diagram of a middle shell of the intelligent charging storage box of the wireless bluetooth headset of fig. 4;

FIG. 10 is a schematic view of an alternate angle of the mid-shell shown in FIG. 9;

fig. 11 is a first schematic diagram illustrating an explosion structure of a box cover in the wireless bluetooth headset intelligent charging storage box of fig. 4;

fig. 12 is a schematic diagram of an explosion structure of a box cover in the wireless bluetooth headset intelligent charging storage box of fig. 4;

fig. 13 is a microphone distribution schematic diagram of the wireless bluetooth headset intelligent charging storage box of fig. 1.

Fig. 14 is a schematic structural view of a wireless bluetooth headset intelligent charging storage box according to a second embodiment of the present invention when a box cover is opened;

fig. 15 is an exploded schematic view of the wireless bluetooth headset intelligent charging storage box shown in fig. 14;

fig. 16 is an exploded view of a storage case in the wireless bluetooth headset intelligent charging storage box of fig. 15;

fig. 17 is an exploded schematic view of a box cover in the wireless bluetooth headset intelligent charging storage box of fig. 15.

Wherein, in the drawings, the reference numerals are mainly as follows:

100-bluetooth headset; 1-a wireless Bluetooth earphone intelligent charging storage box;

10-a box cover; 11-a touch screen; 12-a cover plate; 121-a connecting frame; 122-positioning grooves; 13-tabletting; 131-an arc-shaped groove;

20-a storage box;

30-a housing; 31-upper shell; 312-a housing groove; 313-a viewing aperture; 314-upper splint; 315-a clamping piece; 32-a bottom shell; 321-mounting posts; 322-lower splint;

40-a storage case; 41-face shell; 411-a cavity; 42-containment shell; 421-an accommodating cavity; 422-inserted link; 423-a reinforcement plate; 43-receiving the bottom cover; 431-an arc-shaped slot; 432-connecting piece; 44-a flexible needle; 441-a support plate; 45-a rotating shaft; 46-torsion spring; 47-a reinforcement frame; 471-locating slot; 48-a positioning block;

50-a mesochite; 51-a support ring; 511-upper ring groove; 512-lower ring groove; 513-window; 514-opening a hole; 52-positioning plate; 521-an accommodating cavity; 522-positioning port; 53-fixing plate; 531-reinforcing lath; 54-support ribs; 55-a reinforcing plate; 56-microphone; 571-mounting plate; 572-support plate; 573-connecting plate; 574-a through port;

61-a main board; 62-a battery; 63-a circuit board; 64-a push button switch; 641-keys; 65-a light guide; 66-a circuit board; 67-a data interface; 681-first magnetic attachment; 682-a second magnetic attachment; 683 magnetic proximity switch; 684-magnetic means;

9-wireless bluetooth headset.

Detailed Description

In order to make the technical problems, technical inventions and advantageous effects to be solved by the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

In the description of the present invention, it is to be understood that the terms "center", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

The first embodiment is as follows:

referring to fig. 1 to 13 together, abluetooth headset 100 according to the present invention will now be described. Bluetoothheadset 100, including wireless Bluetoothheadset 9 and wireless Bluetooth headset intelligence receiver 1 that charges, this wireless Bluetooth headset intelligence receiver 1 that charges is used for accomodating wireless Bluetoothheadset 9, can also charge to wireless Bluetoothheadset 9 simultaneously, improves wireless Bluetoothheadset 9's use and standby time.

Further, be equipped with infrared induction unit (not shown) among thewireless bluetooth headset 9, set up infrared induction unit, when using, when infrared induction unit senses the earphone and is close to the user, can carry out the broadcast of sound such as music, and when infrared induction unit senses the earphone and keeps away from the user, can make the player pause, and strike the earphone casing and can carry out operations such as conversation connection and hang up, and then can conveniently control.

Referring to fig. 1 to 13 together, the wireless bluetooth headset intelligent charging storage box 1 of the present invention will be described and explained in detail as follows:

wireless bluetooth headset intelligence receiver 1 that charges includesreceiver 20 andlid 10, andlid 10 cooperation lid is onreceiver 20 to one side oflid 10 articulates on the receiver, so that can openlid 10 onreceiver 20 orlid 10. Be equipped withholding chamber 421 in thereceiver 20,holding chamber 421 is used for thewireless bluetooth headset 9 of holding to placewireless bluetooth headset 9 inholding chamber 421, and then use thisreceiver 20 to accomodatewireless bluetooth headset 9. Theaccommodating box 20 is further provided with anelastic needle 44, and theelastic needle 44 extends into theaccommodating cavity 421, so that when thewireless bluetooth headset 9 is placed in theaccommodating cavity 421, theelastic needle 44 can be electrically connected with thewireless bluetooth headset 9. Still installmainboard 61 andbattery 62 in thereceiver 20,elasticity needle 44 andmainboard 61 electric connection,battery 62 andmainboard 61 electric connection, be equipped with treater (not shown in the figure), memory (not shown in the figure) and charging circuit (not shown in the figure) on themainboard 61, charging circuit is used for controllingbattery 62 to charge to thewireless bluetooth headset 9 of storage inholding chamber 421, when depositingwireless bluetooth headset 9 inholding chamber 421 promptly,elasticity needle 44 andwireless bluetooth headset 9 electric connection, then charging circuit can controlbattery 62 and charge to wireless bluetooth ear throughelasticity needle 44. Thebox cover 10 comprises atouch screen 11, thetouch screen 11 is electrically connected with amain board 61, themain board 61 is further provided with a driving circuit (not shown), the memory, the charging circuit and the driving circuit are electrically connected with the processor, the driving circuit is used for receiving input content of thetouch screen 11 and controlling display content of thetouch screen 11, the processor can process information, and the memory can be used for storing information; thereby this wireless bluetooth headset intelligence receiver 1 that charges can be used for storing the software program, storage information, processing information, receipt information and output information to realize with user's intelligent interaction, improve user experience, increase the function.

According to the intelligent charging storage box 1 for the wireless Bluetooth headset, thestorage cavity 421 and thebattery 62 are arranged in thestorage box 20, so that the wireless Bluetoothheadset 9 is stored and charged conveniently; set up touch-control screen 11 onlid 10 simultaneously, and set upmainboard 61 inreceiver 20 to set up treater, memory and drive circuit onmainboard 61, thereby make this wireless bluetooth headset intelligence receiver 1 that charges can also be used for input, output, demonstration, storage and processing information, can save software program simultaneously, so that with the better mutual experience of carrying on of user intelligence.

The Bluetoothheadset 100 of the invention uses the intelligent charging storage box 1 of the wireless Bluetooth headset, so that when the wireless Bluetoothheadset 9 is stored, thestorage box 20 can charge the Bluetoothheadset 100; meanwhile, intelligent interactive experience can be performed with the user, and the user experience is improved.

Further, this wireless bluetooth headset intelligence receiver 1 that charges still includes themicrophone 56 that is used for the pickup, andmicrophone 56 installs onreceiver 20, andmicrophone 56 links to each other with mainboard 61 electrical property. Can pick up pronunciation throughmicrophone 56 to can save and handle speech information, in order to record, and can carry out meeting record, translation, can also handle through the treater simultaneously, realize turning into characters or control command etc. with pronunciation, convenient record and operation, in order to experience with the better intelligent interaction of carrying on of user.

Further, at least twomicrophones 56 are arranged in a linear array, and eachmicrophone 56 is electrically connected with themain board 61. The number of themicrophones 56 is at least two, and themicrophones 56 are arranged in a linear array, so that sound can be collected better, and the sound collecting efficiency and range are improved.

Further, at least twomicrophones 56 are disposed on four sides of thestorage case 20 respectively. At least twomicrophones 56 are provided on each side of thestorage case 20, respectively, so that an effect of 360-degree stereoscopic sound pickup can be achieved. The linear array arrangement of themicrophones 56 on each side of thestorage case 20 can improve the sound collecting effect in each direction.

Further, referring to fig. 1, as an embodiment of the storage box 1 for intelligent charging of wireless bluetooth headset according to the present invention, thestorage box 20 is circular in a top view direction, and at least twomicrophones 56 are arranged in an annular array. According to the structure, the at least twomicrophones 56 are distributed along the circumferential direction of thestorage box 20, so that sound can be picked up at multiple angles, the sound pickup effect is improved, and further conference recording can be better carried out; thereby achieving the effect of 360-degree stereo sound pickup, as shown by the dotted line a in fig. 1, which represents the effective range schematic line of 360-degree stereo sound pickup.

Further, referring to fig. 2 to 4, thestorage box 20 includes anouter shell 30 and astorage shell 40, wherein a top of theouter shell 30 is open for installing thestorage shell 40, i.e., thestorage shell 40 can be conveniently inserted from the open top of theouter shell 30 for installing in theouter shell 30. Theaccommodating shell 40 is provided with anaccommodating cavity 421 so as to accommodate thewireless bluetooth headset 9; theelastic needle 44 is mounted on the receivingcase 40 to support theelastic needle 44 through the receivingcase 40. Thecover 10 is hinged with the receivingcase 40 to support thecover 10. Of course, in other embodiments, thecover 10 may be hinged to thehousing 30.

Further, referring to fig. 4 to 7, theaccommodating shell 40 includes asurface shell 41 and anaccommodating shell 42, theaccommodating shell 42 is used for enclosing theaccommodating cavity 421, thesurface shell 41 is mounted on theouter shell 30 to support theaccommodating shell 42 in theouter shell 30, theaccommodating shell 42 is mounted on a bottom surface of thesurface shell 41, an opening (not labeled in the figures) communicating with theaccommodating shell 42 is correspondingly formed on thesurface shell 41, and theelastic needle 44 is mounted on theaccommodating shell 42.

Further, referring to fig. 4 to 7, the bottom of the containingshell 42 is open; thestorage case 40 further comprises astorage bottom cover 43, thestorage bottom cover 43 is matched with the cover at the bottom of thestorage case 42, and thestorage bottom cover 43 is provided with an arc-shapedgroove 431 matched with the front end of thewireless Bluetooth headset 9, so that when thewireless Bluetooth headset 9 is stored in thestorage chamber 421, thewireless Bluetooth headset 9 can be positioned better. Meanwhile, the structure can also facilitate processing and manufacturing, and theaccommodating cavity 421 formed by manufacturing is also convenient to be matched with thewireless Bluetooth headset 9 better. Of course, in other embodiments, the receivingbottom cover 43 may be integrally formed with theaccommodating case 42 and theface case 41, that is, the receivingcase 40 may be integrally formed.

Further, referring to fig. 4 to 7, a plurality of connectingpieces 432 are protruded and extended from the periphery of the receivingbottom cover 43, each connectingpiece 432 is provided with a hole (not marked), the receivingshell 42 is correspondingly provided with an insertingrod 422 inserted into each hole, when each insertingrod 422 is inserted into the corresponding hole on the connectingpiece 432, the receivingbottom cover 43 can be mounted at the bottom of the receivingshell 42, and the assembly is convenient. Of course, in other embodiments, the receivingbottom cover 43 may be fixed and fixed by using a structural method, such as welding, bonding, screwing, etc.

Further, referring to fig. 2 to 7, twoaccommodating chambers 421 are provided, and the twoaccommodating chambers 421 are arranged in mirror symmetry. Since thewireless bluetooth headsets 9 are generally arranged in pairs, so that the two ears of a person can use the wireless bluetooth headsets simultaneously; thus, theaccommodating cavities 421 in theaccommodating box 20 are also arranged in two, and the twoaccommodating cavities 421 are arranged in mirror symmetry, so that a pair ofwireless bluetooth earphones 9 can be stored at the same time.

Specifically, two containingshells 42 are disposed at the bottom of theface shell 41, the two containingshells 42 are arranged in mirror symmetry, and anelastic needle 44 is mounted in each containingshell 42. Further, there are two storage bottom covers 43, the two storage bottom covers 43 are arranged in mirror symmetry, and the two storage bottom covers 43 are respectively installed at the bottoms of the twoaccommodating cases 42. Further, the receivingcase 40 further includes a reinforcingplate 423 connecting the two receivingcases 42. Set up reinforcingplate 423, connect two holdingshells 42 through reinforcingplate 423, can increase the intensity of holdingshell 42, and then supportwireless bluetooth headset 9 that can be better. Further, a reinforcingplate 423 is fixedly coupled to theface housing 41 to increase the strength of theface housing 41.

Further, referring to fig. 1 to 4, the outer shape of thehousing 30 is circular along the thickness direction of thehousing 30, and the side surface of thehousing 30 is arc-shaped. This structure can make this wireless bluetooth headset intelligence receiver 1 that charges have overlook to be circular greatly, and the front view is oval-shaped appearance greatly, promotes the outward appearance, reduces edges and corners simultaneously, facilitates the use. Further, thebox cover 10 is formed in a circular shape so as to be well fitted with thestorage box 20. Of course, in other embodiments, thestorage box 20 may be rectangular parallelepiped, cylindrical, elliptical, etc.

Further, referring to fig. 1 to 4, thehousing 30 includes abottom case 32 and anupper case 31 mounted on thebottom case 32, a top of theupper case 31 is open, and themain board 61 is mounted in thebottom case 32. Thebottom shell 32 and theupper shell 31 are arranged to form theshell 30, so that the processing and manufacturing are convenient.

Further, referring to fig. 4 to 7, theface housing 41 has a circular shape to be better matched with theupper housing 31, and theface housing 41 covers the top of theupper housing 31 to prevent impurities from entering thehousing 30.

Further, referring to fig. 4, 11 and 12, thebox cover 10 further includes acover plate 12, and thetouch screen 11 is mounted on an outer surface of thecover plate 12, and thetouch screen 11 is supported by thecover plate 12. A connectingframe 121 is convexly arranged on one side of the inner surface of thecover plate 12, and the connectingframe 121 is hinged with thestorage box 20.

Further, referring to fig. 4, 5, and 9 to 12, the connectingframe 121 is hinged to thestorage box 20 through the rotatingshaft 45, and a shaft hole (not shown) for therotating shaft 45 to pass through is formed on the connectingframe 121 for facilitating assembly. Furthermore, the rotatingshaft 45 is sleeved with atorsion spring 46, one end of thetorsion spring 46 abuts against the inner wall of thestorage box 20, and the other end of thetorsion spring 46 abuts against the connectingframe 121. Thetorsion spring 46 is provided, and when thebox cover 10 is opened, thetorsion spring 46 can play a supporting role, so that thebox cover 10 is kept in an opened state. Aconcave cavity 411 is formed in one side of theface shell 41, the rotatingshaft 45 is installed in theconcave cavity 411, and theconcave cavity 411 is formed in theface shell 41 so as to accommodate therotating shaft 45 and be conveniently connected with the connectingframe 121. Theupper shell 31 is provided with a receivinggroove 312 at a position corresponding to thecavity 411, and thecavity 411 is disposed in the receivinggroove 312 so that thefront shell 41 is better connected with theupper shell 31.

Further, referring to fig. 2, fig. 3, and fig. 11 to fig. 12, apressing sheet 13 is disposed on the inner surface of thecover plate 12, and an arc-shapedgroove 131 corresponding to thewireless bluetooth headset 9 is disposed on thepressing sheet 13 at a position corresponding to theaccommodating cavity 421. Therefore, when thebox cover 10 is covered on the containingbox 20, thepressing sheet 13 can better press and position thewireless Bluetooth headset 9 in the containingcavity 421, so that thewireless Bluetooth headset 9 is more stably stored in the containingcavity 421. Further, thepressing sheet 13 can be made of silica gel, so that thewireless bluetooth headset 9 can be protected when thepressing sheet 13 abuts against thewireless bluetooth headset 9. Further, the inner surface of thecover plate 12 is provided with apositioning groove 122, and thepressing plate 13 is installed in thepositioning groove 122. Apositioning groove 122 is provided on the inner surface of thecover plate 12 to position the mountingtab 13. Further, thepressing sheet 13 is in a long strip shape, and two ends of the pressing sheet are in a circular arc shape, so that the occupied space is reduced.

Further, referring to fig. 4 to 7, 11 and 12, a firstmagnetic member 681 is installed in thebox cover 10, and a secondmagnetic member 682, which is used to magnetically attract the firstmagnetic member 681, is correspondingly installed in thestorage box 20. The firstmagnetic part 681 is installed in thebox cover 10, and the secondmagnetic part 682 is installed in thestorage box 20, so that when thebox cover 10 is covered on thestorage box 20, the secondmagnetic part 682 and the firstmagnetic part 681 can be magnetically attracted to attract thebox cover 10, so that thebox cover 10 can be better covered on thestorage box 20, and thebox cover 10 is prevented from loosening.

Further, referring to fig. 2, 11 and 12, amagnetic proximity switch 683 for controlling the switch of thewireless bluetooth headset 9 stored in theaccommodating cavity 421 is installed in theaccommodating box 20, themagnetic proximity switch 683 is electrically connected to themain board 61, and amagnetic member 684 for controlling themagnetic proximity switch 683 is correspondingly installed in thebox cover 10. The magneticattraction proximity switch 683 is arranged in thestorage box 20, and when thebox cover 10 is covered on thestorage box 20, themagnetic part 684 in thebox cover 10 magnetically attracts the magneticattraction proximity switch 683 to control thewireless bluetooth headset 9 stored in theaccommodating cavity 421 to be closed and charge thewireless bluetooth headset 9. When thebox cover 10 is opened, themagnetic part 684 is far away from themagnetic proximity switch 683, so that thewireless bluetooth headset 9 is controlled to be powered on to be in a standby pairing state, and the use is convenient.

Further, referring to fig. 4, 9 to 13, thestorage case 20 further includes amiddle case 50, themiddle case 50 is installed in theouter case 30, thebattery 62 is installed in themiddle case 50, and themain board 61 is provided at the bottom of themiddle case 50. Themiddle shell 50 is provided to better hold thebattery 62 and to support theouter shell 30 for increased strength. The bottom of thebottom case 32 is provided with a plurality of mountingposts 321, and themain board 61 is provided with mounting holes (not shown) corresponding to the mountingposts 321 for conveniently mounting and fixing themain board 61.

Further, referring to fig. 4, fig. 9 to 13, themiddle shell 50 includes a supportingring 51, twopositioning plates 52 and a fixingplate 53, and the twopositioning plates 52 and the fixingplate 53 are disposed in the supportingring 51; both sides of the fixingplate 53 are respectively connected to inner sides of the twopositioning plates 52, and an outer side of eachpositioning plate 52 is connected to thesupport ring 51, thereby supporting the fixingplate 53 by thesupport ring 51. The middle part of eachpositioning plate 52 protrudes towards theupper shell 31, and anaccommodating cavity 521 for accommodating thebattery 62 is formed in eachpositioning plate 52, so that thebattery 62 can be installed in theaccommodating cavity 521, and twobatteries 62 can be installed, thereby increasing the capacity and prolonging the service time of the wireless bluetooth headset intelligent charging storage box 1; acavity 411 for inserting a part of thestorage case 40 corresponding to theaccommodating cavity 421 is formed between the twopositioning plates 52, so that thestorage case 40 is convenient to assemble, and meanwhile, the space in theshell 30 is fully utilized, the integration level is improved, and the volume is reduced. Thesupport ring 51 is installed between theupper case 31 and thebottom case 32 to sandwich and fix thesupport ring 51 by theupper case 31 and thebottom case 32, thereby installing themiddle case 50 in theouter case 30.

Further, referring to fig. 4, fig. 9 to fig. 13, the middle portion of the cross section of eachpositioning plate 52 is arc-shaped. Eachcell 62 is cylindrical. Eachpositioning plate 52 is configured to be circular arc-shaped, so that thepositioning plate 52 can be ensured to have good strength, and theaccommodating cavity 521 which can be named is formed to have a larger space so as to store alarger battery 62. In other embodiments, the middle portion of thepositioning plate 52 may also be shaped as "Jiong" to accommodate therectangular parallelepiped battery 62. Further, themiddle shell 50 further includessupport ribs 54 for fixedly connecting two ends of eachpositioning plate 52 with thesupport ring 51, i.e. the two ends of eachpositioning plate 52 are connected with thesupport ribs 54, and the other end of eachsupport rib 54 is connected with thesupport ring 51, so as to better support and fix thepositioning plate 52. Further, themiddle shell 50 further includes reinforcingplates 55 fixedly connecting both ends of the fixingplate 53 to the support rings 51, respectively, that is, the reinforcingplates 55 are connected to both ends of the fixingplate 53, respectively, and the other end of each reinforcingplate 55 is connected to thesupport ring 51, so as to fix the fixingplate 53 better. Further, a plurality of reinforcingstrips 531 for connecting the twopositioning plates 52 are disposed on the fixingplate 53, and the reinforcingstrips 531 are disposed to increase the connecting strength of the two fixingplates 53 and increase the strength of themiddle shell 50.

Further, referring to fig. 2, 4, and 9 to 13, the wireless bluetooth headset intelligent charging storage box 1 further includes acircuit board 63, abutton switch 64 mounted on thecircuit board 63, and abutton 641 for operating thebutton switch 64, awindow 513 exposed out of thebutton switch 64 is formed on thehousing 30, thebutton 641 is mounted in thewindow 513, and thecircuit board 63 is electrically connected to themain board 61. Set upbutton 641 switch andbutton 641 to this wireless bluetooth headset intelligence charging receiver 1's opening and closing is conveniently controlled. In this embodiment, thewindow 513 is disposed on thesupport ring 51, so that the key 641 is mounted on thesupport ring 51. In other embodiments, thewindow 513 may be disposed on thebottom shell 32 or theupper shell 31.

Further, referring to fig. 2, 4, and 9 to 13, a plurality ofupper clamping plates 314 for clamping thesupport ring 51 are protruded from theupper shell 31 to fix thesupport ring 51. Further, a plurality oflower clamping plates 322 for clamping thesupport ring 51 are protruded in thebottom case 32 to mount the fixedsupport ring 51. In addition, theupper clamping plate 314 and thelower clamping plate 322 can be matched to better fix thesupport ring 51 and further themiddle shell 50.

Further, referring to fig. 2, 4, and 9 to 13, an upper portion of the outer side of thesupport ring 51 is provided with anupper ring groove 511 for inserting the lower end of theupper shell 31; the lower portion of the outer side of the supportingring 51 is opened with alower ring groove 512 for inserting the upper end of thebottom case 32, so as to buckle theupper case 31 and thebottom case 32 on the supportingring 51 respectively. Furthermore, a plurality of indicator lights (not shown) are disposed on thecircuit board 63, aviewing window 313 is correspondingly disposed on theupper casing 31, and alight guide 65 for guiding light emitted from each indicator light to theviewing window 313 is disposed in theupper casing 31 corresponding to eachviewing window 313. Set up the pilot lamp to show the behavior of this wireless bluetooth headset intelligence storage box 1 that charges, like the electric quantity condition, the condition of charging information, and set upleaded light 65, so that the position in order better overall arrangement pilot lamp. Further, eachlight guide 65 is mounted on onepositioning plate 52, and thepositioning plate 52 is provided with apositioning opening 522 for accommodating eachlight guide 65, so as to conveniently position and mount thelight guide 65. Furthermore, aclamping sheet 315 is correspondingly disposed on theupper case 31 for clamping eachlight guide member 65, and theclamping sheet 315 is disposed on theupper case 31 for fixing thelight guide members 65.

Further, wireless bluetooth headset intelligence receiver 1 that charges still includesdata interface 67, anddata interface 67 andmainboard 61 electrical connection set up thetrompil 514 that exposesdata interface 67 on theshell 30, anddata interface 67 inserts in thetrompil 514. The data interface 67 is provided to charge thebattery 62 and to perform data connection with themotherboard 61. Of course, in some embodiments, the data connection can be performed with the wireless bluetooth headset intelligent charging storage box 1 in a wireless manner, and thebattery 62 can be charged in a wireless manner. In this embodiment, theopening 514 is formed on thesupport ring 51. In other embodiments, theopening 514 can be formed on thebottom shell 32 or theupper shell 31.

Further, please refer to fig. 4, 9 to 13, the wireless bluetooth headset intelligent charging storage box 1 further includes acircuit board 66, thedata interface 67 is installed on thecircuit board 66, thecircuit board 66 is electrically connected with themain board 61, thecircuit board 66 is arranged to better control thedata interface 67, and a circuit can be arranged on thecircuit board 66, so that the circuit arranged on themain board 61 can be reduced, the size of themain board 61 can be reduced, and the space in thehousing 30 can be more effectively utilized. Further, thecircuit board 66 is mounted on one of thepositioning plates 52 so as to mount and fix thecircuit board 66.

Further, in the present embodiment, eachmicrophone 56 is provided on thesupport ring 51. Accordingly, each microphone is mounted on thesupport ring 51 for better pick-up. In other embodiments, eachmicrophone 56 may be disposed on thebottom shell 32 or thetop shell 31. Furthermore, in this embodiment, fourmicrophones 56 are provided, fourmicrophones 56 are respectively disposed on four sides of the circumference of thesupport ring 51, taking the center of the circle of thesupport ring 51 as the center point, and an included angle between twoadjacent microphones 56 among the fourmicrophones 56 is 90 degrees, so as to pick up sound in each direction of 360 degrees in a three-dimensional manner, and facilitate recording of a conference. As shown in fig. 1, a dotted line a indicates an effective range diagram line of 360-degree stereo sound pickup.

Example two:

referring to fig. 14 to 17, the difference between the storage box 1 for intelligently charging a wireless bluetooth headset in a bluetooth headset of the present embodiment and the storage box for intelligently charging a wireless bluetooth headset in a bluetooth headset of the first embodiment is as follows:

in this embodiment: thestorage box 20 is provided with a containingcavity 421, the containingcavity 421 is horizontally arranged in thestorage box 20, and correspondingly, thewireless Bluetooth headset 9 is horizontally arranged in the containingcavity 421. This structure can make the height of thestorage case 20 small. Specifically, when thestorage case 20 includes theouter shell 30 and thestorage case 40, theaccommodation chamber 421 is provided in thestorage case 40.

Further, theaccommodating shell 40 includes asurface shell 41 and anaccommodating shell 42, theaccommodating shell 42 is used for enclosing theaccommodating cavity 421, thesurface shell 41 is mounted on theouter shell 30 to support theaccommodating shell 42 in theouter shell 30, theaccommodating shell 42 is mounted on a bottom surface of thesurface shell 41, and an opening (not labeled in the figure) communicating with theaccommodating shell 42 is correspondingly formed on thesurface shell 41. The bottom of theaccommodation case 42 is mounted with anelastic pin 44 so as to charge thewireless bluetooth headset 9 mounted in theaccommodation chamber 421. Further, thestorage case 40 further includes a reinforcingframe 47 connecting the twostorage cases 42 to increase the strength of thestorage cases 42, so as to better support thewireless bluetooth headset 9. Further, the receivingcase 40 further includes asupport plate 441 supporting theelastic needle 44 so as to mount and support theelastic needle 44. Further, thesupport plate 441 is installed in the reinforcingframe 47 to reduce an occupied space, while thesupport plate 441 is positioned by the reinforcingframe 47. Further, thestorage case 40 further includes twopositioning blocks 48 at two ends of thepositioning support plate 441, and two ends of the reinforcingframe 46 are respectively provided with apositioning groove 471 for positioning and accommodating the corresponding positioning blocks 48.

Further, the firstmagnetic member 681 has a rectangular parallelepiped shape. Correspondingly, the second magnetic part is in a cuboid shape.

Further, in this embodiment, thestorage box 20 further includes amiddle shell 50, themiddle shell 50 includes asupport ring 51, a mountingplate 571 and asupport plate 572, the mountingplate 571 and thesupport plate 572 are respectively disposed on two sides of the inside of thesupport ring 51, and the mountingplate 571 and thesupport plate 572 respectively extend inward from the inner surface of thesupport ring 51, so that the mountingplate 571 and thesupport plate 572 are supported by thesupport ring 51. A throughhole 574 for the containingshell 42 to pass through is formed between the mountingplate 571 and thesupport plate 572; themain board 61 is supported on the mountingplate 571, and thebattery 62 is mounted on thesupport plate 572. The structure is simple, and the processing and the manufacturing are convenient.

Further, thesupport ring 51 has a connectingplate 573 extending inward from an inner surface thereof to connect theupper shell 31 and thebottom shell 32, thereby facilitating the fixing of themiddle shell 50. Further, in this embodiment, eachlight guide 65 is mounted on thesupport plate 572, and this structure facilitates mounting eachlight guide 65 and assembling. Further, in the present embodiment, thedata interface 67 is supported on the mountingplate 571, so as to facilitate mounting and fixing thedata interface 67, and facilitate electrically connecting thedata interface 67 with themotherboard 61. Further, in the present embodiment, the arc-shapedgroove 131 on thepressing sheet 13 is adapted to the side surface of thewireless bluetooth headset 9.

Other structures of wireless bluetooth headset intelligence storage box 1 in the bluetooth headset of this embodiment are the same with other structures of wireless bluetooth headset intelligence storage box 1 in the bluetooth headset of embodiment one, and no longer repeated here.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (10)

Translated fromChinese

1.无线蓝牙耳机智能充电收纳盒，包括用于收纳无线蓝牙耳机的收纳盒和配合盖于所述收纳盒上的盒盖，所述盒盖的一侧铰接于所述收纳盒上，所述收纳盒中设有用于容置无线蓝牙耳机的容置腔和伸入所述容置腔中以用于电连接所述无线蓝牙耳机的弹性针，其特征在于：所述盒盖包括触控屏，所述收纳盒中还安装有主板和电池，所述弹性针与所述主板电性相连，所述电池与所述主板电性相连，所述触控屏与所述主板电性相连，所述主板上设有处理器、存储器和控制所述电池对所述容置腔中存储的无线蓝牙耳机进行充电的充电电路，所述主板上还设有用于接收所述触控屏输入内容并控制所述触控屏显示内容的驱动电路，所述存储器、所述充电电路和所述驱动电路均与所述处理器电性相连。1. A wireless Bluetooth headset smart charging storage box, including a storage box for accommodating wireless Bluetooth headsets and a box cover that is matched to cover the storage box, one side of the box cover is hinged on the storage box, and the The storage box is provided with an accommodating cavity for accommodating a wireless Bluetooth headset and an elastic needle extending into the accommodating cavity for electrically connecting the wireless Bluetooth headset, characterized in that the box cover includes a touch screen , a mainboard and a battery are also installed in the storage box, the elastic pins are electrically connected to the mainboard, the battery is electrically connected to the mainboard, the touch screen is electrically connected to the mainboard, and the The mainboard is provided with a processor, a memory and a charging circuit for controlling the battery to charge the wireless Bluetooth headset stored in the accommodating cavity, and the mainboard is also provided with a charging circuit for receiving the input content of the touch screen and controlling The drive circuit for displaying content on the touch screen, the memory, the charging circuit and the drive circuit are all electrically connected to the processor.2.如权利要求1所述的无线蓝牙耳机智能充电收纳盒，其特征在于：所述无线蓝牙耳机智能充电收纳盒还包括用于拾音的麦克风，所述麦克风安装于所述收纳盒上，所述麦克风与所述主板电性相连。2. The wireless bluetooth earphone intelligent charging storage box according to claim 1, wherein the wireless bluetooth earphone intelligent charging storage box further comprises a microphone for picking up sound, the microphone is installed on the storage box, The microphone is electrically connected to the main board.3.如权利要求2所述的无线蓝牙耳机智能充电收纳盒，其特征在于：所述麦克风为呈线型阵列设置的至少两个，各所述麦克风与所述主板电性相连。3 . The smart charging storage box for wireless bluetooth earphones according to claim 2 , wherein the microphones are at least two arranged in a linear array, and each of the microphones is electrically connected to the main board. 4 .4.如权利要求2所述的无线蓝牙耳机智能充电收纳盒，其特征在于：所述收纳盒的四侧分别设有至少两个呈线型阵列设置的所述麦克风。4 . The smart charging storage box for wireless Bluetooth earphones according to claim 2 , wherein at least two microphones arranged in a linear array are respectively provided on four sides of the storage box. 5 .5.如权利要求2所述的无线蓝牙耳机智能充电收纳盒，其特征在于：所述收纳盒俯视方向呈圆形，所述麦克风为呈环形阵列设置的至少两个。5 . The smart charging storage box for wireless Bluetooth earphones according to claim 2 , wherein the storage box is circular in plan view, and the microphones are at least two arranged in an annular array. 6 .6.如权利要求5所述的无线蓝牙耳机智能充电收纳盒，其特征在于：所述收纳盒包括顶部设置呈敞口的外壳和安装于所述外壳中的收纳壳，所述容置腔设于所述收纳壳中，所述弹性针安装于所述收纳壳上，所述盒盖与所述收纳壳铰接。6 . The smart charging storage box for wireless bluetooth earphones according to claim 5 , wherein the storage box comprises an outer casing with an open top and a storage casing installed in the outer casing, and the accommodation cavity is provided with an open casing. 7 . In the storage case, the elastic needle is mounted on the storage case, and the box cover is hinged to the storage case.7.如权利要求6所述的无线蓝牙耳机智能充电收纳盒，其特征在于：所述收纳盒还包括安装于所述外壳中的中壳，所述电池安装于所述中壳中，所述主板设于所述中壳的底部，所述中壳包括支撑环、安装板和支板，所述安装板和所述支板分别设于所述支撑环内部两侧，所述安装板和所述支板分别由所述支撑环的内表面向内延伸出，所述安装板和所述支板间形成供所述容置壳穿过的通过口；所述主板支撑于所述安装板上，所述电池安装于所述支板上。7 . The smart charging storage box for wireless Bluetooth earphones according to claim 6 , wherein the storage box further comprises a middle shell installed in the outer shell, the battery is installed in the middle shell, and the battery is installed in the middle shell. 8 . The main board is arranged at the bottom of the middle shell, and the middle shell includes a support ring, a mounting plate and a support plate, the mounting plate and the support plate are respectively arranged on both sides of the inner side of the support ring, and the mounting plate and the support plate are respectively arranged on both sides inside the support ring. The support plates respectively extend inward from the inner surface of the support ring, and a passage opening for the accommodating shell to pass through is formed between the mounting plate and the support plate; the main board is supported on the mounting plate , the battery is mounted on the support plate.8.如权利要求7所述的无线蓝牙耳机智能充电收纳盒，其特征在于：各所述麦克风设于所述支撑环上。8 . The smart charging storage box for wireless bluetooth earphones according to claim 7 , wherein each of the microphones is arranged on the support ring. 9 .9.如权利要求1-8任一项所述的无线蓝牙耳机智能充电收纳盒，其特征在于：所述收纳盒中安装有控制所述容置腔中存储的无线蓝牙耳机开关的磁吸接近开关，所述磁吸接近开关与所述主板电性相连，所述盒盖中对应设有磁吸控制所述磁吸接近开关的磁性件。9. The smart charging storage box for wireless bluetooth earphones according to any one of claims 1 to 8, characterized in that: the storage box is provided with a magnetic attraction approach that controls the switches of the wireless bluetooth earphones stored in the receiving cavity The magnetic proximity switch is electrically connected with the main board, and the box cover is correspondingly provided with a magnetic component for magnetically controlling the magnetic proximity switch.10.蓝牙耳机，包括无线蓝牙耳机，其特征在于：还包括如权利要求1-9任一项所述的无线蓝牙耳机智能充电收纳盒。10. A Bluetooth headset, comprising a wireless Bluetooth headset, further comprising the wireless Bluetooth headset smart charging storage box according to any one of claims 1-9.

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