CN116233684B - Bluetooth headset charging device that can wirelessly charge - Google Patents

Abstract

The invention discloses a Bluetooth headset charging device capable of being charged wirelessly, which comprises a box body and a headset, wherein a box cover is arranged above the box body, a charging groove is formed in the box body, the charging groove comprises a placement groove and a positioning groove, the headset is placed in the placement groove, a dustproof assembly is arranged in the headset, a positioning assembly is arranged at the bottom end in the placement groove, the headset is correspondingly matched with the positioning assembly, a limiting assembly is arranged in the box body, a driving assembly is connected to the upper end of the limiting assembly in a transmission manner, and the limiting assembly is correspondingly matched with the positioning assembly. The beneficial effects of the invention are as follows: by arranging the limiting component, the earphone can be kept stable in the earphone box and cannot be automatically lifted due to accidental opening of the box cover; the positioning component can limit the earphone, so that the earphone is prevented from being directly ejected out of the charging slot to fall off when being lifted automatically; dustproof subassembly in the earphone can withstand sweat and dust and get into the chamber that charges, protects the device that charges.

Description

Bluetooth headset charging device that can wirelessly charge

Technical Field

The invention relates to the technical field of Bluetooth headset charging, in particular to a Bluetooth headset charging device capable of being charged wirelessly.

Background

At present, bluetooth headset on the market and mounting groove use magnet to adsorb and carry out automatic counterpoint, magnet in the mounting groove is the attraction state with the magnet from taking in the bluetooth headset, bluetooth headset is hugged closely the mounting groove when putting into the mounting groove under the effect of magnet, and because magnet appeal is great, if the grasp is unstable, or the finger (having stained with powder) is too smooth, grasp can not come out or lead to the earphone landing owing to grasp too hard, in addition because the mounting groove space is less, structural layout is irregular scientific, earphone exposure part is too little, grasp in no place, and traditional earphone is when using, the interface that charges exposes in the air, is corroded by sweat easily, lead to the interface damage that charges.

The automatic lifting type wireless Bluetooth headset charging device comprises a placement groove, a cabin cover and a headset cabin for placing a headset, wherein two top grooves are formed in the bottom of the headset cabin, and a linkage mechanism, a lifting block, two tilting rods and two top blocks are arranged in the placement groove; the top block is aligned with the top groove and provided with a limiting structure for limiting the top block to vertically enter and exit the top groove; the linkage mechanism is respectively connected with the bin cover and the lifting block, and the bin cover is movable to drive the lifting block to move in the vertical direction; the lifting block is provided with two overturning shafts which are respectively connected to the two tilting rods; the middle part of the tilting rod is pivoted in the placement groove, one end of the tilting rod is connected to the lifting block, and the other end of the tilting rod is connected to the jacking block. When the earphone placement groove is opened, the earphone can be automatically lifted, so that the earphone can be conveniently grasped by a user while the attraction of the magnet is eliminated.

In the scheme, if the earphone box is placed in the bag or the pocket, the earphone box is opened due to shaking caused by walking, the earphone can be automatically lifted, and the earphone can fall out of the earphone box to collide with other objects to be damaged.

Disclosure of Invention

The present invention is directed to a wireless chargeable bluetooth headset charging device, so as to solve the problems set forth in the background art.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the Bluetooth headset charging device comprises a box body and a headset, wherein a charging hole is formed in the bottom end of the headset, a charging cavity is formed above the charging hole, a metal contact is fixed on the inner wall of the charging cavity, a dustproof component with the tail end matched with the charging hole is elastically connected in the charging cavity, and when external force pushes the dustproof component, the dustproof component slides from the charging hole to the charging cavity; when the external force is removed, the tail end of the dustproof assembly is plugged with the charging hole.

As a further scheme of the invention: the utility model discloses a charging device, including charging hole, dustproof subassembly, dog sliding tray, first spring, mounting groove has been seted up in the charging hole outside, the last installation breach that has seted up of mounting groove, dustproof subassembly includes the dog, the cross-sectional area of dog is greater than the charging hole cross-sectional area, the dog sliding tray has been seted up to the charging chamber both sides, dog both sides and dog sliding tray sliding fit, dog upper end and charging chamber upper end fixedly connected with first spring.

As a further scheme of the invention: the Bluetooth earphone comprises a box body, and is characterized in that a charging groove matched with a Bluetooth earphone which is charged in a wireless mode is arranged in the box body, the charging groove comprises a placement groove and a positioning groove, a positioning component is arranged in the positioning groove, when the earphone is in contact with the positioning component, the positioning component is matched with an installation groove in a clamping mode, a limiting component is arranged in the box body, a driving component is connected with the upper end of the limiting component in a transmission mode, and when the earphone pushes a positioning block to move to the bottom end of the positioning groove, the limiting component is matched with the positioning component in a clamping mode.

As a further scheme of the invention: the electric charging device is characterized in that a charging column is vertically fixed at the bottom of the positioning groove, a charging coil is wrapped outside the charging column, the charging column is matched with the charging hole, when the bottom end of the earphone is contacted with the charging column, the charging column pushes the stop block to slide towards the inside of the charging cavity until the earphone pushes the positioning assembly to move to the bottom end of the positioning groove, and the charging coil is contacted with the metal contact.

As a further scheme of the invention: the locating component is characterized by comprising a locating block, wherein the locating groove is located below the locating groove, the locating block is in sliding fit with the locating groove, the section diameter of the locating groove is larger than that of the locating groove, a through hole is formed in the center of the locating block, the charging post vertically penetrates through the through hole, a first sliding groove is formed in the upper end of the locating block, a limiting block is in sliding fit with the first sliding groove, a limiting spring is fixedly connected between the limiting block and the side wall of the first sliding groove, the limiting spring pushes the limiting block to be relatively far away from the through hole, one side, close to the mounting groove, of the upper end of the limiting block is triangular prism-shaped, and the limiting groove is formed in the side wall of the locating block.

As a further scheme of the invention: the gear groove is arranged in the middle of the two groups of symmetrical positioning grooves, the limiting assembly comprises a rotating rod which is radially and rotationally connected in the gear groove, a first gear and a second gear are fixedly connected on the rotating rod, a first rack which is centrally symmetrical is horizontally arranged on the first gear, the first rack is meshed with the first gear, the tail end of the first rack is slidably penetrated through the side wall of the gear groove and is oppositely arranged with the limiting groove, the tail end of the first rack is correspondingly adapted with the limiting groove, and when the positioning block is positioned at the bottom end of the positioning groove, the tail end of the first rack stretches into the limiting groove, and the second gear is in transmission connection with the driving assembly.

As a further scheme of the invention: the second sliding groove is embedded in the position, opposite to the second gear, in the box body, the second sliding groove is vertically formed in the box body, and the upper end of the second sliding groove horizontally penetrates through the side face of the box body.

As a further scheme of the invention: the driving assembly comprises a second rack which is arranged in a second sliding groove in a sliding fit mode, the lower end of the second rack is tooth-shaped, the lower end of the second rack is meshed with a second gear, a push plate spring is fixedly connected between the upper end of the second rack and the inner wall of the second sliding groove, the second sliding groove horizontally extends outwards from the upper end of the second rack, and a push plate is vertically fixed at one end, far away from the second sliding groove, of the second rack.

As a further scheme of the invention: the box comprises a box body and is characterized in that a hinge rod is horizontally fixed on one side above the box body, a torque spring is sleeved on the outer side of the hinge rod, a box cover is rotatably connected with the box body through the hinge rod, and an input port is formed in the lower end of the box body.

Compared with the prior art, the invention has the beneficial effects that: through the mutual matching of the positioning component and the earphone, the earphone can be automatically lifted and limited, so that the earphone is prevented from being directly popped up and the charging slot is prevented from falling; by arranging the limiting component, the earphone can be kept stable in the earphone box and cannot be automatically lifted due to accidental opening of the box cover; meanwhile, the dustproof assembly in the earphone can resist sweat and dust from entering the earphone charging cavity, so that a charging device is protected, and the service life of the earphone is prolonged.

Drawings

Fig. 1 is a schematic structural view of a charging cartridge according to the present invention.

Fig. 2 is a schematic structural view of a charging cartridge according to the present invention.

Fig. 3 is a schematic structural diagram of an earphone according to the present invention.

Fig. 4 is a schematic structural diagram of a in the present invention.

Fig. 5 is a schematic view of a part of a structure of the earphone in the invention.

Fig. 6 is a front view of a part of the structure of the earphone in the present invention.

Fig. 7 is a front view of the structure of the normal charging of the tympanic membrane of the present invention.

Fig. 8 is a schematic structural diagram of B in the present invention.

Fig. 9 is a schematic diagram of the overall internal structure of the present invention.

Fig. 10 is a schematic structural diagram of C in the present invention.

Fig. 11 is a side view of the overall structure of the present invention.

Fig. 12 is a schematic structural diagram of D in the present invention.

In the figure: 1. a case body; 2. a box cover; 3. a placement groove; 4. an input end; 5. a hinge rod; 501. a torque spring; 6. a positioning groove; 7. an earphone; 701. a charging hole; 702. a charging chamber; 703. a stop block; 704. a metal contact; 705. a first spring; 706. a stopper sliding groove; 707. a mounting groove; 708. a mounting notch; 8. a positioning block; 801. a first sliding groove; 802. a limiting block; 803. a limit spring; 804. a limit groove; 805. a through hole; 9. a charging column; 901. a charging coil; 10. a gear groove; 1001. a rotating lever; 1002. a first gear; 1003. a first rack; 1004. a second gear; 11. a second sliding groove; 1101. a second rack; 1102. a push plate spring; 12. a push plate.

Detailed Description

Referring to fig. 1, 3-10, in an embodiment of the invention, a Bluetooth headset charging device capable of being charged wirelessly comprises a box body 1 and a headset 7, wherein a box cover 2 is arranged above the box body 1, a charging groove is formed in the box body 1, the charging groove comprises a placement groove 3 and a positioning groove 6, the headset 7 is placed in the charging groove, a dustproof component is arranged in the headset 7, sweat and dust can be prevented from entering a damaged charging device in use, a positioning component is arranged in the positioning groove 6, when the headset 7 is contacted with the positioning component, the headset 7 is clamped with the positioning component, a limiting component is arranged in the box body 1, a driving component is connected with the upper end of the limiting component in a transmission manner, and when the headset 7 pushes the positioning component to move to the bottom end of the positioning groove 6, the limiting component is clamped and matched with the positioning component.

Specifically, in the initial state, the earphone 7 is completely placed into the charging slot, the earphone 7 is matched with the positioning assembly in a clamping way, the limiting assembly is matched with the positioning assembly in a clamping way, at the moment, the earphone 7 can be charged normally, and the dustproof assembly is opened; when the earphone 7 needs to be taken out, the driving assembly drives the limiting assembly to release the limiting of the positioning assembly, the positioning assembly is lifted upwards, the earphone 7 and the positioning assembly are still clamped with each other, and at the moment, the earphone 7 stops charging; when taking out earphone 7 completely, rotate earphone 7, release locating component to earphone 7 spacing, earphone 7 can be taken out, and dustproof subassembly seals earphone 7 at this moment.

Further, a charging hole 701 is formed in the bottom end of the earphone 7, a charging cavity 702 is formed above the charging hole, a metal contact 704 is fixed on the inner wall of the charging cavity 702 and used for charging the earphone 7, a mounting groove 707 is formed in the outer side of the charging hole 701, a mounting notch 708 is formed in the mounting groove 707 and is convenient for taking out the earphone 7, the dustproof assembly comprises a stop block 703, stop block sliding grooves 706 are formed in two sides of the charging cavity 702, the two sides of the stop block 703 are in sliding fit with the stop block sliding grooves 706, and when the earphone is taken out, the stop block 703 seals the charging hole 701 and prevents sweat and dust from entering and damaging a charging device; during charging, the stop block 703 slides upwards along the stop block sliding groove 706, charging cannot be affected, and the upper end of the stop block 703 is fixedly connected with the first spring 705 with the upper end of the charging cavity 702.

Further, the bottom of the positioning slot 3 is vertically fixed with a charging post 9, a charging coil 901 is wrapped on the outer side of the charging post 9, the charging post 9 is matched with the charging hole 701, when the bottom end of the earphone 7 contacts with the charging post 9, the charging post 9 pushes the stop block 703 to slide towards the inside of the charging cavity 702, until the earphone 7 pushes the positioning assembly to move to the bottom end of the positioning slot 6, the charging coil 901 contacts with the metal contact 704, and the method of charging the metal coil 901 and the metal contact 704 through mutual contact is a prior art in the charging field, and redundant description is omitted herein.

Further, the positioning assembly comprises a positioning block 8, the positioning groove 6 is located below the placement groove 3, the positioning block 8 is in sliding fit with the positioning groove 6, the section diameter of the positioning groove 6 is larger than that of the placement groove 3, when the positioning block 8 is lifted upwards, the positioning block 8 is limited, the earphone 7 is prevented from being directly ejected and dropped, a through hole 805 is formed in the center of the positioning block 8, the charging column 9 vertically penetrates through the through hole 805, a first sliding groove 801 is formed in the upper end of the positioning block 8, a limiting block 802 is in sliding fit with the first sliding groove 801, and when the earphone 7 is contacted with the positioning block 8, the limiting block 802 is clamped with the mounting groove 707; when the earphone 7 rotates to the position where the mounting notch 708 corresponds to the limiting block 802, the limiting block 802 can be separated from the mounting groove 707, the limiting block 707 is not limited any more, the limiting springs 803 are fixedly connected to the side walls of the limiting block 802 and the first sliding groove 801, the limiting springs 803 push the two groups of limiting blocks 802 to be far away from the through holes 805 relatively, one side, close to the mounting groove 707, of the upper end of the limiting block 802 is in a triangular prism shape, and the side wall of the positioning block 8 is provided with the limiting groove 804.

In the actual use process, when the earphone 7 is gradually put into the mounting groove 3, the mounting groove 707 extrudes the limiting block 802 along the inclined plane direction of the upper end of the limiting block 802, drives the limiting block 802 to slide along the first sliding groove 801 and extrude the limiting spring 803, meanwhile, the charging post 9 drives the pushing baffle 703 to slide upwards along the limiting block sliding groove 706 and compress the first spring 705, after the upper end of the limiting block 802 completely enters the mounting groove 707, the limiting spring 803 is restored to the original state, the limiting block 802 is pushed to slide along the same direction of the limiting spring 803, and the limiting block 802 and the mounting groove 707 are mutually clamped, so that the earphone 7 is fixed, at the moment, the charging post 9 completely enters the charging cavity 702, and the charging coil 901 completely contacts with the metal contact 704, so that the earphone 7 can be charged; when the earphone 7 is taken out of the mounting groove 3, the first spring 705 is restored, the baffle 703 is pushed downwards along the stop sliding groove 706, the baffle 3 acts on the charging post 9, the earphone 7 is lifted upwards, the positioning block 8 is driven to be lifted upwards, when the positioning block 8 is lifted to the upper end of the positioning groove 6, the positioning block 8 stops lifting, at the moment, the earphone 7 also stops lifting, the earphone 7 is vertically rotated, the mounting notch 708 corresponds to the upper end of the limiting block 802, the positioning of the positioning block 8 on the earphone 7 is relieved under the elastic action of the first spring 705, the earphone 7 can be taken out, and when the earphone 7 is normally used, the first spring 705 always pushes the baffle 703 to cover the charging hole 701, sweat and dust are prevented from entering the charging cavity 702, and electronic devices are damaged.

As shown in fig. 1 and fig. 9-12, a gear groove 10 is formed in the box body 1 in the middle of the positioning groove 6, the limiting component comprises a rotating rod which is radially and rotatably connected in the gear groove 10, a first gear 1002 and a second gear 1004 are fixedly connected to the rotating rod 1001, a first rack 1003 which is centrally symmetrical is horizontally arranged on the first gear 1002, the first rack 1003 is meshed with the first gear 1002, the tail end of the first rack 1003 penetrates through the side wall of the gear groove 10 in a sliding manner and is opposite to the limiting groove 804, the tail end of the first rack 1003 is correspondingly matched with the limiting groove 804, when the positioning block 8 is positioned at the bottom end of the positioning groove 6, the tail end of the first rack 1003 stretches into the limiting groove 804 to limit the positioning block 8, and the phenomenon that when the earphone 7 is positioned in the box body, the earphone 7 is automatically popped up due to the fact that the box cover 2 is opened is avoided; when the positioning block 8 is lifted upwards, the tail end of the first rack 1003 moves out of the limiting groove 804, limiting of the positioning block 8 is relieved, and the second gear 1004 is in transmission connection with the driving assembly.

Further, a second sliding groove 11 is embedded in the box body 1 at a position opposite to the second gear 1004, the second sliding groove 11 is vertically opened in the box body 1, and the upper end of the second sliding groove 11 horizontally penetrates through the side surface of the box body 1.

Further, the drive assembly includes the second rack 1101 that sliding fit set up in second sliding tray 11, the lower extreme of second rack 1101 is the profile of tooth, second rack 1101 lower extreme and second gear 1104 intermeshing, the upper end of second rack 1101 and second sliding tray 11 upper end inner wall fixedly connected with push pedal spring 1102, second rack 1101 upper end level outwards extends second sliding tray 11, the second rack 1101 is kept away from the vertical push pedal 12 that is fixed with in one end of second sliding tray 11, push pedal 12 outside surface is the wave, can increase with the frictional force between the hand.

In the actual use process, when the earphone 7 is normally charged in the earphone bin 3, the earphone 7 is clamped and fixed with the positioning block 8, the positioning block 8 is limited at the bottom of the positioning groove 6 by the first rack 1103 through the limiting groove 601, at this time, when the box body 1 is placed in a bag or a pocket, if the box cover 2 is opened due to shaking caused by walking, the positioning block 8 is limited by the first rack 1103 and cannot be lifted, so that the earphone 7 cannot be ejected, and normal charging can be continued; when the earphone 7 needs to be taken out, the box cover 2 is opened, the push plate 12 is stirred downwards, the second rack 1101 is driven to slide downwards along the second sliding groove 11, the push plate spring 1102 is stretched, the second gear 1104 is driven to rotate clockwise, the first gear 1102 is driven to rotate clockwise through the rotating rod 1101, the first rack 1103 is driven to move out of the limiting groove 804, the limit on the positioning block 8 is relieved, the positioning block 8 can be lifted, after the earphone 7 is taken out, the push plate 12 is loosened, the push plate spring 1102 is restored to the original state, the second rack 1101 is driven to slide upwards along the second sliding groove 11, the second gear 1104 is driven to rotate anticlockwise, the first gear 1102 is driven to rotate anticlockwise through the rotating rod 1101, the first rack 1103 is driven to enter the limiting groove 804, and the positioning block 8 is limited again.

As shown in fig. 2, a hinge rod 5 is horizontally fixed on one side above the box body 1, a torque spring 501 is sleeved on the outer side of the hinge rod 5, the box cover 2 is rotationally connected with the box body 1 through the hinge rod 5, an input end 4 is arranged at the lower end of the box body 1, the charging box is a common charging box in the existing product, a conventional electricity storage device is arranged inside the box body 1, the input end is an existing Type-C interface, an external power supply charges the charging box through the input end 4, and the charging box stores electric quantity to charge a bluetooth headset, so that excessive details are not needed.

The working principle of the invention is as follows: when the earphone is placed in the charging groove, the mounting groove extrudes the limiting block along the inclined plane direction of the upper end of the limiting block to drive the limiting block to slide along the first sliding groove and extrude the limiting spring, meanwhile, the charging post pushes the baffle to slide upwards along the sliding groove of the limiting block and compress the first spring, after the upper end of the limiting block completely enters the mounting groove, the limiting spring is restored to the original state, the limiting block is pushed to slide along the same direction of the limiting spring, and the limiting block and the mounting groove are mutually clamped, so that the earphone is fixed, at the moment, the charging post completely enters the charging cavity, and the charging coil completely contacts with the metal contact, so that the earphone can be charged; when the earphone is taken out of the mounting groove, the push plate is downwards shifted to drive the second rack to slide downwards along the second sliding groove, the push plate spring is stretched to drive the second gear to rotate clockwise, the first gear is driven to rotate clockwise through the rotating rod to drive the first rack to move out of the limiting groove, limiting of the positioning block is relieved, at the moment, the first spring is restored to be original, the baffle is downwards pushed along the stop block sliding groove, the baffle acts on the charging post in a reaction mode, the earphone is upwards lifted to drive the positioning block to be upwards lifted, when the positioning block is lifted to the upper end of the positioning groove, the positioning block stops lifting, the earphone also stops lifting, and the earphone is vertically rotated, so that the mounting notch corresponds to the upper end of the limiting block, positioning of the positioning block on the earphone is relieved, and the earphone can be taken out; after the earphone is taken out, the push plate is loosened, the push plate spring is restored to the original state, the second rack is driven to slide upwards along the second sliding groove, the second gear is driven to rotate anticlockwise, the first gear is driven to rotate anticlockwise through the rotating rod, the first rack is driven to enter the limiting groove, and the positioning block is limited again; when the charging box is placed in a bag or a pocket, if the box cover is opened due to shaking caused by walking, the positioning block is limited by the first rack and cannot be lifted, so that the earphone cannot be ejected.

Claims (5)

1. The Bluetooth headset charging device capable of being charged wirelessly comprises a headset and a box body, and is characterized in that a charging hole is formed in the bottom end of the headset, a charging cavity is formed above the charging hole, a metal contact is fixed on the inner wall of the charging cavity, a dustproof component with the tail end matched with the charging hole is elastically connected in the charging cavity, a mounting groove is formed in the outer side of the charging hole, a mounting notch is formed in the mounting groove, the dustproof component comprises a stop block, the cross section area of the stop block is larger than that of the charging hole, stop block sliding grooves are formed in the two sides of the charging cavity, two sides of the stop block are in sliding fit with the stop block sliding grooves, a first spring is fixedly connected to the upper end of the stop block, a charging groove matched with the headset is arranged in the box body, the charging groove comprises a mounting groove and a positioning groove, a positioning component is arranged in the positioning groove, a limiting component is arranged in the positioning groove, when the headset is in contact with the positioning component, the mounting groove is in clamping fit with the mounting groove, a driving component is arranged in the box body, the upper end of the limiting component is in transmission connection with the driving component, when the headset pushes the positioning component to move to the positioning component, the diameter of the limiting block is far away from the first spring, the diameter of the limiting block is matched with the first positioning groove, the first positioning groove is arranged in the limiting block sliding groove, the limiting block is correspondingly, the diameter of the first positioning groove is arranged in the limiting block sliding groove, the limiting block is far from the limiting block sliding between the limiting block, and the first positioning groove is arranged in the limiting block, and the first positioning groove is matched with the limiting block and the first positioning groove is matched with the positioning groove, and the positioning groove is matched with the positioning groove and the positioning groove is in the positioning groove and the positioning groove. The upper end of the limiting block is in a triangular prism shape near one side of the mounting groove, a limiting groove is formed in the side wall of the positioning block, a gear groove is formed in the box body in the middle of the positioning groove, the limiting component comprises a rotating rod which is radially and rotatably connected in the gear groove, a first gear and a second gear are fixedly connected on the rotating rod, a first rack which is centrally symmetrical is horizontally arranged on the first gear up and down, the first rack is meshed with the first gear, the tail end of the first rack penetrates through the side wall of the gear groove in a sliding mode and is opposite to the limiting groove, the tail end of the first rack is correspondingly matched with the limiting groove, when the positioning block is located at the bottom end of the positioning groove, the tail end of the first rack stretches into the limiting groove, and the second gear is connected with the driving assembly in a transmission mode.

2. The Bluetooth headset charging device capable of being charged wirelessly according to claim 1, wherein the charging post is vertically fixed at the bottom of the positioning groove, a charging coil is wrapped outside the charging post, the charging post is matched with the charging hole, when the bottom end of the headset is contacted with the charging post, the charging post pushes the stop block to slide towards the inside of the charging cavity until the limiting assembly is matched with the positioning assembly in a clamping mode, and the charging coil is contacted with the metal contact.

3. The Bluetooth headset charging device capable of being charged wirelessly according to claim 1, wherein a second sliding groove is embedded in the box body at a position opposite to the second gear, the second sliding groove is vertically arranged in the box body, and the upper end of the second sliding groove is horizontally communicated with the side face of the box body.

4. The Bluetooth headset charging device capable of being charged in a wireless mode according to claim 3, wherein the driving assembly comprises a second rack arranged in the second sliding groove in a sliding fit mode, the lower end of the second rack is toothed, the lower end of the second rack is meshed with the second gear, a push plate spring is fixedly connected between the upper end of the second rack and the inner wall of the second sliding groove, the second sliding groove horizontally extends outwards from the upper end of the second rack, and a push plate is vertically fixed at one end, far away from the second sliding groove, of the second rack.

5. The Bluetooth headset charging device capable of being charged wirelessly according to claim 4, wherein a hinge rod is horizontally fixed on one side above the box body, a torque spring is sleeved on the outer side of the hinge rod, the box cover is connected with the box body in a rotating manner through the hinge rod, and an input port is arranged at the lower end of the box body.