CN220108172U - Wireless Bluetooth headset storehouse that charges - Google Patents

Abstract

The utility model relates to the technical field of Bluetooth headphones, in particular to a wireless Bluetooth headphone charging bin which comprises a bin body, a bin cover, a hinge part and a rotating shaft rotationally connected with the hinge part, wherein the bin body comprises an upper bin body, a lower bin body, a cavity, a charging assembly arranged in the cavity, a containing groove concavely arranged inwards from the outer side wall of the upper bin body, two first mounting seats respectively connected with the upper bin body and positioned in the cavity, and grooves concavely arranged inwards from the side walls of the first mounting seats, and two ends of the rotating shaft are rotationally connected with the inner walls of the two grooves respectively; the lower bin body can seal the opening of the groove; the accommodating groove comprises a first accommodating part, a second accommodating part and a third accommodating part. The rotating shaft is convenient to connect and assemble with the bin body and the bin cover. The third accommodating part is convenient for the fingers of the user to directly contact with the earphone in the first accommodating part or/and the second accommodating part. The processing of the accommodating groove is convenient and simple, and the structure of the upper bin body is simplified.

Description

Wireless Bluetooth headset storehouse that charges

Technical Field

The utility model relates to the technical field of Bluetooth headphones, in particular to a wireless Bluetooth headphone charging bin.

Background

The Bluetooth headset is to apply the Bluetooth technology to the hands-free headset, so that a user can avoid the trouble of annoying wires and can easily talk in various modes. Since the advent of bluetooth headsets, it has been a good tool for the mobile commerce family to increase efficiency. The patent application name is CN202022829094.7, the patent application name is a lid flip structure of earphone charging box, disclose the box body and with the lid of box body pin joint, the shaping has a pin joint portion on the lid, is provided with the installation department on the box body, pin joint portion both sides set up respectively and be provided with the pivot, pin joint portion on offer one and keep away the position, be formed with the position intercommunication through hole of dodging with this, a pivot is from this position of dodging from inside to outside to insert in the through hole to stretch out by this through hole and the cooperation of the pin joint hole that corresponds on the installation department. After the pin joint portion and the installation portion are in butt joint, the first rotating shaft is placed in the groove from the avoiding position, and the first rotating shaft is pushed to move from inside to outside in the direction of the through hole by the tool until the pin joint section of the first rotating shaft extends out of the through hole and then is just inserted into the corresponding pin joint hole on the installation portion, and therefore pin joint assembly between the box body and the cover body is achieved. The connection structure of the first rotating shaft and the pivoting part in the patent application is complex, the first rotating shaft needs to be pushed out into the corresponding pivoting hole of the mounting part from the penetrating hole of the pivoting part through a tool, the connection of the box body and the cover body can be completed, the pivoting step of the box body and the cover body is complex, and the mounting of the box body and the cover body is inconvenient. In addition, the surface shaping of box body has two to charge and holds the chamber, in order to conveniently take, need correspond to set up two take the breach that communicate with charging capacity chamber respectively, just can make things convenient for the earphone to take out from charging the chamber, the processing of box body is inconvenient, the structure is complicated. Thus, the drawbacks are quite apparent and there is a need to provide a solution.

Disclosure of Invention

In order to solve the technical problems, the utility model aims to provide a wireless Bluetooth headset charging bin.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the wireless Bluetooth headset charging bin comprises a bin body, a bin cover, a hinge part arranged on the bin cover, and a rotating shaft with the middle part rotationally connected with the hinge part, wherein the bin body comprises an upper bin body, a lower bin body clamped with the upper bin body, a cavity formed by surrounding the inner side walls of the upper bin body and the lower bin body, a charging assembly arranged in the cavity, a containing groove concavely arranged on the outer side wall of the upper bin body inwards, two first mounting seats respectively connected with the upper bin body and positioned in the cavity, and a groove concavely arranged on the side wall of the first mounting seats inwards, and two ends of the rotating shaft respectively protrude into the two grooves and are rotationally connected with the inner walls of the two grooves; the lower bin body is sleeved outside the first mounting seat and can seal the opening of the groove; the accommodating groove comprises a first accommodating part, a second accommodating part and a third accommodating part which is respectively communicated with the first accommodating part and the second accommodating part.

Further, the bin body further comprises a first clamping part connected with the upper bin body and positioned in the cavity and a second clamping part connected with the lower bin body and positioned in the cavity, and the first clamping part can be matched with the second clamping part in a concave-convex manner

Further, the bin body further comprises a second mounting seat arranged on the inner side wall of the upper bin body, a mounting groove arranged on the second mounting seat and a torsion spring movably arranged in the mounting groove and rotationally connected with the hinge part.

Further, the bin body further comprises a plurality of limiting assemblies, wherein each limiting assembly comprises a first reinforcing rib, a second reinforcing rib and a gap between the first reinforcing rib and the second reinforcing rib, wherein the first reinforcing rib and the second reinforcing rib are arranged in the mounting groove up and down; the torsion spring comprises a first connecting part rotationally connected with the hinge part, a second connecting part rotationally arranged in the gap and a torsion spring part connected with the first connecting part and the second connecting part.

Further, the charging assembly comprises a battery, a circuit board, charging terminals and USB charging interfaces which are respectively arranged in the cavity, and the number of the charging terminals is two; the two charging terminals respectively protrude into the first accommodating part and the second accommodating part; the USB charging interface protrudes out of the lower bin body; and the charging terminal, the battery and the USB charging interface are respectively and electrically connected with the circuit board.

Further, wireless bluetooth headset charges the storehouse and still includes the display screen that sets up on the lateral wall of last storehouse body, display screen and circuit board electricity are connected.

Further, the charging assembly further comprises a plurality of first connecting holes arranged on the circuit board and a plurality of second connecting holes arranged on the second mounting seat, and the first connecting holes and the second connecting holes are correspondingly communicated one by one.

Further, the charging assembly further comprises a plurality of positioning holes arranged on the circuit board and a plurality of positioning columns arranged on the second mounting seat, and the positioning columns are inserted into the positioning holes in a one-to-one correspondence manner.

The utility model has the beneficial effects that: the lower bin body is blocked at the opening of the groove, the rotating shaft is convenient to connect with the bin body and the bin cover, the lower bin body is convenient to assemble, and the connecting structure of the rotating shaft, the bin cover and the bin body is simple and compact. The third accommodating part is used for facilitating the fingers of a user to extend in, so that the fingers of the user can be in direct contact with the earphone in the first accommodating part or/and the second accommodating part, and the earphone can be conveniently taken out from the first accommodating part or/and the second accommodating part respectively. The first accommodating part is communicated with the second accommodating part through the third accommodating part, the accommodating groove is of an integrated structure, and the processing of the accommodating groove is convenient and simple, so that the structure of the upper bin body is simplified.

Drawings

Fig. 1 is a state diagram of the use of the present utility model.

Fig. 2 is a schematic perspective view of the present utility model.

Fig. 3 is a partial exploded view of the present utility model.

Fig. 4 is a cross-sectional view of the present utility model.

Fig. 5 is a partial exploded view of the present utility model.

Reference numerals illustrate:

1. a bin cover; 2. a bin body; 3. a hinge part; 4. a rotating shaft; 5. a loading bin body; 6. a lower bin body; 7. a receiving groove; 8. a first mount; 9. a groove; 10. a cavity; 11. a charging assembly; 12. a first accommodating portion; 13. a second accommodating portion; 14. a third accommodating portion; 15. a first clamping part; 16. a second clamping part; 17. a second mounting base; 18. a mounting groove; 19. a torsion spring; 20. a limit component; 21. a first reinforcing rib; 22. a second reinforcing rib; 23. a gap; 24. a first connection portion; 25. a second connecting portion; 26. a torsion spring part; 27. a battery; 28. a USB charging interface; 29. a circuit board; 30. a charging terminal; 31. a display screen; 32. a first connection hole; 33. a second connection hole; 34. positioning holes; 35. and positioning columns.

Detailed Description

The utility model will be further described with reference to examples and drawings, to which reference is made, but which are not intended to limit the scope of the utility model.

As shown in fig. 1 to 5, the wireless bluetooth headset charging bin provided by the utility model comprises a bin body 2, a bin cover 1, a hinge part 3 arranged on the bin cover 1, and a rotating shaft 4 with the middle part inserted in the hinge part 3 and rotationally connected with the hinge part 3, wherein the bin body 2 comprises an upper bin body 5, a lower bin body 6 sleeved outside the bottom end of the upper bin body 5 and clamped with the upper bin body 5, a cavity 10 surrounded by the inner side walls of the upper bin body 5 and the lower bin body 6, a charging assembly 11 arranged in the cavity 10, a containing groove 7 concaved inwards by the outer side wall of the upper bin body 5, two first mounting seats 8 respectively connected with the upper bin body 5 and positioned in the cavity 10, and a groove 9 concaved inwards by the side wall of the first mounting seat 8 close to the lower bin body 6, and two ends of the rotating shaft 4 respectively protrude into the two grooves 9 and are rotationally connected with the inner walls of the two grooves 9 respectively; the lower bin body 6 is sleeved outside the first mounting seat 8 and can seal the opening of the groove 9; the hinge part 3 is rotatably arranged between the upper bin body 5 and the lower bin body 6; the accommodating groove 7 comprises a first accommodating part 12, a second accommodating part 13 and a third accommodating part 14 which is respectively communicated with the first accommodating part 12 and the second accommodating part 13. The first accommodating portion 12 and the second accommodating portion 13 can be used for accommodating headphones, and headphones located in the first accommodating portion 12 and the second accommodating portion 13 can be electrically connected with the charging assembly 11 respectively.

Specifically, the bin body 2 further comprises a first clamping portion 15 connected with the upper bin body 5 and located in the cavity 10, and a second clamping portion 16 connected with the lower bin body 6 and located in the cavity 10, the first clamping portion 15 can be in concave-convex fit with the second clamping portion 16, and the lower bin body 6 is sleeved outside the first clamping portion 15. In the actual installation, insert axis of rotation 4 in locating articulated portion 3, then stretch into two recess 9 with the both ends of axis of rotation 4 respectively from the opening part of two recess 9 in, be connected with the inside wall of last storehouse body 5 with charging module 11, then outside locating first joint portion 15 and first mount pad 8 with lower storehouse body 6 cover for second joint portion 16 and first joint portion 15 joint, thereby accomplish the connection of lower storehouse body 6 and last storehouse body 5, simultaneously, carry out the shutoff through the opening of lower storehouse body 6 to recess 9, make the both ends of axis of rotation 4 be restricted in recess 9, and then accomplish the connection of articulated portion 3, storehouse lid 1 and storehouse body 2, the equipment in wireless bluetooth earphone storehouse of charging is accomplished. The lower bin body 6 is blocked at the opening of the groove 9, the rotating shaft 4 is convenient to connect with the bin body 2 and the bin cover 1, the assembly is convenient, and the connecting structure of the rotating shaft 4, the bin cover 1 and the bin body 2 is simple and compact. In addition, two earphones are respectively placed in the first accommodating portion 12 and the second accommodating portion 13, the third accommodating portion 14 is used for facilitating the insertion of fingers of a user, so that the fingers of the user can be conveniently and directly contacted with the earphones in the first accommodating portion 12 or/and the second accommodating portion 13, and the earphones can be conveniently taken out from the first accommodating portion 12 or/and the second accommodating portion 13 respectively. The first accommodating part 12 is communicated with the second accommodating part 13 through the third accommodating part 14, the accommodating groove 7 is of an integrated structure, the processing of the accommodating groove 7 is convenient and simple, and the structure of the upper bin body 5 is simplified.

Further, the bin body 2 further comprises a second mounting seat 17 arranged on the inner side wall of the upper bin body 5, a mounting groove 18 arranged on the second mounting seat 17 and a torsion spring 19 movably arranged in the mounting groove 18, and the torsion spring 19 is inserted into the hinge part 3 and is rotationally connected with the hinge part 3. The torsion spring 19 is movably arranged in the mounting groove 18 and is abutted against the inner wall of the mounting groove 18.

Specifically, the bin body 2 further includes a plurality of limiting assemblies 20, where the limiting assemblies 20 include a first reinforcing rib 21 and a second reinforcing rib 22 that are disposed in the mounting groove 18 up and down, and a gap 23 between the first reinforcing rib 21 and the second reinforcing rib 22; the torsion spring 19 includes a first connecting portion 24 rotatably connected to the hinge portion 3, a second connecting portion 25 rotatably provided in the gap 23, and a torsion spring portion 26 connected to the first connecting portion 24 and the second connecting portion 25. In the actual use process, the first connecting part 24 and the rotating shaft 4 are respectively inserted into the hinge part 3 and are rotationally connected with the hinge part 3, then the second connecting part 25 is rotationally placed in the gap 23, two ends of the rotating shaft 4 are respectively accommodated in the groove 9, then the upper bin body 5 and the lower bin body 6 are clamped, and the torsion spring 19 is convenient to install and connect. The hinged part 3 and the first connecting part 24 are driven to rotate by rotating the bin cover 1, so that the bin cover 1 can perform uncovering or closing movement relative to the upper bin body 5, the hinged part 3 can drive the torsion spring part 26 to twist and the second connecting part 25 to rotate through the first connecting part 24 in the rotating process, the second connecting part 25 rotates in the gap 23, and the second connecting part 25 is not easy to deviate or misplace in the mounting groove 18. Under the torsion force of the torsion spring 19, the bin cover 1 can be kept in an uncovering or closing state relative to the upper bin body 5, and the storage and the taking of the earphone are facilitated.

As shown in fig. 2 and 4, further, the charging assembly 11 includes a battery 27, a circuit board 29, charging terminals 30 and a USB charging interface 28 respectively disposed in the cavity 10, and the number of the charging terminals 30 is two; the two charging terminals 30 respectively protrude into the first accommodating part 12 and the second accommodating part 13; the USB charging interface 28 protrudes out of the lower bin body 6; the charging terminal 30, the battery 27 and the USB charging interface 28 are electrically connected to a circuit board 29, respectively.

In the actual use process, the external power supply supplies power to the battery 27 through the USB charging interface 28 and the circuit board 29, and the battery 27 supplies power to the earphones in the first accommodating part 12 and the second accommodating part 13 through the circuit board 29 and the charging terminal 30. The charging assembly 11 has a simple structure, and the battery 27 has an electric storage function, so that the duration of the earphone can be effectively prolonged.

Further, the wireless bluetooth headset charging bin further comprises a display screen 31 arranged on the outer side wall of the upper bin body 5, and the display screen 31 is electrically connected with the circuit board 29.

In the actual use process, the display screen 31 is used for displaying the residual electric quantity of the battery 27 and/or the earphone; the battery 27 is used to power the circuit board 29, the display screen 31, and the charging terminal 30. A display screen 31 is added to facilitate the user's visual understanding of the battery 27 and earphone charge. The display screen 31 is disposed between the first accommodating portion 12 and the second accommodating portion 13, so that the structure of the upper bin 5 is more compact.

Further, the charging assembly 11 further includes a plurality of first connection holes 32 disposed on the circuit board 29 and a plurality of second connection holes 33 disposed on the second mounting seat 17, where the plurality of first connection holes 32 and the plurality of second connection holes 33 are in one-to-one correspondence.

Specifically, the charging assembly 11 further includes a plurality of positioning holes 34 disposed on the circuit board 29 and a plurality of positioning posts 35 disposed on the second mounting seat 17, where the plurality of positioning posts 35 are inserted into the plurality of positioning holes 34 in a one-to-one correspondence. In the actual installation process, the positioning column 35 is inserted into the positioning hole 34, so that the position of the circuit board 29 arranged in the gun body is limited, and the position of the circuit board 29 arranged in the cavity 10 is accurate; at this time, the first and second connection holes 32 and 33 communicate, and then pass through the first and second connection holes 32 and 33 in sequence by a locking member (screw, bolt or bolt, etc.), thereby firmly connecting the circuit board 29 and the second mount 17. The connection of the circuit board 29 is convenient.

All technical features in the embodiment can be freely combined according to actual needs.

The foregoing embodiments are preferred embodiments of the present utility model, and in addition, the present utility model may be implemented in other ways, and any obvious substitution is within the scope of the present utility model without departing from the concept of the present utility model.

Claims (8)

1. A wireless bluetooth headset storehouse that charges, its characterized in that: the novel energy-saving type energy-saving device comprises a bin body (2), a bin cover (1), a hinging part (3) arranged on the bin cover (1) and a rotating shaft (4) with the hinging part (3) in the middle, wherein the rotating shaft (4) is rotationally connected with the hinging part (3), the bin body (2) comprises an upper bin body (5), a lower bin body (6) which is clamped with the upper bin body (5), a cavity (10) formed by surrounding the inner side walls of the upper bin body (5) and the lower bin body (6), a charging assembly (11) arranged in the cavity (10), a containing groove (7) which is concavely arranged on the outer side wall of the upper bin body (5), two first mounting seats (8) which are respectively connected with the upper bin body (5) and are concavely arranged on the cavity (10), and grooves (9) which are concavely arranged on the side walls of the first mounting seats (8), wherein two ends of the rotating shaft (4) respectively protrude into the two grooves (9) and are rotationally connected with the inner walls of the two grooves (9) respectively; the lower bin body (6) is sleeved outside the first mounting seat (8) and can seal the opening of the groove (9); the accommodating groove (7) comprises a first accommodating part (12), a second accommodating part (13) and a third accommodating part (14) which is respectively communicated with the first accommodating part (12) and the second accommodating part (13).

2. The wireless bluetooth headset charging bin of claim 1, wherein: the bin body (2) further comprises a first clamping part (15) connected with the upper bin body (5) and located in the cavity (10) and a second clamping part (16) connected with the lower bin body (6) and located in the cavity (10), and the first clamping part (15) can be matched with the second clamping part (16) in a concave-convex mode.

3. The wireless bluetooth headset charging bin of claim 1, wherein: the bin body (2) further comprises a second mounting seat (17) arranged on the inner side wall of the upper bin body (5), a mounting groove (18) arranged on the second mounting seat (17) and a torsion spring (19) movably arranged in the mounting groove (18) and rotationally connected with the hinge part (3).

4. A wireless bluetooth headset charging bin according to claim 3, wherein: the bin body (2) further comprises a plurality of limiting assemblies (20), wherein the limiting assemblies (20) comprise a first reinforcing rib (21) and a second reinforcing rib (22) which are arranged in the mounting groove (18) up and down, and gaps (23) between the first reinforcing rib (21) and the second reinforcing rib (22); the torsion spring (19) comprises a first connecting part (24) rotationally connected with the hinge part (3), a second connecting part (25) rotationally arranged in the gap (23), and a torsion spring part (26) connected with the first connecting part (24) and the second connecting part (25).

5. A wireless bluetooth headset charging bin according to claim 3, wherein: the charging assembly (11) comprises a battery (27), a circuit board (29), charging terminals (30) and USB charging interfaces (28), wherein the battery (27), the circuit board (29), the charging terminals (30) and the USB charging interfaces (28) are respectively arranged in the cavity (10), and the number of the charging terminals (30) is two; the two charging terminals (30) respectively protrude into the first accommodating part (12) and the second accommodating part (13); the USB charging interface (28) protrudes out of the lower bin body (6); the charging terminal (30), the battery (27) and the USB charging interface (28) are respectively and electrically connected with the circuit board (29).

6. The wireless bluetooth headset charging bin of claim 5, wherein: the wireless Bluetooth headset charging bin further comprises a display screen (31) arranged on the outer side wall of the upper bin body (5), and the display screen (31) is electrically connected with the circuit board (29).

7. The wireless bluetooth headset charging bin of claim 6, wherein: the charging assembly (11) further comprises a plurality of first connecting holes (32) arranged on the circuit board (29) and a plurality of second connecting holes (33) arranged on the second mounting seat (17), and the first connecting holes (32) and the second connecting holes (33) are correspondingly communicated one by one.

8. The wireless bluetooth headset charging bin of claim 6, wherein: the charging assembly (11) further comprises a plurality of positioning holes (34) arranged on the circuit board (29) and a plurality of positioning columns (35) arranged on the second mounting seat (17), and the positioning columns (35) are inserted into the positioning holes (34) in a one-to-one correspondence manner.