CN113141045A

CN113141045A - Charger for wireless charging of mobile phone and use method thereof

Info

Publication number: CN113141045A
Application number: CN202110474896.7A
Authority: CN
Inventors: 张剑平
Original assignee: Shenzhen Zhongpin Technology Co ltd
Current assignee: Shenzhen Zhongpin Technology Co ltd
Priority date: 2021-04-29
Filing date: 2021-04-29
Publication date: 2021-07-20

Abstract

The invention discloses a charger for wireless charging of a mobile phone, which comprises a charging chassis, wherein four anti-skidding support legs are arranged on the bottom surface of the charging chassis close to the periphery, rubber anti-skidding pads are arranged on the bottom surfaces of the anti-skidding support legs, a charging magnetic disc is arranged on the top surface of the charging chassis, a side pull buckle penetrating through the side surface of the charging chassis is arranged on one side of the charging chassis close to the bottom end, a connecting plug penetrating through the side surface of the charging chassis is arranged on the other side of the charging chassis close to the bottom end, a power transmission line is arranged on one side of the connecting plug close to the middle, and a charging plug is arranged at one end of the power transmission line; the wireless charging device has better capability of wirelessly charging the mobile phone, ensures that the connection between the data line and the wireless charging assembly is more stable, is convenient to maintain the wireless charging assembly when the wireless charging assembly breaks down, has better heat dissipation capability and prolongs the service life of the wireless charger.

Description

Charger for wireless charging of mobile phone and use method thereof

Technical Field

The invention relates to the field of wireless chargers, in particular to a charger for wireless charging of a mobile phone and a using method thereof.

Background

The charger for wireless charging of the mobile phone is a charger which is connected to terminal equipment needing charging without a traditional charging power line, adopts the latest wireless charging technology, transmits electric energy by using an alternating magnetic field generated between coils, and an inductive coupling technology can become a bridge for connecting a charging base station and the equipment.

The existing charger for wireless charging of the mobile phone has certain disadvantages in use, and the existing charger for wireless charging of the mobile phone is inconvenient to disassemble and assemble a wireless charging assembly and maintain the wireless charging assembly when in use; when the existing charger for wireless charging of the mobile phone is used, the connection between the data line and the wireless charging assembly is not tight enough, so that the wireless charging assembly is easily disconnected from the data line when the wireless charging assembly is driven to move; the existing charger for wireless charging of the mobile phone does not have the heat dissipation capability when in use, can not timely dissipate heat generated during charging, easily causes the heating and scalding of the wireless charging assembly, shortens the service life of the wireless charging assembly, and brings certain influence to actual use.

Disclosure of Invention

The invention aims to provide a charger for wireless charging of a mobile phone and a using method thereof, which solve the problems that the existing charger for wireless charging of the mobile phone is inconvenient to disassemble and assemble a wireless charging assembly and maintain the wireless charging assembly when in use; when the existing charger for wireless charging of the mobile phone is used, the connection between the data line and the wireless charging assembly is not tight enough, so that the wireless charging assembly is easily disconnected from the data line when the wireless charging assembly is driven to move; the existing charger for wireless charging of the mobile phone does not have the heat dissipation capability when in use, and heat generated during charging cannot be dissipated timely, so that the wireless charging assembly is easy to generate heat and scald, and the service life of the wireless charging assembly is shortened.

The purpose of the invention can be realized by the following technical scheme:

a charger for wireless charging of a mobile phone comprises a charging chassis, wherein four anti-slip support legs are arranged on the bottom surface of the charging chassis near the periphery, rubber anti-slip pads are arranged on the bottom surfaces of the anti-slip support legs, a charging magnetic disc is arranged on the top surface of the charging chassis, a side pull buckle penetrating through the side surface of the charging chassis is arranged on one side of the charging chassis near the bottom end, a connecting plug penetrating through the side surface of the charging chassis is arranged on the other side of the charging chassis near the bottom end, a power transmission line is arranged on one side of the connecting plug near the middle, a charging plug is arranged at one end of the power transmission line, a charging connector is arranged on the periphery of the charging plug near one end, and two charging inserting strips are arranged on one side of the charging connector near the middle;

the bottom surface and the top surface of the side pull buckle are respectively provided with an anti-skidding rubber pad, one side of the side pull buckle is provided with a circuit board, the top surface of the circuit board is provided with a plurality of electroplating circuits, one side of the charging chassis is provided with an inserting groove near the bottom end, the side pull buckle, the anti-skidding rubber pads and the circuit board are all positioned in the inserting groove, a connecting circuit is connected between the circuit board and the inserting groove, and the other side of the charging chassis is provided with a charging port near the bottom end;

the utility model discloses a charging port, including connecting plug, positive pole magnetic plate, power take-off head, negative pole magnetic plate, power take-off head and power receiving plate, the positive pole magnetic plate is installed to the periphery of the mouth that charges, power take-off head is installed by the centre to the opposite side of connecting plug, power take-off head is located the mouth that charges, negative pole magnetic plate is installed to connecting plug's opposite side, power take-off head runs through the both sides of negative pole magnetic plate, the internally mounted of the mouth that charges has the power receiving plate of being connected with power take-off head.

As a further scheme of the invention, the side pull buckle and the slot are arranged in a separable mode, the anti-skidding rubber pad is fixedly connected with the side pull buckle, the thickness of the circuit board is smaller than that of the side pull buckle, and the connecting circuit is arranged in the slot in a coil shape.

As a further aspect of the present invention, the size of the positive magnetic plate and the size of the negative magnetic plate are consistent, the positive magnetic plate and the negative magnetic plate are arranged in parallel, the connection plug and the charging chassis are arranged separately, and the power output head and the power receiving plate are arranged in a socket joint manner.

As a further scheme of the present invention, a driving motor is installed near the middle of the inner bottom surface of the charging chassis, a fixed disk is installed at the top end of the driving motor, three fan blades are installed on the periphery of the fixed disk, and a plurality of curved heat dissipation fins located around the driving motor are installed on the inner bottom surface of the charging chassis.

As a further scheme of the present invention, the driving motor is vertically disposed on the inner bottom surface of the charging chassis, the driving motor is fixedly connected to the inner bottom surface of the charging chassis, the curved heat dissipation fins are disposed in a curved shape, and heat dissipation holes are disposed on the charging chassis between every two curved heat dissipation fins.

As a further scheme of the present invention, a rotating shaft is installed on the top surface of the driving motor, a fixed disk is positioned on the rotating shaft, the fixed disk and the driving motor are rotatably arranged, and the height of the fan blade is greater than the height of the curved heat sink and less than the height of the circuit board.

A use method of a charger for wireless charging of a mobile phone comprises the following specific use steps:

the method comprises the following steps: connecting a connecting circuit with a circuit board by using an electroplating pen, inserting the circuit board into an insertion slot by moving a side pull buckle, enabling an anti-skidding rubber pad to be respectively contacted with the top surface and the bottom surface of the insertion slot, inserting the side pull buckle into the insertion slot, moving a connecting plug, inserting a power output head into a charging port, enabling a positive magnetic plate and a negative magnetic plate to be mutually contacted through magnetic attraction, enabling the power output head to be connected with a power receiving plate, inserting a charging insertion strip into a power supply insertion plate by moving a charging connector, transmitting power to the circuit board through a charging plug and a power transmission line, and supplying power to a charging magnetic disk and a driving motor through an electroplating circuit;

step two: put the cell-phone on the disk that charges, the disk that charges for the cell-phone through wireless connection, the antiskid props the leg and provides the holding power to the chassis that charges, the driving motor operation drives the pivot and rotates for fixed disc drives the flabellum on driving motor and rotates, makes the air flow on the chassis that charges accelerate, absorbs the heat in the chassis that charges through bent shape fin simultaneously, the heat that produces when charging in the chassis that charges is discharged from the bottom louvre on chassis that charges.

The invention has the beneficial effects that:

1. according to the invention, the power output head is inserted into the charging port, the positive magnetic plate and the negative magnetic plate are attracted and contacted with each other through magnetic force, so that the power output head is connected with the power receiving plate, the connection between the data line and the wireless charging assembly is more stable, and the connection between the data line and the wireless charging assembly is more compact through the pulling force between the magnetic forces;

2. the rotating shaft is driven to rotate by the operation of the driving motor, so that the fan blades are driven by the fixed disc on the driving motor to rotate, the air flow of the charging chassis is accelerated, meanwhile, heat in the charging chassis is absorbed by the curved radiating fins, and heat generated during charging in the charging chassis is dissipated from the radiating holes in the bottom of the charging chassis, so that the radiating function of the wireless charger is more complete, the radiating capacity is better, the wireless charger is prevented from being overheated and excessively heated in the charging process, and the service life of the wireless charger is prolonged;

3. the circuit board is inserted into the slot through the movable side pull buckle, the anti-skid rubber pad is in contact with the top surface and the bottom surface of the slot respectively, the side pull buckle is inserted into the slot, the circuit board is convenient to mount and dismount, the circuit board is convenient to maintain and replace when the wireless charging assembly breaks down, the anti-skid rubber pad is utilized to increase friction force, and the situation that the circuit board and the slot are easy to slip is avoided.

4. The wireless charger has the advantages that the heat dissipation function of the wireless charger is more perfect due to the arrangement of the heat dissipation fan and the curved heat dissipation fins, the heat dissipation capacity is better, the wireless charger is prevented from being overheated and excessively hot in the charging process, the service life of the wireless charger is prolonged, the side pull buckle and the charging chassis are arranged in a separable mode, the circuit board can be conveniently maintained and replaced when the wireless charging assembly breaks down, the connection between the data line and the wireless charging assembly is tighter due to the magnetic connection arrangement between the data line and the wireless charging assembly, and the connection between the data line and the wireless charging assembly is more stable.

Drawings

Fig. 1 is a schematic overall structure diagram of a charger for wireless charging of a mobile phone according to the present invention;

FIG. 2 is an exploded view of a charging chassis and side pull tab and components thereof of a charger for wireless charging of a mobile phone in accordance with the present invention;

FIG. 3 is an exploded view of a charging base and a connection plug and their components of a charger for wireless charging of a mobile phone according to the present invention;

FIG. 4 is a front cross-sectional view of a charging chassis in a charger for wireless charging of a mobile phone according to the present invention;

fig. 5 is a sectional view of the inner bottom of a charging chassis of a charger for wireless charging of a cellular phone according to the present invention.

In the figure: 1. a charging chassis; 2. anti-skid supporting legs; 3. charging the magnetic disk; 4. laterally pulling the buckle; 5. a connecting plug; 6. a power transmission line; 7. a charging plug; 8. a charging connector; 9. charging the cutting; 10. an anti-skid rubber pad; 11. a circuit board; 12. electroplating the circuit; 13. a slot; 14. connecting a line; 15. a charging port; 16. a positive magnetic plate; 17. a power output head; 18. a negative magnetic plate; 19. a power receiving board; 20. a drive motor; 21. a fan blade; 22. a curved heat sink; 23. and fixing the disc.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, a charger for wireless charging of a mobile phone includes a charging chassis 1, four anti-slip supporting legs 2 are installed near the periphery of the bottom surface of the charging chassis 1, rubber anti-slip pads are installed on the bottom surfaces of the anti-slip supporting legs 2, a charging magnetic disk 3 is installed on the top surface of the charging chassis 1, a side pull buckle 4 penetrating through the side surface of the charging chassis 1 is installed near the bottom end of one side of the charging chassis 1, a connecting plug 5 penetrating through the side surface of the charging chassis 1 is installed near the bottom end of the other side of the charging chassis 1, an electric power transmission line 6 is installed near the middle of one side of the connecting plug 5, a charging plug 7 is installed at one end of the electric power transmission line 6, a charging connector 8 is installed near one end of the periphery of the charging plug 7, and two charging inserts 9 are installed near the middle of one side of the charging connector 8;

the bottom surface and the top surface of the side pull buckle 4 are respectively provided with an anti-skidding rubber pad 10, one side of the side pull buckle 4 is provided with a circuit board 11, the top surface of the circuit board 11 is provided with a plurality of electroplating circuits 12, one side of the charging chassis 1 is provided with a slot 13 close to the bottom end, the side pull buckle 4, the anti-skidding rubber pads 10 and the circuit board 11 are all positioned in the slot 13, a connecting circuit 14 is connected between the circuit board 11 and the slot 13, and the other side of the charging chassis 1 is provided with a charging port 15 close to the bottom end;

the periphery of the charging port 15 is provided with a positive magnetic plate 16, the other side of the connecting plug 5 is provided with a power output head 17 near the middle, the power output head 17 is positioned in the charging port 15, the other side of the connecting plug 5 is provided with a negative magnetic plate 18, the power output head 17 penetrates through two sides of the negative magnetic plate 18, and the charging port 15 is internally provided with a power receiving plate 19 connected with the power output head 17.

The side is drawn and is detained 4 and slot 13 and be separable setting, and anti-skidding rubber pad 10 is drawn with side and detains 4 fixed connection, and the thickness of circuit board 11 is less than the thickness that the side was drawn and is detained 4, and interconnecting link 14 is the coil-shaped setting in slot 13, conveniently maintains wireless charger.

The sizes of the positive magnetic plate 16 and the negative magnetic plate 18 are kept consistent, the positive magnetic plate 16 and the negative magnetic plate 18 are arranged in parallel, the connecting plug 5 and the charging chassis 1 are arranged in a separable mode, and the power output head 17 and the power receiving plate 19 are arranged in a sleeved mode.

The drive motor 20 is installed near the centre to the inside bottom surface on charging chassis 1, and fixed disc 23 is installed on drive motor 20's top, and three flabellum 21 is installed to the periphery of fixed disc 23, and the curved shape fin 22 of a plurality of that is located drive motor 20 all around is installed to the inside bottom surface on charging chassis 1, realizes wireless charger's heat dissipation function.

Driving motor 20 is perpendicular setting with the inside bottom surface of the chassis 1 that charges, driving motor 20 and the inside bottom surface fixed connection of the chassis 1 that charges, and bent shape fin 22 is the curvilinear figure setting, lies in between per two bent shape fin 22 and all has seted up the louvre on the chassis 1 that charges.

The pivot is installed to driving motor 20's top surface, and fixed disc 23 is located the pivot, and fixed disc 23 is rotatable setting with driving motor 20, and the height that highly is greater than curved heat dissipation fin 22 of flabellum 21 and is less than the height of circuit board 11, guarantees that flabellum 21 can normally rotate in charging chassis 1.

the method comprises the following steps: connecting a connecting circuit 14 with a circuit board 11 by using an electroplating pen, inserting the circuit board 11 into an insertion slot 13 by moving a side pull buckle 4, respectively contacting an anti-skid rubber pad 10 with the top surface and the bottom surface of the insertion slot 13, inserting the side pull buckle 4 into the insertion slot 13, moving a connecting plug 5, inserting a power output head 17 into a charging port 15, attracting and mutually contacting a positive magnetic plate 16 and a negative magnetic plate 18 by magnetic force, connecting the power output head 17 with a power receiving plate 19, inserting a charging insertion strip 9 into a power supply insertion plate by moving a charging connector 8, transmitting power to the circuit board 11 by a charging plug 7 and a power transmission line 6, and supplying power to a charging magnetic disc 3 and a driving motor 20 by using an electroplating circuit 12;

step two: put the cell-phone on the disk 3 that charges, the disk 3 that charges for the cell-phone through wireless connection, anti-skidding leg brace 2 provides the holding power to the chassis 1 that charges, driving motor 20 operation drives the pivot and rotates, make fixed disc 23 drive flabellum 21 on driving motor 20 and rotate, make the air flow on chassis 1 that charges accelerate, absorb the heat in the chassis 1 that charges through bent shape fin 22 simultaneously, the heat that produces when charging in the chassis 1 that charges is discharged from the bottom louvre on chassis 1 that charges.

According to the invention, the power output head 17 is inserted into the charging port 15, the positive pole magnetic plate 16 and the negative pole magnetic plate 18 are attracted and contacted with each other through magnetic force, so that the power output head 17 is connected with the power receiving plate 19, the connection between the data line and the wireless charging assembly is more stable, and the connection between the data line and the wireless charging assembly is more compact through the pulling force between the magnetic forces; the rotating shaft is driven to rotate by the operation of the driving motor 20, so that the fan blades 21 are driven to rotate by the fixed disc 23 on the driving motor 20, the air flow of the charging chassis 1 is accelerated, meanwhile, heat in the charging chassis 1 is absorbed by the curved radiating fins 22, and heat generated during charging in the charging chassis 1 is dissipated from radiating holes at the bottom of the charging chassis 1, so that the radiating function of the wireless charger is more complete, the radiating capacity is better, the wireless charger is prevented from being overheated and excessively heated in the charging process, and the service life of the wireless charger is prolonged; insert circuit board 11 in slot 13 through removing side pull buckle 4, make anti-skidding rubber pad 10 and slot 13's top surface and bottom surface contact respectively, make side pull buckle 4 insert in slot 13, conveniently install and dismantle circuit board 11, conveniently maintain and change circuit board 11 when wireless charging assembly breaks down, utilize anti-skidding rubber pad 10 to increase frictional force, avoid the situation emergence of easy landing between circuit board 11 and the slot 13.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. A charger for wireless charging of a mobile phone, characterized in that: comprises a charging chassis (1), four anti-skid supporting legs (2) are arranged on the bottom surface of the charging chassis (1) near the periphery, the bottom surface of the anti-skid supporting leg (2) is provided with a rubber anti-skid pad, the top surface of the charging chassis (1) is provided with a charging magnetic disc (3), a side pull buckle (4) which penetrates through the side surface of the charging chassis (1) is arranged at one side of the charging chassis (1) close to the bottom end, a connecting plug (5) which penetrates through the side surface of the charging chassis (1) is arranged at the other side of the charging chassis (1) close to the bottom end, a power transmission line (6) is arranged at one side of the connecting plug (5) close to the middle, a charging plug (7) is arranged at one end of the power transmission line (6), a charging connector (8) is arranged at one end of the periphery of the charging plug (7), two charging inserting strips (9) are arranged at one side of the charging connector (8) close to the middle;

the anti-skidding rubber pads (10) are mounted on the bottom surface and the top surface of the side pull buckle (4), the circuit board (11) is mounted on one side of the side pull buckle (4), a plurality of electroplating circuits (12) are arranged on the top surface of the circuit board (11), an insertion groove (13) is formed in one side of the charging chassis (1) close to the bottom end, the side pull buckle (4), the anti-skidding rubber pads (10) and the circuit board (11) are all located in the insertion groove (13), a connection circuit (14) is connected between the circuit board (11) and the insertion groove (13), and a charging port (15) is formed in the other side of the charging chassis (1) close to the bottom end;

anodal magnetic plate (16) are installed to the periphery of mouthful (15) charges, electric power take-off (17) are installed by the centre to the opposite side of connecting plug (5), electric power take-off (17) are located mouthful (15) that charges, negative pole magnetic plate (18) are installed to the opposite side of connecting plug (5), electric power take-off (17) run through the both sides of negative pole magnetic plate (18), the internally mounted of mouthful (15) that charges has electric power receiving board (19) of being connected with electric power take-off (17).

2. The charger of claim 1, wherein the charger is configured to wirelessly charge a mobile phone: the side is drawn and is detained (4) and slot (13) and be separable setting, and antiskid rubber pad (10) and side are drawn and are detained (4) fixed connection, and the thickness of circuit board (11) is less than the thickness that the side was drawn and is detained (4), and interconnecting link (14) are the coil-shaped setting in slot (13).

3. The charger of claim 1, wherein the charger is configured to wirelessly charge a mobile phone: the size of the positive magnetic plate (16) is consistent with that of the negative magnetic plate (18), the positive magnetic plate (16) and the negative magnetic plate (18) are arranged in parallel, the connecting plug (5) and the charging chassis (1) are arranged in a separable mode, and the power output head (17) and the power receiving plate (19) are arranged in a sleeved mode.

4. The charger of claim 1, wherein the charger is configured to wirelessly charge a mobile phone: the utility model discloses a charging chassis, including charging chassis (1), fixed disc (23) are installed to the inside bottom surface of charging chassis (1) by middle installing driving motor (20), fixed disc (23) are installed on the top of driving motor (20), and three flabellum (21) are installed to the periphery of fixed disc (23), and the curved shape fin (22) of a plurality of that are located driving motor (20) all around are installed to the inside bottom surface of charging chassis (1).

5. The charger of claim 4, wherein the charger is configured to: the drive motor (20) is perpendicular to the inside bottom surface of the charging chassis (1), the drive motor (20) is fixedly connected with the inside bottom surface of the charging chassis (1), the curved radiating fins (22) are in curved shapes, and radiating holes are formed in the charging chassis (1) between every two curved radiating fins (22).

6. The charger of claim 4, wherein the charger is configured to: the top surface of the driving motor (20) is provided with a rotating shaft, the fixed disc (23) is positioned on the rotating shaft, the fixed disc (23) and the driving motor (20) are rotatably arranged, and the height of the fan blade (21) is greater than that of the curved radiating fin (22) and is less than that of the circuit board (11).

7. The use method of the charger for the wireless charging of the mobile phone according to claim 1 is characterized by comprising the following specific use steps:

the method comprises the following steps: connecting a connecting line (14) with a circuit board (11) by using an electroplating pen, inserting the circuit board (11) into a slot (13) by moving a side pull buckle (4), respectively contacting an anti-skid rubber pad (10) with the top surface and the bottom surface of the slot (13), inserting the side pull buckle (4) into the slot (13), moving a connecting plug (5), inserting a power output head (17) into a charging port (15), attracting and mutually contacting a positive magnetic plate (16) and a negative magnetic plate (18) through magnetic force, connecting the power output head (17) with a power receiving plate (19), inserting a charging strip (9) into a power supply plugboard by moving a charging connector (8), transmitting power to the circuit board (11) through a charging plug (7) and a power transmission line (6), and supplying power to a charging magnetic disc (3) and a driving motor (20) through an electroplating line (12);

step two: put the cell-phone on charging disk (3), charging disk (3) charge for the cell-phone through wireless connection, antiskid leg (2) provide the holding power to charging chassis (1), driving motor (20) operation drives the pivot and rotates, make fixed disc (23) drive flabellum (21) on driving motor (20) and rotate, the air flow that makes charging chassis (1) accelerates, absorb the heat in charging chassis (1) through bent shape fin (22) simultaneously, the heat that produces when charging in charging chassis (1) is discharged away from the bottom louvre of charging chassis (1).