CN213602452U

CN213602452U - Magnetic wireless charger

Info

Publication number: CN213602452U
Application number: CN202022666010.2U
Authority: CN
Inventors: 夏脚根
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-11-17
Filing date: 2020-11-17
Publication date: 2021-07-02
Anticipated expiration: 2030-11-17

Abstract

The utility model provides a magnetic attraction wireless charger, which comprises a shell, a first magnet component, a second magnet component, a third magnet component, a wireless charging coil, a placing plate and a panel, wherein the shell is of an annular structure, the inner periphery of the shell is provided with an annular groove, the first magnet component, the second magnet component and the third magnet component are respectively embedded and arranged in the annular groove in sequence, the second magnet component and the third magnet component are respectively detachably and rotatably connected with two sides of the first magnet component, the second magnet component and the third magnet component form an annular structure, the placing plate is arranged on the first magnet component, the second magnet component and the third magnet component, the wireless charging coil is arranged on the placing plate, the panel is arranged above the wireless charging coil and is embedded and arranged in the annular groove, thus, through the arrangement of the first magnet component, the second magnet component and the third magnet component, so that the wireless charging mobile power supply is attracted by magnetic positioning, and the charging efficiency is improved.

Description

Magnetic wireless charger

Technical Field

The utility model belongs to the technical field of wireless charger, especially, relate to a wireless charger is inhaled to magnetism.

Background

Along with the popularization of mobile electronic equipment such as mobile phones, the life of people is greatly facilitated, the use frequency is higher and higher, at present, the common and more convenient mode for charging the mobile phone is to connect the mobile phone with a mobile power supply by using a data line for charging, and in the charging process of the mobile phone, if a user needs to use the mobile phone, the user needs to carry the mobile phone, the data line and the mobile power supply at the same time, so that the mobile phone is very inconvenient.

Meanwhile, the charging technology of mobile electronic devices has been developed at a high speed, and especially, the wireless charging technology has also entered the application stage. Wireless charging technology (Wireless charging technology) is derived from Wireless power transfer technology. The wireless charger is a device for wirelessly charging portable devices such as mobile phones, and energy is transmitted between the charger and a power consumption device through a magnetic field, so that the charger and the power consumption device are not connected through wires. A fast charge can be achieved.

However, in the wireless charging process, the mobile electronic device to be charged is easily deviated from the charger, thereby causing a phenomenon of low charging efficiency.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome above-mentioned prior art not enough, provide a magnetism and inhale wireless charger of magnetism of location, aim at solving current wireless charging process, owing to treat the mobile electronic device skew charger very easily that charges to lead to the technical problem that charging efficiency is low.

The utility model is realized in such a way, and provides a magnetic attraction wireless charger, which comprises a shell, a first magnet component, a second magnet component, a third magnet component, a wireless charging coil, a placing plate and a panel, the shell is of an annular structure, an annular groove is formed in the inner periphery of the shell, the first magnet assembly, the second magnet assembly and the third magnet assembly are respectively embedded into the annular groove in sequence, the second magnet assembly and the third magnet assembly are respectively detachably and rotatably connected to two sides of the first magnet assembly, the first magnet assembly, the second magnet assembly and the third magnet assembly form an annular structure, the placing plate is arranged on the first magnet assembly, the second magnet assembly and the third magnet assembly, the wireless charging coil sets up place on the board, the panel sets up wireless charging coil top and embedding setting are in the ring channel.

Furthermore, the first magnet assembly comprises a first fixing plate in a curve shape, a first protrusion is arranged at the edge of one side, far away from the shell, of the upper surface of the first fixing plate, a plurality of first fixing blocks are sequentially arranged at intervals at the edge of one side, close to the shell, of the upper surface of the first fixing plate, a first magnet is arranged between every two first fixing blocks, a first connecting plate, a second connecting plate and a third connecting plate are respectively arranged at the two sides and the middle position of one side wall, far away from the shell, of the first fixing plate, the first connecting plate extends towards the inside of the shell, a first fixing column is arranged on the first connecting plate, a second fixing column is arranged on the second connecting plate, and a third fixing column is arranged on the third connecting plate.

Furthermore, the second magnet assembly comprises a second fixing plate in a curve shape, a second protrusion is arranged on one side edge of the upper surface of the second fixing plate far away from the shell, a plurality of second fixing blocks are sequentially arranged on one side edge of the upper surface of the second fixing plate near the shell at intervals, a second magnet is respectively arranged between every two second fixing blocks, a fourth connecting plate and a fifth connecting plate which extend towards the inside of the shell are respectively arranged on two sides of the side wall of the second fixing plate far away from the shell, the fourth connecting plate is buckled on the first connecting plate, a first mounting hole which is matched with the first fixing column on the first connecting plate is arranged on the fourth connecting plate adjacent to the first connecting plate on the first fixing plate, and the first magnet assembly and the second magnet assembly are detachably connected together in a rotating mode through matching of the first fixing column and the first mounting hole, and the fifth connecting plate is provided with a fourth fixing column.

Furthermore, the third magnet assembly comprises a curved third fixing plate, a third protrusion is arranged on one side edge of the upper surface of the third fixing plate far away from the shell, a plurality of third fixing blocks are sequentially arranged on one side edge of the upper surface of the third fixing plate close to the shell at intervals, a third magnet is respectively arranged between every two third fixing blocks, a sixth connecting plate and a seventh connecting plate which extend towards the inside of the shell are respectively arranged on two sides of the side wall of the third fixing plate far away from the shell, the sixth connecting plate is buckled on the second connecting plate, a second mounting hole which is matched with the second fixing column on the second connecting plate is arranged on the sixth connecting plate adjacent to the second connecting plate on the first fixing plate, and the third magnet assembly and the first magnet assembly are detachably connected together in a rotating manner through the matching of the second fixing column and the second mounting hole, and the seventh connecting plate is provided with a fifth fixing column.

Further, the outer peripheral edge of the placing plate and the positions corresponding to the third connecting plate, the fifth connecting plate and the seventh connecting plate are respectively provided with a first avoiding hole for avoiding the third connecting column, the fourth connecting column and the fifth connecting column, the placing plate is arranged on the third connecting plate, the fifth connecting plate and the seventh connecting plate, and the third connecting column, the fourth connecting column and the fifth connecting column are respectively accommodated in the first avoiding hole.

Furthermore, the outer peripheral edge of the placing plate and the positions corresponding to the first connecting plate and the second connecting plate are respectively provided with a second avoiding hole and a third avoiding hole for avoiding the first connecting plate and the second connecting plate.

Further, first connecting plate and lock are in on the first connecting plate the fourth connecting plate holds in the hole is dodged to the second, second connecting plate and lock are in on the second connecting plate the sixth connecting plate holds in the hole is dodged to the third.

Further, the shell is made of aluminum alloy.

The embodiment of the utility model provides a wireless charger is inhaled to magnetism, including shell, first magnet subassembly, second magnet subassembly, third magnet subassembly, wireless charging coil, place board and panel, the shell is ring structure and the inner periphery of shell has a ring channel, first magnet subassembly, second magnet subassembly and third magnet subassembly imbed in proper order respectively and set up in the ring channel, second magnet subassembly and third magnet subassembly detachably rotate respectively and connect in the both sides of first magnet subassembly, second magnet subassembly and third magnet subassembly form an annular structure, place the board and establish on first magnet subassembly, second magnet subassembly and third magnet subassembly, wireless charging coil sets up on place the board, the panel sets up above the wireless charging coil and imbeds and sets up in the ring channel, like this, through the setting of first magnet subassembly, second magnet subassembly and third magnet subassembly to the wireless portable power source that charges is absorbed in the magnetism location, has improved charge efficiency, has solved current wireless charging process effectively, because the mobile electronic device who treats to charge deviates the charger very easily, thereby leads to the technical problem that charge efficiency is low.

Drawings

In order to more clearly illustrate the technical solution of the present invention, the drawings needed to be used in the embodiments 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 these drawings without creative efforts.

Fig. 1 is a schematic view of the overall structure of the magnetic wireless charger provided in the embodiment of the present invention.

Fig. 2 is an exploded view of the magnetic wireless charger provided by the embodiment of the present invention.

Fig. 3 is a structural diagram of a first magnet assembly of the magnetic wireless charger provided by the embodiment of the present invention.

Fig. 4 is a structural diagram of a second magnet assembly of the magnetic wireless charger provided by the embodiment of the present invention.

Fig. 5 is a structural diagram of a third magnet assembly of the magnetic wireless charger provided by the embodiment of the present invention.

Fig. 6 is a structural diagram of a magnetic wireless charger according to an embodiment of the present invention, in which a first magnet assembly, a second magnet assembly, and a third magnet assembly are removed from the magnetic wireless charger.

Fig. 7 is a structure diagram of a placement board of the magnetic wireless charger provided by the embodiment of the present invention.

Fig. 8 is an assembly structure view of the magnetic wireless charger according to an embodiment of the present invention, in which the first magnet assembly, the second magnet assembly and the third magnet assembly are embedded in the housing respectively.

Fig. 9 is an assembly structure view of the magnetic attraction wireless charger of the embodiment of the present invention, which includes a first magnet assembly, a second magnet assembly, a third magnet assembly, a housing and a placing plate.

Fig. 10 is an assembly structure view of the magnetic wireless charger according to the embodiment of the present invention, in which the first magnet assembly is embedded in the housing.

Fig. 11 is an assembly structure view of the magnetic wireless charger according to an embodiment of the present invention, in which the first magnet assembly and the second magnet assembly are embedded in the housing respectively.

Fig. 12 is an assembly structure view of the magnetic wireless charger according to an embodiment of the present invention, in which the first magnet assembly and the third magnet assembly are embedded in the housing respectively.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

As shown in fig. 1 to 12, a magnetic wireless charger according to an embodiment of the present invention includes a housing 1, a first magnet assembly 2, a second magnet assembly 3, a third magnet assembly 4, a wireless charging coil 5, a placing plate 6 and a panel 7, wherein the housing 1 is of an annular structure, an annular groove 11 is formed in an inner peripheral edge of the housing 1, the first magnet assembly 2, the second magnet assembly 3 and the third magnet assembly 4 are respectively embedded in the annular groove 11 in sequence, the second magnet assembly 3 and the third magnet assembly 4 are respectively detachably and rotatably connected to two sides of the first magnet assembly 2, the second magnet assembly 3 and the third magnet assembly 4 form an annular structure, the placing plate 6 is disposed on the first magnet assembly 2, the second magnet assembly 3 and the third magnet assembly 4, the wireless charging coil 5 is disposed on the placing plate 6, the panel 7 sets up wireless charging coil 5 top and embedding setting are in the ring channel 11, like this, through the setting of first magnet subassembly 2, second magnet subassembly 3 and third magnet subassembly 4 to magnetism holds wireless portable power source that charges, in order to improve charge efficiency.

Further, the first magnet assembly 2 includes a first fixing plate 20 in a curved shape, a first protrusion 21 is disposed on an edge of one side of the upper surface of the first fixing plate 20, which is far away from the housing, a plurality of first fixing blocks 22 are sequentially disposed on an edge of one side of the upper surface of the first fixing plate 20, which is near the housing 1, at intervals, a first magnet 23 is disposed between every two first fixing blocks 22, a first connecting plate 24, a second connecting plate 25 and a third connecting plate 26 are disposed on two sides and a middle position of a side wall of one side of the first fixing plate 20, which is far away from the housing 1, and extend into the housing 1, respectively, the first connecting plate 24 is provided with a first fixing column 27, the second connecting plate 25 is provided with a second fixing column 28, and the third connecting plate 26 is provided with a third fixing column 29.

Further, the second magnet assembly 3 includes a second fixing plate 30 in a curved shape, a second protrusion 31 is disposed on an edge of a side of the upper surface of the second fixing plate 30 away from the housing 1, a plurality of second fixing blocks 32 are sequentially disposed on an edge of a side of the upper surface of the second fixing plate 30 adjacent to the housing, a second magnet 33 is disposed between each two second fixing blocks 32, a fourth connecting plate 34 and a fifth connecting plate 35 are respectively disposed on two sides of a side wall of the second fixing plate 30 away from the housing 1 and extend toward the inside of the housing 1, a first mounting hole 36 adapted to fit with the first fixing column 27 on the first connecting plate 24 is disposed on the fourth connecting plate 34 adjacent to the first connecting plate 24 on the first fixing plate 20, and when assembling, the fourth connecting plate 34 is fastened to the first connecting plate 24, the first fixing column 27 is inserted into the first mounting hole 36, the first magnet assembly 2 and the second magnet assembly 3 are detachably and rotatably connected together through the matching of the first fixing column 27 and the first mounting hole 36, and the fifth connecting plate 35 is provided with a fourth fixing column 37.

Further, the third magnet assembly 4 includes a curved third fixing plate 40, a third protrusion 41 is disposed on an edge of a side of the upper surface of the third fixing plate 40 away from the housing 1, a plurality of third fixing blocks 42 are sequentially disposed on an edge of a side of the upper surface of the third fixing plate 40 adjacent to the housing 1, a third magnet 43 is disposed between each two third fixing blocks 42, a sixth connecting plate 44 and a seventh connecting plate 45 extending into the housing 1 are disposed on two sides of a side wall of the third fixing plate 40 away from the housing 1, respectively, a second mounting hole 46 adapted to fit with the second fixing column 28 on the second connecting plate 25 is disposed on the sixth connecting plate 44 adjacent to the second connecting plate 25 on the first fixing plate 20, and when assembling, the sixth connecting plate 44 is fastened to the second connecting plate 25, the second fixing column 28 is inserted into the second mounting hole 46, the third magnet assembly 4 and the first magnet assembly 1 are detachably and rotatably connected together through the matching of the second fixing column 28 and the second mounting hole 46, and the seventh connecting plate 45 is provided with a fifth fixing column 47.

Further, the outer peripheral edge of the placing plate 5 is provided with a first avoiding hole 51 for avoiding the third connecting rod 29, the fourth connecting rod 37 and the fifth connecting rod 47 at the positions corresponding to the third connecting plate 26, the fifth connecting plate 35 and the seventh connecting plate 47, respectively, the placing plate 5 is arranged on the third connecting plate 26, the fifth connecting plate 35 and the seventh connecting plate 47, and the third connecting rod 29, the fourth connecting rod 37 and the fifth connecting rod 47 are accommodated in the first avoiding hole 51, respectively, so that after the placing plate 6 is arranged on the first magnet assembly 2, the second magnet assembly 3 and the third magnet assembly 4, the placing plate 6 can play a role of fixing the first magnet assembly 2, the second magnet assembly 3 and the third magnet assembly 4 through the third connecting rod 29, the fourth connecting rod 37 and the fifth connecting rod 47, so as to ensure that the first magnet assembly 2, the second magnet assembly 3 and the third magnet assembly 4 are absolutely circular and accurately positioned.

Further, the outer peripheral edge of the placing board 5 is provided with a second avoiding hole 52 and a third avoiding hole 53 for avoiding the first connecting board 24 and the second connecting board 25 at the positions corresponding to the first connecting board 24 and the second connecting board 25, respectively, the fourth connecting board 34 fastened to the first connecting board 24 is received in the second avoiding hole 52, the second connecting board 25 is fastened to the second connecting board 25, and the sixth connecting board 44 fastened to the second connecting board 25 is received in the second avoiding hole 53, so that the wireless charging coil 5 can be fixed by the fourth connecting board 34 fastened to the first connecting board 24 and the second connecting board 34 fastened to the second connecting board 25, and the sixth connecting board 44 fastened to the second connecting board 25, so as to ensure the stability of the magnetic wireless charger, the magnetic wireless charger is ensured to be well positioned.

Further, the housing 1 is made of an aluminum alloy.

As shown in fig. 10-12 and fig. 8, an embodiment of the present invention provides a magnetic charger, which comprises: first, as shown in fig. 10, the first magnet assembly 2 is inserted into an annular groove 11 provided in the housing 1; secondly, as shown in fig. 11, the second magnet assembly 3 is detachably and rotatably connected to one side of the first magnet assembly 2, and after the second magnet assembly 3 is detachably and rotatably connected to the first magnet assembly 2, the second magnet assembly 3 is embedded in the housing 1; finally, as shown in fig. 12, the third magnet assembly 4 is detachably and rotatably connected to the other side of the first magnet assembly 2, and after the third magnet assembly 4 is detachably and rotatably connected to the other side of the first magnet assembly 2, the third magnet assembly 4 is embedded in the housing 1, so as to obtain an assembly structure diagram of the first magnet assembly, the second magnet assembly and the third magnet assembly respectively embedded in the housing as shown in fig. 8.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations are also considered as the protection scope of the present invention.

Claims

1. A magnetic wireless charger is characterized in that the charger comprises a shell, a first magnet assembly, a second magnet assembly, a third magnet assembly, a wireless charging coil, a placing plate and a panel, the shell is of an annular structure, an annular groove is formed in the inner periphery of the shell, the first magnet assembly, the second magnet assembly and the third magnet assembly are respectively embedded into the annular groove in sequence, the second magnet assembly and the third magnet assembly are respectively detachably and rotatably connected to two sides of the first magnet assembly, the first magnet assembly, the second magnet assembly and the third magnet assembly form an annular structure, the placing plate is arranged on the first magnet assembly, the second magnet assembly and the third magnet assembly, the wireless charging coil sets up place on the board, the panel sets up wireless charging coil top and embedding setting are in the ring channel.

2. The magnetic wireless charger according to claim 1, wherein the first magnet assembly comprises a first fixing plate having a curved shape, a first protrusion is disposed on an edge of a side of the first fixing plate away from the housing, a plurality of first fixing blocks are sequentially disposed on an upper surface of the first fixing plate adjacent to the edge of the side of the housing, a first magnet is disposed between each two first fixing blocks, a first connecting plate, a second connecting plate and a third connecting plate are disposed on two sides and a middle position of a side wall of the first fixing plate away from the housing, the first connecting plate extends toward the inside of the housing, the first connecting plate has a first fixing column, the second connecting plate has a second fixing column, and the third connecting plate has a third fixing column.

3. The magnetic wireless charger according to claim 2, wherein the second magnet assembly comprises a second fixing plate having a curved shape, a second protrusion is disposed on an edge of a side of the upper surface of the second fixing plate away from the housing, a plurality of second fixing blocks are sequentially disposed on an edge of the upper surface of the second fixing plate adjacent to the housing, a second magnet is disposed between each two second fixing blocks, a fourth connecting plate and a fifth connecting plate are disposed on two sides of a side wall of the second fixing plate away from the housing, the fourth connecting plate is fastened to the first connecting plate, a first mounting hole is disposed on the fourth connecting plate adjacent to the first connecting plate, the first mounting hole is adapted to the first fixing column of the first connecting plate, and the first magnet assembly and the second magnet assembly are mounted through the first fixing column and the first mounting hole Detachably rotates to be connected together, the fifth connecting plate is equipped with a fourth fixed column.

4. The magnetic wireless charger according to claim 2, wherein the third magnet assembly comprises a curved third fixing plate, a third protrusion is disposed on an edge of a side of the upper surface of the third fixing plate away from the housing, a plurality of third fixing blocks are sequentially disposed on an edge of a side of the upper surface of the third fixing plate adjacent to the housing, a third magnet is disposed between every two third fixing blocks, a sixth connecting plate and a seventh connecting plate are disposed on two sides of a side wall of the third fixing plate away from the housing, the sixth connecting plate is fastened to the sixth connecting plate adjacent to the second connecting plate on the first fixing plate, a second mounting hole is disposed on the sixth connecting plate, the second mounting hole is adapted to the second fixing column on the second connecting plate, and the third magnet assembly and the first magnet assembly are engaged with the second mounting hole to form a magnetic wireless charger The seventh connecting plate is detachably and rotatably connected with the first connecting plate, and a fifth fixing column is arranged on the seventh connecting plate.

5. The magnetic wireless charger according to claim 3 or 4, wherein the outer peripheral edge of the placement plate is provided with a first avoiding hole for avoiding the third, fourth and fifth connection posts at positions corresponding to the third, fifth and seventh connection plates, respectively, the placement plate is disposed on the third, fifth and seventh connection plates, and the third, fourth and fifth connection posts are received in the first avoiding hole, respectively.

6. The magnetic wireless charger according to claim 5, wherein a second avoiding hole and a third avoiding hole for avoiding the first connecting plate and the second connecting plate are respectively formed at positions of the outer peripheral edge of the placing plate corresponding to the first connecting plate and the second connecting plate.

7. The magnetically attracted wireless charger of claim 6, wherein the first connecting plate and the fourth connecting plate snap-fitted to the first connecting plate are received in the second escape hole, and the second connecting plate and the sixth connecting plate snap-fitted to the second connecting plate are received in the third escape hole.

8. The magnetically attracted wireless charger of claim 2, wherein the housing is made of aluminum alloy.