CN218730203U - Multipolar equipment of magnetizing of subassembly is inhaled to wireless magnetism that charges - Google Patents

Abstract

The utility model provides a multipolar equipment of magnetizing of subassembly is inhaled to wireless magnetism that charges, include: a frame; the first mounting plate is arranged on the rack; the first magnetizing seat is arranged on the first mounting plate and is provided with a first magnetizing mold core for magnetizing the first magnet; the second magnetizing base is arranged on the first mounting plate and is positioned right above the first magnetizing base, and a third magnetizing mold core for magnetizing the first magnet is arranged on the second magnetizing base and is aligned with the first magnetizing mold core in the vertical direction; the material moving plate is supported on the first magnetizing seat and can move back and forth, a first magnet to be magnetized is placed on the material moving plate to move back and forth between a first position and a second position, a avoiding hole is formed in the material moving plate, the shape of the avoiding hole is consistent with that of the second slide, the avoiding hole is located in front of the first magnetizing seat when the first position is achieved, and the avoiding hole is aligned with the first magnetizing mold core or the second magnetizing mold core in the up-and-down direction when the second position is achieved. This equipment of magnetizing can magnetize the subassembly to the magnetism that the assembly was accomplished.

Description

Multipolar equipment of magnetizing of subassembly is inhaled to wireless magnetism that charges

Technical Field

The utility model relates to a field of magnetizing especially relates to a multipolar equipment of magnetizing of subassembly is inhaled to wireless charging magnetism.

Background

Wireless charging such as cell-phone adopts the mode of absorption to fix the cell-phone on wireless charging seat more, in order to adsorb, often need set up magnetism through pasting or other modes on the cell-phone and inhale the subassembly, and the structure of subassembly is inhaled for setting up round magnet between two slide glasses to most magnetism at present.

The patent application with publication number CN112435848A discloses a method for manufacturing a magnet unit for wireless charging, in which a magnetic member is magnetized, and then the magnet is moved to a second slide to form a magnet unit required for wireless charging. The method has the disadvantages that the magnet is magnetized firstly and then assembled, and the magnetized magnet is adsorbed to other structures in equipment due to magnetism in the assembling process, so that the magnet is difficult to control; if control is needed, an additional control structure is needed, and the use cost and the operation difficulty are increased.

SUMMERY OF THE UTILITY MODEL

A primary object of the utility model is to provide a wireless multipolar equipment of magnetizing of inhaling subassembly of magnetism that charges, this equipment of magnetizing is used for to the wireless magnetism subassembly of inhaling of charging after the assembly magnetizing to can carry out the multistation and magnetize.

In order to achieve the above purpose, the utility model adopts the technical scheme that: the utility model provides a multipolar equipment of magnetizing of subassembly is inhaled to wireless charging magnetism, the subassembly is inhaled to wireless charging magnetism includes first slide glass, covers the second slide glass of first slide glass one side and is located a plurality of first magnet between first slide glass and the second slide glass, and a plurality of first magnet constitute an annular magnetic ring, and the size of first slide glass is greater than the size of second slide glass, the size of second slide glass is greater than the size of annular magnetic ring, multipolar equipment of magnetizing is used for magnetizing first magnet, includes:

a frame;

the first mounting plate is arranged on the rack;

the first magnetizing base is arranged on the first mounting plate and is provided with a first magnetizing mold core for magnetizing the first magnet;

the second magnetizing base is arranged on the first mounting plate and is positioned right above the first magnetizing base, and a third magnetizing mold core for magnetizing the first magnet is arranged on the second magnetizing base and is aligned with the first magnetizing mold core in the vertical direction;

the material moving plate is supported on the first magnetizing seat and can move back and forth, a first magnet to be magnetized is placed on the material moving plate to move back and forth between a first position and a second position, an avoiding hole is formed in the material moving plate, the shape of the avoiding hole is consistent with that of the second slide, the avoiding hole is located in front of the first magnetizing seat when the first position is adopted, and the avoiding hole is aligned with the first magnetizing mold core or the second magnetizing mold core in the up-down direction when the second position is adopted.

Preferably, the wireless charging magnetic suction assembly further comprises a plurality of second magnets arranged between the first carrier and the second carrier, the plurality of second magnets are arranged in a row, the shape of the second carrier is matched with the shape formed by the first magnet and the second magnet, and the size of the second carrier is larger than the size of the shape formed by the first magnet and the second magnet;

the first magnetizing seat is further provided with a third magnetizing mold core, the second magnetizing seat is further provided with a fourth magnetizing mold core, the third magnetizing mold core is aligned with the fourth magnetizing mold core in the vertical direction, and the third magnetizing mold core and the fourth magnetizing mold core are used for magnetizing a second magnet.

Preferably, the distance between the first magnetizing mold core and the third magnetizing mold core is greater than the distance between the first magnet and the second magnet, and the material moving plate can further move to a third position where the second magnet is aligned with the second magnetizing mold core and the fourth magnetizing mold core in the vertical direction.

Preferably, the second magnetizing base can move up and down.

Preferably, just be located on the first mounting panel the second is magnetized and is provided with the second mounting panel directly over the seat, the second mounting panel supports on first mounting panel through two guide bars, two can be provided with the lifter plate with reciprocating on the guide bar, the second is magnetized and is set up the lower surface of lifter plate.

Preferably, two guide assemblies are arranged on the upper surface of the first magnetizing base, the two guide assemblies extend along the front-back direction, and the material moving plate is positioned between the two guide assemblies; each of the guide assemblies includes:

the backing plate is supported on the first magnetizing seat;

the deflector supports on the backing plate, the backing plate is less than the size of deflector plate in the ascending size of left right side, and the left side of the backing plate of left direction subassembly aligns with the left side of first magnetizing seat, and the right side of the direction subassembly on right side aligns with the right side of first magnetizing seat, forms the guide way at the upper surface of deflector, backing plate and first magnetizing seat, and two guide ways set up in opposite directions at the ascending opening of left right side, move the left and right sides of flitch and be located correspondingly in the guide way.

Preferably, a support plate is arranged at the front side of the first magnetizing base, the upper surface of the support plate is aligned with the upper surface of the first magnetizing base, the backing plate and the guide plate extend to the position right above the support plate, the front ends of the backing plate and the guide plate are aligned with the front end of the support plate, the left side of the support plate is aligned with the left side of the first magnetizing base, and the right side of the support plate is aligned with the right side of the first magnetizing base.

Preferably, a first material moving cylinder and a second material moving cylinder are arranged on the first mounting plate and located on the rear side of the material moving plate, an output end of the first material moving cylinder is connected with the material moving plate, an output end of the first material moving cylinder stretches in the front-rear direction, a cylinder body of the second material moving cylinder is arranged on the first mounting plate, a cylinder rod of the second material moving cylinder stretches in the front-rear direction, a cylinder body of the first material moving cylinder is supported on a cylinder body of the second material moving cylinder through a mounting frame, the mounting frame can move back and forth in the front-rear direction relative to the cylinder body of the second material moving cylinder, and an output end of the second material moving cylinder is connected with the mounting frame.

Compared with the prior art, the invention has the following beneficial effects:

1) The utility model can magnetize the assembled magnetic attraction component, and can solve the problem that the magnet after magnetizing in the process of magnetizing before assembling is difficult to control;

2) The utility model discloses an equipment just only needs a material loading can realize having reduced manufacturing cost to the magnetization of first magnet and second magnet, has improved production efficiency.

Drawings

FIGS. 1 and 2 are structural views of a magnetic assembly;

fig. 3 and 4 are perspective views of a preferred embodiment according to the present invention;

FIGS. 5 and 6 are perspective views with the frame removed;

FIG. 7 is a perspective view of a second magnetizing base;

FIG. 8 is a block diagram of the transfer plate and guide assembly;

fig. 9 is an enlarged view at a.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments described below are by way of example only, and other obvious variations will occur to those skilled in the art.

As shown in fig. 1-2, the utility model discloses a wireless magnetism subassembly of charging of cell-phone 100 includes first slide glass 101, cover the second slide glass 102 of first slide glass 101 one side and be located a plurality of first magnet 103 and a plurality of second magnet 104 between first slide glass 101 and the second slide glass 102, a plurality of first magnet 103 constitute an annular magnetic ring, before magnetizing, first magnet 103 and second magnet do not have magnetism, a plurality of second magnet 104 are arranged into one row, lie in the outside of annular magnetic ring and lie in an annular magnetic ring's a diameter, first slide glass 101 is the rectangle, the shape of second slide glass 102 is identical with the shape of arranging of first magnet 103 and second magnet 104, the size of second slide glass 102 is less than the size of first slide glass 101. In use, the first and second slides 101, 102 need only be affixed to the back of the handset or otherwise secured. When carrying out wireless charging, have on the charging seat and have the magnet that corresponds with first magnet 103 and second magnet 104, first magnet 103 and second magnet 104 all have the fixed effect of absorption, and second magnet 104 still has directional effect, and when not receiving external force, under the effect of second magnet 104, the cell-phone can not rotate by oneself.

As shown in fig. 3-9, the multi-pole magnetizing apparatus of the wireless charging magnetic attraction assembly for the mobile phone includes a frame 1, a first mounting plate 2 disposed on the frame 1, a first magnetizing base 31 disposed on the first mounting plate 2, a second magnetizing base 32 disposed on the first mounting plate 2 and located directly above the first magnetizing base 31, and a material moving plate 4 supported on the first magnetizing base 31, wherein the material moving plate 4 can move back and forth, a avoiding hole 401 is disposed on the material moving plate 4, the avoiding hole 401 has a shape the same as that of the second carrying plate 102, and a size equal to or slightly larger than that of the second carrying plate 102, when the magnetic attraction assembly 100 is placed on the material moving plate 4, the second carrying plate 102 is placed in the avoiding hole 401, the first carrying plate 101 is supported on the material moving plate 4, and the magnetic attraction assembly 100 can be supported in the up-down direction and limited in the horizontal plane through the avoiding hole 401.

A first magnetizing core (not shown) for magnetizing the first magnet 103 and a second magnetizing core (not shown) for magnetizing the second magnet 104 are arranged in the first magnetizing base 31, a third magnetizing core 321 for magnetizing the first magnet 103 and a fourth magnetizing core 322 for magnetizing the second magnet 104 are arranged in the second magnetizing base 32, the first magnetizing core and the third magnetizing core are aligned in the up-down direction, the second magnetizing core and the fourth magnetizing core are aligned in the up-down direction, due to the distance between the first magnet 103 and the second magnet 104, the distance between the first magnetizing core and the second magnetizing core is larger than the positions of the first magnet 103 and the second magnet 104, when the magnet is magnetized, the material moving plate 4 can move between a first position, a second position and a second position in the front-back direction, and when the material moving plate is magnetized, the material moving plate 4 can make the magnet attracting holes 401 from the first magnetizing base 31 and the second magnetizing base 31 to expose the front magnetizing base 100 for placing the magnetic attraction component 100; when the material moving plate is at the second position, the first magnet 103 of the magnetic attraction component 100 on the material moving plate 4 is aligned with the first magnetizing mold core and the third magnetizing mold core in the vertical direction, and after the first magnet 103 is magnetized, the material moving plate 4 is moved to the third position; at the third position, the second magnet 104 is aligned with the second magnetizing mold core and the fourth magnetizing mold core in the up-down direction, after the second magnet 104 is magnetized, the material moving plate 4 drives the magnetized magnetic attraction component 100 to return to the first position, and the worker or the material taking equipment takes away the magnetized magnetic attraction component 100. Each magnetizing core comprises an iron core and a coil, belongs to the prior art, and is not detailed here.

Further, the second magnetizing base 32 can move up and down. Specifically, a second mounting plate 33 is disposed on the first mounting plate 2 and directly above the second magnetizing base 32, the second mounting plate 33 is supported on the first mounting plate 2 through two guide rods 358, a lifting plate 35 is disposed on the two guide rods 35 so as to be movable up and down, and the second magnetizing base 32 is disposed on a lower surface of the lifting plate 35. The second mounting plate 33 is provided with a lifting cylinder 36, the cylinder body of the lifting cylinder 36 is arranged on the second mounting plate 33, the cylinder rod of the lifting cylinder 36 extends downwards, the lower end of the cylinder rod is connected with the lifting plate 35, and the lifting cylinder 36 can drive the second magnetizing base 32 to move up and down. When the material moving plate 4 moves, the cylinder rod of the lifting cylinder 36 retracts, and when the magnetic attraction component 100 moves to the first position and the second position for magnetization, the cylinder rod of the lifting cylinder 36 extends out to press the magnetic attraction component 100.

The upper surface of the first magnetizing base 31 is provided with two guiding assemblies, the two guiding assemblies extend along the front-back direction, the material moving plate 4 is located between the two guiding assemblies, and the two guiding assemblies play a role in guiding the material moving plate 4. Each guide assembly comprises a base plate 412 supported on the first magnetizing base 31 and a guide plate 411 supported on the base plate 412, the size of the base plate 412 in the left-right direction is smaller than that of the guide plate 411, the left side of the base plate 412 of the guide assembly on the left side is aligned with the left side of the first magnetizing base 31, the right side of the guide assembly 412 on the right side is aligned with the right side of the first magnetizing base 31, so that guide grooves 413 are formed on the upper surfaces of the guide plate 411, the base plate 412 and the first magnetizing base 31, openings of the two guide grooves 413 in the left-right direction are oppositely arranged, and the left side and the right side of the material moving plate 4 are located in the guide grooves 413 and further play a role in guiding.

When observing along the fore-and-aft direction, second seat 32 that magnetizes is the T type, and the lower extreme of second seat 32 that magnetizes can just insert the middle part of two guide assemblies in, and the subassembly is inhaled to magnetism and is compressed tightly.

Further, a support plate 41 is disposed at the front side of the first magnetizing base 31, the upper surface of the support plate 41 is aligned with the upper surface of the first magnetizing base 31, the pad plate 412 and the guide plate 411 extend right above the support plate 41, the front ends of the pad plate 412 and the guide plate 411 are aligned with the front end of the support plate 41, the left side of the support plate 41 is aligned with the left side of the first magnetizing base 31, and the right side of the support plate 41 is aligned with the right side of the first magnetizing base 31. The supporting plate 41 can support the magnetic attraction component 100 in the avoiding hole 401 to a certain extent.

Further, a first material moving cylinder 42 and a second material moving cylinder 43 are arranged on the first mounting plate 2 and behind the material moving plate 4, an output end of the first material moving cylinder 42 is connected with the material moving plate 4, an output end of the first material moving cylinder 42 extends and retracts in the front-back direction, a cylinder body of the second material moving cylinder 43 is arranged on the first mounting plate 2, a cylinder rod of the second material moving cylinder 43 extends and retracts in the front-back direction, a cylinder body of the first material moving cylinder 42 is supported on a cylinder body of the second material moving cylinder 43 through a mounting frame 44, the mounting frame 44 can move back and forth in the front-back direction relative to the cylinder body of the second material moving cylinder 43, and an output end of the second material moving cylinder 43 is connected with the mounting frame 44. When the output ends of the first material moving cylinder 42 and the second material moving cylinder 43 are both extended, the material moving plate 4 is located at the first position, when the first material moving cylinder 42 is retracted, the material moving plate 4 is located at the second position, and when the first material moving cylinder 42 and the second material moving cylinder 43 are both retracted, the material moving plate 4 is located at the third position. When the material moving device is used, the material moving plate 4 can move back and forth among the first position, the second position and the third position only by controlling the extension and retraction of the first material moving cylinder 42 and the second material moving cylinder 43, and the control is simplified.

The utility model discloses an adopt the mold core that magnetizes to the magnet that does not magnetize to magnetize the principle that belongs to prior art and relevant control and all adopts prior art.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It should be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that all the embodiments and descriptions are provided in the present invention, and that various changes and modifications can be made without departing from the spirit and scope of the present invention, and all such changes and modifications fall within the scope of the present invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. The utility model provides a multipolar equipment of magnetizing of subassembly is inhaled to wireless charging magnetism, the subassembly is inhaled to wireless charging magnetism includes first slide glass, covers the second slide glass of first slide glass one side and is located a plurality of first magnet between first slide glass and the second slide glass, and a plurality of first magnet constitute an annular magnetic ring, and the size of first slide glass is greater than the size of second slide glass, the size of second slide glass is greater than the size of annular magnetic ring, multipolar equipment of magnetizing is used for magnetizing first magnet, its characterized in that includes:

a frame;

the first mounting plate is arranged on the rack;

the first magnetizing seat is arranged on the first mounting plate and is provided with a first magnetizing mold core for magnetizing the first magnet;

the second magnetizing base is arranged on the first mounting plate and is positioned right above the first magnetizing base, and a third magnetizing mold core for magnetizing the first magnet is arranged on the second magnetizing base and is aligned with the first magnetizing mold core in the vertical direction;

the material moving plate is supported on the first magnetizing seat and can move back and forth, a first magnet to be magnetized is placed on the material moving plate to move back and forth between a first position and a second position, an avoiding hole is formed in the material moving plate, the shape of the avoiding hole is consistent with that of the second slide, the avoiding hole is located in front of the first magnetizing seat when the first position is adopted, and the avoiding hole is aligned with the first magnetizing mold core or the second magnetizing mold core in the up-down direction when the second position is adopted.

2. The multi-pole magnetizing apparatus of the wireless charging magnetic assembly according to claim 1, wherein the wireless charging magnetic assembly further comprises a plurality of second magnets disposed between the first slide and the second slide, the plurality of second magnets being arranged in a row, the second slide having a shape matching the shape of the first magnet and the second magnet and a size larger than the shape of the first magnet and the second magnet;

the first magnetizing seat is further provided with a third magnetizing mold core, the second magnetizing seat is further provided with a fourth magnetizing mold core, the third magnetizing mold core is aligned with the fourth magnetizing mold core in the vertical direction, and the third magnetizing mold core and the fourth magnetizing mold core are used for magnetizing a second magnet.

3. The multi-pole magnetizing apparatus of a wireless charging magnetic attraction assembly according to claim 2, wherein the distance between the first magnetizing core and the third magnetizing core is greater than the distance between the first magnet and the second magnet, and the material moving plate is further capable of moving to a third position where the second magnet is aligned with the second magnetizing core and the fourth magnetizing core in the vertical direction.

4. The multi-pole magnetizing apparatus of the wireless charging magnetic attraction assembly according to claim 2 or 3, wherein the second magnetizing base can move up and down.

5. The multi-pole magnetizing apparatus of a wireless charging magnetic suction assembly according to claim 4, wherein a second mounting plate is disposed on the first mounting plate and directly above the second magnetizing base, the second mounting plate is supported on the first mounting plate through two guide rods, a lifting plate is disposed on the two guide rods in a vertically movable manner, and the second magnetizing base is disposed on a lower surface of the lifting plate.

6. The multi-pole magnetizing apparatus of a wireless charging magnetic attraction assembly according to claim 4, wherein two guiding assemblies are disposed on the upper surface of the first magnetizing base, the two guiding assemblies extend along the front-back direction, and the material moving plate is located between the two guiding assemblies; each of the guide assemblies includes:

the backing plate is supported on the first magnetizing seat;

the deflector supports on the backing plate, the backing plate is less than the size of deflector plate in the ascending size of left right direction, and the left side of the backing plate of left direction subassembly aligns with the left side of first seat that magnetizes, and the right side of the direction subassembly on right side aligns with the right side of first seat that magnetizes, forms the guide way at the upper surface of deflector, backing plate and first seat that magnetizes, and two guide ways are in the ascending opening of left right direction and set up in opposite directions, move the left and right sides of flitch and be located the correspondence in the guide way.

7. The multi-pole magnetizing apparatus of a wireless charging magnetic suction assembly according to claim 6, wherein a supporting plate is disposed at a front side of the first magnetizing base, an upper surface of the supporting plate is aligned with an upper surface of the first magnetizing base, the backing plate and the guiding plate extend to a position right above the supporting plate, front ends of the backing plate and the guiding plate are aligned with a front end of the supporting plate, a left side of the supporting plate is aligned with a left side of the first magnetizing base, and a right side of the supporting plate is aligned with a right side of the first magnetizing base.

8. The multi-pole magnetizing equipment of the wireless charging magnetic suction assembly according to claim 3, wherein a first material moving cylinder and a second material moving cylinder are arranged on the first mounting plate and located at the rear side of the material moving plate, the output end of the first material moving cylinder is connected with the material moving plate, the output end of the first material moving cylinder stretches along the front-rear direction, the cylinder body of the second material moving cylinder is arranged on the first mounting plate, the cylinder rod of the second material moving cylinder stretches along the front-rear direction, the cylinder body of the first material moving cylinder is supported on the cylinder body of the second material moving cylinder through a mounting frame, the mounting frame can move back and forth along the front-rear direction relative to the cylinder body of the second material moving cylinder, and the output end of the second material moving cylinder is connected with the mounting frame.

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