CN219901924U - Rectangular shape magnet tool of polylith magnet monomer equipment - Google Patents

Abstract

The utility model discloses a strip-shaped magnet jig for assembling a plurality of magnet monomers, which comprises a push plate, a top plate and a magnetic attraction plate, wherein the magnetic attraction plate comprises a bottom plate, an end plate and a side plate, the end plate is arranged at one end of the bottom plate, the side plate is arranged on the bottom plate, one end of the side plate is abutted against the side wall of the end plate to form an assembly area, the push plate pushes the plurality of magnet monomers which are arranged on the bottom plate and the side plate at intervals into the assembly area and abutted against the end plate, a jack which vertically penetrates through a body of the base plate is arranged on the bottom plate at least in a vertical projection plane of the assembly area, a plurality of first glue overflow holes which are communicated with the jack are formed in parallel, and the top plate upwards penetrates through the jack to jack up the strip-shaped magnet. According to the utility model, the plurality of magnet units are positioned through the magnetic attraction plate, the phenomenon of dislocation and displacement of the magnet units caused by repulsive force between the magnet units during assembly is avoided by utilizing the magnetic attraction effect on the magnet units, glue overflow holes can be prevented from affecting the positions of the magnet units due to the fact that glue is spread on the magnetic attraction plate, and the accuracy of magnet assembly is ensured.

Description

Rectangular shape magnet tool of polylith magnet monomer equipment

Technical Field

The utility model relates to the technical field of magnet assembly, in particular to a jig for assembling a plurality of magnet monomers into a strip-shaped magnet.

Background

An elongated magnet 100 (shown in fig. 3) is installed in the housing of the notebook computer display, and functions to attract the inductive switch when the notebook computer display is assembled, and the notebook computer enters a screen-off or sleep state after the inductive switch is attracted. The strip magnet is formed by bonding a plurality of magnet units, and the magnet units shown in fig. 3 are not the same shape, and may be horizontally or vertically arranged, so that the magnetic poles are not orderly arranged, i.e. the N poles and the S poles are not orderly arranged, and the magnet units are required to be assembled after being magnetized. When the magnetized magnet monomer is assembled, the magnet monomer can not be positioned and bonded accurately due to repulsive force between magnetic poles, and the appearance and quality of the product are affected.

Disclosure of Invention

The utility model aims to provide a strip-shaped magnet jig for assembling a plurality of magnet monomers, wherein the magnet monomers are positioned through a magnet suction plate, the phenomenon of dislocation and displacement of the magnet monomers caused by repulsive force between the magnet monomers during assembling is avoided by utilizing the magnetic suction effect on the magnet monomers, overflowing glue holes are arranged to avoid overflowing glue from remaining on the magnet suction plate, the position of the magnet monomers is prevented from being influenced by the fact that the glue is tiled on the magnet suction plate, and the accuracy of magnet assembling is ensured.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides a rectangular shape magnet tool of polylith magnet monomer equipment, includes push pedal, roof and magnetism suction plate, magnetism suction plate includes bottom plate, end plate and curb plate, the end plate sets up in the one end of bottom plate, the curb plate set up on the bottom plate and one end with the lateral wall looks butt of end plate forms the equipment district, the push pedal will interval arrangement a plurality of magnet monomers on bottom plate and curb plate push into in the equipment district and with the end plate butt, be located on the bottom plate at least be equipped with the jack that vertically runs through its body in the perpendicular projection face of equipment district, and the parallel be equipped with a plurality of first glue spilling holes with the jack intercommunication, the roof upwards passes the jack-up rectangular magnet.

As further optimization, the side plates are provided with identification lines for positioning the magnet units, and the identification lines are used for initially positioning the plurality of magnet units.

As a further optimization, the insertion holes are parallel to the side plates and are positioned in the middle of the vertical projection plane of the bottom plate in the assembly area.

As a further optimization, the length of the insertion hole is larger than that of the assembly area, so that the top plate can be ensured to act on all the magnet monomers.

As further optimization, a plurality of second glue overflow holes are formed in the side plates, and the second glue overflow holes are communicated with the first glue overflow holes.

As a further optimization, one side of the first glue overflow hole and one side of the second glue overflow hole, which are far away from each other, are protruded out of the assembly area, so that the overflowed glue is easy to flow out.

As further optimization, two assembly areas are formed in parallel with the side plates, so that the utilization rate of the magnetic attraction plate is improved, and the assembly efficiency is improved.

As a further optimization, the jig further comprises a side pressing plate, wherein the side pressing plate is abutted against one end, far away from the side plate, of the magnet monomer and is used for guiding the magnet monomer in the horizontal direction during assembly.

As a further optimization, the jig further comprises an upper pressing plate, wherein the upper pressing plate is abutted to the upper end of the magnet unit and used for guiding the magnet unit in the vertical direction during assembly.

As further optimization, the magnetic suction plate is of an integrated structure and is provided with a Teflon coating, and overflow glue remained on the magnetic suction plate is easy to clean.

Compared with the prior art, the utility model has the following beneficial effects:

1. the magnet units are positioned through the magnetic attraction plate, the dislocation and displacement phenomena of the magnet units caused by the repulsive force of the magnet units during assembly are avoided by utilizing the magnetic attraction effect on the magnet units, and the accuracy of magnet assembly is ensured;

2. glue overflows between the abutting faces of the magnet monomers can flow out through the glue overflow holes, so that the glue is prevented from remaining on the magnetic attraction plate, the situation that the glue is spread on the magnetic attraction plate to affect the positions of the magnet monomers is avoided, and the accuracy of magnet assembly is guaranteed;

3. through setting up the glue overflow hole, avoid glue to remain on taking the magnetism to inhale the board, be convenient for clear up magnetism and inhale the board.

Drawings

Fig. 1 is a structural diagram of the present utility model.

Fig. 2 is an enlarged view at a in fig. 1.

Fig. 3 is a schematic diagram of the magnet of the present utility model assembled on a jig.

Fig. 4 is a block diagram of another embodiment of the present utility model.

Detailed Description

The following are specific embodiments of the present utility model and the technical solutions of the present utility model will be further described with reference to the accompanying drawings, but the present utility model is not limited to these embodiments.

As shown in fig. 1 to 2, a strip-shaped magnet jig assembled by a plurality of magnet units comprises a push plate 1, a top plate 2 and a magnetic attraction plate 3, wherein the magnetic attraction plate 3 can be attracted by the magnet units, the magnetic attraction plate 3 comprises a bottom plate 31, an end plate 32 and a side plate 33, the end plate 32 is arranged at one end of the bottom plate 31, the side plate 33 is arranged on the bottom plate 31, one end of the side plate 33 is abutted to the side wall of the end plate 32 to form an assembly area 30, the push plate 1 pushes the magnet units which are arranged on the bottom plate 31 and the side plate 33 at intervals into the assembly area 30 and is abutted to the end plate 32, a jack 301 which vertically penetrates through a body of the assembly area 30 is arranged on the bottom plate 31 at least in a vertical projection plane of the assembly area 30, a plurality of first glue overflow holes 302 which are communicated with the jack 301 are arranged in parallel in the assembly area 30, the positions of the first glue overflow holes are located below adjacent magnet unit abutting surfaces (bonding surfaces), and the top plate 2 upwards penetrates through the jack 301 to jack-up the strip-shaped magnet 100.

According to the utility model, a plurality of magnet units are arranged on a bottom plate at intervals, the side wall of one side of each magnet unit is abutted against a side plate, the magnetic attraction plates and the magnet units are mutually attracted, so that the magnet units can be firmly placed, glue is coated on the side wall of one side of each magnet unit, which is close to each other, after the magnet units are completely arranged, the magnet units are pushed to an assembly area through pushing plates to act on the outermost magnet units, so that the magnet units are abutted against each other one by one and are abutted against the assembly area together to form a strip magnet (shown in fig. 3), after a certain time of lamination, after the adhesive force of the glue is stable, the strip magnet is jacked upwards through a top plate through an insertion hole (the requirement is that the attraction force between the magnetic attraction plates and the magnet units is larger than the repulsive force generated between the magnet units, so that the magnet units are always abutted against the bottom plate and the side plate, and the magnet units are prevented from being misplaced or moving out of the assembly area due to the repulsive force effect); in addition, through setting up the glue overflow hole, can avoid glue to spill over the free butt face of magnet and influence the high position of magnet on the bottom plate, improve the accuracy of equipment.

The side plate 31 is provided with a marking line 331 for positioning the magnet units, a plurality of magnet units are placed at the corresponding marking lines, the interval between the magnets is ensured, and the marking lines can be wire grooves formed in the side plate.

The insertion hole 301 is parallel to the side plate 33 and is located in the middle of the vertical projection surface of the assembly area 30 on the bottom plate 31, so that the top plate passes through the insertion hole and then jacks up the middle of the assembled long-strip magnet, and the force application position is prevented from being located at the side edge of the long-strip magnet.

The length of the insertion hole 301 is greater than that of the assembly area 30, and the length of the top plate is greater than that of the strip magnets, so that the strip magnets can be fully jacked up, and the influence of uneven stress of magnet monomers on two sides on the bonding fastness is avoided.

Be equipped with a plurality of second glue overflow holes 303 on the curb plate 33, second glue overflow holes 303 are linked together with first glue overflow hole 302, all set up the glue overflow hole in rectangular magnet's lower extreme and side, can be favorable to the outflow that overflows glue after the mutual extrusion of magnet monomer more, avoid rectangular magnet bonding bottom plate and curb plate.

The sides of the first glue overflow holes 302 and the second glue overflow holes 303, which are far away from each other, are protruded from the assembly area 30, and as the glue surface can cover the magnet as much as possible when glue is dispensed on the side wall of the magnet, when the adjacent magnet is extruded, the glue can form a larger tiling area and overflow the bonding surface of the magnet, so that the glue overflowed from the glue overflow holes protruded from the assembly area is more favorable for flowing out the overflowed glue, and the glue is prevented from remaining on the bottom plate and the side plate.

In the present utility model, two parallel side plates 33 are provided, so that two assembly areas 30 are formed, and the utilization rate of the jig can be improved.

As shown in fig. 4, in another embodiment of the present utility model, the fixture further includes a side pressing plate 5, where the side pressing plate abuts against one end of the magnet unit away from the side plate 33; and the upper pressing plate 4 is abutted against the upper end of the magnet monomer.

When assembling the magnet monomer, place on the bottom plate through the lateral wall with side pressure board butt in magnet to with top plate butt in the upper end of curb plate, the in-process that promotes the magnet monomer of interval arrangement to the equipment district through the push pedal can guarantee the accuracy that the magnet monomer removed, avoids producing the dislocation each other.

The magnetic suction plate 3 is of an integrated processing and forming structure, is provided with a Teflon coating, and is easy to remove the glue remained on the surface of the magnetic suction plate.

The specific embodiments described herein are offered by way of example only to illustrate the spirit of the utility model. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the spirit of the utility model or exceeding the scope of the utility model as defined in the accompanying claims.

Claims (10)

1. The utility model provides a rectangular shape magnet tool of polylith magnet monomer equipment, its characterized in that, includes push pedal, roof and magnetism suction plate, magnetism suction plate includes bottom plate, end plate and curb plate, the end plate sets up in the one end of bottom plate, the curb plate set up on the bottom plate and one end with the lateral wall looks butt of end plate forms the equipment district, the push pedal will interval arrangement a plurality of magnet monomers on bottom plate and curb plate push into in the equipment district and with the end plate butt, be located on the bottom plate at least be equipped with the jack that vertically runs through its body in the perpendicular projection plane of equipment district, and the parallel is equipped with a plurality of first glue spilling holes with the jack intercommunication, the roof upwards passes the jack-up rectangular magnet.

2. The jig for assembling a plurality of magnet units into a strip-shaped magnet according to claim 1, wherein the side plates are provided with identification lines for positioning the magnet units.

3. The jig of claim 1, wherein the insertion hole is parallel to the side plate and is located in the middle of the assembly area on the vertical projection plane of the bottom plate.

4. A multi-piece magnet unitary assembly bar magnet jig according to claim 1 or 3 wherein the length of the receptacle is greater than the length of the assembly area.

5. The jig for assembling a plurality of magnet units into a strip-shaped magnet according to claim 1, wherein the side plates are provided with a plurality of second glue overflow holes, and the second glue overflow holes are communicated with the first glue overflow holes.

6. The jig of claim 5, wherein the sides of the first and second glue holes away from each other protrude from the assembly area.

7. The jig for assembling a plurality of magnet units into a strip-shaped magnet according to claim 1, wherein two of the assembling areas are formed in parallel with the side plates.

8. The jig of claim 1, further comprising a side pressure plate, wherein the side pressure plate is abutted to an end of the magnet unit away from the side plate.

9. The jig for assembling a plurality of magnet units into a strip-shaped magnet according to claim 1 or 8, further comprising an upper pressing plate, wherein the upper pressing plate abuts against the upper end of the magnet unit.

10. The jig for assembling a plurality of magnet units into a strip-shaped magnet according to claim 1, wherein the magnet plate is of an integrally formed structure and is provided with a teflon coating.