KR20160123402A - Magnetic reinforce plate and manufacturing method thereof, portable device case comprising the magnetic reinforce plate - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a magnetic reinforcing plate used to be magnetically attached to a case of a tablet PC, a portable terminal or other portable equipment, a method of manufacturing the same, and a portable device case including the magnet reinforcing plate, Wherein the plate has a main layer of a predetermined thickness formed by at least one magnetic force generating plate insertion hole passing through the top and bottom; Wherein the upper and lower magnetic shield plates are stacked and inserted into the magnetic force generating plate insertion holes of the main layer so that the stacked thickness of the lower and upper magnetic shield plates coincides with the main layer, A magnetic force generating plate into which a magnet plate having the same thickness as the upper magnetic shield plate is inserted; And upper and lower layers laminated on the upper and lower sides of the main layer inserted with the magnetic force generating plate and heated and pressed to be integrated with each other. Accordingly, when the present invention is applied to a case of a portable device, it is possible to prevent the portable device from malfunctioning or turning off due to the magnetic plate.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a magnetic reinforcing plate, a magnetic reinforcing plate, a manufacturing method thereof, and a mobile device case including a magnet reinforcing plate.

The present invention relates to a magnetic reinforcing plate used to be attached to a case of a tablet PC, a portable terminal or other portable equipment such that it is magnetically attached between folded case surfaces when the case is folded, a method of manufacturing the same, To a device case.

1, the conventional portable device casing 10 has a cover plate 11 and a back plate 12 which are foldably coupled to each other, and the end portion of the cover plate 11 and the back plate 12 12, the first magnet type reinforcing plate 20 and the second magnet type reinforcing plate 30 are embedded in the middle portion thereof.

A portable device (not shown) such as a tablet PC is seated on the inner surface of the back plate 12, and the cover plate 11 covers the portable device or, as shown in FIG. 3 or 4, It is in a state of being bent.

As shown in FIG. 2, the first and second magnet type reinforcing plates 20 and 30 have magnet plates 22 and 24, respectively, on the main layers 21 and 31, 32 and the upper and lower layers 23, 24, 33, 34 are laminated and heated and pressed to be integrated.

3, when the portable device is to be used, the first magnet type reinforcing plate 20 embedded in the end portion of the cover plate 11 is bent in a bent state, And can be magnetically coupled to each other by abutting against the second magnet type reinforcing plate 30 built in the intermediate portion.

However, according to the conventional portable device case 10 as described above, particularly due to the magnetic force of the second magnet type reinforcing plate 30 located on the back surface of the portable device, the electronic device built in the portable device is turned off due to malfunction There has been a problem that a phenomenon occurs.

4, the user often operates the portable device while the cover plate 11 is fully tilted. In this case, the first magnet type reinforcing plate 20 on the cover plate 11 side Also, since the portable device is located on the back side of the portable device, there is a problem that the portable device is turned off.

[Prior Art Literature] Patent Registration No. 10-1274572 (Registered on March 31, 2013)

Accordingly, it is an object of the present invention to provide a magnetic reinforcing plate, a method of manufacturing the same, and a portable device casing including the magnet reinforcing plate, which can prevent a malfunction or an off- .

According to an aspect of the present invention, there is provided a magnetic reinforced plate, comprising: a main layer having a predetermined thickness formed by at least one magnetic force generating plate insertion hole passing through the top and bottom; Wherein the upper and lower magnetic shield plates are stacked and inserted into the magnetic force generating plate insertion holes of the main layer so that the stacked thickness of the lower and upper magnetic shield plates coincides with the main layer, A magnetic force generating plate into which a magnet plate having the same thickness as the upper magnetic shield plate is inserted; And an upper and a lower layer laminated on the upper and lower sides of the main layer inserted with the magnetic force generating plate and heated and pressed to be integrated with each other.

Here, the lower and upper magnetic shield plates may be made of cold rolled steel (SPCC) material.

The magnetic force generating plate is vertically adhered to each other via an adhesive layer between the lower magnetic shield plate and the upper magnetic shield plate. The magnet plate is also inserted into the magnet plate insertion hole, It may be bonded to the plate.

In order to achieve the above object, according to the present invention, there is provided a cover plate and a back plate which are foldably coupled to each other, wherein the cover plate and the back plate are folded in a constant correspondence relation, Wherein the first magnet type reinforcing plate and the second magnet type reinforcing plate each have at least one magnetic force generating plate inserting hole formed in the upper and lower through holes A main layer having a predetermined thickness; Wherein the upper and lower magnetic shield plates are stacked and inserted into the magnetic force generating plate insertion holes of the main layer so that the stacked thickness of the lower and upper magnetic shield plates coincides with the main layer, A magnetic force generating plate into which a magnet plate having the same thickness as the upper magnetic shield plate is inserted; And an upper and a lower layer which are laminated on the upper and lower sides of the main layer inserted with the magnetic force generating plate and heated and pressed to be integrated with each other, wherein the first magnet type reinforcing plate is provided on the magnet plate And the second magnet type reinforcing plate is embedded in the back plate so that the lower magnetic shield plate is stacked on the magnet plate in the inner side direction on the outer side surface of the back plate And a case for holding the portable device.

According to another aspect of the present invention, there is provided a method of manufacturing a magnetic reinforcing plate, the method comprising: forming at least one magnetic force generating plate insertion hole in a main layer made of a prepreg sheet containing synthetic resin; A magnetic plate having the same thickness as that of the upper magnetic shield plate is formed in each of a plurality of magnet plate insertion holes formed vertically through the upper magnetic shield plate so as to stack the lower and upper magnetic shield plates having the laminated thickness coinciding with the main layer Inserting a magnetic force generating plate obtained by insertion into each magnetic force generating plate insertion hole of the main layer; And a step of laminating upper and lower layers made of a prepreg sheet containing a synthetic resin on and under the main layer, and heating and pressing the monolithic reinforcement plate.

Here, the magnetic force generating plate may include a step of attaching a double-sided tape to one surface of a first sheet of a steel sheet material to form an adhesive layer; Forming a lower magnetic shield plate by punching a first sheet to which the double-sided tape is attached; A step of punching a second sheet of steel sheet material to form an upper magnetic shield plate coinciding with the lower magnetic shield plate and having a plurality of magnet plate insertion holes vertically penetrating therethrough; Removing the release paper from the double-sided tape attached to the lower magnetic shield plate and bonding the upper magnetic shield plate on the lower magnetic shield plate through the adhesive layer; And inserting a magnet plate having the same thickness as that of the upper magnetic shield plate in each of the plurality of magnet plate insertion holes to adhere on the lower magnetic shield plate via the adhesive layer.

According to another aspect of the present invention, there is provided a method of manufacturing a magnetic reinforcing plate, the method comprising: forming at least one magnetic force generating plate insertion hole in a main layer made of a prepreg sheet containing synthetic resin; And a lower magnetic shield plate having a laminated thickness coinciding with the main layer are laminated to each other, and a plurality of magnet plate insertion holes formed vertically through the upper magnetic shield plate are provided with ferromagnetic bodies each having the same thickness as the upper magnetic shield plate Inserting a magnetic force generating plate obtained by insertion into each magnetic force generating plate insertion hole of the main layer; Forming a magnetic reinforcing plate sheet by stacking upper and lower layers made of a prepreg sheet containing a synthetic resin on upper and lower sides of the main layer and heating and pressing them; Processing the magnetic reinforcing plate sheet to form at least one magnetic reinforcing plate; And applying a magnetic field to the magnetic reinforcing plate to thereby apply a magnetic force to the ferromagnetic body.

As described above, according to the magnet type reinforcing plate of the present invention, the method of manufacturing the magnet type reinforcing plate, and the portable type device including the magnet type reinforcing plate, the magnet plate of the magnet type reinforcing plate is provided with the magnetic shield plate on the side contacting with the portable device The strength of the magnetic field applied to the portable device can be greatly reduced, thereby preventing malfunction or shutdown of the portable device.

1 is a perspective view of a portable device case according to the prior art,
FIG. 2 is a plan view and a side sectional view of a first magnet type reinforcing plate and a second magnet type reinforcing plate incorporated in the portable device case of FIG. 1;
FIG. 3 and FIG. 4 are perspective views showing a use state of the portable device case of FIG. 1,
5 is a plan view and a side sectional view of a first magnet type reinforcing plate and a second magnet type reinforcing plate according to an embodiment of the present invention,
FIG. 6 is an exploded perspective view of the first magnet type reinforcing plate of FIG. 5,
7A to 7H are schematic views for explaining a method of manufacturing a magnet type reinforcing plate according to an embodiment of the present invention.

5A and 6, the first magnetic reinforcing plate 120 according to the embodiment of the present invention includes at least one magnetic force generating plate insertion hole 121a formed in the main layer 121, which is an intermediate layer, The magnetic force generating plate 127 is inserted.

The magnetic force generating plate 127 has lower and upper magnetic shield plates 125 and 126 laminated and inserted into the magnetic force generating plate insertion hole 121a so that the stacked thickness coincides with the main layer 121. [

A plurality of magnet plate insertion holes 126a are formed in the upper magnetic shield plate 126 so as to pass through the upper and lower magnetic shield plates 126, and magnet plates 122 having the same thickness are inserted.

The lower and upper magnetic shield plates 125 and 126 are made of steel material, specifically, a cold rolled steel plate (SPCC). The magnetic force generated from the magnet plate 122 by the lower magnetic shield plate 125 And functions to block much of the downward heading.

The magnetic force generated on both sides of the magnetic plate 122 is cut off by the upper magnetic shielding plate 126. As a result, the magnetic force of the magnet plate 122 is directed only toward the upper portion.

Although the material of the magnetic shield plates 125 and 126 has been described as a cold rolled steel sheet in the present embodiment, the present invention is not limited thereto, and any material can be used as long as it has a function of shielding a magnetic field.

As described above, the upper and lower portions of the main layer 121, into which the magnet plate 122, the upper magnetic shield plate 126 surrounding the magnet plate 122, and the lower magnetic shield plate 125 stacked on the lower surface are inserted, (123) and the lower layer (124) are laminated and heated and pressed to be integrated.

At this time, in order to improve the assembling property of the magnetic force generating plate 127, an adhesive layer (see 128 in FIG. 7D) is formed by attaching a double-sided tape on the lower magnetic shielding plate 125, The upper and lower magnetic shield plates 126 and 126 are laminated so that the upper and lower magnetic shield plates 125 and 126 are bonded to each other via the adhesive layer.

Thereafter, the magnetic plate 122 is inserted into the magnet plate insertion hole 126a and laminated on the lower magnetic shield plate 125 so that the upper magnetic shield plate 125 and the lower magnetic shield plate 125 are exposed through the adhesive layer exposed in the magnet plate insertion hole 126a (See Fig. 7E).

Therefore, all of the components constituting the magnetic force generating plate 127 are integrated with each other through the adhesive layer as described above, which can contribute to the improvement of the overall assemblability of the magnetic reinforcing plate 120.

The second magnet type reinforcing plate 130 according to the embodiment of the present invention has the same lamination structure as the first magnet type reinforcing plate 120 as shown in FIG. 5 (b). That is, the magnetic force generating plate 137 inserted in the middle main layer 131 includes lower and upper magnetic shield plates 135 and 136 stacked with each other, and a magnet plate 132 inserted into the upper magnetic shield plate 136 do. A lower layer 134 and an upper layer 133 are stacked on the upper and lower sides of the main layer 131.

When the first and second magnet type reinforcing plates 120 and 130 having the above-described structure are applied to the portable device case 10 of FIG. 1, the first magnet type reinforcing plate 120 is inserted into the cover plate 11 And is embedded in the same size and same position as the first magnet type reinforcing plate 20 built in the end portion of the first magnet type reinforcing plate 20.

At this time, the lower magnetic shield plate 125 relatively faces the outer surface 11a of the cover plate 11 so that the magnet plate (122 of FIG. 5) faces the inner surface 11a of the cover plate 11, Side).

The second magnet type reinforcing plate 130 according to the embodiment of the present invention is similar to the first magnet type reinforcing plate 120 described above with respect to the second magnet type reinforcing plate 130 built in the middle portion of the back plate 12 of FIG. 30 in the same size and the same position.

At this time, the lower magnetic shielding plate 135 is positioned in the direction of the inner surface 12a of the backplate 12 such that the magnet plate 132 is relatively positioned on the outer surface of the backplate 12, that is, Facing the floor.

3, when the cover plate 11 is folded and bent, the lower magnetic shield plate 125 of the first magnet type reinforcing plate 120 is attached to the second magnet type reinforcing plate 130 of the back plate 12 The magnet plate 132 can be magnetically coupled to each other.

In this case, as shown in FIG. 4, when the cover plate 11 is completely tilted, the magnet plate 122 housed in the first magnet type reinforcing plate 120 is guided to the back surface of the portable device through the lower magnetic shield plate 125 The intensity of the magnetic field applied to the portable device can be greatly reduced through the lower magnetic shielding plate 125. FIG.

Of course, as described above, the magnet plate 132 of the second magnet type reinforcing plate 130 built in the back plate 12 is also disposed on the back surface of the portable device via the lower magnetic shield plate 135, It is possible to prevent the malfunction or the off-state of the battery.

The method of manufacturing a magnetic reinforcing plate according to an embodiment of the present invention includes a step of inserting one or more magnetic force generating plate insertion holes 121a into a main layer 121 made of a prepreg sheet containing synthetic resin, Inserting the magnetic force generating plate 127 into each of the magnetic force generating plate insertion holes 121a of the main layer 121 and the upper and lower layers 123 and 124 ) Are laminated on the upper and lower sides of the main layer 121, and are integrated by heating and pressing. Such a method is generally known in the art described in the above-mentioned Japanese Patent Application No. 10-1274572, Do.

However, since the present invention has a configuration unique to the manufacturing method of the magnetic force generating plate 127, the following description will focus on this.

First, as shown in Fig. 7A, a double-sided tape 2 is attached to one surface of a first sheet 1 of SPCC material to form an adhesive layer. The double-sided tape 2 is attached to the surface of the first sheet 1 in a state in which the release sheets on one side are removed, since the upper and lower release sheets are attached to each other with the adhesive layer interposed therebetween.

As shown in Fig. 7B, the first sheet 1 to which the double-sided tape 2 is attached is punched with a press machine or the like to mold the lower magnetic shield plate 125. Fig. A double-sided tape 128 'is molded in the same shape and attached to the surface of the molded lower magnetic shield plate 125.

Alternatively, as shown in FIG. 7C, the second sheet 3 of steel sheet material is punched to form an upper magnetic shield plate 126 having a shape matching the lower magnetic shield plate 125, The shield plate 126 is punched so that the magnet plate insertion holes 126a are formed so as to pass through the upper and lower portions at the same time.

When the lower magnetic shield plate 125 and the upper magnetic shield plate 126 are prepared as described above, the release sheet is removed from the double-faced tape 128 'on the lower magnetic shield plate 125, The shielding plate 126 is adhered to the lower magnetic shielding plate 125 via the adhesive layer 128 formed on the lower magnetic shielding plate 125.

7E, the magnet plate 122 provided in a separate mold is inserted into each magnet plate insertion hole 126a of the upper magnetic shield plate 126, and the lower magnet plate 122 is inserted into the magnet plate insertion hole 126a through the adhesive layer 128, And adheres on the shielding plate 125.

7F, the magnetic force generating plate 127 to be obtained by the above-described method has a magnetic force generating plate insertion hole (not shown) formed in the prepreg sheet 4 as a raw material of the main layer (121 in FIG. 6) (121a ').

As shown in Fig. 7G, the prepreg sheets 5 and 6, which are the raw materials of the upper and lower layers (123 and 124 in Fig. 6) of the prepreg sheets, Are laminated on the upper and lower surfaces of the prepreg sheet (4), and they are integrated by heating and pressing.

7H, the final product, that is, the magnetic reinforcing plate 120 is formed by CNC or the like.

The magnet plate 122 is inserted into the magnet plate insertion hole 126a in the manufacturing process of the magnetic force generating plate 127. However, according to the process, the magnet plate 122 is magnetized in the state of the ferromagnet before magnetization, The magnetization of the magnetic reinforcing plate 120 is inserted into the fitting hole 126a and magnetization may be performed in a final step, that is, a magnetic force is applied by applying a magnetic field after the magnetic reinforcing plate 120 is formed.

Therefore, in the present embodiment, the magnet plate 122 is not necessarily limited to a magnet that is already magnetized in the magnet plate insertion hole 126a, but should be understood to mean a ferromagnet before being magnetized. .

Since the portable case including the magnetic reinforcing plates 120 and 130 and the manufacturing method thereof and the magnetic reinforcing plates 120 and 130 described above is only one embodiment for facilitating understanding of the present invention, It is difficult to understand that the scope of the invention and the technical scope of the invention are limited to those described above.

The scope of the present invention is defined by the appended claims and their equivalents.

10: Portable device case 11: Cover plate
12: back plate 120: first magnetic reinforcing plate
121: main layer 121a: magnetic force generating plate insertion hole
122: magnet plate 123: upper layer
124: Lower layer 125: Lower magnetic shield plate
126: magnetic shield plate 126a: magnet plate insertion hole
127 magnetic force generating plate 130 second magnetic reinforcing plate

Claims (7)

In the magnetic reinforcing plate,
A main layer having a predetermined thickness through which at least one magnetic force generating plate insertion hole is formed to pass through;
Wherein the upper and lower magnetic shield plates are stacked and inserted into the magnetic force generating plate insertion holes of the main layer so that the stacked thickness of the lower and upper magnetic shield plates coincides with the main layer, A magnetic force generating plate into which a magnet plate having the same thickness as the upper magnetic shield plate is inserted; And
And upper and lower layers laminated on the upper and lower sides of the main layer in which the magnetic force generating plate is inserted and heated and pressed to be integrated with each other. The method according to claim 1,
Wherein the lower and upper magnetic shield plates are made of cold rolled steel (SPCC) material. The method according to claim 1,
The magnetic force generating plate
Wherein the lower magnetic shield plate and the upper magnetic shield plate are vertically bonded to each other through an adhesive layer and the magnet plate is also inserted into the magnet plate insertion hole and bonded to the lower magnetic shield plate through the adhesive layer Magnetic reinforcing plate. The cover plate and the back plate have a first magnet type reinforcing plate and a second magnet type reinforcing plate which are magnetically coupled to each other at portions facing each other in a predetermined correspondence relationship with each other, In the case of a portable device which can be coupled,
Wherein the first magnet type reinforcing plate and the second magnet type reinforcing plate each have a first,
A main layer having a predetermined thickness through which at least one magnetic force generating plate insertion hole is formed to pass through; Wherein the upper and lower magnetic shield plates are stacked and inserted into the magnetic force generating plate insertion holes of the main layer so that the stacked thickness of the lower and upper magnetic shield plates coincides with the main layer, A magnetic force generating plate into which a magnet plate having the same thickness as the upper magnetic shield plate is inserted; And upper and lower layers laminated on the upper and lower sides of the main layer inserted with the magnetic force generating plate and heated and pressed,
Wherein the first magnetic reinforcing plate is embedded in the cover plate so that the lower magnetic shield plate is stacked on the magnet plate in an outer side direction from the inner side surface of the cover plate,
Wherein the second magnet type reinforcing plate is embedded in the back plate so that the lower magnetic shield plate is stacked on the magnet plate in an inner side direction of the outer side surface of the back plate. A method for manufacturing a magnetic reinforcing plate,
Forming one or more magnetic force generating plate insertion holes through the main layer made of a prepreg sheet containing a synthetic resin;
A magnetic plate having the same thickness as that of the upper magnetic shield plate is formed in each of a plurality of magnet plate insertion holes formed vertically through the upper magnetic shield plate so as to stack the lower and upper magnetic shield plates having the laminated thickness coinciding with the main layer Inserting a magnetic force generating plate obtained by insertion into each magnetic force generating plate insertion hole of the main layer; And
And stacking upper and lower layers made of a prepreg sheet containing a synthetic resin on and under the main layer and heating and pressing the monolithic reinforcing sheet. 6. The method of claim 5,
The magnetic force generating plate
Attaching a double-sided tape to one surface of a first sheet of a steel sheet material to form an adhesive layer;
Forming a lower magnetic shield plate by punching a first sheet to which the double-sided tape is attached;
A step of punching a second sheet of steel sheet material to form an upper magnetic shield plate coinciding with the lower magnetic shield plate and having a plurality of magnet plate insertion holes vertically penetrating therethrough;
Removing the release paper from the double-sided tape attached to the lower magnetic shield plate and bonding the upper magnetic shield plate on the lower magnetic shield plate through the adhesive layer; And
And inserting a magnet plate having the same thickness as that of the upper magnetic shield plate into the plurality of magnet plate insertion holes and adhering the magnet plate to the lower magnetic shield plate through the adhesive layer, A method of manufacturing a plate. A method for manufacturing a magnetic reinforcing plate,
Forming one or more magnetic force generating plate insertion holes through the main layer made of a prepreg sheet containing a synthetic resin;
And a lower magnetic shield plate having a laminated thickness coinciding with the main layer are laminated to each other, and a plurality of magnet plate insertion holes formed vertically through the upper magnetic shield plate are provided with ferromagnetic bodies each having the same thickness as the upper magnetic shield plate Inserting a magnetic force generating plate obtained by insertion into each magnetic force generating plate insertion hole of the main layer;
Forming a magnetic reinforcing plate sheet by stacking upper and lower layers made of a prepreg sheet containing a synthetic resin on upper and lower sides of the main layer and heating and pressing them;
Processing the magnetic reinforcing plate sheet to form at least one magnetic reinforcing plate; And
And applying a magnetic field to the magnet type reinforcing plate to thereby apply a magnetic force to the ferromagnetic body.

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