KR20150102173A - Apparatus for manufacturing ferrite sheet - Google Patents

Abstract

The present invention relates to an apparatus for manufacturing a ferrite sheet. The apparatus for manufacturing a ferrite sheet includes: a first loading part which supplies an upper tape; an input part which supplies a ferrite sheet to the upper tape supplied by the first loading part and attaches the same; a second loading part which supplies a lower tape to the lower part of the ferrite sheet attached to the upper tape; an X axis breaker which shreds a laminate where the ferrite sheet is attached to the upper and lower sheets supplied by the first and second loading parts in the direction of the X axis; a Y axis breaker which shreds the ferrite sheet shredded in the X axis in the direction of the Y axis; and an unloading part which discharges the laminate to which the shredded ferrite sheet is attached.

Description

[0001] APPARATUS FOR MANUFACTURING FERRITE SHEET [0002]

The present invention relates to a ferrite sheet production apparatus, and more particularly, to a ferrite sheet production apparatus capable of improving the manufacturing efficiency by improving a process of attaching a ferrite sheet to a film and a process of crushing the ferrite sheet.

Generally, ferrite is a type of iron structure, and is a solid solution in which alloying elements or impurities are dissolved in iron of a body-centered cubic crystal stable at 900 占 폚 or lower. Such a ferrite is a kind of magnetic material represented by MO.Fe3O4. These ferrites have various kinds and are used for electromagnetic wave absorption, trans material, magnetic amplifier material, high frequency coil, and the like.

Particularly, in recent years, technologies for the influence of electromagnetic waves on the human body are being developed due to an increase in use of electronic communication devices and electronic products such as smart phones. Accordingly, an electromagnetic wave shielding material has been developed to shield electromagnetic waves, and a ferrite sheet is mainly used as an example of such a shielding material.

The ferrite sheet is produced by mixing a ferrite powder with a binder or the like to form a ferrite sheet compact, and sintering the ferrite sheet compact. The ferrite sheet is used as an electromagnetic shielding material because a protective film (Protect film) and an adhesive tape (Adhesive Tape) are adhered on both sides.

However, the conventional ferrite sheet has a high permeability but is weak against mechanical stress or impact, so it is easily broken even in a weak impact, and is hard and brittle. Therefore, it is difficult to adhere to a curved surface or a rugged surface of an object to be attached.

Patent Application No. 10-2012-101611 (Title: Automatic Manufacturing Apparatus and Manufacturing Method of Ferrite Composite Sheet Split into a Number of Parts)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide a ferrite sheet which can prevent the waste light from being broken during the manufacturing process, And to provide a manufacturing apparatus.

According to an aspect of the present invention, there is provided a tape loading apparatus comprising: a first loading unit for supplying an upper tape;

A charging unit for charging and attaching the ferrite sheet to the upper tape supplied through the first loading unit;

A second loading unit for supplying a lower tape to a lower portion of the ferrite sheet to which the upper tape is attached;

An X-axis breaker for crushing a laminated sheet having a ferrite sheet attached thereto on the upper and lower sheets fed by the first and second loading portions in the X-axis direction;

A Y-axis breaker for crushing the ferrite sheet crushed in the X-axis direction in the Y-axis direction; And

And an unloading portion for discharging the laminated structure having the crushed ferrite sheet attached thereto.

As described above, according to an embodiment of the present invention, after attaching a protective sheet member to a ferrite sheet, the ferrite sheet is broken in the X-axis and Y-axis directions to form a plurality of pieces, And the production efficiency can be increased.

1 is a side view schematically showing the structure of a ferrite sheet producing apparatus according to the present invention.
FIG. 2 is a side view showing the structure of the ferrite sheet manufacturing apparatus shown in FIG. 1 in more detail.
3 is a plan view of Fig.
FIG. 4 is a perspective view schematically showing the structure of the X-axis breaker shown in FIG. 1. FIG.
FIG. 5 is a schematic view showing a process of crushing a ferrite sheet by the X-axis breaker shown in FIG.
FIG. 6 is a schematic view illustrating the structure of the Y-axis breaker shown in FIG. 1. FIG.
FIG. 7 is a schematic view showing a process of breaking the ferrite by the Y-axis breaker shown in FIG.

Hereinafter, an apparatus for producing a ferrite sheet according to the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIGS. 1 to 7, the ferrite sheet manufacturing apparatus 10 proposed by the present invention includes a first loading section 12 for supplying an upper tape T1; A charging section 14 for charging and attaching the ferrite sheet F to the upper tape T1 supplied through the first loading section 12; A second loading section 22 for feeding the lower tape T2 to a lower portion of the ferrite sheet F to which the upper tape T1 is attached; An X-axis breaker 16 for crushing a laminate S having a ferrite sheet F attached thereto on the upper and lower sheets F supplied by the first and second loading portions 22 in the X-axis direction; A Y-axis breaker 18 for crushing the ferrite sheet F crushed in the X-axis direction in the Y-axis direction; And an unloading section 20 for discharging the laminate S to which the crushed ferrite sheet F is adhered.

In the ferrite producing apparatus having the above structure, the first loading section 12 winds up the upper tape T1 attached to the upper part of the ferrite sheet F, draws it if necessary, and feeds it along the pass line P (14).

The first loading portion 12 removes the protective film adhered to the surface of the upper tape T1 released from the first winding roller 11 by the first winding roller 11 on which the upper tape T1 is wound, And a first take-up roller (13).

The upper tape T1 wound on the first winding roller 11 has an adhesive layer disposed on its upper surface and a protective film wound on the surface of the adhesive layer. Therefore, when the upper tape T1 is moved or wound, the upper tape T1 can be prevented from adhering to each other due to the protective film.

When the upper tape T1 is released from the first take-up roller 11 and is transported along the path line P toward the charging unit 14, the protective film is first removed and the adhesive layer is exposed in the lower portion The ferrite sheet F can be adhered to the adhesive layer 14 by being supplied to the charging portion 14. [ At this time, the tip of the protective film is separated from the upper tape T1 by the operator in advance, wound around the first take-up roller 13, and then transferred to the insertion portion 14 by the upper tape T1, Can be separated.

The charging unit 14 attaches the ferrite sheet F to the bottom surface of the upper tape T1. More specifically, the charging unit 14 includes a frame 26; A pressing roller 25 provided on the frame 26 to press the upper tape T1 in the downward direction from the upper side; A cylinder assembly 27 for moving up and down the pressure roller 25; And an eccentric tooth 31 provided at the lower portion of the frame 26 to raise the ferrite sheet F stacked in the direction of the upper tape T1.

The cylinder assembly 27 is disposed on the upper part of the frame 26, and the cylinder can move up and down. A pressure roller 25 is mounted on the lower part of the cylinder. The pressure roller 25 is lowered when the cylinder is lowered so that the upper portion of the upper tape T 1 is pressed so that the adhesive layer on the lower surface is attached to the upper surface of the ferrite sheet F rising from the lower portion.

The enemy tooth 31 is positioned below the pass line P and the lifting / descending is raised / lowered by a servo motor (Servo motor) 24.

In this embodiment, the ferrite sheet (F) is placed on at least one of the ferrite sheets (F). Then, the servo motor 24 is driven to rise in the bottom surface direction of the upper tape T1, and the upper surface thereof can be attached to the adhesive layer.

Through this process, the ferrite sheet F can be attached to the bottom adhesive layer of the upper tape T1.

After the ferrite sheet F is attached to the bottom surface of the upper tape T1, the upper tape T1 is conveyed along the pass line P to the lower tape adhering portion 22.

The second loading section 22 attaches the lower tape T2 to the bottom surface of the conveyed ferrite sheet F. [

More specifically, the second loading section 22 includes a second winding roll 33 on which the lower tape T2 is wound; An attaching roller 38 for attaching the lower tape T2 released from the second take-up roll path 33 to the bottom surface of the ferrite sheet F; And a second winding roll 35 around which the protective film removed from the lower tape T2 is wound.

The second loading portion 22 also has a structure similar to that of the first loading portion. That is, the adhesive layer is disposed on the surface of the lower tape, and the protective film is attached to the surface of the adhesive layer, thereby preventing the lower tape T2 from sticking to each other.

When the lower tape T2 is unwound from the second take-up roll 33, the protective film is wound around the second winding roll 35 so that the protective film can be naturally removed from the lower tape T2.

The lower tape T2 from which the protective film has been removed can be fed to the attachment roll 38 via the guide roll 39. [

At this time, the adhesive layer of the lower tape T2 can be supplied to the adhering roll 38 in an exposed state in the upward direction.

Then, the attachment roll 38 is rotated, so that the lower tape T2 can be attached to the bottom surface of the ferrite sheet F by pressing.

As described above, the ferrite sheet F is further attached to the bottom surface of the ferrite sheet F while passing through the second loading portion 22, so that the upper tape T1 is attached to the upper surface of the ferrite sheet F and the lower tape T2 To form a laminate S of the structure to which the laminate S is attached.

The joint S in which the ferrite sheet F is disposed at the center can be crushed to a certain size by being supplied to the X-axis breaker 16.

The X-axis breaker 16 will be described in more detail. The X-axis breaker 16 includes an inlet roller R1 that is disposed in the inlet side and guides the lint S; A crushing roller (R2) for crushing the supplied stock (S) in the X direction by repeated bending up and down; And a driving roller R3 disposed on the output side and discharging the laminate S to the input pitch.

The inlet rollers R1 are configured as upper and lower pairs, and the lips S pass between the pair of inlet rollers R1. The crushing roller R2 is constituted by a pair of upper and lower rollers, and a plurality of ferrite sheets F attached to the laminate S can be crushed by passing the laminate S therebetween.

That is, since a plurality of ferrite sheets F are arranged at regular intervals on the inner side of the laminate S, a clearance is formed between the respective ferrite sheets F. Therefore, when the laminate S is sandwiched between the pair of the crushing rollers R2, The ferrite sheet F can be crushed in the X-axis direction by the crushing roller R2 pressing the clearance.

In the above description, one set of the pair of crushing rollers R2 has been described. However, the present invention is not limited to this and two sets of crushing rollers R2 may be arranged.

When the pair of shredding rollers R2 are arranged in two sets at regular intervals, by making the heights of the shredding rollers R2 different from each other, the ferrite sheet F passing therethrough is successively bent, .

The first roller R4 and the second roller R5 are disposed on the entrance side and the exit side of the pair of crushing rollers R2 to guide the web S, respectively.

The shredded lumber S is conveyed to the Y-axis breaker 18 at a predetermined pitch by passing between drive rollers R3 constituted by a pair of upper and lower rollers.

The Y-axis breaker 18 breaks the ferrite sheet F crushed in the X-axis direction again in the Y-axis direction.

This Y-axis breaker 18 includes a frame 36; A pair of cylinders (42, 44) arranged on the frame (36) in the Y axis direction; A moving body 50 moving in the Y-axis direction along the cylinders 42 and 44; A Y-axis pressing roller R6 mounted on the moving body 50 for pressing and breaking the ferrite sheet F; And a Z-axis cylinder 52 mounted on the moving body 50 for moving the Y-axis pressing roller R6 upward and downward.

The moving body 50 is mounted on a pair of cylinders 42 and 44 and can reciprocate along the Y axis direction when the cylinder motor is driven.

Then, the Z-axis cylinder 52 is moved upward and downward to move up and down the Y-axis pressurizing roller R6 so as to approach the joint S.

The Y-axis pressing roller R6 is connected to the lower portion of the moving body 50 by a connecting bar 54. [ Accordingly, when the Z-axis cylinder 52 is driven, it is lowered to come into contact with the upper surface of the stock S, and the ferrite sheet F is crushed to a predetermined size by pressing the laminate S by a constant pressure.

At this time, since the ferrite sheet F is crushed in the X-axis direction in the previous step, the ferrite sheet F can be more easily broken in the present step than in the case of pressing in the Y-axis direction.

As described above, the ferrite sheet F is crushed by being pressed in the X-axis and Y-axis directions, so that the ferrite sheet F can be finally crushed into a predetermined particle shape.

As a result, the ferrite sheet (F) is crushed, so that the laminate (S) is entirely flexible and can be prevented from being crushed by an external impact.

The joint S passing through the Y-axis breaker 18 can be wound through the unloader 20.

That is, the unloader 20 includes a third winding roll 62 for winding the shredded stock S; And a guide roll 64 arranged in pairs on the inlet side of the third winding roll and guiding the laminate S to the third winding roll.

The unloader 20 having such a structure is configured such that when the laminated paper S is discharged from the Y-axis breaker 18, the laminated paper S passes between the pair of guide holes 64 and reaches the third winding roll 62 Approach. Then, the third web roll 62 is rotated, whereby the web S can be wound.

10: Ferrite sheet manufacturing apparatus
12: First loading section
14:
16: X-axis breaker
18: Y-axis breaker
20: Unloading section

Claims (6)

A first loading portion for supplying the upper tape;
A charging unit for charging and attaching the ferrite sheet to the upper tape supplied through the first loading unit;
A second loading unit for supplying a lower tape to a lower portion of the ferrite sheet to which the upper tape is attached;
An X-axis breaker for crushing a laminated sheet having a ferrite sheet attached thereto on the upper and lower sheets fed by the first and second loading portions in the X-axis direction;
A Y-axis breaker for crushing the ferrite sheet crushed in the X-axis direction in the Y-axis direction; And
And an unloading portion for discharging the laminated structure having the crushed ferrite sheet attached thereto. The method according to claim 1,
Wherein the first loading portion includes a first winding roller around which an upper tape is wound and a first winding roller for removing a protective film adhered to a surface of the upper tape unwound from the first winding roller,
The second loading portion includes a second winding roller on which the lower tape is wound; An attaching roller for attaching the lower tape pulled from the second winding roller to the bottom surface of the ferrite sheet; And a second winding roller around which a protective film removed from the lower tape is wound. The method according to claim 1,
Wherein the charging unit comprises: a frame; A pressing roller provided on the frame for pressing the upper tape in a downward direction; A cylinder assembly for moving the pressure roller up and down; And an eccentric tooth provided at a lower portion of the frame to raise the stacked ferrite sheet in the direction of the upper tape. The method according to claim 1,
The X-axis breaker includes an inlet roller disposed on an inlet side and guiding a laminate; A pair of crushing rollers for crushing the supplied joint in the X direction by repeatedly bending the supplied joints upward and downward; And a driving roller disposed on the output side for discharging the laminate to an input pitch,
Wherein the pair of crushing rollers are arranged at a certain distance from each other and arranged at different heights so that the ferrite sheet can be repeatedly crushed. The method according to claim 1,
The Y-axis breaker comprising: a frame; A pair of cylinders arranged on the frame in the Y-axis direction; A moving body moving in the Y-axis direction along the cylinder; A Y-axis pressure roller mounted on a moving body for pressing and breaking the ferrite sheet; And a Z-axis cylinder mounted on the moving body for moving the Y-axis pressure roller up and down. The method of claim 3, wherein
And a plate on which the ferrite sheet is mounted, the plate being mounted on an upper portion of the servo motor.

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