KR20120069790A - Magnetic polymer sheet having adhesives - Google Patents

Abstract

The present invention relates to an adhesive magnetic polymer sheet which imparts magnetism to a nonmagnetic metal sheet so as to carry the nonmagnetic metal sheet using a magnetic chuck.
The adhesive magnetic polymer sheet of the present invention is made of a polymer such as PVC or PET and a magnetic material such as iron (Fe), copper (Cu), or cobalt (Co), and formed into a sheet. It is a structure in which an adhesive layer coated with an adhesive is laminated on one surface of a magnetic polymer sheet.
The adhesive magnetic polymer sheet of the present invention is attached to one side of a non-magnetic metal sheet such as aluminum, copper, or titanium through the adhesive layer, thereby enabling the transport of the non-magnetic metal sheet using a magnetic chuck.

Description

Magnetic polymer sheet having adhesives

The present invention is for transporting a non-magnetic metal sheet using a magnetic chuck, more specifically, by forming an adhesive layer on one side of the polymer sheet containing a ferromagnetic component to attach to the back of the non-magnetic metal sheet to be transported The non-magnetic metal material can be transported by using a magnetic chuck.

A magnetic chuck is mainly used for carrying a metal plate made of ferromagnetic material such as iron, nickel, and cobalt. In addition, a vacuum chuck is commonly used to transport a nonmagnetic material having a smooth surface such as glass.

 However, magnetic chucks cannot be used to transport nonmagnetic materials such as aluminum, copper, and titanium or non-magnetic stainless plates, and since these non-magnetic metal materials generally do not have the smoothness of the glass surface. Transport using a vacuum chuck is also impossible.

Therefore, when transporting the non-magnetic metal sheet as described above is carried in a state in which it is fixed by using a separate clamp, the fixing and conveying work using such a clamp is a significant hassle and time delay.

In the case of transporting a glass plate material or a high smoothness nonmagnetic material by using a vacuum chuck, the weight has a limit, and the adhesion force is greatly reduced depending on the surface state of the material. It must be done in a limited way.

On the other hand, Korean Patent Registration No. 10-0955174 discloses a magnetic chuck having a vacuum chuck function to enable the transport of magnetic materials as well as non-magnetic materials by adding the function of the vacuum chuck to the existing magnetic chuck. According to the patent, the support projections having the vacuum grooves connected to the vacuum passage on the attachment surface of the magnetic chuck are arranged in a lattice shape so that the vacuum negative pressure acts on the surface of the non-magnetic material to be brought into contact with the support projections to transport even the nonmagnetic materials. To make this happen.

However, since the non-magnetic material that can be transported by using the vacuum chuck function in the patent assumes that the surface has a high smoothness, the range of the non-magnetic material that can be transported is extremely limited, and the limitation of the vacuum chuck itself is limited. Therefore, it is impossible to transport nonmagnetic materials having a certain weight or more.

SUMMARY OF THE INVENTION The present invention has been made to solve the conventional problems pointed out when transporting a nonmagnetic material. The present invention relates to a nonmagnetic metal sheet material so as to enable the transport of a nonmagnetic metal sheet material using a magnetic chuck which is used for conveying a conventional magnetic metal material. An object of the present invention is to provide an adhesive magnetic polymer sheet attached to the back surface.

The above object of the present invention is achieved by an adhesive magnetic polymer sheet comprising a polymer sheet containing a magnetic material and an adhesive layer formed on one side of the polymer sheet.

The polymer sheet may be formed of a polymer ferromagnetic material such as iron (Fe), nickel (Ni), cobalt (Co), or a ferrite strontium ferrite, cobalt ferrite, or the like in a polymer material such as PVC or PET. It consists of a composition containing ferromagnetic material.

The adhesive layer formed on one side of the polymer sheet is made of an adhesive such as an acrylic resin widely used in a protective film, and is coated or coated on one side of the polymer sheet by a conventional method to form an adhesive layer.

Such a manufacturing process of the magnetic polymer sheet of the present invention is similar to a conventional plastic bag manufacturing process, which will be described briefly as follows.

First, a polymer raw material such as FVC is sufficiently mixed with a ferromagnetic material such as iron. Subsequently, the mixed raw materials are heated to about 160 ° C. to prepare a magnetic polymer sheet according to a conventional plastic bag manufacturing process.

At this time, the volume fraction of the magnetic material relative to the polymer in the magnetic polymer sheet is approximately 5? 50% is appropriate. If the volume fraction of the magnetic material is less than 5%, the magnetic material polymer sheet may not be properly attached to the magnetic chuck due to the lack of ferromagnetic components. If the content exceeds 50%, the polymer sheet itself is easily torn. It is desirable to maintain the volume fraction range of.

Distribution of the magnetic material in the magnetic polymer sheet may take various forms. That is, the shape of the magnetic material included in the polymer as the matrix structure does not need to be distributed in a specific form. As a representative example of the specific form, the layered and magnetic material particles in which the sheet-like thin magnetic material has a layered structure are polymerized. And a dispersion type in which the magnetic particles composed of finely dispersed particles and fine particles or powders are uniformly dispersed therein.

Next, an adhesive layer is formed on one side of the magnetic polymer sheet made of a polymer and a magnetic material as described above, and the adhesive layer is formed by applying an adhesive on the whole or part of one side of the polymer sheet. The adhesive layer may be sufficient to maintain the adhesive strength enough to maintain a stable adhesive state without being peeled off during the process of attaching the adhesive magnetic polymer sheet of the present invention to the nonmagnetic metal sheet material, which is the adherend, to the magnetic chuck.

When the adhesive layer is formed on the magnetic polymer sheet, when the adhesive is coated on a part of the region instead of the entire region, the coating area fraction of the adhesive is adjusted in consideration of the adhesive properties between the non-magnetic material to be transported and the adhesive layer. Done.

On the other hand, since the adhesive magnetic polymer sheet of the present invention should be removed after the movement of the adherend using the magnetic chuck, the adhesive force (or adhesive strength) of the adhesive layer is not excessively high in consideration of the workability of the removal operation. It is preferable. The adhesive magnetic polymer sheet removed from the surface of the adherend may be disposed of or in some cases reused.

The adhesive magnetic polymer sheet of the present invention has an effect of transporting a nonmagnetic material which is not transportable using a magnetic chuck or a vacuum chuck using a magnetic chuck. That is, in the past, in the case of non-magnetic metal plate such as aluminum, copper, titanium, and non-magnetic stainless steel, the magnetic chuck cannot be used because of the non-magnetic material, and the surface smoothness is poor, so that it cannot be transported even in a vacuum chuck. The adhesive magnetic polymer sheet of the present invention can be transported by using a magnetic chuck just by adhering to one of these nonmagnetic materials, so that industrial utility and ripple effect are greatly expected.

In particular, the adhesive magnetic polymer sheet of the present invention, when manufacturing the aluminum or non-magnetic stainless sheet in the form of a roll, the magnetic chuck in a subsequent process by adhering to one side in the step before being wound in a roll form to be wound Easy transportation by use is possible.

1 is a schematic view showing the spatial arrangement of the adhesive magnetic polymer sheet and the non-magnetic adherend and the magnetic chuck according to the present invention.
Figure 2 (a) to (c) is a cross-sectional view showing the distribution of the magnetic material in the adhesive magnetic polymer sheet according to the present invention, (a) is a layered type, (b) is a particle type, (c) is a dispersion type to be.
Figure 3 (a), (b) is a cross-sectional view showing a pressure-sensitive adhesive coating of the adhesive layer in the adhesive magnetic polymer sheet according to the present invention, (a) is a full area coating type, (b) is a partial coating type.

Hereinafter, specific embodiments of the present invention will be described with reference to the accompanying drawings. The following examples are illustrated to aid the technical understanding of the present invention, and the scope of the present invention should not be understood as being limited by these examples.

First, Figure 1 is a schematic diagram showing the spatial arrangement of the adhesive magnetic polymer sheet, the non-magnetic adherend and the magnetic chuck according to the present invention.

In Fig. 1, a typical magnetic chuck 1 is placed from the top, and a to-be-adhered body 2 made of a nonmagnetic material such as aluminum is placed below, and underneath the body 3 according to the present invention. The adhesive magnetic polymer sheet 3 is located.

FIG. 1 shows the arrangement relationship between the magnetic chuck 1, the adherend 2, and the adhesive magnetic polymer sheet 3, and in practice, the adhesive magnetic polymer sheet 3 is formed on the bottom of the adherend 2; ), The adhesive layer 4 is bonded.

As such, when the magnetic chuck 1 approaches from the upper part of the adherend 2 having the adhesive magnetic polymer sheet 3 attached to the bottom and magnetic force is applied, the magnetic chuck 1 forms a body with the adhesive magnetic polymer sheet 3. The upper surface of the adherend 2 is coupled by the magnetic force on the opposite surface of the magnetic chuck (1).

On the other hand, the adherend 2 attached to the magnetic chuck 1 is transported to a predetermined place by driving the transfer body connected to the magnetic chuck 1, and after the movement of the magnetic chuck 1 By changing the direction of the magnetic lines of force, separation of the adherend 2 from the magnetic chuck 1 is achieved, so that the transfer of the adherend 2 is completed. After the transport of the adherend 2 is completed, the adhesive magnetic polymer sheet 3 attached to the adherend 2 is separated, and then a subsequent work process for the adherend 2 is performed.

Next, Figure 2 is a cross-sectional view showing the distribution of the magnetic material (7) in the adhesive magnetic polymer sheet according to the present invention, (a) is a layered type, (b) is a particle type, (c) is a dispersion type.

Fig. 2A is a layered structure in which a thin plate or sheet-like magnetic material 7a is included in a layered structure inside the polymer 6 as a matrix structure constituting the magnetic polymer sheet 5.

2B is a structure in which the particulate magnetic material 7b is uniformly mixed in the polymer 6, and (C) is a dispersed structure in which the powdery magnetic material 7c is mixed with the polymer 6. .

On the other hand, if the magnetic material and the polymer can be integrally obtained in the form of a sheet, various magnetic material forms can be applied in addition to the three forms shown in (a) to (c) of FIG.

At this time, the mixing ratio between the magnetic material (7) and the polymer (6) is 5 to 50 by the volume fraction of the magnetic material to the polymer in consideration of securing the appropriate ferromagnetic properties of the magnetic polymer sheet (5) and imparting the tear resistance of the polymer sheet It is desirable to keep it in%.

Figure 3 (a), (b) is a cross-sectional view showing a pressure-sensitive adhesive coating of the adhesive layer in the adhesive magnetic polymer sheet according to the present invention, (a) is the whole area application type, (b) is a partial application type.

Fig. 3A shows the entire area application type in which the adhesive is applied to the entire area of one side of the magnetic polymer sheet 5 to form the adhesive layer 4, and (B) shows that of the magnetic polymer sheet 5 The partial coating type adhesive layer 4 to which the adhesive was apply | coated over one area | region of one side is shown.

At the time of forming the partial coating type adhesive layer 4, a network-like, band-shaped adhesive layer is applied in parallel at equal intervals along the width direction or the length direction of the entire area of one surface of the magnetic polymer sheet 5, or Various pressure-sensitive adhesive application methods, such as the form of applying a pressure-sensitive adhesive spot (spot) such as a circle or a square in a grid may be used.

At this time, the area fraction of the pressure-sensitive adhesive applied to the adhesive layer 4 forming surface should be properly adjusted in consideration of the bonding force (bonding force) with the adherend 2 to be attached later, the area fraction of the pressure-sensitive adhesive is It is preferable that the adhesive magnetic polymer sheet 3 is not separated from the adherend during the attachment and detachment of the adherend using the magnetic chuck.

1. Magnetic Chuck
2. adherend
3. Adhesive Magnetic Polymer Sheet
4. Adhesive layer
5. Magnetic Polymer Sheet
6. Polymer
7. Magnetic material

Claims (7)

It is attached to one side of the plate-shaped nonmagnetic material so as to be carried by the magnetic chuck;
A magnetic polymer sheet formed of a polymer and a magnetic material and formed into a sheet;
Adhesive magnetic polymer sheet, characterized in that it comprises an adhesive layer made of an adhesive applied to one side of the magnetic polymer sheet. According to claim 1, wherein the magnetic material is an adhesive magnetic polymer sheet, characterized in that any one or combination of iron (Fe), nickel (Ni), cobalt (Co). The magnetic magnetic polymer sheet of claim 1, wherein a volume fraction of the magnetic material relative to the polymer in the magnetic polymer sheet is 5 to 50%. The adhesive magnetic polymer sheet of claim 1, wherein the adhesive layer is formed over an entire region of one side of the magnetic polymer sheet. The adhesive magnetic polymer sheet of claim 1, wherein the adhesive layer is formed over a portion of one surface of the magnetic polymer sheet. A nonmagnetic plate with an adhesive magnetic polymer sheet, wherein the adhesive magnetic polymer sheet according to any one of claims 1 to 5 is attached to one side of a plate-shaped nonmagnetic material. 7. The nonmagnetic plate with an adhesive magnetic polymer sheet according to claim 6, wherein the nonmagnetic material is a metal plate of any one of aluminum, copper, titanium, or nonmagnetic stainless steel.

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