KR20180032387A - Multi-Component Magnetic Materials Microcapsule Layer and Security Feature Using the Same - Google Patents

Abstract

The present invention relates to a security feature using a microcapsule layer having multi-component magnetic materials and, more specifically, relates to a security feature using a microcapsule layer having multi-component magnetic materials, wherein a magnetic body having a different coercive force individually prints a soft magnetism microcapsule layer and a hard magnetism microcapsule layer which are a microcapsule on a printed surface to form a security feature using a microcapsule layer having the soft magnetism microcapsule layer and the hard magnetism microcapsule layer. Therefore, a reversible security pattern can be designed by different magnetism characteristics with respect to an external magnetic field.

Description

[0001] The present invention relates to a security element using a microcapsule layer having multiple magnetic bodies,

The present invention relates to a security element using a microcapsule layer having multiple magnetic materials, and more particularly, to a security element using a microcapsule layer having microcapsules having different coercive forces from a soft magnetic microcapsule layer and a hard magnetic microcapsule layer, A microcapsule layer having a multi-magnetic substance capable of designing a reversible security pattern by different magnetic characteristics with respect to an external magnetic field is formed by forming a security element using a microcapsule layer including a magnetic microcapsule layer and a hard magnetic microcapsule layer Security elements used.

The magnetic body (magnetic powder body) includes not only a permanent magnet for providing a magnetic flux, a magnetic sensor for reading a characteristic change of a magnetic body to derive a change in an external physical quantity, a storage device for storing information such as a hard disk, It can be applied to the field of forgery prevention.

In particular, microcapsules in which a magnetic substance is microencapsulated are reversibly arranged relative to an external magnetic field, thereby being a security technology for banknotes, document security, and brand protection.

As a related prior art, a light-transmissive microcapsule reversible to a magnetic field is prepared in WO2013-056782 ("MICROCAPSULE AND USE THEREOF SECURITY ELEMENT HAVING MICROCAPSULES AND DATA CARRIER EQUIPPED THEREWITH", 2013.04.25.), .

This is a security element that is made by applying optically transmissive microcapsules reversible to a magnetic field by microencapsulating a light transmitting carrier and an opaque magnetic pigment, and mixing the resultant with a resin solution to apply to the paper (printing surface).

At this time, the security element using the conventional microcapsule layer limits the magnetic property of the magnetic material to a soft magnetic material having a coercive force of less than 10 kA / m, and generally uses a magnetic material as a single material.

This has a problem in that the magnetization pattern (magnetic pattern) generated by reversely reacting with the external magnetic field becomes simple, so that not only the security strength is lowered but also the color of the magnetic material is limited to black or dark brown.

WO2013-056782 ("MICROCAPSULE AND USE THEREOF SECURITY ELEMENT HAVING MICROCAPSULES AND DATA CARRIER EQUIPPED THEREWITH ", 2013.04.25.)

SUMMARY OF THE INVENTION The present invention has been conceived to solve the problems as described above, and it is an object of the present invention to provide a soft magnetic microcapsule and a soft magnetic microcapsule in which a magnetic substance having a different coercive force is microencapsulated, A security element using a microcapsule layer including a magnetic microcapsule layer including a hard magnetic microcapsule layer and a security element using a microcapsule layer including a hard magnetic microcapsule layer can design a reversible security pattern by different magnetic characteristics with respect to an external magnetic field. .

A security element using a microcapsule layer having a multi-magnetic substance according to the present invention includes a soft magnetic microcapsule in which a magnetic substance having a different coercive force is microcapsulated and a soft magnetic microcapsule layer in which a hard magnetic microcapsule is printed on a printing surface, And a microcapsule layer containing a magnetic microcapsule layer.

Also, the soft magnetic microcapsule layer is formed by printing a soft magnetic microcapsule in which a soft magnetic material having a coercive force of less than 10 kA / m is microcapsulated, and the hard magnetic microcapsule layer is a microcapsulated hard magnetic material having a coercive force of 10 kA / Hard magnetic microcapsules are printed and formed.

The microcapsule layer is formed by printing on the printing surface such that the soft magnetic microcapsule layer and the hard magnetic microcapsule layer alternate in the horizontal direction of the printing surface.

Also, the soft magnetic microcapsules and the hard magnetic microcapsules have a particle size of 60 mu m to 150 mu m.

The soft magnetic microcapsules are formed by microencapsulating a soft magnetic material and a fluid carrier in a particle size of 1 to 30 mu m. The soft magnetic material is composed of Fe, iron oxide (Fe ₂ O ₃ , Fe ₃ O ₄ ) , Iron alloy (Fe-Si, Ni-Fe, Fe-Si-Al, Fe-Co and Fe-P), and the hard magnetic microcapsule has a particle size of 1 to 30 M and a fluid carrier are microencapsulated. The hard magnetic material is selected from the group consisting of barium ferrite, strontium ferrite, alnico, magnetic alloys (Fe-Cr-Co, CoSm, Fe-Co , Mn-Al-C, Fe-Nd-B).

The soft magnetic material and the hard magnetic material are formed by coating at least one selected from a titanium oxide film and a silver film.

The soft magnetic microcapsule and the hard magnetic microcapsule are formed by microencapsulating the soft magnetic material or the hard magnetic material with a transparent fluid carrier.

The soft magnetic microcapsule and the hard magnetic microcapsule are formed by microencapsulating the soft magnetic material or the hard magnetic material with a transparent fluid carrier.

In addition, the soft magnetic microcapsules and the hard magnetic microcapsules are formed by microencapsulating the opaque fluidic carrier having a color of a soft magnetic material or a hard magnetic material.

The security element using the microcapsule layer having the multi-magnetic substance according to the present invention can be produced by printing soft magnetic microcapsules and microcrystalline microcapsules each having a different coercive force from each other on the printed surface, By forming a security element using a microcapsule layer including a capsule layer, it is possible to design a reversible security pattern based on different magnetic characteristics with respect to an external magnetic field, thereby providing an excellent security strength.

In addition, the security element using the microcapsule layer having a multi-magnetic substance according to the present invention can be formed into a dark color of black or brown as well as the magnetic substance can be coated with a high reflection high- So that it is possible to design a security pattern using the security pattern.

In addition, the security element using the microcapsule layer having a multi-magnetic substance according to the present invention is widely applicable to a visual identification security element applicable to document security, banknote, and brand protection.

1 illustrates a security element using a microcapsule layer having multiple magnetic bodies according to the present invention.
FIG. 2 is another diagram illustrating a security element using a microcapsule layer having a multi-magnetic substance according to the present invention. FIG.
3 is a view showing a magnetization pattern when an external magnetic field is applied to a security element using a microcapsule layer having a multi-magnetic material according to the present invention.
4 is a view showing a magnetization pattern when an external magnetic field of a security element is removed using a microcapsule layer having a multi-magnetic material according to the present invention.
FIG. 5 is another diagram showing a magnetization pattern when an external magnetic field is applied to a security element using a microcapsule layer having a multi-magnetic material according to the present invention. FIG.
FIG. 6 is another diagram showing a magnetization pattern when an external magnetic field of a security element is removed using a microcapsule layer having a multi-magnetic material according to the present invention. FIG.
7 illustrates an embodiment of a security element using a microcapsule layer having multiple magnetic bodies according to the present invention.
8 is a view showing a magnetization pattern when an external magnetic field is applied to an embodiment of a security element using a microcapsule layer having a multi-magnetic substance according to the present invention.

Hereinafter, the security element using the microcapsule layer having the multi-magnetic substance according to the present invention will be described in detail with reference to the accompanying drawings.

Prior to this, terms and words used in the present specification and claims should not be construed in a conventional or dictionary sense, and the inventor should appropriately define the concept of the term to describe its invention in the best possible way The present invention should be construed in accordance with the spirit and concept of the present invention.

Therefore, it should be understood that the embodiments described herein and the configurations shown in the drawings are only the most preferred embodiments of the present invention, and that various equivalents and modifications may be made thereto at the time of the present application .

FIG. 1 is a view showing a security element using a microcapsule layer having a multi-magnetic material according to the present invention, FIG. 2 is another drawing showing a security element using a microcapsule layer having a multi-magnetic material according to the present invention, FIG. 4 is a view illustrating a magnetization pattern of a security element using a microcapsule layer having a multi-magnetic material according to the present invention, FIG. 5 is a view showing another embodiment of a magnetization pattern when an external magnetic field is applied to a security element using a microcapsule layer having a multi-magnetic material according to the present invention. FIG. The magnetization pattern when the external magnetic field of the security element using the microcapsule layer having the multi-magnetic substance according to the present invention is removed is shown In the other figures.

The security element using a microcapsule layer having a multi-magnetic substance according to the present invention is a forgery-proofing security element that uses a microcapsule layer 200 formed by printing magnetic microcapsules in which a magnetic substance is microencapsulated on a printing surface 100.

The soft magnetic microcapsule layer 210 and the hard magnetic microcapsule layer 220 are formed of a soft magnetic microcapsule layer 210 and a hard magnetic microcapsule layer 220, The soft magnetic microcapsules 210 and the hard magnetic microcapsules 220 in which the soft magnetic material and the hard magnetic material are microencapsulated with different coercive forces so that the magnetic characteristics with respect to the magnetic field are different from each other are printed and formed on the printing surface 100 .

That is, the security element using the microcapsule layer having a multi-magnetic substance according to the present invention is a security element having at least two microcapsule layers 200 formed on one printed surface 100 with different magnetic characteristics to an external magnetic field.

At this time, the soft magnetic microcapsule and the hard magnetic microcapsule are mixed with the polymer binder, and the soft magnetic microcapsules and the hard magnetic microcapsules are mixed with the polymer binder, and then the resultant mixture is subjected to screen printing, offset printing, gravure printing, intaglio printing, It is preferable to print.

However, the soft magnetic microcapsules 210 and the hard magnetic microcapsule layers 220 can be formed by printing the soft magnetic microcapsules and the hard magnetic microcapsules on the printing surface 100 in various manners, Of course.

1 to 6, a security element using a microcapsule layer having a multi-magnetic substance according to the present invention will be described in detail.

The soft magnetic microcapsule layer 210 is formed by printing soft magnetic microcapsules in which a soft magnetic material is microencapsulated. The soft magnetic microcapsules are formed by microencapsulating a soft magnetic material having a coercive force of less than 10 kA / m.

The hard magnetic microcapsule layer 220 is formed by printing hard magnetic microcapsules in which a hard magnetic body is microencapsulated. The hard magnetic microcapsules are formed by microencapsulating a hard magnetic body having a coercive force of 10 kA / m or more.

That is, by using the soft magnetic microcapsule layer 210 and the hard magnetic microcapsule layer 220 having different coercive force from each other, the security element using the microcapsule layer having the multi-magnetic material according to the present invention can improve the magnetic characteristics The magnetization patterns 1 different from each other can be formed.

1 and 2 are diagrams showing that the microcapsule layer 200 including the soft magnetic microcapsule layer 210 and the hard magnetic microcapsule layer 220 is printed alternately on the printing surface 100, Fig. 3 showing the magnetization pattern 1 when an external magnetic field is applied and Fig. 4 showing the magnetization pattern 1 when the external magnetic field is removed shows the magnetization pattern 1 different from each other.

3, when the external magnetic field is applied, the soft magnetic microcapsule layer 210 and the hard magnetic microcapsule layer 220 form the same magnetization pattern 1 by the magnetic material, , When the external magnetic field is removed, the magnetization pattern 1 of the soft magnetic microcapsule layer 210 including the soft magnetic material having a coercive force of less than 10 kA / m disappears and includes a light magnetic material having a coercive force of 10 kA / m or more The hard magnetic microcapsule layer 220, which is formed of the hard magnetic microcapsule layer 220, maintains the magnetization pattern 1 to form different magnetization patterns 1 depending on the presence or absence of an external magnetic field.

This is because the reversible magnetization pattern 1 using the soft magnetic microcapsule layer 210 and the hard magnetic microcapsule layer 220 of a desired pattern is smaller than that of the security element including the microcapsule layer formed by microcapsules of a single magnetic body. It is advantageous in that the security strength is higher than that of the conventional security element.

In this case, the soft magnetic microcapsules 210 and the hard magnetic microcapsule layer 220 are preferably formed of microcapsules having a size of 60 to 150 mu m, It is needless to say that the present invention is not limited to the above-described particle size but may be applied to various sizes.

5 showing the magnetization pattern 1 when an external magnetic field is applied and FIG. 6 showing the magnetization pattern 1 when the external magnetic field is removed are shown in FIG. 3 and FIG. 4, 1), it is possible to use various embodiments of the desired shape.

The security element using the microcapsule layer having a multi-magnetic substance according to the present invention is characterized in that at least one selected from the soft magnetic microcapsule layer 210 and the hard magnetic microcapsule layer 220 is a black or brown dark- The capsule layer 200 can be formed.

At this time, the soft magnetic microcapsule layer 210 and the hard magnetic microcapsule layer 220 are microencapsulated with a dark colored soft magnetic material or a hard magnetic material transparent microcapsule to form a dark colored microcapsule can do.

More specifically, the soft magnetic microcapsule is formed by microencapsulating a soft magnetic material having a particle size of 1 to 30 μm and a transparent fluid carrier, wherein the soft magnetic material is composed of black or brown iron (Fe), iron oxide (Fe ₂ O ₃ and Fe ₃ O ₄ ), iron alloys (Fe-Si, Ni-Fe, Fe-Si-Al, Fe-Co and Fe-P).

The hard magnetic microcapsules are microencapsulated in a hard magnetic material having a particle size of 1 탆 to 30 탆 and a fluid carrier, wherein the hard magnetic material is barium ferrite, strontium ferrite, alnico, At least one selected from a magnetic alloy (Fe-Cr-Co, CoSm, Fe-Co, Mn-Al-C and Fe-Nd-B)

Of course, if the soft magnetic material and the hard magnetic material form a magnetization pattern (1) for the external magnetic field in addition to the above-described materials and the material has a selected coercive force, it is possible to form various embodiments of materials without being limited to those described above. Of course.

In contrast, the soft magnetic microcapsule layer 210 and the hard magnetic microcapsule layer 220 may form a microcapsule layer 200 having at least one selected bright color of white.

For this purpose, the soft magnetic material or the hard magnetic material may be coated with at least one selected from the group consisting of a titanium oxide film and a silver film to have a bright white color, and the soft magnetic material and the hard magnetic material having a white color are microencapsulated with a transparent fluid carrier, Soft magnetic microcapsules or hard magnetic microcapsules having a white color can be formed.

7 to 8, the soft magnetic microcapsule is formed by microencapsulating a soft magnetic material coated with a highly reflective white color and a transparent fluid carrier, The soft magnetic microcapsules having white color may be printed on the printing surface 100 to form the highly reflective white soft magnetic microcapsule layer 210a.

7). When an external magnetic field is applied, the soft magnetic microcapsule layer 210a of a highly reflective white color is not visible when the magnetic microcapsule layer 210a is not affected by an external magnetic field By making the magnetization pattern appear (see FIG. 8), it is possible to form a hidden pattern and design various magnetization patterns, and the security strength can be enhanced.

In addition, the security element using the microcapsule layer having a multi-magnetic substance according to the present invention is characterized in that the soft magnetic material or the light magnetic material is microencapsulated with an opaque fluid carrier having a color to form soft magnetic microcapsules or hard magnetic microcapsules, The soft magnetic microcapsule layer 210 or the hard magnetic microcapsule layer 220 having a color can be formed by printing on the surface 100.

It is formed by microencapsulation with an opaque fluid carrier having various colors, as well as black or brown and the above-mentioned highly reflective white color, so that a security element using various colors can be formed.

As described above, the security element using the microcapsule layer having the multi-magnetic substance according to the present invention can be manufactured by using the soft magnetic microcapsule layer 210 and the hard magnetic microcapsule layer 220 having different coercive forces, It is possible to form a microcapsule layer 200 having a dark color, a high reflection white, and various other colors as well as forming a security pattern. Therefore, a security element having various colors can be formed, There are advantages that apply to security elements.

1000: Security element using a microcapsule layer having multiple magnetic bodies according to the present invention
100: Print side
200: Microcapsule layer
210: Soft magnetic microcapsule layer
201a: a highly reflective white soft magnetic microcapsule layer
220: hard magnetic microcapsule layer
300: External magnetic field
1: magnetization pattern

Claims (9)

A soft magnetic microcapsule layer 210 and a hard magnetic microcapsule layer 220 formed by printing soft magnetic microcapsules and hard magnetic microcapsules each having a different coercive force from each other on a printing surface 100, A security element using a microcapsule layer having a multi-magnetic body including a microcapsule layer (200).
The method according to claim 1,
The soft magnetic microcapsule layer (210)
A soft magnetic material having a coercive force of less than 10 kA / m is formed by printing microcapsulated soft magnetic microcapsules,
The hard magnetic microcapsule layer (220)
A security element using a microcapsule layer having a multi-magnetic substance formed by printing a hard magnetic microcapsule in which a hard magnetic body having a coercive force of 10 kA / m or more is microencapsulated.
The method according to claim 1,
The microcapsule layer (200)
The microcapsule layer having a multi-magnetic substance formed by printing on the printing surface 100 such that the soft magnetic microcapsule layer 210 and the hard magnetic microcapsule layer 220 are alternated in the horizontal direction of the printing surface 100 Security element.
3. The method of claim 2,
The soft magnetic microcapsules and the hard magnetic microcapsules
A security element using a microcapsule layer having a multi-magnetic body having a particle size of 60 to 150 占 퐉.
3. The method of claim 2,
The soft magnetic microcapsule
(Fe ₂ O ₃ , Fe ₃ O ₄ ), an iron alloy (Fe-Si, Fe ₂ O ₃ , and the like) Ni-Fe, Fe-Si-Al, Fe-Co and Fe-P,
The hard magnetic microcapsules
The hard magnetic body having a particle size of 1 to 30 占 퐉 and the fluid carrier are microencapsulated and the hard magnetic body is made of barium ferrite, strontium ferrite, alnico, a magnet alloy (Fe-Cr Wherein the microcapsule layer is formed of at least one selected from the group consisting of Co, CoSm, Fe-Co, Mn-Al-C and Fe-Nd-B.
6. The method of claim 5,
The soft magnetic material and the light magnetic material
A security element using a microcapsule layer having a multi-magnetic body formed by coating at least one selected from a titanium oxide film and a silver film.
6. The method of claim 5,
The soft magnetic microcapsules and the hard magnetic microcapsules
A security element using a microcapsule layer having multiple magnetic bodies formed by microencapsulation of a soft magnetic material or a hard magnetic material with a transparent fluid carrier.
The method according to claim 6,
The soft magnetic microcapsules and the hard magnetic microcapsules
A security element using a microcapsule layer having multiple magnetic bodies formed by microencapsulation of a soft magnetic material or a hard magnetic material with a transparent fluid carrier.
6. The method of claim 5,
The soft magnetic microcapsules and the hard magnetic microcapsules
A security element using a microcapsule layer having a multi-magnetic substance formed by microencapsulation of an opaque fluid carrier having a soft magnetic substance or a hard magnetic substance.

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