KR101715056B1 - Color Display Device and Display Method Thereof - Google Patents

Abstract

The present invention relates to a color display device, and is characterized by comprising a display layer including a color display material, and a magnetic layer including a magnetic material stacked to form a pattern on the display layer.
The color display device according to the present invention displays a specific color, image, and information by a color display material by stacking a patterned magnetic layer on a display layer of a color display material, thereby allowing the user to easily identify the color.

Description

Technical Field [0001] The present invention relates to a color display device,

The present invention relates to a color display device and a display method thereof, and more particularly to a color display device and a method of displaying the color display material by stacking a patterned magnetic layer on a display layer of a color display material, A display device and a display method thereof.

In the case of a photonic crystal material and its application products that use a conventional magnetic field to display a specific color or image, a magnet is disposed under the photonic crystal material responsive to the magnetic field for the purpose of display, or an external magnet is contacted to the photonic crystal material corresponding to the display portion The desired color or image is shown.

Such an example is disclosed in Korean Patent Laid-Open Publication No. 10-2011-0053929, in which a first constituent portion including a color-changing material and a second constituent portion formed with a magnetic field generating region are combined, a display device disclosed in Korean Patent Publication No. 10-1061902 And a display device including a display portion in which the wavelength of the reflected light is determined according to the intensity of the magnetic force generated from the recording portion for generating magnetism.

However, in the case where the magnet is disposed under the photonic crystal material, since a specific color or image is fixed, the range of the product to which the magnet can be applied is limited, and the external magnet is brought into contact with the photonic crystal, In the case of displaying an image, there is a problem that it is troublesome to check the color or the image because the visibility is blocked by the magnet to be contacted.

Korean Patent Publication No. 10-2011-0053929 Korean Patent Publication No. 10-1061902

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a color display material, It is an object of the present invention to provide a color display device and a method of displaying the color display device.

According to an aspect of the present invention, there is provided a photonic crystal display device including: a display layer including a color display material; And a magnetic layer including a magnetic substance laminated to form a pattern on the display layer.

At this time, the magnetic layer may form a pattern by a combination of two or more magnetic materials having different magnetic field intensities, and the magnetic material may be a permanent magnet or an electromagnet.

In addition, it is possible to selectively erase the color, image, or information embodied in the pattern by the proximity of the external magnetic body, which is a permanent magnet or an electromagnet.

Also, a second material layer having a magnetic permeability different from that of the magnetic layer and having a constant transmittance may be interposed between the display layer and the magnetic layer. Here, the second material layer may be a color filter have.

Further, instead of the magnetic layer including the magnetic substance, it may be constituted by a layer of the magnetizing material including the magnetizing substance.

The magnetic substance may be arranged and laminated such that the entire upper surface of the magnetic layer is N-pole or S-pole.

The color display device and the display method according to the present invention can display various colors through discoloration due to the magnetic field of the magnetic layer as compared with the display layer without the magnetic layer pattern by laminating the patterned magnetic layer on the display layer of the color display material, By further improving the color change and the color diversity by realizing the discoloring effect by the proximity of the external magnetic substance, the user can easily identify the color, image, and information by displaying the color, the image and the information by the color display material. , Tapes, and other various products as a color display device for security, identification, and forgery prevention.

1 is a side view showing a laminated structure of a color display device according to an embodiment of the present invention.
2 is a side view showing a laminated structure of a color display device according to another embodiment of the present invention.
3 is a conceptual diagram showing a color region of a ferrite magnet placed on a display layer.
4 is a side view showing a laminated structure of a color display device including an external magnetic substance according to another embodiment of the present invention.
5 is a side view showing a laminated structure of a color display device in which a second material layer is interposed according to another embodiment of the present invention.
6 is a side view showing a lamination structure and a working principle of a color display device according to another embodiment of the present invention.

The following detailed description of the invention refers to the accompanying drawings, which illustrate, by way of example, specific embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention.

It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, certain features, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in connection with an embodiment. It is also to be understood that the position or arrangement of the individual components within each disclosed embodiment may be varied without departing from the spirit and scope of the invention.

The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the present invention is to be limited only by the appended claims, along with the full scope of equivalents to which such claims are entitled, if properly explained. In the drawings, like reference numerals refer to the same or similar functions throughout the several views, and length and area, thickness, and the like may be exaggerated for convenience.

1 to 5 show a color display device according to various embodiments of the present invention.

In the display device of the present invention, each layer is formed by laminating layers. Here, the lamination layer is composed of an adhesive layer, and may be a state in which the layers and layers are bonded together to form an integrated state, And includes a laminated structure capable of removing one layer as needed through a peelable adhesive layer. Such a laminated structure can be selectively adopted in accordance with applications of the display device of the present invention, for example, products such as color display labels, color display stickers, and color display cards.

Referring to FIG. 1, the photonic crystal display device of the present invention includes a display layer 100 including a color display material, and a magnetic layer 200 formed of a magnetic material stacked to form a pattern on the display layer. Since the magnetic layer 200 is stacked to form the pattern 300 on the upper part, various information such as characters and images according to the pattern of the pattern 300 can be displayed, and the color of the display layer magnetized by the magnetic layer It is possible to display various information through the change. The pattern 300 corresponds to a portion of the display layer 100 not covered by the magnetic layer 200.

In Fig. 1, the case of a label is shown as an example. A sheet constituting the label is formed of the magnetic layer 200 in which the display layer 100 and the pattern 300 are formed and the color display material constituting the display layer 100 can display a specific color, The magnetic material constituting the magnetic layer 200 is disposed on the upper portion of the color display material, so that various information can be displayed through the shape of the hue and the pattern varying on the surface of the label.

Further, by adjusting the width, area, and shape of the pattern 300 by the arrangement of the magnetic layer 200, the intensity of the magnetic field applied to the region corresponding to the display layer 100 is changed. Therefore, , And information can be adjusted. By adjusting the thickness of the magnetic material and the intensity of the magnetic field disposed at the upper portion, it is possible to control the color, image, information, and the like implemented on the region corresponding to the display layer 100 including the color display material have.

In the present invention, the magnetic body constituting the magnetic layer 200 may be a permanent magnet or an electromagnet. In the case of the electromagnet, an electric field can be applied to one side and the other side of the magnetic layer 200 because an electric field must be applied.

In the present invention, the color display material is magnetized by a magnetic field to induce the alignment of particles, and the magnetized state is maintained by remnant magnetization even after the magnetic field is cut off. Various types of photonic crystal materials, ferromagnetic materials ferromagnetic materials, superparamagnetic materials, and mixtures of two or more particles having different saturation magnetization values.

Examples of the photonic crystal material include silicon (Si), titanium (Ti), barium (Ba), strontium (Sr)

(Fe), nickel (Ni), cobalt (Co), lead (Pb), aluminum (Al), copper (Cu), silver (Ag), gold (Au), tungsten (W), molybdenum , Zinc (Zn), and zirconium (Zr), and oxides and nitrides including these elements. It is also possible to use styrene, pyridine, pyrrole, aniline, pyrrolidone, acrylate, urethane, thiophene, carbazole, An organic polymer or polystyrene comprising at least one monomer selected from the group consisting of fluorine, vinylalcohol, ethylene glycol and ethoxy acrylate, polyethylene, poly A polymer material such as polypropylene, polyvinyl chloride, or polyethylene terephthalate may be used.

The photonic crystal material may be formed as a form in which particles having no charge or a material having a charge in a cluster are coated. For example, the surface is processed (or coated) by an organic compound having a surface treated (or coated) with an organic compound having a hydrocarbon group, a carboxylic acid group, an ester group or an acyl group Or coated with a compound containing a halogen (F, Cl, Br, I, etc.) element, an amine, a thiol or a phosphine Particles coated with a surface by a coordination compound, and particles having a charge by forming radicals on the surface. By coating the surface of the photonic crystal material with a material such as silica, polymer, or polymeric monomer, the particles can have high dispersibility and stability in the solvent.

On the other hand, the photonic crystal material may have a particle diameter of several nm to several hundreds of microns, but is not limited thereto. When the particles are arranged at a predetermined distance by an external electric field, the refractive index of the particles and the solvent It is possible to set the size of the particle that can include the photonic crystal wavelength band of the visible light region in association with the refractive index of the visible light region.

Further, in order to configure the photonic crystal material to have an intrinsic color, a specific color may be imparted through adjustment of oxidation water or coating of an inorganic pigment, pigment, or the like. For example, Zn, Pb, Ti, Cd, Fe, As, Co, Mg, Al and the like containing a chromophore may be used in the form of oxides, emulsions and lactates as the inorganic pigments coated on the photonic crystal material. Fluorescent dyes, acid dyes, basic dyes, mordant dyes, sulphide dyes, vat dyes, disperse dyes, reactive dyes and the like can be used.

In addition, the photonic crystal material may be a material having a specific structural color so as to display a specific color. For example, particles such as silicon oxide (SiO _x ) and titanium oxide (TiO _x ) may be a material that is uniformly arranged at regular intervals in a medium having a different refractive index and reflects light of a specific wavelength. Since the particles having a photonic crystal structure can exhibit different structure colors depending on viewing angles, the photonic crystal particles move due to the arrangement of the magnetic particles when a magnetic field is applied, and thus different colors of structures appear depending on the direction and intensity of the magnetic can do.

In order to improve the dispersibility and stability of the color display material, silica, polymer, polymeric monomer, etc. may be coated on the surface of the particles.

The color display material can be dispersed in a medium such as a fluid, a gel, an air, or the like as an auxiliary means by which particles can stably maintain their position and arrangement. The medium is preferably composed of a light-transmitting material, and may include at least one component selected from an inorganic pigment, a dye, a fluorescent material, a phosphorescent material, a luminescent material and a material having a structural color so as to reflect light of a specific wavelength .

The medium may have a specific gravity similar to that of the color display material so that the color display material can be uniformly dispersed.

The color display material having magnetism is a particle, oxide particle containing a single or different metal.

In the case of metals, metal nitrate compounds, metal sulfate compounds, metal fluoroacetoacetate compounds, metal halide compounds, metal perchlorate compounds, metal sulfamate compounds, metal stearate compounds and organometallic compounds And a neutral ligand such as an alkyltrimethylammonium halide-based cationic ligand, an alkyl acid, a trialkylphosphine, a trialkylphosphine oxide, an alkylamine or an alkylthiol, a sodium alkylsulfate, a sodium alkylcarboxylate , Anionic ligands such as sodium alkyl phosphate, sodium acetate, and the like are dissolved in a solvent to prepare an amorphous metal gel, which is then heated to transform the crystalline phase into crystalline particles.

At this time, the magnetic properties of particles finally obtained can be enhanced by containing a different precursor, or various magnetic materials such as superparamagnetic, paramagnetic, ferromagnetic, antiferromagnetic, ferrimagnetic, and semi-magnetic can be obtained.

In the case of a fluid, various kinds of solvents can be used, for example, water, trichlorethylene, carbon tetrachloride, diisopropyl ether, toluene, methyl- but are not limited to, t-butyl ether, xylene, benzene, diethyl ether, dichloromethane, 1,2-dichloroethane, Butyl acetate, isopropanol, n-butanol, tetrahydrofuran, n-propanol, chloroform, ethylacetate, 2-butane (2-butanone), dioxane, acetone, methanol, ethanol, acetonitrile, acetic acid, dimethylformamide, dimethylsulfoxide (Dimethyl sulfoxide), propylene carbonate, N, N-dimethylformamide, dimethylacetamide, N-methylpyrrolidone, and the like.

Referring to FIG. 2, a pattern may be formed by combining two or more magnetic bodies 200 and 200 'having different magnetic field intensities according to another embodiment of the present invention.

In this way, since the intensity of the magnetic field applied to the color display material of the display layer changes depending on the pattern portion, it is possible to realize a pattern of various colors.

That is, when the intensity of the magnetic field of the magnetic substance 200 is different from that of the magnetic substance 200 ', the magnetic field received by the display layer 100 positioned below changes, so that the degree of discoloration of the photonic crystal material included in the display layer 100 And thus the color realized in the pattern 300 is changed.

In order to confirm the implementation of the pattern according to the formation method of the magnetic layer, the intensity of the magnetic field was measured according to the size and thickness when the ferrite magnet was used as the magnetic body. As shown in FIG. 3, a donut-shaped ferrite magnet is placed on the display layer, and the intensity of the magnetic field of the magnet body (region A) and the width of the region (B) The magnetic field was measured. The results are shown in Table 1 below.

Magnet Size (mm)
(Outside × inside × height) A (Gauss) B (Gauss / mm) C (Gauss / mm) D (Gauss / mm) 17.5 x 7.5 x 3.0 705 81/6 70/6 2 to 5/30 27.0 x 12.5 x 6.0 1015 154/6 63/10 2-5 / 38 40.0 x 22.0 x 6.0 1054 190/6 71/14 2-5 / 55

As shown in Table 1, as the thickness of the magnetic layer and the width of the pattern become narrower, the intensity of the magnetic field increases, so that the color change rate of the display layer increases and the intensity of the magnetic field decreases as the distance from the outside of the magnetic layer constituting the pattern increases Can be confirmed.

Next, when the two magnets are disposed so as to oppose each other when the magnets are laid one on another, the magnetic field strength with respect to the region between the magnets when the two magnets are opposed to each other is measured. The results are shown in Table 2.

Magnet Size (mm)
(17.5 x 7.5 x 3.0) Magnet Size (mm)
(27.0 x 12.5 x 6.0) Magnet Size (mm)
(40.0 x 22.0 x 6.0) 1 magnet 81Gauss 145 Gauss 190 Gauss Equipotential opposition 160 Gauss 319Gauss 347Gauss Opposite pole 3Gauss 12Gauss 6Gauss

Referring to Table 2, it can be seen that the magnetic field between the magnets is amplified when the two magnets are opposed to each other with the same polarity, and the magnetic field between the magnets is attenuated when the two magnets face each other with the opposite polarity.

Accordingly, the strength of the magnetic field applied to each region of the display layer 100 can be controlled through various modifications such as arranging the patterns of the magnetic bodies having different magnetic field strengths or arranging the poles of the neighboring magnetic bodies that form the pattern at the same or opposite poles The pattern of various colors can be realized.

Referring to FIG. 4, a color image, an image, or information embodied in a pattern is formed by proximity of an external magnetic material 400 disposed on an upper portion of the display layer 100 including a color display material It is possible to implement a display device that selectively erases the data.

The external magnetic body 400 may be a permanent magnet, an electromagnet, or an apparatus including the permanent magnet or the electromagnet (for example, a magnet provided in a speaker of the mobile phone terminal) The user can visually confirm the change.

5, in order to control color, image, and information to be implemented on a region corresponding to the display layer 100 including the color display material, the color display material and the magnetic material The second material layer 500 having a magnetic permeability different from that of the magnetic material and having a predetermined transmittance can be disposed between the first material layer 500 and the second material layer 500.

At this time, if the second material layer 500 is a color filter, the range of colors realized by the color display material can be widened and the intensity of the wavelength generated from the display layer 100 can be increased.

In addition, the color embodied in the color display material may also display information directly in the second material layer 500 to indicate additional information.

Referring to FIG. 6A, a display layer 100 including a color display material responsive to a magnetic field may be disposed at a lower portion thereof and a specific color, image, and information may be displayed by a color display material A pattern of the magnetization material layer 250 may be formed on the display layer 100 except for the region. Accordingly, as shown in FIG. 6B, the color, image, and information of the display layer 100 can be adjusted by applying magnetism to the magnetization material layer 250 with the external magnetic material 400.

The magnetization material is magnetized when a magnetic field is applied by the external magnetic material 400 so that the display layer 100 is magnetized only in a portion where the external magnetic material 400 is close to the magnetization material layer 250, A color change occurs. Accordingly, the color contrast is clearly displayed in the display layer 100 'where the magnetic substance layer 250 having the magnetism is located and the display layer 100 where the magnetism substance layer 250 is not present, so that the user can easily visually confirm the pattern Can be obtained.

If the width, area, and shape of the pattern region where the magnetization material layer of the display layer 100 is not laminated are controlled, a magnetic field is applied to the magnetization material layer 250, and then the display layer 100 ' The intensity of the magnetic field applied to the corresponding region can be adjusted, so that the implemented color, image, and information can be controlled.

The thickness of the magnetization material layer 250 disposed on the upper side and the intensity of the magnetic field applied by the external magnetic material 400 may be adjusted to affect the pattern area corresponding to the display layer 100 including the color display material Color, image, and information.

Further, when a pattern is formed by arranging other magnetization materials in combination with two or more magnetic permeability materials, color, image, and information to be implemented on a region corresponding to the display layer 100 can be controlled.

Further, by arranging magnetized materials having different intensities of two or more magnetic fields, it is possible to control the color, image, and information to be implemented on a region corresponding to the display layer 100.

Also, the color, image, and information implemented by the external magnetic material 400 disposed on the display layer 100 may be selectively erased.

Also in this embodiment, in order to adjust the color, image, and information implemented in the pattern area of the display layer 100, the transmissivity of the magnetic substance and the magnetic substance, 2 material layer may be disposed and a color filter may be used as the second material layer to increase the range of colors implemented in the pattern and to increase the intensity of the wavelength appearing in the display portion.

In addition, information may be displayed directly on the second material layer to display additional information through color implementation of the pattern. The display of such information can be realized by using an electromagnet, and a specific color, an image, and information can be displayed by driving the electromagnet.

As another embodiment of the color display device of the present invention, the magnetic field is amplified by the approach of the external magnetic substance so that the entire upper surface of the magnetic layer is N-pole or S-pole, It may increase the color change of the layer. At this time, since the color of the display layer changes according to the distance between the external magnetic body and the magnetic layer, a display device in which the hue and the image of the pattern change according to the access degree of the external magnetic body can be realized.

The color display device and the display method according to the present invention can realize various colors different from the existing display layer through discoloration due to magnetism through the patterned magnetic layer laminated on the display layer of the color display material, It is possible to realize a unique discoloring effect by causing magnetic field amplification, interference, and the like. Accordingly, by further improving the color change and the color diversity, the user can easily identify the color, image, and information by the color display material. Therefore, various products such as labels, cards, It can be utilized as a color display device for preventing forgery and falsification.

The various structures that cause discoloration of the present invention can be applied variously according to the application of the color display device.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, and that various changes and modifications may be made therein by those skilled in the art without departing from the spirit and scope of the invention. The examples are to be regarded as being within the scope of the invention and the appended claims.

100, 100 ': display layer 200, 200': magnetic layer
250: magnetization material layer 300: pattern
400: external magnetic body 500: second material layer

Claims (10)

An indicator layer comprising a color display material;
And a magnetic layer including a magnetic body laminated to form a pattern on the display layer,
Wherein the intensity of a magnetic field on a region corresponding to the display layer is varied by adjusting a width, an area, or a shape of the pattern by the arrangement of the magnetic layers.
The method according to claim 1,
Wherein the magnetic layer forms a pattern by a combination of two or more magnetic bodies having different magnetic field intensities.
The method according to claim 1 or 2,
Wherein the magnetic body is a permanent magnet or an electromagnet.
The method according to claim 1 or 2,
And selectively erases the color, image or information embodied in the pattern by the proximity of the external magnetic body.
The method of claim 4,
Wherein the external magnetic body is a permanent magnet or an electromagnet.
The method according to claim 1 or 2,
Wherein a second material layer having a magnetic permeability different from that of the magnetic layer and having a constant transmittance is interposed between the display layer and the magnetic layer.
The method of claim 6,
And the second material layer is a color filter.
The method according to claim 1 or 2,
Wherein the magnetic layer is a layer of a magnetization material including a magnetization material.
The method according to claim 1 or 2,
And a magnetic substance is disposed and laminated such that the entire upper surface of the magnetic layer is N-pole or S-pole.
A display layer including a color display material, and a magnetic layer including a magnetic material stacked to form a pattern on the display layer,
By adjusting the width, area, or shape of the pattern by the arrangement of the magnetic layers, the intensity of the magnetic field on the region corresponding to the display layer is changed,
And color, image or information is displayed by the pattern.

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