KR20010070200A - Magnetic Material-inverting Display Panel - Google Patents

Abstract

PURPOSE: A magnetic material reversal display panel is provided to display and erasure an image. CONSTITUTION: In a reversal magnetic display panel containing a dispersion liquid held by a supporting material, the dispersion liquid shows the yielding point and essentially consists of a particulate magnetic display body having the magnetic poles colored in different colors, a dispersion medium and a tackifier. The feature of the panel is that the total area of the S-pole faces or N-pole faces of the particulate magnetic display body is 60 to 500% of the display screen area of the display panel.

Description

Magnetic Material-inverting Display Panel

The present invention inverts the magnetic display body by the magnet to form the display, and inverts the display on the same side by the magnet to erase the display. The present invention relates to a magnetic body inverting display panel.

Conventionally used magnetic display panels disperse a magnetic body of microparticles in a dispersion liquid, act on a magnet on one side, move the magnetic particles on that side, form a display, and if necessary, remove the magnet from the opposite side. It acts to settle the magnetic particles and erase the marks. Since the magnetic display panel must be erased from the back side of the panel, the apparatus is complicated and large in size. In addition, when the magnetic particles were run on the display panel, it was difficult to erase only the unnecessary display portions.

Further, Japanese Patent Application Laid-Open No. 59-32796 proposes a magnetic display panel that inverts and displays the display magnetic particles. This panel uses a yield solution of yield yield of 5 N / m ² or more in which the residual magnetic moment is 0.2 to 10 emu / g and the coercive force disperses the magnetic particles of 500 or more. However, this panel has a problem that the contrast is small and lacks the clarity even when the magnetic particles are inverted and displayed or erased by a magnet.

The present invention provides a magnetic inverting display panel in which the display of the panel inverting and displaying the magnetic display body is improved and the sharpness of erasing is improved.

The present invention,

"One. In an inverted magnetic display panel in which a magnetic particle having different colors by colorizing magnetic poles and a dispersion having a yield value mainly composed of a dispersion medium and a thickener are supported by a support material. A magnetic body inverting display panel, wherein the sum of the areas of the S-plane or N-plane of the particulate magnetic display body is 60 to 500% of the area of the display surface of the display panel.

2. The magnetic body inversion display panel according to item 1, wherein the sum of the areas of the S-plane or the N-plane of the magnetic particle of the microparticle shape is 75 to 250% of the area of the display surface of the display panel.

3. The magnetic body inverting display panel according to 1 above, wherein the thickener is one or two or more selected from fatty acid bisamides having a hydroxyl group, hydrogenated castor oil, and N-acylamino acid alkylamides.

4. The color display according to any one of items 1 to 3, wherein the magnetic particles having the color-separated microparticles have different colors on one side of the layer in which the magnetic particles are dispersed in a synthetic resin and / or a synthetic rubber composition of a specific color. A magnetic body inverting display panel, which is a magnetic display body formed by cutting or pulverizing a layer coated with a colored composition.

5. The layer according to any one of items 1 to 4, wherein the magnetic display member is laminated with colored sheets of different colors on one side of the layer in which the magnetic particles are dispersed in the synthetic resin and / or the synthetic rubber composition of a specific color. Magnetic inverting display panel, which is a magnetic display body that is cut or crushed.

6. The magnetic body inverting display panel according to any one of items 1 to 5, wherein the dispersion liquid in which the magnetic display material is dispersed is a dispersion having a viscosity of ³ to 350 mPa · s at a yield value of 0.15 to 7.5 N / m ² .

7. The magnetic body inverting display panel according to any one of items 1 to 5, wherein the dispersion liquid in which the magnetic display material is dispersed is a dispersion having a yield value of 0.92 to 7.5 N / m ² and a viscosity of 8 to 350 mPa · s.

8. The magnetic body inversion display panel according to any one of items 1 to 7, wherein the holding of the dispersion liquid in which the magnetic display material is dispersed is a holding oil containing the dispersion liquid between two substrates.

9. The magnetic body inverting display panel according to any one of items 1 to 8, wherein the fat or oil of the dispersion liquid in which the magnetic display body is dispersed is a fat or oil in which the dispersion is enclosed in a capsule and placed on a support.

10. The magnetic body inversion display panel according to any one of items 1 to 9, wherein the dispersion liquid in which the magnetic display material is dispersed is a dispersion solution containing an antistatic agent.

It is about.

Embodiment

The magnetic display body used in the present invention is a magnetic body color-coded by coloring two magnetic poles of the N pole and the S pole in different colors, and the magnetic body is inverted by magnetism to form a display. For example, when the display surface of the panel is written on the S pole of the writing magnet, the N pole surface of the magnetic body is arranged on the panel surface to become the color of the N pole surface. When this surface is used as the N pole of the magnetic pen, the magnetic body is inverted so that the S pole surface appears, and a display is formed in that color. If you write again on the S-pole of the magnetic pen, the display is reversed.

In the present invention, it is necessary that the sum of the surface areas of the S poles or the N poles of the magnetic display body is 60 to 500%, preferably 75% to 250% of the area of the display surface of the display panel.

The area of the display surface of a display panel means the area of the plane which displays as a display panel which enclosed the dispersion liquid which disperse | distributed the magnetic display body.

The inventors have clarified that the display of the conventional magnetic body inversion display panel is unclear because the surface area of the S pole or the N pole of the magnetic body to display is not appropriate for the area of the display surface of the panel.

If the surface area of the S-pole or N-pole of the magnetic substance to be displayed is smaller than 60% of the area of the display surface of the panel, the displayed color is faint, and the contrast is weak because the color difference with the color of the support which is the background becomes smaller. It will not be clear.

On the other hand, if the ratio is greater than 500%, the magnetic interference interferes with each other so closely that the inversion becomes poor and the inversion does not occur, the interface between the S-pole and the N-pole appears, and the display is mixed. And a clear display cannot be formed.

The dispersion in which the magnetic indicator is dispersed must have a specific yield value and viscosity. Yield value is necessary to properly disperse the magnetic indicator in the dispersion liquid and to prevent sedimentation. Viscosity is necessary to reverse only the portion where magnetism is applied when magnetism is applied to the display panel. That is, it is preferable that it is a dispersion liquid with a yield value of 0.15-7.5 N / m <^2> and a viscosity of 3-350 mPa * s. As a thickener for imparting a yield value, an inorganic substance such as aerosil can also be used, but the inorganic thickener has a drawback that the viscosity and yield value change with the passage of time. By the way, an organic thickener selected from fatty acid bisamide, hydrogenated castor oil, and N-acylamino acid amide gives a yield value, but it is preferable because it has the advantage that viscosity and yield value do not change easily with time.

When the yield value is outside the range of 0.15 to 7.5 N / m ² and the viscosity of 3 to 350 mPa · s, the retention stability of the formed display deteriorates or the surrounding magnetic bodies are collected when used with a magnetic pen, so the distribution of the magnetic bodies is uneven. Since the color of the background of the display formed by the magnetic material that is not inverted in the vicinity of the inverted form of the display and the magnetic portion thereof changes, the display becomes cloudy as a whole, resulting in deterioration of sharpness.

The magnetic display material used in the present invention is not particularly limited in shape as long as the S pole surface and the N pole surface are colored in different colors. However, the fine particles distinguished from each other by the display formability and the sharpness of the formed display when used with a magnetic pen. The magnetic display body or the magnetic display body formed by cutting or pulverizing a layer in which a colored composition of another color is applied to one surface of a layer in which magnetic particles are dispersed in a synthetic resin and / or a synthetic rubber composition of a specific color is formed. It is preferable that the magnetic display body is formed by cutting or pulverizing a layer laminated with a coloring sheet of another color on one side of a layer in which magnetic particles are dispersed in a synthetic resin and / or a synthetic rubber composition of a specific color. According to the research of the present invention, the magnetic display body is inverted when the magnetic force of the opposite electrode is applied, but the flat or flaky magnetic body is inverted while being shifted in an overlapped state, so that the display formation speed is not only large but not reversed. Incomplete reversal is rarely mixed, and a clear display is formed, which is preferable.

In particular, in the case of a flat or flaky magnetic display, when the sum of the areas of the S pole or the N pole of the magnetic display becomes 500% or more of the display area of the panel, the interference with each other and overlapping and shifting become inferior. You should be careful.

Magnetic display elements tend to rub against each other during inversion, and static electricity is charged. In particular, in the case of flat or flaky magnetic displays, the magnetic display elements are easily reversed while being reversed. When the magnetic display material is charged, the magnetic display material aggregates, and even when the magnetic display is placed on the magnetic pen, the magnetic display device does not smoothly reverse or even reverses. Because of this, the color-coded magnetic display body may not be able to obtain a clear display, which is not preferable. When the antistatic agent is added to the dispersion of the magnetic display, good display can be obtained.

Examples of antistatic agents include polybutene sulfur oxides, aliphatic alkyl quaternary ammonium salts, aminoethanol epichlorohydrin polycondensates, alkylbenzene sulfonic acids, alkyl salicylic acid metal salts, sulfo pumpkin salts, dialkyl sulfo pumpkin salts, and dodecyl benzene sulfonic acid metal salts. It is used to select one or two or more from, but in particular, polybutene sulfur oxides, aliphatic alkyl quaternary ammonium salts, aminoethanol epichlorohydrin polycondensates, mixtures of alkylbenzenesulfonic acids, alkyl salicylic acid chromium salts, sulfobacmic acid Calcium salts and polymer mixtures are preferred.

There is no restriction | limiting in particular as a support body holding a magnetic display dispersion liquid, The support body arrange | positioned at intervals and sealed two sheets, the support body which arrange | positioned the regular hexagon honeycomb cell between these two board | substrates, the support body which arrange | positioned the capsule to the board | substrate, etc. It is used properly.

(Example)

Embodiments of the present invention will be described, but the present invention is not limited to these embodiments.

Example 1

The magnetic ink colored in green which consists of a composition of the compounding (A) shown in Table 1 on 25-micrometer-thick PET film was prepared and coated and dried by the following means, and the green magnetic sheet was obtained. At this time, the thickness of the magnetic ink layer was 10 µm, and the coating weight was 14.0 g / m ² .

(Step 1)

Resin was melt | dissolved in MEK in the ratio described in the compounding (A), and after adding a magnetic component to this, it disperse | distributed with the edger for 1 hour.

(Level 2)

To this dispersion, blue ink, yellow ink, and white ink made of Mikuni dyes in which pigments were dispersed in MEK were added at a ratio of the compounding (A), followed by mixing and stirring to obtain green magnetic ink.

Sudan 3

This magnetic ink was coated and dried at a speed of 30 m / min using a die coater to obtain the green magnetic sheet described above.

Next, the white ink of the formulation (B) shown in Table 2 was coated and dried on the green magnetic layer of this sheet, and laminated on the green magnetic layer.

This white ink layer had a thickness of 18 µm and a coating weight of 35.3 g / m ² . In this way, a two-color sheet having a thickness of 28 µm and a coating amount of 49.3 g / m ² was formed on the base film in accordance with the green magnetic ink layer coated first.

Subsequently, this two-color layer is magnetized for each base film, and the green side is the N pole and the white side is the S pole, and then the two-color sheet is peeled off from the base film to form a flake. After pulverizing, the resultant was sieved, divided into two green / white colors having a particle diameter of 63 to 212 µm to obtain a magnetic display body painted.

Table 1

Formulation (A)

Blue ink 5.6 parts by weight MHI Blue # 454: Mikuni Color Co., Ltd. Yellow ink 22.3 parts by weight MHI Yellow # 593: Mikuni Color Co., Ltd. make White ink 10.0 parts by weight MHI White # 2179: Mikuni Color Co., Ltd. Magnetic powder 19.0 parts by weight GP-300: Toda Kyokyo Co., Ltd. product Suzy 22.8 parts by weight Epicoat # 1007: Emulsion Cell Epoxy Co., Ltd. solvent 20.3 parts by weight MEK

TABLE 2

Compounding (B)

White ink 66.6 parts by weight MHI White # 2179: Mikuni Color Co., Ltd. Suzy 15.0 parts by weight Epicoat # 1007: Emulsion Cell Epoxy Co., Ltd. solvent 18.4 parts by weight MEK

Next, 407.92 parts by weight of isoparaffin (ETOS Chemical Co., Ltd .: trade name isopa M) having a viscosity at 25 ° C. as a dispersion medium and a thickener, and ethylene bis-12-hydroxystearic acid amide (ITOH WAXJ -530 Ito Oil Co., Ltd.) was added in an amount of 30 parts by weight of 70 parts by weight, cooled, dissolved and heated to make a dispersion, and then diluted with isoparaffin so that the ratio of isoparaffin and thickener was 12.42 parts by weight of 407.92 parts by weight. In addition, the antistatic agent (the STADIS-450 made from DU Dupont) was added so that it might be more than 0.15% of the whole, the yield value was 1.76 N / m <^2> , and the small-component acid liquid of the viscosity in 25 degreeC was 16 mPa * s.

The yield method was measured by using a bluefield viscometer (BL type manufactured by Tokyo Instruments Co., Ltd.) as a conventional method by reading the torsion angle of the rotor when the dispersion was rotated at low speed. The rotor used was the No. 2 rotor attached to the BL-type viscometer.

In addition, about the measurement of a viscosity, the value on condition of shear stress 10 Pa was measured using the stress control type rheometer (CSL-100 by Carrieme, UK).

Subsequently, the magnetic component coated with two colors of green / white was mixed with this small component acid solution at a ratio of 20 parts by weight of the magnetic display to 100 parts by weight of the dispersion, followed by stirring. The magnetic display was uniformly dispersed in the dispersion. To obtain a dispersion liquid. The specific gravity of this dispersion liquid was measured and found to be 0.87.

Next, a multi-cell structure of a honeycomb cell made of a vinyl chloride resin of 0.8 mm in height, having a cell size of 3 mm and a regular hexagonal shape, in which the dispersion liquid was adhered to one side by using an adhesive to a vinyl chloride resin film having a sheet thickness of 0.15 mm. Cell was filled, and then the open surface of the multi-cell structure was coated with a vinyl chloride resin film having a thickness of 0.08 mm using an adhesive, and the dispersion liquid was enclosed in the cell to obtain a display panel. At this time, the ratio of the sum total of the area | region of one color of the magnetic display body contained in a panel with respect to the display surface of a display panel was 236% according to the following calculation.

(1) The display area of the honeycomb cell with cell size a mm is S honeycomb = ( / 2) xa ² . Therefore, as a honeycomb with a cell size of 3 mm, S honeycomb = 3 × 3 × ÷ 2 = 7.794 mm ²

(2) On the other hand, the sum of the layer areas of one color side of the magnetic display body is

S particle = cell volume × inclusion liquid weight × particle concentration ÷ particle weight ÷ particle thickness

S particle = 7.794 × 0.8 × 0.87 × (20 ÷ 120) ÷ (49.3 ÷ 28) ÷ 0.028 = 18.37 mm ²

(3) Therefore, the ratio of the layer area of one side of the magnetic display body to the area of the honeycomb becomes 18.37 ÷ 7.794 × 100 = 236 (%).

The S pole of the magnet was brought into contact with one side of the panel, and the magnetic display, which was divided into two colors in the honeycomb, was shifted to one side on the surface to form a green display surface with the particles arranged so as to partially overlap each other. . Next, writing was performed on the display surface of the magnet on the surface of the vinyl chloride resin film on the surface of the magnet. As a result, a clear display of white was obtained only at the portion where the magnet had passed through the green display surface. . The color difference between the edge and the white surface was measured, and the difference ΔL between the L values of the Lab system was 31.56. (The color difference meter used Minolta Corporation: Spectrophotometer CM-512 m ^2. )

Subsequently, the white display portion was rubbed from above using the S pole of the magnet, and as a result, the magnetic display body facing the white surface was reversed, and the green display surface could be reversed again.

Example 2

As in Example 1, 9.66 parts by weight of ethylenebis-12-hydroxystearic acid was added as a thickener to 417.0 parts by weight of isoparaffin (manufactured by Nippon Oil Industries, Ltd., trade name Isopa M), and the yield value was cooled to 0.92 N. It was / m <^2> and the dispersion liquid whose viscosity in 25 degreeC is 8 mPa * s was obtained.

5 parts by weight of the magnetic display material prepared in the same manner as in Example 1 was added to 100 parts by weight of the dispersion, followed by stirring to obtain a dispersion. When the specific gravity of this dispersion liquid was measured, it was O.81.

Next, a cell of a multi-cell structure composed of a honeycomb made of a polyester film having a regular hexagonal shape and a cell size of 3 mm in which the dispersion liquid was bonded to a polyester film having a plate thickness of 0.125 mm on one side by using an adhesive. After that, the open surface of the multi-cell structure was coated with a polyester film having a thickness of 0.05 mm with an adhesive, and a dispersion liquid was enclosed in a cell to obtain a display panel. In this case, the display area of the honeycomb of the display panel becomes 7.794 mm ^{2 according} to the above calculation formula, while the total display area of one color of the magnetic display body becomes 4.917 mm ^2, so that the magnetic display body with respect to the display area is shown. The ratio of the display area of one color of to is 63%.

The display panel is placed on a white plate, and the magnetic poles of the honeycomb divided into two colors in the honeycomb are inclined to one side of the surface of the panel while the N pole of the magnet is brought into contact with the surface side of the panel. The face was aligned with the surface area to form a white display surface.

Next, as a result of writing on the surface of the vinyl chloride film on the S-pole of the magnet, the magnetic display body corresponding to the passage of the magnet is reversed, and the green display can be visually confirmed. there was. At this time, the white part of the display surface and the green color were measured by the color difference meter described above, and the L value of the Lab system was compared. As a result, a difference of 11.8 was recognized in ΔL, and the visual results were supported.

Example 3

After adding the above-mentioned thickener in the ratio of 70 weight part to 30 weight part to isoparaffin (The product made by Esso Chemical Co., Ltd .: brand name NAS5H) of the viscosity of 25 degreeC in 7.48 mPa * s, after melt | dissolving this after heating and cooling to make a dispersion, isoparaffin The diluent was added so that the ratio of the thickener was 21 parts by weight to 428 parts by weight, and the antistatic agent was added so as to be 0.15% of the total. The yield value was 7.5 N / m ² , and the viscosity at 25 ° C. was 333 mPa · s. Got. 40 parts by weight of the magnetic display material was added to 100 parts by weight of the dispersion to form a dispersion liquid. The cell size of the dispersion liquid was adhered to one side by using an adhesive to a polyester film having a sheet thickness of 0.125 mm. After filling the cell of a multi-cell structure which is a regular hexagon of 3 mm and consists of a honeycomb made of a polyester film of 0.8 mm in height, the open surface of the multi-cell structure is coated with a polyester film having a thickness of 0.1 mm with a thickener, The dispersion liquid was enclosed in the cell, and the display panel was obtained. At this time, the specific gravity of the dispersion liquid contained in the cell is 0.99, and the sum of the display areas of one color of the magnetic display body becomes 35.83 mm ² in the above-described formula, and therefore, the display of one color of the magnetic display body with respect to the display area. The proportion of total area was 457%.

The S pole of the magnet was brought into contact with the display surface on one side of the display panel, and the green display surface was formed by partially overlapping the green surface of the magnetic display body in the honeycomb so as to be in contact with the surface of the display panel.

Subsequently, writing was performed on the display surface by the N pole of the magnet, and as in Example 1, clear white recording was possible on the written portion. In addition, the surface of the panel was brought into contact with the N pole of the magnet over the entire surface, and the magnetic display in the honeycomb was inverted so that the white side was located on the surface side. This time, the writing was performed using the writing magnet of the S pole. The magnetic display in the honeycomb was reversed in response to the portion where the S pole of the magnet passed, and the green surface appeared on the surface side, and green was clearly displayed on the white background. At this time, the L value of the green and white surface of a display surface was measured, and ΔL value was calculated | required, and the result was 31.0.

Example 4

A dispersion liquid was prepared in the same manner as in Example 3 except that the mixing ratio of the dispersion liquid and the magnetic display material was 100 to 5. The specific gravity of this dispersion liquid was measured and found to be 0.86.

Next, as in Example 1, the dispersion liquid was a regular hexagonal shape having a cell size of 3 mm, in which a surface of an adhesive having a thickness of 0.125 mm was bonded to the polyester film, and the polyester film having a height of 0.8 mm was made of a honeycomb. After filling in the cell, the open surface of the multi-cell structure was coated with a polyester film having a thickness of 0.1 mm with an adhesive, and the dispersion liquid was sealed in the cell to obtain a display panel. In this panel, the total display area of one color of the magnetic display body was 5.22 mm ² from the calculation method described above, and the ratio of the total display area of one color of the magnetic display body to the display area was 66%.

The S-pole of the magnet is brought into contact with the display surface on one side of the display panel so that the green surface of the magnetic display body in the honeycomb is in contact with the inner surface of the surface film of the display panel, which is partially overlapped to form a green display surface. I let you.

Subsequently, writing was performed on the display surface by the N pole of the magnet, and as in Example 1, clear white recording was possible on the written portion. In addition, the surface of the panel was brought into contact with the north pole of the magnet, and the magnetic display in the honeycomb was inverted so that the white side was located on the back side. This time, the writing was performed using the south pole of the magnet. In response to the portion of the magnets passing through the S pole, the magnetic display in the honeycomb was inverted, and a green surface appeared on the surface side, thereby displaying a clear green color on a white background. At this time, L value of the green and white surface of a display surface was measured, and ΔL value was calculated | required and it was 13.8.

Example 5

A dispersion liquid was prepared in the same manner as in Example 2 except that the amount of the magnetic substance in the dispersion was 40 parts by weight of the magnetic display with respect to 100 parts by weight of the dispersion. The specific gravity of this dispersion liquid was 0.94.

This dispersion liquid was encapsulated in a multi-cell structure made of vinyl chloride resin having a cell size of 3 mm and a height of 0.8 mm, and a display panel was prepared in which the ratio of the total area of one color of the magnetic material to the display area was 435%.

The S pole of the magnet was brought into contact with one display surface of the display panel so that the green surface of the magnetic display body in the honeycomb was in contact with the inner surface of the film on the back surface of the display panel. .

Subsequently, writing was performed on the display surface by the N pole of the magnet, and as in Example 1, clear white recording was possible on the written portion. In addition, the surface of the panel was brought into contact with the north pole of the magnet, and the magnetic display in the honeycomb was inverted so that the white was located on the surface side. This time, the writing was performed using the south pole of the magnet. The magnetic display in the honeycomb is reversed in response to the portion of the magnet passing through it, and a green surface appears on the surface side, so that a clear display of green color can be displayed on a white background. At this time, the L value of the green and white surface of a display surface was measured, and ΔL value was calculated | required and it was 41.3.

Example 6

A dispersion liquid was prepared in the same manner as in Example 1 except that the ratio of the magnetic display material in the dispersion liquid was 15 parts by weight of the magnetic display material relative to 100 parts by weight of the dispersion liquid. It was 0.82 when the specific gravity of this dispersion liquid was measured.

In the same manner as in Example 1, the dispersion liquid was enclosed in a honeycomb cell made of a vinyl chloride resin having a cell size of 3 mm and a height of 0.8 mm, and a panel having a total area of one side of the magnetic display body with respect to the area of the honeycomb was 75%. Got it.

The S-pole of the magnet was brought into contact with one side of the display panel, and the magnetic display body, which was divided into two colors in the honeycomb, was pulled to the rear side, and the green display surface was formed while standing up so that the particles were partially overlapped and aligned.

Subsequently, writing was performed on the surface of the magnet on the vinyl chloride film on the surface of the magnet, whereby a clear display of white color was obtained at the portion where the magnet's N pole passed to the green surface. The color difference between this green surface and white surface was measured, and the difference (DELTA) L of L value of the Lab system was 16.8.

Example 7

In Example 1, aerosil was used instead of ethylene bis-12-hydroxystearic acid amide as a thickener, and aerosil (Aerosil 2OO manufactured by Aerosol Japan Co., Ltd.) based on 407.92 parts by weight of isoparaffin. 41.4 weight part of dispersion yield values were 1.89 N / m <^2> , and the small-component acid liquid whose viscosity in 25 degreeC is 10 mpa * s was obtained.

To this dispersion, the magnetic display material was blended in a ratio of 15 parts by weight of the magnetic display to 100 parts by weight of the dispersion, and stirred to obtain a dispersion liquid having a specific gravity of 0.85.

The dispersion liquid was enclosed in the same manner as in Example 1, and enclosed in a honeycomb cell made of vinyl chloride having a cell size of 3 mm and a height of 0.8 mm so that the ratio of the total area of one side of the magnetic display body to the honeycomb area was 180%. Got.

Using this panel, the writing was erased by a magnet as in Example 1, whereby good display was possible. At this time, L value of the green and white surface of the display surface was measured, and it was 22.1 when ΔL value was calculated | required.

Example 8

First, according to the procedure of Example 1, using the ink of the formulation of Table 3, a green magnetic sheet having a thickness of 10 μm and a coating weight of 14.0 g / m ² was produced.

Next, the white ink of the compounding (B) of Table 4 was coated on the mold release surface of the polyester film (Cellalfil manufactured by Toyo Metallizing Co., Ltd.) having a thickness of 38 µm on one side, and the thickness after drying was 8 A white colored sheet having a thickness of 35.3 g / m ^{2 was prepared} , and a polyester resin having a softening point of 110 ° C. was coated with a thickness of 2 μm on the ink coated surface of the white colored sheet.

Then, the surface of the ink layer of the green magnetic sheet and the resin coating surface of the white colored sheet are stacked on each other, and then pressed and integrated at 140 ° C. The magnetization is performed in that state so that the green side is the N pole and the white side is the S pole. It was.

Subsequently, the base films of the integrated sheets were peeled 180 degrees to peel off the 38 탆 polyester film, and the green magnetic ink layer, the adhesive layer, and the white colored layer were laminated on the 25 탆 PET film in the order of green magnetic ink. The sheet was formed by magnetizing the layer on the N-pole and the white-colored ink layer on the S-pole, and then peeling the two-colored flakes laminated on a 25 μm PET film. A magnetic display body painted in two colors of green / white in the range of ˜212 μm was obtained.

Table 3

Formulation (A)

Blue ink 5.6 parts by weight MHI Blue # 454: Mikuni Color Co., Ltd. Yellow ink 22.3 parts by weight MHI Yellow # 593: Mikuni Color Co., Ltd. make White ink 10.0 parts by weight MHI White # 2179: Mikuni Color Co., Ltd. Magnetic powder 19.0 parts by weight GP-300: Toda Kyokyo Co., Ltd. product Suzy 22.8 parts by weight Epicoat # 1007: Emulsion Cell Epoxy Co., Ltd. solvent 20.3 parts by weight MEK

TABLE 4

Compounding (B)

White ink 66.6 parts by weight MHI White # 2179: Mikuni Color Co., Ltd. Suzy 15.0 parts by weight Epicoat # 1007: Emulsion Cell Epoxy Co., Ltd. solvent 18.4 parts by weight MEK

Using this magnetic quantity indicator, a panel was produced and evaluated in the same manner as in Example 1 to obtain good results.

Example 9

In the method of Example 1, a dispersion liquid was prepared, and a sheet of 0.15 mm thick vinyl chloride was filled into a sheet in which a honeycomb-shaped multicell was formed by vacuum forming, and the open side of the multicell structure was 0.08 thick. When the vinyl chloride sheet of mm was pasted together with an adhesive and sealed, a display panel was formed and evaluated, favorable results were obtained.

Example 10

Using the dispersion liquid prepared in the same manner as in Example 1, a spherical capsule having an inner diameter of 2 mm was formed by the olispice method. At this time, the content of the capsule was 4.187 mm ³ , and the display area of the capsule of the display panel was 3.14 mm ² , while the total of the display area of one color of the magnetic display body was 14.18 mm ² . The ratio of the surface of one color of the magnetic display material to 452% is 452%.

Using a 0.5% aqueous solution of sodium alginate in the membrane material of the capsule, while extruding the aqueous solution of the membrane material from the outside of the concentric circular nozzle, the dispersion in which the magnetic display material was dispersed from the inner nozzle was extruded, and the pressure was extruded. The shape and size of the capsule were adjusted by controlling the speed and speed. The capsule extruded from the nozzle was dripped in 1% of calcium chloride aqueous solution, and it was made into the stable capsule by forming a gel film by making sodium alginate sol in a membrane material react with calcium chloride which is a chemical gelling agent.

The capsules were arranged in a tray made of vinyl chloride having a depth of 2 mm without gaps, and the flange portion of the tray and the vinyl chloride film were heat-sealed after the vinyl chloride film was stacked to obtain a display panel.

Writing and erasing from the top of this panel allowed the writing to be properly erased.

Comparative Example 1

To 100 parts by weight of the dispersion liquid of Example 2, 4 parts by weight of the magnetic display material prepared in the same manner as in Example 1 was added and stirred to obtain a dispersion liquid. When the specific gravity of this dispersion liquid was measured, it was O.81.

Next, this dispersion liquid was used as a display panel in the same manner as in Example 2. Display area of the honeycomb cells of the display panel is 7.794 mm ^2, sum is the ratio of the sum of the area of one color of the magnetic display material to the display surface starting with that 3.892 mm ² of a display area of one color of the magnetic display material is 50 Was%.

The display panel was placed on a white plate as in Example 2, the magnetic poles of the magnets were brought into contact with the surface of the panel, the magnetic display body was pulled to the display area, and the white side was aligned toward the surface plate side. Although writing was carried out by contacting the surface plate, a green display was not obtained for sufficient identification by the eye, and the ΔL value was 8.0 with a color difference meter measured by the same method as in Example 2.

Comparative Example 2

A display panel was produced in the same manner as in Example 2 except that the compounding amount of the magnetic display material in the dispersion liquid was 50 parts by weight of the magnetic display material relative to 100 parts by weight of the dispersion liquid. At this time, the specific gravity of the dispersion liquid was 0.97. The sum total of the display area of one color of the magnetic display body at this time was 40.846 mm ² from the calculation formula, and therefore the ratio of the area of one color of the magnetic display body to the display surface was 524%.

Using this display panel, the color of the display surface was changed to green, and white records were displayed. However, the difference ΔL between the green and white surfaces was 30.7, but it was recognized as unclear as a whole.

Here, when the back side of the panel was checked, it was confirmed that the magnetic display body was inserted into the adhesive portion between the film and the honeycomb core bonded to the back side, and thus the incomplete bonding state was obtained.

Comparative Example 3

A display panel was prepared in the same manner as in Example 3 except that the magnetic display material in the dispersion liquid was used in an amount of 50 parts by weight with respect to 100 parts by weight of the dispersion liquid. At this time, the specific gravity of the dispersion liquid was 1.02. The sum total of the display area of one color of the magnetic display body at this time was 42.951 mm ² from the calculation formula, and therefore the ratio of the area of one color of the magnetic display body to the display surface was 550%.

Using this display panel, the color of the display surface was changed to green, and then white records were displayed, and then L values of both were measured and ΔL was calculated. Thus, 27.2 was unclear than Comparative Example 2.

In addition, similarly to Comparative Example 2, it was confirmed that the magnetic display body was inserted into the adhesive portion between the film and the honeycomb core bonded to the back surface, and thus the incomplete bonding state was obtained.

Comparative Example 4

A display panel was prepared in the same manner as in Example 4 except that the blending amount of the magnetic display material in the dispersion liquid was 4 parts by weight of the magnetic display material relative to 100 parts by weight of the dispersion liquid. At this time, the specific gravity of the dispersion liquid was 0.86. At this time, the sum total of the display area of one color of the magnetic display body was 4.18 mm ² in the calculation formula, and therefore, the ratio of the area of one color of the magnetic display body to the display surface was 53%.

Using this display panel, the color of the display surface was changed to green, and white records were displayed. After measuring the L values of both, ΔL was found to be 3.5, which was not as clear as in Comparative Example 2.

Comparative Example 5

Isoparaffin (Eso Chemical Co., Ltd .: brand name isopa E) and a thickener having a viscosity at 25 ° C. were blended in a ratio of 70 parts by weight to 30 parts by weight, and after heating and dissolving, cooling to obtain a dispersion. Afterwards, the ratio of isoparaffin and thickener is 426.3 to 6.9, and the antistatic agent described above is added to 0.15% of the total, and the yield value is 0.18 N / m ² , and the viscosity at 25 ° C. is 3 mPa. S phosphorus dispersion was obtained.

A display panel was prepared in the same manner as in Example 2 except for using this dispersion.

At this time, the specific gravity of the dispersion liquid was 0.75, and the total area of one area of the magnetic display obtained by calculation was 4.917 mm ² and the ratio to the display area was 63%.

The display panel was placed on a white plate in the same manner as in Example 2, the magnetic poles of the magnets were brought into contact with the surface of the panel, the magnetic display body was pulled to the display area, and the white side was aligned toward the surface plate side. Although writing was carried out by contacting the display face plate, a green display that could be sufficiently identified by the eye could not be obtained, and the ΔL value in the color difference meter measured by the same method as in Example 2 was also 6.0.

Table 5 shows the evaluation results of the magnetic body inverting display panel in the Examples and Comparative Examples.

Table 5

Example Comparative example One 2 3 4 5 6 7 One 2 3 4 5 Yield value (N / m ² ) 1.8 0.9 7.5 7.5 0.9 1.8 1.9 0.9 0.9 7.5 7.5 0.2 Viscosity (mPaS) 16 8 326 326 8 16 10 8 8 326 326 2 Area ratio (%) 236 63 457 66 435 75 180 50 524 550 53 58 Antistatic amount (%) 0.15 0 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0 Reversibility end end end end end end end end Impossible Impossible end end Color difference meter (ΔL) 31.6 11.8 31.0 13.8 31.3 16.8 22.1 8.0 30.7 27.2 3.5 6.0 Comprehensive Evaluation ◎ ○ ○ ○ ○ ◎ ○ ×× × × ×× ××

Regarding impossibility of reversal:

(1) The larger the area ratio, the less interference is caused by mutual interference in inversion of the magnetic particles after charging, and the smaller the area ratio is, the less the amount of magnetic particles is.

(2) If the area ratio is large, bad effects occur when the backs of the charges are glued together. Problems such as poor adhesion due to magnetic particles are caused.

(3) ◎ of the comprehensive evaluation is very good, ○ is good, × is bad and not practical, × × indicates that it is very bad.

The magnetic inverting display panel of the present invention exhibits an excellent effect of quick and clear display and erasing and good display retention.

Claims (10)

A microparticle-shaped magnetic display in which a magnetic particle having different colors by colorizing magnetic poles and a dispersion having a yield value mainly composed of a dispersion medium and a thickener are supported by a support material. A magnetic body inverting display panel, wherein the sum of the areas of the S surface or the N surface of the sieve is 60 to 500% of the area of the display surface of the display panel. 2. The magnetic inverting display panel according to claim 1, wherein the sum of the areas of the S-plane or the N-plane of the microparticle-shaped magnetic display body is 75 to 250% of the area of the display surface of the display panel. The magnetic body inversion display panel according to claim 1, wherein the thickener is one or two or more selected from fatty acid bisamides having a hydroxyl group, hydrogenated castor oil, and N-acylamino acid alkylamides. The colored display according to any one of claims 1 to 3, wherein the color-divided microparticle-shaped magnetic display body is colored in different colors on one side of a layer in which magnetic particles are dispersed in a synthetic resin and / or a synthetic rubber composition of a specific color. A magnetic body inverting display panel, which is a magnetic display body formed by cutting or pulverizing a layer coated with a composition. The layer according to any one of claims 1 to 4, wherein the magnetic display member cuts a layer laminated with a coloring sheet of a different color on one side of a layer in which magnetic particles are dispersed in a synthetic resin and / or a synthetic rubber composition of a specific color. Or a magnetic inverting display panel which is a magnetic display body formed by grinding. The magnetic body inverting display panel according to any one of claims 1 to 5, wherein the dispersion liquid in which the magnetic display material is dispersed is a dispersion having a yield value of 0.15 to 7.5 N / m ² and a viscosity of 3 to 350 mPa · s. The magnetic body inverting display panel according to any one of claims 1 to 5, wherein the dispersion liquid in which the magnetic display material is dispersed is a dispersion having a yield value of 0.92 to 7.5 N / m ² and a viscosity of 8 to 350 mPa · s. The magnetic inverting display panel according to any one of claims 1 to 7, wherein the holding of the dispersion liquid in which the magnetic display material is dispersed is a holding oil containing the dispersion liquid between two substrates. The magnetic body inverting display panel according to any one of claims 1 to 8, wherein the magnetic body inverting display panel is a fat or oil disposed in a support by encapsulating the dispersion in a capsule, which is a fat or oil of a dispersion in which the magnetic display body is dispersed. The magnetic body inverting display panel according to any one of claims 1 to 9, wherein the dispersion liquid in which the magnetic display material is dispersed is a dispersion liquid containing an antistatic agent.