JP2881229B2 - Sheet having retroreflective surface and method of manufacturing the same - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to woven fabrics and fabric-like names, marks, patches, tapes and other various decorative articles that appear to shine by retroreflection when illuminated, and And accessories that contribute to the safety of nighttime traffic as accessories to clothing, hats, bags, shoes and other accessories.

(Related Art) There are various types of retroreflective surfaces using a flat light reflective surface. FIGS. 3A, 3B and 3C show the main components. In the retroreflective surface of FIG. 3A, the transparent microspheres 3 are in contact with the light reflective surface 1 and are exposed from the transparent resin 2. B
Means that the transparent microspheres 3 contact the light reflecting surface 1 and the transparent resin 2
Is slightly buried. In C, a focal length is set between the transparent microsphere and the light reflecting surface 1, and the transparent microsphere 3 is completely buried in the transparent resin 2.

(Problems to be Solved by the Invention) It is well known that such a retroreflective surface has a simple structure and can be manufactured at low cost. However, as shown in the figure, in such a retroreflective surface, the retroreflection of light is a narrow-angle reflection that reflects only light that is perpendicularly incident on the surface, and is therefore almost practically used. Did not.

In order to solve this problem, the retroreflection of light can be made a wide-angle reflection by making the retroreflection surface an uneven surface.

FIG. 4 shows the retroreflective surface having an uneven surface, and the retroreflective surface is heated and pressed to form the unevenness. However, according to such a method, the retroreflective structure is actually broken, and its function is reduced.

Therefore, an object of the present invention is to provide a retroreflective surface using a flat light reflecting surface with irregularities without impairing its function, thereby realizing wide-angle reflection of light.

Another object of the present invention is to enhance the value as a decorative article by making it easy to process a sheet having a retroreflective surface that achieves wide-angle reflection of light and producing it beautifully.

(Means for Solving the Problems) In order to achieve the above object, according to the first aspect of the present invention, a colorless or colored transparent resin is coated on a sheet having a flat light reflection surface, and the semi-dried transparent material is coated. A first continuous body having a retroreflective surface manufactured including the steps of spraying transparent microspheres on a resin, removing the transparent microspheres that have not adhered, and shredding the sheet in a continuous manner is a first continuous body. A sheet having a retroreflective surface was constructed so as to be interlaced with the second continuum.

In the invention according to claim 8, a step of coating a sheet having a flat light reflecting surface with a colorless or colored transparent resin, a step of semi-drying the transparent resin and spraying transparent microspheres, The step of removing the transparent microspheres that did not exist, the step of cutting the sheet into a continuous shape to produce a first continuous body, and the step of combining the first continuous body with a second continuous body And a method of manufacturing a sheet having a retroreflective surface.

According to the ninth aspect of the present invention, between the step of removing the transparent microspheres and the step of shredding the sheet, the method further includes a step of coating the transparent microspheres again with the same transparent resin as the transparent resin. The method for producing a sheet having a retroreflective surface described in No. 8 was constituted.

In the invention of claim 2, the first continuum has a retroreflective surface on both front and back surfaces.

According to the third aspect of the present invention, the sheet having the retroreflective surface and the reinforcing sheet are bonded to each other.

 In the invention according to claim 4, the second continuous body is a reinforcing thread.

In the invention according to claim 5, the second continuum is a continuum having a retroreflective surface in which transparent microspheres are attached to a flat light reflecting surface via a colorless or colored transparent resin.

In the invention of claim 6, the first continuum and / or the second continuity are a mixture of different colors and / or different widths, so that a pattern is formed on the surface.

In the invention according to claim 7, the transparent microsphere has a diameter of 150 μm.
Hereinafter, the refractive index is 1.3 to 2.3.

(Operation) In the present invention, a first continuous body 4 having a retroreflective surface in which transparent microspheres 3 are adhered to a flat light reflective surface 1 via a colorless or colored transparent resin 2 is attached to another flat surface. The retroreflection of light is wide-angle reflection by combining with the second continuum 5 to form an uneven surface.

(Embodiment) FIG. 1 is a diagram showing an embodiment of the present invention.

In FIG. 1, 1 is a light reflecting surface, 2 is a transparent resin, 3
Is a transparent microsphere. 4 is a continuum having a retroreflective surface. The continuum 4 is obtained by continuously cutting a sheet having a retroreflective surface having the structure shown in FIG. 3A. Continuum 4
Is strip-shaped, as best shown in FIG.
Its width is on the order of one tenth of a millimeter, and looks almost threadlike to the naked eye. In the present invention, the continuous body is a thread,
It refers to an elongated shape such as a band or a string.

Reference numeral 5 denotes a continuum interlaced with the continuum 4, which is a continuum having the same retroreflective surface as the continuum 4 in this embodiment.

With such a configuration, as shown in FIG. 2, unevenness is generated on the retroreflective surface of the flat continuous body 4, whereby wide-angle reflection can be realized.

 Hereinafter, other embodiments will be described.

Example 1 A non-volatile content of about 6 g / m ² of a polyester-based synthetic resin solution transparently colored yellow was coated on a vapor-deposited surface of a 12-μm-thick aluminum-deposited polyester film, semi-dried, and refracted to an average diameter of about 30 μ. Fix the transparent glass sphere with a rate of 1.93, remove excess transparent glass spheres by vacuum,
The transparent colored polyester synthetic resin solution again yellow the surface was coated in a non-volatile content of about 6 g / m ^2, and dried, the light hits, obtained surface is a narrow angle to the retroreflective yellow Was.

Next, the retroreflective surface was laminated with a polyester-based synthetic resin adhesive so that it would be the front and back surfaces.Then, the microslitter was continuously cut into a width of about 0.3 mm.
A denier wool-like polyester gray and a narrow-width loom are used to intersect with a patterned uneven surface and heat cut to produce a fabric-like mark with a pattern that retroreflects yellow in a wide angle when exposed to light. We were able to.

Example 2 A surface that retroreflects red was made by the method described in Example 1, and the surface that had been laminated so that the surface was the front and back surfaces was chopped continuously into a width of about 0.3 mm.
The surface that is retroreflectively reflected in yellow is cut into a continuous shape, and it is interwoven with a patterned uneven surface by a rapier loom,
By heat-cutting it, it was possible to produce a woven patch having a pattern of retroreflecting a wide angle of yellow and red when exposed to light.

Example 3 A non-volatile content of about 6 g / m ² of a polyester-based synthetic resin solution transparently colored in blue was coated on a vapor-deposited surface of an aluminum-deposited polyester film having a thickness of 12 μm, and then semi-dried to bend with an average diameter of about 30 μm A transparent glass sphere having a ratio of 2.22 is scattered and adhered, and further dried to fix the transparent glass sphere, excess transparent glass spheres are removed by vacuum, and a blue transparent colored polyester synthetic resin solution is again applied to the surface. Coating to a non-volatile content of about 12 g / m ² and drying resulted in a narrow-angle but blue retroreflective surface when exposed to light.

Next, laminate the retroreflective surface with a polyester-based synthetic resin adhesive so that it is on both sides.
Cut into a continuous width with a micro slitter to m width
By combining a denier wooly polyester white yarn with a tape warp knitting narrow width machine on a textured uneven surface and making it a decoration of clothes, a pattern that retroreflects blue to a wide angle when exposed to light. It looked brilliant.

(Effects of the Invention) As described above, according to the present invention, a continuous body having a retroreflective surface using a flat light reflective surface is interwoven to form a surface with irregularities, so that the retroreflective light is reflected at a wide angle. And the structure is simple and can be manufactured at low cost.

Further, unlike a conventional simple flat retroreflective sheet, it is possible to provide a luxurious retroreflective surface in a woven or knitted tone.

Furthermore, if a continuous body of retroreflective surfaces colored in each color is mixed with various thin continuous bodies to form characters and patterns, the name will be retroreflected when light hits, and it will appear to shine , Patches, tapes and other decorative items.

Further, by wearing such decorative articles, there is a practical value that traffic safety at night can be ensured.

[Brief description of the drawings]

FIG. 1 is an enlarged plan view showing an embodiment of the present invention,
FIG. 2 is an enlarged sectional view of the same embodiment, taken along the line AA 'of FIG.
It is the figure cut | disconnected along the line of. 3A, 3B, and 3C are enlarged sectional views showing types of retroreflective surfaces using flat light reflecting surfaces, and FIG. 4 shows irregularities on retroreflective surfaces using flat light reflecting surfaces. It is an enlarged view showing what was attached. DESCRIPTION OF SYMBOLS 1 ... Retroreflective surface 2 ... Transparent microsphere 3 ... Transparent resin 4 ... First continuum 5 ... Second continuum

Claims (9)

(57) [Claims] 1. A sheet having a flat light reflecting surface is coated with a colorless or colored transparent resin, and transparent microspheres are sprayed on the semi-dried transparent resin to remove the non-fixed transparent microspheres. Then, the first continuous body having a retroreflective surface manufactured by including each step of continuously shredding the sheet, a retroreflective surface characterized by being interlaced with the second continuous body Having sheet. 2. The sheet having a retroreflective surface according to claim 1, wherein the first continuum has a retroreflective surface on both front and back surfaces. 3. The sheet having a retroreflective surface according to claim 1, wherein the sheet having the retroreflective surface and a reinforcing sheet are bonded. 4. The method according to claim 1, wherein said second continuous body is a reinforcing yarn.
A sheet having a retroreflective surface according to item 1. 5. The second continuum includes a sheet having a flat light reflecting surface coated with a colorless or colored transparent resin, and transparent microspheres dispersed on the semi-dried transparent resin, and fixed. The sheet having a retroreflective surface according to claim 1, which is a continuous body having a retroreflective surface manufactured by removing the transparent microspheres that have not been formed and cutting the sheet into a continuous shape. 6. The method according to claim 1, wherein the first continuum and / or the second continuity are a mixture of different colors and / or different widths, and form a pattern on the surface. A sheet having the retroreflective surface described in the above. 7. The sheet having a retroreflective surface according to claim 1, wherein the transparent microsphere has a diameter of 150 μ or less and a refractive index of 1.3 to 2.3. 8. A step of coating a sheet having a flat light-reflecting surface with a colorless or colored transparent resin, a step of semi-drying the transparent resin and spraying transparent microspheres, and a step of dispersing transparent microspheres. Retroreflection including a step of removing microspheres, a step of manufacturing the first continuum by continuously cutting the sheet, and a step of combining the first continuum with the second continuum A method for producing a sheet having a surface. 9. The method according to claim 8, further comprising, between the step of removing the transparent microspheres and the step of shredding the sheet, recoating the transparent microspheres with the same transparent resin as the transparent resin.
3. The method for producing a sheet having a retroreflective surface according to item 1.