CN201788297U - Structure of high-color reflective layer - Google Patents

Abstract

The utility model relates to a structure of a high-color reflective layer, which comprises a transparent film layer, a printed pattern layer, a gel layer, a layer of glass beads and an electroplated layer. The printed pattern layer is distributed on the front side of the transparent film layer; the gel layer is distributed on the back side of the transparent film layer; the layer of glass beads is evenly distributed on the back side of the gel layer and partially integrated in the gel layer; and the electroplated layer for refraction of the layer of glass beads covers the back side of the layer of glass beads. As the electroplated layer is next to the layer of glass beads, when an outside light source radiates on the electroplated layer and is reflected, the light source can immediately penetrate through the layer of glass beads and be refracted to the outside, thereby leading the colors of the printed pattern payer to be bright and lossless.

Description

High color reflector layer structure

Technical field

The utility model relates to a kind of technology of reflector layer structure, refers to a kind of see through electrodeposited coating and the adjacent setting of glass bead layer especially, and is bright in luster and avoid the high color reflector layer structure of pattern printed layers distortion to keep pattern printed layers.

Background technology

Reflective paster widespread use in daily life, a lot of commodity reflective paster of all can arranging in pairs or groups uses, for example: safety helmet, locomotive, automobile, clothes etc.See through reflective paster and be attached on the extensive stock, can make pattern on the reflective paster because the relation of light refraction simultaneously, and more bright, so also can use as warning mark.

Traditional reflective marking paper structure as shown in Figure 1; side cutaway view for the traditional reflective material structure; as shown in the figure; the below of the glass bead layer 11 of traditional reflectorized material 1 is formed with an aluminium specular layer 12; again with resin bed 13 in conjunction with a bottom 14; and for forming the reflective phenomenon of color, can directly screen painting mode figure cloth patterned layer be used on glass bead layer 11 surfaces of the reflectorized material behind the finished product 1 usually, be seen through glass bead layer 11 and protrude from the surface and reach reflective effect.

Yet, when utilizing the screen painting mode will make patterned layer be coated on glass bead layer 11 surfaces, because fluid mechanics and glass bead layer 11 surfaces have concavo-convex relation of plane, make the pigment thickness of patterned layer be difficult to control, so can't be uniformly attached on the glass bead layer 11, make the patterned layer on the convex surface of glass bead layer 11 thinner, patterned layer on the concave surface is thicker, therefore will have influence on the reflecting effect of light, the color of patterned layer can't be reflected uniformly, more can't show very careful lines, and make lines and pattern all present fuzzy shape.And because glass bead layer 11 air spots are sliding, when patterned layer directly was printed on rough glass bead layer surface, the burnish resistance and the water tolerance of patterned layer were not good with making.

Therefore, in order to improve the disappearance of above-mentioned prior art, a kind of existing reflector layer structure is arranged again, its structure comprises a glass bead layer, an adhesive film, a color layer, a specular layer and a bottom from outside to inside.And color layer is to see through the point-like mode of printing to be printed on the adhesive film.Color layer can be printed on the smooth adhesive film, so can solve the disappearance of aforementioned conventional reflectorized material structure.Yet, this kind is provided with the structure of color layer between glass bead layer and specular layer, make color layer be positioned at the inboard of glass bead layer, make specular layer at reflex time, because of not having distance between specular layer and the color layer,, so will cause the cross-color of color layer or thin out so the pattern on the color layer can't clearly be refracted to the outside, even only see the shape of color layer and can't see color, and can't reach the effect of expection.Moreover, the glass bead layer of this kind structure is directly exposed, and not only surface touch is comparatively coarse outside, and the plural beaded glass on the glass bead layer is easy to because of wearing and tearing again or is subjected to temperature variation drop, and influence reflecting effect, can cause the thin out or distortion of color layer color equally.

Therefore, how inventing out a kind of high color reflector layer structure, can make the color of color layer and pattern keep tone originally, and make reflecting effect more bright, to promote overall utility, will be that the utility model desires actively to disclose part.

The utility model content

Fundamental purpose of the present utility model can keep the vividness of color script and avoid pattern distortion, to promote practicality for a kind of high color reflector layer structure is provided after reflection.

Another purpose of the present utility model can promote reflecting effect for a kind of high color reflector layer structure is provided, and integral body is more bright.

For reaching above-mentioned purpose, the utility model provides a kind of high color reflector layer structure, comprises a transparent film layer, a pattern printed layers, a gel layer, a glass bead layer and an electrodeposited coating.Pattern printed layers is the front side that is distributed in transparent film layer.Gel layer cloth is provided in a side of the rear side of transparent film layer.Glass bead layer is laid in the gel layer rear side uniformly, and glass bead layer partly is combined in the gel layer.Electrodeposited coating covers the rear side of glass bead layer, for the usefulness of glass bead layer refraction.

In a preferred embodiment, the electrodeposited coating rear side further is provided with an adhesion layer, and the setting by adhesion layer is to be combined on the different article.And adhesion layer can be self-adhesive adhesion layer, water transfer printing adhesion layer or hot melt adhesive adhesion layer.

Compared to prior art, the color reflector layer structure of height of the present utility model, with the adjacent setting of glass bead layer with electrodeposited coating, can directly scatter to the external world after making light see through the electrodeposited coating refraction through glass bead layer, to make pattern and the color on the pattern printed layers, can keep color and undistorted originally, and make integral body more bright, to promote result of use, more can reach the effect of expection.In addition, glass bead layer is arranged on the inboard, so can avoid the plural beaded glass on glass bead layer surface to expose or come off, can use for a long time and guarantee more that integral color is bright-coloured bright.

Description of drawings

Fig. 1 is the side cutaway view of traditional reflective material structure;

Fig. 2 is the side-looking diagrammatic cross-section of high color reflector layer structure one preferred embodiment of the utility model;

Fig. 3 is the user mode synoptic diagram of high color reflector layer structure one preferred embodiment of the utility model; And

Fig. 4 is the side-looking diagrammatic cross-section of high another preferred embodiment of color reflector layer structure of the utility model.

Reference numeral lists as follows:

The 1-reflectorized material

The 11-glass bead layer

12-aluminium specular layer

The 13-resin bed

The 14-bottom

The high color reflector layer structure of 2-

The 21-transparent film layer

The 22-pattern printed layers

The 23-gel layer

The 24-glass bead layer

The 25-electrodeposited coating

The 26-adhesion layer

Embodiment

Below by particular specific embodiment embodiment of the present utility model is described, be familiar with that the those skilled in the art of technical field can understand other advantage of the present utility model and effect easily by the content that this instructions disclosed under the utility model.

The graphic explanation of following reference embodiment of the present utility model, it should be noted, below graphic for the signal of simplifying graphic, and basic conception of the present utility model only is described in a schematic way, so only the illustration structure relevant with the utility model but not component number, shape and size when implementing according to reality are drawn in graphic, form, quantity and the ratio of each element are not to exceed with diagram during its actual implements, and can need change according to actual design, close chat earlier bright.

At first, see also shown in Figure 2, side-looking diagrammatic cross-section for high color reflector layer structure one preferred embodiment of the utility model, as shown in the figure, the high color reflector layer structure 2 of the utility model comprises a transparent film layer 21, a pattern printed layers 22, a gel layer 23, a glass bead layer 24 and an electrodeposited coating 25.

Transparent film layer 21 is the structure of a thin slice or film like; it can form a plane and be beneficial to the outside that pattern printed layers 22 is printed on transparent film layer 21; and can protect the glass bead layer 24 that is positioned at the inboard, exposed outside with the male and fomale(M﹠F) of avoiding glass bead layer 24, and make surface touch more smooth.Pattern printed layers 22 is to see through the transparent ink printing pattern color is printed on transparent film layer 21 outsides, makes the more wear-resisting and weatherability of pattern printed layers 22.Gel layer 23 is to be coated on transparent film layer 21 inboards, is used for fixing plural beaded glass.When making, plural beaded glass is laid on the gel layer 23 with sprinkling or coating method, when being evenly distributed on, plural beaded glass then constitutes a glass bead layer 24 on the gel layer 23.At this moment, 1/2nd of glass bead layer 24 is sunk in the gel layer 23, and in addition, the mode that also can see through extruding or heating is laid in glass bead layer 24 in the gel layer 23.Form an electrodeposited coating 25 in glass bead layer 24 inboards by plating mode at last, can be as having the function of light refraction as the minute surface.And electrodeposited coating 25 is formed on the glass bead layer 24 1/2nd of gel layer 23 relatively.

Please consult shown in Figure 3 again, user mode synoptic diagram for high color reflector layer structure one preferred embodiment of the utility model, as shown in the figure, when reality was used, light passed pattern printed layers 22 to inner, when irradiate light arrives electrodeposited coating 25, light produces reflection, light then can see through glass bead layer 24 and scatter to the external world, make to be positioned at outermost pattern printed layers 22 generation lights, and brightness can be increased to more than 200 degree.In addition, because electrodeposited coating 25 and glass bead layer 24 adjacent settings, thus scattering light immediately after the reflection, so can make the color on the pattern printed layers 22 keep original bright-coloured degree, cooperate the projection of light will more bright colour developing again, and pattern can distortion and stereoscopic sensation is more arranged yet.

Please consult shown in Figure 4 again, side-looking diagrammatic cross-section for high another preferred embodiment of color reflector layer structure of the utility model, as shown in the figure, the color reflector layer structure 2 of height of the present utility model can be according to the difference of the commodity of using, for example can use on commodity such as clothes, safety helmet or locomotive car shell, therefore, electrodeposited coating 25 inboards of high color reflector layer structure 2 then further are laid with an adhesion layer 26, and this adhesion layer 26 can be respectively self-adhesive adhesion layer 26, water transfer printing adhesion layer 26 or hot melt adhesive adhesion layer 26 according to different commodity.When adhesion layer 26 is self-adhesive adhesion layer 26, comprise a strippable paper layer again.So, when reality is used, then can see through the setting of adhesion layer 26, firm is combined on the various different commodity, to promote whole practicality.

Compared to existing structure, the color reflector layer structure of height of the present utility model is by glass bead layer and the adjacent setting of electrodeposited coating, make light after the electrodeposited coating reflection, can see through glass bead layer is scattered on the pattern printed layers at once, and project the external world, can not only promote brightness and more can make the color on the pattern printed layers more bright-coloured bright, more can avoid the pattern color distortion.In addition, because glass bead layer do not expose,, therefore under long-term use, still can possess good brightness so not only the surface is more level and smooth and can avoid the beaded glass on the glass bead layer to come off, more can reach the effect of expection, also can increase the service life and promote simultaneously whole practicality.

Though aforesaid description and graphicly disclosed the utility model preferred embodiment, but must recognize variously increase, many modifications and replace and may be used in the utility model preferred embodiment, can not break away from the spirit and the scope of the utility model principle that claim defines.The those skilled in the art that are familiar with the affiliated technical field of the utility model can know from experience, and the utility model can be used in the modification of many forms, structure, layout, ratio, material, element and assembly.Therefore, this paper should be regarded as in order to explanation the utility model at the embodiment that this disclosed, but not in order to restriction the utility model.Scope of the present utility model should be defined by claim, and contains its legal equivalents, is not limited to previous description.

Claims (9)

1. one kind high color reflector layer structure is characterized in that, comprises:

One transparent film layer;

One pattern printed layers is distributed in the front side of this transparent film layer;

One gel layer is laid in the rear side of this transparent film layer;

One glass bead layer is laid in this gel layer rear side uniformly, and this glass bead layer partly is combined in this gel layer; And

One electrodeposited coating covers the rear side of this glass bead layer, for the usefulness of this glass bead layer refraction.

2. the color reflector layer structure of height as claimed in claim 1 is characterized in that this electrodeposited coating rear side further is provided with an adhesion layer.

3. the color reflector layer structure of height as claimed in claim 2 is characterized in that this adhesion layer is the self-adhesive adhesion layer.

4. the color reflector layer structure of height as claimed in claim 3 is characterized in that this self-adhesive adhesion layer comprises a strippable paper layer again.

5. the color reflector layer structure of height as claimed in claim 2 is characterized in that, this adhesion layer is a water transfer printing adhesion layer.

6. the color reflector layer structure of height as claimed in claim 2 is characterized in that this adhesion layer is the hot melt adhesive adhesion layer.

7. the color reflector layer structure of height as claimed in claim 1 is characterized in that this glass bead layer 1/2nd is positioned at this gel layer, and 1/2nd are positioned at this electrodeposited coating.

8. the color reflector layer structure of height as claimed in claim 1 is characterized in that this glass bead layer is made of plural beaded glass.

9. the color reflector layer structure of height as claimed in claim 8 is characterized in that, this plural number beaded glass is to be laid in this gel layer rear side via sprinkling or coating method.

Images