CN201594149U - Structure of reflective highly reflective material - Google Patents

Abstract

The utility model relates to a structure of reflection of light high reflecting material, including a superficial layer as the surface, this superficial layer includes a resin layer that has attached effect, this superficial layer is attached with a glass pearl layer on this resin layer side, this glass pearl layer is laid by an at least glass pearl and is constituted, be equipped with the glued membrane layer of a fixed function on this glass pearl layer, be equipped with a color layer that utilizes punctiform printing mode (UV OFFSET) printing on this glued membrane layer, be equipped with a mirror layer that has the light refraction effect on this color layer, be equipped with a bottom on this mirror layer, thereby, when the user peels this superficial layer, after light shines through above-mentioned group, because of having the space between these glass pearls, this light can shine to mirror layer after reflection by this space, reach the effect that the improvement is higher than general luminance.

Description

The structure of reflective high reflecting material

Technical field

The utility model relates to a kind of reflective high reflecting material, refers to a kind ofly by special layer structure especially, makes the structure of the reflective high reflecting material of the more apparent light of this colored ink pattern.

Background technology

Along with transition of age, the progress of science and technology is maked rapid progress, general existing reflective paster can't satisfy the people of vast hobby paster, especially to require its surface of light-back reflecting material must have complicated careful pattern as the consumer and when colored, general universal mode and utilize screen painting, color printing ink is imprinted on the surface of beaded glass, to reach consumer's the purpose that requires.

See also shown in Figure 1, cut-open view for existing reflection configuration, find out by knowing among the figure, the finished product of this reflecting material is formed withaluminium specular layer 11 underglass bead layer 1, on withresin material 12ground 13 being fitted again, and for forming the reflective phenomenon of color, directly use the screen painting mode to coat beaded glass according to general method and protrude on the surface, reach and have reflective effect in the reflectorized material beaded glass surface of finished product.

Yet above-mentioned reflecting material structure in use, exist following point and disappearance to wait to improve: the shortcoming that this screen painting mode is caused is that this color layer is when being coated on the beaded glass surface, because fluid stress andglass bead layer 1 convex-concave relation of plane, the thickness of color layer is difficult to control after the coating drying, can't evenly be attached on theglass bead layer 1, and cause convex surface painted thin and concave surface is painted thick, therefore must directly have influence on light has evident difference to exist by the reflecting effect of front and side, color also can't be even simultaneously, moreover, because ofglass bead layer 1 surface and unsmooth, therefore the lines behind surperficial screen painting also can't show very careful line image, and make lines and pattern present fuzzy shape, simultaneously because printing ink directly is adhered to the surface of glass, therefore abrasion resistance is poor, and anti-washing property is bad especially.

Therefore, how to solve above-mentioned existing problem and disappearance, be inventor of the present utility model and desire most ardently the direction place that research improves with the relevant manufacturer that is engaged in the industry.

The utility model content

Therefore, inventor of the present utility model is because above-mentioned disappearance, collect related data, through assessing in many ways and consider, and to be engaged in the many years of experience of the industry accumulation, through constantly studying and revising, just design this by special multilayer processing coating technique, this brightness is exceeded more than the Baidu more than existing, but and the coating chromatic pattern, and the utility model of structure that can effectively shorten the reflective high reflecting material of printing time.

Main technical schemes of the present utility model is: a kind of structure of reflective high reflecting material, and it includes: a superficial layer, this superficial layer is for the most surperficial; One glass bead layer, this glass bead layer are located on this superficial layer, and wherein this glass bead layer is laid by at least one beaded glass and constituted, and has the space between the beaded glass; One adhesive film, this adhesive film are located on this glass bead layer, and this adhesive film has the function of fixing glass pearl; One color layer, this color layer are located on this adhesive film; One specular layer, this specular layer are located on this color layer, and this specular layer has the function of light refraction; And a bottom, this bottom is located on this specular layer.

The utility model is done one with this superficial layer earlier and is made the beginning, this superficial layer is provided with a glass bead layer, this glass bead layer is laid by at least one beaded glass and is formed, and beaded glass is in the laying process, utilize spray pattern or coating method that these beaded glasses are located on this superficial layer, when laying, utilize extruding or type of heating that 1/2nd of these beaded glass volumes are packed on this superficial layer again, and has the space between these beaded glasses, this space can make light wear and penetrate, this glass bead layer is provided with an adhesive film, this adhesive film can be done these beaded glasses one and fix, make these beaded glasses can be more firmly and more tight, this adhesive film is provided with a color layer, this color layer is a full-color aspect, and this color layer is the mode (UV OFFSET) with point-like printing, it is printed on this adhesive film, be provided with a specular layer on this color layer again, this specular layer has the function of light refraction, when making irradiate light, wear by space between these beaded glasses and to be mapped to this specular layer back reflection, make this color layer more apparent beautiful, on this specular layer, be provided with a bottom again.By above-mentioned technology, can be existing because of using the screen painting mode at existing reflecting material structure, make this color layer when coating the beaded glass surface, because fluid stress and beaded glass convex-concave relation of plane, the thickness of color layer is difficult to control after the coating drying, can't evenly be attached on the beaded glass, and cause convex surface painted thin and concave surface is painted thick, therefore must directly have influence on light has evident difference to exist by the reflecting effect of front and side, simultaneously color also uniformly problem points broken through, reach the structure that the utility model adopts a kind of reflective high reflecting material, this structure has a special production method, this brightness is improved, and can effectively shorten printing time, and the practical improvement that can adopt full-color mode to print.

Description of drawings

Fig. 1 is the cut-open view of existing reflecting material structure.

Fig. 2 is the cut-open view one of the utility model preferred embodiment.

Fig. 3 is the cut-open view two of the utility model preferred embodiment.

Fig. 4 is the enforcement synoptic diagram one of the utility model preferred embodiment.

Fig. 5 is the enforcement synoptic diagram two of the utility model preferred embodiment.

Fig. 6 is the enforcement synoptic diagram three of the utility model preferred embodiment.

Reference numeral lists as follows:

The 1-glass bead layer

11-aluminium specular layer

The 12-resin material

The 13-ground

The reflective high reflecting material of 2-

The 3-superficial layer

The 31-resin bed

The 4-glass bead layer

The 41-beaded glass

The 42-space

The 5-adhesive film

The 6-color layer

The 7-specular layer

The 8-bottom

9-light

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.

See also Fig. 2, shown in Figure 3, cut-open view one, two for the utility model preferred embodiment, find out by knowing among the figure, described reflective high reflectingmaterial 2 includes: asuperficial layer 3, thissuperficial layer 3 is for the most surperficial, the material on thissurface 3 is polyethylene terephthalate (PET), and thissuperficial layer 3 includes one and has theresin bed 31 that attaches effect, and thisresin bed 31 is made up of PE upgrading glue thing; Oneglass bead layer 4, thisglass bead layer 4 is located on thissuperficial layer 3, wherein thisglass bead layer 4 is laid by at least onebeaded glass 41 and is constituted, and hasspace 42 between thesebeaded glasses 41, and thesebeaded glasses 41 can be laid on thissuperficial layer 3 by spray pattern or coating method; Oneadhesive film 5, thisadhesive film 5 are located on thisglass bead layer 4, and thisadhesive film 5 has the function of fixing thesebeaded glasses 41, make thesebeaded glasses 41 can be more firmly and more tight, and thisadhesive film 5 is a special colloid (Primer); Onecolor layer 6, thiscolor layer 6 are located on thisadhesive film 5, and thiscolor layer 6 is a full-color aspect, and thiscolor layer 6 is the mode (UVOFFSET) of point-like printing, and it is printed on thisadhesive film 5; Onespecular layer 7, thisspecular layer 7 is located on thiscolor layer 6, and thisspecular layer 7 has the function of light refraction, makes thiscolor layer 6 more apparent beautiful, and thisspecular layer 7 can be plating, mirror or has one of them person of reflection function material; And abottom 8, thisbottom 8 is located on thisspecular layer 7, and the material of thisbottom 8 can be hot melt adhesive or one of them person of edge-jointing adhesive.

Moreover, when the user inresin bed 31 sides of thissuperficial layer 3 to spray or coating method when thesebeaded glasses 41 are laid in thissuperficial layer 3, the user also can utilize extruding or type of heating that 1/2nd of thesebeaded glass 41 volumes are clogged on thissuperficial layer 3, makes thesebeaded glasses 41 also can be more bright.

By above-mentioned structure, form design, now be described as follows with regard to use situation of the present utility model, please cooperate simultaneously consult shown in Figure 4, enforcement synoptic diagram one for the utility model preferred embodiment, find out by knowing among the figure, thissuperficial layer 3 includes one and has theresin bed 31 that attaches effect, thissuperficial layer 3 is laid with at least onebeaded glass 41 in theseresin bed 31 sides, thesebeaded glasses 41 see through spray pattern or coating method is laid on thissuperficial layer 3, and in the laying process, as shown in the figure, thesebeaded glasses 41 can be trapped in thisresin bed 31, and the volume that thesebeaded glasses 41 are absorbed in thisresin bed 31 is 1/2nd of a wholebeaded glass 41, promptly 1st/2nd of thesebeaded glass 41 volumes, be trapped in thisresin bed 31, and make thesebeaded glasses 41 reach the optimization of brightness.

See also Fig. 5 and shown in Figure 6, enforcement synoptic diagram two for the utility model preferred embodiment, three, find out by knowing among the figure, this reflective high reflectingmaterial 2 includes asuperficial layer 3 as the surface, thissuperficial layer 3 includes aresin bed 31 with quasi-viscous effect, thissuperficial layer 3 sticks together in theseresin bed 31 sides aglass bead layer 4, thisglass bead layer 4 is laid by at least onebeaded glass 41 to be constituted, thisglass bead layer 4 is provided with theadhesive film 5 of a fixed function, thisadhesive film 5 is provided with acolor layer 6 that utilizes point-like mode of printing (UV OFFSET) to print, thiscolor layer 6 is provided with aspecular layer 7 with light refraction effect, thisspecular layer 7 is provided with abottom 8, when user's desire is used, the user can remove this superficial layer 3 (removing simultaneously thisresin bed 31 together with removing), outside then thisglass bead layer 4 promptly is exposed to, when light 9 theseglass bead layer 4 of irradiation, because of havingspace 42 between thesebeaded glasses 41, thislight 9 can be worninjection rete 5 andcolor layer 6 in regular turn via thisspace 42, then to specularlayer 7 reflections, make thesebeaded glasses 41 more bright through thesebeaded glasses 41 simultaneously in reflection, reach brightness and improve the above effect of 200 degree.

When the utility model uses, compare, have following advantage really with prior art:

(1) the utilitymodel color layer 6 is to utilize point-like mode of printing (UV OFFSET) printing, the mode of printing of non-general employing half tone.

(2)color layer 6 can be colored aspect, presents compared with mode that generally can only the black and white aspect, the utlity model has high progressive.

(3) adhesive film 5 (Primer) can more combine closely thesebeaded glasses 41 in order to fix thesebeaded glasses 41.

(4)color layer 6 directly is printed on this adhesive film 5 (Primer), and thiscolor layer 6 is provided with aspecular layer 7, can make thiscolor layer 6 more apparent beautiful when light 9 irradiations, and via the blast of thesebeaded glasses 41, overall brightness is improved more than 200 degree.

Though aforesaid description and graphicly disclosed preferred embodiment of the present utility model, 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 in 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. the structure of a reflective high reflecting material is characterized in that, described reflective high reflecting material includes: a superficial layer, and this superficial layer is for the most surperficial; One glass bead layer, this glass bead layer are located on this superficial layer, and wherein this glass bead layer is laid by at least one beaded glass and constituted, and has the space between the beaded glass; One adhesive film, this adhesive film are located on this glass bead layer, and this adhesive film has the function of fixing glass pearl; One color layer, this color layer are located on this adhesive film; One specular layer, this specular layer are located on this color layer, and this specular layer has the function of light refraction; And a bottom, this bottom is located on this specular layer.

2. the structure of reflective high reflecting material as claimed in claim 1, the material that it is characterized in that this superficial layer is a polyethylene terephthalate.

3. the structure of reflective high reflecting material as claimed in claim 1 is characterized in that this superficial layer includes a resin bed with quasi-viscous effect.

4. the structure of reflective high reflecting material as claimed in claim 3 is characterized in that this resin bed is made up of PE upgrading glue thing.

5. the structure of reflective high reflecting material as claimed in claim 1 is characterized in that these beaded glasses are laid on this superficial layer via spray pattern or coating method.

6. the structure of reflective high reflecting material as claimed in claim 1 is characterized in that this adhesive film is a colloid.

7. the structure of reflective high reflecting material as claimed in claim 1 is characterized in that this color layer is a point-like mode of printing printing.

8. the structure of reflective high reflecting material as claimed in claim 1, it is characterized in that this specular layer be plating, mirror or have the reflection function material one of them.

9. the structure of reflective high reflecting material as claimed in claim 1, the material that it is characterized in that this bottom be hot melt adhesive or edge-jointing adhesive one of them.

Images