CN201031024Y - Anti-ultraviolet lamination packaging film - Google Patents

Abstract

The utility model provides an anti-ultraviolet light cumulo packaging film, which comprises a first film membrane layer, an anti-ultraviolet light absorber layer is coated on the upper portion of the first film membrane, which provides anti-ultraviolet light penetrating, a semitransparent dye coating is arranged on the upper portion of the anti-ultraviolet light absorber layer, a second film membrane layer is covered on the semitransparent dye coating, and a coating is formed by the first and the second film membrane layers, which protects the anti-ultraviolet light absorber layer, and semitransparent dye coating, and can not be disappeared or destroyed by the external force. According to the upper component parts, the anti-ultraviolet light absorber layer is arranged to reduce the light splitting absorbance penetrating rate, and semitransparent dye coating are utilized to cover part of visible light, and the utility model takes a packing effect that sensitization change materials can be produced by the visible light and the ultraviolet light can be achieved, and can perspective view the materials.

Description

A kind of uvioresistant lamination packaging film

Technical field

The utility model relates to a kind of uvioresistant lamination packaging film; particularly about having uvioresistant (UV) absorber layer, translucent dye coating; reach protection and can produce the responsive packing effect that changes material, can have an X-rayed the packaging film of this material again ultraviolet ray (UV) and visible rays.

Background technology

The industrial and commercial prosperity of society now, space utilization an inch of land is an inch of gold; Scientific and technological progress again, all kinds of material are also continually developed innovation; wherein advance by leaps and bounds on the way especially with medical supplies; but medical supplies are the not irradiation of UV resistant (UV) and visible rays often; be to produce the material of responsive variation effect; its preservation of packaged concerns the safety when using again; therefore how to take into account the effect of this material of perspective and protection, can reach space utilization again, it adopts soft packaging film is the place of related industry effort now.

See also Fig. 1 and Fig. 2 and shown in Figure 9, shown in accompanying drawing be the beam split absorbance measurement relevant regulations table of commonly using transparent plastic material rete section-drawing, commonly using transparent plastic material rete beam split absorbance transmitance figure and ordinary test method; Wherein transparent plastic material rete 100 detects the opposing ultraviolet ray through the standard of ordinary test method, ultraviolet wavelength is general approximately slightly below 400nm, in its test data, when wavelength is 318.5nm, spectrophotometric transmittance approximately slightly 70%, the obvious disclosing solution of its result grows tall in the ultraviolet ray of 310.0nm, and the ultraviolet ability of its transparent plastic material rete 1 opposing is very low.

Therefore, take a broad view of above analysis, how above-mentioned defective is forgone, be the place of the technical difficulties of the utility model institute desire solution.

Summary of the invention

The purpose of this utility model provides a kind of uvioresistant lamination packaging film; reduce by ultraviolet minute optical absorbance transmitance in order to this uvioresistant (UV) absorber layer; and utilize translucent dye coating to come the shaded portions visible rays; reach protection and can produce the responsive packing effect that changes material, can have an X-rayed this material again ultraviolet ray (UV) and visible rays.

The technical solution of the utility model realizes by following technical proposals, a kind of uvioresistant lamination packaging film provided by the utility model comprises: a first film layer, its top is provided with uvioresistant (UV) absorber layer, translucent dye coating, and is combined to form the coating protective effect with second thin layer; One uvioresistant (UV) absorber layer is provided with and coats the first film layer top, provides opposing ultraviolet ray (UV) to penetrate; Half transparency dye layer is to be provided with to coat uvioresistant (UV) absorber layer top, provides opposing shaded portions visible rays to penetrate; One second thin layer is to be provided with to cover on the translucent dye coating, and is combined to form coating with this first film layer, and protection this uvioresistant (UV) absorber layer, translucent dye coating are provided, and can not scrape because of external force and ruin, destroys.

Further technical scheme of the present utility model is for a kind of uvioresistant lamination packaging film that is provided, it comprises: a first film layer, it is polyester (PET), its top is provided with uvioresistant (UV) absorber layer, translucent dye coating, and is combined to form the coating protective effect with second thin layer; One uvioresistant (UV) absorber layer is provided with and coats the first film layer top, provides opposing ultraviolet ray (UV) to penetrate, uvioresistant (UV) coefficient of this uvioresistant (UV) absorber layer, and it is between 0 to 60; Half transparency dye layer is to be provided with to coat uvioresistant (UV) absorber layer top, provides opposing shaded portions visible rays to penetrate, and the colorant of this translucent dye coating is the visible rays that covers red, orange, yellow, green, blue, indigo, purple arbitrary part spectrum; One second thin layer is polyethylene (PE), is to be provided with to cover on the translucent dye coating, and is combined to form coating with this first film layer, and protection this uvioresistant (UV) absorber layer, translucent dye coating are provided, and can not scrape because of external force and ruin, destroys.

In addition further technical scheme of the present utility model is for a kind of uvioresistant lamination packaging film that is provided, it comprises: a first film layer, it is polyester (PET), its top is provided with uvioresistant (UV) absorber layer, translucent dye coating, and is combined to form the coating protective effect with second thin layer; One uvioresistant (UV) absorber layer is provided with and coats the first film layer top, provides opposing ultraviolet ray (UV) to penetrate, uvioresistant (UV) coefficient of this uvioresistant (UV) absorber layer, and it is between 0 to 60; Half transparency dye layer is to be provided with to coat uvioresistant (UV) absorber layer top, provides opposing shaded portions visible rays to penetrate, and the colorant of this translucent dye coating is the visible rays that covers red, orange, yellow, green, blue, indigo, purple arbitrary part spectrum; One second thin layer is polypropylene (PP), is to be provided with to cover on the translucent dye coating, and is combined to form coating with this first film layer, and protection this uvioresistant (UV) absorber layer, translucent dye coating are provided, and can not scrape because of external force and ruin, destroys.

According to forming by above-mentioned member; provide this uvioresistant (UV) absorber layer to reduce by ultraviolet minute optical absorbance transmitance; and utilize translucent dye coating to come the shaded portions visible rays; really reached protection and can produce the responsive soft packaging film packing effect that changes material, can have an X-rayed this material again ultraviolet ray (UV) and visible rays.

Be appreciated that fwd general introduction and following detailed all are exemplary and explanat, the utility model that is intended to limit for claim provides further explanation.

The utility model is more effective opposing ultraviolet ray, can in the first film layer of uvioresistant lamination packaging film or second thin layer, directly add ultraviolet-resistant absorbent, make on the ordinary test method detection data of beam split absorbance measurement, tangible uvioresistant usefulness being arranged, also can in the first film layer second thin layer of uvioresistant lamination packaging film, directly add translucent dyestuff again with the opposing visible rays; Again, can be terephthalic acid and ethylene glycol is sloughed the polyester (PET, Poly-ethylene terephthalate) of hydrone polymerization selecting for use of the first film layer, its advantage is light weight and hard, acid and alkali-resistance, airtight; In addition selecting for use of second thin layer can be polyethylene (PE) or polypropylene (PP) material, and the advantage of polyethylene (PE) is fastness to water, corrosion stability, resistance to chemical reagents, Dent resistance, and that the advantage of polypropylene (PP) is anti-insulation, resistance to effect of heat, surface gloss is good.

Below just relevant technology contents of the present utility model and detailed description, existing conjunction with figs. and given embodiment describe as follows.

Description of drawings

Fig. 1 is for commonly using transparent plastic material rete section-drawing;

Fig. 2 is for commonly using transparent plastic material rete beam split absorbance transmitance figure;

Fig. 3 is the utility model first embodiment section-drawing;

Fig. 4 divides optical absorbance transmitance figure for the utility model first embodiment;

Fig. 5 is the utility model second embodiment section-drawing;

Fig. 6 divides optical absorbance transmitance figure for the utility model second embodiment;

Fig. 7 is the utility model the 3rd embodiment section-drawing;

Fig. 8 divides optical absorbance transmitance figure for the utility model the 3rd embodiment;

Fig. 9 is the beam split absorbance measurement relevant regulations table of ordinary test method.

Description of reference numerals: transparent plastic material rete 100; First embodiment A; Second Embodiment B; The 3rd Embodiment C; The first film layer 1; Uvioresistant (UV) absorber layer 2; Translucent dye coating 3; Second thin layer 4.

The specific embodiment

At first, see also Fig. 3 and shown in Figure 4, shown accompanying drawing is that the utility model first embodiment section-drawing and the utility model first embodiment divide optical absorbance transmitance figure; It comprises: a first film layer 1, and it is polyester (PET), its top is provided with uvioresistant (UV) absorber layer 2, and is combined to form the coating protective effect with second thin layer 4; One uvioresistant (UV) absorber layer 2 is provided with and coats the first film layer 1 top, provides opposing ultraviolet ray (UV) to penetrate, uvioresistant (UV) coefficient of this uvioresistant (UV) absorber layer 2, and it is between 0 to 60; One second thin layer 4 is polyethylene (PE) or polypropylene (PP), be to be provided with to cover on uvioresistant (UV) absorber layer 2, and be combined to form coating with this first film layer 1, provide protection this uvioresistant (UV) absorber layer 2 can not scrape and ruin, destroy, to finish uvioresistant lamination packaging film first embodiment A because of external force; In addition according to shown in Fig. 9 regulation, through beam split determination of absorbance relevant title, symbol and definition, do the ordinary test method and detect the anti-ultraviolet ability of first embodiment A, transverse axis is that wavelength (nm), the longitudinal axis are spectrophotometric transmittance (%) as shown in Figure 4, ultraviolet wavelength is general approximately slightly below 400nm, so first embodiment A is in detection, when wavelength is 387.0nm, spectrophotometric transmittance approximately slightly 66.5%, thus in the test as can be known first embodiment A behind uvioresistant (UV) absorber layer 2, can reduce ultraviolet transmitance by actv..

Again, see also Fig. 5 and shown in Figure 6, shown accompanying drawing is that the utility model second embodiment section-drawing and the utility model second embodiment divide optical absorbance transmitance figure, it comprises: a first film layer 1, it is polyester (PET), its top is provided with translucent dye coating 3, and is combined to form the coating protective effect with second thin layer 4; Half transparency dye layer 3 is to be provided with to coat the first film layer 1 top, provides opposing shaded portions visible rays to penetrate, and the colorant of this translucent dye coating is the visible rays that covers red, orange, yellow, green, blue, indigo, purple arbitrary part spectrum; One second thin layer 4 is polyethylene (PE) or polypropylene (PP), be to be provided with to cover on the translucent dye coating 3, and be combined to form coating with this first film layer 1, provide protection this translucent dye coating 3, can not scrape and ruin, destroy because of external force, finishing uvioresistant lamination packaging film second Embodiment B, its translucent dye coating 3 is designed to tangerine look translucent dyestuff originally applying; In addition according to shown in Fig. 9 regulation, through beam split determination of absorbance relevant title, symbol and definition, do the ordinary test method and detect the anti-ultraviolet ability of second Embodiment B, transverse axis is that wavelength (nm), the longitudinal axis are spectrophotometric transmittance (%) as shown in Figure 6, ultraviolet wavelength is general approximately slightly below 400nm, so second applies B in detection, when wavelength is 450.0nm, spectrophotometric transmittance is rough 1.1%, thus in the test as can be known second Embodiment B behind translucent dye coating 3, can actv. opposing ultraviolet ray see through.

Again, see also Fig. 7 and shown in Figure 8, shown in accompanying drawing be that the utility model the 3rd embodiment section-drawing and the utility model the 3rd embodiment divide optical absorbance transmitance figure; It comprises: a first film layer 1, and it is polyester (PET), its top is provided with uvioresistant (UV) absorber layer 2, translucent dye coating 3, and is combined to form the coating protective effect with second thin layer 4; One uvioresistant (UV) absorber layer 2 is provided with and coats the first film layer 1 top, provides opposing ultraviolet ray (UV) to penetrate, uvioresistant (UV) coefficient of this uvioresistant (UV) absorber layer 2, and it is between 0 to 60; Half transparency dye layer 3, be to be provided with to coat uvioresistant (UV) absorber layer 2 tops, provide opposing shaded portions visible rays to penetrate, the colorant of this translucent dye coating 3 is the visible rays that cover red, orange, yellow, green, blue, indigo, purple arbitrary part spectrum; One second thin layer 4 is polyethylene (PE) or polypropylene (PP), be to be provided with to cover on the translucent dye coating 3, and be combined to form coating with this first film layer 1, protection this uvioresistant (UV) absorber layer 2, translucent dye coating 3 are provided, can not scrape and ruin, destroy because of external force, to finish uvioresistant lamination packaging film the 3rd Embodiment C, its translucent dye coating 3 is designed to tangerine look translucent dyestuff at present embodiment; Shown in Fig. 9 regulation, through the relevant title of beam split determination of absorbance, symbol and definition, do the ordinary test method and detect the anti-ultraviolet ability of the 3rd Embodiment C, transverse axis is wavelength (nm) as shown in Figure 8, the longitudinal axis is spectrophotometric transmittance (%), ultraviolet wavelength is general approximately slightly below 400nm, so the 3rd Embodiment C is in detection, when wavelength is 455.0nm, spectrophotometric transmittance rough 0.1%, thus the test in as can be known the 3rd Embodiment C through uvioresistant (UV) absorber layer 2, can very effective opposing is ultraviolet behind the translucent dye coating 3 see through, effect is very good in the opposing ultraviolet ray.

In addition again, the utility model is on the ordinary test method examination criteria of beam split absorbance measurement, and when the setting wavelength was lower than 300nm, spectrophotometric transmittance will be lower than 10%; When wavelength was higher than 500nm, it is 20% anti-ultraviolet high-effect to reach that spectrophotometric transmittance will be lower than, and when using to required each visible rays that covers different spectrum of product, cooperated the color of adjusting its translucent dye coating 3 during fabrication.

Yet above-mentioned explanation only is embodiment of the present utility model, and is non-for limiting embodiment of the present utility model; All personages who is familiar with this skill, it complies with feature category of the present utility model, and other equivalence of having done changes or modifies, and selects or alteration of form etc. as size, material, all should be encompassed in following the utility model institute claim.

Claims (5)

1. uvioresistant lamination packaging film is characterized in that it comprises:

One the first film layer, its top is provided with ultraviolet-resistant absorbent layer, translucent dye coating, and is combined to form the coating protective effect with second thin layer;

One ultraviolet-resistant absorbent layer is provided with and coats the first film layer top, provides the opposing ultraviolet ray to penetrate;

Half transparency dye layer is to be provided with to coat ultraviolet-resistant absorbent layer top, provides opposing shaded portions visible rays to penetrate;

One second thin layer is to be provided with to cover on the translucent dye coating, and is combined to form coating with this first film layer, and this ultraviolet-resistant absorbent layer of protection, translucent dye coating are provided.

2. uvioresistant lamination packaging film as claimed in claim 1 is characterized in that the colorant of this translucent dye coating, is the visible rays that covers red, orange, yellow, green, blue, indigo, purple arbitrary part spectrum.

3. uvioresistant lamination packaging film as claimed in claim 1, the uvioresistant coefficient that it is characterized in that this ultraviolet-resistant absorbent layer is between 0 to 60.

4. uvioresistant lamination packaging film as claimed in claim 1 is characterized in that this first film layer is polyester (PET).

5. uvioresistant lamination packaging film as claimed in claim 1 is characterized in that this second thin layer is polyethylene (PE) or polypropylene (PP).

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