CN211857093U - Integrated into one piece's plastics function glasses - Google Patents

Abstract

The utility model discloses an integrated plastic functional glasses, which comprises a frame part and a leg part which are integrally formed by colored transparent plastic materials and can be relatively bent; at least the positions, located on the lenses, of the mirror frame part are provided with micro-nano structures formed by hot press forming or UV transfer printing, and the micro-nano structures form rainbow surfaces, semi-permeable structures or full-permeable structures. The utility model discloses a plastics function glasses that an organic whole was made, except mirror leg and picture frame, the lens part also integratively forms, and micro-nano structure forms on part or whole glasses, and is different with prior art, omits the step of installation or pasting the lens, when retrieving, because an organic whole is made, and the material is the same, need not categorised recovery, reduces the cost of recovery.

Description

Integrated into one piece's plastics function glasses

Technical Field

The utility model relates to an integrated into one piece's plastics function glasses.

Background

There is a functional glasses, grating glasses, which can form grating pictures on the light spots through the grating film, so as to enhance the fun or advertisement effect. The functional glasses can be made into disposable glasses by using a paper frame adhesive film. However, from the viewpoint of environmental protection, particularly, the requirement for garbage classification is higher and higher at present, and the disposable glasses have the defects that the glasses frame and the film piece belong to different classification categories, and the glasses frame and the film piece need to be separated and recovered during recovery, so that the labor cost for recovery is increased.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provide an integrated plastic functional glasses.

The utility model provides a technical scheme that its technical problem adopted is:

an integrally formed plastic functional glasses, which comprises a frame part and a leg part which are integrally formed by transparent plastic materials and can be relatively bent; at least the positions, located on the lenses, of the mirror frame part are provided with micro-nano structures formed by hot press forming or UV transfer printing, and the micro-nano structures form rainbow surfaces, semi-permeable structures or full-permeable structures.

In another preferred embodiment, thermal or die-cut impressions are provided between the frame and temple portions, or upper and lower indentations are provided between the frame and temple portions.

In another preferred embodiment, the micro-nano structure is a Diffractive Optical element (Diffractive Optical elements) or a Holographic Diffractive Optical element (Holographic E | elements) or 3D.

In another preferred embodiment, the micro-nano structure forms a rainbow surface or a semi-transparent structure, and the rainbow surface or the semi-transparent structure has a contour or a dotted line to form a visible pattern.

In another preferred embodiment, at least a portion of the temple portion and the frame portion other than the lens portion is provided with a printed layer.

The utility model has the advantages that: the plastics function glasses of integrative preparation, except that mirror leg and picture frame, the lens part also integratively forms, and micro-nano structure forms on lens part or whole glasses, and is different with prior art, omits the step of installation or pasting the lens, and when retrieving, because integrative the making, the material is the same, need not the classification and retrieves, reduces the recovery cost. The semi-transparent or rainbow-faced micro-nano structure enables visible patterns to be directly generated on the glasses, and a plurality of functional glasses can be distinguished. When the LED light source directly irradiates on the micro-nano structure, the pattern can be seen. Patterns can be printed on other positions except the lens, so that the visual enjoyment is improved or the advertising effect is increased. Hot stamping, die cutting stamping, upper and lower indentations to enable folding of the frame and temple portions.

The present invention will be described in further detail with reference to the accompanying drawings and examples; however, the plastic functional glasses of the present invention are not limited to the embodiments.

Drawings

Fig. 1 is a schematic structural diagram of a first embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a second embodiment of the present invention.

Detailed Description

For the convenience of understanding the technical idea and the spirit of the present invention, the following description is directed to the present invention by referring to different embodiments, which are only illustrative and not intended to limit the scope of the present invention.

First embodiment referring to fig. 1, the present invention relates to an integrally formed plastic functional glasses, which comprises a frame part 1 and a leg part 2 integrally formed by colored or colorless transparent plastic materials and capable of being bent relatively, wherein an upper notch 31 and a lower notch 32 are respectively disposed between the frame part 1 and the leg part 2, and the upper notch 31 and the lower notch 31 can be replaced by a hot indentation or a die cutting indentation by aligning the upper notch 31 and the lower notch 32 for folding; in this embodiment, the positions of the frame part 1 on the lenses 11 are respectively provided with a diffractive optical element, a holographic diffractive optical element, a 3D or ultra-precision machining, and the existing nano-imprinting, roll-to-roll hot-press forming, coating or UV coating modes are adopted; the nano-imprinting method may be, for example, a hot press molding method through a micro-nano structure on the master, and the master is transferred by a thermal transfer method.

As shown in fig. 1, the micro-nano structure forms a fog surface structure 4, which is relatively integral and transparent and semi-transparent, on the position of the lens, the fog surface structure 4 has love patterns formed by outlines or dotted lines, and a plurality of groups of love patterns are distributed on the position of the lens 11 of the frame portion 1. When a backlight source is arranged, love patterns can be seen on the light spots through the micro-nano structure, and interestingness is improved.

In this embodiment, in order to improve the appearance of the entire glasses, a printed layer (not shown) is provided on the temple portion 2 and the frame portion 1 at a position excluding the lens 11. Other embodiments can also be integrated glasses made of colored transparent materials, and micro-nano structures are formed at the positions of the lenses. Or the plastic sheet which is made of colored transparent material and integrally has a micro-nano structure is formed by punching.

Second embodiment referring to fig. 2, the present embodiment is different from the first embodiment in that: the love pattern is changed into a customizable LOGO pattern 4 ', the micro-nano structure forms a rainbow surface structure, the LOGO pattern 4' is visible, when a backlight source is provided, the patterns of LOGO or other advertisements or ornamental or anti-counterfeiting marks can be seen on light spots through the micro-nano structure, and the patterns can also be seen by directly irradiating an LED light source on the micro-nano structure. Between the frame part 1 and the temple part 2, respectively, a thermal impression 3' is provided.

The above embodiments are only used to further illustrate the plastic functional glasses of the present invention, but the present invention is not limited to the embodiments, and any simple modification, equivalent change and modification made by the technical entity of the present invention to the above embodiments all fall into the protection scope of the technical solution of the present invention.

Claims (5)

1. The utility model provides an integrated into one piece's plastics function glasses which characterized in that: the glasses frame comprises a frame part and a leg part which are integrally formed by transparent plastic materials and can be bent oppositely; at least the positions, located on the lenses, of the mirror frame part are provided with micro-nano structures formed by hot press forming or UV transfer printing, and the micro-nano structures form rainbow surfaces, semi-permeable structures or full-permeable structures.

2. The integrally formed plastic functional glasses according to claim 1, wherein: thermal indentation or die cutting indentation is arranged between the frame part and the leg part, or an upper notch and a lower notch are arranged between the frame part and the leg part.

3. The integrally formed plastic functional glasses according to claim 1, wherein: the micro-nano structure is a diffractive optical element, a holographic diffractive optical element or 3D.

4. The integrally formed plastic functional glasses according to claim 1, wherein: the micro-nano structure forms a rainbow surface or a semi-permeable structure, and the rainbow surface or the semi-permeable structure is provided with a contour or a dotted line forming pattern.

5. The integrally formed plastic functional glasses according to claim 1, wherein: at least one part of the positions of the glasses leg part and the glasses frame part except the positions of the glasses lenses is provided with a printing layer.

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