CN212364751U - Goggles suitable for all-weather wearing - Google Patents

Abstract

The goggles comprise a high-reflection film layer and an anti-reflection film layer, wherein the high-reflection film layer is positioned on the surface, far away from eyes, of a substrate, and the anti-reflection film layer is positioned on the surface, close to the eyes, of the substrate. The goggles can make the golfer clearly see the height fluctuation, the grass line and the gradient of the green.

Description

Goggles suitable for all-weather wearing

Technical Field

The utility model relates to a goggles field, especially be suitable for the all-weather goggles of wearing of golfer.

Background

Existing sun protection eyewear generally provides only 100% UV400 protection, about 30-50% blue light resistance, and dimming of light. Other sunglasses specifically designed for golf are only suitable for use with specific light sources, such as: some light transmittance is only 10-15%, the lens is only suitable for being used in violent sunlight, and the light source can not be less than 6000 lumens; on the contrary, some light transmittance is up to 40%, only applicable to cloudy days, and the light source can not exceed 4000 lumens; some of the selected colors are bright, so that the emotion of the player is excited within 4 to 5 hours in the court, thereby not only influencing the exertion of the skill of the player, but also increasing the fatigue after the competition. Polariscope is also a popular type of sunglasses, but it is only suitable for waterborne activities and the lenses have a feeling of distance disparity.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a first purpose provides a goggles that is fit for wearing in all weather, and this goggles can make the golfer see the height fluctuation, the grass line and the slope of putting green clearly.

A second object of the present invention is to further improve the hardness and wear resistance of the lens.

The third purpose of the utility model is to further make the goggles surface not easy to adhere to water drops, fingerprints, oil stains and the like.

In order to achieve the first objective, the utility model provides a pair of goggles includes high reflection rete and anti-reflection rete that increases reflection, the high reflection rete is located the surface of keeping away from eyes of substrate, anti-reflection rete that increases reflection is located the surface that is close to eyes of substrate.

On one hand, the anti-reflection film layer is arranged on the surface of the substrate close to eyes, so that light from the back can directly penetrate through the lens, and the light is prevented from being reflected by the lens to enter the eyes; on the other hand, the high-reflection film layer is arranged on the surface of the substrate far away from the eyes, so that most of reflected light which makes objects and images fuzzy can be isolated, and the two reflected light layers are combined, so that the problem of poor vision caused by reflecting light with multiple angles and different reflection rates due to the fact that the surface of the object is not an absolute plane is solved, a wearer can see the objects more clearly and three-dimensionally, and a golfer can see the high-low fluctuation, the grass marks and the gradient of the green clearly. Meanwhile, the high-reflection film layer and the anti-reflection film layer are combined, so that the light transmittance of the lens is 27% -29%, and a light source with ground reflection ranging from 10 lumens to 100000 lumens does not influence the vision, and the lens is suitable for being worn all the day long.

Preferably, the high-reflection film layer comprises a plurality of silicon dioxide layers and a plurality of titanium pentoxide layers, the overall thickness is between 1 and 3 micrometers, and the silicon dioxide layers and the titanium pentoxide layers are alternately arranged; the antireflection film layer comprises a plurality of silicon dioxide layers and a plurality of titanium pentoxide layers, the whole thickness is between 0.7 and 0.9 microns, and the silicon dioxide layers and the titanium pentoxide layers are alternately arranged. The high-reflection film layer with the thickness can separate 80% of irregular reflection, so that the object distance is more real and three-dimensional, and the visual effect is better.

More preferably, starting from the substrate, the highly reflective film layer comprises the following components in sequence: the high-reflection film comprises a silicon dioxide layer, a titanium oxide layer, a silicon dioxide layer, a titanium oxide layer and a silicon dioxide layer, wherein the overall thickness of the high-reflection film layer is 2 micrometers; starting from a substrate, the antireflection film layer sequentially comprises the following components: the anti-reflection film comprises a silicon dioxide layer, a titanium oxide layer, a silicon dioxide layer, a titanium oxide layer and a silicon dioxide layer, wherein the whole thickness of the anti-reflection film is 0.8 micrometer.

In order to achieve the second object, hard coatings for improving the hardness and the wear resistance of the surface of the substrate are further arranged between the high-reflection film layer and the substrate of the goggles and between the anti-reflection film layer and the substrate.

In order to achieve the third purpose, a hydrophobic oil-repellent layer is further arranged on the surface of the high-reflection film layer and the surface of the anti-reflection film layer of the goggles.

Preferably, the substrate is a colored resin.

Compared with the prior art, the utility model discloses following beneficial effect has at least:

is suitable for all-weather wearing. The light transmittance is 27% -29%, and the light source with the ground reflection between 10 lumens and 100000 lumens does not affect the vision.

The lens can be directly penetrated by the light from the rear, and the poor vision caused by the reflection of light with multi-angle and different reflection rate can be isolated due to the non-absolute plane of the surface of the object, so that the wearer can see the object more clearly and stereoscopically, and the golf can clearly see the fluctuation, the grass lines and the gradient of the putting green.

Drawings

FIG. 1 is a schematic diagram of the components of an embodiment of eyewear;

reference numerals: 1. a substrate; 2. hardening the layer; 3. a highly reflective film layer; 4. an anti-reflection film layer; 5. hydrophobic and oil-phobic layer.

Detailed Description

The present invention will be further explained with reference to the drawings and examples.

Referring to fig. 1, the goggles comprise a high-reflection film layer and an antireflection film layer, wherein the high-reflection film layer is positioned on the surface, far away from eyes, of a substrate, and the antireflection film layer is positioned on the surface, close to the eyes, of the substrate. Hard coatings for improving the hardness and the wear resistance of the surface of the substrate are further arranged between the high-reflection film layer and the substrate and between the anti-reflection film layer and the substrate. And the surfaces of the high-reflection film layer and the anti-reflection film layer are also provided with hydrophobic oil-repellent layers.

Wherein, the high reflection film layer is composed of silicon dioxide layers and titanium pentoxide layers which are alternately arranged, and the whole thickness is 2 microns. The anti-reflection film layer is also composed of silicon dioxide layers and titanium pentoxide layers which are alternately arranged, and the whole thickness is 0.8 microns. In this embodiment, starting from the substrate, the high reflection film layer sequentially comprises: silicon dioxide layer, titanium oxide layer, silicon dioxide layer. Starting from a substrate, the antireflection film layer sequentially comprises the following components: silicon dioxide layer, titanium trioxide layer, silicon dioxide layer.

Wherein, the hard coating layer can be formed on the surface of the substrate by adopting a dip-coating heat curing process. The high reflection film layer, the anti-reflection film layer and the hydrophobic oil-repellent layer are formed by a vacuum electronic coating process. Materials that can be used for the hard coating include, but are not limited to, HC-3800 material manufactured by japan fine works. Materials that can be used for the hydrophobic oleophobic layer include, but are not limited to, Korean EnSH-HT materials.

The substrate is preferably colored polycarbonate (polycarbonates) to enhance visual comfort.

The present invention has been described in detail with reference to the specific embodiments, and the detailed description is only for assisting the skilled person in understanding the content of the present invention, and can not be understood as the limitation of the protection scope of the present invention. Various decorations, equivalent changes and the like which are performed on the scheme by the technical personnel in the field under the conception of the invention are all included in the protection scope of the invention.

Claims (6)

1. The goggles are characterized by comprising a high-reflection film layer and an anti-reflection film layer, wherein the high-reflection film layer is positioned on the surface, far away from eyes, of a substrate, and the anti-reflection film layer is positioned on the surface, close to the eyes, of the substrate.

2. The goggles as claimed in claim 1, wherein hard coatings for improving the hardness and abrasion resistance of the surface of the substrate are further provided between the high-reflection film layer and the substrate and between the antireflection film layer and the substrate.

3. The goggle of claim 1 wherein the highly reflective film layer comprises a plurality of silicon dioxide layers and a plurality of titanium pentoxide layers, the overall thickness is between 1 and 3 microns, and the silicon dioxide layers and the titanium pentoxide layers are alternately disposed; the antireflection film layer comprises a plurality of silicon dioxide layers and a plurality of titanium pentoxide layers, the whole thickness is between 0.7 and 0.9 microns, and the silicon dioxide layers and the titanium pentoxide layers are alternately arranged.

4. Goggles as claimed in claim 3, characterised in that said highly reflective film layer is constituted, starting from the substrate, in the following order: the high-reflection film comprises a silicon dioxide layer, a titanium oxide layer, a silicon dioxide layer, a titanium oxide layer and a silicon dioxide layer, wherein the overall thickness of the high-reflection film layer is 2 micrometers; starting from a substrate, the antireflection film layer sequentially comprises the following components: the anti-reflection film comprises a silicon dioxide layer, a titanium oxide layer, a silicon dioxide layer, a titanium oxide layer and a silicon dioxide layer, wherein the whole thickness of the anti-reflection film is 0.8 micrometer.

5. The goggles as claimed in claim 1, wherein the surface of said high-reflection film layer and the surface of said antireflection film layer are further provided with hydrophobic and oleophobic layers.

6. Eyewear according to claim 1, wherein the substrate is a colored resin.

Images