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Visual ultraviolet ray detecting device with luminous performance

A detection device and ultraviolet technology, which is applied in the field of ultraviolet monitoring, can solve problems such as inconvenient use and inaccurate detection results, and achieve the effects of accurate detection results, convenient use, and excellent results

Inactive Publication Date: 2017-07-28
NANCHANG O FILM TECH CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] The purpose of the present invention is to provide a visual ultraviolet detection device with luminous performance to solve the above problems of inaccurate detection results and inconvenient use

Method used

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  • Visual ultraviolet ray detecting device with luminous performance
  • Visual ultraviolet ray detecting device with luminous performance
  • Visual ultraviolet ray detecting device with luminous performance

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0029] Such as figure 1 As shown, a visual ultraviolet detection device with luminous performance provided by Embodiment 1 of the present invention includes: a substrate 10; a first ultraviolet photochromic pigment 20 sequentially stacked on the surface of the substrate 10; Layer 30, the second ultraviolet photochromic pigment 40, and the self-coloring pigment 50; wherein, the first ultraviolet photochromic pigment 20, the second ultraviolet photochromic pigment 40, and the self-coloring pigment 50 have different colors, Luminous dyes are arranged in the ultraviolet semi-shielding layer 30 . The first ultraviolet photochromic pigment 20 and the second ultraviolet photochromic pigment 40 are pigments that will show a specific color under the irradiation of light containing ultraviolet light, and the self-coloring pigment 50 itself has The pigment of the color is opaque, and the ultraviolet semi-insulating layer 30 is a kind of insulating layer that can completely absorb low-in...

Embodiment 2

[0035] A visual ultraviolet detection device with luminous performance provided by Embodiment 2 of the present invention is basically the same in structure as Embodiment 1, and the similarities will not be described again. The difference lies in:

[0036] Such as figure 2 As shown, the first ultraviolet photochromic pigment 20 and the second ultraviolet photochromic pigment 40 are several color blocks, and the self-coloring pigment 50 is a planar structure. Thus, when there is no ultraviolet light, the device shows the color of the self-coloring pigment 50, when there is ultraviolet light but the intensity is low, the ultraviolet light is absorbed by the ultraviolet semi-shielding layer 30, and only the first ultraviolet photochromic pigment 20 changes color at this time. , the device shows the mixed color of the first ultraviolet photochromic pigment 20 and the self-coloring pigment 50. When there are ultraviolet rays and the intensity is relatively high, the ultraviolet sem...

Embodiment 3

[0038] A visual ultraviolet detection device with luminous performance provided by Embodiment 3 of the present invention is basically the same in structure as Embodiment 2, and the similarities will not be described again. The difference lies in:

[0039] Such as image 3As shown, the first ultraviolet photochromic pigment 20 has several color blocks, and the second ultraviolet photochromic pigment 40 and the self-coloring pigment 50 are planar structures. Thus, when there is no ultraviolet light, the device shows the color of the self-coloring pigment 50, when there is ultraviolet light but the intensity is low, the ultraviolet light is absorbed by the ultraviolet semi-shielding layer 30, and only the first ultraviolet photochromic pigment 20 changes color at this time. , the device shows the mixed color of the first ultraviolet photochromic pigment 20 and the self-coloring pigment 50. When there are ultraviolet rays and the intensity is relatively high, the ultraviolet semi-...

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PUM

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Abstract

The invention discloses a visual ultraviolet ray detecting device with a luminous performance. The device comprises a substrate, a first ultraviolet photochromic pigment, an ultraviolet semi-isolated layer, a second ultraviolet photochromic pigment and a self-chromogenic pigment, wherein the first ultraviolet photochromic pigment, the ultraviolet semi-isolated layer, the second ultraviolet photochromic pigment and the self-chromogenic pigment are successively laminated on the surface of the substrate. The first ultraviolet photochromic pigment, the second ultraviolet photochromic pigment and the self-chromogenic pigment have different colors. The ultraviolet semi-isolated layer is internally provided with a luminous dye. The visual ultraviolet ray detecting device is based on a color neutral mixing method. Ultraviolet ray strength is not determined according to depth change of one color, and is determined according to hue shift, thereby realizing high accuracy of a detection result. Furthermore the visual ultraviolet ray detecting device has the luminous performance, thereby facilitating device position recognition in a dark environment and realizing high convenience in use.

Description

technical field [0001] The invention relates to the technical field of ultraviolet monitoring, and in particular provides a visual ultraviolet detection device with luminous performance. Background technique [0002] As we all know, the ultraviolet rays in the sun have a strong bactericidal ability, and can also make dehydrocholesterol in the human body into vitamin D, which promotes bone calcification and growth. However, in addition to dull and aging skin, excessive ultraviolet radiation may also cause photodermatitis, photoophthalmia, headache, dizziness, and even induce skin cancer. Therefore, for people who often do outdoor activities, it has become an urgent need to detect the intensity of ultraviolet rays in the outdoor environment anytime and anywhere. [0003] The current devices for detecting the intensity of ultraviolet rays usually display the current intensity of ultraviolet rays by using the depth of the color change of a single ultraviolet photochromic materi...

Claims

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Application Information

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IPC IPC(8): G01J1/50G01J1/02
CPCG01J1/0271G01J1/50
Inventor 倪宇阳唐彬孟锴许鹏钭忠尚徐觅
Owner NANCHANG O FILM TECH CO LTD