JPH0610853U - Transmitted ultraviolet ray amount evaluation device - Google Patents

Abstract

(57) [Abstract] [Purpose] To provide an apparatus (transmitted ultraviolet ray amount evaluation apparatus) capable of easily and visually evaluating ultraviolet ray transmittance. [Structure] A holding unit 6 including a light-emitting body 4 capable of emitting ultraviolet light and an ultraviolet-ray generating light source 5 and capable of holding an evaluation sample so as to block the ultraviolet light with which the light-emitting body 4 is irradiated.
Is provided. At this time, the ultraviolet light source 5 is provided inside the box-shaped device body 1, and the light-emitting sheet as the light-emitting body 4 is covered with the window 3 formed on the side surface 2 of the device body 1. A structure in which the evaluation sample is suspended from the slit 6 provided on the upper surface 7 of the main body 1 is preferable. In addition, a three-dimensional light-emitting body is provided inside the box-shaped device body 1, and the light emission on the surface is observed from an opening window provided on the side surface of the device body. [Effect] By observing the light emission of the light-emitting body, the amount of transmitted ultraviolet light can be evaluated easily and quickly, and it is excellent in the visual property and the design property in the evaluation.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a device (transmitted ultraviolet ray amount evaluation device) capable of easily visually comparing and evaluating the ultraviolet light shielding properties of a product which shields ultraviolet rays, particularly a cloth for ultraviolet light shielding treatment.

[0002]

[Prior art]

 In recent years, products that block or reduce the transmission of ultraviolet rays by absorbing or reflecting ultraviolet rays that are said to adversely affect the skin of the human body, so-called ultraviolet cut products, have been marketed, and the performance of these products is It is evaluated by evaluating the amount of transmitted UV light. Various radiation dosimeters are commonly used to evaluate the amount of transmitted UV radiation, but these instruments are very expensive, complex to evaluate, and require scientific knowledge. Therefore, it is difficult for the general public to understand.

Therefore, as a method for easily evaluating the ultraviolet transmittance of an ultraviolet cut product, a paper indicator, which is a simple ultraviolet dosimeter, or a cloth dyed with a dye weak to ultraviolet rays is used. In this case, the paper indicator or the dyed cloth is covered with UV-cut products, and the UV light is irradiated from the upper side of the UV-cut products to visually check the change in hue of the paper indicator or dyed cloth after exposure. Evaluate and compare the performance of UV protection products.

However, in any of these methods, since the dye is irreversible in any case, it is not possible to repeatedly use the paper indicator or the dyed fabric after being exposed to ultraviolet rays, and there is a problem that the evaluation takes time. is there. In addition, for easier evaluation, it is also conducted to irradiate ultraviolet rays from the back surface of the ultraviolet cut product and compare the hue difference of the ultraviolet light transmitted through the ultraviolet cut product, but it is generally difficult to understand. Poor design. Thus, up to now, there has been no device capable of easily and effectively visually comparing and evaluating the amount of transmitted ultraviolet rays.

[0005]

[Problems to be solved by the device]

 An object of the present invention is to provide a device (transmitted ultraviolet ray amount evaluation device) that allows anyone to quickly and comparatively evaluate the ultraviolet light shielding performance of an ultraviolet ray cut product with a simple operation. Another object of the present invention is a device that can be used repeatedly by reversible discoloration (coloring), and the performance of UV-cut products can be visually understood by anyone with good design. Is to provide.

[0006]

[Means for Solving the Problems]

 The transmitted ultraviolet ray amount evaluation apparatus of the present invention includes a luminescent material coated with a material capable of being excited and radiated by ultraviolet rays, and an ultraviolet ray generating light source. It is characterized by the fact that it has a holding part that can hold it.

That is, the transmitted ultraviolet ray amount evaluation device of the present invention has a structure in which the ultraviolet ray from the ultraviolet ray generation light source is applied to an object (luminous material) coated with a material that excites and emits when the ultraviolet ray is irradiated. However, when the evaluation sample is held in the holder, it has a structure in which the ultraviolet light emitted from the ultraviolet light source is shielded so that the emission of the luminescent material by the ultraviolet light that has passed through the evaluation sample can be observed from the outside. Has become. The device of the present invention compares and evaluates the difference in the ultraviolet transmittance (shielding property) of the evaluation sample as the difference in the luminescent color observed at this time. In the present invention, the holding portion may be provided at a position where the ultraviolet light emitted to the light emitting object can be shielded. Even if the holding portion is provided on the ultraviolet light source side, it may be provided on the light emitting object side. Is also good.

Further, in the preferred structure of the present invention, the ultraviolet light source is provided inside the box-shaped device body, and a window is formed on an arbitrary side surface of the device body. The window is covered with a light-emitting sheet coated with a material capable of being excited and emitted by ultraviolet rays as a light-emitting material, and the upper surface of the main body of the apparatus serves as a holding portion that is substantially the same as the light-emitting sheet. It is characterized in that parallel slits are provided, and when the evaluation sample is hung down and held from the slits, it is possible to block the ultraviolet rays applied to the light emitting sheet. At this time, it is preferable that a light-shielding plate extending in the direction of the ultraviolet light source is provided between adjacent windows.

Further, in the transmitted ultraviolet ray amount evaluation apparatus of the present invention, the ultraviolet ray generation light source is provided on the upper surface side of the apparatus main body, and the bottom surface of the apparatus main body can be excited and emitted by ultraviolet rays as a luminescent material. A light-emitting solid coated with a different material is provided, and an opening window is formed in the lower part of any side surface of the device body so that the light emission of the light-emitting solid can be observed from the outside. It is also characterized in that the section is provided in the apparatus main body so that the evaluation sample can be held in the horizontal direction.

The transmitted ultraviolet ray amount evaluation apparatus of the present invention will be described below with reference to the drawings. In the apparatus of the present invention, the amount of ultraviolet rays that have passed through the evaluation sample (ultraviolet ray cut product) is determined by the transmission of the ultraviolet light emitting material. There are two types, one is a structure evaluated by the luminescent color and the other one is a structure evaluated by the reflected luminescent color of the ultraviolet luminescent material. FIG. 1 is a perspective view showing an internal structure of a preferred example of a transmitted ultraviolet ray amount evaluation apparatus (type evaluated by a transmitted light emission color of an ultraviolet ray emitting material) of the present invention, and FIG. 2 is a perspective view showing the present invention shown in FIG. It is a side sectional view showing the internal structure of the device. On the other hand, FIG. 3 is a perspective view showing an internal structure of a preferred example of the transmitted ultraviolet ray amount evaluation apparatus (type evaluated by reflected emission color of ultraviolet ray emitting material) of the present invention.

First, in the transmitted ultraviolet ray amount evaluation apparatus of the present invention illustrated in FIG. 1, a box-shaped apparatus body 1 has an inclined rear surface and a vertically standing side surface 2 (front surface) opposed thereto. On the side surface 2, two quadrangular windows 3 are formed, and as the luminescent material 4 coated with a material capable of being excited and emitted by ultraviolet rays, a luminescent sheet 4 ′ on which a person is drawn is provided. It is provided so as to cover these windows 3. In the present invention, the shape of the device body 1 is not particularly limited, and the number of windows 3 is not limited, but it is generally plural. In the present invention, the boundary between the windows 3 may be formed by printing on the light emitting sheet 4 ', and in this case, the number of windows 3 may be one. Of course, the arrangement of the windows 3 is not limited, and the windows 3 may be arranged in the vertical direction.

As the light emitting sheet 4 ′, generally, a transparent plastic film having a front surface or a back surface coated with a dispersion liquid in which a substance excited by ultraviolet rays is dispersed in a urethane binder is coated. However, the material that can be excited and emitted by ultraviolet rays according to the present invention is a material that absorbs a wavelength in the ultraviolet region and converts the wavelength into the visible region to emit light or change color. Typical examples of such materials are the phosphor YS-A manufactured by Nemoto Special Chemical Co., Ltd. (luminescent color is red), the phosphorescent pigment GSS manufactured by Nemoto Special Chemical Co., Ltd. (luminescent color is yellow), and Nemoto Special Chemical. There are phosphors HG-A (light emitting color is green) manufactured by Co., Ltd., phosphor SPE-A (light emitting color is blue) manufactured by Nemoto Special Chemical Co., and the like. In the present invention, it is possible to express more realistic patterns in multiple colors by combining these luminescent substances not only in a single color design expression, but also in an appropriate manner. Is preferably applied, and the pattern provided on the light-emitting sheet 4'is also preferably a pattern having a design property.

In the device of the present invention, an ultraviolet light source 5 capable of irradiating the light emitting sheet 4 ′ with ultraviolet light is provided inside the device body 1 as shown in FIG. A commercially available light source can be used as the ultraviolet light source 5. The ultraviolet light source referred to in the present proposal is one that generates ultraviolet A wave (320 nm to 400 nm) and ultraviolet B wave (290 nm to 320 nm), which is said to affect the skin of the human body. Examples thereof include UVL-56 type lamps and UV M-57 type lamps manufactured by the US), and black light sources (eg Toshiba FL20S, BLB) commonly known as long-wavelength ultraviolet rays.

Further, in the device of the present invention, the holding part 6 capable of holding the evaluation sample is provided so as to block the ultraviolet light applied to the luminescent material 4, and the device illustrated in FIGS. 1 and 2 is provided. The holding portion 6 in the apparatus is a slit 6 ′ provided on the upper surface 7 of the apparatus body 1 and substantially parallel to the light emitting sheet 4 ′. Then, when the evaluation samples 8a and 8b are suspended downward from the slit 6 ', the structure is such that the ultraviolet light applied to the light emitting sheet 4'is shielded. In the present invention, of the ultraviolet rays emitted from the ultraviolet ray generation light source 5, the light emitted from the light emitting sheet 4'being transmitted through the evaluation sample can be observed from the outside through the window 3 (see FIGS. 1 and 2).

In this case, the ultraviolet rays that have passed through the evaluation sample 8a and the ultraviolet rays that have passed through the evaluation sample 8b are applied to different windows 3, respectively. In the device shown in FIG. The ultraviolet light transmitted through the evaluation sample 8a is irradiated on the light emitting sheet 4'provided on the right window 3, and the ultraviolet light transmitted through the evaluation sample 8b is irradiated on the light emitting sheet 4'provided on the left window 3. . The evaluation samples 8a and 8b shown here are fabrics for comparative evaluation, and the upper side of each is fixed to a bar and is held in a state of being suspended from the slit 6 ′ downward. There is.

In the present invention, the side surface 2 provided with the light emitting sheet 4 ′ is perpendicular to the bottom surface of the apparatus body 1 as shown in FIG. The sheet 4'is not limited to being parallel to the surface of the sheet 4 ', and the side surface 2 and the light emitting sheet 4'may be inclined with respect to the bottom surface of the apparatus body 1.

In the present invention, when there is a difference between the ultraviolet transmittance of the evaluation sample 8a and the ultraviolet transmittance of the evaluation sample 8b, that is, when the ultraviolet absorptivity or reflectance of each sample is different, the sample is transmitted. Then, the amount of ultraviolet rays reaching the light emitting sheet 4'is different, and the smaller the ultraviolet ray cut rate is, the better the pattern drawn on the light emitting sheet 4'emits light. Anyone can easily visually evaluate the color difference due to such light emission. Moreover, according to the present invention, the ultraviolet light shielding property of the evaluation sample can be evaluated instantly just by suspending the evaluation sample in the slit 6 ′, so that the time required for the evaluation is short and the color development is not irreversible. , Repeated evaluation can be performed. Also, the replacement of the measurement samples 8a and 8b is easy.

In the device of the present invention, as shown in FIGS. 1 and 2, a light shielding plate 9 extending in the direction of the ultraviolet ray generating light source 5 is provided between the windows 3 adjacent to each other. Preferably, by arranging the boundary line between the evaluation samples 8a and 8b on the extension line of the shading plate 9, the ultraviolet rays radiated to each window 3 are surely divided by the shading plate 9 and transmitted. The accuracy and the visibility when comparing and evaluating the amount of ultraviolet rays are improved.

Next, an apparatus of the present invention of a type that evaluates the amount of ultraviolet rays that pass through the sample to be evaluated based on the reflected emission color of the ultraviolet ray emitting material will be described with reference to FIG. In the transmitted ultraviolet ray amount evaluation apparatus shown in FIG. 3, a light emitting solid 4 ″ coated with a material capable of being excited and emitted by ultraviolet rays is provided as the light emitting material 4 on the bottom surface of the box-shaped apparatus body 1. Luminescent solid 4 ″ shown in 3 is a conical solid, and the surface thereof is coated with the above-mentioned ultraviolet luminescent material dispersed in a binder. An opening window 3 ′ is formed in the lower portion of the arbitrary side surface 2 (front surface) of the apparatus body 1 as a window 3 so that the light emitted from the light emitting solid 4 ″ can be observed from the outside. In the present invention, the shape of the light emitting solid 4 ″ is not particularly limited as long as the light emitted from the light emitting solid 4 ″ due to the ultraviolet rays emitted from the upper portion can be observed through the opening window 3 ′. It is preferable that the light emitting solid 4 ″ has a surface inclined upward so that the color of light emitted from the surface of the light emitting solid 4 ″ can be easily observed (see FIG. 3). Of course, this light emitting solid 4 ″ may be a flat one, or a light emitting sheet 4 ′ shown in FIG. Alternatively, a transparent sheet or the like may be covered.

On the other hand, in the apparatus shown in FIG. 3, an ultraviolet ray generating light source 5 capable of irradiating the light emitting solid 4 ″ with ultraviolet rays is provided on the upper surface side inside the apparatus main body 1. The above-mentioned ones are used. Further, in the apparatus main body 1, as shown in Fig. 3, the evaluation sample is held in the horizontal direction so as to block the ultraviolet rays applied to the light emitting solid 4 ". A holding unit 6 capable of performing the evaluation is provided, and the evaluation samples 8a and 8b are inserted into the holding unit 6 in the horizontal direction, and the evaluation is performed in the state shown in FIG.

In the apparatus shown in FIG. 3, the ultraviolet light transmitted through the evaluation sample 8a is irradiated to the light emitting solid 4 ″ located on the right side, and the ultraviolet light transmitted through the other evaluation sample 8b is illuminated by the light emitting solid 4 located on the left side. When the amount of ultraviolet light that passes through each evaluation sample is different, the emission color of the light emitting solid 4 "is different, and the reflected light is observed through the opening window 3 '. In this case as well, in the same manner as in the case described above, the light-emitting solid 4 ″ on the sample side having a low UV-cut rate emits light well. In the device of the present invention, since the light emitting solid body 4 "is provided inside the box-shaped device body, the light from the outside is blocked, and the difference in the emission color is easily observed.

The device shown in FIG. 3 may also be provided with a light-shielding plate for the purpose of dividing the ultraviolet rays applied to each light emitting solid body 4 ″. In this case, each light emitting solid body 4 ″ is partitioned. In this way, the boundary line of the evaluation sample is positioned on the extension line of the light shielding plate extending upward from the bottom surface of the apparatus body 1.

The device of the present invention can be used for evaluation of various UV-blocking products. For example, in order to make a device suitable for evaluating the performance of an umbrella having a UV-shielding property, a luminescent material is used as an umbrella. A doll (light emitting solid) provided with a holding portion capable of holding the doll is preferable, and a doll having a structure in which ultraviolet rays are radiated from the top of the umbrella held by the doll. Examples of the present invention will be described below.

[0024]

【Example】

 Example 1 A UVL-56 type lamp (long wavelength 365 nm type) manufactured by Ultra Violet (USA) was installed as an ultraviolet light source in the inside of the apparatus body shown in FIG. Each of the windows has a phosphor film YS-A 5% made by Nemoto Special Chemical Co., Ltd. and a urethane type binder RYUDYE-W made by Dainippon Ink and Chemicals Co., Ltd. A coating solution prepared by mixing 95% of Binder SR-10 was applied to the face portion having a pattern as shown in FIG. 1 by coating, and a dried luminescent sheet was provided. The human face part coated with such a phosphor was white when it was not irradiated with ultraviolet rays. Then, a slit as shown in FIG. 1 is provided on the upper surface of the main body of the apparatus, and a light shielding plate extending in the direction of the ultraviolet ray generating light source is provided at the boundary line between the two windows. A device for evaluating the amount of transmitted ultraviolet light of the present invention having the above structure was produced.

As a sample for evaluation, a cloth obtained by heat-treating 190 broads desalted, scoured and bleached by a conventional method with a benzotriazole-based substance, which is an ultraviolet absorbing substance, was subjected to a padding dry heat treatment (ultraviolet absorbing treated fabric). Then, an untreated fabric was prepared.

Then, as shown in FIGS. 1 and 2, when the above-mentioned UV-absorption-treated cloth and untreated cloth were suspended side by side from the slit provided on the upper surface of the apparatus main body, the UV-shielding cloth was obtained. On the side of the luminescent sheet, the face part of the pattern remained white, but the face part of the pattern on the untreated fabric side was excellent because it turned red as if it was tanned by the ultraviolet rays that passed through the fabric. It showed a good design. As described above, the transmitted ultraviolet ray amount evaluation device of the present invention can easily and clearly visually evaluate the cloth subjected to the ultraviolet light shielding treatment and the untreated cloth, and not only can the immediate comparative evaluation be performed. , Has the advantage that repeated evaluation is possible.

Example 2 As an apparatus having a structure shown in FIG. 3, a UVM-57 type lamp (medium wavelength 302 nm) manufactured by Ultra Violet (USA) was used as an ultraviolet light source, and the same procedure as in Example 1 was performed. A transmission ultraviolet ray amount evaluation apparatus of the present invention was prepared in which a cone-shaped light emitting body coated with a material capable of being excited and emitted by ultraviolet rays was installed inside the apparatus body. As the evaluation sample, the same sample as in Example 1 was used, and each evaluation sample was held in the horizontal direction as shown in FIG. 3 to evaluate the amount of transmitted ultraviolet rays.

When the luminescent color of the luminescent solid on the side of the ultraviolet light shielding treatment and the luminescent color of the luminescent solid on the side of the untreated fabric were observed, the luminescent solid on the side of the untreated fabric was red, as in Example 1. Although it showed a color, the side of the ultraviolet ray-shielded cloth remained white and no discoloration occurred. As described above, by using the device of the present invention, the amount of transmitted ultraviolet rays can be evaluated easily and quickly by visual inspection, and by appropriately selecting the emission color, the observed emission color can be designed. Can be rich.

[0029]

[Effect of device]

 The transmitted ultraviolet ray amount evaluation device of the present invention can instantly evaluate as a color difference when comparing the performance of an ultraviolet ray cut product or when comparing an ultraviolet ray cut product and an untreated product. It has the advantage of being shorter than the conventional one. However, by appropriately selecting the color to be developed, the observed color can be rich in design, and the visual quality at the time of evaluation is particularly excellent. Also, the design can be imparted by the design drawn on the color development sheet. Furthermore, the device of the present invention is easy to operate for evaluation, requires no scientific knowledge, is easy for general people to understand, and can be repeatedly used by exchanging evaluation samples. There are also advantages.

[Brief description of drawings]

FIG. 1 is a perspective view showing an internal structure of a transmitted ultraviolet ray amount evaluation device (type evaluated by a transmitted light emission color of an ultraviolet light emitting material) of the present invention.

FIG. 2 is a side sectional view showing the internal structure of the device of the present invention shown in FIG.

FIG. 3 is a perspective view showing an internal structure of a transmitted ultraviolet ray amount evaluation device of the present invention (a type evaluated by reflected light emission color of an ultraviolet light emitting material).

[Explanation of symbols]

1 Device main body 2 Side surface 3 Window 3'Open window 4 Luminous object 4'Light emitting sheet
4 "light emitting solid 5 ultraviolet light source 6 holding part 6'slit 7 upper surface 8a, 8b evaluation sample (ultraviolet ray cut product) 9 light shielding plate

Claims (4)

[Scope of utility model registration request] 1. A light-emitting object 4 coated with a material capable of being excited and emitted by ultraviolet rays, and an ultraviolet-ray generating light source 5,
A transmitted ultraviolet ray amount evaluation apparatus, characterized in that a holding portion 6 capable of holding an evaluation sample is provided so as to block the ultraviolet rays applied to the luminescent material 4. 2. The ultraviolet light source 5 is provided inside a box-shaped apparatus body 1, and a window 3 is formed on an arbitrary side surface 2 of the apparatus body 1, and the window 3 is formed in the window 3. The light emitting sheet 4 ′ coated with a material capable of being excited and emitted by ultraviolet rays is covered as the light emitting material 4, and the upper surface 7 of the device main body 1 is provided with the light emitting sheet 4 ′ as the holding portion 6. A slit 6'substantially parallel to the sheet 4'is provided, and when the evaluation sample is hung and held downward from the slit 6 ', it is possible to block the ultraviolet rays applied to the light emitting sheet 4'. The transmitted ultraviolet ray amount evaluation device according to claim 1, wherein 3. The transmitted ultraviolet ray amount evaluation apparatus according to claim 2, wherein a light shielding plate 9 extending in the direction of the ultraviolet ray generating light source 5 is provided between the windows 3 adjacent to each other. . 4. The ultraviolet ray generating light source 5 is provided on the upper surface side in the box-shaped apparatus body 1, and a material capable of being excited and emitted by ultraviolet rays as the luminescent material 4 on the bottom surface in the apparatus body 1. Is provided, and an opening window 3 ′ is formed in the lower part of the side surface 2 of the device body 1 for observing the light emitted from the light emitting solid 4 ″ from the outside. And that the holding section 6 is provided in the apparatus main body 1 so as to hold the evaluation sample in the horizontal direction.
The transmitted ultraviolet ray amount evaluation device described.