KR20160117327A - Method for Evaluating Thermal Protection Effect and Infrared Irradiation device Therefor - Google Patents

Abstract

The present invention relates to a heat blocking effect evaluating method and an infrared irradiation device therefor. More specifically, the heat blocking effect evaluating method evaluates a heat blocking effect level with respect to an infrared ray permeating a skin through temperature and erythema index comparison.

Description

FIELD OF THE INVENTION [0001] The present invention relates to a method for evaluating thermal barrier efficacy and an infrared irradiation apparatus therefor,

More particularly, the present invention relates to a method of evaluating a thermal barrier efficacy for evaluating the degree of thermal barrier effect against infiltrating infrared rays through comparison of temperature and erythema index, To an infrared ray irradiating apparatus.

The skin is the largest organ of the human body, consisting of three layers, that protects the body from many physical, chemical, and biological factors that are in direct contact with the external environment and that intrude into the body.

The skin can be aged or damaged by various factors, and the skin can be damaged by continuous infrared exposure as well as ultraviolet light. This is because when the skin is repeatedly exposed to infrared rays, not only the synthesis of collagen is drastically reduced, but also the collagenase MMP-1 (matrix metalloprotease) is increased. In addition, acute exposure to infrared rays promotes incomplete neovascularization and inflammatory response, which is a major cause of skin aging.

Therefore, in order to prevent or prevent skin damage caused by infrared heat, an evaluation method capable of evaluating the degree of inhibition of aging by heat is required, and reproducibility and accuracy such as Sun protection factor (SPF) Obtained heat block index criteria are required. The present applicant has disclosed a method of generating a thermal barrier index of a thermal barrier material by using a saturation temperature through Korean Patent Laid-Open Publication No. 10-2012-0098142 ("Method of Generating a Thermal Barrier Index", published on September 5, 2012) There is one.

The present invention proposes another method for evaluating the thermal barrier efficacy. The present invention proposes a method of generating a thermal barrier index through a thermal barrier efficacy evaluation method for calculating changes in skin temperature and erythema index caused by infrared rays infiltrating the skin , And an infrared irradiation apparatus for performing the proposed thermal barrier efficacy evaluation method.

In addition, it is intended to provide a method for easily and accurately determining the sample area for evaluating the thermal barrier efficacy.

It is also intended to provide an apparatus for irradiating infrared rays at various positions and irradiating infrared rays of the same intensity to the exact positions of a plurality of sample stages.

The method for evaluating the thermal barrier efficacy according to the present invention comprises the steps of: forming a first sample stage having a predetermined area and a second sample stage having the same area as the first sample stage and to which a sample containing an infrared ray blocking material is applied, An infrared ray irradiation step of irradiating the first sample stage and the second sample stage formed at the comparative sample stage formation step with infrared rays of the same intensity for a predetermined time; A comparative sample stage measurement step of measuring the temperature of the first sample stage and the second sample stage and taking an image; a temperature information acquisition step of acquiring temperature information measured in the comparative sample stage measurement step; A comparative sample stage calculating step including a erythema index acquisition step of acquiring erythema index information by quantification through the comparison sample stage, It characterized in that it comprises a; through the beam and the erythema index information compared to the first sample stage and the second sample stage as compared to the sample stage evaluation step of evaluating the efficacy of a sample comprising said infrared blocking material.

The comparative sample stage forming step may include a skin photographing step of photographing the skin for evaluating the heat shielding effect, an image converting step of converting the photographed image into digital data, a step of dividing the photographed skin area into a plurality of areas An image comparison step of comparing the image data of the divided area with the image data of the divided area to select two areas judged to be similar images; And a comparative sample stage display step of determining two selected regions as two sample stages for the thermal barrier efficacy evaluation test and displaying the position and size of the determined sample stage on the skin.

When two regions judged to be similar images are not selected in the image comparison step, the region is divided into smaller regions by moving to the region dividing step.

In addition, when two regions judged to be similar images are not selected even if the region dividing step is repeated a predetermined number of times or more, the skin photographing step is performed by changing the position of the skin.

In addition, the step of forming the comparative sample stage may include forming the interval between the first sample stage and the second sample stage to at least 5 cm or more.

In addition, the step of measuring the comparative sample stage may include photographing an image of the first sample stage and the second sample stage using a photographing means, wherein a polarizing filter is used.

In addition, the erythema index acquisition step uses a Lab color system or an RGB color code for color analysis of the photographed image.

In addition, the infrared irradiation apparatus for the thermal barrier efficacy evaluation method of the present invention comprises: a body including a sample unit tooth formed such that a first sample stage and a second sample stage are positioned at an upper portion; A light source part including a first light source part for irradiating infrared rays to the first sample stage and a second light source part for irradiating infrared rays to the second sample stage; A support hinged to one side of the body and supporting the light source; A power supply unit for supplying power to the light source unit; And a control unit for controlling the light source unit and the support unit.

The infrared irradiating device may further include a camera for photographing the skin, and a laser pointer for displaying the position and size of the first and second sample stages for irradiating infrared rays.

The support part includes a first support part having one end hinged to the body, and a second support part having one end hinged to the other end of the first support part and the other end hinged to the light source part.

Further, the light source unit is characterized by being rotatable about the support unit.

Also, the light source unit is characterized by irradiating infrared rays having a wavelength of 700 nm to 2500 nm.

The thermal barrier efficacy evaluation method and the infrared irradiation apparatus for the same according to the present invention are characterized in that the temperature of the first sample stage not coated with the sample including the heat shielding material and the second sample stage coated with the sample, Since the efficacy can be measured, there is an advantage that the heat blocking effect of the sample can be objectively evaluated.

Particularly, the method of evaluating the thermal barrier efficacy and the infrared irradiation apparatus according to the present invention are advantageous in that it can reflect the change of skin due to infrared irradiation by evaluating the heat shielding effect by using two indexes of temperature and erythema index have.

In addition, the skin for evaluating the thermal barrier efficacy is photographed, the sample stage having similar skin color and skin texture is determined through the image comparison, and the sample stage is displayed on the skin to easily and accurately determine the sample area for evaluating the heat- There are advantages.

The method for evaluating the thermal barrier efficacy and the infrared irradiating apparatus according to the present invention may further comprise an infrared irradiation device capable of uniformly irradiating infrared rays of the same intensity to the first sample stage and the second sample stage for evaluating the thermal barrier efficacy , And the reproducibility and accuracy of the evaluation of the thermal barrier efficacy can be enhanced.

1 is a flow chart of a method for evaluating the thermal barrier efficacy according to the present invention
FIG. 2 is a flow chart of a step of forming a comparative sample stage among the heat shielding efficacy evaluation methods of the present invention
3 is a view showing an infrared ray irradiating apparatus according to the present invention
4 is a view for explaining the light source structure of the infrared ray irradiating apparatus of the present invention
5 is a view for explaining a method of forming a comparative sample stage of the present invention
6 is a view for explaining an example of forming a comparative sample stage of the present invention
FIG. 7 is a graph showing the relationship between a sample composition table
8 is a graph showing skin temperature change comparison charts
FIG. 9 is a table showing skin erythema changes according to an embodiment of the present invention
10 is a graph showing the results of measurement of temperature and erythema change according to an embodiment of the present invention;

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG.

Prior to this, terms and words used in the present specification and claims should not be construed in a conventional or dictionary sense, and the inventor should appropriately define the concept of the term to describe its invention in the best possible way The present invention should be construed in accordance with the spirit and concept of the present invention. Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It is to be understood that equivalents and modifications are possible.

FIG. 1 is a flow chart of a method for evaluating the thermal barrier efficacy according to the present invention, FIG. 2 is a flowchart of a step of forming a comparative sample stage in the method of evaluating the thermal barrier efficacy of the present invention, and FIG. 3 is a view FIG. 5 is a view for explaining a method of forming a comparative sample stage of the present invention, and FIG. 6 is a view for explaining the structure of a comparative sample stage of the present invention FIG. 7 is a sample composition table according to an embodiment of the present invention, FIG. 8 is a skin temperature change comparison chart according to an embodiment of the present invention, FIG. 9 is a graph showing a skin erythema change according to an embodiment of the present invention, FIG. 10 is a graph showing the results of temperature and erythema change measurement according to an embodiment of the present invention.

The method for evaluating the thermal barrier efficacy according to the present invention comprises the steps of forming a comparative sample stage (S100), irradiating infrared rays (S200), measuring a comparative sample stage (S300), calculating a comparative sample stage (S400) And a sample stage evaluation step (S500).

First, the step of forming a comparative sample stage (S100) is a step of forming two sample stages for evaluating the thermal barrier efficacy. The first sample stage has a certain area on the skin and the same area as the first sample stage. Is a step for forming a second sample stage to which a sample containing an infrared blocking substance such as a cosmetic for evaluating the blocking effect is applied.

At this time, since the first sample stage and the second sample stage are formed on the skin, they should not be significantly influenced by blood flow, and the same skin color and the same skin color should be used so that the shot image is not affected by variables including points, It is preferable to have skin texture. It is preferable that the areas of the first sample stage and the second sample stage are equal to each other, but are set to the same area as that of the infrared radiation region to be irradiated. Typically, it is recommended to form the first sample stage and the second sample stage at the back region of a human, but it is not limited to this, and it can be formed at various sites such as the arms and legs. In addition, it is recommended that the interval between the first sample stage and the second sample stage is at least 5 cm or more to prevent interference between the first sample stage and the second sample stage, thereby performing accurate evaluation.

In the present invention, as a specific method for forming a comparative sample stage, a skin photographing step S110, an image converting step S120, a region dividing step S130, an image comparing step S140, And a display step (S150).

The skin photographing step S110 is a step of photographing the skin for evaluating the heat shielding effect, and the photographed image is converted into digital data through the image converting step S120. Meanwhile, the photographed skin region is divided into a plurality of small regions in the region dividing step (S130), and the image data of the divided regions are compared with each other in the image comparing step (S140) And determines the two sample stages for the thermal barrier efficacy evaluation test, and performs a comparative sample stage display step (S150) of displaying the position and size of the determined sample stage on the skin. The position and size of the sample stage can be displayed through a device such as a laser pointer.

At this time, if two regions having similar images are not selected in the divided region, the region dividing step (S130) is performed again to divide the region into smaller regions, and then the image comparing step (S140) is performed. If two regions similar to the image are not selected in the repeated region segmentation, another skin region is photographed or the reference value for judging the image similarity degree is changed.

Next, the infrared ray irradiation step (S200) irradiates infrared rays of the same intensity for a predetermined time to the first sample stage and the second sample stage formed in the comparison sample stage formation step (S100). At this time, it is preferable that the light source (lamp, etc.) of the infrared ray irradiating device is formed in the same shape to irradiate infrared rays having the same intensity and amount.

Next, the comparative sample stage measurement step (S300) is a step of measuring the temperature of the first sample stage and the second sample stage on the skin irradiated with infrared rays in the infrared ray irradiation step (S200) and taking a skin image. That is, the temperature of the first sample stage and the second sample stage are measured, and the image of the degree of erythema is photographed to calculate the erythema index and color analysis is performed.

The temperature measurement for the comparative sample stage measurement preferably measures the center of the first sample stage and the second sample stage and may be performed using a non-contact infrared thermometer, a contact type surface thermometer, a needle type thermometer, or the like, and it is of course possible to measure the temperature using various temperature measuring means.

It is recommended that the image taking for comparative sample level measurement be taken with the same illuminance, and it is recommended that the image is taken through a means of high resolution which can accommodate the color, brightness and saturation of the area for evaluation, Of course, be possible. If necessary, it is preferable to use a polarizing filter in taking images of the first sample stage and the second sample stage. This is to allow only light in a certain direction to pass through, thereby eliminating the reflected light on the surface so that the skin erythema expressed in the first sample stage and the second sample stage on the skin can be more clearly seen.

It is recommended that the comparison sample stage measurement step (S300) measure the temperature measurement and the image capture at least five times in the first sample stage and the second sample stage in order to increase the reliability of the evaluation result.

Next, the comparison sample stage calculation step (S400) includes a temperature information acquisition step (S410) of acquiring the temperature information measured in the comparison sample stage measurement step (S300) and a colorimetric analysis through the color analysis of the photographed image, (S420) of obtaining the erythema index.

At this time, since it is preferable to measure the comparative sample stage measurement step 300 as described above at least five times or more, the temperature information acquisition step S410 of the comparative sample stage calculation step S400 may include: Preferably, the temperature information of the first sample stage and the second sample stage obtained by measuring at least five times in the step S300 is calculated as an average value to obtain temperature information. In the comparison sample stage calculation step S400, The erythema index obtained in the comparative sample stage measurement step S300 at least five times or more is obtained by calculating the average value of the degree of erythema obtained from the image color analysis of the first sample stage and the second sample stage .

In addition, the erasing index acquisition step S420 of the comparison sample stage calculation step (S400) uses the Lab color system or the RGB color code for color analysis of the photographed image, It is desirable to analyze the red color of the photographed image.

The Lab color system (L * = luminosity, a * = green-to-red spectrum, b * = blue-to-yellow spectrum) is a color space created by converting the CIE XYZ color space to non- A lightness axis indicating white when L * is 0; a lightness axis indicating white when l * is 100; a * indicates a shift toward red or green; a negative number indicates a greenish color; a positive number indicates a red / . In addition, b * indicates yellow and blue, and a negative number indicates blue, and a positive number indicates yellow. In order to evaluate the degree of erythema using the Lab color system, it is preferable to compare the magnitude of the a * value indicating red color because the method of evaluating the thermal barrier efficacy (S1000) according to the present invention evaluates the degree of erythema.

The RGB color code is a color model that defines a color by a mixture of red, green, and blue. The RGB color code is classified into codes according to the amount of mixed colors. In order to evaluate the degree of erythema even when RGB color codes are used, It is desirable to compare the magnitude of the R value.

Next, the first sample stage and the second sample stage are compared through the comparison sample stage evaluation step (S500) through the temperature information obtained in the comparison sample stage calculation step (S400) and the erythema index quantified by color analysis .

3 to 6, the infrared ray irradiating apparatus 1000 for performing the heat shielding effectiveness evaluation method according to the present invention includes a body 100, a light source 200, a support 300, a power supply A control unit 400, a camera 500, and a laser pointer 600. [0033]

3, the body 100 of the infrared ray irradiating apparatus 1000 of the present invention is formed with a sample unit unit 110 having a first sample stage and a second sample stage, Since the first and second sample stages are formed on the skin, the sample unit teeth 110 may be arranged to fix a human's arms or legs, or when the first sample stage and the second sample stage are formed on a human, So that the body of the person can be fixed.

The light source unit 200 is a device for irradiating infrared rays to the first sample stage and the second sample stage and includes a first light source unit 210 for irradiating infrared rays to the first sample stage, And a second light source unit 220 for emitting light. It is recommended that the light source unit 200 be formed to be capable of irradiating infrared rays having a wavelength of 700 nm to 2500 nm, but it is not limited thereto.

4, the supporting part 300 of the infrared ray irradiating apparatus 1000 of the present invention is hinged to one side of the upper part of the body 100, and supports the light source part 200 and fixes the same. One end of the support part 300 is hinged to the other end of the first support part 310 and the other end of the support part 300 is hinged to the light source part 200 The supporting part 300 of the infrared ray irradiating device of the present invention includes a first supporting part 310 hinged to the body 100 and the light source part 200 and a second supporting part 320 hinged to the second supporting part 320. [ The light source unit 200 including the first light source unit 210 and the second light source unit 220 can be irradiated with infrared rays at various positions.

The light source unit 200 is rotatably mounted on the support unit 300 to irradiate infrared light at a precise position between the first sample stage and the second sample stage and the second support unit 320 of the support unit 300 is rotated, So that it can be moved to a desired axis simultaneously with the rotation. The support part 300 is hinged to the body 100 and is hinged to the light source part 200. The light source part 200 is also rotatable about the support part 300, It is possible to irradiate the infrared rays with the same intensity at the precise positions of the first sample stage and the second sample stage formed at various positions of the skin.

The control unit 400 of the infrared ray irradiation apparatus 1000 of the present invention controls the light source unit 200, the support unit 300, the camera 500, and the laser pointer 600 and the like. That is, the control unit 400 controls the operation of the light source unit 200, the intensity of infrared rays irradiated from the light source unit 200, and controls the operation of the support unit 300 to select the light source unit 200 As shown in FIG.

FIG. 5 shows a configuration of a camera 500 and a laser pointer 600 for measuring a skin erythema change by forming a comparative sample stage of the present invention. The camera 500 photographs the skin in order to select the position of the comparative sample stage in the skin photographing step S110 of the comparative sample stage forming step S100, and in the comparative sample stage measuring step S300, 2 is to take a skin image to measure skin erythema changes at the sample stage.

The laser pointer 600 determines the two regions for the thermal blocking efficacy evaluation test as two regions judged as similar images in the comparative sample stage display step S150 of the comparative sample stage forming step S100, And to display the position and size of the sample stage on the skin. In the present invention, the laser pointer is specified as an example, but it should be understood that the present invention is not limited to this, but refers to an apparatus that displays optically determined positions and sizes of sample ends.

FIG. 6 is a view for explaining an example of forming a comparative sample stage of the present invention. FIG. 6 is a view for explaining a comparative sample stage of the present invention. And the sample short decision region 610 is displayed on the skin through the laser pointer 600. [

Next, the results of evaluation of the thermal barrier efficacy using the thermal barrier efficacy evaluation method (S1000) and the infrared ray irradiating apparatus 1000 according to the present invention are illustrated in FIGS. 7 to 10.

In the example, a light source of the infrared ray irradiator was placed at a distance of 3 cm from the first sample stage and the second sample stage, and then irradiated for 1 minute. A sample containing the heat shielding material as shown in the table of FIG. 7 was used.

FIG. 8 is a table comparing changes in skin temperature at the non-cannulated area and the sample applied area according to the embodiment, and FIG. 9 is a chart comparing changes in skin erythema at the uncoated area and the sample applied area according to the example. As a result of measurement of skin temperature change and erythema change of the sample layer applied with the heat shielding material and the sample layer not applied, it is confirmed that both the temperature change and the erythema index change are less than the significance level (P <0.01) And the heat shielding effect of the sample coated on the second sample stage can be confirmed through this.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, And it is to be understood that various changes and modifications may be made without departing from the spirit and scope of the following claims.

S1000: Evaluation method of heat blocking efficacy
S100: formation of a comparative sample stage S110: skin photographing step
S120: image conversion step S130: area division step
S140: image comparison step S150: comparison sample stage display step
S200: Infrared ray irradiation step S300: Comparative sample stage measurement step
S400: Comparison sample stage calculation step S410: Temperature information acquisition stage
S420: erythema index acquisition step S500: comparison sample stage evaluation step
1000: Infrared irradiator
100: body 110: sample unit tooth
200: light source part 210: first light source part
220: second light source part 300: support part
310: first support part 320: second support part
400: control unit 500: camera
600: laser pointer 610: sample short-

Claims (11)

Forming a second sample stage on the skin, the first sample stage having a predetermined area, the second sample stage having the same area as the first sample stage and coated with the sample containing the infrared ray blocking material;
An infrared ray irradiation step of irradiating the first sample stage and the second sample stage formed at the comparative sample stage formation step with infrared rays of the same intensity for a predetermined time;
A comparative sample stage measurement step of measuring the temperature of the first sample stage and the second sample stage irradiated with infrared rays in the infrared irradiation step and taking an image;
A temperature information obtaining step of obtaining temperature information measured in the comparative sample stage measuring step; and a comparative sample stage calculating step including a erythema index acquiring step of acquiring erythema index information by quantification through color analysis of the photographed image;
And a comparative sample stage evaluation step of comparing the first sample stage with the second sample stage through the temperature information and the erythema index information calculated in the comparison sample stage calculating step to evaluate the efficacy of the sample including the infrared ray blocking material Wherein the method comprises the steps of:
The method according to claim 1,
The step of forming the comparative sample stage may include: a skin photographing step of photographing the skin for evaluating the heat shielding effect;
An image conversion step of converting the photographed image into digital data;
An area dividing step of dividing the photographed skin area into a plurality of areas;
An image comparing step of comparing the image data of the divided areas and selecting two areas judged to be similar images; And
And a comparative sample stage display step of determining two selected regions as two sample stages for the thermal barrier efficacy evaluation test and displaying the position and size of the determined sample stage on the skin. Way.
3. The method of claim 2,
And when the two regions judged as similar images are not selected in the image comparison step, the region is divided into smaller regions by moving to the region dividing step.
The method of claim 3,
Wherein when the two regions judged as similar images are not selected even if the region dividing step is repeated a predetermined number of times or more, the skin photographing step is performed by changing the position of the skin.
The method according to claim 1,
Wherein the interval between the first sample stage and the second sample stage is at least 5 cm or more.
The method according to claim 1,
Wherein the step of measuring the comparative sample stage comprises:
A method for evaluating a thermal barrier efficacy, comprising: photographing an image of the first sample stage and a second sample stage using a photographing means, wherein a polarization filter is used.
The method according to claim 1,
The erythema index acquisition step includes:
Wherein a Lab color system or an RGB color code is used for color analysis of the photographed image.
A body including a sample unit tooth formed such that the first sample stage and the second sample stage are positioned on an upper portion thereof;
A light source part including a first light source part for irradiating infrared rays to the first sample stage and a second light source part for irradiating infrared rays to the second sample stage;
A support hinged to one side of the body and supporting the light source;
A power supply unit for supplying power to the light source unit; And
And a control unit for controlling the light source unit and the support unit.
9. The infrared ray irradiation apparatus according to claim 8,
A camera for photographing the skin,
Further comprising a laser pointer for indicating a position and a size of the first sample stage and the second sample stage for irradiating infrared rays.
The light source unit according to claim 8,
Wherein the support portion is rotatable about an axis.
The light source unit according to claim 8,
And infrared rays having a wavelength of 700 nm to 2500 nm are irradiated.

Images