KR20190049222A - Apparatus for rating hair damage degree and method for rating hair damage using thereof - Google Patents

Abstract

The present invention relates to an apparatus for rating a degree of hair damage by using a sound created in hair when an external force is applied to the hair, and a method for rating a degree of hair damage using the same. According to the present invention, the apparatus for rating hair comprises: a hair fixing unit to fix hair; one or more sound collection unit to collect a sound created when an external force is applied to fixed hair; a sound processing unit to convert the collected sound into a waveform; and a hair state rating unit to analyze the waveform to determine a damage degree of the hair. Also, according to the present invention, the method for rating a degree of hair damage uses the apparatus to rate a degree of hair damage. If the apparatus and the method are applied, hair property differences shown by hair surface and internal damage of hair can be analyzed, and time and costs spent in hair state determination can be reduced.

Description

[0001] The present invention relates to a device for evaluating the degree of hair damage and a method for evaluating the degree of hair damage using the device.

The present invention relates to a device for evaluating the degree of damage of hair using sound generated from hair when an external force is applied to the hair, and a method for evaluating the degree of damage of hair using the device.

Generally, the majority of the hair is composed of keratin protein, and anhydrous hair fibers are composed of about 90-97% protein and about 2% lipid, and the rest are composed of nucleic acid, carbohydrate and inorganic material. In addition to peptide bonds between amino acids in proteins, hair has various intermolecular forces and binding forces such as cystine bonds, salt bonds, hydrogen bonds, and hydrophobic interactions. By this bond, the hair retains its properties and shape. Particularly, in the case of the cystine bond, the cystine bond is a side chain bond that is unusual in a protein containing sulfur, invisible to other fibers, and is a bond characteristically exhibited in keratin. It is known that such cystine binding is important for exhibiting strong physico-chemical properties and maintaining the strength of hair protein.

On the other hand, the physicochemical structure of the hair easily changes or changes due to environmental stresses such as shampoo, detergent, dyeing, fertilizer, salt, ultraviolet rays, and moisture, and the function often deteriorates over time. Particularly, when damaged by the external environment, the proteins in the damaged hair break out easily during cleaning, and as a result, the physical characteristics of the hair are weakened. These methods for quantitatively / qualitatively analyzing hair damage include FT-IR surface analysis, SEM surface analysis, internal moisture content evaluation, tensile strength evaluation, break / crack evaluation, surface frictional force evaluation, However, since there are not many analysis methods that can be perceived and intuitively understood by consumers who use actual products, it is possible to compare the damage of actual hair, and the consumer intuitively understands the degree of damage and the recovery level of damage Studies on hair evaluation methods are needed.

Apparatuses and methods for evaluating hair condition have been studied, but there have not yet been provided apparatuses and methods that effectively evaluate not only the surface of the hair but also the internal state, and provide satisfaction to consumers. Accordingly, it is still required to develop a method for assessing the condition of the hair and specifically the degree of hair damage so as to accurately evaluate the surface and internal state of the hair and to provide an appropriate prescription according to the state of the hair of the consumer.

Accordingly, an object of the present invention is to solve the above-mentioned problems and to evaluate the degree of damage of the hair by analyzing the state of the surface and the inside of the hair. Furthermore, it is an object of the present invention to provide a proper prescription for damage to the hair by accurately assessing the damage degree of the hair.

According to an aspect of the present invention, A sound collector; A sound processor; And a hair condition evaluation unit, and a method for evaluating the degree of damage of hair using the same. More particularly, the present invention relates to a hair fixing unit for fixing hair; At least one sound collector for collecting sound generated when an external force is applied to the fixed hair; A sound processor for converting the collected sound into a waveform; And a hair condition evaluating unit for analyzing the waveform to determine a degree of damage of the hair, and a method for evaluating the damage degree of hair using the apparatus.

In the apparatus 10 for evaluating the degree of damage to hair of the present invention, the hair fixing portion 11 is means for fixing the hair to apply an external force to the hair. For example, when a certain tension is applied to both ends of the hair, Can be used.

In the hair damage assessment apparatus (10) of the present invention, the sound collecting unit (12) can use a microphone positioned close enough to measure sound generated from the fixed hair, and the sound collecting unit Within a radius of 0.1 to 15 cm, or within 0.1 to 10 cm, preferably within 0.1 to 5 cm, or within 0.1 to 2 cm, centered on the fixed hair.

In addition, the sound collecting unit 12 may further include a recording unit capable of recording the collected sounds.

In the apparatus 10 for evaluating the degree of damage of hair according to the present invention, the sound processing unit 13 may use a known mechanism for converting sound into a waveform, and the converted waveform may be, for example, a Fast Fourier Transform (FFT), spectrogram, or analog-to-digital conversion (sampling-quantization-coding).

In the hair damage assessment apparatus (10) of the present invention, the hair condition evaluating unit (14) judges whether the hair is damaged and / or the hair is damaged by using one or more of the wave amplitude and the wave duration of the converted waveform The degree of damage may be determined, for example, by measuring the ratio of at least one of the undamaged first wave and the damaged second wave to the wave amplitude and the wave duration of the converted wave, respectively, Or damage of the hair can be judged.

Further, the present invention can provide a method for evaluating the degree of damage of hair using the apparatus according to the present invention. The method of evaluating the degree of damage of hair according to the present invention is a method of collecting sound generated when an external force is applied to hair and converting it into a waveform and analyzing the wave characteristics of the converted waveform to determine the state of the surface and interior of the hair .

 More specifically, the hair damage assessment method according to the present invention may include the following steps.

(S1) fixing the hair;

(S2) applying an external force to the fixed hair;

(S3) collecting sound generated from the hair to which the external force is applied using a sound collector;

(S4) converting the collected sound into a waveform using a sound processing unit; And

(S5) analyzing the converted waveform to evaluate the degree of hair damage.

In the method of the present invention, the step (S1) of fixing the hair is a step for preventing the sound from being collected due to the movement of the hair when an external force is applied to the hair, Lt; RTI ID = 0.0 > S1). ≪ / RTI > The step (S1) is not limited to this. For example, a method of fixing one side of the hair and fixing the hair by using a weight of a certain weight on the other side by applying a constant tension using a weight of a certain weight .

In one embodiment, the inventors of the present invention evaluated the degree of damage of the hair by fixing the hair so that tensile force of 1 to 100 cN was applied to the hair to be evaluated.

In the method of the present invention, the step (S2) of applying an external force to the fixed hair is a step for inducing the vibration of the hair to evaluate the state of the hair or the degree of damage of the hair, May be accomplished by any means for achieving the desired effect. The step (S2) may be performed by a method such as bouncing, scraping, rubbing, shaking, pulling, pressing, or rubbing. Preferably, the step (S2) For example, by means of bouncing, pulling, pressing or the like.

In one embodiment, the inventors of the present invention assessed the condition of the hair by collecting sounds generated after an external force was exerted on the hair by repeating the fixed hair once.

In the method of the present invention, in the step (S3), the sound generated from the hair applied with the external force is collected by using the sound collecting unit, the sound generated from the hair subjected to the external force by the step (S2) (Or at the same time) recording the collected sound after the collection. The step (S3) may preferably be performed in an environment in which external noise is blocked.

In addition, in the method of the present invention, only the waveform that changes the sound generated in the hair by separating the waveform due to the external noise other than the sound generated in the hair in the step of processing the collected sound may be used in the method The above steps (S1) to (S3) of the present invention may be performed in an environment in which external noise is blocked to improve the accuracy of quick evaluation and evaluation.

In the method of the present invention, the step (S4) of converting the sound collected into the waveform using the sound processor may be performed by any known means for converting the sound into a waveform, A digital signal, and then converting the signal into a waveform using a fast Fourier transform.

In one embodiment, the inventors of the present invention converted the collected sound into a waveform using the Agilent 33550B series waveform generator model.

In the method of the present invention, the step of analyzing the waveform converted by the step (S5) to determine the degree of damage of the hair is a step of determining the state (or degree of damage) of the surface and the inside of the hair through the characteristics of the converted waveform. Specifically, it can be determined using at least one of the wave amplitude and the wave duration of the waveform. More specifically, the determination of the extent of hair damage is performed by performing the steps S1 and S4 in the same manner using the first undamaged second undamaged second undamaged pattern, / RTI > and / or the duration of the wave duration of < / RTI > The damage-free first hair may be a commercially available human hair or hair derived from the same individual as the damaged second hair (damage degree evaluation target hair). In the case of using the first moro model, it is preferable to use a human hair having the same thickness as that of the second model or having a thickness in the range of +/- 0.5 mm. When hair of the same individual as the first hair of the first hair is used, it is preferable to use hair before the damage (for example, before cosmetic treatment such as firm, dyeing, etc.). The hair of the same individual may represent hair derived from the same individual (for example, the same person).

In the specification of the present invention, the 'wave duration time' represents the time taken for the sound waveform generated due to the applied external force to naturally decay and disappear.

In the specification of the present invention, the 'first damage free' moiety was used to indicate the hair used as the comparison target for the hair to be evaluated (i.e., the damaged second moiety) , And it is preferable to use hair that has not undergone chemical treatment such as dyeing. In the present invention, when the first hair and the second hair are derived from the same hair, it is preferable that the first hair is a portion closer to the hair follicle than the second hair. In the present invention, when the first hair and the second hair are derived from the same individual, it is preferable that the present invention is applied to the first hair and the second hair from the hair root at the same position.

In the specification of the present invention, the 'second damaged hair' is used for indicating hair to be subjected to a hair condition evaluation. Generally, the hair is subjected to physical treatment such as chemical treatment such as firm, dyeing, or excessive combing Hair that is damaged and requires a prescription for modification of the hair may be used.

In the method of the present invention, the step of determining the degree of damage of the hair may include determining a degree of damage of the hair by measuring a ratio of at least one of the wave amplitude and the wave duration of each converted waveform to the first and second mother . For example, damaged hair may be assessed for damage to the hair by confirming that the amplitude of the waving relative to the damaged hair is increased and / or the duration of the waving is reduced.

The inventors of the present invention have confirmed through experiments that the sound wave amplitude of the experimental group (damage mother) is increased and the sound wave duration is decreased compared to the control group (normal mother), thereby completing the present invention. The inventors of the present invention have found that the judging method according to the present invention is more accurate and feasible than the hair condition obtained by FT-IR method or tensile strength measuring method, which is a known method for evaluating hair condition Respectively. When the method according to the present invention is applied, the state of the surface and the inside of the hair can be confirmed by one measurement, and the cost and time required for checking the hair state can be reduced compared with known methods.

The degree of damage of the hair may be determined by a preset value of the ratio of the wave amplitude of the waveform to the first and second frames and the ratio of the wave duration to the first and second frames.

In one embodiment, the ratio of the wave amplitude is a ratio (second modulated amplitude (dB) / first modulated amplitude (dB)) of the impaired second simulated amplitude (dB) to the impaired first simulated amplitude (dB) In the case of 1.001 ~ 1.300, it can be judged that hair is damaged. More specifically, it is judged that the hair having a wave amplitude ratio of 1.001 to 1.100 is a hair which requires a prescription for improvement of the quality of the damaged hair, and a recipe for improvement of the quality of the hair of the damaged hair is applied to the hair having the wave amplitude ratio of 1.101 to 1.300 The degree of hair damage can be judged by judging with the required hair.

In one embodiment, the ratio of the duration of wave duration is a ratio of the duration of impaired second wave duration (sec) to the duration of non-damaged first wave duration (sec) And the duration is (sec) * 100 (%)), it can be judged that there is damage of the hair when it is 1 to 99%, preferably 10 to 80%. It can be judged that the damage degree of the hair is severer as the wave duration time ratio is lower. More specifically, it is judged that the hair having the wave duration time ratio of 41 to 80% is a hair requiring a prescription for improving the quality of the damaged hair , And the degree of damage to the hair can be determined by a method of judging the hair which requires the prescription to improve the quality of the extreme corpuscles for the hair having the wave duration time ratio of 1 to 40%.

In the method of the present invention, when the degree of damage of the hair is determined by measuring both the amplitude of the wave amplitude and the duration of the wave duration, for example, when the determination based on the amplitude of the wave is required for the hair And when the determination based on the wave duration time is a hair requiring a prescription for improving the quality of the extreme head, it is preferable that the hair is finally determined to be a hair requiring a prescription for improving the quality of the extreme head.

In the specification of the present invention, the 'prescription' for improving the quality of the hair may be a hair care product using various known hair care products such as shampoo, rinse, treatment, hair essence, hair oil, hair gel, And the application of management.

In one embodiment, the " prescription for improving the quality of the damaged hair " may be performed by using a known treatment twice a day, once every three days, or twice a day, A treatment for improving the quality of the mucous membrane "once a day, and applying hair essence or the like for UV shielding once a day to the hair.

The determining step S5 of the present invention may further include the step of displaying an applicable prescription according to the hair condition determined by the measurement of the wave amplitude and / or the wave duration.

According to the apparatus of the present invention and the method of evaluating the state of hair using the same, it is possible to determine the state of hair, specifically, the degree of damage of the surface of hair and / or the inside of hair, have. In addition, the present invention can provide a device capable of accurately determining a hair condition and a method of evaluating a hair condition using the same. In addition, the apparatus and method for evaluating a hair damage according to the present invention can easily understand that a hair damage can be confirmed through a sound inherent to a hair according to characteristics of hair damage, Can provide a high marketing effect.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate exemplary embodiments of the invention and, together with the description of the invention, It should not be construed as limited.
1 is a conceptual diagram of an apparatus for evaluating a degree of hair damage according to an embodiment of the present invention.
2 is a schematic diagram of a fixed hair and sound collector according to one embodiment of the present invention.
FIG. 3 is a graph showing the sound generated in the control group and the experimental group according to an embodiment of the present invention converted into a waveform.

Hereinafter, embodiments of the present invention will be described in detail to facilitate understanding of the present invention. However, the embodiments according to the present invention can be modified into various other forms, and the scope of the present invention should not be construed as being limited to the following embodiments. Embodiments of the present invention are provided to more fully describe the present invention to those skilled in the art to which the present invention belongs.

Example

Prior to the evaluation of the hair damage according to the present invention, FT-IR (Thermo-scientific, Nicolet, USA) was used to check the difference in the external physical properties between damaged hair (control group) ) Was used to measure the amount of lipid on the surface of the hair (2919 cm ^-2 , CH ₂ asymmetrical stretch bond). Damaged hair (control group) of the test hair supplier, Burelex, was used for the control and experimental groups used in the experiment, and the same hair as that of the control group was used for the experimental group.

To confirm the difference in internal properties between the control and the experimental groups, 30 strands of each of the control group and the test group were taken to measure the tensile strength. The tensile strength of the hair was determined by measuring the hair cross-sectional area (僚 m ² ) according to the measurement of the hair cross-sectional area (Laser Scan Micrometer (Mitutoyo, LSM-6100, Japan) and the measurement of the hair breaking load (MTT 175, Diastron, UK) And break load (gmf) were calculated using the following equation (1).

[Equation 1]

In order to measure and analyze the difference of sound caused by the external force applied to the fixed hair due to the damage of the hair, we used the control group and the experimental group to fix the hair each and fix the sound generated when the hair was hit by the same tip And recorded.

The FT-IR peak and tensile strength measured above and the sound wave amplitude and sound wave duration analyzed according to the present invention are shown in Table 1 below.

Control group
(n = 30) Experimental group
(n = 30) FT-IR (2919 cm ^-1 , CH ₂ bond) peak 0.0222 0.0025 0.0150 ± 0.0017 Tensile strength (gmf / vm ² ) 0.02365 ± 0.0019 0.01838 + 0.0013 Sound wave amplitude (dB) 1.45 ± 0.07 1.57 + 0.03 Sound wave duration (sec) 0.0802 + 0.013 0.0458 ± 0.004

The damage of the experimental group compared with the control group was confirmed through the measured FT-IR peak and tensile strength, and it was confirmed that the sound waveforms of the control group and the experimental group converted according to the present invention showed a remarkably different shape (FIG. 3) .

Also, it was confirmed that the amplitude of the sound wave measured according to the present invention was increased in the experimental group, and the duration of the sound wave was decreased. Since the physical properties such as thickness and length are very different even if the hair is taken from the same tress, the same repeating experiment as above was performed on 30 strands of the hair to confirm the experimental error according to the physical property difference. .

Thus, the inventors of the present invention have verified that the apparatus according to the present invention and the use thereof can easily evaluate the difference due to hair damage.

10: Hair damage assessment device
11:
12: Sound collector
13: sound processor
14: Hair condition evaluation unit

Claims (11)

A hair fixing unit for fixing the hair;
At least one sound collector for collecting sound generated when an external force is applied to the fixed hair;
A sound processor for converting the collected sound into a waveform; And
And a hair condition evaluation unit for analyzing the waveform to determine a degree of damage of the hair. The apparatus according to claim 1, wherein the hair condition evaluating unit determines the damage degree of the hair using at least one of a wave amplitude and a wave duration of the converted waveform. The apparatus according to claim 1, wherein the sound collecting unit further comprises a recording unit capable of recording the collected sound. A method for evaluating the degree of hair damage using the apparatus for evaluating the degree of hair damage according to any one of claims 1 to 3. 5. The method according to claim 4, wherein the method for evaluating the degree of hair damage comprises the following steps.
(S1) fixing the hair;
(S2) applying an external force to the fixed hair;
(S3) collecting sound generated from the hair to which the external force is applied using a sound collector;
(S4) converting the collected sound into a waveform using a sound processing unit; And
(S5) analyzing the converted waveform to determine the extent of hair damage. 6. The method according to claim 5, wherein step (S2) is a step of applying an external force to cause vibration of the hair. 6. The method according to claim 5, wherein the step (S2) is performed by a method of tapping, scratching, rubbing, shaking, pulling, pressing, or scraping the fixed hair. 6. The method according to claim 5, wherein the step (S2) is performed by repeating the fixed hair once. [6] The method of claim 5, wherein the step (S5) comprises determining a degree of damage using each of the transformed waveforms of the first and second damaged parts.  10. The method according to claim 9, wherein the first hair and the second hair are derived from hair of the same individual. The method according to claim 9, wherein the degree of damage of the hair is determined by measuring a ratio of at least one of a wave amplitude and a wave duration of each of the converted waveforms to the first and second frames.

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