KR102081149B1 - Check the status of color identification devices including color determinable growth restructors and mixing ratio of growth regulator to water - Google Patents

Abstract

The present invention can check the growth control * growth regulator mixed with water with the naked eye through the growth regulator mixed with the pigment, and if it is difficult to identify with the eye, so that the mixing ratio of the growth ratio of the growth regulator through the color to determine the mixing ratio A method for checking a growth ratio of a growth regulator and water using a color identification device, the method comprising: a growth regulator provided with a color obtained by mixing the growth regulator and a dye; Correlation data of color change corresponding to the mixing ratio of the growth regulator and water is recorded, and a label attached to a container or a separate space in which the growth regulator is stored and the color of the growth regulator mixed with water are photographed in advance by using a camera. And a terminal unit including a display body for comparing the set image data and displaying the mixed growth regulator and the mixing ratio color according to the water.

Description

Check the status of color identification devices including color determinable growth restructors and mixing ratio of growth regulator to water}

The present invention relates to a method for checking the growth ratio of the growth regulator and the water using the color identification device, and more specifically, the growth regulator * growth regulator mixed with water with the naked eye through the growth regulator mixed with the pigment, If it is difficult to visually identify the mixing ratio of the growth regulator and the water using a color identification device to check the mixing ratio according to the mixing ratio color of the growth regulator through the terminal.

Plant Growth Regulator (PGR)

1. Definition of growth regulator

The pesticide control law defines growth regulators as drugs used to enhance or inhibit the physiological function of crops. Because it is simplified, it can also be interpreted as including fertilizer. Growth regulators are synonymous with growth regulators and have only been changed to pesticides.

There are three types of growth regulators: (1) natural hormone extracted from plants, (2) synthetic hormones similar in chemical structure and physiological function to plant hormones, and (3) non-hormonal synthetic substances that affect plant growth. . Therefore, it may be a plant growth regulator even if it is not a hormonal substance or a natural substance.

Plant growth substances or plant growth regulators were initially referred to in a broad sense as "materials that regulate plant growth." This definition also includes plant hormones, including nutrients such as fertilizers and water, and growth promoters and vitalizers, as well as herbicides, growth inhibitors and kidney inhibitors, defoliants and wetting agents, crop desiccants and transpiration inhibitors, and even weakening. Also included were infertility and infertility.

Therefore, the American Society of Plant Physiology (1954), etc., said in a narrow sense, "a substance that regulates the growth of plants in trace amounts without nutrient function." Accordingly, nutrients such as fertilizers and water are excluded because they spray a large amount and nutrient function, herbicides are excluded because they are relatively small amounts, but have no nutrient function and are used for weeding purposes. However, crop desiccants and transpiration inhibitors contain small amounts of spray and have no nutrient function.

Therefore, the present plant growth regulators in a narrow sense means 1) all growth hormone substances, and 2) all drugs used to enhance or inhibit the physiological function of plants in trace amounts without nutrient function.

2. Classification of growth regulators

end. Classification according to purpose of use

Plant growth regulators, such as Isadidi, have different results if they are used in different ways. Therefore, in the case of growth regulators, the division by chemical structure is not meaningful.

Plant growth regulators are not intended to protect crops by controlling certain organisms, such as fungicides, insecticides or herbicides. It is a drug used for the purpose of increasing yield, quality improvement, viability, etc. by directly acting on protected crops to promote or inhibit the growth of crops.

However, because a single drug may be used for various purposes, the classification according to the purpose of use is often ambiguous. For example, growth inhibitors are actually used not only for growth inhibition but also for quality improvement and viability.

<Classification of Growth Regulators by Purpose of Use>

I. Classification by mechanism of action

All plant growth regulators have different mechanisms of action, such as absorption, transition, and action. Although some mechanisms of action of hormonal substances have been revealed, many drugs have not yet been fully investigated for some mechanisms of action of hormonal substances or synthetic substances.

Therefore, plant growth regulators are classified into five groups: auxin, gibberellin, cytokinin, growth inhibitors (including ABA), and ethylene based on plant hormone classification method. According to the effects, there are 8 groups in total if they are classified as growth promoters, kidney inhibitors, and ethylene inhibitors. Wetting agents and crop drying agents can be classified as growth inhibitors in view of their functional properties. Even if new materials or new products are developed in the future, they will all be included in these eight groups.

<Classification of Growth Regulators by Mechanism of Action>

3. Technology of growth regulator

end. Definition of growth hormone

1) Plant growth

Know how growth regulators affect the physiology of plants can be used in anticipation of their effectiveness. Plants germinate, grow, and grow through flowering and fruiting. This is called growth and development. Growth refers to the process of quantitative change and development refers to the process of qualitative change, which together is called growth and development.

Plant growth is basically governed by genes, but is changed by (1) substances (nutrients, moisture, hormones, metabolites, etc.) and (2) environmental (light, temperature, moisture, etc.) conditions. Plants that sprout and bloom in spring grow mainly in summer, but grow slowly in autumn, fall leaves in winter, dormant, and then sprout again the next spring. Chrysanthemums bloom in the spring and summer, but in the fall. Azaleas bloom in the spring. Garlic and onions are sown in the fall, wintering, and then grow in diameter. As such, plants are subject to quantitative and qualitative changes under the influence of hormones and the environment.

2) plant hormone

Plant hormone is a hormone that works on the growth process of plants. Plant hormones are produced by certain tissues and organs and migrate to other tissues and organs (different from vitamins), causing changes in plant morphology and physiology at very low concentrations to promote growth or development (other than fertilizers and Point) As an inhibitory substance, it acts irreversibly (different from enzyme).

Plant hormone is an organic compound that is produced at certain parts of the plant and enters the nucleus of cells in the target organ, forming a hormone-protein complex. The complex acts on enzymes to regulate physiological functions and even to engage in gene activity.

Plant hormones include (1) growth hormones, (2) flowering hormones, and (3) wound hormones. Blooming hormone, also known as florigen or flower-forming hormone, is not yet identified and is a hypothesized hormone-like molecule, but it is known to be made from leaves and move to the stem. Blooming hormone is different from the phytochrome, a protein that induces sun sensation and flowering.

Wound hormone is a substance that promotes cell division by entering cells that are not wounded and injured by wound hormones, also known as injury hormones or oily hormones. Therefore, cell division occurs when the wound is left intact, and when washed immediately with water, cell division does not occur. Wound hormone is a substance made by decomposition of existing substances, and depends on the type of plant.

3) growth hormone

Growth hormone is a hormone that is involved only in growth, not the entire process of plant growth. However, some growth hormones actually act on quality changes such as flowering, so growth hormones can be called plant hormones in a broad sense, but plant hormones are easily confused with growth hormones.

At present, the characteristics of production, transport, and action of five plant hormones such as auxins, gibberellins, cytokinins, apsiic acid, and ethylene are well known. However, brassinolide, triacontanol, polyamines, salicylic acid, jasmonic acid, and the like have not been clearly identified.

Environmental hormones are found in completely different terms from growth hormones. Environmental hormones are named after chemicals released into the environment and act as hormones. Academics are endocrine disruptors (endocrine disruptors), which causes the reproductive function of the ecosystem or humans, malformations, growth disorders, and cancer.

The term bioactive substance is a term used similarly to growth hormone. Here, the target of the bioactive substance is not a plant but a person. Bioactive substances are substances that are purified or synthesized by extracting them from animals and plants and microorganisms, and are used to correct functional abnormalities of the human body, and are applied to functional foods, medicines, and cosmetics.

All. Action Characteristics of Growth Hormone

The action characteristics of five groups of plant growth hormones, such as auxins, are relatively well understood. However, the functional properties of some groups, such as brassinolide, are still unknown. Therefore, the growth hormone action characteristics of the five major groups are summarized as follows.

Action Characteristics of Major Growth Hormones

1) Auxins

There are four natural auxins extracted from plants: IAA (indole acetic acid), 4-chloro IAA (4-chloro-indoleacetic acid), PAA (phenylacetic acid) and IBA (indole butyric acid). Other auxins include naphthalene acetic acid (NAA), 2-4 dichlorophenoxy acetic acid (2,4-D), and 4-indol-3-ylbutyric acid (IBA).

ㅇ create and move; Auxins are derived from an amino acid called tryptophan. Auxins are also produced slightly in the root end meristem, but mainly in the stem end meristem and move through the milk tissue to the underlying tissue.

ㅇ Physiological action; Auxins promote intracellular proton (H +) pumps to acidify the cell wall. Therefore, when the cell wall is loosened, the cells can be elongated, thereby promoting plant growth. Auxins promote rooting at extremely low concentrations, but inhibit growth at high concentrations. Involved in dominant eye, promotes eye growth, and suppresses lateral eye growth. Cut off the end eyes to prevent auxin production and apply auxin to prevent the side eyes from growing.

ㅇ Effect of use; High concentrations have a detrimental effect on cell growth. In particular, phenoxy auxin is more herbicidal than other strains. Auxins generally have flowering effects, involuntary roots, unit results, and anti-fall effect.

2) Gibberellins

ㅇ create and move; Gibberellins are produced in cell division or growth of young leaves, stems, and roots, flowers, immature seeds, germinating embryos, and move up and down through the neck and sand. Auxins are polar and move from top to bottom, but gibberellins are independent of flexibility because they move in either direction regardless of direction.

ㅇ Physiological action; Promotes cell growth and cell division. In general, promote stem elongation. Genetically shorter plants also have the ability to lengthen.

ㅇ Effect of use; Gibererin is not only involved in the growth of stems and leaves, but also in seed germination and flower bud formation.

In spinach cabbage, etc., it promotes differentiation of flower buds and makes them bloom. It also promotes germination. Processed potatoes in storage will sprout in the eyes. Originally, winter peach, birch, etc. wood sprouts in the spring as the synthesis of gibberellin. It may induce unit deletions or promote cell division of unfertilized seed barriers, resulting in seedless fruit. It may also promote fruit hypertrophy and flowering, or may be involved in dormant breakouts.

3) Cytokine

Cytokinins are substances that cause plant cell division. Natural cytokinins include zeatin, dihydrozeatin, zeatin riboside, isopentyl adenine, and benzyladenine. Synthetic cytokinins include kinetin and benzyladenine (benzylaminopurine).

ㅇ create and move; It is biosynthesized at the seed and root ends and moves upwards, mainly through the neck tissue.

ㅇ Physiological action; Cytokines are often interacted with when auxins are present. It is involved in cell division but mainly cooperates with auxin to promote cell division. In tissue culture, when only auxin is added, cell division does not occur, but when a certain concentration of cytokinin is added together, division occurs, and callus (undifferentiated cell mass) is formed, and further differentiates into individuals.

ㅇ Effect of use; Delays partial aging of plants and improves immune function against low temperature and viruses. It is also involved in organ formation and acts to extinguish the dominant sperm.

4) acid

Abscisic acid (ABA) is an organic compound terpene with 15 carbons, also called lactic acid.

ㅇ create and move; It is synthesized from chloroplasts of leaves, pigments of berries, root body, white bodies of seed pears, etc.

It moves up and down through the neck and the trunk.

ㅇ Physiological action; It is present in many seeds, tree eyes, and roots during dormancy, and acts to suppress various growth processes. By suppressing the formation of dormant children during wintering to suppress seed germination in the mother, to allow for a cold winter. The content decreases as plants germinate, and increases when stressed during growth. In particular, the lack of water increases the production by closing the pores to control the stress. It also promotes fallen leaves and fallen leaves.

5) ethylene

Ethylene is a simple hydrocarbon substance (C2H4) that is produced even when gas or petroleum is combusted. It is a colorless and odorless gas.

ㅇ create and move; Ethylene is produced in many tissues, but the amount is very low. Treatment with auxin is characterized by increased production. The passage in the plant does not move to tissue, but rather to gas through the cell gap.

ㅇ Physiological action; Ethylene basically induces biosynthesis of PG (poly galacturonase), PME (pectin methyl esterase), and cellulase, which are enzymes that break down cell walls, thereby promoting softening, inducing pigment biosynthesis to promote pigmentation, and inducing respiration. Promotes metabolism Generally, growth hormone that promotes growth is activated by binding to a receptor, thereby promoting its function, but the growth inhibitor ethylene is different. The binding of ethylene receptors to ethylene inactivates their function, resulting in loss of the function of cells and tissues, resulting in aging or destruction of tissues. Another function of ethylene is called stress hormone because it is made actively when the plant is injured, attacked by a pathogen, or under stress such as drought or cold.

ㅇ Effect of use; Ethylene plays a role in promoting growth inhibition, flowering, deciduous growth, aging, fruit maturation and fruit color. Extremely low concentrations (0.1 ppm) affect plant growth and development. Ethephone, which generates ethylene, is one of the most successful ethylene generating materials and is used in various ways. It is widely used to promote fruit dehiscence of cotton, to induce flowering of pineapples, to inhibit the growth of foliage of plants and plants, and to promote fruit maturity.

6) Brassinoride

Brassinolide was first extracted from rapeseed in the United States in 1979, first synthesized in Japan in 1980, and then mass-extracted in China in 1988. It is also found in soybeans and rice, and is the most active of the brassinosteroids.

ㅇ Physiological action: Brassinolide basically promotes growth by promoting the release of intracellular H + ions. Synergy with IAA promotes cell elongation, adds gibberellin and antagonizes cytokinin. Unlike IAA, it does not inhibit rooting or inhibit ethylene generation and has no abnormal growth even at high concentrations.

ㅇ Effect

Brassinolide was originally attracting attention for quality improvement of photosynthesis, growth growth, fruiting, hypertrophy, coloring, sugar, etc., freshness of fruits, fruits, vegetables, leafy vegetables, cut flowers, and increasing water effects. Cold resistance, disease resistance (rice blasting, paperback disease, tomato late blight, cucumber gray mold, cabbage, lead-free disease, etc.), stress resistance (temperature, moisture, environment, etc.) enhancement, weakening, salt disorder, immunity enhancement effect, etc. This is confirmed. Both the stress-resistance and alleviation effects can be attributed to the physiological activity of bracinolide.

7) Triacontanol

Triacontanol is the first fatty alcohol isolated from alfalfa seedlings. The chemical formula is CH3 (CH2) 28 CH2OH and the chemical name is 1-hydroxytriacontane. Sometimes called melissyl alcohol, myricyl alcohol.

ㅇ Physiological effect and use effect; Although it is known as a growth promoting substance, detailed mechanisms of action have not yet been investigated. As insoluble, spraying suspensions on leaves promotes growth. It is characterized by extremely fast growth reaction.

8) Polyamines

The name is prefixed with poly because there is more than one amine group (-NH2, -NH-) in a molecule. Polyamines are made from amino acids, and there are two types of spermidine and spermine.

ㅇ Physiological action; The mechanism of action is still not well understood. Polyamines become cations in aqueous solution, so they bind easily to nucleic acids (DNA, RNA) that are anions. It is believed to promote growth by stabilizing intracellular nucleic acids and smoothing mitosis and meiosis. It also has the effect of suppressing aging.

9) salicylic acid

Salicylates (salicylates) are organic acids found in many plants, also called 2-hydroxybenzoic acid (C7H6O3). It is slightly soluble in water and used as a preservative, and many of its derivatives are used as medicines. Aspirin is a drug that reduces side effects by esterifying the hydroxyl group of salicylic acid with a carboxyl group.

ㅇ Physiological action; Basically, while promoting plant immunity, there is a growth inhibition function.

10) Jasmonates

Jasmonates (jasmonic acid) are natural compounds found in jasmine.

ㅇ Physiological effect and use effect; When plants are attacked by pests, they secrete a substance called jasmonic acid, a type of hormone that affects the stomach of a pest. It also warns other parts of the plant to make defenses and even signals other plants around it. Jasmonic acid is basically a substance that inhibits growth. However, different concentrations may act as growth promoters. For example, in the case of prohydrojasmonic acid, which is a jasmonic acid derivative, a gibberellin mixture has been developed and used as a growth promoter such as stimulating the stomach.

la. Growth regulators

Growth regulators can be classified according to the mechanism of action of the main component can be divided into hormonal 5 groups, non-hormonal 3 groups, a total of 8 groups. In the future, new products will be developed, whether natural or synthetic, whether hormonal or non-hormonal.

1) Auxin

2) gibberellins

3) Cytokinase

4) growth inhibitor

5) Ethylene

6) Growth promoter

7) Kidney Inhibitor

8) Ethylene Inhibitor

Such conventional growth regulators have a problem in that the color is transparent and mixed with water to record the mixing ratio, or if the mixing is not known, the excess mixing may adversely affect the plant.

The prior patent is configured to provide a plant growth regulator that can extract the plant growth regulator from the plant to increase the effect of plant growth.

However, the prior patent has a problem in that the problem of unknown color concentration after mixing with water is transparent, which is a conventional problem.

Prior Patents: Korean Patent Publication No. 10-0405216 (Nov. 12, 2003)

The present invention uses a color identification check device that can identify the mixing ratio when the user does not concentrate when mixing with water to use a colorless growth regulator, or when doing other work during mixing. The purpose is to provide a method for checking the status of the growth ratio of the growth regulator and water.

Color identification check device comprising a growth regulator that can be identified through the color according to the present invention for achieving the above object, in the growth regulator used by varying the mixing ratio with water according to the crop, the growth regulator and the pigment Color-adjusted growth regulators made by mixing; Correlation data of color change corresponding to the mixing ratio of the growth regulator and water is recorded, and a label attached to a container or a separate space in which the growth regulator is stored and the color of the growth regulator mixed with water are photographed in advance by using a camera. And a terminal unit including a display body for comparing the set image data and displaying the mixed growth regulator and the mixing ratio color according to the water.

Specifically, the image data preset in the terminal unit is a comparison table of colors displayed on the label according to the growth regulator, characterized in that the identification mark is formed on the label to recognize the color comparison table of the label in the terminal unit .

In order to achieve the above object, the method for confirming the mixing ratio of the growth regulator and the water using the color identification device according to the present invention includes photographing the label according to the pigment of the growth regulator mixed with the dye, and comparing the color table and the terminal of the label. Matching a color comparison table preset to the; Generating image data by photographing the color of the mixture of the growth regulator and the water at a terminal unit in which the correlation data of the color change corresponding to the mixing ratio of the pigment and the growth regulator mixed with water is preset; And comparing the correlation data preset in the terminal unit with the photographed image data to search for correlation data corresponding to the image data and outputting the retrieved correlation data to a display of the terminal unit. It features.

Specifically, the image data preset in the terminal unit is a comparison table of the colors displayed on the label according to the growth regulator, characterized in that the identification mark is formed on the label to recognize the color comparison table of the label in the terminal unit It characterized in that it comprises a growth regulator that can be identified through the color.

In the present invention, when the user does not concentrate when mixing with water to use a colorless growth regulator, or when changing the mixing ratio of different things during the mixing can be seen through the change in color, Compared to the case, the growth regulator can be prevented from being wasteful, and the weakness is prevented from occurring.

In addition, there is an effect that can easily check the color according to the mixing ratio automatically through the terminal.

1 is a view showing a color table of a growth regulator and a label of the growth conditioner and the water mixing state check method using the color identification device according to an embodiment of the present invention.
FIG. 2 is a view showing a color comparison table recognized by a terminal unit of a method for checking a mixing ratio state of a growth regulator using water according to the present invention.
3 is a view showing a procedure of the method of confirming the mixing ratio of the growth regulator and water using the color identification device according to the present invention.

Hereinafter, specific embodiments for the practice of the present invention will be described with reference to the drawings. Exemplary embodiments of the present invention are intended to describe one invention, and the scope of the present invention is not limited to the illustrated embodiments, and the illustrated drawings are limited to the drawings because only the essential contents are enlarged and additionally omitted for clarity of the invention. It should not be interpreted.

The present invention provides a growth regulator used by varying the mixing ratio with water according to the crop, the growth regulator 10 is given a color made by mixing the growth regulator and the pigment; The correlation data 20 of the color change corresponding to the mixing ratio of the growth regulator and water is recorded, and a label attached to a container or a separate space in which the growth regulator is stored and the color of the growth regulator mixed with the water are photographed with a camera. And a terminal unit 30 having a display unit for comparing the photographed and preset image data and displaying the mixed growth regulator and the mixing ratio color according to the water.

The image data preset in the terminal unit 30 is a comparison table of colors displayed on the label according to the growth regulator, and the identification mark is formed on the label to recognize the color comparison table of the label in the terminal unit 30. It features.

In addition, the present invention is the step of matching the color comparison table preset in the color comparison table of the label and the terminal unit 30 by photographing the label according to the pigment of the growth regulator mixed with the pigment (S10); The color data of the growth regulator 10 mixed with the pigment and the color change corresponding to the mixing ratio of the water 20 is photographed with the terminal unit 30 in which the growth regulator 10 and the water are mixed and photographed with the color of the mixture. Generating image data (S20); Searching for correlation data corresponding to the image data by comparing the correlation data 20 previously set in the terminal unit 30 with the captured image data (S30) and the retrieved correlation data 20 And outputting to the display unit of the unit 30 (S40).

The image data preset in the terminal unit 30 is a comparison table of the colors displayed on the label according to the growth regulator, the identification mark is formed on the label to recognize the color comparison table of the label in the terminal unit 30 Characterized in that it comprises a growth regulator that can be identified through the color.

1 is a view illustrating a color table of a growth regulator and a label of a growth conditioner and a method of checking a mixing ratio state of water using a color identification device according to an embodiment of the present invention, wherein a color formed by mixing a growth regulator and a pigment is provided. Image data photographed according to the mixing ratio of the growth regulator 10, the container in which the growth regulator is stored or a label attached to a separate space, and the growth regulator mixed with water and the correlation data according to a comparison table of preset colors And a terminal unit 30 for displaying the mixing ratio in comparison with.

The growth regulator is mixed with the pigment to give a color, is stored in the container is formed to be easy to move.

The pigment mixed in the growth regulator may be formed differently depending on the type of growth regulator.

The label is formed to be attached to the outside of the container in which the growth regulator is stored or to a position that can be easily identified by an operator using the growth regulator to display a color according to the mixing ratio of the water and the growth regulator so that the user does not concentrate or mix If you can't remember the ratio of mixing due to off-seat, you can compare it through the correlation data between the color of the mixing ratio and the color change of the label.

2 is a view showing a color comparison table in the terminal of the method of checking the growth ratio of the growth regulator and the water using the color identification device according to the present invention.

Referring to FIG. 2, an identification mark is formed on the label, and the terminal unit 30 recognizes the image data corresponding to the color mixed with the growth regulator through photographing in the terminal unit 30 and displays the correlation data. The mixing ratio is displayed by comparing the correlation data and the mixing ratio color photographed through the terminal unit 30.

The identification mark of the label may be made of a QR code or a barcode.

The terminal unit 30 is provided with a display and a camera to photograph the color mixing ratio of the label, the water and the growth regulator through the camera, and the correlation data, the mixing ratio according to the color comparison table of the label through the display The mixing ratio of the mixing ratio color is compared with the correlation data of the color and the label according to the display.

The method of comparing colors according to the mixing ratio according to the present invention made as described above is as follows.

3 is a view showing a procedure of the method of confirming the mixing ratio of the growth regulator and water using the color identification device according to the present invention.

Referring to FIG. 3, the present invention captures the label according to the pigment of the growth regulator mixed with the dye by using the terminal unit 30 to match the color comparison table of the label with the color comparison table preset in the terminal unit 30 ( S10); The color data of the growth regulator 10 mixed with the pigment and the color change corresponding to the mixing ratio of the water 20 is photographed with the terminal unit 30 in which the growth regulator 10 and the water are mixed and photographed with the color of the mixture. Generating image data (S20); Searching for correlation data corresponding to the image data by comparing the correlation data 20 previously set in the terminal unit 30 with the captured image data (S30) and the retrieved correlation data 20 Output to the display unit of the unit 30 (S40); comprises a growth regulator that can be identified through the color.

The matching of the color comparison table (S10) is a step of matching the color comparison table of the label with the color comparison table preset in the terminal unit 30 by activating the identification code of the label to the terminal unit 30 (S10).

The reason for doing this is because the color mixed with the growth regulator may be formed differently according to the growth regulator, the color comparison table of the label according to the color of the growth regulator is formed to match the color of the growth regulator.

If the color comparison table of the label is matched with the correlation data according to the color comparison table of the terminal unit 30 by matching the color comparison table (S10), the terminal unit 30 is generated by generating image data (S20). The correlation data 20 set in advance is compared with the image data photographed to retrieve correlation data corresponding to the image data.

Through this, the color of the image data is compared with the color of the color comparison table of the correlation data which is preset, and searches for the same color.

When the mixing ratio corresponding to the color image data according to the mixing ratio of the growth regulator and water to be mixed is searched through the searching of the correlation data (S30), the correlation data searched through the step of outputting to the display body 20 is output to the display body of the terminal part 30. As shown in FIG.

The present invention thus achieved can be seen through the change in color when the user does not concentrate when mixing with water to use a colorless growth regulator or when the mixing ratio is different when doing other work during mixing. Compared to the case where it is not, waste of growth regulator can be prevented, and weakening is prevented.

In addition, there is an effect that can easily check the color according to the mixing ratio automatically through the terminal unit 30.

The color identification confirmation device including the growth regulator identifiable through the above color is not limited to the configuration and operation of the embodiments described above. The above embodiments may be configured such that various modifications may be made by selectively combining all or part of the embodiments.

10: growth regulator
20: data
30: terminal

Claims (4)

A growth regulator 10 to which color is formed by mixing the growth regulator 10 and a pigment;
The correlation data 20 of the color change corresponding to the mixing ratio of the growth regulator 10 and the water is recorded, and is stored in a container or a separate space in which the growth regulator 10 is stored, and the user does not remember the ratio of mixing. Label and color data that can be compared using the correlation data
The terminal unit having a display body for capturing the color of the growth regulator 10 mixed with the water with a preset image data, and displays the mixed growth regulator 10 and the mixing ratio color according to the water ( 30),
The image data preset in the terminal unit 30 is a comparison table of colors displayed on the label according to the growth regulator 10, and the identification mark is displayed on the label so that the color comparison table of the label can be recognized by the terminal unit 30. Using the device formed,
Photographing the label according to the pigment of the growth regulator mixed with the dye with the terminal unit 30 to match the color comparison table of the label with the color comparison table preset in the terminal unit 30 (S10);
The color data of the growth regulator 10 mixed with the pigment and the color change corresponding to the mixing ratio of the water 20 is photographed with the terminal unit 30 in which the growth regulator 10 and the water are mixed. Generating image data (S20);
Searching for correlation data corresponding to the image data by comparing the correlation data 20 preset in the terminal unit 30 with the image data photographed (S30);
And outputting the retrieved correlation data 20 to the display of the terminal unit 30 (S40).
The image data preset in the terminal unit 30 is a comparison table of colors displayed on the label according to the growth regulator 10, and the identification mark is displayed on the label so that the color comparison table of the label can be recognized by the terminal unit 30. It comprises a growth regulator 10 that can be identified through the color formed,
The mixing ratio of the water and the growth regulator 10 can be known through the change in color, it is possible to prevent the waste of the growth regulator 10, characterized in that to prevent the occurrence of weakness due to over mixing Method of checking the mixing ratio status of growth regulator and water using the color identification device. delete delete delete

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