KR102254480B1 - Method for inhibiting fruition of ginkgo by the injection of a natural growth regulating hormone - Google Patents

Abstract

The present invention relates to a method for inhibiting the fruiting of ginkgo biloba by tube injection of a natural growth control hormone, and the composition for suppressing the fruiting of ginkgo biloba using a natural hormone of the present invention is injected into the stem of ginkgo biloba by tube injection A method for inhibiting deletion, the method comprising: Diluting the composition for inhibiting the fruiting of the ginkgo biloba with water; Placing the diluted composition in a bucket and connecting a water tube injection set thereto; Inserting the water pipe syringe of the water pipe injection set into the stem of the ginkgo tree by making a hole with a drill; And administering the diluted composition with water at a dose of 125cc to 500cc based on the active ingredient per week for 4 weeks through the inserted syringe.
The method for inhibiting the fruiting of ginkgo fruit by water tube injection of the natural growth control hormone of the present invention constituted as described above is a spraying method by diluting the natural growth control hormone and a specific plant growth regulator in algae with water and injecting it into the ginkgo tree at a specific time. As it effectively induces the fall of flowers by means of a canal injection, it can give a beneficial reding effect to suppress the fruiting of ginkgo biloba.By the method of suppressing the fruiting of ginkgo fruit by canal injection of a natural growth control hormone. As described above, it is possible to effectively inject the desired amount of the composition into the ginkgo tree while avoiding the hassle of spraying, so that it does not interfere with the growth of stems and leaves, or rather improves its growth, while effectively suppressing the fruiting of unwanted ginkgo fruit. It provides a useful effect to solve the conventional problems.

Description

Method for inhibiting fruition of ginkgo by the injection of a natural growth regulating hormone}

The present invention relates to a method of inhibiting the deletion of ginkgo biloba by tube injection of a natural growth control hormone, and more specifically, a natural growth control hormone in seaweed and a specific plant growth control substance in which the ginkgo tree blooms to a certain extent or fully blooms. The fruiting of ginkgo fruit by crown injection in ginkgo trees, which effectively induces the fall of flowers by the method of crown injection instead of spraying at a specific time and gives a beneficial red flower effect that suppresses the fruiting of ginkgo berries. It is about how to suppress.

In fruit trees such as ginkgo, apple or pear trees, in order to make good fruit, when many flowers are attached to one flower room, flowers are thinned out. This is called red flower, that is, flower thinning. In the case of cultivating fruit trees in this way, red flowers play a very important role in producing high-quality fruits. As for the effect of red flower on the cultivation of fruit trees, it is possible to prevent the consumption of stored nutrients early, increase the fixed fruit rate by increasing the fertilization rate, and increase the yield by promoting fruit hypertrophy. In addition, biennial outcomes can be prevented by increasing the next year's flowering. If a fruit tree is given a redization effect, it is possible to reduce unnecessary labor input during the production process and fruit harvesting, and has the advantage of cultivating high-quality fruits. This red flower refers to the work of thinning the flowers of the fruit tree during the flowering period, and can be done manually or by drugs. By the way, the redemption by manual labor is a work that is highly dependent on the employing manpower, and there is a concern that the burden of production costs is increased due to a shortage of labor, a decrease in the quality of labor, and high labor costs due to a decrease in the labor force in rural areas.

Therefore, in recent years, red flames by drugs are mainly used rather than red flames by hand, and the development of drugs is actively progressing in order to enhance the red flames effect. For example, Korean Patent Publication No. 2010-0034600 (patent Document 1) relates to an eco-friendly dropping agent, its manufacturing method, and a dropping method using the same.It contains 15 to 20% by weight of an active ingredient combined with lime and sulfur and 80 to 85% by weight of water, and is 20 to 24°Be in Bomedo. As an agent for fruit trees, which is the ratio of lime to sulfur, it discloses an eco-friendly agent that can reduce firearms (flowers) of apple trees to an appropriate level without damaging fire-fighting insects such as bees. , Republic of Korea Patent No. 10-0987357 (Patent Document 2) relates to a dropping agent, consisting of a mixture of poorly water-soluble inorganic compounds and additives, (a) 0.03≤P≤30, (b) 3≤Q≤ 800, (c) 0.5≤Q/P≤1000 [P:SALD 2000A laser particle size distribution meter average particle diameter (㎛), Q: BET specific surface area by nitrogen adsorption method (m2/g)] meets the requirements In addition, Korean Patent Registration No. 10-1405404 (Patent Document 3) relates to an eco-friendly dropping agent using a low-concentration lime-sulfur mixture, a manufacturing method thereof, and a dropping method using the same, Low-concentration lime obtained by dissolving 100 to 160 g of sulfur and 60 to 100 g of lime in 1 L of water while maintaining the ratio of sulfur to lime at 1.8:1 to 1.5:1, and then diluting it in water more than 300 times. Disclosed is a loading agent for fruit trees comprising a sulfur mixture as an active ingredient and having a negative redox potential of the low-concentration lime sulfur mixture of 400 or more. However, the dropping agents disclosed in Patent Documents 1 to 3 described above are insufficient in that they are easy to absorb and move in the plant body, and as an eco-friendly dropping agent due to the use of sulfur, etc., there was a point inadequate. Therefore, the inventors, etc., in the Republic of Korea Patent Publication No. 2016-0141610 (Patent Document 4) in order to solve the above problems, the seaweed collection step (S100) of collecting wild seaweed, and the removal of foreign substances contained in the collected seaweed. The washing step (S200) of washing with water for the purpose, the weighing step (S300) of weighing the washed seaweed in weight (g) units, and the seaweed obtained in the weighing step are 0.5 to 2 cm A cutting step (S400) of cutting finely into the size of, and a natural drying step (S500) of naturally drying the cut seaweed to remove moisture, and removing salt from the seaweed obtained in the natural drying step. For the hydrolysis step (S600) and the low-temperature extraction step (S700) of extracting at a low temperature the BA, NAA, and GA components to be used as a composition for red gingko from the seaweed obtained in the hydrolysis step (S700), and obtained in the low-temperature extraction step Plant growth control substance input/mix step (S800) in which 18 to 22 g of plant growth control substance is added to one BA, NAA, and GA component, and the BA, NAA, GA component obtained in the low temperature extraction step, and plant growth control High pressure physical compression step (S900) of physically compressing to improve physical properties and secure oxidation stability in the process of mixing substances, and stabilizers 18 to 22g for preventing chemical and physical changes after the physical compression step is performed Stabilizer input step (S1000) of introducing the stabilizer, filtration step (S1100) of filtering the composition obtained in the stabilizing agent input step through a fine net, and the composition obtained in the filtration step are examined by weight (g) unit Proposed a method for preparing a composition for ginkgo red flowers using natural hormones, including inspection/packaging step (S1200), and a composition for red flowers of ginkgo trees prepared thereby.

By the way, the invention of Patent Document 4 only discloses a method for preparing a composition for red gingko tree using natural hormones and a composition for red gingko tree prepared thereby, and the method of using the same is not described, and therefore, conventional spraying When used by the method, there is a problem in that there is a use method that has not been established for the appropriate spraying time, frequency, etc., and that there is a hassle of spraying.

Therefore, the present inventors recognized the problems in the prior art described above, in particular, the problems according to the method of using the composition for red flowers of ginkgo biloba prepared according to Patent Document 4, and as a result of diligent research to solve this problem, a specific configuration The present invention was completed by providing a composition for red application and providing a method of using it together to provide a composition capable of effectively suppressing the fruiting of banks and a method of using the same.

Patent Document 1: Korean Patent Application Publication No. 2010-0034600 Patent Document 2: Korean Patent Registration No. 10-0987357 Patent Document 3: Korean Patent Registration No. 10-1405404 Patent Document 4: Korean Patent Application Publication No. 2016-0141610

Accordingly, the present invention has been made in view of the technical problems in the prior art, and the main object of the present invention is to dilute a composition comprising a natural growth control hormone and a specific plant growth control substance in seaweed in a specific ratio with water to a specific time period. Ginkgo is injected into ginkgo trees and efficiently induces the fall of flowers by the method of crown injection rather than the spray method, so it can give beneficial reding effect to suppress the fruiting of ginkgo biloba. It is to provide a method of inhibiting the fruiting of fruit.

The present invention can also aim to achieve other objects that can be easily deduced by a person skilled in the art from the general description of the present specification in addition to the above clear objects.

The method for producing a composition for suppressing the deletion of ginkgo biloba using the natural hormone of the present invention for achieving the above object is;

The seaweed collecting step (S100) of collecting wild seaweed, the washing step of washing with water to remove foreign substances contained in the collected seaweed (S200), and weighing the washed seaweed in units of weight (g) The weighing step (S300) of performing, the cutting step (S400) of finely cutting the seaweeds obtained in the weighing step into pieces of 0.5 to 2cm, and naturally drying the cut seaweeds to remove moisture The natural drying step (S500), the hydrolysis step (S600) for removing salt from the seaweed obtained in the natural drying step, and benzene adenine to be used as a composition for redeeming fruit water from the seaweed obtained in the hydrolysis step ( BA), gibberellin (GA), naphthalene acetic acid (NAA) in a low-temperature extraction step (S700) of extracting components at low temperature, and the BA, NAA, and GA components obtained in the low-temperature extraction step are diethyl amino-ethyl hexanoate ( In the process of mixing the BA, NAA, and GA components obtained in the input/mixing step (S800) of adding and mixing 18 to 22 g of diethyl amino-ethyl hexanoate) and the low-temperature extraction step, and diethyl amino-ethyl hexanoate A high-pressure physical compression step (S900) of physically compressing to improve physical properties and to secure oxidation stability, and a stabilizer input step of introducing 18 to 22 g of stabilizers to prevent chemical and physical changes after performing the physical compression step. (S1000) and a filtration step (S1100) in which the composition obtained in the stabilizing agent input step is passed through a fine mesh to perform filtration, and an inspection/packaging in which the composition obtained in the filtration step is inspected/packaged in units of weight (g) It characterized in that it comprises a step (S1200).

Diethyl amino-ethyl hexanoate, which is a constituent of the present invention, increases the germination rate of seeds, increases stress resistance of seedlings, increases germination growth, and minimizes quality and nutritional value. Promotes from 25% to as much as 50%, increases both the fruiting rate and quality, reduces the intake of heavy metals into plants, and increases the growth of all parts of the plant.

According to another configuration of the present invention, the seaweed is characterized in that any one or two or more of the seaweeds, seaweed, green seaweed, seaweed, hatban, auditory, Ecklonia, nodosalocyi, and Arabidopsis algae may be mixed.

According to another configuration of the present invention, the stabilizer is characterized in that it uses diphenylamine.

In order to achieve the above other object, the method of inhibiting the deletion of ginkgo biloba by water tube injection of the natural growth-regulating hormone of the present invention includes;

As a method for inhibiting the fruiting of ginkgo biloba by injecting the composition for inhibiting the fruiting of ginkgo biloba using natural hormones prepared according to the present invention into a stem of a ginkgo biloba, the method comprising:

Diluting the composition for inhibiting the fruiting of the ginkgo biloba with water;

Placing the diluted composition in a bucket and connecting a water tube injection set thereto;

Inserting the water pipe syringe of the water pipe injection set into the stem of the ginkgo tree by making a hole with a drill; And

It is characterized in that it comprises the step of administering the diluted composition with water at a dose of 125cc to 500cc based on the active ingredient per week for 4 weeks through the inserted syringe.

According to another configuration of the present invention, the composition for inhibiting the fruiting of ginkgo biloba is characterized in that it is diluted with water and used in a ratio of 1:5.

According to another configuration of the present invention, the water tube injection is characterized in that the drug is administered from 2 weeks before flowering and until 2 weeks of flowering of the female flower.

The method for inhibiting the fruiting of ginkgo fruit by water tube injection of the natural growth control hormone of the present invention constituted as described above is a spraying method by diluting the natural growth control hormone and a specific plant growth regulator in algae with water and injecting it into the ginkgo tree at a specific time. As it effectively induces the fall of flowers by means of a canal injection, it can give a beneficial reding effect to suppress the fruiting of ginkgo biloba.By the method of suppressing the fruiting of ginkgo fruit by canal injection of a natural growth control hormone. As described above, it is possible to effectively inject the desired amount of the composition into the ginkgo tree while avoiding the hassle of spraying, so that it does not interfere with the growth of stems and leaves, or rather improves its growth, while effectively suppressing the fruiting of unwanted ginkgo fruit. It provides a useful effect to solve the conventional problems.

1 is a flow chart showing a manufacturing process of a composition for inhibiting gingko fruit deletion using natural hormones according to a preferred embodiment of the present invention,
2 to 4 are photographs of a state in which a water tube injection is performed according to a preferred embodiment of the present invention, FIG. 2 is a detailed photo of a water tube injection tube, and FIG. 3 is a bank with a water tube syringe through the water tube injection tube It is a picture of a state in which the canal is injected into a tree, and Fig. 4 is an enlarged picture of a part of the canal injection into a ginkgo tree trunk,
5 is a state in which ginkgo fruits are formed before cannula injection according to the present invention,
6 is a photograph of a state in which the fruiting of ginkgo biloba is suppressed after performing a water tube injection according to the present invention,
7 is a photograph of a state in which ginkgo fruit fell after performing a water tube injection according to the present invention.

Hereinafter, the present invention will be described in more detail by preferred embodiments with reference to the accompanying drawings. However, of course, the scope of the present invention is not limited thereto.

In the present specification, the present embodiment is provided to complete the disclosure of the present invention, and to fully inform the scope of the invention to those of ordinary skill in the art to which the present invention belongs, and the scope of the present invention is merely It is only defined by the claims. Accordingly, in some embodiments, well-known components, well-known operations, and well-known techniques have not been described in detail in order to avoid obscuring interpretation of the present invention.

The terms used in the present specification are for describing the embodiments and are not intended to limit the present invention. In this specification, the singular form also includes the plural form unless specifically stated in the phrase. In addition, components and operations referred to as'comprising (or having)' do not exclude the presence or addition of one or more other components and operations.

1 is a flow chart showing a manufacturing process of a composition for inhibiting gingko fruit deletion using natural hormones according to a preferred embodiment of the present invention.

As can be seen in Figure 1, the method for producing a composition for inhibiting the deletion of ginkgo fruit according to a preferred embodiment of the present invention, first, the wild seaweed living in the natural ecosystem is collected (S100).

At this time, the seaweed may be used as a raw material by mixing any one or two or more selected from among tot, green, kombu, seaweed, maternal, auditory, Ecklonia cava, nodjalok, and baby nodjalok.

In addition, the seaweed has various components as shown in Table 1 below, and in the present invention, benzene adenine (BA), gibberellin (GA), and naphthalene acetic acid (NAA) components are extracted and utilized.

[Seaweed extract ingredient table] Ingredient name Weight ratio Ingredient name Weight ratio Good health ≥98.0 Calcium (Ca) 0.15~1.0% Organic matter (%) 45.0-60.0 vitamin 600(ppm) Nitrogen compounds ≥1.0% Sulfur (S) 1.0~3% Potassium (K) ≥16.0% pH 9~11 Manitol 4~7% Natural protein 6.0~8.0 amino acid 1.5~3.5% Iron 0.2% nitrogen 0.5~1% Phosphoric acid 0.8~2.0% Nickel 3.0(ppm) Zinc 20~200(ppm) Magnesium (Mg) 0.2~1.0% Boron 10~24(ppm) Selenium 3.0(ppm) Lead (Plumbum) 10 (ppm) Alginic acid 10% Probable weight 1:0.53~0.55 Cardium 5.0 (ppm) receptivity 100% Cytokinin, GA,
NAA, BA, etc. 600~800 Contains many others -

When the seaweed is collected as described above, water is washed with water to remove foreign substances contained in the collected seaweed (S200), and the washed seaweed is weighed in units of weight (g) (S300). In addition, the seaweed obtained in the weighing step is finely cut to a size of 0.5 to 2cm (S400), and then naturally dried to remove moisture contained in the finely cut seaweed (S500).

Of course, a drying device can be used for quick drying, but natural drying is selected in order to minimize destruction of the components to be extracted, and a low-speed dehydrator can also be used in terms of removing moisture.

After performing hydrolysis (S600) to remove saltiness of the seaweed obtained in the natural drying step, the BA, NAA, and GA components to be used as a composition for red fruit water from the seaweed obtained in the hydrolysis step were extracted at low temperature. Do (S700).

In the general hot water extraction method, when heated to 70℃ or higher, many elements are destroyed or denatured. Vitamin C and minerals are weakened by heat and components are destroyed. In the case of protein, denatured by heat occurs.

However, the low-temperature extraction method adopted in the present invention can extract all essential elements without any change in properties, and because it is extracted without using water or any chemical agent, it does not damage the main components of nutrients or functional substances at all, and is of purity. Substance can be obtained.

The BA, NAA, and GA components obtained in the low-temperature extraction step were mixed (S800) by adding 18 to 22 g of a plant growth regulator, and then the BA, NAA, and GA components obtained in the low-temperature extraction step, and diethyl amino-ethyl In the process of mixing hexanoate (diethyl amino-ethyl hexanoate), in order to improve physical properties and secure oxidation stability, high-pressure physical compression (S900) is performed.

The diethyl amino-ethyl hexanoate according to the present invention increases the germination rate of seeds, increases the stress resistance of seedlings, increases germination growth, and increases the quality and nutritional value from at least 25%. Promotes up to 50%, increases both the fruiting rate and quality, reduces the intake of heavy metals into plants, and increases the growth of all parts of the plant.

After performing the physical compression step, a stabilizer for preventing chemical and physical changes is added (S1000), and diphenylamine is used as the stabilizer, and 18 to 22g are added.

In addition, after filtering the composition obtained in the stabilizer input step through a fine mesh (S1100), the composition obtained in the filtration step is inspected/packaged (S1200) by weight (g) to complete the manufacturing process. .

2 to 4 are photographs of a state in which a water tube injection is performed according to a preferred embodiment of the present invention, FIG. 2 is a detailed photo of a water tube injection tube, and FIG. 3 is a bank with a water tube syringe through the water tube injection tube It is a picture of a state in which the canal is injected into the tree, Figure 4 is an enlarged picture of a portion of the canal injection on a ginkgo tree trunk, Figure 5 is a state in which ginkgo fruit is formed before canal injection according to the present invention, and Figure 6 This is a photograph of a state in which the fruiting of ginkgo biloba is suppressed after the canal injection is performed, and FIG. 7 is a photograph of a state in which the gingko fruit has fallen after performing the canal injection according to the present invention.

The embodiment according to the method for inhibiting the deletion of ginkgo fruit by water tube injection according to a preferred embodiment of the present invention was tested based on a diameter of 25 cm of ginkgo biloba with a ginkgo agent composition.

According to a preferred embodiment of the present invention, the experiment of banking agent through water tube injection was carried out as follows.

First, a 500cc canister was drilled to connect the water tube injection set, and the active ingredient was diluted with water and administered for a total of 4 weeks, with 125cc, 250cc, 500cc, and 1,000cc per week. At this time, a method for placing a crown injection was applied to a general tree, and is not limited to a specific method.

According to a preferred embodiment of the invention, the composition prepared according to the method of the present invention was used as an active ingredient in the experiment of bank dropping agent through water tube injection, and more preferably, the composition is not limited thereto. The undiluted solution was mixed with water in a ratio of 1:4 to 6, more preferably 1:5, placed in a 500cc container, and injected through a water tube, and periodically replenished by checking the presence of the composition in the container.

According to another preferred embodiment of the invention, the drug was administered from 2 weeks before flowering and until 2 weeks of the female flowering period, and observation of whether or not felling was observed for 4 weeks after the completion of the drug administration. As a result, as can be seen in FIGS. 5 to 7, when the water tube injection was performed according to the present invention, when 500cc of the active ingredient was administered per week for 4 weeks, the deletion of the bank was most ideally suppressed.

The higher the amount of the composition, for example, when using 1.000cc per week, weakening occurred, and the smaller the amount of the composition, for example, when 125cc per week was used, the rate at which the ginkgo fell is less, which is not preferable.

Therefore, according to a preferred embodiment of the present invention, it was found that injecting the active ingredient at a rate of 250cc to 500cc per week for a total of 4 weeks is a method of most preferably inhibiting the fruiting of ginkgo biloba.

As described above, the technical idea of the present invention has been specifically described in the preferred embodiment, but it should be noted that the above-described embodiment is for the purpose of explanation and not for the limitation thereof. It is obvious to those skilled in the art that various modifications and modifications are possible within the scope of the technical idea of the present invention, and therefore, it is natural that such modifications and modifications belong to the appended claims.

S100: seaweed collection step S200: water washing step
S300: weighing step S400: cutting step
S500: drying step S600: hydrolysis step
S700: low temperature extraction step S800: input/mixing step
S900: Stabilizer input step S1000: Filtration step
S1100: Inspection/packaging step

Claims (5)

delete delete The seaweed collecting step (S100) of collecting wild seaweed, the washing step of washing with water to remove foreign substances contained in the collected seaweed (S200), and weighing the washed seaweed in units of weight (g) The weighing step (S300) of performing, the cutting step (S400) of finely cutting the seaweed obtained in the weighing step into pieces of 0.5 to 2cm, and naturally drying the cut seaweed to remove moisture The natural drying step (S500), the hydrolysis step (S600) for removing salt from the seaweed obtained in the natural drying step, and benzene adenine to be used as a composition for redeeming fruit water from the seaweed obtained in the hydrolysis step ( BA), gibberellin (GA), naphthalene acetic acid (NAA) in a low-temperature extraction step (S700) of extracting components at low temperature, and the BA, NAA, and GA components obtained in the low-temperature extraction step are diethyl amino-ethyl hexanoate ( In the process of mixing the BA, NAA, and GA components obtained in the step of adding and mixing 18 to 22 g of diethyl amino-ethyl hexanoate (S800) and the low-temperature extraction step, and diethyl amino-ethyl hexanoate A high-pressure physical compression step (S900) of physically compressing to improve physical properties and to secure oxidation stability, and a stabilizer input step of introducing 18 to 22 g of stabilizers to prevent chemical and physical changes after the physical compression step is performed. (S1000) and a filtration step (S1100) in which the composition obtained in the stabilizing agent input step is passed through a fine mesh to perform filtration, and an inspection/packaging for inspecting/packaging the composition obtained in the filtration step by weight (g) unit Obtaining a composition for suppressing the fruiting of ginkgo biloba using natural hormones according to step (S1200), and injecting the composition into the stem of a ginkgo biloba by means of a water tube injection, the method comprising:
Diluting the composition for inhibiting the fruiting of the ginkgo biloba with water;
Placing the diluted composition in a bucket and connecting a water tube injection set thereto;
Inserting the water pipe syringe of the water pipe injection set into the stem of the ginkgo tree by making a hole with a drill; And
Through the inserted syringe, a step of administering the diluted composition with water at a dose of 125cc to 500cc based on active ingredients per week for 4 weeks, and proceeds from 2 weeks before flowering during the 4 weeks to 2 weeks during the flowering period of female flowers. Method for inhibiting the fruiting of ginkgo biloba by water tube injection of natural growth-regulating hormone, characterized in that it consists of steps up to [4] The method of claim 3, wherein the composition for inhibiting the fruiting of ginkgo biloba is diluted with water in a ratio of 1:5. delete

Images