KR20180137068A - Horticultural functional pads comprising aroma, effective microorganisms and porous minerals and their preparation - Google Patents

Abstract

The present invention relates to a horticultural functional pad comprising aroma, useful microorganisms, and porous minerals and a manufacturing method thereof. Because of the useful microorganisms in the pad, the horticultural functional pad comprising the aroma, useful microorganisms, and porous minerals according to the present invention increases tolerance of all crops including horticulture, protects crops from disease, improves photosynthesis, improves vitality by supporting root growth, and makes crops grow healthy. The horticultural functional pad is able to suppress breeding by removing coliform, yellow grape hyacinth, fungus and the like, and blocking access to pests such as flies and mosquitoes, in addition to deodorization due to the aroma emitted from an antibacterial deodorant in the pad. Therefore, management of an indoor garden or a flower garden can be more easily maintained.

Description

[0001] The present invention relates to horticultural functional pads comprising aroma, useful microorganisms and porous minerals and their preparation,

The present invention relates to a horticultural functional pad comprising aroma, useful microorganisms and porous minerals and a process for their preparation.

As an improvement to the poor living environment such as urbanization and fine dust, and the healing of the mental health which has been worn out by the sloppy city life, it is the closest in daily life, The desire to maintain has attracted attention to indoor garden using the space of the apartment such as the balcony.

However, the horticultural plants that grow in indoor pots require more careful and elaborate management due to the different growth conditions such as temperature, humidity and air quality, which is not easy to manage. Especially, wrong management of water and misuse of nutrients And lack of control such as excessive use, the soil of the roots and pollen is spoiled and smells, and humidity is high, so that pests and insects such as flies and mosquitoes are inhabited.

Accordingly, the inventors of the present invention have completed the present invention by developing a functional pad for horticulture containing aroma, useful microorganisms, and porous minerals in order to more easily maintain such indoor garden or flower garden.

Korean Patent No. 10-1295376 Korean Patent No. 10-0530301

It is an object of the present invention to provide a horticultural functional pad comprising aroma, useful microorganisms and porous minerals.

Another object of the present invention is to provide a method for manufacturing a functional pad for horticulture according to the present invention.

The present invention

An antibacterial deodorant solution containing aroma and menthol; A culture obtained by cultivating stevia-derived useful microorganisms; And 10 to 30: 30 to 50: 30 to 50% by volume of zeolite, pearlite, and vermiculite to obtain a porous mineral powder.

The porous mineral powder may delay the smell and evaporation of the antibacterial deodorant solution.

The present invention is a method for manufacturing a functional pad for horticulture according to the present invention,

Mixing the antibacterial deodorant solution, the useful microorganism culture solution, and the porous mineral powder at 40 to 50:40 to 50: 1 to 10% by volume; And

And adhering the mixture to a membrane film. The present invention also provides a method for manufacturing a functional pad for horticulture.

The functional pads for horticultural use including aroma, useful microorganisms, and porous minerals according to the present invention can enhance the disease resistance of all crops including horticulture due to the useful microorganisms in the pads, thereby protecting crops from diseases, improving photosynthesis, , The crop grows healthily. Since the aroma emitted from the antimicrobial deodorant in the pad is removed, besides the deodorization, it is possible to remove the coliform, the yellow grape hyacinth and the mold, and prevent the access to pests such as flies and mosquitoes, And the maintenance of the flower garden can be more easily maintained.

1 is a schematic view showing a process for manufacturing a functional pad for horticulture according to the present invention.
2 to 5 are test reports showing the deodorization test result of the antibacterial deodorant solution; Figure 2: Ammonia, Figure 3: Trimethylamine, Figure 4: Hydrogen sulfide, Figure 5: Methyl mercaptan.
6 is an inspection report showing the results of an anaerobic degradation test of the antibacterial deodorant solution.

The present invention

An antibacterial deodorant solution containing aroma and menthol; A culture obtained by cultivating stevia-derived useful microorganisms; And 10 to 30: 30 to 50: 30 to 50% by volume of zeolite, pearlite, and vermiculite to obtain a porous mineral powder.

The antimicrobial deodorant solution containing the aroma and menthol may be prepared by administering aroma and menthol to the alcohol and dissolving the alcohol in the alcohol, administering the dissolved compound to the deodorant and then dissolving the alcohol in the deodorant, and then mixing and mixing the untreated white distilled water and the preservative.

In the production of the antibacterial deodorant solution, the solubilizing agent for dissolving aroma and menthol, which are fragrance substances, is not used, and the reason why the solubilizing agent is not used is that the stevia-derived useful microorganism culture solution contains 5 to 10% It has a function of dissolving menthol oil, so that a separate solubilizing agent is unnecessary.

The stevia-derived useful microorganism is a useful microorganism manufactured by Stevia of Korean Patent No. 10-1118156, and is characterized by short production period and favorable for environmental adaptation.

The porous mineral powder may preferably be a mixture of zeolite, pearlite and vermiculite at 20: 40: 40% by volume.

The porous mineral powder may delay the smell and evaporation of the antibacterial deodorant solution. The present invention does not use an artificial compound having an anti-smell and evaporation delay effect such as propylene glycol, glycerin, and butylene glycol. When the artificial compound is used, gas is generated in contact with the useful microorganisms, and the permeation of the membrane, which is a raw material of the pad, is blocked to prevent the smell and the leakage of the useful microorganisms. In other words, the present invention can maximize the survival and storage period of useful microorganisms derived from Stevia by using a porous mineral powder instead of an artificial compound having an erosion and evaporation delay effect.

The present invention is a method for manufacturing a functional pad for horticulture according to the present invention,

Mixing the antibacterial deodorant solution, the useful microorganism culture solution, and the porous mineral powder at 40 to 50:40 to 50: 1 to 10% by volume; And

And adhering the mixture to a membrane film. The present invention also provides a method for manufacturing a functional pad for horticulture.

The antibacterial deodorant solution, the useful microorganism culture solution, and the porous mineral powder may preferably be mixed at a ratio of 45: 45: 10 by volume.

The functional pad for horticulture according to the present invention can be applied to a form of a pollen or a form carried on a breathable container which can be placed on the ground.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the present invention will be described in detail with reference to the following examples. However, the following examples are intended to illustrate the contents of the present invention, but the scope of the present invention is not limited to the following examples. Embodiments of the present invention are provided to more fully describe the present invention to those skilled in the art.

< Example  1> Manufacture of antimicrobial deodorant

The deodorant was Jianem Deodorant (Registered by the Public Procurement Service National Shopping Mall, Item Identification No. 22960341). Aroma (0.3% by weight) and menthol (5% by weight of the final product (antimicrobial deodorant solution)) were added to aroma (natural flavor, phytoncide, etc.) and menthol, 0.02% by weight) was dissolved in a Homer mixer at 3,000 rpm or more. The compound dissolved in the total weight of Jianem deodorant was added at 60% by weight and the mixture was mixed and dissolved by using a Homer mixer at 5,000 rpm or higher. In this case, no solubilizing agent as a solubilizing agent for the flavor was used. 35% by weight of untreated white distilled water and 5% by weight of preservative were added to the total weight of the secondary solubilized compound and mixed using a Homer mixer of 5,000 rpm or more to finally obtain an antibacterial deodorant solution.

< Example  2> Production of useful microorganisms

A useful microorganism derived from Stevia of Korean Patent No. 10-1118156 was cultivated according to Korean Patent No. 10-1118156 in an amount of 700 kg of Stevia's dried liquid extract, 50 g of Stevia's dry powdered catalyst, 300 kg of molasses, To obtain a useful microorganism culture solution.

< Example  3> Manufacture of Porous Mineral Powder

Zeolite, pearlite and vermiculite were mixed at 20: 40: 40% by volume, and the mixed porous mineral was pulverized by a dry mill. The pulverized porous mineral was filtered with a sieve of 300 mesh or less to obtain a porous mineral powder .

< Example  4> Manufacture of functional pad for gardening

The antibacterial deodorant of Example 1, the useful microorganism of Example 2, and the porous mineral powder of Example 3 were mixed and stirred at 45: 45: 10% by volume. The mixture was adhered to the membrane film by using an adhesive machine to prepare a functional pad for horticulture.

< Example  5> Deodorizing effect of antibacterial deodorant

Ammonia, trimethylamine, hydrogen sulfide and methyl mercaptan were analyzed for deodorizing effect of antimicrobial deodorant for 24 hours. Specifically, the antibacterial deodorant was diluted 50 times with distilled water, and 20 ml of the deodorant was put in a 5 L reactor and sealed. Ammonia, trimethylamine, hydrogen sulfide and methyl mercaptan were injected into the reactor at an initial concentration of 50 μmol / mol (blank) and the concentration values (samples) were measured at 0.5, 1, 3, 5, 7, 9, Respectively. In the reactor without the antibacterial deodorant, the concentration of the test gas was measured by the same method, and the removal rate of the test gas for each hour was calculated according to the following equation.

(%) = [{(Blank concentration) - (sample concentration)} / (blank concentration)] × 100

As a result, as shown in Tables 1 and 2 to 5, it was confirmed that the antibacterial deodorant deodorized 99.6% ammonia, 99.6% trimethylamine, 57.1% hydrogen sulfide and 69.4% methyl mercaptan after 24 hours.

division ammonia
NH ₃ Trimethylamine
(CH _{3) 3} N Hydrogen sulfide
H ₂ S Methyl mercaptan
CH ₃ SH Blank Sample Deodorization rate (%) Blank Sample Deodorization rate (%) Blank Sample Deodorization rate (%) Blank Sample Deodorization rate (%) 0 hours 50 50 0.0 50 50 0.0 50 50 0.0 50 50 0.0 0.5 hours 49 <0.2 99.6 49 2 95.9 49 41 16.3 49 41 16.3 1 hours 49 <0.2 99.6 49 2 95.9 49 40 18.4 49 39 20.4 3 hours 49 <0.2 99.6 49 2 95.9 49 37 24.5 49 33 32.7 5 hours 49 <0.2 99.6 49 2 95.9 49 34 30.6 49 20 38.8 7 hours 49 <0.2 99.6 49 One 98.0 49 30 38.8 49 27 44.9 9 hours 49 <0.2 99.6 49 One 98.0 49 28 42.9 49 24 51.0 12 hours 49 <0.2 99.6 49 One 98.0 49 25 49.0 49 21 57.1 24 hours 49 <0.2 99.6 49 <0.2 99.6 49 21 57.1 49 15 69.4

< Example  6> Effect of antibacterial deodorant on deodorization effect of livestock manure

The deodorizing effect of antimicrobial deodorant on livestock manure was analyzed. Specifically, the compound odor was determined by determining the degree of dilution by taking the odor of the sample collected by the odor determination agent through the air dilution sensory method. Atmospheric ammonia was determined by measuring the absorbance of indophenols produced by adding phenol-nitroprusside sodium solution and sodium hypochlorite solution to the sample and reacting with ammonium ion at 640 nm. The atmospheric sulfur compounds were measured by recording the chromatogram by connecting the aluminum bag containing the sample to the gas chromatograph instrument. In the test section, 10 ml of the antibacterial deodorant was administered to 1 kg of the animal manure sample.

As a result, an antibacterial deodorant was administered as shown in Table 2 below After 24 hours, the complex odor decreased by about 70%, hydrogen sulfide decreased by about 92%, and ammonia was completely reduced after 48 hours.

division Complex odor ammonia Hydrogen sulfide Control 14,422 ppm 59.520 ppm 34.055 ppm Test strips (24 hours after the administration of the antibacterial deodorant) 4,481 ppm 65.950 ppm 2.894 ppm result Approximately 70% reduction Fully reduced after 48 hours Approximately 92% reduction

< Example  7> Effect of antibacterial and deodorizing on the degradation of animal manure

The degradation effect of antimicrobial deodorant on livestock manure was analyzed. (COD), BOD (Biochemical Oxygen Demand), TN (Total Nitrogen), TP (total phosphorus), and total phosphorus (NO) were measured after 24 hours after the administration of 40 L of the antibacterial deodorant to 100 ton of animal manure samples. , And Suspended Solids (SS) concentrations were measured.

As a result, as shown in Table 3 and FIG. 6, it was confirmed that COD was decreased to 11%, BOD was 73%, TN was 91%, TP was 43% and SS was 34% after the antibacterial deodorant was administered.

(Unit: mg / l) division CODmn BOD TN TP SS Control 8.57 0.18 300.5 47.2 1,100 Test strips (24 hours after the administration of the antibacterial deodorant) 7.64 0.05 27.3 26.9 700 result 11% reduction 73% reduction 91% reduction 43% reduction 34% reduction

Claims (2)

An antibacterial deodorant solution containing aroma and menthol; A culture obtained by cultivating stevia-derived useful microorganisms; And a porous mineral powder obtained by mixing zeolite, pearlite and vermiculite at 10 to 30: 30 to 50: 30 to 50% by volume and pulverizing,
Wherein the porous mineral powder delays the smell and evaporation of the antimicrobial deodorant solution. A method for producing a functional pad for horticulture according to claim 1,
Mixing the antibacterial deodorant solution, the useful microorganism culture solution, and the porous mineral powder at 40 to 50:40 to 50: 1 to 10% by volume; And
And bonding the mixture to a membrane film.

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