KR20110089527A

KR20110089527A - Bio wrapping recipe

Info

Publication number: KR20110089527A
Application number: KR1020100008968A
Authority: KR
Inventors: 윤신원; 민완기
Original assignee: 주식회사 인성피앤디
Priority date: 2010-02-01
Filing date: 2010-02-01
Publication date: 2011-08-09

Abstract

PURPOSE: A method for manufacturing bio wrapping paper is provided to absorb and neutralize toxicity of agricultural chemical remained in agricultural and aquatic products by mixing natural mineral emitting negative ions and far infrared ray with the paper. CONSTITUTION: Minerals such as mica and zeolite are collected. The collected minerals are pulverized, and impurities are eliminated from the minerals. The pulverized minerals are dried in a drying furnace with heat at temperature between 500 and 700 degrees Celsius. The dried minerals are pulverized to form fine powder by sifting the pulverized minerals with a sieve in which the particle size thereof is more than or equal to 200mesh. Liquid sodium silicate, mica powder, zeolite powder, sulfur, and citric acid are mixed. A wrapping paper is dried.

Description

Bio-Packaging Recipe

The present invention is used in vegetables and fiber products, the method for producing bio-antibacterial to remove the toxicity and to remove the fungi and pesticide toxicity.

Conventional technology is a mixture of natural minerals that emit anions and far infrared rays in the natural state, such as mica and zeolite, can be neutralized by absorbing the toxicity of pesticides remaining in agricultural and marine products.

Existing wrapping paper manufactures wrapping paper containing functional minerals

Remove residual pesticides, generate negative ions, delay rot

The packaging packaging completed through the manufacturing process is a mixture of natural minerals that emit anions and far infrared rays in the natural state, such as mica and zeolite. Therefore, the toxicity of pesticides remaining in agricultural and aquatic products due to the adsorption effect of particulate matter on minerals. Not only can it absorb and neutralize, but also it can absorb and remove the irritating odors emitted from aquatic products, thus preventing unnecessary odors from being transported, while oxidizing reactions in agricultural and marine products by the strong anion substitution ability of clay minerals. Since it is possible to strongly reduce the hydroxyl (OH) ions caused by the long-term storage of agricultural and marine products there is an effect that can prevent the corruption to maintain a high freshness.

1 is a functional wrapping paper manufacturing procedure

Hereinafter, described with reference to the manufacturing process of Figure 1 attached to a preferred embodiment for achieving the above object as follows.

Example

Minerals such as mica and zeolite, which exist as natural minerals in nature, were collected.

Subsequently, the collected minerals are crushed into particles having a size of about 30 mm or less in a crusher, and the particles are sorted to remove impurities, and the minerals are put into a drying furnace and dried by applying heat at 600 ° C. When the moisture contained in the mineral was dried sufficiently.

In the step, it is preferable to further remove the substances that cling to the surface of the minerals in the mining process by selecting the crushed mineral particles, and further comprising the step of natural drying washed with water.

The drying furnace is composed of a state of thermal kiln and may be dried by adding minerals, but the method of drying by applying heat of about 450 ° C. while moving about 10-20 minutes by adding minerals to a conveyor moving through the inside of the kiln is mass production. It is preferable because it is possible.

Subsequently, the dried minerals were put into a grinder and finely pulverized, filtered through a sieve having a particle size of 500 mesh or more, processed into fine powder, and then stored in different containers.

The grinder was rotated facing each other, and a conventional grinder was used that grinds and grinds when the grinding particles become smaller in stages.

Then, 94 to 96% by weight of sodium silicate, 2 to 3% by weight of mica powder, 1 to 2% by weight of zeolite powder, 0.2 to 0.4% by weight of sulfur, citric acid 0.1 -0.3 weight% was mixed evenly, and the mixture of pools was completed.

Subsequently, the blended packaging was dried to complete a functional packaging containing a functional mineral.

Test Example 1: Determination of Deodorizing Effect

The deodorizing effect was measured by requesting the packaging paper completed by the manufacturing process of the present invention to the Korea Institute of Radiation Application and Evaluation, and the test method is KFIA-FI which examines the deodorization rate by injecting 500 ppm of ammonia gas into the container without the sample. A -1004 test specification was used.

As a result, as shown in the deodorization rate (%) test result of Table 1, the gas concentration was measured every 30 minutes by using a gas detector tube, and after the first 30 minutes, the deodorization rate was 67%. Deodorization rate 75% in minutes, 83% deodorization rate in 90 minutes, 84% deodorization rate in 120 minutes, and gradually increase the deodorization rate (%). After about 2 hours, most of the ammonia gas is adsorbed and removed, and the deodorization efficiency is very high. Appeared.

In addition, the deodorization rate (%) was not changed in the container in which the sample was not injected except for the amount of ammonia which naturally disappears as the sample was collected by the gas detector tube.

TABLE 1

Test result

1.Test Method: KFIA-FI-1004

2.Test gas name: Ammonia

3.Gas concentration measurement: gas detector

4.Blank Co., Ltd.: Measured without sample. End

5.Address: 250-4 Hoedeok-dong, Gwangju-si, Gyeonggi-do

Test Example: Measurement of Sterilization Effect

The antimicrobial effect was measured by requesting Korea Far-Infrared Application Evaluation Institute, which was completed by the manufacturing process of the present invention, and the test method was carried out with the Staphylococcus aureus cultured in the container and the sample prepared by the present invention together, and another container. In the case of adding only Staphylococcus aureus, the reduction rate of Staphylococcus aureus was measured by comparing the number of control and test samples after 18 hours. In addition, the reduction rate of pneumococci cultured for 18 hours by the method described above was measured together.

TABLE 2

Test result

1) Test Method: KS K 0693: 2006

2) The number of bacteria on the medium is calculated by multiplying the dilution factor. End

3) Use strain

Staphylococcus aureus ATCC 6538

Klebsiella pneumoniae ATCC 4352

4) Nonionic Surfactant: 0.05% nonionic surfactant is used for inoculation bacteria (Cotton)

5) Standard fabric: KS K 0905 Dyeing fastness

5) Address: 250-4 Hoedeok-dong, Gwangju-si, Gyeonggi-do

As a result of the bacterium reduction rate (%) test result of Table 3, after measuring the concentration of the bacteria after 18 hours, the bacterium reduction rate was 99.9% in the S. aureus culture vessel into which the sample was injected. In this culture vessel, the bacteriostatic rate was 99.9%, indicating that the sterilization and antibacterial efficiency of the wrapping paper was very high.

In the case of manufacturing the package completed through the above-described manufacturing process, natural minerals that emit negative ions in a natural state such as mica and zeolite are mixed, so that the residues remain in the agricultural and marine products due to the adsorption effect of the fine particles of the minerals. Not only can it absorb and neutralize the toxicity of pesticides, but it can also absorb and neutralize the toxicity of pesticides remaining in vegetables.In particular, it can absorb and remove irritating odors emitted from aquatic products and vegetables. It is able to block chlorine prematurely and at the same time, it can strongly reduce hydroxyl (OH) ion which causes oxidation reaction in agricultural products by strong anion substitution ability of clay minerals. There is such an advantage.

On the other hand, mica and zeolites, which are one of the most included and important materials in the manufacturing process of the present invention, are known to not only emit negative ions in a natural state but also generate rotating electromagnetic waves.

Therefore, it is possible to maintain freshness even if it is distributed for a long time by slowing the growth rate of the organisms while being packed in a wrapping paper, and it is possible to prevent odor blocking and decay by sterilizing effect and adsorption of particulate matter.

On the other hand, the properties of the minerals used in the manufacturing method of the present invention are as follows.

An important coarse mineral in the mica \ mica granite is a layered silicate mineral.

Hardness 2.5-4, specific gravity 2.75-3.2, yellow, brown, green. Depending on the ingredients and properties, there are some kinds of mica, dog mica, small down mica, biotite, gold mica, hepatic mica, cinnabar dite, and so on.

Cicada was mainly used in the present invention.

In addition, mica is capable of absorbing and removing toxic odors and irritating odors of residual pesticides by releasing anions in nature and adsorbing and decomposing toxic substances.

The zeolite refers to a generic term for minerals that are aluminium silicate hydrates of alkali and alkaline earth metals. Even though the bonds of the atoms are loose in crystal structure and the moisture filling the spaces is released at high heat, the skeleton remains as it is, so that other fine particles can be adsorbed. This property can be used as an adsorbent and as a molecular sieve to separate particulates of different sizes. It contains channels and pores composed of cations that can be exchanged with other ions together with water, and these properties cause natural reactions and pollutants that are harmful to the environment. It acts as one of the most likely materials for this.

In addition, the zeolite can be removed by adsorbing the poisonous and irritating odor of the residual pesticides by the nature of releasing anions and far infrared rays in the natural state and adsorbing and decomposing toxic substances.

The sodium silicate (sodium silicate) is a sodium salt of silicic acid, depending on the composition, sodium metasilicate, its hydrated sodium orthosilicate, sodium disilicate, etc., but here a thick aqueous solution of sodium silicate called water glass was used, the adhesive Used for

The sulfur (硫黄) is produced as a natural sulfur in a free state, but also present in a large amount in a wide range as a compound is an important element in the biological system and is contained in a lot of protein as to obtain a bactericidal and antibacterial effect.

Citric acid is citric acid, which is one of polybasic carboxylic acids having a hydroxyl group, and is contained as a free acid in seeds and juices of many plants.

In addition, citric acid is a chemical organic acid, and also reacts with harmful products generated by abnormal fermentation of food raw materials to excrete outside the body, thus detoxifying the crops. It is possible to increase the organic bonding of the various components.

Although the above has been illustrated and described with respect to the preferred embodiments of the present invention, the present invention is not limited to the above-described embodiments, it is common in the field to which the present invention belongs without departing from the spirit of the invention claimed in the claims. Various modifications can be made by those skilled in the art, and such modifications are intended to fall within the scope of the appended claims.

Claims

Reclaiming minerals such as mica and zeolite;
Crushing the collected minerals into particles to remove impurities, and then putting them in a drying furnace to sufficiently dry the moisture contained in the minerals while applying heat of 500 to 700 ° C .; Grinding the dried minerals finely, and filtering the fine minerals into a fine powder to maintain a particle size of 200 mesh or more;
94 to 96% by weight of sodium silicate in liquid state, 2 to 3% by weight of mica powder, 1 to 2% by weight of zeolite powder, 0.2 to 0.4% by weight of sulfur, 0.2 to sulfur 0.4 weight%, citric acid (citric acid) step of evenly mixing 0.3 to 0.3% by weight;
Functional packaging paper manufacturing method comprising the steps of drying the wrapping paper.