KR101060367B1 - Food wrapping paper and its manufacturing method - Google Patents

Abstract

The present invention relates to a food wrapping paper, and more particularly, a food wrapping paper that improves moisture resistance, adhesiveness, heat resistance and antibacterial property by mixing paraffin wax and polyethylene on a base paper such as paper or nonwoven fabric, and adding a certain amount of colloidal platinum to apply the coated paper. to be.

Paraffin wax, polyethylene, wrapping paper

Description

Food packing paper and how to make it

The present invention relates to a food wrapping paper and a method for manufacturing the same, and more particularly, by mixing paraffin wax and polyethylene on a base paper such as paper or nonwoven fabric, and adding a certain amount of colloidal platinum to improve moisture-proof, adhesiveness, heat resistance and antibacterial properties. It is a packaging paper for food and its manufacturing method.

Various food wrapping papers are used for the packaging of food, and there is a wrapping paper coated with a petroleum paraffin wax to a base paper such as paper or nonwoven fabric to a certain thickness in order to improve double moisture resistance.

However, the packaging paper coated with paraffin wax has been pointed out that the taste of the packaged food is altered by melting the wax when used in a relatively high temperature environment, especially when used in food such as hamburgers, eating in a warm state For the hamburger is packaged in the wrapping paper is stored in a high temperature storage room for a certain time, which causes a problem that the low melting point and low adhesive wax flows off the wrapping paper to the hamburger.

In order to prevent this, when the adhesive is mixed with the wax and applied to the base paper, the melting point is lowered, which also causes a problem to flow down to the food.

Accordingly, an object of the present invention is to provide a food wrapping paper and a method for producing the same, which are improved in adhesiveness and heat resistance by mixing polyethylene with a relatively high adhesiveness and a high melting point with a paraffin wax having a low adhesiveness and a low melting point and applying it to a base paper.

In addition, there is another object to provide a food wrapping paper and a method for manufacturing the same for improving the antibacterial by mixing colloidal platinum in the mixed material of the polyethylene and paraffin wax.

The present invention is to apply a moisture-resistant and adhesive material to the base paper, as a coating material using a mixture of paraffin wax and polyethylene and colloidal platinum harmless to the human body.

The food wrapping paper according to the present invention can improve the adhesiveness and heat resistance by mixing polyethylene with a relatively high adhesiveness and a high melting point in a paraffin wax having a relatively low adhesiveness and a melting point and applying it to a base paper, and the colloidal platinum of the polyethylene and paraffin wax. Mixed application can increase the antimicrobial properties.

The present invention relates to a food wrapping paper, and more particularly, a food wrapping paper that improves moisture resistance, adhesiveness, heat resistance and antibacterial property by mixing paraffin wax and polyethylene on a base paper such as paper or nonwoven fabric, and adding a certain amount of colloidal platinum to apply the coated paper. to be.

Generally, wax is used in various fields because it has a gloss, lubrication, waterproofing, and antiseptic effect due to its property of easily changing to a fluid at room temperature while being solid at room temperature.

Such waxes include petroleum waxes, animal waxes, vegetable waxes and mineral waxes. In the present invention, it is most preferable to use petroleum-based paraffin waxes, but in some cases animal, vegetable and mineral waxes may also be used.

In addition, petroleum paraffin wax and polyethylene used in the present invention should be nontoxic.

Colloidal platinum may also be applied to a mixture of paraffin wax and polyethylene.

Platinum used in the present invention is superior to any antimicrobial drugs.

The advantage of platinum nanotechnology is that the volume increases rapidly with respect to weight, resulting in the same effect on the same area of each unit's energy. For example, nano-treating 1 g of platinum produces a volume capable of drawing 1.8 million kilometres.

The biggest advantage of the nano metal is that it has an excellent antibacterial effect as well as electrical properties than any organic antibacterial drugs.

In fact, the result of the research of the Korea Textile Testing Institute proved that it showed more than 99.9% of antibacterial activity when 20mm gold, silver, platinum, and nano powder were added to 10ppm concentration in water containing 140,000 bacteria per ml. Among them, nano-platinum showed superior antibacterial and deodorizing effect than any synthetic drug.

Nano platinum is also produced in the form of nanoparticle powder, solution of 1 to 30 nm size.

The color of platinum is dark or khaki (dark brown, yellowish brown).

Gold used in the present invention has high antibacterial activity, antifungal and antibacterial deodorizing effect, electrical conductivity and far-infrared emissivity, etc., which are applied to human-friendly products and used for research of various industrial materials.

In addition, gold has a function of neurostable and detoxification, ionic action, blood circulation, and the effect is generally calming the mind, stabilizing the mind and detoxification. It is harmless to human body, no resistance to environmentally friendly virus, and no oxidation phenomenon.

The term colloid used in the present invention is also called colloid.

A solution is a substance in which a substance is evenly dispersed in a liquid in a molecular or ionic state, whereas a fine particle having a diameter of about 1 nm to 100 nm larger than a normal molecule or ion is dispersed in a gas or a liquid without aggregation or precipitation. It is called a colloidal state, and the entire colloidal state is called a colloid.

The name colloid was first used by T. Graham of England in the middle of the 19th century. In his research on diffusion, he found that substances are easily soluble in water and diffuse in water, and difficult to spread because they are not soluble in water. The former are crystalline substances such as salt, and the latter are amorphous substances such as gelatin. Thus, the former was classified as colloid and the latter as qualitative.

Soapy water or starch solution appears opaque. The reason is that the particles dispersed in the solution scatters light, and the solution in which the particles have a size enough to scatter light is called a colloid or colloidal solution. Normal clear solutions are called true solutions.

Colloidal particles are 10 ^-7 (10 -7 powers) to 10 ^-5 cm in diameter, larger than solute particles (10 ^-7 cm or less) in true solution, but are not visible under ordinary microscopes. Can't filter

The manufacturing method of metal colloid can be roughly classified into physical and chemical methods. The physical method is called a combustion method. In the combustion method, a metal ion solution is introduced into hydrogen gas or phosphorus to generate a reduction reaction, and then heated by combustion to promote the reaction, thereby producing the metal fine particles in liquid dispersion medium. It is a method of receiving in the inside, and after completion | finish of reduction, the process which stabilizes a metal colloid using surfactant.

On the other hand, the chemical method is also called precipitation method (metal salt reduction reaction method), and is a method of producing a metal colloid by forming a metal oxide or metal precipitate from a metal ion solution using a chemical reaction, and then adding a surfactant to obtain a metal colloid. .

However, when based on the combustion method, there exists a drawback that a metal fine particle precipitates in a burner, the blower outlet of a burner is blocked by the precipitated metal particle, and a burner cannot be used for a long time.

On the other hand, in the precipitation method, a salt of a noble metal is reduced in an aqueous solution in the presence of a surfactant to generate a noble metal hydrosol or a noble metal sol which is a metal colloid (see Japanese Patent Application Laid-Open No. 59-12024). ], It is much more reasonable than the combustion method.

In addition, Japanese Patent Application Laid-Open No. 10-68008 (Preparation Method for Highly Active Metal Particles (Preparative Example 2)) is a method of stabilizing colloidal state of metal colloid by reducing metal ion without necessarily depending on surfactant. Proposed.

In other words, the method of the preceding example 2 is a method of preparing a highly active metal fine particles by adding a reducing agent to the metal ion solution and reducing the metal fine particles in the liquid by reducing the temperature and pH while controlling the temperature. It is a method of controlling from low temperature to high temperature in the range of -80 ° C, keeping the pH in the range of 4 to 11, and reducing the metal ion to maintain the colloidal state without depending on the surfactant (protective colloid). .

Colloidal particles are constantly colliding due to Brownian motion and the like, but in a stable colloidal solution, when the particles collide with each other, there is a cause that prevents the binding between the particles.

This is because the colloidal particles are charged or the colloidal particles are hydrated in combination with the dispersion medium. As described above, the metal colloid is surrounded by a surfactant and hydrated, but the colloidal particles are charged by the following facts.

It can also be understood.

It is known that when a substance becomes an ultrafine particle (nanometer = 10Å) consisting of several to several hundred condensates in atoms / molecules, it has a very large surface energy, and thus a significant change in its physicochemical properties occurs. It is electrically charged negatively or positively by adsorption of back polar groups and ions.

In the present invention, colloidal platinum is used as the metal colloid. However, since the production of colloidal platinum is already known, detailed descriptions thereof are omitted.

First, the present invention is applied to the base paper by mixing the paraffin wax and polyethylene, the mixing ratio of the paraffin wax and polyethylene is most preferably in the paraffin wax 80 to 90% by weight of polyethylene 10 to 20% by weight.

The polyethylene serves as a releasing agent, when the content is less than 10% of the total weight, food and packaging that can be packaged on the packaging may stick to it, preferably containing 10% or more, and if contained more than 20% The surface of becomes rough.

The above-mentioned colloidal platinum may be added to the mixture of paraffin wax and polyethylene, but the amount of the colloidal platinum added is most preferably used in the minimum content, that is, in the range of 0.01 to 5%, which can generate antibacterial properties.

When the content of the colloidal platinum exceeds 5%, the adhesion is poor, and the coating film may be easily peeled off from the wrapping paper at a predetermined temperature or more.

The content of the paraffin wax, polyethylene and colloidal platinum is more preferably 79 to 89% by weight paraffin wax, 10 to 20% by weight polyethylene, 0.01 to 5% by weight colloidal platinum.

The polyethylene has a softening point (軟化 연) is too low in view of the nature of the present invention, and if too high, the manufacturing process may be difficult, the most suitable softening point is between 100 ~ 135 ℃.

In addition, the specific gravity is suitably between 0.8 and 0.96 at room temperature (25 ° C), and the cloud point is more preferably between 70 and 90 ° C.

Polyethylene that can be used in the present invention should be basically non-toxic harmless to the human body, Epolene C series (C-10, C-13, C-15, C-16, C-17, C-18, C of Westlake, USA) -19, C-26 etc.) can be used.

Hereinafter, the manufacturing process of the present invention will be described with reference to the accompanying drawings.

1 is a manufacturing process diagram of the present invention, Figure 2 is an exemplary view showing the configuration of the manufacturing apparatus used in the present invention, the method for producing a food packaging paper according to the present invention by mixing polyethylene with paraffin wax and colloidal platinum relative to the total weight Melting step (S10) and melt by adding 0.01 ~ 5%; An application step (S20) of applying the molten material to the base paper by applying it to the application roller (2); It consists of a cooling step (S30) for cooling the coated wrapping paper.

First, the base paper B is transferred to the application roller 2 in a state of being wound around the uncoiler 1, and a supply tank for supplying the application material to the application roller 2 on one side of the application roller 2 ( 3) is formed. Naturally, the coating material supplied to the supply tank 3 should be maintained at a temperature at least above the melting point of paraffin wax and polyethylene.

The wrapping paper (P) applied by the coating roller (2) is cooled by a cooling apparatus, the printing step (S40) for printing a mark or letters, etc. to the printing roller (5) on the wrapping paper after the cooling step (S30) is Can be added.

The wrapping paper P passed through the printing step S40 may be wound again by the recoiler 6 as shown, may be cut to fit the desired size, or may be partially joined by a bonding process. .

The coating step (S20) may be applied to only one surface of the base paper, or may be coated on both sides in some cases, by adding a stirring step (S15) between the melting step (S10) and the coating step (S20) and paraffin wax and It is also possible to add a process that allows the mixing of polyethylene and colloidal platinum to be uniform.

1 is a manufacturing process diagram of the present invention

Figure 2 is an example of the configuration of the manufacturing apparatus used in the present invention

Description of the Related Art

1. Uncoiler 2. Coating Roller

3. Supply Tank 4. Cooling System

5. Printing Roller 6. Recoiler

B. Base paper P. Wrapping paper

Claims (7)

In the food packaging, The wrapping paper is applied to the base paper by mixing paraffin wax and polyethylene and adding a certain amount of colloidal platinum, The content of the paraffin wax, polyethylene and colloidal platinum is 80 ~ 89% by weight of paraffin wax, polyethylene 10 ~ 20% by weight, colloidal platinum is characterized in that 0.01 ~ 5% by weight of food packaging paper delete delete delete Paraffin wax is mixed with 80 to 89% by weight of polyethylene 10 to 20% by weight and melt by adding 0.01-5% by weight of colloidal platinum (S10); An application step (S20) of applying the molten material to the base paper by applying it to the application roller (2); Cooling step (S30) for cooling the coated wrapping paper; characterized in that the manufacturing method of the wrapping paper for food The method of claim 5, The manufacturing method of the food wrapping paper characterized in that the printing step (S40) for printing a mark or a letter is added to the wrapping paper (P) after the cooling step (S30). The method according to any one of claims 5 to 6, Between the melting step (S10) and the coating step (S20) by adding a stirring step (S15) to produce a food wrapping paper characterized in that the mixing of paraffin wax, polyethylene and colloidal platinum is uniformly made.

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