KR100509329B1 - Non-woven fabric filter for discharging gas to which the lees of raw rice wine can not adhered and method of manufacturing the same - Google Patents

Abstract

It is an object of the present invention to provide a non-woven filter for discharging gas which does not adhere to tackiness and a method of manufacturing the same.

The present invention, when the PET non-woven fabric made of long fiber via the transport rollers for applying the PET unsaturated resin solution, the PET unsaturated resin solution to penetrate the long fiber tissue of the PET nonwoven fabric, PET unsaturated resin solution infiltrate When the nonwoven fabric is melted by being subjected to hot air of 60 to 90 ° C. from the drying chamber, the long fibers forming the nonwoven fabric form a 30 to 80 μm PET unsaturated resin film that provides a slippery surface, and the vent holes of the PET nonwoven fabric are PET unsaturated. It is made narrow by the thickness in which the resin film was formed. Therefore, when it is used as a packing for the lid of the bottle, the slippery film of PET unsaturated resin prevents the residue from sticking to or sticking to the surface of the nonwoven fabric, and as a result, it prevents the fine pores of the nonwoven fabric itself from occurring in the bottle. It does not interfere with the release of carbon dioxide, and the narrowed non-woven vents allow carbon dioxide to be discharged while maintaining the required amount of carbon dioxide, so that the refreshing taste of Takju is maintained for a longer time.

Description

Non-woven fabric filter for discharging gas to which the lees of raw rice wine can not adhered and method of manufacturing the same}

The present invention relates to a non-woven filter for discharging a gas non-woven filter and a method of manufacturing the same, in particular in the long fibers constituting the structure of the non-woven fabric to form a film to maintain a slippery surface while narrowing the vent holes of the non-woven fabric, The non-woven filter for gas discharge, which keeps the refreshing taste of Takju for a longer period of time, by keeping the pores of the nonwoven tissue itself finer while maintaining the fineness of the non-woven tissue itself, and controlling and discharging the fermentation gas generated inside the Takju bottle. It relates to a manufacturing method.

Usually, in order to discharge fermentation gas generated by Takju out of the container, a filter made of nonwoven fabric is attached to one side of the packing that is fitted inside the lid so that the fermentation gas is discharged through the fibrous structure of the nonwoven filter. However, the nonwoven filter is fermented by blocking the fine pores formed between the nonwoven fabric tissues when the wheat flour or rice flour residues stick together with moisture to the long fiber tissues forming the nonwoven fabric. This caused the gas to not flow smoothly to the outside. In addition, the fiber tissue of the nonwoven fabric does not preserve the fermentation gas generated in the Takju bottle to a certain pressure state, but immediately discharges it, thereby reducing the content of natural carbon dioxide, which is a fermentation gas generated in the Takju, to weaken the refreshment of the Takju. There is also.

Therefore, an object of the present invention was developed to solve the above problems, in the long fiber tissue of the PET nonwoven fabric to form a PET unsaturated resin film that provides a slippery property while narrowing the vent holes of the nonwoven fabric, When used as a packing, Takju waste can be easily stuck or stuck to the surface of the nonwoven fabric, and the pores of the nonwoven fabric itself are narrowed by the thickness of the film, and the carbon dioxide gas, which is fermentation gas, is discharged while maintaining the required amount. The present invention provides a non-woven filter for discharging gas which does not adhere to Takju residue, which has been maintained for a long time, and a method of manufacturing the same. To achieve the above object, the non-woven filter for Gas Discharge that does not adhere to Tagged waste of the present invention is a PET nonwoven fabric. PET unsaturated resin solution was penetrated into long fiber tissue of By the preparation, characterized in that the long fibers forming the tissue of the PET nonwoven fabric is formed with a PET unsaturated resin film having a thickness of 30 ~ 80μm. In addition, the tackiness of the present invention for achieving the above object Non-stick gas discharge nonwoven fabric filter manufacturing method is to adjust the amount of coating the PET unsaturated resin solution to the PET non-woven fabric in the container containing the PET unsaturated resin solution, and to install the rollers to be applied up and down vertically but inside the container Step to install a part of the structure is submerged in the PET unsaturated resin solution; Allowing the PET nonwoven fabric to pass through the upper and lower rollers to infiltrate the PET unsaturated resin solution into the long fiber tissue of the PET nonwoven fabric; PET unsaturated woven fabric is passed through a drying chamber to which hot hot wind is applied, and PET unsaturated resin solution infiltrated into the PET nonwoven fabric has a thickness of 30 to 80 μm on the long fibers forming the tissue of the PET nonwoven fabric by melting by high temperature hot air. Resin coating is formed, characterized in that it comprises a step for narrowing the pores of the PET non-woven tissue by the thickness of the unsaturated resin film. If the thickness of the coating layer is less than 30μm in the above is too thin to cover the lid of the container Not only is there a risk of being damaged when the packing for use in the process is processed or processed and attached to the bottle cap, and the function as a filter for controlling the emission of fermentation gas may be weakened. On the contrary, if the thickness exceeds 80 μm, the fermentation gas may not be properly discharged at a certain pressure, thereby causing damage to the container or the lid.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. FIG. 1 schematically shows an apparatus for implementing the manufacturing method of the present invention. The container 4 which has the accommodating part of predetermined width is provided, and the PET unsaturated resin solution to apply to the PET nonwoven fabric 10 is accommodated in the container 4 as the state melt | dissolved in the solvent. Therefore, PET unsaturated resin solution is thinly diluted without viscosity. The mixing ratio of PET unsaturated resin solution and solvent is PET unsaturated resin solution 70: 30 wt% of solvent or PET unsaturated resin solution 80: 20 wt% of solvent. The reason for dissolving the PET unsaturated resin solution in the solvent is that the PET unsaturated resin solution applied to the PET nonwoven fabric 10 does not form a coating while covering the entire surface of the PET nonwoven fabric 10, as will be described later. In order to better penetrate through the vents formed by the long fibers forming the tissue of the PET nonwoven fabric 10. On the other hand, there are a number of nonwoven fabrics, PET nonwoven fabric 10 used in the present invention is a long fiber It is generally made of a loose structure having fine pores, rather than a dense structure, compared to a general nonwoven fabric. Upper and lower rollers 1 and 2 are installed in the container 4 so as to be in contact with each other. The lower roller 2 is installed in a structure in which only a part of the lower part is immersed in the PET unsaturated resin solution contained in the container 4. Therefore, the PET nonwoven fabric 10 that passes between the upper and lower rollers 1 and 2 is buried in the PET unsaturated resin solution transferred from the lower roller 2, and the PET unsaturated resin solution to be queried is a PET nonwoven fabric ( It penetrates into the intestinal fibrous tissue forming the pores of 10) and coats one of the long fibers. At this time, the coating amount of the PET unsaturated resin solution transferred from the lower roller 2 to the PET nonwoven fabric 10 side is arbitrarily adjusted by dropping or adjoining the blade 3 installed on one side of the lower roller 2 from the lower roller 2. The PET nonwoven fabric 10 coated with the PET unsaturated resin solution penetrated is passed through the interior from the container 4 to the adjacent drying chamber 5 before the coated PET unsaturated resin solution is cured. The hot air of 60 ~ 90 ℃ generated from the drying chamber 5 in the process is applied toward the PET nonwoven fabric 10 coated with PET unsaturated resin solution to perform the drying operation of the nonwoven fabric 10 quickly. At this time, the PET unsaturated resin solution, which was coated between the long fiber tissues of the PET nonwoven fabric 10 and was not cured, was quickly dried and cured while forming a state in which the solvent was volatilized by hot air at 60 to 90 ° C. The ventilation holes of 10) form a slippery PET unsaturated resin film on the surface of the ultra-fine filament. PET unsaturated resin film has a thickness of 30 to 80 µm. Formation of the PET unsaturated resin film on the long fiber structure of the PET nonwoven fabric 10 causes a very slippery layer to be formed on the surface of each of the long fibers constituting the PET nonwoven fabric 10 due to the properties of the PET unsaturated resin, thereby forming the nonwoven fabric. When used as a packing of the tack container, the flakes generated in the tack are slid off to be attached to the surface of the nonwoven fabric and are quickly detached, thereby preventing the residue from being stuck or attached to the nonwoven fabric packing itself. There is no blockage of the long fiber tissue forming fine pores. In addition, the film of PET unsaturated resin further narrows the vertical or horizontal vents formed in the nonwoven fabric itself by the thickness thereof, thereby naturally maintaining the refreshment of Takju by suppressing the emission of carbon dioxide gas, which is fermentation gas. In the example, the method of manufacturing the nonwoven fabric of the present invention is described step by step in order to facilitate understanding, but in practice it is continuously performed at a high speed.

As described above, according to the present invention, the PET non-woven fabric to form a PET unsaturated resin film layer having a slippery property in the long fibers constituting the non-woven fabric to prevent the tackiness from sticking or sticking to the surface of the nonwoven fabric when used as a packing of the takju bottle cap It is effective. In addition, the PET unsaturated resin film narrows the ventilation holes of the PET nonwoven fabric by the thickness of the PET unsaturated resin film and regulates the emission of carbon dioxide gas, which is a fermentation gas, to maintain the refreshing quality of Takju for a long time and to improve the quality of the product. It exerts a high effect.

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1 is a view showing a manufacturing process for implementing the present invention.

<Explanation of symbols for important parts of drawing>

1,2: upper and lower roller 3: blade 4: container 5: drying chamber

Claims (2)

After penetrating the PET unsaturated resin solution into the long fiber tissue of the PET nonwoven fabric, and drying it by applying high temperature hot air, the PET unsaturated resin film having a thickness of 30 to 80 μm is formed on the long fibers forming the tissue of the PET nonwoven fabric. Non-woven filter for gas discharge that does not stick to rust. Adjust the amount to coat the PET unsaturated resin solution on the PET nonwoven fabric side in the container (4) containing the PET unsaturated resin solution, and install the rollers (1, 2) to be applied up and down, but the lower roller (2) is the container (4) a step for installing in a structure in which a part is submerged in the PET unsaturated resin solution inside; Passing the PET nonwoven fabric between the upper and lower rollers to infiltrate the PET unsaturated resin solution into the long fiber tissue of the PET nonwoven fabric; And The PET nonwoven fabric is passed through a drying chamber 5 to which high temperature hot air is applied, and the PET unsaturated resin solution, which has already infiltrated into the long fiber structure of the PET nonwoven fabric, forms a structure of the PET nonwoven fabric by dissolution due to high temperature hot air. To form a slippery PET unsaturated resin film having a thickness of 30 ~ 80μm in the fibers, the gas for non-tagged residue including a step for narrowing the pores of the PET non-woven fabric by the thickness of the unsaturated resin film Method for producing a nonwoven filter.