KR20220105538A - Moisture Repelling Agent using Super Absorbent Polymer and Manufacturing method thereof - Google Patents

Abstract

The present invention relates to a clothing moisture remover using a recycled superabsorbent polymer and a manufacturing method thereof, and more particularly, to a clothing moisture remover in which the superabsorbent polymer coated or impregnated with a functional material of any one of a fragrance, an antibacterial agent, a deodorant, or a combination thereof is recycled after drying a moist superabsorbent polymer material, and a manufacturing method thereof. The manufacturing method of the clothing moisture remover using a recycled superabsorbent polymer according to the present invention comprises: a drying step (S100) of drying a moist superabsorbent polymer raw material; a pulverizing step (S200) of pulverizing the dried superabsorbent polymer; and a processing step (S300) of coating or impregnating superabsorbent polymer pulverized with a functional raw material.

Description

Clothing moisture remover recycled from superabsorbent resin and manufacturing method thereof

The present invention relates to a clothing dehumidifier recycled from a superabsorbent polymer and a method for manufacturing the same, and more particularly, to a functional raw material of any one of a fragrance, an antibacterial agent, a deodorant, or a combination thereof after drying the wetted superabsorbent polymer raw material. Alternatively, it relates to a clothing dehumidifier obtained by recycling the impregnated superabsorbent resin and a method for manufacturing the same.

Super Absorbent Polymer (SAP) is a synthetic polymer material that can absorb about 500 to 1,000 times its own weight. It is also called SAM (super absorbency material), AGM (absorbent gel material), etc. have.

Superabsorbent polymers started to be put to practical use as sanitary products such as diapers and sanitary napkins, and are now being applied to various fields such as soil repair agents for horticulture, water repellent materials for civil engineering, and sheets for seedlings.

In addition, the superabsorbent polymer is also used as a raw material for ice packs. When the superabsorbent polymer absorbs water, it swells to form a network structure and is converted into a hydrogel, and the hydrated gel Water does not drain easily even when pressure is applied from the outside, and the cooling effect is 2-3 times higher than that of ordinary ice.

This principle is applied not only to transportation of fresh and frozen food, but also to cooling products to lower body temperature, such as ice cushions and ice blankets.

However, superabsorbent polymer is a kind of microplastic, it is difficult to biodegrade, and it is not soluble in water, which causes serious water pollution. This is an increase of about two times compared to the previous year, and it is expected that the use of ice packs will increase sharply in view of the current trend.

Accordingly, various attempts have been made to activate the reuse of the superabsorbent polymer. In this regard, Korean Patent Registration No. 10-2061673 discloses that the superabsorbent polymer (SAP) in a moist gel state is 0.5 based on the weight of seawater and seawater. A method for removing water from a moist superabsorbent polymer comprising immersing the composition for 10 minutes to 4 hours in a water removal composition mixed with calcium chloride in an amount of 3 wt% to 3 wt% is provided.

The present inventors are part of a study to recycle ice pack supplements made of superabsorbent polymer, which is disposed of as a main material, as a functional raw material of any one of a fragrance, an antibacterial agent, a deodorant, or a combination thereof after drying the moistened superabsorbent polymer raw material. The present invention has been achieved by manufacturing a clothes dehumidifier using recycled superabsorbent resin coated or impregnated.

Domestic Registered Patent No. 10-2061673

An object of the present invention to solve the above problems is to dry the impregnated super-absorbent polymer raw material and then recycle the super-absorbent resin coated or impregnated with any one of a functional raw material of a fragrance, an antibacterial agent, a deodorant, or a combination thereof. To provide a dehumidifying agent and a method for manufacturing the same.

In order to solve the above problems, the manufacturing method of the clothes dehumidifier using recycled superabsorbent polymer of the present invention includes a drying step of drying the wetted superabsorbent polymer raw material (S100); and a pulverizing step of pulverizing the dried superabsorbent polymer (S200). ); and a processing step (S300) of coating or impregnating the pulverized super absorbent polymer as a functional raw material.

The functional raw material includes any one of a fragrance, an antibacterial agent, a deodorant, or a combination thereof.

The clothing dehumidifier obtained by recycling the superabsorbent polymer of the present invention is characterized in that it is coated or impregnated with a functional raw material after drying and pulverizing the impregnated superabsorbent polymer raw material.

The functional raw material is characterized in that it includes any one of a fragrance, an antibacterial agent, a deodorant, or a combination thereof.

As described above, according to the clothes moisture remover recycled from the superabsorbent polymer according to the present invention and its manufacturing method, the superabsorbent polymer is processed into functional raw materials such as air fresheners, antibacterial agents and deodorants to provide moisture absorption characteristics as well as fragrance, It has antibacterial and deodorizing properties.

In addition, according to the clothing dehumidifier recycled from the superabsorbent polymer according to the present invention and the manufacturing method thereof, environmental pollution and waste of resources can be prevented by recycling the raw material of the superabsorbent polymer, which is a kind of microplastic.

1 is a flow chart showing a method of manufacturing a clothing dehumidifier by recycling a super absorbent polymer according to the present invention.

Specific features and advantages of the present invention will be described in detail below with reference to the accompanying drawings. Prior to this, if it is determined that the detailed description of the function and its configuration related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description will be omitted.

The present invention relates to a clothing dehumidifier recycled from a superabsorbent polymer and a method for manufacturing the same, and more particularly, to a functional raw material of any one of a fragrance, an antibacterial agent, a deodorant, or a combination thereof after drying the wetted superabsorbent polymer raw material. Alternatively, it relates to a method for manufacturing a clothing dehumidifier and paper obtained by recycling the impregnated superabsorbent resin.

1 is a flowchart of a method for manufacturing a clothes dehumidifier using a superabsorbent polymer recycled according to the present invention.

The manufacturing method of the clothes dehumidifier using the recycled superabsorbent polymer according to the present invention includes a drying step (S100) of drying the wetted superabsorbent polymer raw material, a pulverizing step (S200) of pulverizing the dried superabsorbent polymer, and pulverization into a functional raw material and a processing step (S300) of coating or impregnating the superabsorbent polymer.

The drying step (S100) is a step of drying the used and moistened superabsorbent polymer raw material, and may increase processability and moisture absorption by evaporating moisture of the used and moistened superabsorbent polymer raw material.

The super absorbent polymer (Super Absorbent Polymer, SAP) is polyacrylic acid (Polyacrylic acid), polymethacrylic acid (Polymethacrylic acid), polyacryl amide (Polyacryl amide), polyethylene oxide (Polyethyleneoxide), polyvinyl alcohol (Polyvinyl alcohol), Any one of gelatin, polysaccharides (Polysaccarides), cellulose (Podium carboxylmehtyl cellulose), chitosan, and combinations thereof may be used, but is not limited thereto. Preferably, sodium polyacrylate can be used.

The superabsorbent polymer raw material can be obtained from ice packs, ice duvets, ice cushions, supplements in medical and non-medical poultice packs, soil repair materials, desert greening materials, building admixtures, sanitary napkins, supplements for hygiene products such as diapers, etc. It is not limited thereto as long as it contains used and moistened superabsorbent resin, but preferably, it is preferable to use a replenishing material in an ice pack or a steam pack with a low degree of contamination.

As a method of drying the superabsorbent polymer raw material, any one of natural drying, high temperature drying, or a combination thereof may be used.

In this case, natural drying may be performed at 20 to 30° C. for 24 to 72 hours, and high temperature drying may be performed at 70 to 300° C. for 3 to 24 hours. Preferably, a natural drying method capable of minimizing physical property denaturation, chemical oxidation and discoloration may be used.

When drying, the moisture content can be controlled to be 5 to 20 wt %. If the moisture content is less than 5 wt %, the surface of the super absorbent polymer is too condensed, making it difficult to penetrate the functional raw material in the processing step, which is a post-process, and the moisture content is 20 If it exceeds wt%, the moisture absorption rate of the clothing dehumidifier is lowered because it retains excess moisture, and it is difficult to uniformly pulverize in the pulverization step, which is a post process, due to moisture. Since it may be difficult to uniformly apply and impregnate it, it is preferable to dry it so as not to deviate from the above moisture content range.

In the pulverization step (S200), the dried super absorbent polymer is pulverized to a uniform size, and the dried super absorbent polymer of non-uniform size is uniformly pulverized using a pulverizing device to uniformly distribute functional raw materials in the post-processing step. One application and impregnation are possible.

As the grinding method, any one of a ball mill, a roller, a grinding method, or a combination thereof may be used.

Average particle size when grinding It can be processed to have a size of 1 to 500 μm, but if the pulverization size is less than 1 μm, agglomeration occurs rather than the specific surface area, so that the supporting properties of the functional raw material are poor. It is preferable to pulverize it so as not to deviate from the above average particle size because it becomes smaller and thus the water absorption rate as well as the supporting rate of the functional raw material are lowered.

In the processing step (S300), the pulverized super absorbent polymer is coated or impregnated with a functional raw material to impart functionality.

The functional raw material may include any one of a fragrance, an antibacterial agent, a deodorant, or a combination thereof.

The fragrances include lavender, cypress, black cherry, vanilla, rosehip, jojoba, tea tree, coconut, calendula, canola, bergamot, chamomile, eucalyptus, geranium, jasmine, grapefruit, lemon, lemongrass, orange, peppermint, pine, thyme, It may be essential oils and extracts including sandalwood, rosewood, frankincense, or a combination thereof, and is not limited thereto as long as it has a fragrance while being harmless to the human body and the environment.

The antibacterial agent may include any one of pectin decomposition product, bran tea extract, green tea extract, chitosan, iris protein extract, organic acid, polylysine, or a combination thereof, but if it is harmless to the human body and the environment and has antibacterial properties, it is not limited thereto not.

The deodorant may include activated carbon, zeolite, or silica gel.

The functional raw material may be provided in the form of a liquid or dispersion, and may be an extract containing the functional raw material component or a dispersion in which the functional raw material powder is dispersed in a solvent.

In the processing step (S300), functionality can be imparted by immersing the superabsorbent polymer in the extract and dispersion containing the functional raw material, or by spraying the extract and dispersion onto the superabsorbent polymer, and an additional drying process is performed after immersion and spraying. and the moisture content during drying may be controlled to 5 to 20 wt%.

The method for manufacturing the moisture remover for clothes obtained by recycling the superabsorbent polymer according to the present invention may further include a packaging step of accommodating the processed superabsorbent polymer in the receiving material after the processing step (S300).

The receiving material is not limited as long as it is a material having air permeability, and preferably, a material having air permeability, absorbing moisture on one side and waterproof property on the other side may be used. can

After accommodating the processed superabsorbent resin in the receiving material, the injection part or the open part may be thermocompressed to seal the injection part, and in this case, the thermocompression bonding temperature may be controlled to 120 to 150°C.

Hereinafter, a clothing dehumidifier obtained by recycling the superabsorbent polymer according to the present invention will be described.

The clothes dehumidifier recycled from the superabsorbent polymer according to the present invention is coated or impregnated with a functional raw material after drying and pulverizing the impregnated superabsorbent polymer raw material .

The super absorbent polymer (Super Absorbent Polymer, SAP) is polyacrylic acid (Polyacrylic acid), polymethacrylic acid (Polymethacrylic acid), polyacryl amide (Polyacryl amide), polyethylene oxide (Polyethyleneoxide), polyvinyl alcohol (Polyvinyl alcohol), Gelatin, polysaccharides (Polysaccarides), cellulose-based (Podium carboxylmehtyl cellulose), chitosan (Chitosan) and any one of a combination thereof may be used, but is not limited thereto. Preferably, sodium polyacrylate can be used.

The superabsorbent polymer raw material can be obtained from ice packs, ice duvets, ice cushions, supplements in medical and non-medical poultice packs, soil repair materials, desert greening materials, building admixtures, sanitary napkins, supplements for hygiene products such as diapers, etc. It is not limited thereto as long as it contains used and moistened superabsorbent resin, but preferably, it is preferable to use a replenishing material in an ice pack or a steam pack with a low degree of contamination.

The used and moistened superabsorbent polymer raw material is dried, and the processability and moisture absorption rate can be increased by evaporating moisture. method can be used.

In this case, natural drying may be performed at 20 to 30° C. for 24 to 72 hours, and high temperature drying may be performed at 70 to 300° C. for 3 to 24 hours. Preferably, a natural drying method capable of minimizing physical property denaturation, chemical oxidation and discoloration may be used.

When drying, the moisture content can be controlled to be 5 to 20 wt%. If the moisture content is less than 5 wt%, the surface of the superabsorbent polymer is too solidified, making it difficult to penetrate the functional raw material in the processing process, which is a post-process, and the moisture content is 20 If it exceeds wt%, it retains excess moisture, which lowers the moisture absorption rate of the clothing dehumidifier, and makes it difficult to achieve uniform grinding in the grinding process, which is a post-process, due to moisture. Since it may be difficult to uniformly apply and impregnate it, it is preferable to dry it so as not to deviate from the above moisture content range.

The dried super absorbent polymer is pulverized to a uniform size, and the dried super absorbent polymer of non-uniform size is ground uniformly using a pulverizing device to enable uniform application and impregnation of functional raw materials in the post-processing process. do.

As the grinding method, any one of a ball mill, a roller, a grinding method, or a combination thereof may be used.

Average particle size when grinding It can be processed to have a size of 1 to 500 μm, but if the pulverization size is less than 1 μm, agglomeration occurs rather than the specific surface area, so that the supporting properties of the functional raw material are poor. It is preferable to pulverize it so as not to deviate from the above average particle size because it becomes smaller and thus the water absorption rate as well as the supporting rate of the functional raw material are lowered.

The pulverized superabsorbent polymer is coated or impregnated with a functional raw material to impart functionality, and the functional raw material may include any one of a fragrance, an antibacterial agent, a deodorant, or a combination thereof.

The fragrances include lavender, cypress, black cherry, vanilla, rosehip, jojoba, tea tree, coconut, calendula, canola, bergamot, chamomile, eucalyptus, geranium, jasmine, grapefruit, lemon, lemongrass, orange, peppermint, pine, thyme, It may be essential oils and extracts including sandalwood, rosewood, frankincense, or a combination thereof, and is not limited thereto as long as it has a fragrance while being harmless to the human body and the environment.

The antibacterial agent may include any one of a pectin decomposition product, bran tea extract, green tea extract, chitosan, iris protein extract, organic acid, polylysine, or a combination thereof, but if it is harmless to the human body and the environment and has antibacterial properties, it is not limited thereto not.

The deodorant may include activated carbon, zeolite, or silica gel.

The functional raw material may be provided in the form of a liquid or dispersion, and may be an extract containing the functional raw material component or a dispersion in which the functional raw material powder is dispersed in a solvent.

At this time, functionality can be imparted by immersing the superabsorbent polymer in the extract and dispersion containing the functional raw material, or by spraying the extract and dispersion onto the superabsorbent polymer, and an additional drying process can be performed after immersion and spraying, and drying The water content can be controlled from 5 to 20 wt%.

The clothes dehumidifier obtained by recycling the superabsorbent polymer according to the present invention may be provided in a form accommodated in an accommodating material, and the accommodating material is not limited as long as it is a breathable material. It absorbs water and can use a material having waterproof properties on the other side, and as a specific example, Tyvek manufactured by Dupon can be used.

After accommodating the processed superabsorbent resin in the receiving material, the injection part or the open part may be thermocompressed to seal the injection part, and in this case, the thermocompression bonding temperature may be controlled to 120 to 150°C.

The clothing dehumidifier obtained by recycling the superabsorbent polymer according to the present invention may be applied to products such as a wardrobe dehumidifier and shoe insole, and may be applied to other hygiene products, agricultural products, medical supplies, and building materials. In addition, it can be applied without limitation if it is a field requiring moisture absorption and moisture retention characteristics.

As described above, the present invention has been mainly described with reference to the accompanying drawings, but those of ordinary skill in the art to which the present invention pertains within the scope not departing from the technical spirit and scope described in the claims of the present invention. Various modifications or variations of the present invention can be practiced. Accordingly, the scope of the present invention should be construed by the appended claims including examples of many such modifications.

Claims (4)

A drying step (S100) of drying the impregnated superabsorbent polymer raw material; and
A grinding step (S200) of pulverizing the dried super absorbent polymer; and
It characterized in that it comprises a processing step (S300) of coating or impregnating the superabsorbent polymer pulverized as a functional raw material.
A method of manufacturing a clothing dehumidifier using recycled superabsorbent polymer.
The method of claim 1,
The functional raw material is
A fragrance, an antibacterial agent, a deodorant, or any one of a combination thereof
A method of manufacturing a clothing dehumidifier using recycled superabsorbent polymer.
Characterized in that the impregnated superabsorbent polymer raw material is dried and pulverized and then coated or impregnated with a functional raw material.
A clothing dehumidifier made from recycled superabsorbent polymer.
4. The method of claim 3,
The functional raw material is
A fragrance, an antibacterial agent, a deodorant, or any one of a combination thereof
A clothing dehumidifier made from recycled superabsorbent polymer.

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