KR102298682B1 - Method of manufacturing antibacterial powder and chair manufactured by using the antibacterial powder - Google Patents

Abstract

The present invention provides a method of manufacturing antibacterial powder comprising the steps of: preparing an antibacterial extract by distilling an antibacterial plant; preparing ceramic powder made of minerals; mixing the antibacterial extract with the ceramic powder, and coating the antibacterial extract on the ceramic powder; and drying and pulverizing the coated ceramic powder to make it a fine powder. In addition, the antibacterial powder is introduced to provide an antibacterial chair with improved durability and semi-permanent antibacterial properties.

Description

Method of manufacturing antibacterial powder and antibacterial chair manufactured using the antibacterial powder

The present invention relates to a technology in the field of antibacterial materials, and more particularly, to an antibacterial powder applicable to a chair, and a technology for manufacturing a functional chair having antibacterial properties including the same.

Recently, various antibacterial materials have been developed, and various applications using these antibacterial materials are emerging. In most cases, as an antibacterial material in the form of a film, a product in which the film or the like is attached to the contact area of the human body is widely known.

However, antibacterial materials such as these antibacterial films do not have long-lasting antibacterial properties, so there is a problem in that the film needs to be replaced at regular intervals or the antibacterial properties are lost after long-term use.

On the other hand, in the case of a chair among the product groups where physical contact occurs frequently and needs to be used for a long time, antibacterial material has not been introduced yet, even though it is a product that has a long physical contact time and is used semi-permanently. In addition, when a conventional antibacterial material such as a film is simply applied to a chair, it is difficult to sustain durability and antibacterial power, so it is necessary to develop a specialized new antibacterial material that can be introduced into a chair.

An object of the present invention is to provide a method for manufacturing an antibacterial powder that can be applied as a part of a material for a chair and has excellent durability and antibacterial properties as an invention starting from the recognition of the above-mentioned necessity.

In addition, an object of the present invention is to provide an antibacterial chair having excellent durability and antibacterial durability by developing a chair material using the antibacterial powder produced by the above manufacturing method.

The method for producing an antimicrobial powder according to an embodiment of the present invention comprises the steps of preparing an antimicrobial extract by distilling an antimicrobial plant; Preparing a ceramic powder made of minerals; A coating step of mixing the antimicrobial extract with the ceramic powder, and coating the antimicrobial extract on the ceramic powder; and a powder step of drying and pulverizing the coated ceramic powder into a fine powder.

The distillation extraction may be repeated a plurality of times.

The ceramic powder is to pulverize the cooling body extracted by melting and cooling the basalt powder crushed by crushing the basalt under a temperature of 800° C. to 1000° C., which is less than the complete melting temperature.

As the antibacterial plant, antibacterial plants and herbal medicine plants such as garlic, onion, ginseng, and angelica may be used in various ways.

The antibacterial chair according to an embodiment of the present invention includes a member including the antibacterial powder manufactured by the above-described method in at least one region.

The member may include a synthetic fabric, and in this case, the fibers constituting the synthetic fabric may be prepared by melt-spinning a resin composition including a resin for synthetic fibers and the antibacterial powder.

In addition, the member may include a plastic material, and the material may be formed by injection molding a resin composition including a resin for plastic and the antibacterial powder.

Furthermore, the member may include a coating film formed by a coating solution containing the antibacterial powder. The coating film may be a coating film formed by the coating composition containing the antibacterial powder.

According to the manufacturing method of the antibacterial powder according to the present invention, it is possible to not only improve the durability of the applied material, but also semi-permanently support the antibacterial material, so that the antibacterial powder having very excellent lasting characteristics of antibacterial activity is possible.

The antibacterial chair including a member manufactured by using the antibacterial powder may include members of various shapes according to the material properties of various parts of the chair, and in particular, it can express excellent antibacterial properties in the body contact area. .

Furthermore, the antibacterial chair according to the present invention has excellent durability and weather resistance of the member applied to the body contact area, thereby maximizing the utility of the chair itself.

1 is a flowchart conceptually illustrating a method for manufacturing an antimicrobial powder according to an embodiment of the present invention.
2 is a perspective view showing an antibacterial chair according to an embodiment of the present invention.
3 is a perspective view showing an antibacterial chair according to another embodiment of the present invention.
4 is a perspective view showing an antibacterial chair according to another embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, a method for producing an antibacterial powder and an antibacterial chair manufactured using the antibacterial powder in an embodiment of the present invention will be described in detail. The following descriptions are exemplary descriptions for concretely explaining the technical idea of the present invention, and the technical idea of the present invention is not limited by the following description. It is natural that various embodiments other than the following description are possible, and the technical spirit of the present invention can only be interpreted and limited by the claims described below.

1 is a flowchart conceptually illustrating a method for manufacturing an antimicrobial powder according to an embodiment of the present invention.

Referring to Figure 1, the method (S100) of the antibacterial powder preparation step (S110), repeated extraction step (S120), ceramic powder preparation step (S130), antibacterial coating step (S140) and drying and grinding step (S150) ) is included.

First, in the extract preparation step (S110), the antibacterial extract is extracted from the antibacterial plant. The type of antibacterial plant is not particularly limited, and as an antibacterial plant, it may be prepared by including a plurality of plants known to contain an antimicrobial substance.

For example, as the antibacterial plant, plants such as garlic, onion, ginseng, and Angelica may be used.

As a method of obtaining an antibacterial extract from the antimicrobial plant, in this embodiment a distillation extraction method is used. That is, it is a method of collecting steam generated by heating an antibacterial plant under a solvent such as distilled water.

The collected vapor is collected and repeated extraction step (S120) is performed through repeated distillation extraction steps. Repeatedly performing the distillation extraction step in this way is to increase the concentration of the antibacterial extract. Although there is no particular limitation on the number of times, it is preferable to determine the number of repetitions in consideration of the workability (viscosity, etc.) of the antibacterial coating step (S140) to be described later.

When the repeated extraction step (S120) is completed, a step (S130) of preparing a ceramic powder to be supported by coating the prepared antibacterial extract is performed.

The ceramic powder may include mineral particles, and in this embodiment, ceramic powder derived from basalt is used. Hereinafter, the ceramic powder to be coated will be described in detail.

As described above, the ceramic powder is extracted from basalt. The powder is a mineral component extracted by crushing basalt to remove impurities, melting the crushed basalt powder in a relatively low temperature environment of 800 to 1000° C. rather than a temperature of 1400° C. or higher, which is a typical complete melting temperature, and cooling to room temperature. In the melting step, sulfur, an acidic solution, etc. may be added. The cooling body of the melt can be used as the ceramic powder of this embodiment by being pulverized.

The melting temperature condition or whether an additive is added may be varied so that the composition of the ceramic powder has the following composition. The ceramic powder is a test result (Korea Institute of Materials Science) SiO ₂ 100 parts by weight; Al ₂ O ₃ 25 to 32 parts by weight; 18 to 22 parts by weight of CaO; 18 to 22 parts by weight of MgO; Fe ₂ O ₃ 18 to 22 parts by weight; and metal components such as Ti, Y, La, Ce and Nd.

Table 1 below is a table illustrating the composition of the ceramic powder.

SiO ₂ Al ₂ O ₃ CaO MgO Fe ₂ O ₃ Ti Y La Ca Nd bal 15.33 10.19 10.07 10.18 1.19 0.0043 0.0095 0.0131 0.0071

The ceramic powder has a scratch strength of at least 9.0H and a Mohs hardness of at least 7.3 when directly melt-coated on the surface of the base material, and can form a coating film without peeling and breaking phenomena under a temperature of 500°C and -70°C, respectively. It is a powder with physical properties. In addition, it was confirmed to have excellent antibacterial properties. In this embodiment, the ceramic powder not only functions as a carrier to support the antibacterial extract component, but also has excellent antibacterial properties by itself and further functions as a material for improving physical properties that significantly improves the durability and weather resistance of the antibacterial chair component material.

As a result of various evaluations, it was confirmed that the powdered basalt powder by firing to the melting point has weakened antibacterial properties and durability (abrasion resistance), and when heat-treated at 800 to 1000° C. as described above, antibacterial properties and mechanical properties are maximized. .

When the ceramic powder is prepared as above, an antibacterial coating step (S140) of coating the prepared ceramic powder with an antibacterial extract is performed.

The coating method is not particularly limited. For example, the antibacterial coating step 140 may be made by mixing the ceramic powder and the antibacterial extract. In addition, the antibacterial coating step 140, in some cases, impregnating the ceramic powder in the antibacterial extract, or may be made by spraying the antibacterial extract to the ceramic powder.

As described above, the ceramic powder coated by the antibacterial coating step (S140) is dried and pulverized (S150). In the grinding step after drying, the antibacterial-ceramic powder is finely pulverized to have a predetermined average particle size. The degree of powdering may be variably changed according to the shape or processing method of the material or member to which the antibacterial-ceramic powder is applied.

Antibacterial powder according to an embodiment of the present invention can be prepared by the above method.

The method for applying the antibacterial powder as a member of the antibacterial chair is as follows.

[synthetic fabric]

In the case of a fabric member formed by weaving synthetic fibers, the antibacterial powder may be applied to the fabric by composing a resin and antibacterial powder for synthetic fibers constituting the fabric, and preparing a yarn by melt spinning. It is self-evident that various types of resins for synthetic fibers constituting the fabric may be used in consideration of the functionality of the chair.

[plastic]

When the part of the antibacterial chair is plastic, the plastic member may be manufactured by first preparing a resin composition including a resin for plastic and an antibacterial powder, melting the composition and injection molding the composition. The melting temperature needs to be controlled below the melting point of the ceramic powder constituting the antimicrobial powder.

[coating film]

When the part of the antibacterial chair is wood or metal, a coating film may be formed on the surface of the part by using the coating solution containing the antibacterial powder. In the case of the above-mentioned fabric, in some cases, a method of forming a coating film by impregnating the fabric after weaving in the coating solution is also possible.

On the other hand, the coating solution includes a coating composition comprising an antibacterial powder. That is, the antibacterial powder may be mixed with the paint composition used in the paint process of the antibacterial chair.

As described above, the antibacterial powder can be applied in various ways in consideration of the material type or characteristics of the parts constituting the antibacterial chair.

Hereinafter, an antibacterial chair to which a component including an antibacterial powder is applied will be exemplified.

2 is a perspective view showing an antibacterial chair according to an embodiment of the present invention.

In the antibacterial chair 200 according to the present embodiment, the chair parts are integrated as a whole. In the case of the integrated antibacterial chair 200, when the chair material is plastic, the entire material of the antibacterial chair 200 can be antibacterialized through injection molding of the resin composition including the antibacterial powder as described above.

If the antibacterial chair 200 is a material integrated with metal or wood, an antibacterial coating film may be formed on the surface of the metal or wood material by forming a coating film including the antibacterial powder in the paint composition. The 'integration' means that the antibacterial chair 200 is made of the same material, and the antibacterial chair 200 may include connection parts that are not partially integrated but are not exposed.

3 is a perspective view showing an antibacterial chair according to another embodiment of the present invention.

The antibacterial chair 300 according to this embodiment is a chair including different materials, and in this embodiment, the antibacterial chair 300 includes a body 320 including a backrest and a seating part, and an armrest 310 except for legs. may contain antibacterial material. The armrest 310 may be applied with antibacterial powder in various ways according to the type of the intended armrest material as described above.

4 is a perspective view showing an antibacterial chair according to another embodiment of the present invention.

The antibacterial chair 400 of this embodiment is also a chair including different materials, and a body 440 including an armrest 410, an armrest support part 420, a chair adjustment part 430, and a back seat part, a headrest, etc. includes

For example, when the armrest 410 and the chair adjusting unit 430 are made of a plastic material, the armrest support unit 420 is made of a metal material, and the body 440 is made of a fabric, antibacterial powder can be applied to only some of these elements. In addition, when applying the antimicrobial powder to all elements or a plurality of elements, the above-described application method may be used according to the characteristics of each material.

For example, the armrest 410 and the chair control unit 430 may be formed by injection molding of a resin composition including an antibacterial powder. In addition, the armrest support 420 made of a metal material is coated with a coating composition containing an antibacterial powder or a coating film is formed with a transparent antibacterial powder coating solution, whereby antibacterial properties can be added to the surface of the armrest support 420 .

On the other hand, as described above, the body 440 made of fabric applies antibacterial powder in the yarn step, or is made of fabric and then forms a coating film by impregnation, etc. to add antibacterial properties to the surface of the body 440 . can

As described above, the antibacterial chairs 200 , 300 , and 400 of the present invention not only introduce antibacterial properties to the body contact area, but also semi-permanently maintain antibacterial properties. In addition, durability is improved by the ceramic powder, and damage such as shape deformation or color change can be significantly suppressed.

Claims (9)

Preparing an antimicrobial extract by distilling the antimicrobial plant;
The basalt powder crushed by crushing the basalt is melted under a temperature of 800 ° C to 1000 ° C, which is less than the complete melting temperature, and cooled to pulverize the extracted cooling body,
SiO ₂ 100 parts by weight; Al ₂ O ₃ 25 to 32 parts by weight; 18 to 22 parts by weight of CaO; 18 to 22 parts by weight of MgO; Preparing a ceramic powder containing 18 to 22 parts by weight of Fe ₂ O _3;
A coating step of mixing the antimicrobial extract with the ceramic powder, and coating the antimicrobial extract on the ceramic powder;
Drying and pulverizing the coated ceramic powder to prepare an antimicrobial powder into a fine powder;
preparing an antimicrobial member comprising the antimicrobial powder; and
Including the step of manufacturing a chair to include the antimicrobial member in at least one area,
A method for manufacturing an antibacterial chair.
According to claim 1,
The method of manufacturing an antibacterial chair, characterized in that the distillation extraction is repeated a plurality of times.
delete According to claim 1,
The antibacterial plant,
A method of manufacturing an antibacterial chair comprising at least one plant selected from the group consisting of garlic, onion, ginseng and Angelica.
delete According to claim 1,
The antimicrobial member comprises a synthetic fabric,
The fiber constituting the synthetic fabric is a method of manufacturing an antibacterial chair, characterized in that it is manufactured by melt spinning a resin composition for synthetic fibers and a resin composition comprising the antibacterial powder.
According to claim 1,
The antibacterial member is a method of manufacturing an antibacterial chair, characterized in that it is formed by injection molding a resin composition comprising a resin for plastic and the antibacterial powder.
According to claim 1,
The antibacterial member is a method of manufacturing an antibacterial chair, characterized in that it comprises a coating film formed by the coating solution containing the antibacterial powder.
9. The method of claim 8,
The method of manufacturing an antibacterial chair, characterized in that the coating film is a coating film formed by the coating composition containing the antibacterial powder.

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