KR102466343B1 - The manufacturing method of thermal insulation material to use waste disposable mask - Google Patents

Abstract

The present invention relates to a preparation method of a thermal insulation material using a waste disposable mask and, more specifically, to a preparation method of a thermal insulation material using a waste disposable mask, which uses a waste disposable mask discarded after used to prepare a thermal insulation material, thereby solving a problem of environmental pollution and ensuring economic efficiency. The preparation method of the present invention comprises: a step (a) of sterilizing collected waste disposable masks; a step (b) of cleaning the sterilized waste disposable masks; a step (c) of drying the cleaned waste disposable masks; a step (d) of cutting the dried waste disposable masks into pieces; a step (e) of distributing the cut pieces of the waste disposable masks to an upper part of lower non-woven fabric; a step (f) of spraying an adhesive to the pieces of the waste disposable masks distributed to the lower non-woven fabric; a step (g) of covering an upper part of the pieces of the waste disposable masks, where the adhesive is sprayed, with upper non-woven fabric; and a step (h) of compressing the pieces of the waste disposable masks distributed between the lower non-woven fabric and the upper non-woven fabric, and the upper non-woven fabric covering the upper part of the waste disposable masks to make the same adhere to each other.

Description

Insulation manufacturing method using disposable waste mask {THE MANUFACTURING METHOD OF THERMAL INSULATION MATERIAL TO USE WASTE DISPOSABLE MASK}

The present invention relates to a method for manufacturing a thermal insulation material using a disposable waste mask, and more particularly, to a disposable waste mask capable of solving environmental pollution problems and securing economic feasibility by manufacturing a thermal insulation material using a disposable waste mask that is discarded after use. It relates to a method for manufacturing a thermal insulation material.

Currently, disposable masks are widely used due to yellow dust caused by desertification of the earth and fine dust generated by industrial environments. In recent years, the outbreak of COVID-19 has resulted in more disposable masks being used and discarded worldwide. Disposable masks are now being thrown away as much as they are made, so the disposal of disposable masks is becoming a social issue. In the case of conventional disposable masks, they were treated in the same way as general waste disposal, such as landfill and incineration. However, due to the recent outbreak of COVID-19, a large amount of disposable masks are being discarded along with general garbage, and are also used in many places. There are also quite a lot of disposable masks that are discarded and discarded, and there are many cases in which animals die or suffer from getting caught in the earring string of the mask.

In addition, since the social costs derived from the method for processing disposable masks also account for a large part, a solution for this is needed. Even in the case of incineration, there is room for various environmental pollution, and in the case of landfill, it is estimated that it will take 300 to 400 years for polypropylene and the like to be completely decomposed, so a solution through recycling is required.

Various studies and attempts have been made to recycle waste masks, but since discarded disposable masks are composed of various materials (eg, aluminum, polyurethane, polypropylene, polyethylene, polyester, etc.) It is quite difficult to extract, and the economic feasibility of extraction is not secured, so it is treated by methods such as incineration rather than recycling.

Therefore, there is a need for a method of recycling disposable waste masks to prevent environmental pollution and using them as new renewable materials that can be reused.

Registered Patent Publication No. 10-1941264 (registered on January 16, 2019) Registered Patent Publication No. 10-2073899 (2020.01.30. Registration) Registered Patent Publication No. 10-2137990 (registered on July 21, 2020) Publication No. 10-2020-0090663 (published on July 29, 2020)

Therefore, the present invention has been made to solve the above-mentioned problems of the prior art, and provides a method for manufacturing a heat insulating material using a disposable waste mask that can be used as a heat insulating material by recycling a disposable waste mask.

In addition, the present invention is to provide a method for manufacturing a thermal insulation material using a disposable waste mask that can be used as a substitute for an existing product capable of maintaining the same thermal insulation characteristics as the existing thermal insulation material by recycling the waste mask.

In addition, the present invention is to provide a method for manufacturing a heat insulating material using a disposable waste mask that can minimize processes such as various separation, removal, and classification required to recycle the waste mask.

In order to achieve the above object, the present invention includes (a) sterilizing and washing the collected disposable waste masks; (b) drying the sterilized and washed disposable waste mask; (c) cutting the dried disposable waste mask into pieces; (d) distributing and distributing the cut disposable waste mask pieces on top of the lower nonwoven fabric; (e) spraying adhesive on the disposable waste mask pieces distributed on top of the lower nonwoven fabric; (f) covering the top of the disposable waste mask pieces to which the adhesive is sprayed with an upper nonwoven fabric; and (g) producing a heat insulating material by compressing and attaching the lower nonwoven fabric and the disposable waste mask pieces dispersed in the lower nonwoven fabric and the upper nonwoven fabric covering the top of the disposable waste mask to each other. Provided is a method for manufacturing a heat insulating material using a waste mask.

In addition, the present invention in order to achieve the above object, (a) sterilizing and washing the collected disposable waste mask; (b) drying the sterilized and washed disposable waste mask; (c) cutting the dried disposable waste mask into pieces; (d) separating the aluminum pieces and the waste nonwoven fabric pieces included in the piece-shaped waste mask by centrifuging the cut disposable waste mask pieces; (e) distributing and distributing the waste nonwoven fabric pieces separated from the aluminum on top of the lower nonwoven fabric that is constantly supplied; (f) spraying an adhesive to the waste nonwoven fabric pieces distributed and distributed on top of the lower nonwoven fabric; (g) covering the waste nonwoven fabric pieces to which the adhesive is sprayed with an upper nonwoven fabric that is constantly supplied; and (h) producing an insulating material by compressing and attaching the lower nonwoven fabric and the waste nonwoven fabric pieces distributed to the lower nonwoven fabric and the upper nonwoven fabric covering the upper part of the waste nonwoven fabric to each other to produce a heat insulating material. A method for manufacturing a heat insulating material using a mask is provided.

Sterilization in step (a) of the present invention is characterized in that the waste mask is sterilized by impregnating the sodium hypochlorite solution.

In the present invention, the lower non-woven fabric and the upper non-woven fabric are supplied through supply rolls, and the insulation material is wound through a take-up roll, and the insulation material is obtained by increasing or decreasing the rotation speed of the supply roll of the lower non-woven fabric and the rotation speed of the supply roll of the upper non-woven fabric. It is characterized in that the thickness control is made.

In the present invention, the lower non-woven fabric and the upper non-woven fabric are supplied through a supply roll, and the insulating material is wound through a take-up roll, and the insulating material is a piece of disposable waste mask put into the lower non-woven fabric by repeating steps (d) and (e). It is characterized in that the thickness is controlled by the amount of them.

In the present invention, the lower non-woven fabric and the upper non-woven fabric are supplied through supply rolls, and the insulating material is wound through a take-up roll, and the insulating material is adjusted according to the amount of non-woven fabric pieces introduced into the lower non-woven fabric by repeating steps (e) and (f). It is characterized in that the thickness is controlled by.

In the present invention, step (g) is characterized in that the upper nonwoven fabric, the disposable waste mask pieces, and the lower nonwoven fabric are compressed and attached to each other by passing between a pair of compression rollers.

In the present invention, step (h) is characterized in that the upper nonwoven fabric, the waste nonwoven fabric pieces, and the lower nonwoven fabric are compressed and attached to each other by passing between a pair of compression rollers.

The present invention has an effect of preventing environmental pollution due to the waste mask because the disposable waste mask can be recycled and used as a heat insulating material.

In addition, the present invention has the advantage that it can be used as a substitute for existing products that can maintain the same thermal insulation properties as existing thermal insulation materials by recycling waste masks.

In addition, the present invention has the advantage of being able to recycle resources at low cost because it can minimize processes such as various separation, removal, and classification required for recycling waste masks.

In addition, the present invention has the advantage that the manufacturing process is simple and additional labor is not involved because the waste mask is used as it is without separating it by component.

1 is a flow chart of a first embodiment of a method for manufacturing an insulating material using a disposable waste mask according to the present invention.
2 is a flow chart of a second embodiment of a method for manufacturing an insulating material using a disposable waste mask according to the present invention.
3 is a block diagram of a first embodiment of a method for manufacturing an insulating material using a disposable waste mask according to the present invention.
4 is a block diagram of a second embodiment of a method for manufacturing a heat insulating material using a disposable waste mask according to the present invention.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings, which is intended to be described in detail so that those skilled in the art can easily practice the invention, This is not meant to limit the technical spirit and scope of the present invention.

1 is a flowchart of a first embodiment of a method for manufacturing a heat insulating material using a disposable waste mask according to the present invention, FIG. 2 is a flowchart of a second embodiment of a method for manufacturing a heat insulating material using a disposable waste mask according to the present invention, and FIG. It is a configuration diagram of a first embodiment of a method for manufacturing a thermal insulation material using a disposable waste mask according to the present invention, and FIG. 4 is a configuration diagram of a second embodiment of a method for manufacturing a thermal insulation material using a disposable waste mask according to the present invention.

1 and 2 are a flowchart and a configuration diagram of a first embodiment of a method for manufacturing a heat insulating material using a disposable waste mask according to the present invention. As shown in FIG. 1, the method for manufacturing a heat insulating material using a disposable waste mask includes (a) sterilizing and washing the collected disposable waste masks (S1), and (b) drying the sterilized and washed disposable waste masks. (S2), (c) cutting the dried disposable waste mask into pieces (S3), and (d) dispersing and distributing the cut disposable waste mask pieces on top of the lower nonwoven fabric (S4). ), (e) spraying adhesive on the disposable waste mask pieces dispersed and distributed on top of the lower nonwoven fabric (S5), and (f) covering the upper portion of the disposable waste mask pieces on which the adhesive is sprayed with an upper nonwoven fabric (S6) and (g) compressing the lower nonwoven fabric and the disposable waste mask pieces dispersed in the lower nonwoven fabric and the upper nonwoven fabric covering the top of the disposable mask and attaching them to each other to produce a heat insulating material (S7 ) is made up of Each step will be described in detail with reference to FIG. 3 .

First, the waste mask 100 is collected and the collected waste mask is sterilized (S1). Usually, the waste mask is discarded after use, and in the collection process, bacteria or viruses may propagate along with various impurities, so it undergoes a sterilization step. Sterilization can use various disinfectants, and in the present invention, sodium hypochlorite (NaHCl) solution is used for sterilization. In the method of sterilization, sodium hypochlorite solution is put into the water tank 10, and then the waste mask 100 is immersed to sterilize and wash. The waste mask 100 is sterilized and washed in order to remove various foreign substances, impurities, and bacteria or viruses remaining in the waste mask 100 through the sterilization and washing process. After sterilization and washing, the waste mask can be washed with running water or washed and dehydrated using a washing machine to clean the waste mask.

Next, a step (S2) of drying the sterilized and washed waste mask 100 is performed. This is to remove moisture remaining after washing the waste mask 100. Drying may be performed using a hot air dryer 20 or the like.

Next, the dried waste mask 100 is cut into pieces (S3). A step of cutting the waste mask into small pieces to be inserted between the upper and lower nonwoven fabrics is performed. The piece shape can be cut with a shredder 30 such as a paper shredder to be cut into pieces having a certain width and length, or the waste mask can be cut into a certain shape or irregular shape by cutting the waste mask using a plurality of cutters. When the cutting of the waste mask 100 is completed, the waste mask piece 110 is put into the next process.

Next, a step (S4) of distributing and distributing the cut disposable waste mask pieces 110 on top of the lower nonwoven fabric 200 is performed. The disposable waste mask pieces 110 formed by cutting the waste mask 100 are transferred to the waste mask piece supply device 50 in the form of a silo through a moving means such as a conveyor 40. Inside the waste mask piece supply device 50, a screw 51 is formed inside so that the waste mask pieces 110 are transported to the lower portion, and the lower portion is transported roll-to-roll through the nozzle 52 by rotation of the screw 51 It is supplied to the upper surface of the nonwoven fabric 200. The waste mask pieces 110 are distributed while being supplied to the top of the lower nonwoven fabric 200 through the nozzle 52.

Next, a step (S5) of spraying an adhesive on the disposable waste mask pieces distributed on the lower nonwoven fabric 200 is performed. The lower nonwoven fabric 200 is supplied through a supply roll 71, and disposable waste mask pieces are distributed and distributed on top of the supplied lower nonwoven fabric 200. The adhesive 61 is sprayed on the distributed and distributed waste mask pieces 110. The adhesive 61 is sprayed through the nozzle of the adhesive application device 60. The sprayed adhesive 61 is preferably evenly sprayed so that the waste mask pieces 110 can be compressed and attached to each other. As the lower nonwoven fabric 200 is transported, the waste mask pieces 110 are transported together.

Next, the top of the disposable waste mask pieces 110 to which the adhesive 61 is sprayed is covered with the upper nonwoven fabric 300 (S6). The upper nonwoven fabric 300 is supplied through the supply roll 72, and the disposable waste mask pieces 110 are wrapped up and down with the lower nonwoven fabric 200 and the upper nonwoven fabric 300 to supply to the compression roller 74 to be.

Next, the lower nonwoven fabric 200, the disposable waste mask pieces 110 dispersed in the lower nonwoven fabric 200, and the upper nonwoven fabric 300 covering the top of the disposable waste mask piece 110 are compressed and attached to each other. to produce the insulating material 400 (S7). The lower nonwoven fabric 200, the upper nonwoven fabric 300, and the disposable waste mask pieces 110 are compressed and attached to each other while passing through the compression roller 74. When compressed and attached, the insulating material 400 is formed, and a hot air dryer (not shown) may be input to dry the adhesive 61 and the like in the insulating material 400 . The insulation material 400 produced through the compression roller 74 is wound up through the winding roll 73, and manufacturing is completed in the form of a roll.

The thickness of the insulating material 400 may be adjusted while adjusting the speed of the supply roll 71 supplying the lower nonwoven fabric 200 . That is, when the conveying speed of the lower nonwoven fabric 200 supplied from the supply roll 71 is fast, the amount of waste mask pieces 110 dispersed and distributed in the lower nonwoven fabric 200 is reduced, so the thickness of the insulating material is thinned, and the lower nonwoven fabric 200 ) is slow, the amount of waste mask pieces 110 dispersed and distributed in the lower nonwoven fabric 200 increases, so that the thickness of the insulating material becomes thick.

In addition, the thickness of the insulating material 400 may be adjusted by increasing the amount of the waste mask pieces 110 distributed in the lower nonwoven fabric 200. That is, the lower nonwoven fabric 200 is supplied at a constant speed, a plurality of waste mask piece supply devices 50 and adhesive application devices 60 are provided, and the thickness of the insulating material is controlled by supplying the waste mask pieces 110. can

The supply roll 71 of the lower nonwoven fabric 200 is turned at a certain angle through the direction changing roll 711 and transferred horizontally, and the supply roll 72 of the upper nonwoven fabric 300 rotates the direction changing roll 721 Through it, the direction is changed at a certain angle and transported horizontally.

2 and 4 are flowcharts and configuration diagrams of a second embodiment of a method for manufacturing a heat insulating material using a disposable waste mask according to the present invention. As shown in FIG. 2, the method for manufacturing a heat insulating material using a disposable waste mask includes (a) sterilizing and washing the collected disposable waste mask (S1'), and (b) drying the washed disposable waste mask. (S2'), (c) cutting the dried disposable waste mask into pieces (S3'), and (d) centrifuging the cut disposable waste mask pieces to form a piece of waste mask. Separating the included aluminum pieces and waste nonwoven fabric pieces (S4'), (e) distributing and distributing the aluminum and separated waste nonwoven fabric pieces on top of the lower nonwoven fabric that is constantly supplied (S5'), (f) spraying adhesive on the waste nonwoven fabric pieces distributed and distributed on top of the lower nonwoven fabric (S6′), and (g) covering with the upper nonwoven fabric that is constantly supplied to the upper portion of the adhesive-sprayed waste nonwoven fabric pieces. Step (S7') and (h) pressing and attaching the lower nonwoven fabric and the waste nonwoven fabric pieces distributed to the lower nonwoven fabric and the upper nonwoven fabric covering the upper part of the waste nonwoven fabric to each other to produce a heat insulating material (S8 ') is made up of Each step will be described in detail with reference to FIG. 4 .

First, the waste mask 100 is collected, and the collected waste mask is sterilized and washed (S1'). Typically, the waste mask 100 is discarded after use, and undergoes a sterilization step because bacteria or viruses may propagate along with various impurities during the collection process. Sterilization can use various disinfectants, and in the present invention, sodium hypochlorite (NaHCl) solution is used for sterilization. In the method of sterilization, sodium hypochlorite solution is put into the water tank 10, and then the waste mask 100 is immersed to sterilize and wash. The waste mask 100 is sterilized and washed in order to remove various foreign substances, impurities, and bacteria or viruses remaining in the waste mask 100 through the sterilization and washing process. After sterilization and washing, the waste mask can be washed with running water or washed and dehydrated using a washing machine to clean the waste mask.

Next, the sterilized and washed waste mask 100 is dried (S2'). This is to remove moisture remaining after washing the waste mask 100. Drying may be performed using a hot air dryer 20 or the like.

Next, the dried waste mask 100 is cut into pieces (S3'). A step of cutting the waste mask into small pieces to be inserted between the upper and lower nonwoven fabrics is performed. The piece shape can be cut with a shredder 30 such as a paper shredder to be cut into pieces having a certain width and length, or the waste mask can be cut into a certain shape or irregular shape by cutting the waste mask using a plurality of cutters. When the cutting of the waste mask 100 is completed, the waste mask piece 110 is put into the next process. The cut pieces of the waste mask 110 are supplied to the centrifuge 80 through conveying equipment such as the conveyor 40.

Next, the cut disposable waste mask pieces 110 are centrifuged to separate the aluminum pieces and the waste nonwoven fabric pieces included in the piece-shaped waste mask (S4'). When the disposable waste mask piece 110 is cut, aluminum pieces exist together with the nonwoven fabric piece. A centrifugal separator 80 is used to separate them since there are two different types of materials. When the waste mask pieces 110 are separated using the centrifugal separator 80, heavy aluminum particles descend to the bottom and accumulate, and waste nonwoven fabric pieces accumulate on top of the aluminum particles. The aluminum pieces 130 are supplied to the aluminum discharge equipment 83 through the aluminum discharge nozzle 82 at the bottom to be separately processed, and the waste nonwoven fabric pieces 120 pass through the waste nonwoven discharge nozzle 81 to the waste nonwoven fabric piece supply device. (50).

Next, a step (S5') of dispersing and distributing the centrifuged waste nonwoven fabric pieces 120 on top of the lower nonwoven fabric 200 is performed. A screw 51 is formed inside the waste nonwoven fabric piece supply device 50 so that the waste nonwoven fabric piece 120 is transported to the lower portion, and the bottom portion is transported roll-to-roll through the nozzle 52 by rotation of the screw 51. It is supplied to the upper surface of the nonwoven fabric 200. The waste nonwoven fabric pieces 120 are distributed while being supplied to the top of the lower nonwoven fabric 200 through the nozzle 52.

Next, an adhesive is sprayed on the waste nonwoven fabric pieces 120 dispersed and distributed on the lower nonwoven fabric 200 (S6'). The lower nonwoven fabric 200 is supplied through the supply roll 71, and the waste nonwoven fabric pieces 120 are distributed and distributed on top of the supplied lower nonwoven fabric 200. The adhesive 61 is sprayed on the distributed nonwoven pieces 120 . The adhesive 61 is sprayed through the nozzle of the adhesive application device 60. The sprayed adhesive 61 is preferably evenly sprayed so that the waste nonwoven fabric pieces 120 can be compressed and attached to each other. As the lower nonwoven fabric 200 is transported, the waste nonwoven fabric pieces 120 are transported together.

Next, the top of the waste nonwoven fabric pieces 120 to which the adhesive 61 is sprayed is covered with the upper nonwoven fabric 300 (S7′). The upper nonwoven fabric 300 is supplied through the supply roll 72, and the waste nonwoven fabric pieces 120 are supplied to the compression roller 74 while the lower nonwoven fabric 200 and the upper nonwoven fabric 300 are wrapped up and down. .

Next, the lower nonwoven fabric 200, the waste nonwoven fabric pieces 120 dispersed in the lower nonwoven fabric 200, and the upper nonwoven fabric 300 covering the upper part of the waste nonwoven fabric piece 120 are compressed and attached to each other to form an insulating material. It goes through a step (S8') of producing (400). The lower nonwoven fabric 200, the upper nonwoven fabric 300, and the closed nonwoven fabric pieces 120 are compressed and attached to each other while passing through the compression roller 74. When compressed and attached, the insulating material 400 is formed, and a hot air dryer (not shown) may be input to dry the adhesive 61 and the like in the insulating material 400 . The insulation material 400 produced through the compression roller 74 is wound up through the winding roll 73, and manufacturing is completed in the form of a roll.

The thickness of the insulating material 400 may be adjusted while adjusting the speed of the supply roll 71 supplying the lower nonwoven fabric 200 . That is, when the conveying speed of the lower nonwoven fabric 200 supplied from the supply roll 71 is fast, the amount of waste nonwoven fabric pieces 120 dispersed and distributed in the lower nonwoven fabric 200 is reduced, so the thickness of the insulating material is thinned, and the lower nonwoven fabric 200 ) is slow, the amount of waste nonwoven fabric pieces 120 dispersed and distributed in the lower nonwoven fabric 200 increases, so that the thickness of the insulating material becomes thick.

In addition, the thickness of the insulating material 400 may be adjusted by increasing the amount of waste nonwoven fabric pieces 120 distributed in the lower nonwoven fabric 200 . That is, by supplying the lower nonwoven fabric 200 at a constant speed, providing a plurality of waste nonwoven fabric piece supply devices 50 and adhesive application devices 60, and supplying the waste nonwoven fabric pieces 120, the thickness of the insulating material is controlled. can

The supply roll 71 of the lower nonwoven fabric 200 is turned at a certain angle through the direction changing roll 711 and transferred horizontally, and the supply roll 72 of the upper nonwoven fabric 300 rotates the direction changing roll 721 Through it, the direction is changed at a certain angle and transported horizontally.

Although several embodiments have been illustratively described above, the fact that the present invention can be embodied in many other forms without departing from its spirit and scope is apparent to those skilled in the art. Accordingly, the above-described embodiments are to be regarded as illustrative rather than restrictive, and all implementations within the scope of the appended claims and their equivalents will be considered to be included within the scope of the present invention.

1, 1': Diagram of manufacturing method for insulating materials using disposable waste masks
10: water tank 11: sodium hypochlorite solution
20: hot air dryer 30: cutter
40: conveyor
50: Waste mask (or waste non-woven fabric) piece supply device
51: screw 52: nozzle
60: adhesive application device 61: adhesive
71: lower non-woven fabric supply roll 72: upper non-woven fabric supply roll
73: winding roll 74: compression roller
80: centrifugal separator 81: waste nonwoven fabric piece discharge nozzle
82: aluminum piece discharge nozzle 83: aluminum piece discharge device
100: waste mask 110: piece of waste mask
120: piece of waste nonwoven fabric 130: piece of aluminum
200: lower non-woven fabric 300: upper non-woven fabric
400: insulation

Claims (8)

(a) sterilizing and washing the collected disposable waste masks;
(b) drying the sterilized and washed disposable waste mask;
(c) cutting the dried disposable waste mask into pieces;
(d) distributing and distributing the cut disposable waste mask pieces on top of the lower nonwoven fabric;
(e) spraying adhesive on the disposable waste mask pieces distributed on top of the lower nonwoven fabric;
(f) covering the top of the disposable waste mask pieces to which the adhesive is sprayed with an upper nonwoven fabric; and
(g) producing an insulating material by compressing and attaching the lower nonwoven fabric and the disposable waste mask pieces dispersed in the lower nonwoven fabric and the upper nonwoven fabric covering the top of the disposable waste mask,
The lower nonwoven fabric and the upper nonwoven fabric are supplied through a supply roll, and the insulating material is wound through a take-up roll,
The method of manufacturing a heat insulating material using a disposable waste mask, characterized in that the thickness of the heat insulating material is adjusted by increasing or decreasing the rotational speed of the supply roll of the lower nonwoven fabric and the rotational speed of the supply roll of the upper nonwoven fabric.
(a) sterilizing and washing the collected disposable waste masks;
(b) drying the sterilized and washed disposable waste mask;
(c) cutting the dried disposable waste mask into pieces;
(d) separating the aluminum pieces and the waste nonwoven fabric pieces included in the piece-shaped waste mask by centrifuging the cut disposable waste mask pieces;
(e) distributing and distributing the waste nonwoven fabric pieces separated from the aluminum on top of the lower nonwoven fabric that is constantly supplied;
(f) spraying an adhesive to the waste nonwoven fabric pieces distributed and distributed on top of the lower nonwoven fabric;
(g) covering the waste nonwoven fabric pieces to which the adhesive is sprayed with an upper nonwoven fabric that is constantly supplied; and
(h) producing an insulating material by compressing and attaching the lower nonwoven fabric and the waste nonwoven fabric pieces distributed to the lower nonwoven fabric and the upper nonwoven fabric covering the upper portion of the waste nonwoven fabric to each other,
The lower nonwoven fabric and the upper nonwoven fabric are supplied through a supply roll, and the insulating material is wound through a take-up roll,
The insulating material is a method for manufacturing a heat insulating material using a disposable waste mask, characterized in that the thickness is adjusted by increasing or decreasing the rotational speed of the supply roll of the lower nonwoven fabric and the rotational speed of the supply roll of the upper nonwoven fabric.
According to claim 1 or 2,
The sterilization in step (a) is a method of manufacturing a heat insulating material using a disposable waste mask, characterized in that the waste mask is sterilized by impregnating the waste mask with sodium hypochlorite solution or by spraying sodium hypochlorite solution.
delete (a) sterilizing and washing the collected disposable waste masks;
(b) drying the sterilized and washed disposable waste mask;
(c) cutting the dried disposable waste mask into pieces;
(d) distributing and distributing the cut disposable waste mask pieces on top of the lower nonwoven fabric;
(e) spraying adhesive on the disposable waste mask pieces distributed on top of the lower nonwoven fabric;
(f) covering the top of the disposable waste mask pieces to which the adhesive is sprayed with an upper nonwoven fabric; and
(g) producing an insulating material by compressing and attaching the lower nonwoven fabric and the disposable waste mask pieces dispersed in the lower nonwoven fabric and the upper nonwoven fabric covering the top of the disposable waste mask,
The lower nonwoven fabric and the upper nonwoven fabric are supplied through a supply roll, and the insulating material is wound through a take-up roll,
The method of manufacturing a heat insulating material using a disposable waste mask, characterized in that the thickness of the heat insulating material is controlled by the amount of pieces of the disposable waste mask injected into the lower nonwoven fabric by repeating the steps (d) and (e).
(a) sterilizing and washing the collected disposable waste masks;
(b) drying the sterilized and washed disposable waste mask;
(c) cutting the dried disposable waste mask into pieces;
(d) separating the aluminum pieces and the waste nonwoven fabric pieces included in the piece-shaped waste mask by centrifuging the cut disposable waste mask pieces;
(e) distributing and distributing the waste nonwoven fabric pieces separated from the aluminum on top of the lower nonwoven fabric that is constantly supplied;
(f) spraying an adhesive to the waste nonwoven fabric pieces distributed and distributed on top of the lower nonwoven fabric;
(g) covering the waste nonwoven fabric pieces to which the adhesive is sprayed with an upper nonwoven fabric that is constantly supplied; and
(h) producing an insulating material by compressing and attaching the lower nonwoven fabric and the waste nonwoven fabric pieces distributed to the lower nonwoven fabric and the upper nonwoven fabric covering the upper portion of the waste nonwoven fabric to each other,
The lower nonwoven fabric and the upper nonwoven fabric are supplied through a supply roll, and the insulating material is wound through a take-up roll,
The method of manufacturing a heat insulating material using a disposable waste mask, characterized in that the thickness of the heat insulating material is adjusted by the amount of nonwoven fabric pieces injected into the lower nonwoven fabric by repeating the steps (e) and (f).
(a) sterilizing and washing the collected disposable waste masks;
(b) drying the sterilized and washed disposable waste mask;
(c) cutting the dried disposable waste mask into pieces;
(d) distributing and distributing the cut disposable waste mask pieces on top of the lower nonwoven fabric;
(e) spraying adhesive on the disposable waste mask pieces distributed on top of the lower nonwoven fabric;
(f) covering the top of the disposable waste mask pieces to which the adhesive is sprayed with an upper nonwoven fabric; and
(g) producing an insulating material by compressing and attaching the lower nonwoven fabric and the disposable waste mask pieces dispersed in the lower nonwoven fabric and the upper nonwoven fabric covering the top of the disposable waste mask,
In the step (g), the upper nonwoven fabric, the disposable waste mask pieces, and the lower nonwoven fabric are passed between a pair of compression rollers so that they are compressed and attached to each other.
(a) sterilizing and washing the collected disposable waste masks;
(b) drying the sterilized and washed disposable waste mask;
(c) cutting the dried disposable waste mask into pieces;
(d) separating the aluminum pieces and the waste nonwoven fabric pieces included in the piece-shaped waste mask by centrifuging the cut disposable waste mask pieces;
(e) distributing and distributing the waste nonwoven fabric pieces separated from the aluminum on top of the lower nonwoven fabric that is constantly supplied;
(f) spraying an adhesive to the waste nonwoven fabric pieces distributed and distributed on top of the lower nonwoven fabric;
(g) covering the waste nonwoven fabric pieces to which the adhesive is sprayed with an upper nonwoven fabric that is constantly supplied; and
(h) producing an insulating material by compressing and attaching the lower nonwoven fabric and the waste nonwoven fabric pieces distributed to the lower nonwoven fabric and the upper nonwoven fabric covering the upper portion of the waste nonwoven fabric to each other,
In the step (h), the upper nonwoven fabric, the waste nonwoven fabric pieces, and the lower nonwoven fabric are passed between a pair of compression rollers so that they are compressed and attached to each other.

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