KR101583744B1 - Method of Preparing Insulator Using Waste Pulp - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heat insulating material using household waste pulp such as a waste paper diaper, a waste sanitary napkin, a waste paper sheet, waste paper, A pulp material, an antibacterial material, a bleaching agent, a flame retardant material, or a non-flammable material, and a binder for retaining the bond of these materials, which are main materials extracted from the pulp pulp by removing foreign substances are mixed at a predetermined ratio, It is possible to provide an environmentally friendly heat insulating material, and it is effective to recycle waste paper pulp such as waste paper diapers, lung sanitary napkins, waste paper waste paper or waste paper paper.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a method of manufacturing a heat insulating material using pulp,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a heat insulating material using life-pulp pulp, a method for manufacturing the same, and an apparatus for manufacturing the same. More specifically, The present invention relates to a heat insulating material using a domestic pulp pulp which can be used as an interior and exterior material of a building, a manufacturing method thereof, and a manufacturing apparatus therefor.

Insulation used for interior and exterior materials of buildings is composed of insulation of walls in contact with the outside, insulation between the inner walls, insulation of the inner space ceiling, interlaminar noise and sound insulation of the inner space floor, insulation of the ventilation facilities, And is used for the sound insulation function for various noises.

Most of the thermal insulation materials currently used are heat-resistant petrochemical insulation materials, or insulation materials composed of minerals such as asbestos and glass fiber, and toxic gases and insulating material dusts are scattered when a fire occurs, thereby causing environmental pollution .

In addition, insulation materials using glass fiber (rocky surface) are used as most insulation, insulation, cold insulation, fireproof insulation, and sound insulation materials. Compared with other insulation materials, glass fiber insulation materials are cheap and easy to install , Skin allergic reaction caused by fiberglass, skin cancer, respiratory disorder. In case of fire, the whole glass fiber dust is decomposed, flying in the air, entering the respiratory tract, causing respiratory disorder. To prevent glass fiber dust from flying and to block it, it is packed with vinyl binder when producing glass fiber insulation. It is also covered with vinyl to provide a sound-insulating function, but it becomes useless at the time of fire, and the toxic gas generated when the vinyl is burned causes more damage.

Therefore, research on environmentally friendly insulation that is harmless to human body and not dangerous in case of fire is required.

As a result, the present inventors have made intensive efforts to solve the above problems. As a result, the present inventors have succeeded in manufacturing a heat insulation material that can be used as an internal and external material of a building by recycling waste paper pulp such as waste paper diapers, lung sanitary napkins, And the present invention was completed.

SUMMARY OF THE INVENTION An object of the present invention is to provide an environmentally friendly heat insulating material which is harmless to the human body and is not dangerous in the event of a fire, a method for manufacturing the same, and an apparatus for manufacturing the same.

Another object of the present invention is to recycle waste paper pulp such as waste paper diapers, waste sanitary napkins, waste paper waste paper or waste paper which is discharged as household garbage and used as incineration fuel for use as a thermal insulator.

In order to achieve the above object, the present invention relates to a pulp material (A) pulp material extracted by removing foreign matters from pulp and pulp treated with antibacterial agent and bleaching agent; (B) flame retardant or nonflammable material; And (C) a binder for binding the pulp material and the flame retardant or the non-flammable material are integrally mixed and formed into a predetermined size.

The present invention also provides a method for producing pulp pulp, comprising the steps of: (a) removing pulverized pulp from a sodium chloride water and washing; (b) dehydrating the spent pulp from which the foreign matter has been removed by using a roll press; (c) cutting the dewatered pulp pulp with a plurality of rotating blades; (d) separating the severed raw pulp from the pulp material and the polymer absorber from sodium chloride water; (e) subjecting the separated pulp material to an antibacterial treatment; (f) bleaching the antibacterial treated pulp with a bleaching agent; (g) mixing the pulp material with a flame retardant or a non-flammable material to form the pulp material into a predetermined shape; (h) bonding the binder to the heat insulating material molded in the predetermined shape; And (i) a drying step of drying the heat insulating material adhered to the binder.

The present invention also relates to a foreign matter cleaner (510) for removing and cleaning foreign matter in the pulp of daily life from sodium chloride water; A cutter (520) for cutting the foreign waste pulp with the foreign material removed by using a plurality of rotating blades; A pulp separator 530 for separating the cut pulp from the sodium chloride water into a pulp material and a polymer absorber; An antibacterial processor 540 for treating the separated pulp material with an antibacterial agent; A bleaching processor 550 for bleaching the antibacterial treated pulp with bleach; A mixer (560) for mixing the pulp material with the flame retardant or incombustible material; A molding machine 570 for molding the mixed pulp material, the flame-retardant material or the non-fl uid material to a predetermined size; And a dryer (580) for bonding and drying the binder to the heat insulating material molded in the predetermined shape; And a cutting / packing machine (590) for cutting and packaging the dried heat insulating material into a predetermined shape. The present invention also provides an apparatus for manufacturing a heat insulating material using the domestic pulp pulp.

According to the present invention, it is possible to provide an environment-friendly heat-insulating material which is harmless to a human body and which can be used when a fire or a thermal insulation material is applied City fiberglass (asbestos) dust and styrofoam dust do not fly, and skin allergy and respiratory disease can be prevented. In addition, it promotes the health of the insulator installer and residents living in the building.

In terms of resource conservation, living waste pulp such as waste paper diapers, waste sanitary napkins, waste paper waste paper or waste paper is recycled as a heat insulating material according to the present invention, and most of the household waste from home is recycled.

The insulation material using pulp pulp is used for the expansion and contraction of the building, and it can be made as an insulation material through the reprocessing process after the collection in the process of dismantling the building, so that it can be continuously reused.

1 is a perspective view of a plate-shaped heat insulating material using a domestic pulp pulp according to the present invention.
Fig. 2 is a perspective view of a cylindrical heat insulator using a domestic pulp pulp according to the present invention.
Fig. 3 is a perspective view of a roll-type heat insulator using the household pulp pulp according to the present invention.
4 is a flowchart of a method for manufacturing a heat insulating material using pulp pulp according to the present invention.
5 is a structural block diagram of a system for schematically illustrating an apparatus for manufacturing a heat insulating material using pulp pulp according to the present invention.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. In general, the nomenclature used herein and the experimental methods described below are well known and commonly used in the art.

In the present invention, it is confirmed that a heat insulating material which can be used as an inner and outer material of a building can be manufactured by recycling waste paper pulp such as waste paper diapers, lung sanitary napkins, wastepaper or waste paper as a main material.

Accordingly, in one aspect, the present invention relates to a pulp material which is obtained by removing foreign matter from living pulp pulp and treated with an antibacterial agent and a bleaching agent; (B) flame retardant or nonflammable material; And (C) a binder for binding the pulp material and the flame retardant or the non-flammable material are integrally mixed and formed into a predetermined size.

The heat insulation material is made of pulp extracted from pulp raw materials such as waste paper diapers, lung sanitary napkins, waste paper waste paper, or waste paper pulp materials. The heat insulating material is made of pulp material, An antimicrobial material for antibacterial treatment of the pulp material, a bleaching agent for bleaching the pulp material, a flame retardant for increasing the flame retardancy of the heat insulating material, a non-flammable material for maintaining the flammability, an antibacterial material and a binder for maintaining the bond between the flame- And the like are integrally mixed and molded into a predetermined size.

In the present invention, the living pulp pulp may be at least one selected from the group consisting of waste paper diapers, lung sanitary napkins, wastepaper, and waste paper.

The pulp material may be pulp or nonwoven. The pulp material accounts for 90 wt% or more of the pulp material in terms of the weight of the pulp material in the domestic pulp (pulp paper diaper, pulp paper, waste paper, waste paper) To 10% by weight.

1 to 2% by weight of a bleaching agent, 2 to 5% by weight of a flame retardant or a nonflammable material, 3 to 15% by weight of a binder and other additional materials 3 to 4 By weight based on the total weight of the composition. When the components of the heat insulating material are mixed in the same weight ratio as described above, the heat insulating material has the maximum heat insulating effect.

The antimicrobial material may be a photocatalyst or nano-silver, and the binder may be a paper binder, a nonwoven binder, a vinyl component binder, or an aluminum component binder. The binder can be applied to various other materials and various forms.

In another aspect, the present invention provides a method for producing a pulp pulp, comprising: (a) removing foreign matter from sodium chloride water and washing the pulp; (b) dehydrating the spent pulp from which the foreign matter has been removed by using a roll press; (c) cutting the dewatered pulp pulp with a plurality of rotating blades; (d) separating the severed raw pulp from the pulp material and the polymer absorber from sodium chloride water; (e) subjecting the separated pulp material to an antibacterial treatment; (f) bleaching the antibacterial treated pulp with a bleaching agent; (g) mixing the pulp material with a flame retardant or a non-flammable material to form the pulp material into a predetermined shape; (h) bonding the binder to the heat insulating material molded in the predetermined shape; And (i) a drying step of drying the heat insulating material adhered to the binder; The present invention relates to a method for producing a heat insulating material using pulp pulp.

The present invention provides a method of manufacturing a heat insulation material using a domestic pulp pulp, which comprises the steps of removing and cleaning foreign matter of pulp paper pulp such as waste paper diapers, pulp fibers, pulp paper, or pulp paper; Pulverizing the main material of the heat insulating material using a rotating blade; Extracting the pulverized main material; Antibacterial treatment of the extracted main material; Bleaching the antibacterial main material; Mixing the main material with the flame retardant and molding the same into a predetermined shape; Bonding the heat insulating material molded in a predetermined shape with a binder; And drying the heat insulating material by using the heat. Depending on the material of the binder, it may be applied by changing the step of bonding the binder and the step of drying using heat.

The main material extraction step is characterized by cutting the living pulp (wastepaper diaper, lung sanitary napkin, wastepaper, waste paper) and cleaning the foreign matter by several rotating blades.

The antibacterial treatment step is characterized by adding an antibacterial agent to the main material.

The method may further include a step of drying the heat insulating material molded in a predetermined shape and cutting the heat insulating material into a predetermined size.

Pulp components are extracted from the above-mentioned domestic pulp pulp (waste paper diaper, lung sanitary napkin, wastepaper, waste paper) by using a plurality of revolving rotating blades, and the main ingredient is used.

Hereinafter, the present invention will be described in more detail.

1 is a perspective view of a plate-shaped heat insulating material using a domestic pulp pulp according to the present invention. The plate-shaped insulation shown in Fig. 1 exemplarily illustrates one of various forms of the present invention. Fig. 2 is an exemplary illustration of various forms of insulation used in equipment piping and the like. Fig. 3 is an exemplary illustration of various forms of insulation used in a wide area, a large pipe diameter, or a polygonal pipe shape.

The main components of the heat insulating material of the present invention are extracted from foreign waste pulp (waste paper diaper, waste sanitary napkin, waste paper, waste paper), antibacterial material for antibacterial treatment of such main material, Flame retardant material to increase the flame retardancy so as not to ignite the fire during the fire, bleaching agent to increase the incombustibility, whiteness as the main material as white material, sodium chloride used in the foreign matter removal process and pulp separation process to separate the main material pulp component and polymer compound A main material separating material for the component, an adhesive for bonding the main material and the sub materials, and a binder wrapping the outer surface of the heat insulating material.

In living pulp, waste paper diapers consist of lining, absorbent layer, waterproof membrane and tape, lining is nonwoven, absorbent layer is pulverized pulp and polymer absorber, waterproof membrane is polyethylene film, and tape is used as re-adhesive tape. Waste sanitary napkins also consist of the same components as waste paper diapers. Waste paper and waste paper are mostly composed of foreign matter and pulp components.

A pulp component, which is the main material of the heat insulating material, can be obtained by removing foreign matter, nonwoven fabric, polyethylene film and tape from household pulp pulp. Even if it is not 100% pulp component of the main ingredient, there is no problem in performance or efficacy of the insulation. The performance and efficacy of the insulation will not be affected by the formation of the insulation with 90% or more of the pulp component, 5% of the nonwoven fabric, the foreign matter component and 5% of the antimicrobial, flame retardant, bleaching, bonding and binder components.

Preferably, the polymeric absorber contained in the waste paper diaper and the lung sanitary napkin contains a large amount of water in a small amount during the extraction of the pulp component, which is the main material, and the separation of the polymeric absorber and the pulp component In order to clean the foreign object, the washing water should be sodium chloride water. A high concentration of sodium chloride is used in the process of separating from pulp. Sodium chloride water is used until the process of antibacterial treatment, bleaching process.

Herein, the term "sodium chloride" means that sodium chloride is diluted in water. In the course of washing, it is not a problem even if the concentration of sodium chloride is low. A ratio of about 100 to 300 cc, preferably about 200 cc, of sodium chloride to 3.6 L of water is suitable. After separation of the living pulp, A ratio of about 400 to 900 cc, preferably about 600 cc, of sodium chloride is introduced, but there is a slight difference in the ratio. It is difficult to maintain the concentration range accurately and it is important to separate the pulp from the polymer absorber contained in the waste paper diaper and the pulp sanitary noodle by introducing sodium chloride in the washing process or the antibacterial treatment process after the cutting process rather than the concentration range. In addition, the use of industrial sodium chloride can reduce the production cost for the insulation.

Such a heat insulating material has a ratio of 72 to 90% by weight of a main material, 1 to 2% by weight of an antibacterial material, 2 to 5% by weight of a flame retardant, 1 to 2% by weight of a bleaching agent and 3 to 15% And is molded into a predetermined shape.

For the antimicrobial agent, an antimicrobial agent containing a photocatalyst and silver nano as a main component is used. These antimicrobial materials are excellent in stability of the human body without any irritation to the skin, do not discolor, have semi-permanent antimicrobial persistence, and are inexpensive.

For bleaching agents, bleaching agents that bleach cloth wipes are used. It allows you to get cleaner ingredients through several washes.

4 is a flowchart of a method for manufacturing a heat insulation material using pulp pulp according to the present invention.

410: Waste pulp (wastepaper diaper, lung sanitary napkin, waste paper, waste paper) is put into sodium chloride water to remove foreign matter (foreign matters including feces) and subjected to a simple washing process.

420: The dehydration process is carried out in the process of moving a living pulp (a waste paper diaper, a waste sanitary napkin, a waste paper, a waste paper) in which a foreign substance is removed using a round roll press.

430: Dehydrated living pulp (waste paper diapers, sanitary napkins, waste paper, waste paper) are cut and crushed by several rotating blades.

440: Pulverized pulverized living pulp (wastepaper diapers, waste sanitary napkins, waste paper, waste paper) are divided into pulp and nonwoven, polyethylene film and tape, where the pulp components are separated and extracted. In this process too, a high concentration of sodium chloride is used.

450: The antibacterial material is treated with the antimicrobial agent of pulp, which is the main material. For the antimicrobial agent, an antimicrobial agent containing a photocatalyst and silver nano as a main component is used.

460: Pulp, the main material after antimicrobial treatment, is bleached to make it white.

470: The main material pulp is mixed with a flame retardant or non-flammable material and an adhesive to form a predetermined shape.

480: The heat insulating material molded in a predetermined shape is bonded to the binder. The binder may be a paper binder, a pulp binder, a nonwoven binder, a vinyl binder, or a binder of a metal component such as aluminum. The binder can be applied to various other materials and various forms.

490: Heat insulation is dried using heat, cut to a predetermined size, and packaged.

The process of drying the heat insulating material using the heat of steps 480 and 490 may be reversed. In the case of a vinyl binder, the vinyl binder is bonded after heat drying because it shrinks or burns when heat is applied. However, the nonwoven binder or the pulp binder does not cause problems in the drying process even if it adheres to the heat insulating material before drying. It is preferable that the metal binder such as aluminum is also bonded to the binder after thermally drying the heat insulating material.

Such a heat insulating material can be produced in a plate form, a roll form, or a cylindrical form. The process of making a sandwich panel with a plate type of insulation is to cut the insulation to a predetermined size with a square column and rotate the plate so that the cut is up 90 ° so that the pulp of the insulation is formed differently from the plate- The tensile strength of the sandwich panel can be increased by bonding a metal binder to the upper and lower surfaces after connecting several rectangular column-shaped heat insulating materials. This method can also be used as a method of bonding different kinds of binders.

Roll-shaped insulation is used as boiler, fireproof duct, floor soundproofing, sound insulating material, insulation of flat surface or polygon, insulation, insulation, sound insulation.

Cylindrical insulation materials are used as materials to heat insulation, keep warm, and keep cold, such as circular pipes, like pipe.

5 is a structural block diagram of a system for manufacturing a heat insulation material using daily pulmonary pulp (waste paper diaper, lung sanitary napkin, wastepaper, waste paper) according to the present invention.

The system shown in FIG. 5 includes a foreign matter cleaner 510, a raw material cutter 520, a pulp separator 530, an antibacterial processor 540, a bleacher 550, a mixer 560, a molding machine 570, a dryer 580, and a cutting and packaging machine 590.

Foreign matter cleaner (510): a step of cleaning the foreign matter and sodium chloride is used.

Raw material cutting machine (520): It is the process of pulverizing living pulp pulp (waste paper diaper, lung sanitary napkin, waste paper, waste paper) and is crushed by several rotating blades. The domestic pulp pulp is subjected to a dehydration process after passing through a foreign substance cleaner, and this process is included in the raw material cutting process. Because it dehydrates to better cut the raw material.

Pulp separator (530): Pulverized daily pulmonary pulp (pulp paper diaper, pulp fiber, waste paper, waste paper) is separated into pulp and other components. At this time, the main material is pulp and the other ingredients are immediately dried and packaged. Sodium chloride is also used in this process.

Antibacterial Processor (540): Antibacterial agent is added to the main material in the process of antibacterial treatment.

BLEACH PROCESSOR (550): Bleaching agent is added to make the main material white.

Mixer (560): In the mixing process, the main material is mixed with the flame retardant or non-flammable material.

Molding machine 570: In the molding process, a raw material mixed with a main material and a flame retardant is molded into a predetermined size.

Dryer (580): Drying is performed by drying the heat insulating material formed to a predetermined size through a thermal drying process.

Cutting / wrapping machine 590: The cutting process is cut to a predetermined size and is wrapped.

Hereinafter, the present invention will be described in more detail with reference to Examples. It is to be understood by those skilled in the art that these embodiments are only for illustrating the present invention and that the scope of the present invention is not construed as being limited by these embodiments.

[Example]

Example  One

To 3.6L of water and 200cc of sodium chloride were mixed and diluted sodium chloride water was added to the waste paper diapers, lung sanitary napkins, waste paper pulp and waste paper pulp, and the foreign substances were removed and then washed. The debris from which debris was removed was dehydrated in the process of moving using a round roll press and cut and crushed into several rotating blades. The pulverized pulp was separated into pulp material and polymeric absorber by adding 700 cc of sodium chloride to 3.6 L of water and adding it to diluted sodium chloride water. 80% by weight of the pulp material thus separated was subjected to antimicrobial treatment with 1.5% by weight of antimicrobial material containing silver nano as a main component and bleached with 1.5% by weight of bleaching agent. The pulp material was mixed with 4% by weight of a flame retardant or nonflammable material and an adhesive to form a predetermined shape. A heat insulating material molded in a predetermined shape was adhered to 8 wt% of the nonwoven fabric binder, and the heat insulating material was dried by using heat and cut into a predetermined size to produce the heat insulating material shown in Fig.

Example  2

Example 1 was carried out in the same manner as in Example 1, except that the sheet was formed into a predetermined shape in Example 1, dried using heat, cut to a predetermined size, and adhered to a vinyl binder to produce a heat insulating material.

The insulation material manufactured according to Examples 1 and 2 is a heat insulation material which can simultaneously be used as an interior and exterior material of a building and satisfies both insulation performance and sound insulation performance.

While the present invention has been particularly shown and described with reference to specific embodiments thereof, those skilled in the art will appreciate that such specific embodiments are merely preferred embodiments and that the scope of the present invention is not limited thereto will be. Accordingly, the actual scope of the present invention will be defined by the claims and their equivalents.

100: Plate-shaped heat insulating material 200: Cylindrical heat insulating material
300: Roll-type insulation
510: Foreign matter cleaner 520: Raw material cutting machine
530: pulp separator 540: antibacterial processor
550: bleaching processor 560: mixer
570: Molding machine 580: dryer
590: Foundation / Packer

Claims (9)

(a) removing one or more kinds of pulmonary pulp selected from the group consisting of a lung sanitary napkin, a lung tissue paper, and a waste paper to remove foreign matter from sodium chloride water of 100 to 300 cc / water (3.6 L);
(b) dehydrating the spent pulp from which the foreign matter has been removed by using a roll press;
(c) cutting the dewatered pulp pulp with a plurality of rotating blades;
(d) separating the cut pulp from pulp material and polymer absorber at 400 to 900 cc / water in 3.6 L of sodium chloride water;
(e) subjecting the separated pulp material to an antibacterial treatment;
(f) bleaching the antibacterial treated pulp with a bleaching agent;
(g) mixing the pulp material with a flame retardant or a non-flammable material to form the pulp material into a predetermined shape;
(h) bonding the binder to the heat insulating material molded in the predetermined shape; And
(i) a drying step of drying the heat insulating material adhered to the binder,
A life including 72 to 90% by weight of the pulp material, 1 to 2% by weight of an antibacterial agent, 1 to 2% by weight of a bleaching agent, 2 to 5% by weight of a flame retardant or a nonflammable material, 3 to 15% A method for manufacturing a heat insulating material using pulp pulp.
The method according to claim 1,
Wherein the pulp material is a pulp, a nonwoven fabric, or a polyethylene film.
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