KR102217735B1 - Functional lightweight wood fiber insulation board using wood fiber - Google Patents

Abstract

The present invention is an eco-friendly insulation material that can replace petroleum and chemical-based building insulation materials such as conventional foam products, by applying and mixing an adhesive and a hardener on the wood fiber using wood fiber obtained by crushing wood, and mixing the first mixture 100 ), the first mixture 100 is dried, and the first molded product obtained by molding the dried first mixture in a molding mold is thermally pressed to produce a wood fiber insulation 300, wherein the adhesive is amino Form aldehyde emission is low by using natural resins or non-form aldehyde adhesives, protein starch, rice flour, etc. as the main ingredients, and can replace petroleum and chemical insulation materials such as existing foam products. It relates to a functional lightweight wood fiber insulation material using eco-friendly wood fiber that can improve sound insulation, heat insulation, sound absorption and flame retardancy.

Description

Functional lightweight wood fiber insulation board using wood fiber

The present invention relates to an insulating material for construction, and more particularly, using wood fibers obtained from wood, but applying and mixing an adhesive and a curing agent on the wood fibers to produce a first mixture, drying the first mixture, and drying the first mixture It relates to a functional lightweight wood fiber insulation material using wood fiber having excellent sound absorption, heat insulation, and flame retardancy by heat-compressing the first molding, which is light and easy to carry and work.

In building construction, building insulation is used to prevent noise generated inside the building and to insulate the building. According to the domestic application of utility model No. 20-2005-0032226, a building member made of soundproof and vibrationproof material is further provided along with an insulation material, and a plurality of building members are embedded in a multi-layered structure to provide an insulating material with improved insulation and sound insulation performance. .

However, according to the conventional technology, a resin adhesive layer composed of synthetic resin is separately formed between the foamed PE resin insulating material and the building member of soundproof and dustproof material to form a multilayer structure, so that the total thickness of the insulating material is thick and volatile organic from the adhesive constituting the adhesive layer. Compounds are released and are harmful to the human body. Also, the use of foam products such as petroleum and chemical building materials is causing an increase in personal injury due to the generation of toxic gases from fire.

In order to solve the above problems, in recent years, inorganic insulation materials that are harmless to the human body are produced and wooden insulation materials are imported and used, but wooden insulation materials are vulnerable to fire resistance in case of fire, and there is a disadvantage that the overall cost is increased by relying on imports.

In addition, since inorganic materials for domestic construction are manufactured by mixing inorganic materials such as glass fiber, waste glass, and ceramic with organic materials, which are chemical polymers, it is time to research and develop an economical, eco-friendly, and excellent flame-retardant insulation material.

The present invention is to solve the above-described problems, by using an amino-based, that is, an eco-friendly adhesive based on melamine, which has excellent flame retardancy to wood fibers obtained from wood as a wood resource, there is no emission of form aldehyde, and also reduces raw material costs and reduces greenhouse gases. Its purpose is to provide a functional lightweight wood fiber insulation material using wood fiber that can help promote the recycling of forest resources to help promote reduction policies.

However, the object of the present invention is not limited to the above-mentioned object, and another object that is not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, the present invention is an eco-friendly insulating material that can replace petroleum and chemical-based building insulating materials such as existing foam products, using wood fibers obtained by crushing wood, applying an adhesive and a curing agent to the wood fibers and mixing Thus, the first mixture 100 is produced, and the first mixture 100 is dried, and the first molded product obtained by molding the dried first mixture in a mold is thermally compressed to produce a wood fiber insulation.

In addition, the wood fiber is a wood fiber for manufacturing a fiberboard manufactured by crushing the wood chips.

And the first mixture 100 is prepared by applying 20 to 30 parts by weight of an adhesive and a curing agent to 100 parts by weight of the wood fiber for producing the fiberboard.

In addition, the adhesive is an amino resin for wooden boards, and an eco-friendly resin by adding and condensing reactions by making the molar ratio of formaldehyde and melamine-urea to 0.5 to 1.0, using melamine having flame retardant properties among the raw materials of the amino resin. Formaldehyde is 40-50% in 100 parts by weight of amino resin, more specifically 43.3%, melamine is 20-30%, more specifically 30%, urea is 15-40% And more specifically, it is a resin containing 26.5%.

In the above, the adhesive contains 25% or more of melamine.

The curing agent may be used alone or in combination with ammonium chloride or ammonium sulfate, but the curing agent is diluted to a concentration of 10 to 50% in consideration of the curing speed of the adhesive.

In addition, the mixing ratio of the adhesive and the curing agent is calculated by calculating the amount of the curing agent based on the solid content of the adhesive used, but the calculation method is the resin used by first measuring the adhesive solid content by the KS M 3705: 2015 General Test Method 6.4 non-volatile content method. After calculating the amount of solid content, 1 to 5% is used as the amount of the curing agent, and at this time, it is calculated by reflecting the concentration of the curing agent and mixed with the adhesive.

In addition, the method of applying the mixed adhesive and hardener to the wood fibers is to put the wood fibers into the rotary drum type applicator 40, and then apply the mixed adhesive and hardener with an air-compressed spray 30, but the rotary drum type application The device 40 rotates 30 to 60 times per minute, and the adhesive is evenly applied with a spray while the air compressor is 7 bar.

In the above, the adhesive and the hardener are applied to increase the moisture content of the wood fibers and the wood fibers are lumped together by the rotary drum-type applicator 40, so the wood fibers are dried and crushed using a centrifugal high-pressure blower 50, and the lumped wood fibers As is separated, treat so that the moisture content of the wood fiber containing the adhesive and hardener is less than 30%.

And the first mixture (100) containing the adhesive and the curing agent is put into the mold (60) of a certain size to prepare the first mold (200) so that the density is 150kg/m2 to 300kg/m2 according to the thickness and standard. However, the first molding 200 has a plate shape.

In addition, the first molding 200 is pressurized at 1kgf/cm2 at room temperature using a cold press 70, but the cold press is performed to discharge the internal air of the first mold 200 and prepare a plate shape. .

The first molded product 200 pressed by the cold press in the above is high temperature and pressurized using a hot press 80 to cure the wood fibers including an adhesive and a curing agent, and the first mold 200 with the hot press 80 ) Is pressurized at a temperature of 120 ~ 170℃ with 1 ~ 10kgf/㎠.

In addition, the wood fiber for manufacturing the fiberboard is used that is dried at a temperature of 60 ~ 200 ℃ using a dryer 20 for the fiberboard manufacturing wood fiber with a moisture content of 100% or more produced by crushing the wood chips with a refiner 10.

In addition to the existing melamine adhesive, phenolic resin can also be used for the adhesive, but since it is a material used as an insulating material for construction, non-form aldehyde-based adhesives that do not release form aldehydes, protein starch, rice powder, etc. are the main ingredients. And a non-form aldehyde-based curing agent can be used by mixing it according to an appropriate ratio.

And the adhesive and the curing agent are applied to dry when the moisture content of the wood fiber increases, but drying treatment at room temperature cold air or temperature 60 ~ 200 °C, respectively, using a centrifugal high pressure blower (50) or dryer (20), The moisture content of the wood fiber containing the hardener should be 30% or less.

Features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings.

Prior to this, terms or words used in the present specification and claims should not be interpreted in a conventional and dictionary meaning, and the inventor may appropriately define the concept of the term in order to describe his or her invention in the best way. It should be interpreted as a meaning and concept consistent with the technical idea of the present invention based on the principle that there is.

As described above, according to the present invention, according to the present invention, the wood fiber insulation of the present invention is light in weight, so that it is easy to transport and install, thereby lowering the overall cost, and also has low formaldehyde emission, and is manufactured by mixing an adhesive with wood fiber, wherein the adhesive As the main raw material of amino resin, melamine, which has flame-retardant performance, is the main raw material, and by improving the flame-retardant performance of the insulation material, it can not only replace petroleum and chemical-based building materials such as existing foam products, but also maximize the insulation and sound-absorbing effect of buildings. There is an effect that can provide a wood fiber insulation that can be.

1 is a flow chart showing a manufacturing process of a functional lightweight wood fiber insulation material using the wood fiber of the present invention.
Figure 2 is a flow chart showing a method of applying the adhesive and curing agent mixed with the wood fiber of the present invention.
3 schematically shows the manufacturing process of the first mixture of the present invention.
Figure 4 schematically shows the manufacturing process of the first molding of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. In this process, the thickness of the lines or the size of components shown in the drawings may be exaggerated for clarity and convenience of description.

In addition, terms to be described later are terms defined in consideration of functions in the present invention and may vary according to the intention or custom of users or operators. Therefore, definitions of these terms should be made based on the contents throughout the present specification.

In addition, the following examples are not intended to limit the scope of the present invention, but are merely illustrative of the elements presented in the claims of the present invention, and are included in the technical idea throughout the specification of the present invention and the composition of the claims. Embodiments including elements that can be substituted as equivalents in elements may be included in the scope of the present invention.

The present invention is an eco-friendly insulating material that can replace petroleum- and chemical-based building insulating materials such as existing foam products, using wood fibers obtained by crushing wood, applying an adhesive and a hardener to the wood fibers and mixing the first mixture 100 However, the first mixture 100 is dried, and the first molded product obtained by molding the dried first mixture in a mold is thermally compressed to produce a wood fiber insulation.

In this case, the first mixture is characterized in that it is prepared by applying 20 to 30 parts by weight of an adhesive and a curing agent to 100 parts by weight of the wood fiber.

Attached Figure 1 is a flow chart showing the manufacturing process of the functional lightweight wood fiber insulation using the wood fiber of the present invention.

Referring to Figure 1 to describe the manufacturing process of the wood fiber insulation of the present invention in more detail, the step of preparing a first mixture by applying 20 to 30 parts by weight of an adhesive and a curing agent to 100 parts by weight of wood fiber for fiberboard production (S110) ; And the step of drying the first mixture to have a moisture content of 30% or less (S120); And by putting the dried first mixture into a mold having a density of 150kg / ㎡ to 300kg / ㎡ 1 step of manufacturing a mold (S130); and a step (S140) of producing a wood fiber insulation material by pressing the first mold at a temperature of 120 to 170 °C with a hot press at 1 to 10 kgf/cm 2 (S140).

2 is a flow chart showing a method of applying an adhesive and a curing agent mixed with the wood fiber of the present invention.

Referring to FIG. 2, the method of applying the mixed adhesive and hardener to the wood fibers is to apply wood fibers to the rotary drum-type applicator 40, and then apply the mixed adhesive and hardener with an air-compressed spray 30, At this time, the rotary drum type coating device 40 rotates 30 to 60 times per minute, and the adhesive is applied uniformly with a spray in a state where the air compression device is 7 bar.

In addition, when the adhesive and the hardener are applied to increase the moisture content of the wood fibers, a drying process is further performed, but the drying process is performed using a centrifugal high pressure blower 50 or a dryer 20, respectively, at room temperature or cold air or at a temperature of 60 ~ Dry at 200℃, but make sure that the moisture content of the wood fiber containing the adhesive and hardener is less than 30%.

At this time, the adhesive is an amino-based resin for wood boards, and, among the raw materials of the amino-based resin, melamine having flame-retardant properties is used as the main material, and the molar ratio of formaldehyde and melamine-urea is 0.5 to 1.0, and the addition and condensation reaction are carried out. It is synthesized as a resin, and the formaldehyde is 40-50% in 100 parts by weight of the amino resin, more specifically 43.3%, melamine 20-30%, more specifically 30%, urea 15-40%. More specifically, it is a resin containing 26.5%.

In the above, the adhesive contains 25% or more of melamine.

The curing agent may be used alone or in combination with ammonium chloride or ammonium sulfate, but the curing agent is diluted to a concentration of 10 to 50% in consideration of the curing speed of the adhesive.

The mixing ratio of the adhesive and the curing agent is calculated by calculating the amount of the curing agent based on the solid content of the adhesive used, but the calculation method is the amount of resin used by first measuring the adhesive solid content by KS M 3705: 2015 General Test Method 6.4 non-volatile content method. After calculating the solid content of, 1 to 5% of this amount is used as the amount of the curing agent, and at this time, it is calculated by reflecting the concentration of the curing agent and mixed with the adhesive.

In addition to the existing melamine adhesive, phenolic resin can also be used for the adhesive, but since it is a material used as an insulating material for construction, non-form aldehyde-based adhesives that do not release form aldehydes, protein starch, rice powder, etc. are the main ingredients. And a non-form aldehyde-based curing agent can be used by mixing it according to an appropriate ratio.

3 schematically shows the manufacturing process of the first mixture of the present invention.

Referring to FIG. 3, the present invention transfers wood fibers having a moisture content of 100% or more to a dryer, which is manufactured by crushing the wood chips with a refiner 10, and the dryer 20 is a wood fiber having a moisture content of 100% or more at a temperature of 60 to 200°C. Is dried to use wood fibers for manufacturing fiberboards with a moisture content of 12% or less.

At this time, the wood fiber of the present invention is made of wood and waste wood-based biomass (bark, etc.) that have not been used in the past, so that forest by-products or waste wood can be reprocessed.

In addition, the wood fiber for manufacturing the fiberboard prepared above is transferred through the conveying unit, and is injected into the rotary drum type coating device 40, and the mixed adhesive and hardener are applied with an air-compressed spray 30.

At this time, the rotary drum type coating device 40 is rotated 30 to 60 times per minute, and the adhesive is applied evenly with a spray while the air compression device is 7 bar.

In the above, since the adhesive and the hardener are applied to increase the moisture content of the wood fibers and the wood fibers are agglomerated due to the rotary drum-type coating device 40, they are dried and crushed using the centrifugal high pressure blower 50.

To explain this in more detail, the centrifugal high-pressure blower treats the wood fibers containing the adhesive and the curing agent to have a moisture content of 30% or less while the adhesive and the hardener are applied to separate the aggregated wood fibers.

Then, the first mixture 100 containing the adhesive and the curing agent is introduced into a mold 60 having a predetermined size.

4 schematically shows the manufacturing process of the first molding of the present invention.

Referring to FIG. 4, the first mixture 100 containing an adhesive and a curing agent is introduced into the mold 60 of the predetermined size and has a density of 150 kg/m 2 to 300 kg/m 2 according to the thickness and standard. ), but the first molding 200 has a plate shape.

In addition, referring to b of FIG. 4, the first molding 200 is pressurized at 1kgf/cm2 at room temperature using a cold press 70, but the cold press discharges the air inside the first mold 200 Conducted to prepare a plate shape.

Referring to FIG. 4C, the first molding 200 pressurized by the cold press in the above is high temperature and pressurized using a hot press 80 to cure wood fibers including an adhesive and a curing agent, but the hot press 80 ) To pressurize the first molding 200 at a temperature of 120 to 170° C. at 1 to 10 kgf/cm 2.

In addition, the present invention can replace the existing foam products such as styrofoam and urethane foam by developing a new high-value building material using wood or the like, and can also be utilized as a reprocessing technology for waste woody biomass.

Although the present invention has been described in detail through specific embodiments, this is for explaining the present invention in detail, and the present invention is not limited thereto, and within the technical idea of the present invention, those of ordinary skill in the art It is clear that the transformation or improvement is possible.

All simple modifications to changes of the present invention belong to the scope of the present invention, and the specific scope of protection of the present invention will be made clear by the appended claims.

10 Refiner 20 Dryer
30 Air Compressed Spray 40 Drum Applicator
50 Centrifugal high pressure blower 60 Molding mold
70 Cold press 80 Hot press
100 First mixture 200 First molding
300 wood fiber insulation

Claims (9)

In eco-friendly insulation that can replace petroleum and chemical construction insulation materials such as existing foam products,
Using wood fibers obtained by crushing wood
Applying and mixing an adhesive and a curing agent on the wood fibers to produce a first mixture (100),
The first mixture 100 is dried, and the first molded product obtained by molding the dried first mixture in a mold is thermally compressed to produce a wood fiber insulation material,
For 100 parts by weight of wood fiber for manufacturing the fiberboard
The first mixture 100 is prepared by applying 20 to 30 parts by weight of an adhesive and a curing agent,
The method of applying the mixed adhesive and curing agent to the wood fiber is to apply the mixed adhesive and curing agent to the rotary drum type application device 40, and then apply the mixed adhesive and curing agent with an air-compressed spray 30,
The rotary drum type applicator 40 rotates 30 to 60 times per minute, and the adhesive is applied by spray while the air compression device is 7 bar, but evenly applied,
Since the adhesive and the curing agent are applied to increase the moisture content of the wood fibers and the wood fibers are agglomerated due to the rotary drum type application device 40, the wood fibers are dried and crushed using a centrifugal high pressure blower 50,
The centrifugal high-pressure blower 50 treats the moisture content of the wood fibers containing the adhesive and the curing agent to be 30% or less while the lumped wood fibers are separated,
Injecting the first mixture 100 containing the adhesive and the curing agent into a mold 60 having a predetermined size to prepare a first molded product 200 having a density of 150kg/m2 to 300kg/m2 according to the thickness and standard. ,
The first molding 200 is pressurized at 1kgf/cm2 at room temperature using a cold press 70, and the cold press has a plate shape by discharging the air inside the first molding 200. Functional lightweight wood fiber insulation using wood fiber. delete According to claim 1
The adhesive is a functional lightweight wood fiber insulation material using wood fibers, characterized in that the amino-based resin for wood boards. According to claim 1
The adhesive is a functional lightweight wood fiber insulation material using wood fiber, characterized in that it contains melamine. According to claim 1
The curing agent may be used alone or in combination with ammonium chloride, ammonium sulfate, etc.,
A functional lightweight wood fiber insulation material using wood fiber, characterized in that the hardener is diluted to a concentration of 10 to 50% in consideration of the curing speed of the adhesive.


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