KR101770380B1 - Floor paper made by korean paper, manufacturing method for the same and floor construction method using the same - Google Patents

Abstract

The present invention relates to a planter which is easy to handle and easy to construct, a method for manufacturing the same, and a floor construction method using the same. The present invention provides a cover plate comprising: a top plate plate having a base plate having a plurality of paper sheets laminated and bonded together and a waterproof layer formed by coating a waterproofing material on the base plates; a base plate adhered to a bottom surface of the top plate, And a double-sided tape adhered to a portion extending outwardly from the bottom plate of the belt, the belt being attached to the bottom surface of the bottom plate so as to extend outwardly from the edge of the bottom plate. The present invention has a board structure in which a bottom plate having a mineral coating layer is combined with a top plate having a waterproof layer formed on a base paper base, so that the operator can easily handle, easily construct, and dramatically shorten the air required for construction have.

Description

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a flooring plate, a manufacturing method thereof, and a floor construction method using the flooring plate,

[0001] The present invention relates to a backing plate, and more particularly, to a backing plate made of a board structure in which a bottom plate is coupled to a top plate, and is easy to handle and easy for a worker, a manufacturing method thereof and a flooring construction method using the same.

Hangeul is a nature-friendly material with excellent antimicrobial properties and has the characteristic of adsorbing various harmful gases emitted from building materials including cement and removing it from the air, thus helping to create a healthy indoor environment.

This paperboard made of Korean paper is an optimized floor finish in traditional Korean residential environment. In particular, Hanji Plate is an eco-friendly material with excellent far infrared and negative ion emission, deodorizing ability and antibacterial ability, and can not emit formaldehyde, VOC, environmental hormone harmful to human body.

Generally, in the case of flooring of Korean paper, a plurality of thin sheets of paper are prepared, and then the paper is coated with oil on the surface after being laminated in multiple layers. In other words, in order to construct the paperboard, several sheets of paperboard are laid on the floor so as to overlap with each other, and the paste is applied to the overlapping portions, and then the oil is coated over the paperboard in a dry state. In the floor construction using such a paperboard, in order to completely attach the paperboard between the paperboards and prevent the paperboard from sticking out, the paper should be absorbed by the paperboard for about 24 hours, . In order to finish the final varnish, the absorbed water must be completely dried. Therefore, after a long period of 2 ~ 3 months of drying, it is possible to finish by finishing with oil.

Also, in general, the cover sheet has a thickness of about 1 mm because it is used by overlapping and bonding 5 to 9 layers of paper. In order to completely cover the floor surface when constructing the bottom surface by using the unfolding plate, the portion where the unfolding plate and the facing plate abut each other is overlapped to about 20 mm. However, such a construction method tends to cause a problem in that a gap is generated in the overlapping portion between the fixed plates. Also, there is a problem that the foreign material is caught in the gap because no separate adhesive is used to block the gap in the overlapping portion between the backing plates.

In addition, in order to prevent the fastening plate from being pushed, the ends of the fastening plate are overlapped with each other. However, there is a problem in that the upper surface is not smooth due to bending in the overlapping portion.

As described above, although the Hanji plate is an excellent material for indoor flooring of a building, it is difficult to construct and it takes a long time, so that the air is limited to a sufficient number of new buildings.

Korean Patent Publication No. 2010-0131562 (Dec. 16, 2010) Korean Patent Publication No. 1176820 (2012. 08. 27) Korean Registered Patent No. 1202950 (Nov. 19, 2012)

SUMMARY OF THE INVENTION The present invention has been made to solve the problems of the prior art as described above, and it is an object of the present invention to provide an improved Hanji Plate, which is easy to handle, easy to install and can shorten the air required for installation, And to provide the above objects.

According to an aspect of the present invention, there is provided a ground cover comprising: a base paper base having a plurality of paper sheets bonded together; and a waterproof layer formed by coating a waterproofing material on the base paper base. A lower plate coated with a lower surface of the base plate and having a mineral coating layer containing at least one mineral selected from the group consisting of loess, phyllite, elvan, jade, and cryptomeria; A belt attached to the lower surface of the lower plate so as to extend outward from an edge of the lower plate; And a double-sided tape attached to a portion of the belt extending outwardly from the bottom plate.

The waterproof layer of the upper plate may be selected from a cellulosic layer, a lacquer layer, and a resin film layer.

The base plate of the lower plate may be formed by compressing a mixture of powdered surface and minerals selected from yellow loess, phyllite rock, elvan stone, boulder, and rockstones to high temperature.

The base plate of the lower plate may be formed of a cork plate.

The mineral coating layer of the bottom plate may contain an antibacterial mineral selected from silicon oxide, aluminum oxide, iron oxide, calcium oxide, sodium oxide, potassium oxide, magnesium oxide and silver oxide.

According to another aspect of the present invention, there is provided a method of manufacturing a back cover including: (a) forming a polygonal base by stacking a plurality of polygonal papers; (b) coating a waterproof material on the paper base to form a waterproof layer; (c) bonding the base plate to the lower surface of the paper base; (d) coating a mineral coating layer on the lower surface of the base plate, the mineral coating layer containing at least one mineral selected from the group consisting of loess, phyllite, quartz, boulder, and cryptomeria; (e) attaching the belt to the bottom surface of the bottom plate so as to extend outward from the edge of the bottom plate; And (f) attaching a double-sided tape to a portion of the belt extending outwardly from the bottom plate.

In the step (b), the waterproofing material may be selected from cellulosic resin, lacquer resin, and resin film.

In the step (c), a mixture of the powdered surface and a mineral selected from yellow loess, phyllite, elvan stone, boulder, and rockstones is mixed with high temperature to form the base plate and then attached to the lower surface of the base paper base .

In order to solve the above-mentioned problems, a floor construction method using a floorboard according to the present invention comprises: (a) a floor having a plurality of floorboards bonded together and a waterproof layer formed by coating a waterproofing material on the floorboard, And a mineral coating layer coated on a lower surface of the base plate and containing at least one mineral selected from the group consisting of loess, phyllite, elvan, Preparing a plurality of fasteners including a belt attached to the lower surface of the lower plate so as to extend outwardly from an edge of the lower plate and a double-sided tape adhered to an upper surface of the belt; (b) applying an adhesive to the lower surface of one of the plurality of fixed covers; (c) placing the adhesive on the floor surface so that the adhesive contacts the floor of the building, and attaching the adhesive on the floor using the adhesive in the step (b); (d) separating the releasing paper from the double-faced tape attached to the floor in the step (c) to expose the adhesive layer of the double-faced tape to the outside; (e) applying an adhesive to the lower surface of the other one of the plurality of fixed sheets, and attaching the other fixed sheet to the adhesive layer of the fixed sheet on which the release sheet of the two- Placing the adhesive on the bottom surface so as to contact the bottom surface and attaching the adhesive; And (f) filling the gaps between the adjacent plates attached to the bottom surface in step (e) with a joint.

The method of the present invention may further include the step of applying a remedial solution between the first and second substrates adjacent to the floor after step (f).

The present invention having the above-described construction has a board structure in which a lower plate having a mineral coating layer is coupled to an upper plate having a waterproof layer formed on a base paper base, so that the operator is easy to handle and easy to construct, The air can be remarkably shortened.

In addition, since the bottom plate includes a mineral coating layer containing a functional mineral, it can be beneficial to health through releasing the far infrared rays of the mineral, and it is possible to complete the construction without any shrinkage and swelling of the surface.

While the present invention has been described with reference to exemplary embodiments shown in the drawings, it is to be understood that various modifications and equivalents may be resorted to by those skilled in the art. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

FIG. 1 is a side view schematically showing a cover plate according to an embodiment of the present invention.
FIG. 2 is a simplified step-by-step view illustrating a method of manufacturing a COG according to an embodiment of the present invention.
FIG. 3 is a side view of a floor construction method using a floor covering according to an embodiment of the present invention. Referring to FIG.
FIG. 4 is a simplified plan view showing a floor construction method using a floor cover according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the drawings.

FIG. 1 is a side view schematically showing a cover plate according to an embodiment of the present invention.

1, the foldable paper 100 according to one embodiment of the present invention includes a top end plate 110, a bottom plate 120 coupled to the bottom of the top end plate 110, And a double-sided tape 140 adhered to the upper surface of the belt 130. The double- The unfolding plate 100 has a board structure in which a lower plate 120 is coupled to a thin upper plate plate 110, and is easy to handle and easy to work by an operator.

The upper resin plate 110 is formed to have a thin thickness (e.g., 1 mm) by stacking a waterproof layer 112 on a paper base 111 on which a plurality of paper sheets are stacked. The waterproof layer 112 is formed by coating a waterproof material. As the waterproof material for forming the waterproof layer 112, resin films such as cellulosic resin, lacquer varnish, PET film and the like can be used. In addition, a waterproof layer made of various waterproof materials can be used.

The lower plate 120 is bonded to the lower surface of the upper plate 110. As a bonding method between the upper resin plate 110 and the lower plate 120, a method using an adhesive such as vegetable resin adhesive may be used. The lower plate 120 includes a base plate 121 and a mineral coating layer 122 provided on the lower surface of the base plate 121. As the base plate 121, a cork plate or a compressed face plate can be used. As the cork plate constituting the base plate 121, a cork plate having a thickness equal to or thicker than the upper plate 110 (for example, 1 to 3 mm) may be used.

As the compressed face plate constituting the base plate 121, a mixture in which the powdered face and the functional mineral are mixed may be formed into a thicker thickness (for example, 2 mm) than the upper end plate 110 by being compressed with high heat. As the functional mineral constituting the compressed face plate, one or more minerals selected from the group consisting of loess, phyllite, elvan, jade, and cryptic stone may be used.

Since the base plate 121 made of a compressed face plate is mixed with natural minerals, it can adsorb and neutralize the toxicity in the air due to the adsorption effect of the minerals on the minerals, adsorbs and removes the irritating odor, and prevents the occurrence of unnecessary odors . In addition, the strong anion substitution ability of clay minerals can strongly reduce the hydroxyl (OH-) ions that cause the oxidation reaction, and can decompose the toxicity of cement by natural minerals that release anions. In particular, phyllite, also called phyllite, is a kind of carbonaceous rock that is produced in the depths of the earth and emits high-dimensional wave energy. Therefore, when a compressed face plate is formed by phyllite, it is possible to adsorb and remove toxic and irritating odors by releasing anions and adsorbing and decomposing toxic substances.

The compressed face plate constituting the base plate 121 may contain antibacterial minerals. As the antibacterial minerals, one or more minerals selected from silicon oxide, aluminum oxide, iron oxide, calcium oxide, sodium oxide, potassium oxide, magnesium oxide and silver oxide may be used.

Antimicrobial minerals are known to not only emit negative ions in their natural state but also generate rotating electromagnetic waves. The use of such antibacterial minerals can absorb unnecessary bio-energy in the human body, slowing down cancer treatment and growth rate, and germinating harmful bacteria. In addition, the sterilization effect and the particulate matter adsorption effect can prevent the blockage and decay of the odor.

The mineral coating layer 122 may be formed by coating a mineral coating material containing a functional mineral on the lower surface of the base plate 121. The mineral coating material constituting the mineral coating layer 122 can be formed by mixing liquid silicon with water, cellulose, or the like in the functional mineral. The functional mineral constituting the mineral coating layer 122 may be at least one mineral selected from the group consisting of loess, phyllite, elvan, jade, and cryptic stone. In addition, the mineral coating layer 122 contains antimicrobial minerals such as silicon oxide, aluminum oxide, iron oxide, calcium oxide, sodium oxide, potassium oxide, magnesium oxide, and silver oxide to obtain sterilization and odor-blocking effect. The mineral coating layer 122 can adsorb and neutralize the toxicity of air in the air due to the adsorption effect of the minerals on the mineral, adsorb and remove the irritating odor, and prevent unnecessary odor from being generated.

The belt 130 is attached to the lower surface of the lower plate 120 so as to extend outward from the edge of the lower plate 120. The band 130 is formed in a substantially 'A' shape and attached to two adjacent edges of the bottom plate 120. A part of the belt 130 is attached to the lower surface of the lower plate 120. The belt 130 may be adhered to the lower plate 120 through a double-sided tape or an adhesive. The belt 130 is connected to the other fixed board 100 when the fixed board 100 is installed. Although the figure shows that the belt 130 is formed in a substantially 'A' shape, the belt may have various other shapes, a portion of which extends outward from the edge of the bottom plate 120.

A double-sided tape 140 is attached to a portion of the belt 130 that extends outwardly from the bottom plate 120. The double-sided tape 140 is bonded to the belt 130 in a state in which one side of the adhesive layer 141 is protected by the release paper 142. The double-sided tape 140 connects the fixed plate 100 and the fixed plate 100 when the fixed plate 100 is installed.

Hereinafter, a method for manufacturing a COG according to an embodiment of the present invention will be described in detail with reference to FIG.

FIG. 2 is a simplified step-by-step view illustrating a method of manufacturing a COG according to an embodiment of the present invention.

2, the manufacturing method of the COG according to an embodiment of the present invention includes the steps of (2-a) to (2-b) forming the upper hard plate 110, (Step (2-c) to step (2-d)) of attaching the tape 130 to the lower plate 120, And attaching the double-sided tape 140 to the belt 130 (step (2-f)).

The step of forming the upper resin layer 110 includes a step of forming a polygonal base 111 by overlapping a plurality of polygons and a step of forming a waterproof layer 112 by coating a waterproof material on the polygonal paper base 111 (Step (2-b)). Resin films such as cellulosic resin, lacquer resin, and PET film can be used as the waterproof material. That is, the waterproof layer 112 can be formed by applying and drying celllack resin on the base paper base 111, lacquering on the base paper base 111, or attaching a resin film such as PET film on the base paper base 111 have. In addition, various waterproofing materials can be coated on the base paper 111 to form a waterproof layer with various thicknesses.

The step of forming the lower plate 120 includes the step of forming the base plate 121 (step (2-c)) and the step of forming the mineral coating layer 122 (step (2-d)).

First, as shown in (2-c) of FIG. 2, the base plate 121 is formed to be attached to the lower surface of the upper plate 110. As the base plate 121, a cork plate or a compressed face plate can be used. In the case of using a cork plate, the cork plate may be compression-molded with a thickness equal to or thicker than the upper plate plate 110 (for example, 1 to 3 mm), and then the cork plate may be attached to the upper plate plate 110. When a compressed face plate is used, a mixture of the powdered face and the functional mineral is compressed with high heat to form a base plate 121 having a thickness (for example, 2 mm) thicker than the upper end plate 110, (110). As the functional mineral constituting the compressed face plate, one or more minerals selected from the group consisting of loess, phyllite, elvan, jade, and cryptic stone may be used. In addition to the functional minerals, antimicrobial minerals such as silicon oxide, aluminum oxide, iron oxide, calcium oxide, sodium oxide, potassium oxide, magnesium oxide, and silver oxide may be added to form a compressed face plate. Adhesives such as vegetable rosin adhesives can be used for bonding the upper and lower resin plates 110 and 120 to each other.

Next, as shown in (2-d) of FIG. 2, the mineral coating layer 122 of the base plate 121 is coated to complete the lower plate 120. The mineral coating layer 122 can be formed by applying a mineral coating material obtained by mixing liquid silicon, water, cellulose, etc. to a functional mineral on the lower surface of the base plate 121 and then drying the mineral coating layer. As the functional minerals, one or more minerals selected from the group consisting of loess, phyllite, elvan, jade, and myrtle can be used. In addition to functional minerals, antimicrobial minerals such as silicon oxide, aluminum oxide, iron oxide, calcium oxide, sodium oxide, potassium oxide, magnesium oxide, and silver oxide may be added to form a mineral coating.

For example, phyllite can be pulverized into powder particles of 200 to 300 mesh to remove impurities, and 10% of each of the loess and charcoal powder may be mixed to form a mineral coating material in the form of putty by adding liquid silicone and cellulosic cellulose. Specifically, a slag is prepared by mixing 50 wt% of phyllotaxis powder, 10 wt% of loess, 10 wt% of charcoal, 10 wt% of liquid silicone, 10 wt% of water and 10 wt% of cellulose, The mineral coat layer 122 can be formed by coating the undercoat layer. The mineral coating layer 122 is preferably formed to have a thickness (for example, 1 to 2 mm) smaller than the thickness of the base plate 121.

As another example, water and duck pulp may be mixed in a mixing ratio of 1: 1, the mixture may be evenly mixed, and 30 parts by weight of the total weight of water and duck pulp may be added to the mixture to form a slurry.

After joining the upper plate portion 110 and the lower plate 120, the belt 130 is attached to the lower surface of the lower plate 120 as shown in (2-e) of FIG. The belt 130 is attached so that a portion of the belt 130 extends outward from the edge of the lower plate 120. The belt 130 is formed in a substantially 'A' shape and attached to two adjacent edges of the lower plate 120. The tape 130 can be bonded to the lower plate 120 using a double-faced tape, an adhesive, or the like.

Next, as shown in (2-f) of FIG. 2, the double-faced tape 140 is attached to a portion of the belt 130 extending outward from the lower plate 120 to complete the fastening plate 100. Sided tape 140 is adhered to the belt 130 in a state in which one side of the adhesive layer 141 is protected by the release paper 142 when the double-sided tape 140 is attached to the belt 130.

In the drawing, the base plate 121 is attached to the lower surface of the upper plate 110 and the mineral coating layer 122 is formed on the lower surface of the base plate 121 in forming the lower plate 120 A bottom plate coupled with the base plate and the mineral coating layer may be formed first and then attached to the upper plate.

Hereinafter, a floor construction method using a ceiling board according to an embodiment of the present invention will be described in detail with reference to FIGS. 3 and 4. FIG.

FIG. 3 is a side view of a floor construction method using a floor covering plate according to an embodiment of the present invention, and FIG. 4 is a side view of a floor construction method using a floor covering board according to an embodiment of the present invention. As shown in the plan view.

3 and 4, a method of floor construction using a floorboard according to an embodiment of the present invention includes the steps of preparing a floorboard 100 and a method of using the floorboard 100 using an adhesive 200 3-a) to (4-a)) attaching to the bottom surface 10 of the building and attaching the same to the floor surface 10 of the building 3-c to 3-e, and 4-b to 4-c, respectively, connecting the other fixed board 100 to the floor surface 10 of the building, Step).

First, a plurality of fixed length plates 100 having a configuration including the upper fixed plate 110, the lower plate 120, the belt 130, and the double-sided tape 140 are prepared as described above. Then, as shown in (3-a) of FIG. 3, the adhesive 200 is applied to the lower surface of one of the plurality of fixed boards 100. The adhesive 200 is appropriately applied to the lower surface of the lower plate 120 of the covering plate 100. As the adhesive 200, various adhesives such as vegetable rosin adhesive can be used.

Next, as shown in (3-b) of FIG. 3 and (4-a) of FIG. 4, the covering plate 100 is fixed to the bottom surface 10 And adhered to the bottom surface 10 using an adhesive 200.

Next, as shown in (3-c) of FIG. 3 and (4-b) of FIG. 4, the release paper 142 is peeled off from the double-faced tape 140 of the fastener plate 100 attached to the bottom surface 10 And the adhesive layer 141 of the double-faced tape 140 is exposed to the outside. As shown in (3-d) of FIG. 3 and (4-c) of FIG. 4, the other covering plate 100 is bonded to the bottom surface 10 ) Using an adhesive (200). In this process, the other covering plate 100 is disposed on the bottom surface 10 so as to be adhered to the double-sided tape 140 of the covering plate 100 whose edge is attached to the bottom surface 10. At this time, the other finishing board 100 is attached on the belt 130 of the finishing board 100 whose edge is already attached to the bottom face 10 by the adhesive force of the double-faced tape 140, Lt; / RTI >

Next, as shown in (3-e) of FIG. 3, gaps are filled with the gaps between the fixed plates 100 attached to the bottom surface 10 adjacent to each other.

As described above, the bottom surface 10 can be covered with the cover plate 100 by sequentially attaching the plurality of the cover plates 100 to the bottom surface 10 to be connected to each other.

Although not shown in the drawing, after finishing the gaps between the permanent magnets 100, a repairing solution may be applied between the permanent magnets 100 to finish.

As described above, according to the present invention, it is possible to provide a ceiling board, a manufacturing method thereof, and a floor construction method using the same, wherein the ceiling board is composed of a board structure in which a lower board is coupled to an upper board, Various configurations are possible.

100 ... Hanji plate 110 ... upper Hanji plate
111 ... Korean paper base 112 ... waterproof layer
120 ... bottom plate 121 ... base plate
122 ... mineral coating layer 130 ... tape
140 ... double-sided tape 141 ... adhesive layer
142 ... release paper 200 ... adhesive
300 ... joint

Claims (10)

An upper base plate having a base paper base on which a plurality of base paper sheets are stacked and bonded, and a waterproof layer formed by coating a waterproofing material on the base paper base paper;
A lower plate coated with a lower surface of the base plate and having a mineral coating layer containing at least one mineral selected from the group consisting of loess, phyllite, elvan, jade, and cryptomeria;
A belt attached to the lower surface of the lower plate so as to extend outward from an edge of the lower plate; And
And a double-sided tape attached to a portion of the belt that extends outwardly from the bottom plate,
The base plate of the lower plate is formed by compressing a mixture of a powdered surface and minerals selected from yellow loess, phyllite rock, elvan stone, boulder,
The band 130 is attached to a lower surface of the lower plate 120 so as to extend outward from an edge of the lower plate 120. The band 130 is attached to two adjacent edges of the lower plate 120, Shaped,
The double-sided tape 140 is attached to a portion extending outwardly from the bottom plate 120 of the tape 130 and at least a part of the tape 130 is attached to a lower surface of the bottom plate 120, ) To be connected to another adjacent fixed board. The method according to claim 1,
Wherein the waterproof layer of the upper plate is selected from a cellulosic layer, a lacquer layer, and a resin film layer. delete The method according to claim 1,
Wherein the base plate of the lower plate is formed of a cork plate. The method according to claim 1,
Wherein the mineral coating layer of the bottom plate contains an antibacterial mineral selected from silicon oxide, aluminum oxide, iron oxide, calcium oxide, sodium oxide, potassium oxide, magnesium oxide and silver oxide. (a) forming a polygonal base by overlapping a plurality of polygonal papers;
(b) coating a waterproof material on the paper base to form a waterproof layer;
(c) bonding the base plate to the lower surface of the paper base;
(d) coating a mineral coating layer on the lower surface of the base plate, the mineral coating layer containing at least one mineral selected from the group consisting of loess, phyllite, quartz, boulder, and cryptomeria;
(e) attaching a belt to the lower surface of the lower plate including the base plate and the mineral coating layer so as to extend outward from an edge of the lower plate; And
(f) attaching a double-sided tape to a portion of the belt extending outwardly from the bottom plate,
In the step (c), a mixture of powdered surface and mineral selected from loess, phyllite, elvan, jade and rockstones is compressed with high heat to form the base plate, then attached to the lower surface of the base paper base,
In the step (e), the tape 130 is attached to the lower surface of the lower plate 120 so as to extend outward from the edge of the lower plate 120, and the tape 130 is attached to the adjacent two And is formed and attached in the shape of an 'a'
Wherein at least a portion of the tape 130 is attached to a lower surface of the lower plate 120 so that the double-sided tape 140 can be connected to another adjacent upper plate in the step (f) Way. The method according to claim 6,
Wherein the waterproofing material is selected from the group consisting of cellulosic resin, lacquer varnish, and resin film in the step (b). delete (a) a top hanger plate having a hanger base on which a plurality of hanger sheets are stacked and adhered, and a waterproof layer formed by coating a waterproofing material on the hanger base, a base plate adhered to a lower surface of the upper hanger plate, A lower plate having a mineral coating layer containing at least one mineral selected from the group consisting of alfalfa, phyllite, quartz, quartz, and rockstones; a belt attached to the lower surface of the lower plate so as to extend outward from the edge of the lower plate; Wherein the base plate of the lower plate is formed by compressing a mixture of powdered surface and minerals selected from the group consisting of loess, phyllite, elvan, Is attached to the lower surface of the lower plate 120 so as to extend outward from the edge of the lower plate 120, The double-sided tape 140 is attached to a portion extending outward from the bottom plate 120 of the tape 130. The double- (140) is attached to a lower surface of the lower plate (120) so that at least a part of the tape (130) is attached to the lower surface of the lower plate (120)
(b) applying an adhesive to the lower surface of one of the plurality of fixed covers;
(c) placing the adhesive on the floor surface so that the adhesive contacts the floor of the building, and attaching the adhesive on the floor using the adhesive in the step (b);
(d) separating the releasing paper from the double-faced tape attached to the floor in the step (c) to expose the adhesive layer of the double-faced tape to the outside;
(e) applying an adhesive to the lower surface of the other one of the plurality of fixed sheets, and attaching the other fixed sheet to the adhesive layer of the fixed sheet on which the release sheet of the two- Placing the adhesive on the bottom surface so as to contact the bottom surface and attaching the adhesive; And
(f) filling the gaps between the first and second ground plates adjacent to the floor in step (e) with a joint. 10. The method of claim 9,
(g) applying the remedial solution between the fixed boards adjacent to the floor after the step (f).

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