KR102399031B1 - Danpla decoration board for finishing building - Google Patents

Abstract

The present invention provides a Danpla decoration board for an architectural finish, which includes: a Danpla sheet which has a hollow structure including a barrier rib therein; a polyolefin-based decoration sheet which is laminated to one side of the Danpla sheet; and an adhesive film which is laminated to the other surface of the Danpla sheet. The Danpla decoration board, as a lightweight material, has excellent workability and excellent functionality such as soundproofing and heat insulation, and can implement a customized design as intended by a constructor.

Description

DANPLA DECORATION BOARD FOR FINISHING BUILDING

The present invention relates to a construction finishing material technology, and specifically, it functions as a finishing member for floor and wall surfaces, and has excellent light weight, sound insulation and heat insulation properties, as well as a stage for construction finishing in which a user can custom design a construction surface. It is a technology related to the pradeco board.

DNAPLA is a material made from polypropylene (PP), a plastic resin, as a raw material. Because of its excellent cushioning properties, it is mainly used for packaging or moving boxes.

However, the Danpla is not easy to print such as gravure printing or screen printing, so a single-color Danpla box molded by coloring the raw material resin for Danpla is mainly used.

The application area of such danpla is very limited so far, but it is judged that various application materials can be developed using the inherent excellent cushioning properties, and in particular, it is necessary to use them as construction materials.

The present invention is an invention devised to explore the use of such danpla materials. It is lightweight and has excellent sound and heat insulation effects by utilizing the properties of danpla, and can be finished by custom designing the floor and wall surfaces (DIY). An object of the present invention is to provide a danpla decoration board for architectural finishing that can exhibit excellent aesthetic effects.

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Danpla decoration board for building finishing according to an embodiment of the present invention is a danpla sheet having a hollow structure including a geukbuk inside; a polyolefin-based decorative sheet laminated to one surface of the Danpla sheet; and an adhesive film laminated to the other surface of the Danpla sheet.
The barrier ribs may include vertical barrier ribs and diagonal barrier ribs by repeating regularly.
The decor sheet is a sheet made by bonding a base unit and a functional unit having a plurality of layered structures, one side of the base unit is laminated with the one side of the danpla sheet, and at least one of the base unit and the functional unit The unit may include a multi-polyolefin-based resin film layer in which a plurality of unit layers made of a polyolefin-based resin are sequentially stacked.
The multi-polyolefin-based resin film layer may include a first unit layer made of a polyolefin-based resin; and a second unit layer and a third unit layer formed on both sides of the first unit layer, respectively, each containing a polar group generated by the reaction of maleic anhydride with a polyolefin-based resin, wherein the polyolefin-based resin film layer is each It may be formed by co-extrusion of the resin compositions constituting the unit layers.
The adhesive film may include a foamed resin layer made of polypropylene foamed resin or polyethylene foamed resin; an adhesive layer formed on one surface of the foamed resin layer; and a release paper film formed on the pressure-sensitive adhesive layer.
The Danpla sheet and the adhesive film may be laminated by thermocompression bonding through a polyolefin-based co-extrusion film.
The polyolefin-based co-extrusion film is a multi-film formed by co-extrusion of a polyethylene-based resin and a polypropylene-based resin, comprising: a first film layer made of a first polypropylene-based resin blend; From the group consisting of a chuck layer on the first film layer, a second polypropylene-based resin blend, and a metallocene low-density linear polyethylene (m-LLDPE), a styrene-based resin, an ethylene-based resin, a butadiene-based resin, and a propylene-based resin a second film layer comprising a resin compound made of a plurality of selected resins; and a polyethylene-based resin blend laminated on the second film layer; and a third film layer including the resin compound.
Meanwhile, in the polyolefin-based co-extrusion film, the first film layer may be disposed to face the Danpla sheet, and the third film layer may be disposed to face the pressure-sensitive adhesive film.
In terms of process, the danpla sheet and the deco sheet are thermally extruded and laminated, and the laminated danpla sheet and the deco sheet are laminated with the separately prepared adhesive film.

Danpla decoration board for building finishing according to the present invention includes the cushioning property, which is the basic characteristic of Danpla, and due to the foaming property of the foamed resin layer included in the adhesive film, when it is installed on the floor, wall, etc. for interior finishing As a lightweight material, it has excellent workability, and furthermore, it is possible to maximize the sound insulation and heat insulation effect of the construction surface.

In addition, the Danpla decoration board of the present invention includes a decoration sheet having various design and functional characteristics on the exposed surface in addition to the basic physical properties of Danpla, so that various printing effects and textures can be realized as well as added to the decoration sheet. Depending on the functionality, various functions such as flame retardancy, sound absorption, and weather resistance may be exhibited.

In addition, the Danpla decoration board of the present invention has very excellent bonding strength between the decoration sheet, the Danpla sheet and the adhesive film, so that it can function stably as a finishing material on the floor, wall surface and other poor environments only with the durability of the decoration board itself. there is.

On the other hand, the Danpla deco board is provided in a plate-like board type, so that a contractor can create a customized construction surface by dividing the construction surface in various ways, cutting the decoration board and attaching it to the construction surface. Through this, it is possible to easily implement various visual effects as well as functions as a basic finishing material. The installer simply removes the release film from the provided decoration board and attaches it to the construction surface.

As described above, not only the application possibilities of the Danpla decoration board according to the present invention are limitless, but also it is possible to create an eco-friendly building environment unlike the existing PVC board made of only polyolefin-based resin.

1 is a cross-sectional view conceptually showing a cross section of a Danpla decoration board for building finishing according to an embodiment of the present invention.
2 is a cross-sectional view conceptually showing the partition structure of the danpla sheet by enlarging part A of the present invention.
3 is a cross-sectional view showing an embodiment of the decoration sheet of FIG.
4 is a cross-sectional view illustrating the layered structure of the functional unit of the decor sheet of FIG. 2 .
5 is a cross-sectional view showing an embodiment of the adhesive film of FIG.
6 is a cross-sectional view showing a laminating method of the Danpla decoration board according to an embodiment of the present invention.
7 is a cross-sectional view showing a laminating method of Danpla decoration board according to another embodiment of the present invention.
8 is a cross-sectional view illustrating a layered structure of the polyolefin-based co-extrusion film of FIG. 7 .

Hereinafter, with reference to the accompanying drawings, a Danpla decoration board for building finishing according to an embodiment of the present invention will be described in detail. However, the following descriptions are exemplary descriptions for concretely explaining the technical idea of the present invention, and the technical idea of the present invention is not limited by the following description. It is natural that various embodiments other than the following description are possible, and the technical spirit of the present invention can only be interpreted and limited by the claims described below.
In addition, since the scale of each layer in the drawings referenced for the following description may be conceptually exaggerated for explanation, the technical elements of the size or thickness of the Danpla decoration board of the present invention are not limited by the scale of the drawings .
In addition, the decoration sheet attached to the decoration board may be variously changed according to the purpose of the decoration board and the construction environment.
1 is a cross-sectional view conceptually showing a cross section of a Danpla decoration board for building finishing according to an embodiment of the present invention.
Referring to FIG. 1 , a danpla decoration board 10000 for building finishing includes a danpla sheet 1000 , a decoration sheet 2000 , and an adhesive film 3000 . The danpla sheet 1000 is a hollow sheet 1000 including a partition wall therein. In this embodiment, the danpla sheet 1000 is manufactured by molding a polypropylene resin. The decor sheet 2000 will be described later, but as an area laminated to the danpla sheet 1000 and exposed to the outside, various design elements may be implemented in addition to functional characteristics. An example of the detailed layered structure of the decor sheet 2000 will be described later. The adhesive film 3000 performs a function for attaching the Danpla decoration board 10000 to a finished part such as a floor or a wall.
Danpla decoration board 10000 of the present invention, in addition to the basic physical properties of the Danpla sheet 1000, by adjusting the physical properties of the decoration sheet 2000 and the adhesive film 3000 to realize various physical properties of the overall decoration board 10000 can
On the other hand, if durability enhancement is necessary in consideration of the specificity of the construction area and the use of the Danpla decor board 10000, the structure of the bulkhead of the Danpla sheet 100 may be changed.
2 is a cross-sectional view conceptually showing the partition structure of the danpla sheet by enlarging part A of the present invention.
In order to strengthen the mechanical properties such as the strength of the Danpla decoration board 10000, as shown in FIG. 2 , the Danpla sheet 1000 is a partition wall ( 1300) structure can be placed.
In the present embodiment, the Danpla sheet 1000 has a bulkhead structure 1300 in which vertical bulkheads 1310 and diagonal bulkheads 1320 are regularly and repeatedly formed. However, in the case of finishing construction that does not require special strength, a repeating structure of the vertical bulkhead 1310 in consideration of cost is employed as the bulkhead structure 1300 .
The Danpla decoration board 10000 is manufactured as a plate-shaped board, and the size and shape may be variously modified according to the construction use, and the builder may cut it arbitrarily and use it. Therefore, it is possible to finish the interior with various types of design elements according to the intention of the builder.
This Danpla decoration board 10000 is an eco-friendly material that excludes PVC resin as a whole by including the Danpla sheet 1000 made of propylene resin and the decoration sheet 2000 based on polyolefin resin, and thus, the work stability and construction It is an eco-friendly building material that can maximize the eco-friendliness of the environment.
3 is a cross-sectional view showing an embodiment of the decoration sheet of FIG. 4 is a cross-sectional view illustrating the layered structure of the functional unit of the decor sheet of FIG. 2 .
Referring to FIG. 3 , the decor sheet 2000 includes a base unit 2100 , a functional unit 2200 , and an adhesive layer 2300 that mediates adhesion of the base unit 2100 and the functional unit 2200 .
As shown in FIG. 3 , the base unit 2100 is formed of a triple polyolefin resin film layer. In this embodiment, it is described that the base unit 2100 itself corresponds to the triple polyolefin resin film layer. Alternatively, an additional layered structure may be interposed between the triple polyolefin resin film layer and the adhesive layer 2300. .
The triple polyolefin resin film layer 2100 has the same concept as the base unit 2100, and hereinafter the same reference numeral '2100' is used. The polyolefin resin film layer 2100 is respectively formed on the lower and upper portions of the first unit layer 2110 and the first unit layer 2110 made of a polyolefin-based resin, and similarly, a second unit layer 2120 made of a polyolefin-based resin. ) and a third unit layer 2130 .
As the polyolefin-based resin constituting each of the unit layers 2110, 2120, and 2130, a polypropylene-based resin is used in this embodiment. The 'polyolefin-based resin' is a concept including a single polyolefin-based resin as well as a blend of a plurality of polyolefin-based resins having various molecular weights, melting points and melt indexes.
In addition, it is apparent that each of the unit layers 2110 , 2120 , and 2130 may include various functional additives such as antioxidants, slip agents, and heat-resistant stabilizers.
The second unit layer 2120 and the third unit layer 2130 formed on both surfaces of the first unit layer 2110 each contain a polar group generated by the reaction of maleic anhydride with a polyolefin-based resin. Examples of the polar group include '-COO' and '-COOH'.
The third unit layer 2130 functions as a corresponding surface that is substantially bonded to the danpla sheet 1000 .
On the other hand, as the polyolefin-based resin included in the unit layers 2110, 2120, 2130, a polypropylene resin having a melt index of 3.0 g/10 min to 12 g/10 min at 230 ° C. and a melting point of 140 ° C. to 160 ° C. or these It is preferred that a blend of The unit layers 2110, 2120, and 2130 formed of the resin have an elongation of at least 800% or more.
4, the functional unit 2200 is a multi-polyolefin-based resin film layer 2210, a printed layer 2220 formed under the resin film layer 2210, and an upper portion of the resin film layer 2210 and a decoration. and a thermosetting resin layer 2230 formed on the outermost layer that is the exposed surface of the sheet.
The printing layer 2220 is a layer formed by printing on one surface of the resin film layer 2210, and the printing may include a pattern and various visual effects. The printing method of the print layer 2220 is not particularly limited, but a gravure printing method capable of efficiently exhibiting various pattern effects may be used. By configuring the resin film layer 2210 and the thermosetting resin layer 2230 with a transparent resin, various visual and color characteristics of the printed layer 2220 can be implemented in the Danpla decoration board 10000. Unlike conventional danpla boxes that express a single color from the resin molding step to master batch, etc., this danpla decor board 10000 can implement all the intended design elements, and furthermore, visually create a variety of textures. make it feel
The thermosetting resin layer 2230 is formed by overcoating a thermosetting resin on the resin film layer 2210, and functions as a kind of protective layer and can contribute to improving the durability of the overall decorative sheet.
The resin film layer 2210 is a fourth unit layer 2211 made of a polyolefin-based resin, also made of a polyolefin-based resin, but includes a UV stabilizer, and is formed continuously in the direction of the outermost layer on the fourth unit layer 2211 It includes a fifth unit layer 2212 and a sixth unit layer 2213 . As the UV stabilizer, it is preferable to use a 1:1 mixture of a UV stabilizer having absorption and reflection properties.
Since the polyolefin-based resin constituting each of the unit layers 2211 , 2212 , and 2213 is basically the same as the polyolefin-based resin of the base unit 2100 , the overlapping description will be omitted below. However, since the phase in the decoration sheet of the functional unit 2200 is different from that of the base unit 2100, the detailed resin composition may be changed.
Since the resin film layer 2210 has a double UV stabilizer-containing unit layer 2212 and 2213 forming a double structure in the outermost direction, it is possible to significantly improve the weather resistance of the decor sheet. In addition, the resin film layer 2210 may be formed by co-extrusion of three types of resin compositions as described for the base unit 2100 .
Although not described in this embodiment, the functional unit 220 may include various additional functional layers such as a flame retardant film and an antifouling film, and these functional layers may be variously employed from known techniques. In addition, various functional additives having flame retardant and antifouling effects may be introduced into the composition constituting the resin film layer 2210 .
In the above, as the decor sheet 2000, the base unit 2100 and the functional unit 2200 have both been described as having polyolefin-based resin layers having a triple structure, but differently, the resin film constituting the functional unit 2200 The layer 2210 may be implemented as a single film in some cases.
5 is a cross-sectional view showing an embodiment of the adhesive film of FIG.
Referring to FIG. 5 , the adhesive film 3000 includes a foamed resin layer 3100 , an adhesive layer 3200 , and a release film 3300 .
The adhesive film 3000 is attached to the Danpla sheet 1000 so that when the installer constructs the Danpla decoration board 10000, the release film 3300 is removed to be easily attached to the construction surface. do.
The pressure-sensitive adhesive layer 3200 is applied to the release film 3300, and the pressure-sensitive adhesive component penetrates into the foamed resin layer 3100 during the roller compression process with the foamed resin layer 3100, and the foamed resin layer 3100. to impart adhesive properties.
The foamed resin layer 3100 may include polypropylene foamed resin or polyethylene foamed resin, and the foaming method generally includes a chemical foaming method utilizing a foaming agent. The foamed resin layer 3100 functions as a foam (FOAM), in addition to the cushioning properties of the Danpla sheet 1000, by adding a cushioning property by the foam to the soundproofing and insulation of the Danpla deco board 10000 It is possible to maximize the effect such as, and furthermore, the Danpla decoration board 10000 can be used as a lightweight building material.
6 is a cross-sectional view showing a laminating method of the Danpla decoration board according to an embodiment of the present invention.
In this embodiment, the laminated danpla sheet 1000 and the deco sheet 2000 are preferentially laminated to form a combination, and the binder is thermocompressed with the prepared adhesive film 3000 to form the danpla deco board 10000. can do.
Considering that the Danpla sheet 1000 is made of a PP resin, it is preferable to use a PP foamed resin in consideration of the compatibility of the above-mentioned foamed resin layer 3100 in order to improve bonding strength. The lamination method of this embodiment is a method that does not include a separate intermediate film.
7 is a cross-sectional view showing a laminating method of Danpla decoration board according to another embodiment of the present invention.
Unlike the method described with reference to FIG. 6, the lamination method of this embodiment is a method in which the binders 1000 and 2000 and the pressure-sensitive adhesive film 3000 are thermocompression-bonded through the polyolefin-based co-extrusion film 4000 .
8 is a cross-sectional view illustrating a layered structure of the polyolefin-based co-extrusion film of FIG. 7 .
Referring to FIG. 8 , the coextrusion film 4000 sequentially includes a first film layer 4100 , a second film layer 4200 , and a third film layer 4300 in a laminated form.
The first PP (4100) layer includes a first polypropylene-based resin blend. The first polypropylene-based resin blend includes a random polypropylene-based copolymer to improve moldability and processability during secondary processing such as heat-sealability. On the other hand, it is advantageous in terms of secondary workability to have a melting point of 140 to 150° C. of the first film layer 4100 .
On the other hand, the first propylene-based resin blend is a propylene-based copolymer containing 3 to 5 w% of EPR (Ethylene Propylene Ruber) and 2 to 5 w% of butadiene for improving heat resistance, tertiary propylene containing 2 to 5 w% based copolymers may be included.
A second film layer 4200 and a third film layer 4300 are sequentially stacked on the first film layer 4100 . The second film layer 4200 and the third film layer 4300 are layers that are fused to each other by co-extrusion, and the second film layer 4200 and the third film layer 4300 are common for improving mutual bonding strength. of resin. Hereinafter, the resin for improving the bonding strength will be referred to as a 'compound resin'. The compound resin is pre-compounded in the form of chips, etc., and then mixed with the resin blend of each layer in the co-extrusion process and co-extruded.
The compound resin includes metallocene low-density linear polyethylene (m-LLDPE), a styrene-based resin, an ethylene-based resin, a butadiene-based resin, a propylene-based resin, and the like, and the compound resin is at least two or more of the resins listed above. is made of For example, the compound resin may be a resin including any one of a styrene-based resin, an ethylene-based resin, a butadiene-based resin, and a propylene-based resin and the m-LLDPE resin in a 1:1 ratio. On the other hand, it is preferable that the compound resin has a melt index of 3 g/10 min to 10 g/10 min (230° C., 2.16 kg load) in order to suppress the peeling phenomenon between PE/PP.
The second film layer 4200 includes the second polypropylene-based resin blend and the aforementioned compound resin. The second polypropylene-based resin blend includes a block copolymer-type polypropylene-based resin in consideration of strengthening fusion properties. On the other hand, the second propylene-based resin blend is a propylene-based copolymer containing 3 to 5 w% of EPR (Ethylene Propylene Ruber) and 2 to 5 w% of butadiene to enhance heat resistance. copolymers may be included. The second film layer 4200 may be a film whose melting point is adjusted in a range of 148°C to 158°C.
The third film layer 4300 includes a polyethylene-based resin blend and the aforementioned compound resin. The polyethylene-based resin blend may include an ethylene-based copolymer and m-LLDPE having a melt index of 3 g/10 min to 8.0 g/10 min (190° C., 2.16 kg load) to enhance cold resistance. The third film layer 4300 is a film whose melting point is adjusted in a range of 110°C to 180°C.
Although not described above, each of the layers 4100, 4200, and 4300 may contain a transparency enhancer when the film of the product requires transparency, and in addition, in consideration of the required physical properties and uses of the final product, commercially available Antioxidants, slip agents, heat-resistant stabilizers, light stabilizers, and the like may be included as additives.
As the transparency enhancer, for example, sorbitol-based MILLARD3988 ^ⓡ and the like may be used. In addition, Milliken's NX8000 ^ⓡ product may be considered. In particular, it is advantageous in terms of durability and corrosion resistance of the packaging film to use a HALS (Hindered Amine Light Stabilizer)-based UV stabilizer as the light stabilizer.
The first film layer 4100 of the polyolefin-based co-extrusion film 4000 is disposed to face the Danpla sheet 1000 made of PP resin, and the third film layer is disposed to face the adhesive film 3000 . . In this case, the foamed resin layer 3100 of the adhesive film 3000 preferably includes a polyethylene-based foamed resin.
By using the polyolefin-based co-extrusion film 4000, the bonding strength of the Danpla decor board 1000 can be further improved.

Claims (9)

Danpla sheet having a hollow structure including a partition wall therein;
Polyolefin-based decorative sheet laminated on one side of the Danpla sheet ; and
Adhesive film laminated to the other side of the Danpla sheet
includes,

The deco sheet is
A sheet made by bonding a base unit and a functional unit having a plurality of layered structures ,
One side of the base unit is laminated with the one side of the Danpla sheet,

At least one of the base unit and the functional unit
It includes a multi-polyolefin-based resin film layer in which a plurality of unit layers made of a polyolefin-based resin are sequentially stacked,

The multi-polyolefin-based resin film layer,
A first unit layer made of a polyolefin-based resin; and
a second unit layer and a third unit layer formed on both sides of the first unit layer, respectively, and each containing a polar group generated by the reaction of maleic anhydride with a polyolefin-based resin;

The polyolefin-based resin film layer is
It is formed by co-extrusion of the resin compositions constituting each unit layer,

The bulkhead includes a vertical bulkhead and a diagonal bulkhead regularly and repeatedly,
The adhesive film is
a foamed resin layer made of polypropylene foamed resin or polyethylene foamed resin;
a pressure-sensitive adhesive layer formed on one surface of the foamed resin layer ; and
It includes a release paper film formed on the pressure-sensitive adhesive layer,

The Danpla sheet and the adhesive film are
It is laminated by thermocompression bonding through a polyolefin-based co-extrusion film ,

The polyolefin-based coextrusion film is
As a multi-film formed by co-extrusion of a polyethylene-based resin and a polypropylene-based resin,
A first film layer made of a first polypropylene-based resin blend;
From the group consisting of a chuck layer on the first film layer, a second polypropylene-based resin blend, and a metallocene low-density linear polyethylene (m-LLDPE), a styrene-based resin, an ethylene-based resin, a butadiene-based resin, and a propylene-based resin a second film layer comprising a resin compound made of a plurality of selected resins; and
laminated on the second film layer, a polyethylene-based resin blend; and a third film layer comprising the resin compound.
including,

The polyolefin-based co-extrusion film is
The first film layer is opposite to the danpla sheet, and the third film layer is arranged to face the adhesive film.
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The danpla sheet and the deco sheet are
It is thermally extruded and laminated,
Danpla decoration board for building finishing, characterized in that the laminated Danpla sheet and the decoration sheet are laminated with the separately prepared adhesive film.

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