KR101511318B1 - Green Panel filled with Functional Materials - Google Patents

Abstract

The present invention relates to a corrugated cardboard and a honeycomb cardboard filled with functional material. According to an embodiment of the present invention, the invention includes the corrugated cardboard with a corrugating medium inside it with a plurality of ridges combined with the liner boards on both side of the corrugating medium. On the upper ridge of the corrugated cardboard, a layer of corrugating medium is added, followed by another layer of liner boards on it, creating a multi-layered corrugated cardboard. By forming two layers of corrugating medium and three layers of liner boards; two layers of empty middle sections are created with a plurality of air vents in the corrugating medium and liner boards. Within the empty middle sections, a natural binder which contains any one of resin powder or starch mixed with any one of charcoal, germanium, red clay, or natural pozzolan is filled. On the opening section of the multi-layered corrugated cardboard, end-treated non-woven fabric is applied to keep the functional material from leaking.

Description

[0001] The present invention relates to an eco-friendly board filled with a functional material,

The present invention relates to a corrugated board and a honeycomb board filled with a functional material, wherein at least one functional material selected from the group consisting of charcoal, germanium, loess, or natural pozzolan is added to the corrugated board and the honeycomb board, To a corrugated board and a honeycomb board filled with a functional material to be mixed with a natural binder.

In the past, it was possible to utilize a plentiful manpower to save labor costs, and due to lack of awareness of the interior finishing board, the wet finishing using the mortar and mortar mortar was mainly used for interior finishing.

However, wet finishing is largely influenced by the skill of finishing workforce, and recently, the number of skilled finishing workforce is decreasing and the amount of construction work is greatly increased, so that the construction is simple, The use of interior finish boards such as gypsum boards and MDF boards that can ensure uniformity in construction quality is becoming commonplace.

Particularly, the gypsum board can be used for a wide range of applications such as general board, fireproof board, sound insulating board and the like, despite its low unit cost due to the use of a chemical fertilizer by-product. Especially, It is a used interior finishing board.

However, recently, the release of radon gas, a byproduct of chemical fertilizer, has become a social problem, and the use of gypsum board is gradually decreasing.

In recent years, interest in interiors has been increasing, especially in multi-family houses. To increase decorative features, volatile binders have been added to wooden chips, wood flour, and inorganic powders, Board, MDF board, CRC board (fiber reinforced cement board), and magnesium board. However, these finishing boards contain a large amount of materials that degrade indoor air quality.

In addition, due to the use of an interior finish adhesive, paint, wallpaper and the like for interior decoration, a large amount of volatile organic compounds such as formaldehyde is released in the room, thereby causing serious injury to the human body.

As a countermeasure for the above problem, yellow soil board, which is a mixture of rice straw and mulberry and pressed and formed into natural loess, was registered in Korean Patent No. 10-0448464. Yellow soil board, which is a mixture of yellow soil and glass fiber and press- And was filed as Patent Application No. 10-2011-0008066.

Although all of the above prior art documents use eco-friendly materials, it is necessary to use glass fiber, organic adhesive binder or the like in order to structurally combine them, thus still having problems with indoor air quality. In addition, since the weight is heavy and the thickness is thick, transportation is restricted, and the manufacturing method is complicated, which has a great influence on the increase of the product cost.

The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide an indoor building finishing panel which is easy to construct, but it can be easily transported by using a paper material which is natural raw material, A corrugated cardboard board and a honeycomb board which are filled with a functional material which does not deteriorate the function of the functional material and which is harmless to the human body and which prevents volatile organic compounds from being discharged by using an environmentally friendly functional material and a binder It has its purpose.

In order to attain the above object, the present invention provides a corrugated board (100) having corrugated sheets (110) having cores and mountains and corrugated sheets (120) adhered to both sides of the corrugated sheets (110) A corrugated sheet 110 of another layer is laminated on an upper portion of the corrugated sheet 110 and a liner sheet 120 is adhered to an upper portion of the corrugated sheet 110 to form a multi-layer corrugated board 101, A plurality of ventilation holes H are formed in each of the corrugated sheets 110 and the liner base paper 120 to form the hollow Wherein at least one of charcoal, germanium, loess, or natural pozzolan is contained in the hollow part (130), and the functional material (140) comprises at least one of a ground powder and a starch powder, Mixed with the binder (150), and the multi- The end surface of the support board 101, is characterized in that the functional material 140, the end portion being separated so as not to process the nonwoven fabric 160, which is attached.

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According to another embodiment of the present invention, a honeycomb structure 210 formed of a plurality of belt cartridges 211 and a honeycomb structure 210 may be formed by adhering a surface carton 220 to both surfaces of the honeycomb structured body 210 In the honeycomb board 200, another honeycomb structure 210 is stacked on the honeycomb board 200, and the surface carton 220 is bonded to the upper portion of the honeycomb structure 210 Two honeycomb structured bodies 210 and three surface layer cartridges 220 form two layers of hollow portions 230. Each honeycomb structured body 210 is formed of a multilayer honeycomb board 201, Germanium, loess, or natural pozzolana is formed in the hollow portion 230 by forming a plurality of ventilation holes H in the surface portion 210 and the surface carton 220, The functional material 240 including at least one functional material 240 may be at least one selected from the group consisting of a cloth Being mixed with a binder (250) filled, the end face of the multi-layer honeycomb board (201), the process being characterized in that the functional material 240, the end treatment nonwoven fabric 260 so as not to be a departure is attached.

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As described above, the corrugated cardboard board and the honeycomb board filled with the functional material of the present invention can provide an indoor construction finishing panel which is easy to construct.

In addition, it is advantageous in that it can be easily transported by using a paper material which is a natural raw material and light in weight, and it is easy to manufacture and the cost of a product can be lowered.

In addition, it is possible to prevent volatile organic compounds from being discharged by using at least one functional material of char, germanium, loess, or natural pozzolan and a natural binder in the hollow part, and it is possible to prevent the emission of far-infrared rays, , Deodorization and insecticide can be ensured.

Furthermore, by using eco-friendly binders such as rosin powder and starch powder, it is possible to secure sufficient binding force only by heating, humidifying and curing without pressurization.

This has the effect of securing the unique efficacy of the functional material and providing a binder harmless to the human body.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1A is a perspective view of a corrugated board according to various embodiments of the present invention. FIG.
1B is a perspective view of a honeycomb board according to various embodiments of the present invention.
FIG. 2A is a sectional view showing a corrugated board according to an embodiment of the present invention; FIG.
2B is a cross-sectional view of a honeycomb board according to an embodiment of the present invention.
FIG. 3A is a perspective view illustrating a corrugated cardboard board according to an embodiment of the present invention; FIG.
FIG. 3B is a perspective view illustrating a honeycomb board according to an embodiment of the present invention. FIG.
FIG. 4A is an enlarged cross-sectional view of a corrugated cardboard board according to an embodiment of the present invention; FIG.
4B is an enlarged cross-sectional view of a honeycomb board according to an embodiment of the present invention.
5 is a perspective view illustrating an eco-friendly board with an end-treated nonwoven fabric according to an embodiment of the present invention.

Embodiments of the present invention will now be described with reference to the accompanying drawings.

FIG. 1A is a perspective view illustrating a corrugated board 100 according to various embodiments of the present invention. The corrugated board 100 includes a corrugated fiberboard 110 having cores and mountains, And the liner raw paper 120 is formed.

At this time, another corrugated sheet 110 is stacked on the corrugated cardboard board 100 and the liner sheet 120 is adhered on the corrugated sheet 110 to form a multi-layer corrugated cardboard board 101.

Generally, a corrugated cardboard having a corrugated paper sheet 110 with two liner sheets 120 adhered to both corners is referred to as a double-sided corrugated paperboard, and a corrugated cardboard sheet having a liner sheet 120 adhered to one side of the corrugated paper sheet 110 is referred to as a single- do.

At this time, when the corrugated sheet 110 of the one-side corrugated cardboard is adhered to one side of the double-side corrugated cardboard, a double-sided corrugated cardboard is formed. When the corrugated sheet 110 of the one-side corrugated cardboard is adhered to one side of the double-sided corrugated cardboard, a triple-sided corrugated cardboard is formed.

In addition, the shape of the valleys and mountains of the corrugation 110 may be manufactured in various widths and sizes.

The corrugated cardboard board 100 of the present invention may include all of corrugated cardboards having various shapes described above, and is not limited to the shapes shown in Figs. 1A to 4A.

As described above, the corrugated cardboard board 100 according to the present invention is advantageous in that it can be easily transported because it is light in weight and can be manufactured easily, thereby reducing the cost of the product.

As shown in FIG. 1A, the corrugated board 100 is formed with a plurality of hollow portions 130 by the corrugated sheet 110 and the liner cloth 120.

At this time, at least one functional material 140 of char, germanium, loess, or natural pozzolan is mixed with the natural binder 150 and filled in the hollow part 130.

The functional material 140 can secure far-infrared ray emission effect, air purification function, antibacterial function, moisture absorption, deodorization and insect proof according to the characteristics.

Meanwhile, in order to bind the functional material 140, a binder must be included as an essential constituent. However, there is a problem that the binder releases a large amount of volatile organic compounds such as formaldehyde.

In addition, in the bonding process using a binder, the pressing process is essentially accompanied by particles of the functional material being consolidated, thereby reducing the surface area, thereby failing to exert the unique effect of the functional material.

As shown in FIG. 4A, the natural binder 150 of the present invention can be used in the form of powdered rice powder or starch powder. The use of natural materials can solve the problems caused by a decrease in indoor air quality. A starch powder, and a starch powder are melted at a room temperature. Therefore, a pressing process is not particularly required, so that it is possible to secure a wide surface area of the functional material.

5, the corrugated cardboard board 100 may have an end-treated nonwoven fabric 160 adhered to an end face thereof so that the functional material 140 is not removed during transportation.

The end-treated nonwoven fabric 160 is configured to prevent the functional material 140 or the natural binder 150 provided in the hollow portion 130 of the corrugated board 100 from being separated from the natural binder 150, The binding force is relatively weak and is a composition to compensate.

At this time, the end-treated nonwoven fabric 160 is attached at the time of transportation, and in some cases, it can be applied while it is attached.

3, the corrugated cardboard board 100 may have a plurality of ventilation holes H formed in the liner base paper 120. As shown in FIG. The vent hole H may be formed on at least one side of the corrugated board 100 so as to allow indoor air to contact the hollow 130 including the functional material 140.

In addition, it is also possible to form a vent hole H in the corrugated paper 110 to circulate air between the adjacent hollow portions 130 as occasion demands.

The functional material 140 can come into contact with the room air through the vent hole H and perform unique functions such as a far infrared ray emission effect, an air purifying function, antibacterial, moisture-proof, deodorant and insect proof.

1B is a perspective view illustrating a honeycomb board 200 according to various embodiments of the present invention. The honeycomb board 200 includes a honeycomb structure 210 formed of a plurality of belt cartridges 211, And a surface cardboard 220 adhered to both sides of the comb structure 210.

At this time, another honeycomb structure 210 is stacked on the honeycomb board 200, and the surface carton 220 is bonded to the honeycomb structure 210 to form the multi-layer honeycomb board 201, Is formed.

In general, the honeycomb structural body 210 is completed so as to form the hollow portion 130 by bonding the paper cartridges 211 of paper material at regular intervals and then pressing them upward, downward, leftward and rightward. The honeycomb board having the honeycomb structure 210 and the surface carton 220 bonded on both sides thereof is referred to as a double sided honeycomb board and the surface carton 220 is adhered to one side of the honeycomb structure 210 One honeycomb board is referred to as a single honeycomb board.

At this time, when the honeycomb structure 210 of the single-sided honeycomb board is bonded to one surface of the double-sided honeycomb board, a double-sided honeycomb board is formed. When the honeycomb structure 210 of the honeycomb single-sided board is bonded to one side of the double sided honeycomb board, a triple-sided honeycomb board is formed.

The honeycomb board 200 of the present invention may include all honeycomb boards having various shapes described above, and is not limited to the shapes shown in FIGS. 1B to 4B.

As described above, the honeycomb board 200 of the present invention is advantageous in that it can be easily transported because of its light weight and easy to manufacture, thereby reducing the cost of the product.

1B, the honeycomb structure 200 is formed with a plurality of hollow portions 230 by the honeycomb structure 210 and the surface cardboard 220.

At this time, at least one functional material 240 of char, germanium, loess, or natural pozzolan is mixed with the natural binder 250 and filled in the hollow part 230.

Meanwhile, the natural binder 250 may be a powdered rice powder or a starch powder.

5, the end treatment nonwoven fabric 260 may be attached to the end surface of the honeycomb board 200 such that the functional material 240 is not released during transportation.

Also, as shown in FIG. 4B, the honeycomb board 200 may have a plurality of ventilation holes H formed in the surface cardboard 220. The vent hole H may be formed on at least one surface of the honeycomb board 200 so as to allow room air to contact with the hollow portion 230 containing the functional material 240.

In addition, a vent hole H may be formed in the honeycomb structure 210 according to circumstances, so that air can be circulated between the adjacent hollow portions 230.

The corrugated board and the honeycomb board filled with the functional material according to the present invention described above are not limited to the above-described embodiments, and various modifications may be made without departing from the gist of the present invention, It should be understood that the present invention falls within the scope of the claims of the present invention to the extent that any person skilled in the art can variously change and carry out the invention.

100: corrugated board 101: multilayer corrugated board
110: corrugated paper 120: liner paper
130,230: hollow part 140,240: functional material
150,250: natural binder 160,260: end-treated nonwoven fabric
200: Honeycomb board 201: Multi-layer honeycomb board
211: belt carton 210: honeycomb structure
220: Surface carton H: Vent hole

Claims (8)

A corrugated cardboard board (100) comprising corrugated sheets (110) having cores and a plurality of cores and a liner cloth (120) adhered to both sides of the corrugated sheets (110)
A corrugated cardboard 110 is further layered on the corrugated cardboard board 100 and a linerboard 120 is adhered to the corrugated cardboard 110 to form a multilayer corrugated cardboard board 101, Two corrugated papers 130 are formed by the corrugated sheet 110 and the three liner sheets 120. A plurality of vent holes H are formed in each of the corrugated sheets 110 and the liner sheet 120 Wherein at least one of the ground powder or the starch powder is mixed with the functional material 140 containing at least one of char, germanium, loess, or natural pozzolan in the hollow part 130, and air is circulated between the hollow parts 130, Wherein the functionalized material (140) is adhered to the end surface of the multi-layer corrugated cardboard board (101) by mixing with the natural binder (150) Multilayer corrugated board filled with material.
delete delete delete A honeycomb structure (200) comprising a honeycomb structure (210) formed of a plurality of belt cartridges (211) and a surface cardboard (220) adhered to both sides of the honeycomb structure (210)
A honeycomb structure 210 is further layered on top of the honeycomb board 200 and a surface cardboard 220 is adhered to the honeycomb structure 210 to form a multilayer honeycomb board 201 Two hollows 230 are formed by two honeycomb structures 210 and three surface cartons 220. Each of the honeycomb structures 210 and the surface carton 220 is formed by a two- A functional material 240 having at least one of char, germanium, loess, or natural pozzolan is contained in the hollow part 230, and a plurality of air holes H are formed in the hollow part 230 to circulate air between the hollow parts 230. [ Layered honeycomb board 201 is filled with the natural binder 250 containing at least one of the resin powder and the starch powder, and the functional material 240 is filled in the end surface of the multi- (260) is adhered to the functional material The filled honeycomb board. delete delete delete

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