KR20170063012A - sheet type decorative flooring - Google Patents

Abstract

The present invention relates to a sheet-like flooring having a smooth surface after application, comprising: an upper layer comprising a dimensionally stable layer formed of resin-impregnated glass fibers; A first foam layer formed on a lower portion of the upper layer to provide a cushioning feeling when pressed; And a second foam layer formed below the first foam layer and foamed at a higher magnification than the first foam layer and deformed according to the unevenness of the bottom surface of the building structure.

Description

{Sheet type decorative flooring}

The present invention relates to a sheet-like flooring material, and more particularly, to a sheet-like flooring material having a smooth surface after application so that the surface becomes smooth after application to improve the beauty of the appearance.

If the floor of the interior part of the building is exposed to the cement surface as it is, the appearance of the building is inevitably reduced.

For this reason, the floor of the interior of the building is closed with flooring in the interior process.

Because the flooring material decorates the bottom of the building structure through its own color and pattern, the appearance of the exterior of the building can be increased compared to the floor surface of the building exposed to the cementitious surface.

Such a flooring material may be classified into a tile type, a floor type, a sheet type, and the like.

At this time, the sheet-like flooring material is easy to install and is excellent in sound insulation, and in particular, the color and the pattern can be diversified to further improve the appearance.

However, when the concave and convex portions 110 are formed on the bottom surface 100 of the building structure as shown in FIG. 4, the conventional sheet-type flooring material has a problem that the appearance of the appearance is lowered because the surface is uneven after the construction .

In order to solve the above problem, that is, the problem that the surface is uneven after the application of the sheet-like flooring material, the foam layer is formed at the lower end of the sheet-type flooring material.

At this time, the foam layer itself is easily deformed along the unevenness of the bottom surface of the building structure, that is, the unevenness is accommodated, thereby preventing the unevenness from occurring on the surface, so that the surface can be smooth after the construction.

However, when the expansion ratio is increased so that the foam layer can be easily deformed, the restoring force to the pre-pressurization state after the pressurization decreases. Therefore, when the surface is pressed as shown in FIG. 5, And there is a problem that the appearance of the appearance is deteriorated.

In addition, in order to solve the problem of the sheet-like flooring material which has irregularities on the surface after the construction, artificial irregularities are formed on the bottom surface as disclosed in Korean Registered Utility Model No. 20-0263231 (public announcement: 2001. 02. 04.) There has been proposed a sheet-like flooring material capable of maintaining the state of being floated from the bottom of the building structure by the uneven portion, thereby preventing the unevenness on the surface.

However, in order to artificially form concave / convex portions on the bottom surface of the sheet-like flooring, another facility called a rotary screen printing machine has been required, and therefore, there has been a problem in that additional facilities are provided.

For the above reasons, in the field of the art, there has been attempted to develop a sheet-type flooring material which can smoothly surface after installation and which can utilize existing production facilities and prevent the generation of a pressing mark when the surface is pressed, Of the population.

The present invention has been made in view of the above circumstances, and it is an object of the present invention to provide a method of manufacturing a floor covering material, which is capable of eliminating the problem that unevenness is formed on the surface, It is an object of the present invention to provide a sheet-like flooring material having a smooth surface.

In addition, the present invention provides a sheet-like flooring material having a smooth surface after application, which can solve the problem that a pressing mark is generated on a pressing portion when the surface of a conventional sheet- The purpose is to provide.

It is another object of the present invention to provide a sheet-like flooring material having a smooth surface after installation so as to solve the problem that a burden due to the provision of a separate facility in the production of a conventional sheet-type flooring material including a concave-

In order to accomplish the above object, there is provided a sheet-like flooring material having smooth surface after application, comprising: an upper layer including a dimensional stability layer formed of resin-impregnated glass fiber; A first foam layer formed on a lower portion of the upper layer to provide a cushioning feeling when pressed; And a second foam layer formed below the first foam layer and foamed at a higher magnification than the first foam layer and deformed according to the unevenness of the bottom surface of the building structure.

The upper layer may be laminated on at least one layer of the print layer for color and patterning, a transparent layer for protecting the lower layer, and a surface treatment layer for preventing contamination and damage of the lower layer.

The first foam layer may be foamed at an expansion ratio of 150-330%.

The first foam layer may have a thickness of 1.0-5.0 mm.

The first foamed layer may be laminated with the upper layer by hot pressing.

The second foam layer may be foamed at an expansion ratio of 350-1000%.

The second foam layer may have a thickness of 0.6 to 2.0 mm.

The second foam layer may be laminated with the first foam layer by heat pressing.

In the sheet-type flooring material having a smooth surface after the construction according to the present invention, the first foamed layer and the second foamed layer are sequentially formed at the lower part of the upper layer, and the second foamed layer is foamed at a higher expansion ratio than the first foamed layer The deformation of the bar and the second foam layer allows the concave and convex portions of the bottom of the building to be accommodated and the unevenness on the surface is prevented, so that the surface can be maintained smooth after the construction, and the appearance can be enhanced.

In addition, since the first foamed layer is foamed at a low expansion ratio as compared with the second foamed layer, the sheet-shaped flooring material having a smooth surface after the construction according to the present invention is smoothly restored after being pressurized by the first foamed layer, And the appearance can be enhanced.

In addition, since the first foamed layer and the second foamed layer are produced by the existing production facility, the sheet-type flooring material having a smooth surface after the construction according to the present invention can be less burdensome to provide additional facilities .

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a sectional view for explaining the structure of a sheet-type flooring material having a smooth surface after construction according to the present invention; FIG.
FIG. 2 is a sectional view showing an example in which a print layer, a transparent layer, and a surface treatment layer are sequentially laminated on an upper surface of a dimensionally stable layer in a sheet-type flooring material having a smooth surface after construction according to the present invention.
Fig. 3 is an exemplary view for explaining a deformation of a second foamed layer in a sheet-type flooring material having a smooth surface after construction according to the present invention; Fig.
Fig. 4 is an exemplary view for explaining the surface irregularity occurrence in a conventional sheet-type flooring. Fig.
Fig. 5 is an exemplary view for explaining the generation of a pressing mark on a surface in a conventional sheet-type flooring. Fig.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 1, a sheet-like flooring A having a smooth surface after construction according to the present invention includes an upper layer 70, a first foam layer 20, and a second foam layer 10 .

The upper layer 70 includes a dimensional stability layer 30 formed of resin-impregnated glass fibers.

Since the upper layer 70 includes the dimension stabilizing layer 30, changes in the dimensions and shape of the product due to changes in humidity, temperature, etc. after the construction are minimized due to the material properties of the dimension stabilizing layer 30.

2, at least one of the print layer 40, the transparent layer 50, and the surface treatment layer 60 (not shown in the figure) is formed on the dimensionally stable layer 30). ≪ / RTI >

The print layer 40 may be laminated on the dimension stabilizing layer 30 to impart color and pattern to the print layer 40 and the transparent layer 50 may be laminated to the transparent layer 50 And the surface treatment layer 60 can be prevented from being contaminated and damaged by the surface treatment layer 60 because the surface treatment layer 60 is laminated.

The technique of stacking at least one layer of the print layer 40, the transparent layer 50 and the surface treatment layer 60 on the dimension stabilizing layer 30 is generally described in a general sheet type flooring material , A further detailed description will be omitted.

Meanwhile, the resin may be of any kind as long as it can stably form the upper layer 70, for example, it may be a PVC sol.

The first foam layer 20 is formed under the upper layer 70 to provide a cushioning feeling when pressed.

When the expansion ratio of the first foamed layer 20 is less than 150%, the first foamed layer 20 may become relatively hard to provide a cushion feeling when pressed. If the expansion ratio exceeds 330%, the first foamed layer 20 may be relatively excessively retreated It is preferable that the first foam layer 20 is foamed at a foaming magnification of 150-330%.

If the thickness of the first foam layer 20 is less than 1.0 mm, the provision of the cushion feeling during pressurization may be insufficient due to the relatively thin thickness. If the thickness of the first foam layer 20 exceeds 5.0 mm, It is preferable that the thickness of the first foam layer 20 is 1.0 to 5.0 mm.

Meanwhile, the first foam layer 20 is poured with the upper layer 70 by hot pressing, so that the first foam layer 20 and the upper layer 70 are continuously and firmly coupled to each other.

The second foam layer 10 is formed under the first foam layer 20 and foamed at a higher magnification than the first foam layer 20 to form the concave and convex portions 110 of the bottom 100 of the building structure. .

If the expansion ratio of the second foamed layer 10 is less than 350%, the second foamed layer 10 may become relatively hard and the deformation of the bottom 100 of the building structure due to the unevenness 110 may be insufficient, The first foam layer 20 and the upper layer thereof can be deformed due to the relatively inability to overcome the unevenness 110 of the bottom 100 of the building structure. ) Is preferably foamed at an expansion ratio of from 350 to 1000%, and more preferably expanded at an expansion ratio of from 400 to 600%.

When the thickness of the second foamed layer 10 is less than 0.6 mm, the concave and convex portions 110 of the bottom 100 of the building structure may be damaged by the relatively thin thickness of the first foamed layer 20 If the thickness of the first foam layer 20 is more than 2.0 mm, the cost of the second foam layer 10 may increase. Is preferably formed to 0.6 to 2.0 mm.

The second foam layer 10 is paired with the first foam layer 20 by heat pressing so that the combined state of the second foam layer 10 and the first foam layer 20 is continuously maintain.

Hereinafter, overcoming the unevenness 110 of the bottom 100 of the building structure through the sheet-like flooring A having a smooth surface after the construction according to the present invention will be described in detail.

In the present invention, the second foamed layer 10, which is the lowest layer of the product, is foamed at an expansion ratio of 350 to 1000%, and thus has a relatively soft nature.

3, the second foam layer 10 is easily deformed according to the unevenness 110 of the bottom surface 100 of the building structure, that is, the unevenness 110 is accommodated in the second foam layer 10, That is, since the first foam layer 20 and the upper layer 70 can be smoothly formed, irregularities 110 are prevented from being generated on the surface, so that the beauty of the appearance after the application is improved.

However, the deformation of the second foam layer 10 may lead to deformation of the adjacent upper layer, i.e., the first foam layer 20.

However, the portion of the second foam layer 10 adjacent to the floor 100 of the building structure is mainly deformed, and the first foam layer 20 is formed thicker than the second foam layer 10 In addition, the second foam layer 10 is foamed at a foam expansion rate of 150-330% lower than that of the second foam layer 10 and is relatively harder than the second foam layer 10, Deformation of the first foam layer 20 is prevented even if it is deformed, so that the occurrence of irregularities on the surface is prevented.

On the other hand, the first foam layer 20 can prevent the occurrence of the pressing force M in the pressing portion.

That is, the first foam layer 20 is foamed at a lower expansion ratio than the second foam layer 10 and is relatively harder than the second foam layer 10, 2 Even in a state where the foam layer 10 is pressed, the first foam layer 20 can be smoothly restored to the pre-pressure state, so that the occurrence of the pressing force M in the pressing portion can be prevented, .

[Example 1]

The glass fiber was impregnated with PVC sol and then gelled with a heating drum to form the dimensionally stable layer 30 having a thickness of 0.4 mm.

Next, a gravure printing pattern was applied to the upper surface of the dimension-stabilizing layer 30 to form the printing layer 40.

Next, the transparent layer 50 having a thickness of 0.7 mm produced by the calendering method was hot-laminated on the print layer 40.

Next, a urethane methacrylate ultraviolet curing type surface treatment agent is coated on the transparent layer 50 and then cured to form the surface treatment layer 60 having a thickness of 0.02 mm to form the upper layer 70.

Next, the first foamed layer 20, which was made by the calendering method and formed of a PVC resin, and which had a thickness of 2.0 mm and an expansion ratio of 270%, was laminated with the upper layer 70 through hot pressing.

Next, the second foam layer 10, which is made of a calendering method and formed of a PVC resin and has a thickness of 2.0 mm and an expansion ratio of 350%, is poured with the first foam layer 20 through hot pressing, A sheet-type flooring material having a total thickness of 5.12 mm was produced.

[Comparative Example 1]

The second foamed layer 10 was removed to prepare a sheet-like flooring material having a total thickness of 3.12 mm.

[Comparative Example 2]

The first foamed layer 20 was formed to a thickness of 4.0 mm and the second foamed layer 10 was removed to produce a sheet-like flooring having a total thickness of 5.12 mm.

 The sheet-type flooring material according to Example 1, Comparative Example 1 and Comparative Example 2 was coated on the bottom surface 100 formed with the concave and convex portions 110 having a depth of 0.3 mm and the concave and convex portions 110 having a depth of 0.4 mm The bottom surface 100 having the depth of 0.6 mm and the bottom surface 100 having the depth of 1.0 mm and the bottom surface 100 having the depth of 1.0 mm are formed on the bottom surface 100, And the results are summarized in Table 1 below. ≪ tb > < TABLE >

Depth of ruggedness 0.3mm Uneven depth 0.4mm Depth of ruggedness 0.6mm Uneven depth 1.0mm Example 1 Good Good Good Uneven generation Comparative Example 1 Uneven generation Uneven generation Uneven generation Uneven generation Comparative Example 2 Good Uneven generation Uneven generation Uneven generation

The second foam layer 10 is formed under the first foam layer 20 through the above Table 1 so that when the depth of the protrusions 110 formed on the bottom surface 100 is 0.3-0.6 mm The unevenness 110 of the bottom surface 100 is overcome by deformation of the second foam layer 10 so that only the first foam layer 20 is included or only the first foam layer 20 However, it can be seen that the formation of the irregularities on the surface after the application is prevented as compared with the case where the thickness is thickened.

As described above, the sheet-type flooring material A having a smooth surface after the construction according to the present invention is formed in such a manner that the first foamed layer 20 and the second foamed layer 10 are sequentially placed under the upper layer 70 And the second foam layer 10 is foamed at a higher expansion ratio than the first foam layer 20 so that the deformation of the second foam layer 10 causes the deformation of the bottom surface 100 of the building structure. Since the surface of the second foam layer 10 is accommodated and the surface of the second foam layer 10 is prevented from being uneven, it is possible to maintain a smooth surface after the application, Since the first foam layer 20 is smoothly restored after being pressurized by the first foam layer 20, the occurrence of the pressing force M can be prevented and the appearance of the first foam layer 20 can be enhanced, Layer 20 and the second foam layer 10 are produced by existing production equipment, It is possible to reduce the burden on the user.

As described above, the present invention is not limited to the above-described embodiments, and can be modified without departing from the gist of the present invention as claimed in the claims. And falls within the scope of protection of the invention.

10: second foam layer 20: first foam layer
30: dimensional stability layer 40: printing layer
50: transparent layer 60: surface treated layer
70: upper layer 100: bottom of the building structure
110: Uneven A: Sheet-type floor coverings
M:

Claims (8)

An upper layer comprising a dimensionally stable layer formed of resin-impregnated glass fibers;
A first foam layer formed on the lower portion of the upper layer to provide a cushioning feeling when pressed;
And a second foamed layer formed below the first foamed layer and foamed at a higher magnification than the first foamed layer and deformed according to the unevenness of the bottom surface of the building structure. Decorative material.
The method according to claim 1,
Wherein the upper layer is a laminate of at least one layer of a print layer for color and patterning, a transparent layer for protecting the lower layer, and a surface treatment layer for preventing contamination and damage of the lower layer, This smooth sheet-type flooring.
The method according to claim 1,
Wherein the first foam layer is foamed at an expansion ratio of 150-330%.
The method according to claim 1,
Wherein the first foam layer has a thickness of 1.0-5.0 mm.
The method according to claim 1,
Wherein the first foamed layer is plywood with the upper layer by heat pressing.
The method according to claim 1,
Wherein the second foamed layer is foamed at an expansion ratio of from 350 to 1000%.
The method according to claim 1,
Wherein the second foam layer has a thickness of 0.6 to 2.0 mm.
The method according to claim 1,
And the second foamed layer is paired with the first foamed layer by heat pressing.

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