JP2009203698A - Floor panel and method of manufacturing the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a floor panel excellent in strength using a plastic film.
SOLUTION: On the front and back surfaces of an inorganic board, a polymer resin film having a tensile breaking strength of 150 to 350 MPa or more in both the longitudinal direction and the transverse direction and a tensile elongation of 80 to 200% in both the longitudinal and transverse directions. Is a floor panel to which is attached.
[Selection] Figure 1

Description

  The present invention relates to a floor panel for installation, and relates to the provision of a lightweight, high-strength, inexpensive floor panel having the same physical properties as a floor panel reinforced with a metal plate.

  Conventionally, floor panels made of inorganic or organic boards have been laid as floor materials for offices and the like. In order to ensure sufficient load resistance, this type of floorboard is provided with an adhesive such as a moisture-curable one-component polyurethane adhesive on the back side of the floor substrate made of calcium silicate board or cement board. The one formed by integrally sticking the reinforcing steel plate is widely used. For example, Patent Document 1 discloses a method for manufacturing a free access floor board in which a reinforcing steel plate is integrally attached to the back side of a floor substrate made of a calcium silicate board or a cement board. The adhesive is applied to the adhesive surface on one side of the substrate or the reinforcing steel plate, the curing catalyst of the adhesive is applied to the adhesive surface on the other side, and then both the plates are pressed and laminated. A method of manufacturing a free access floor board is disclosed.

However, such a laminate of a reinforcing steel plate to a floor panel substrate has a problem that it is heavy and expensive.
Further, since the floor panel base material is exposed on the surface, there are problems that the surface is rough, dust is generated, easily damaged and easily soiled.

  By the way, the role of the reinforcing steel sheet includes (a) improvement of load resistance, (b) improvement of impact resistance, (c) reduction of warpage, and (d) improvement of rolling load resistance. When supplementing these characteristics with other materials, for example, a method of adhering a thick plastic plate to the back surface can be considered. According to this method, the warpage was reduced, but cracking occurred in the load bearing test, impact resistance test, and rolling road test, and physical properties comparable to the reinforcing steel sheet could not be obtained. This is because the strength of the thick plastic plate is lower than that of the steel plate and is easy to break.

Then, next, the method of adhering the thick plastic film (polystyrene film) with high flexibility (it does not break) to the front and back of the floor panel base material was considered.
In addition, the method of adhere | attaching a plastic film on the single side | surface or both surfaces of a floor panel base material conventionally exists. However, its purpose is (1) “dust prevention”, (2) “moisture prevention” (Patent Document 2 etc.), (3) “preventing generation of harmful gas and black smoke under high temperature” (Patent Document 3 etc.), etc. Therefore, it was not intended for “strength measures” as in the present invention. In addition, when the plastic plate was bonded to the front and back surfaces, the load bearing test and warpage were good, but cracking occurred in the impact resistance test and rolling road test, and the same physical properties as the reinforcing steel sheet were obtained. could not. This is because a thick plastic film with high flexibility has insufficient tensile strength and elongation, and the plastic film has been torn.

JP 05-179207 A JP 05-214774 A Japanese Utility Model Publication No. 01-131520

  When a thick plastic film (polystyrene film) having high flexibility (not cracked) was adhered to the front and back surfaces, (a) load resistance, (b) impact resistance, and (c) warpage were all improved. However, (d) when a rolling road test was performed, it was found that the floor panel base material was cracked and damaged. When the damage situation was confirmed, it was observed that the plastic film was broken and the floor panel substrate was broken along with it. Then, this invention aims at providing the floor panel excellent in intensity | strength using a plastic film.

In general, it can be said that the inorganic board has a low bending strength and a weak force to withstand the rolling road test. In contrast, plastic films have different physical properties such as bending strength and tensile strength depending on the type of film and the manufacturing method.
Therefore, when various tests were carried out, if a plastic film having a tensile breaking strength of 150 to 350 MPa in both the longitudinal direction and the transverse direction and a tensile elongation of 80 to 200% in both the longitudinal direction and the transverse direction is used, (A) Load resistance, (b) Impact resistance, (c) Warpage, (d) Rolling road resistance are all excellent, and (e) Light weight, (f ) It has been found that an inexpensive floor panel can be obtained, and the present invention has been completed.

The present invention has the following effects.
(1) A polymer resin film having a tensile breaking strength of 150 to 350 MPa or more in both the vertical and horizontal directions and a tensile elongation of 80 to 200% in both the vertical and horizontal directions is bonded to the front and back surfaces of the inorganic board. By doing so, a floor panel excellent in any of (a) load resistance, (b) impact resistance, (c) warpage, and (d) rolling road resistance can be provided.
(2) Further, compared to a floor panel using a reinforcing steel plate, (e) a lightweight and (f) inexpensive floor panel can be provided.

Next, an embodiment of the present invention will be described.
Examples of the inorganic board include calcium silicate board, gypsum board, and cement board. These boards were molded to a thickness of 10 to 20 mm to obtain a floor panel base material. An adhesive was applied to the front and back surfaces of the floor panel substrate. Examples of the adhesive include urethane, epoxy, modified silicone, and chloroprene rubber. The adhesive may be applied in any way, and examples thereof include spray coating and roll coating. After the adhesive is applied or simultaneously with the application, the polymer resin film is bonded to the floor panel substrate. Examples of the polymer resin film include polyethylene terephthalate, polyester, and polypropylene. The thickness of the polymer resin film is suitably 0.05 to 1.0 mm. The floor panel substrate to which the polymer resin film is bonded is cut into a predetermined thickness for use.

[Example 1]
A polyethylene terephthalate film with a thickness of 0.1 mm (tensile strength: 186 MPa in the transverse direction, 235 MPa in the transverse direction, tensile elongation: 130% in the longitudinal direction, transversely) on the front and back surfaces of the calcium silicate board having a thickness of 14 mm and a density of 1.1 g / cm ³ Direction 90%). As the adhesive, a urethane-based adhesive was used.
The obtained plate-like body was cut into a size of 500 × 500 mm and subjected to a load resistance test, an impact resistance test, a rolling road test, and warpage measurement (free access floor test method: JIS A 1450, the same applies hereinafter).
The test results are shown in FIG.

[Comparative Example 1]
A calcium silicate board having a thickness of 14 mm and a density of 1.1 g / cm ³ was cut into a size of 500 × 500 mm, and a load resistance test, an impact resistance test, a rolling road test, and warpage were measured.
The test results are shown in FIG.

[Comparative Example 2]
On the front and back surfaces of a calcium silicate board having a thickness of 14 mm and a density of 1.1 g / cm ³ , a polystyrene film having a thickness of 0.25 mm (tensile strength: longitudinal direction 284 MPa, lateral direction 216 MPa, tensile elongation: longitudinal direction 47%, lateral direction 35%). As the adhesive, a urethane-based adhesive was used.
The obtained plate-like body was cut out to 500 × 500 mm, and a load resistance test, an impact resistance test, a rolling road test, and warpage were measured.
The test results are shown in FIG.

(Test results)
Example 1 is superior in all test results compared to Comparative Example 1 in which the polymer resin film is not adhered.
In Example 1, the tests of “impact resistance” and “rolling road resistance” were particularly compared with Comparative Example 2 in which a polymer resin film having a tensile elongation in the range of “80 to 200%” was adhered. Excellent in results.

  The present invention can be widely used as a floor panel for installation.

Test results in Examples and Comparative Examples

Claims (5)

  A polymer resin film having a tensile breaking strength of 150 to 350 MPa in both the vertical and horizontal directions and a tensile elongation of 80 to 200% in both the vertical and horizontal directions is bonded to the front and back surfaces of the inorganic board. A floor panel characterized by that.   The floor panel according to claim 1, wherein the polymer resin film is polyethylene terephthalate, polyester, or polypropylene.   The floor panel according to claim 1 or 2, wherein the inorganic board is a calcium silicate board, a gypsum board, or a cement board.   The floor panel according to any one of claims 1 to 3, wherein the adhesive is urethane, modified silicone, or chloroprene rubber.   A method for producing a floor panel, comprising: bonding a polymer resin film to an inorganic board on the front and back surfaces, and then cutting to a predetermined size.

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