KR100995606B1 - Environment friendly fireproof panel - Google Patents

Abstract

PURPOSE: An environmentally-friendly fireproof panel is provided to ensure superior fire-resistance, durability, waterproof function, sound insulation, thermal insulation and application property and enable application to an air duct slab of a tunnel. CONSTITUTION: An environmentally-friendly fireproof panel comprises a core material(12) which is formed by filling a fire-resistant filler between a pair of noncombustible surface materials(11). Each surface material is formed by press-molding a mixture of magnesium oxide, magnesium chloride, fly ash, wood powder, and pearlite into the form of board.

Description

Environment friendly fireproof panel {Environment friendly fireproof panel}

More particularly, the present invention relates to a refractory panel having improved fire resistance, durability, waterproofness, sound insulation, heat insulation and workability, and is environmentally friendly, and particularly relates to a windshield slab for a tunnel and an underground driveway Friendly refractory panel that can be applied to the environment.

The sandwich panel fireproof panel is formed by inserting and bonding a fire resistant core material between a pair of non-flammable surface materials. Non-combustible materials such as glass wool and mineral wool are used as the core material. As the surface material, a metal plate, a crad steel plate, a cement plate, a ceramic plate, or the like may be used as a nonflammable material. However, in the manufacture of panels, the fiber grains are erected vertically and the adhesive process using adhesive is used. Therefore, organic adhesive is used in this process, so the non-combustibility may be lowered and the amount of adhesive is used excessively to secure the strength. The quality of the flame retardant material may deteriorate.

In such a sandwich structure fireproof panel, as the core material, (a) a mixture of inorganic materials in the synthetic resin foam layer, (b) only an inorganic foam, etc. may be used as a glass material or a mineral wool. However, in the case of (a), there is a problem that the inorganic material interposed in the synthetic resin foam layer lowers the adhesive strength between the surface material and the synthetic resin foam layer.In the case of (b), although the fire resistance is excellent, the mechanical strength (bending, cutting, impact), etc. At the same time, there is a problem in that the weight of the panel itself increases, making it difficult to handle and poor in workability.

Korean Unexamined Patent Publication No. 19930023166 (1999.04.01) has been proposed for solving the problems of the fireproof panel of the conventional sandwich structure. This patent discloses that the fire resistant and fire resistant properties are improved by distributing at least one type of fire retardant such as inorganic particles and inorganic fibers in a synthetic resin foam layer, and a table having a heat insulating property and a nonwoven fabric interposed between a backing material and a core material. , The adhesion between the backing material and the core material is enhanced and the mechanical strength of the panel is improved. However, this publication also uses a synthetic resin foam layer as a core material for forming the middle layer of the panel, which is harmful to the environment, and the surface and backing material where metal sheets, crad steel plates, cement plates, ceramic plates, etc. are used as the synthetic resin foam layer and nonflammable material. There is a disadvantage that a nonwoven fabric is additionally required in order to improve the adhesive strength.

The present invention relates to a refractory panel having a sandwich structure and a method for manufacturing the refractory panel, and more particularly, to a fireproof panel having improved fire resistance, durability, water resistance, sound insulation, And it is an object of the present invention to provide a refractory panel which can be preferably applied to a fireproof panel.

A fireproof panel according to a preferred embodiment of the present invention is a particle larger than pearlite particles between pearlite particles as a core material between a pair of surface materials compression-molded with a mixture of magnesium oxide, magnesium chloride, fly ash, wood flour and pearlite in the form of a plate. Characterized in that a mixture of irregularly distributed ceram sites is used.

According to another suitable embodiment of the present invention, the pair of surface materials comprises 50 parts by weight of magnesium oxide, 13 parts by weight of magnesium chloride, 15 parts by weight of fly ash, 18 parts by weight of wood powder and 4 parts by weight of pearl rock, and the core material is 90 parts by weight of pearl rock. And 10 parts by weight of ceramsite.

According to another suitable embodiment of the present invention, the total thickness of the panel composed of the pair of surface material and the core material is 20 mm.

Fireproof panel according to the present invention is lightweight and is environmentally friendly because it is excellent in fire resistance, durability, waterproofness, sound insulation, heat insulation and workability and does not contain any organic matter.

The following drawings, which are attached in this specification, illustrate the preferred embodiments of the present invention, and together with the detailed description thereof, serve to further understand the technical spirit of the present invention. It should not be construed as limited.
1 is a cross-sectional view showing a fireproof panel according to the present invention.
Fig. 2 shows the temperature distribution inside the concrete block as a result of the fire resistance test by RABT fire-temperature curve.

In the following the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the embodiments presented are exemplary for a clear understanding of the present invention is not limited thereto.

1 is a cross-sectional view showing a fireproof panel according to the present invention.

As shown in FIG. 1, the fire resistant panel 10 according to the present invention is filled with a fire resistant filler between a pair of non-flammable surface materials 11 and 11 to form a core 12.

The incombustible material constituting the surface member 11 in the present invention is a mixture of magnesium oxide, magnesium chloride, fly ash, wood powder and perlite, which is compression molded into a sheet form. Preferably, magnesium oxide 50 weight part, magnesium chloride 13 weight 15 parts by weight of fly ash, 18 parts by weight of wood powder and 4 parts by weight of perlite.

Magnesium oxide (MgO) is a compound of magnesium and oxygen that absorbs water and carbon dioxide in the air and is a white amorphous powder. Magnesium chloride (MgCl2) is not only anhydrate but also 2,4,6,8,10,12 hydrate, but usually exists as hexahydrate MgCl2 · 6H2O. The anhydrous substance is a colorless crystalline powder having a melting point of 712 캜, a boiling point of 1,412 캜, and a specific gravity of 2.325 (25 캜). Hygroscopicity is strong and melts well in water and alcohol. In the present invention, an anhydride is used and magnesium oxide is mixed to constitute a binder.

Fly ash refers to the collection of fine particles of coal contained in the waste gas generated when burning pulverized coal in a coal-fired power plant. In the present invention, it is used to enhance the strength of the surface material, improve the watertightness, improve durability and reduce dry shrinkage. It also maintains a smooth color that does not require a separate finish on the panel surface.

Wood flour is finely ground wood particles of about 40-100 mesh, and is used in the present invention for strength steam of the surface material as a filler while reducing the amount of binder used.

Pearlite is a type of glassy rhyolite, which has a distinct globular spherical shape, concentric circles in the glass, and is named because light emits pearlescent luster by the interference of this structure. In the present invention was used as a lightweight aggregate.

As the core 12 forming the middle layer of the panel, a mixture in which ceramsite 122 is irregularly distributed between the pearlite particles 121 is used. Preferably it is composed of 90 parts by weight of pearlite and 10 parts by weight of ceramsite and the ceramsite has a larger particle shape than the pearlite particles and is irregularly distributed between the pearlite powders. In the present invention, since the surface material has a binder composed of a mixture of magnesium oxide and magnesium chloride, it is not necessary to use a material for enhancing the adhesion strength, for example, a nonwoven fabric, and the bonding between the perene- can do.

The refractory panel according to the present invention constituted as described above is prepared by mixing magnesium chloride and magnesium oxide to form a binder, mixing fly ash, wood powder and perlite, and then compressing and curing the surface material to form a sheet material. It is prepared by laminating a mixture of irregularly distributed and again laminating the surface material thereon to cure integrally. That is, the present invention is environmentally friendly because it is constituted only of an inorganic material without applying any organic compound.

 Figure 2 shows the temperature distribution inside the concrete block as a result of the fire test by the RABT fire-temperature curve.

Since the refractory panel according to the present invention is applied to a wind-induced slab for a tunnel and an underground roadway ventilation system, fire resistance is required for a fire in a tunnel. This is a powerful fire history curve for fires in tunnels to understand the fire performance. The German RABT (Richtlinien) is the most similar to the actual fire process in tunnels which are rapidly extinguished and maintained for a certain period of time. fur die Ausstanttung und den Betrieb von Stranbentunneln) fire hysteresis curves were used to evaluate the fire performance.

The test specimen was a reinforced concrete panel (thickness 230 mm) in which a fireproof panel (thickness: 20 mm) according to the present invention was installed on the lower surface, and a PS steel wire was embedded therein. A total of seven thermocouples were installed inside the specimens, four at the contact surface of the fireproof panel and concrete (t = 0mm), and three at the 25mm position (t = 25mm) from the contact surface of the fireproof panel and concrete.

As a result of the test, as shown in FIG. 2, the maximum temperature of t = 0mm, which is the position at which the concrete is judged to be damaged, was 367 ° C. = 25mm was 239 ℃, which was below the damage limit temperature of 250 ℃. Therefore, the concrete block specimens with a thickness of 20 mm of the fireproof panel have fire resistance performance under the RABT fire scenario.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention . The invention is not limited by the invention as such variations and modifications but only by the claims appended hereto.

11: surface material
12: heartwood
121: pearl rock
122: Seramsite

Claims (3)

A mixture of granular sites of irregularly distributed particulate form between the peridotite grains as a core material between a pair of surface materials compression molded from a mixture of magnesium oxide, magnesium chloride, fly ash, wood flour and perlite Fireproof panel characterized in that the configuration. The method according to claim 1,
The pair of surface materials is composed of 50 parts by weight of magnesium oxide, 13 parts by weight of magnesium chloride, 15 parts by weight of fly ash, 18 parts by weight of wood powder and 4 parts by weight of pearl rock,
Core material is a fireproof panel, characterized in that consisting of 90 parts by weight of pearl rock and 10 parts by weight of ceramsite. The method according to claim 1 or 2,
Fireproof panel characterized in that the total thickness consisting of a pair of surface material and core material is 20mm.

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