JPH08199709A - Flameproof panel for partition - Google Patents

Abstract

PURPOSE: To ensure a flameproof property and pinup property by a method wherein for a surface panel, a metallic foil with a specified thickness is stuck on the surface of a combustible board, and a sheet-like decorative material processed by flameproofing treatment is arranged on the surface side of the metallic foil, and as a core a plastic foam body or the like is used. CONSTITUTION: A core 6 is arranged inside with a honeycomb, a plastic foam body or an inorganic board as needed, and a base material 3 such as a fiber board, plywood, or timber is arranged at the outside of the core 6. Metallic foil 4 is processed in a thickness of 30 to 150μm with metal having thermally high conductivity such as aluminum, copper, or iron and is stuck on the whole surface of the outside of base material 3 with an adhesive 7. Furthermore, a sheet-like decorative material 5 processed by flameproofing treatment is stuck on the surface of the metallic foil 4 with the adhesive 7. In the case where a fire occurs, heat from the decorative material 5 is diffused to the wide area of the metallic foil 4, the decorative material 5 is made difficult to burn, and the heat of locally high temperature is prevented from being transmitted to the base material 3. In this way, the base material 3 is prevented from burning, air supply is checked with the metallic foil 4 and the base material 3 can be made difficult to burn.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a partition panel whose surface is covered with a sheet-like decorative material, and particularly excellent in flameproof performance,
The present invention also relates to a flameproof partition panel having excellent pinup properties.

[0002]

2. Description of the Related Art Conventionally, as a partition panel having a flameproof property whose surface is covered with a sheet-like decorative material, a sheet-like decorative material is subjected to a flameproofing treatment, and a base material such as steel or gypsum which is a noncombustible material When the board and the core material were used, non-combustible materials such as rock wool and aluminum honeycomb were used.

As described above, in the case where the steel material or the gypsum board is used as the base material, it is necessary to use a predetermined reinforcing material or increase the thickness for the purpose of obtaining strength and rigidity as a flat panel. The cost was high and the weight was heavy, which made transportation and construction difficult. Further, when steel or gypsum board is used, the pin-up property is lost, and there is a problem that papers cannot be displayed on the panel by pins such as thumbtack.

Also, as effective materials for improving the pin-up property, insulation board, rock wool board, cork, and balsa wood are effective, but when these materials are used as the base material, the material becomes flammable. Therefore, sufficient flameproof performance cannot be obtained. Under these circumstances, a partition panel that shares both flameproof performance and pin-up performance has been desired.

[0005]

Therefore, the applicant of the present invention is
For example, the invention is disclosed in Japanese Utility Model Application Laid-Open No. 57-24036, and the present invention has been completed by utilizing the already known principle of heat diffusion by a metal foil. In addition, the actual development 5
No. 7-24036 is a flameproof heat insulating wall material, and in order to exert a heat insulating effect with this wall material, it is common to use a synthetic resin foam having a foaming ratio of 20 times or more. is there. Therefore, the holding force of the pin is too weak to lock the paper on such a wall material with a pin such as a thumbtack, and if a pin-up is done intentionally, in the event of a fire, it will be synthesized by the heat from the surface side. The molten and gasified gas of the resin foam leaks from the pin-up hole, making it easier to ignite, and the structure is not suitable for pin-up.

In view of the above problems, the present invention uses a base material which is flammable, such as fiberboard, plywood, and wood, but has excellent pin-up properties, while maintaining the pin-up properties while maintaining flame resistance. The purpose is to provide partition panels with excellent performance at low cost.

[0007]

In order to solve the above-mentioned problems, the flameproof partition panel of the present invention has front and rear surfaces of a frame body covered with front panel, and a core material in a space surrounded by the frame body and both front panels. In the partition panel with or without, the surface panel is a flammable substrate such as fiber board, plywood and wood, and a substrate having excellent pin-up property, and 30 to 150 μm bonded to the surface side of the substrate. And a flame-proof sheet-like decorative material adhered to the surface side of the metal foil.

In the flameproof partition panel of the present invention, the metal foil may be a layer of the metal foil formed by thermal spraying on the surface of the substrate.

The flameproof partition panel of the present invention comprises a core material,
It is also possible to use a paper honeycomb, a synthetic resin foam or the like.

[0010]

When the thickness of the metal foil is less than 30 μm, sufficient heat diffusion due to the metal foil cannot be expected, the carbonized area of the sheet-like decorative material is expanded, and high temperature is locally prevented from being transmitted to the base material. It is not possible, and the base material burns out. When the thickness of the metal foil is thicker than 150 μm, when the pin is inserted, the pin is obstructed by the metal foil and does not easily touch the base material.
Therefore, by setting the thickness of the metal foil to 30 to 150 μm, efficient heat diffusivity and pin-up properties such that the pins can reach the inside of the fiberboard, plywood, wood, etc. as the base material without resistance are achieved. To be done.

When the metal foil layer is formed on the surface of the substrate by thermal spraying, the amount of the adhesive used is reduced and the pin-up property is improved.

Further, even when a paper honeycomb or synthetic resin foam is used as the core material, heat is not directly transmitted to the core material due to the metal foil and the base material, and the core material is gasified or burned out. There is no. Therefore, the partition panel can be made lightweight and have multiple functions.

[0013]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described with reference to the drawings. FIG. 1 shows a sectional view of a partition panel 1 to which the present invention is applied. The material 3, the metal foil 4, and the sheet-shaped decoration material 5 are arranged in layers. In addition, 8 is a steel upper frame 2
It is an upper cover fixed in series on the top. Further, 6 is a core material provided in a space portion in the partition panel 1.

A local area A of the partition panel 1 is shown in an enlarged view in FIG. 2, and the details of the layered portion will be described with reference to FIG.

If necessary, a core material 6 is provided inside the layer, and the core material is, for example, a honeycomb, a synthetic resin foam (for example, phenol, urethane, polyethylene-based resin foam) or an inorganic material. System board (eg gypsum board,
Cement board) can be used. Here, the core material 6 is
It does not necessarily have to be internally provided, and is appropriately selected according to various required functions such as strength, heat insulation, and soundproofing.

A base material 3 is disposed on the outer side of the core material 6, and the base material is a fiberboard, plywood, wood or the like having a pin-up property, such as insulation board, rock wool board, cork and balsa material. Is used.

Next, the metal foil 4 is attached to one surface of the outside of the base material 3 with an adhesive 7. This metal foil is made of a metal having a high heat conductivity, such as aluminum, copper or iron, which is processed into a thin foil having a thickness of 30 μm to 150 μm.

In particular, the thickness of the metal foil 4 is 30 μm to 150 μm.
The reason why we chose μm is that if the thickness of the metal foil is less than 30 μm,
This is because the sufficient heat diffusion due to the metal foil cannot be expected, and when the thickness of the metal foil is thicker than 150 μm, it is difficult for the pins to penetrate the metal foil, and it cannot be put to practical use.

Further, on the surface of the metal foil 4, a sheet-like decorative material 5 which is flameproofed with an adhesive 7, that is, a cloth is attached. Here, as the adhesive 7, a halogen-based adhesive, an organic phosphorus-based adhesive, or an organic sulfur-based adhesive is used as the flame-retardant-mixed adhesive component, but it is particularly difficult because the metal foil 4 has a heat diffusion effect. It is also possible to use a general adhesive agent without using the one mixed with the combustion agent.

According to the partition panel 1 constructed in this manner, when a fire or the like occurs, the flame touches the sheet-shaped decorative material 5 and locally raises the temperature. Is transmitted to the metal foil 4. The metal foil 4 diffuses this heat over a wide area to make the sheet-shaped decoration material 5 difficult to burn, and also prevents local high temperature from being transmitted to the base material 3 to prevent the base material 3 from burning.

Further, in the event of a fire, the temperature of the metal foil 4 continues to rise with time. However, since the metal foil 4 is stuck on the entire surface of the base material 3, the supply of air is obstructed and the base material 3 is prevented. It works to make it more difficult to burn. Particularly, as in this embodiment, when the partition panel 1 is almost completely covered with the upper cover 8, the steel upper frame 2, the vertical frame (not shown), and the metal foils 4 attached to the front and back sides. It is also possible to cut off the air supply more effectively.

In the present invention, particularly, the thickness of the metal foil is 30 μm
Since the thickness is set to 150 μm, the heat diffusion effect is high, the spread of the carbonized area of the sheet-shaped decoration material 5 can be suppressed, the local high temperature can be prevented from being transmitted to the base material 3, and at the same time the pin base Even when the material 3 is inserted, the metal foil 4 can be easily penetrated.

Further, by using a fiber board, plywood, wood, etc. as the base material 3, it is possible to provide a partition panel which is excellent in pin-up property, lightweight, sufficient in strength and rigidity and inexpensive.

Further, since the metal foil 4 is not in direct contact with the core material 6, in other words, the base material 3 such as fiberboard, plywood or wood is interposed between the core material 6 and the metal foil 4. For,
It is possible to use heat-sensitive paper honeycombs and synthetic resin foams as core materials, and various required functions (soundproofing, reinforcement,
The use selection range of the core material 6 satisfying heat insulation etc. is expanded.

The embodiments of the present invention have been described above with reference to the drawings. However, the specific configuration is not limited to these embodiments, and even if there are changes and additions within the scope of the present invention, the present invention is not limited thereto. Included in the invention.

For example, in the embodiment, the metal foil 4 is adhered to the base material 3 with the adhesive agent 7. However, it is also possible to directly form a layer of metal foil having a predetermined thickness on the surface of the base material 3 by spraying. With this, the amount of the adhesive used is reduced, the resistance of the adhesive to the pin is reduced, and the pin-up property is improved.

[0027]

The present invention has the following effects.

(A) If the thickness of the metal foil is less than 30 μm, sufficient heat diffusion due to the metal foil cannot be expected, the carbonized area of the sheet-shaped decorative material is expanded, and high temperature is locally transmitted to the base material. Cannot be prevented and the base material burns out. When the thickness of the metal foil is thicker than 150 μm, when the pin is inserted, the pin is obstructed by the metal foil and does not easily touch the base material. Therefore, the thickness of the metal foil should be 30-150.
By setting the thickness to μm, efficient thermal diffusivity and pin-up property that the pin reaches the fiber board, plywood, wood, etc. as the base material without resistance are achieved.

(B) According to the second aspect, since the layer of the metal foil is formed on the surface of the base material by thermal spraying, the amount of the adhesive used is reduced and the pin-up property is improved.

(C) Further, according to claim 3, even when a paper honeycomb, a synthetic resin foam or the like is used as the core material, heat is not directly transmitted to the core material by the metal foil and the base material, and the core material is not transferred. The material does not gasify or burn out. Therefore, the partition panel can be made lightweight and have multiple functions.

[0031]

[Brief description of drawings]

FIG. 1 is a cross-sectional view of a partition panel that is an embodiment to which the present invention is applied.

FIG. 2 is an enlarged view of a local area A of FIG.

[Explanation of symbols]

 1 Panel 2 Upper Frame 3 Base Material 4 Metal Foil 5 Sheet-like Decoration Material 6 Core Material 7 Adhesive 8 Top Cover

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁶ Identification code Internal reference number FI Technical indication location E04B 2/74 541 N 551 Z E04C 2/38 J E04F 13/00 C 8913-2E

Claims (3)

[Claims] 1. A partition panel in which both front and rear surfaces of a frame are covered with front panels, and a core material is provided in a space surrounded by the frame and both front panels, wherein the front panel comprises:
A base material which is flammable and excellent in pinup property such as fiber board, plywood and wood, and 30 to 1 which is adhered to the surface side of the base material.
A flameproof partition panel comprising a metal foil having a thickness of 50 μm and a flameproof sheet-like decorative material adhered to the surface side of the metal foil. 2. The flameproof partition panel according to claim 1, wherein the metal foil is a layer of metal foil formed by thermal spraying on the surface of the base material. 3. The flameproof partition panel according to claim 1, wherein a paper honeycomb, a synthetic resin foam or the like is used as the core material.