JP2011038366A - Soundproofing material - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To impart noncombustibility to a soundproofing material used for a wall, a floor, building equipment, etc. <P>SOLUTION: A fiber sheet lined aluminum foil 2 including an aluminum foil and a fiber sheet formed of an inorganic fiber and laid on the aluminum foil is laid, with the side of the aluminum foil up, on at least a surface of a sound insulating material 1 formed of a sheet having a surface density of 1.5 kg/m<SP>2</SP>or above. In a heat generation test of a noncombustibility test according to ISO5660-1, the side of the aluminum foil is heated. Any crack or hole penetrating to the back face, which is harmful in view of fireproofness, is not formed in the soundproofing material at least for 5 minutes after start of heating with gross heating value of 8 MJ/m<SP>2</SP>or less, and the maximum heat generation rate of the soundproofing material is 200 kW/m<SP>2</SP>or less for 10 continuous seconds. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

It mainly relates to soundproofing materials used in buildings, such as walls, floors, and building equipment.

Conventionally, soundproof materials, particularly sheet materials having a high specific gravity have been used for the purpose of sound insulation. The material is lead, for example, a mixture of a polyvinyl chloride resin as disclosed in JP-A-2002-46233 with a powder filler, or an asphalt disclosed in JP-A-2003-74135, for example, and an inorganic filler. There is something that was done. Regarding incombustible performance, materials made of lead are incombustible materials, but lead cannot be used from the environmental point of view, and there are no other materials that have incombustible performance.
JP 2002-46233 A JP 2003-74135 A

Then, an object of this invention is to provide a nonflammable performance to the sound insulation material which consists of a sheet | seat whose surface density is 1.5 kg / m < ² > or more.

In the first aspect of the present invention, a fiber sheet backing aluminum foil in which a fiber sheet made of inorganic fibers is laminated on at least one surface of a sound insulating material made of a sheet material having a surface density of 1.5 kg / m ² or more is placed on the aluminum foil side. In the exothermic test of the nonflammable performance test according to ISO 5660-1, the aluminum foil side is heated, and at least 5 minutes after the start of heating, the total calorific value is 8 MJ / m ² or less. The soundproofing material is characterized in that it has no cracks and holes penetrating to the back side which is harmful for fire prevention, and has a maximum heat generation rate of 200 kW / m ² or less continuously for 10 seconds.

The second of the present invention is a soundproofing material characterized in that the sound insulating material made of a sheet material having a surface density of 1.5 kg / m ² or more is composed of 5 to 50% by weight of asphalt and 50 to 95% by weight of powder. is there.

  A third aspect of the present invention is a soundproofing material characterized in that the fiber sheet made of inorganic fibers of the fiber sheet backed aluminum foil is a glass cloth woven using a glass thread and a thread obtained by processing the glass thread.

Incombustible performance is divided into incombustible materials, semi-incombustible materials, and flame retardant materials. As one of the criteria for determining incombustible materials, the total calorific value is 8 MJ / m ² or less in 20 minutes after the start of heating in the exothermic test. There are no cracks and holes penetrating to the back side, which is harmful to fire prevention, and the maximum heat generation rate continues for 10 seconds and there is a condition of 200 kW / m ² or less. As one of the criteria for quasi-incombustible materials, the maximum heat generation rate is 10M after the start of heating in the exothermic test, the total calorific value is 8MJ / m ² or less, there are no cracks and holes penetrating to the back side, which is harmful to fire prevention. Has a condition of 200 kW / m ² or less for 10 seconds. As one of the criteria for flame retardant materials, the maximum heat generation rate is 5 MJ / m ² or less within 5 minutes after the start of heating in the exothermic test. Has a condition of 200 kW / m ² or less for 10 seconds. For the present invention, since it is at least 5 minutes after the start of heating, it will have at least the incombustible performance of the flame retardant material. Flame retardant material can be set.

  The exothermic test of the non-flammable performance test is a method in which a material is irradiated with radiant heat to generate a combustible gas and burned using an electric spark as an ignition source. Therefore, the first of the present invention uses an aluminum foil as a material that efficiently reflects the radiant heat. By reflecting radiant heat efficiently, there is an advantage of suppressing combustible gas from the sound insulating material without transmitting heat to the sound insulating material. However, since aluminum foil is thin and does not have mechanical strength, by laminating a fiber sheet made of inorganic fibers on the back surface of aluminum foil, the mechanical strength of aluminum foil is improved and inorganic fibers are used. There is an advantage that the heat resistance temperature becomes high and the mechanical strength can be maintained even at a high temperature. In the second aspect of the present invention, since a mixture of asphalt and powder is used as a sheet material, a sound insulation effect greater than the mass rule can be obtained due to the excellent viscoelastic properties of asphalt. The third aspect of the present invention is that the fiber sheet made of inorganic fibers is physically woven by using glass cloth woven using glass yarn and yarn processed from the fiber yarn, and thus has excellent heat resistance. There are advantages.

Next, the best mode for carrying out the present invention will be described with reference to the drawings. FIG. 1 shows a cross-sectional view of the product of the present invention.

The sound insulating material 1 made of a sheet material having an areal density of 1.5 kg / m ² or more is made of a thermoplastic resin such as polyvinyl chloride or polyethylene, a plastic material such as rubber or asphalt, and iron, iron oxide, sand iron, barium sulfate, talc. And a mixture of powders such as calcium carbonate. The plastic material is blended in an amount of 5 to 50% by weight and powder 50 to 95% by weight. The thickness is adjusted according to the density of the blend so as to achieve the desired surface density. The plastic material is not particularly limited, but it is preferable to use asphalt from the viewpoint of processability. As the asphalt, straight asphalt, blown asphalt, waterproof asphalt, and modified asphalt modified with synthetic rubber or thermoplastic resin can be used. The powder is not particularly limited, but it is preferable to use inorganic powders such as iron oxide, barium sulfate, and calcium carbonate from the viewpoint of the density and non-combustibility of the sound insulating material. The surface density may be 1.5 kg / m ² or more, and preferably 2.0 kg / m ² or more.

  As the aluminum foil of the fiber sheet backing aluminum foil 2 obtained by laminating a fiber sheet made of inorganic fibers on an aluminum foil, one having a thickness of 7 to 100 μm can be used. In particular, a thickness of 20 μm is preferable. Moreover, although it is a fiber sheet which consists of inorganic fiber, if a material is inorganic materials, such as glass fiber, rock wool fiber, and a silica fiber, there will be no limitation in particular. The fiber sheet can be woven or non-woven. In particular, a woven fabric made of glass fiber is preferable from the viewpoints of heat resistance and mechanical strength. A method for laminating a fiber sheet made of aluminum foil and inorganic fibers, and examples thereof include an extrusion laminating method, a thermal laminating method, a dry laminating method, and a wet laminating method. Particularly preferred is an extrusion laminating method using a thermoplastic resin.

The lamination method of the sound insulating material 1 made of a sheet material having a surface density of 1.5 kg / m ² or more and the fiber sheet backing aluminum foil 2 is not particularly limited, but a method using an adhesive, or a thermoplastic resin or asphalt is used. If used, it can be dissolved by heating and used as an adhesive.

A fiber sheet backing aluminum foil 2 is laminated on at least one surface of a sound insulating material 1 made of a sheet material having a surface density of 1.5 kg / m ² or more. In the case of one side, a sound absorbing material such as felt or foam is laminated on the other side, thereby providing a composite soundproofing material including a sound absorbing material and a sound insulating material. The type of the sound absorbing material is not particularly limited, and a foam or felt made of a synthetic resin, a nonwoven fabric made of an inorganic material, or the like can be used. Further, by laminating fiber sheets such as woven fabric and non-woven fabric, the overall mechanical strength is improved. 2 is a cross-sectional view in which the fiber sheet backing aluminum foil 2 is laminated on both sides, and FIG. 3 is a cross-sectional view in which the fiber sheet backing aluminum foil 2 is laminated on one side and the sound absorbing material 3 is laminated on the other side.

  In the product of the present invention, the fiber sheet-backed aluminum foil 2 is constructed so as to be positioned on the surface side that requires non-combustibility. When the sound insulation layer is exposed on the end cut surface of the product of the present invention, an aluminum foil and a fiber sheet-backed aluminum foil can be bonded to the portion.

FIG. 4 shows a cross-sectional view of Example 1 of the product of the present invention. As a sound insulating material 1 composed of a sheet material having an areal density of 1.5 kg / m ² or more, a modified asphalt of 15 wt% mixed with 90 wt% of straight asphalt 150 to 200 and 10 wt% of a styrene / butadiene / styrene block copolymer is used. %, 65% by weight of conditioner sludge (46% by weight of iron oxide (3), 41% by weight of iron oxide (2), 13% by weight of manganese iron) and 20% by weight of calcium carbonate. Asphalt sound insulation material 4 was obtained. The asphalt-based sound insulating material 4 had a thickness of 1 mm and a surface density of 3.3 kg / m ² . The fiber sheet-backed aluminum foil 2 in which fiber sheets made of inorganic fibers are laminated on an aluminum foil has a thickness of 0.13 mm, a mass of 87 g / m ² and a density of 16 × 15 / inch glass cloth on a 20 μm-thick aluminum foil. A glass cloth-backed aluminum foil 5 laminated by an extrusion laminating method using 5 g / m ² of polyethylene was used.

Asphalt-based sound insulating material 4 and glass cloth-backed aluminum foil 5 are laminated by heating glass asphalt-based sound insulating material 4 and softening and bonding the glass cloth-backed aluminum foil 5 on one side while the asphalt is soft and adhesive. On the surface, a nonwoven fabric 6 having a basis weight of 50 g / m ^{2 made} of polyester was laminated.

About Example 1, the sound insulation property was evaluated by a heat generation test and a sound transmission loss test for 20 minutes after the start of heating. Table 1 shows the results of the exothermic test, and Table 2 shows the results of the sound transmission loss. In the exothermic test, the number of test specimens was 3, and the total calorific value for 20 minutes (MJ / m ² ), maximum heat generation rate (kW / m ² ), 200 kW / m ² excess duration (s) and harmful to fire prevention The presence or absence of cracks and holes penetrating to the back surface was evaluated. The sound transmission loss was tested using a type 2 test room defined in JIS A 1416. Moreover, the sound transmission loss calculation value based on the mass rule was calculated at the surface density of 3.3 kg / m ² in Example 1. From the results, the exothermic test passed in all points, and the sound transmission loss exceeded the value calculated by the mass rule. From the above, the effect of the present invention was recognized.

Cross section of the product of the present invention Sectional view when laminated aluminum foil on the fiber sheet is laminated on both sides of the sound insulating material made of a sheet having a surface density of 1.5 kg / m ² or more. Sectional view when the sound insulation material made of a sheet of the present invention having a surface density of 1.5 kg / m ² or more is laminated with a fiber sheet backing aluminum foil on one side and a sound absorbing material on the other side Sectional drawing of Example 1 of this invention goods

DESCRIPTION OF SYMBOLS 1 Sound insulation material which consists of a sheet | seat whose surface density is 1.5 kg / m ² or more 2 Fiber sheet backing aluminum foil which laminated | stacked the fiber sheet which consists of inorganic fiber on aluminum foil 3 Sound absorption material 4 Asphalt type sound insulation material 5 Glass cloth backing aluminum foil 6 Nonwoven fabric with a basis weight of 50 g / m ^{2 made} of polyester

Claims (3)

In a state where a fiber sheet backing aluminum foil 2 in which a fiber sheet made of inorganic fiber is laminated on an aluminum foil is placed on at least one side of a sound insulating material 1 made of a sheet having a surface density of 1.5 kg / m ² or more with the aluminum foil side as the upper surface In the exothermic test of the nonflammable performance test in accordance with ISO 5660-1, the aluminum foil side is heated, and at least 5 minutes after the start of heating, the total calorific value is 8 MJ / m ² or less, to the rear side which is harmful for fire prevention A soundproofing material characterized by being free from cracks and holes penetrating and having a maximum heat generation rate of 200 kW / m ² or less continuously for 10 seconds. ^2. The soundproofing material according to claim 1, wherein the sound insulating material 1 made of a sheet having a surface density of 1.5 kg / m < ² > or more comprises 5 to 50% by weight of asphalt and 50 to 95% by weight of powder. The soundproof material according to claim 1 or 2, wherein the fiber sheet made of inorganic fibers of the fiber sheet backing aluminum foil 2 is a glass cloth woven using a glass thread and a thread obtained by processing the glass thread.