JP2018124365A - Soundproof material - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a sound absorption material which can prevent a sound absorption layer from wetting while deterioration of sound absorption performance of the sound absorption layer is suppressed.SOLUTION: A sound absorption layer 2 and a waterproof vent layer 3 for covering the sound absorption layer 2 are arranged in a soundproof material 1. Water repellency of the waterproof vent layer 3 is four grade or more in a water repellency test specified in ISO 4920, and ventilation resistance of the waterproof vent layer 3 is 1.0×10Pa s/mor more and 1.0×10Pa s/mor less.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a soundproof material.

  Conventionally, in order to prevent noise, it is known to provide a soundproof material on various structures such as vehicles and buildings.

  For example, a sound absorbing material is proposed that includes a sound absorbing layer, a sound insulating layer disposed on one side in the thickness direction of the sound absorbing layer, and a space layer that separates the sound absorbing layer and the sound insulating layer in the thickness direction (see Patent Document 1 below). ).

JP 2016-157113 A

  However, in the sound absorbing material described in Patent Document 1, depending on the installation location, water may enter the sound absorbing material and the sound absorbing layer may get wet. When the sound absorbing layer gets wet, the sound absorbing performance of the sound absorbing layer may be lowered. In addition, in order to prevent the sound absorbing layer from getting wet, the sound absorbing performance of the sound absorbing layer may be lowered even when the sound absorbing layer is covered with a fabric having low air permeability.

  Therefore, the present invention provides a soundproofing material that can prevent the sound absorbing layer from getting wet while suppressing the sound absorbing performance of the sound absorbing layer from deteriorating.

The present invention [1] includes a sound absorbing layer and a waterproof breathable layer covering the sound absorbing layer, and the water repellency of the waterproof breathable layer is grade 4 or higher in the water repellency test defined in ISO 4920. The soundproofing material whose ventilation resistance of a ventilation layer is 1.0 * 10 < ³ > Pa * s / m < ² > or more and 1.0 * 10 < ⁶ > Pa * s / m < ² > or less is included.

According to such a configuration, the sound absorbing layer is covered by the waterproof breathable layer having both waterproofness and breathability. Specifically, in the water repellency test specified in ISO 4920, the water repellency is grade 4 or higher, and the airflow resistance is 1.0 × 10 ³ Pa · s / m ² or higher, 1.0 × 10 ^6. The sound-absorbing layer is covered with a waterproof breathable layer that is Pa · s / m ² or less.

  Therefore, air permeability to the sound absorbing layer can be ensured while preventing the sound absorbing layer from getting wet.

  As a result, it is possible to prevent the sound absorbing layer from getting wet while suppressing the sound absorbing performance of the sound absorbing layer from being lowered.

The present invention [2] is characterized in that the sound absorbing layer includes a first layer in the thickness direction of the sound absorbing layer and a second layer stacked on the first layer, and the first layer includes the first layer in the thickness direction. It is arranged between the waterproof breathable layer and the second layer, the ventilation resistance of the first ^{layer, 1.0 × 10 3 Pa · s} / m 2 or ^{more, 1.0 × 10 6 Pa · s} / m 2 The soundproofing material of [1] above is included.

According to such a configuration, the sound absorbing layer includes a plurality of layers (the first layer and the second layer), and the air permeability of the first layer disposed between the waterproof ventilation layer and the second layer is ensured. Yes. Specifically, the ventilation resistance of the first layer is 1.0 × 10 ³ Pa · s / m ² or more and 1.0 × 10 ⁶ Pa · s / m ² or less.

  Therefore, the air permeability in the sound absorbing layer can be ensured by the first layer.

  As a result, it can suppress more that the sound absorption performance of a sound absorption layer falls.

  The present invention [3] includes the soundproofing material according to the above [2], wherein the first layer includes a fiber-based sound absorbing material, and the second layer includes a foamed sound absorbing material.

  According to such a configuration, sound in a wide frequency band can be obtained by using a fiber-based sound absorbing material that has excellent sound absorbing characteristics for high frequency sound and a foamed sound absorbing material that has excellent sound absorbing characteristics for low frequency sound. Can absorb sound.

  This invention [4] contains the soundproof material of any one of said [1]-[3] whose sum total of the thickness of the said sound absorption layer and the thickness of the said waterproof ventilation layer is 10 mm or more.

  According to such a configuration, the thickness of the sound absorbing layer and the waterproof breathable layer can be secured, and the soundproof performance of the soundproofing material can be secured.

  This invention [5] is further provided with the sound-insulation layer arrange | positioned on the opposite side of the said waterproof ventilation layer with respect to the said sound absorption layer in the thickness direction of the said sound absorption layer, Any one of said [1]-[4]. Including soundproofing material.

  According to such a configuration, the sound that cannot be absorbed by the sound absorbing layer can be blocked by the sound insulating layer.

  ADVANTAGE OF THE INVENTION According to this invention, it can prevent that a sound absorption layer gets wet, suppressing that the sound absorption performance of a sound absorption layer falls.

FIG. 1 is a perspective view of a soundproofing material as one embodiment of the present invention. In FIG. 1, in order to illustrate the sound absorbing layer, a part of the waterproof ventilation layer is cut away. FIG. 2 is a cross-sectional view taken along the line AA of FIG. FIG. 3 is a cross-sectional view showing a first modification of the present invention. FIG. 4 is a cross-sectional view showing a second modification of the present invention. FIG. 5 is a cross-sectional view showing a third modification of the present invention. FIG. 6 is a cross-sectional view showing a fourth modification of the present invention.

  As shown in FIGS. 1 and 2, the soundproofing material 1 as one embodiment of the present invention includes a sound absorbing layer 2, a waterproof breathable layer 3, and a sound insulating layer 4.

  The sound absorbing layer 2 is disposed inside the soundproofing material 1. The sound absorbing layer 2 has a flat plate shape. The sound absorbing layer 2 has a thickness in a predetermined direction. The sound absorbing layer 2 extends in a direction perpendicular to the thickness direction. The sound absorbing layer 2 absorbs sound. Specifically, the sound absorbing layer 2 absorbs air vibrations caused by sound waves. Thereby, the sound absorbing layer 2 suppresses the sound from being transmitted through the sound absorbing layer 2 and the sound from being reflected by the sound absorbing layer 2.

  The sound absorbing layer 2 includes, for example, a sound absorbing material such as a fiber sound absorbing material or a foamed sound absorbing material. The sound absorbing material preferably contains air therein.

  Examples of the material for the fiber-based sound absorbing material include polyester fibers such as polyethylene terephthalate fibers, polyolefin fibers such as polypropylene fibers, nylon fibers such as a mixture of polyester fibers and rayon fibers, and the like. The material for the fiber-based sound absorbing material is preferably polyester fiber, and more preferably polyethylene terephthalate fiber.

  As a form of a fiber type sound-absorbing material, a nonwoven fabric, a woven fabric, etc. are mentioned, for example, Preferably a nonwoven fabric is mentioned.

  Commercially available products can be used as the fiber-based sound absorbing material, for example, V-LAP (polyethylene terephthalate fiber nonwoven fabric, manufactured by Teijin Ltd.), SP180 (polyethylene terephthalate fiber nonwoven fabric, manufactured by Teijin Ltd.) sound block (polyethylene terephthalate fiber). Non-woven fabric, manufactured by Toyobo Co., Ltd.).

  The fiber-based sound absorbing material is superior in sound absorption characteristics with respect to sound in a high frequency region as compared with the foamed sound absorbing material. Therefore, when the sound absorbing layer 2 includes the fiber-based sound absorbing material, the sound insulating material 1 can reliably absorb sound in a high frequency region.

  Examples of the foamed sound absorbing material include foams such as polyurethane foam, ethylene / propylene / diene rubber foam (EPDM foam), polystyrene foam, polyolefin foam, chloroprene foam, and polyester foam. Preferably, the foam-based sound absorbing material includes polyurethane foam and ethylene / propylene / diene rubber foam.

  The foamed sound-absorbing material has a closed cell structure in which a plurality of bubbles therein are independent (not continuous) or an open cell structure in which at least 1% or more of the plurality of bubbles in the interior are continuous with each other. . Preferably, the foamed sound absorbing material has an open cell structure from the viewpoint of ensuring air permeability.

  Commercially available products can be used as the foam-based sound absorbing material, and examples thereof include EHW (polyurethane foam, manufactured by Inoac), EPT SEALER (ethylene / propylene / diene rubber foam, manufactured by Nitto Denko).

  The foamed sound absorbing material is superior in sound absorbing characteristics with respect to the sound in the low frequency region as compared with the fiber sound absorbing material. Therefore, when the sound absorbing layer 2 includes the foamed sound absorbing material, the soundproofing material 1 can reliably absorb the sound in the low frequency region.

  Moreover, when the sound absorbing layer 2 includes the foamed sound absorbing material, the rigidity of the sound insulating material 1 can be ensured.

The ventilation resistance of the sound absorbing layer 2 is, for example, 1.0 × 10 ³ Pa · s / m ² or more, preferably 3.0 × 10 ³ Pa · s / m ² or more, for example, 1.0 × 10 10 ⁶ Pa · s / m ² or less, preferably 1.0 × 10 ⁴ Pa · s / m ² or less.

  When the airflow resistance of the sound absorbing layer 2 is not less than the above lower limit value and not more than the above upper limit value, air permeability in the sound absorbing layer 2 can be ensured, and the sound absorbing performance of the sound absorbing layer 2 can be further suppressed from being lowered.

  The thickness of the sound absorbing layer 2 is, for example, 5 mm or more, preferably 10 mm or more, for example, 200 mm or less, preferably 100 mm or less.

  When the thickness of the sound absorbing layer 2 is not less than the above lower limit value and not more than the above upper limit value, the thickness of the sound absorbing layer 2 can be secured, and the sound absorbing characteristics of the sound absorbing layer 2 can be secured.

  The sound absorbing layer 2 can include a plurality of layers that overlap in the thickness direction, and can also include only one layer. Further, when the sound absorbing layer 2 includes a plurality of layers, each of the plurality of layers may include sound absorbing materials having different sound absorbing characteristics. Since each of the plurality of layers includes a sound absorbing material having different sound absorption characteristics, the sound absorbing layer 2 can absorb sound in a wide frequency band.

  Specifically, the sound absorbing layer 2 includes a first layer 5 and a second layer 6.

  The first layer 5 is stacked on the second layer 6 in the thickness direction of the sound absorbing layer 2. The first layer 5 is disposed between the waterproof ventilation layer 3 and the second layer 6 in the thickness direction. The first layer 5 is in contact with the waterproof ventilation layer 3 and the second layer 6 in the thickness direction. The first layer 5 includes a fiber-based sound absorbing material, and preferably the first layer 5 is made of a fiber-based sound absorbing material.

The ventilation resistance of the first layer 5 is, for example, 1.0 × 10 ³ Pa · s / m ² or more, preferably 3.0 × 10 ³ Pa · s / m ² or more, for example, 1.0 × 10 ⁶ Pa · s / m ² or less, preferably 1.0 × 10 ⁴ Pa · s / m ² or less.

  When the ventilation resistance of the first layer 5 is not less than the above lower limit value and not more than the above upper limit value, the air permeability in the sound absorbing layer 2 can be secured, and the sound absorbing performance of the sound absorbing layer 2 can be further suppressed from being lowered. If the ventilation resistance of the first layer 5 is less than the above lower limit value, it is difficult to ensure the air permeability in the sound absorbing layer 2 and the sound absorbing performance of the sound absorbing layer 2 may be lowered. Moreover, when the ventilation resistance of the 1st layer 5 exceeds the said upper limit, the weight of the soundproof material 1 may increase excessively.

  The thickness of the 1st layer 5 is 5 mm or more, for example, Preferably, it is 10 mm or more, for example, is 30 mm or less, Preferably, it is 25 mm or less.

  When the thickness of the first layer 5 is not less than the above lower limit value and not more than the above upper limit value, the thickness of the first layer 5 can be secured, and the sound absorption characteristics of the first layer 5 can be secured.

  The second layer 6 is disposed between the first layer 5 and the sound insulating layer 4 in the thickness direction of the sound absorbing layer 2. The second layer 6 is in contact with the first layer 5 and the sound insulation layer 4 in the thickness direction. The second layer 6 includes a foam-based sound absorbing material. Preferably, the second layer 6 is made of a foam-based sound absorbing material. If the second layer 6 is a foamed sound absorbing material, the rigidity of the soundproofing material 1 can be ensured even if the first layer 5 is a relatively soft fibrous sound absorbing material.

The ventilation resistance of the second layer 6 is, for example, 1.0 × 10 ³ Pa · s / m ² or more, preferably 3.0 × 10 ³ Pa · s / m ² or more, for example, 1.0 × 10 ³ Pa · s / m ² or more. 10 ⁶ Pa · s / m ² or less, preferably 1.0 × 10 ⁴ Pa · s / m ² or less.

  When the ventilation resistance of the second layer 6 is not less than the above lower limit value and not more than the above upper limit value, the air permeability in the sound absorbing layer 2 can be secured, and the sound absorbing performance of the sound absorbing layer 2 can be further suppressed from decreasing.

  The thickness of the 2nd layer 6 is 5 mm or more, for example, Preferably, it is 10 mm or more, for example, is 100 mm or less, Preferably, it is 50 mm or less.

  When the thickness of the second layer 6 is not less than the above lower limit value and not more than the above upper limit value, the thickness of the second layer 6 can be secured, and the sound absorption characteristics of the second layer 6 can be secured. Moreover, the rigidity of the soundproof material 1 is securable that the thickness of the 2nd layer 6 is more than the said lower limit and below the said upper limit.

  The thickness of the second layer 6 is, for example, 5% or more, preferably 10% or more, for example, 200% or less, preferably 100% or less, when the thickness of the first layer 5 is 100%. is there.

  The waterproof breathable layer 3 has waterproofness and breathability. Specifically, the waterproof breathable layer 3 has water repellency based on its material and surface shape. Thereby, the waterproof property of the waterproof ventilation layer 3 is implement | achieved. A method for evaluating water repellency will be described later. The waterproof breathable layer 3 has pores through which air can be circulated. Thereby, the air permeability of the waterproof breathable layer 3 is realized. The air permeability of the waterproof breathable layer 3 is indicated by the ventilation resistance of the waterproof breathable layer 3 described later. In addition, the magnitude | size of a pore is a magnitude | size which is a grade which does not impair the waterproofness of the waterproof ventilation layer 3. FIG.

  The waterproof breathable layer 3 covers the sound absorbing layer 2. Specifically, the waterproof breathable layer 3 covers at least a part of the sound absorbing layer 2 so that the sound absorbing layer 2 does not get wet. Specifically, the waterproof breathable layer 3 is disposed on the opposite side (one side in the thickness direction) of the sound insulating layer 4 with respect to the sound absorbing layer 2 in the thickness direction. The waterproof breathable layer 3 covers the entire surface of the sound absorbing layer 2 on one side in the thickness direction. The waterproof breathable layer 3 is disposed around the sound absorbing layer 2 in a direction orthogonal to the thickness direction. The waterproof breathable layer 3 covers the entire circumferential surface of the sound absorbing layer 2 in a direction orthogonal to the thickness direction. In this embodiment, in the thickness direction, the sound-insulating layer 4 having waterproofness is disposed on the opposite side (the other side in the thickness direction) of the waterproof air-permeable layer 3 with respect to the sound-absorbing layer 2, and the sound absorbing layer is disposed on the other side in the thickness direction. The entire surface of the layer 2 is covered with a sound insulating layer 4. Therefore, the waterproof breathable layer 3 is not disposed on the other side in the thickness direction of the sound absorbing layer 2. That is, the waterproof breathable layer 3 does not cover the sound absorbing layer 2 in a portion where the sound absorbing layer 2 is covered with another waterproof member. The waterproof breathable layer 3 can also cover the entire sound absorbing layer 2 if necessary.

  Examples of the form of the waterproof breathable layer 3 include fabrics such as woven fabrics and nonwoven fabrics, and films having pores. Preferably, the form of the waterproof breathable layer 3 includes a nonwoven fabric. When the waterproof breathable layer 3 is a nonwoven fabric, examples of the waterproof breathable layer 3 include a spunbond nonwoven fabric manufactured by a spunbond method, a needle punched nonwoven fabric manufactured by a needle punch method, and a chemical bond manufactured by a chemical bond method. Nonwoven fabric etc. are mentioned. Preferably, the waterproof breathable layer 3 includes a spunbonded nonwoven fabric.

  Moreover, as a material of the waterproof ventilation layer 3, synthetic fibers, such as a polypropylene and a polyethylene terephthalate, are mentioned, for example. Preferably, the material of the waterproof breathable layer 3 includes polypropylene.

  As the waterproof breathable layer 3, a commercially available product can be used, and examples thereof include a sprtop (polypropylene spunbond nonwoven fabric, manufactured by Maeda Kosen Co., Ltd.).

The basis weight (weight per unit area) of the waterproof breathable layer 3 is, for example, 50 g / m ² or more, preferably 80 g / m ² or more, for example, 200 g / m ² or less, preferably 150 g / m ^2. It is as follows.

  When the basis weight of the waterproof air-permeable layer 3 is not less than the above lower limit value and not more than the above upper limit value, both waterproofness and air permeability can be achieved.

  The water repellency of the waterproof breathable layer 3 is, for example, grade 4 or higher, preferably grade 5, in the water repellency test specified in ISO 4920.

The ventilation resistance of the waterproof breathable layer 3 (ISO 9053: 1991) is, for example, 1.0 × 10 ³ Pa · s / m ² or more, preferably 1.0 × 10 ⁵ Pa · s / m ² or more, For example, it is 1.0 × 10 ⁶ Pa · s / m ² or less, preferably 5.0 × 10 ⁵ Pa · s / m ² or less.

  When the airflow resistance of the waterproof air-permeable layer 3 is not less than the above lower limit value and not more than the above upper limit value, air permeability with respect to the sound absorbing layer 2 can be secured, and the sound absorbing performance of the sound absorbing layer 2 can be further suppressed from being lowered. If the ventilation resistance of the waterproof breathable layer 3 is less than the above lower limit value, it is difficult to ensure the breathability with respect to the sound absorbing layer 2, and the sound absorbing performance of the sound absorbing layer 2 may be lowered. Moreover, if the ventilation resistance of the waterproof ventilation layer 3 exceeds the upper limit, the waterproof property of the waterproof ventilation layer 3 may be deteriorated.

  The thickness of the waterproof breathable layer 3 is, for example, 0.1 mm or more, preferably 0.3 mm or more, for example, 3 mm or less, preferably 2 mm or less.

  When the thickness of the waterproof air-permeable layer 3 is not less than the above lower limit value and not more than the above upper limit value, both waterproofness and air permeability can be achieved.

  The sum total of the thickness of the sound absorbing layer 2 and the thickness of the waterproof ventilation layer 3 is, for example, 10 mm or more, preferably 15 mm or more, for example, 35 mm or less, preferably 30 mm or less.

  When the sum of the thickness of the sound absorbing layer 2 and the thickness of the waterproof ventilation layer 3 is not less than the above lower limit value and not more than the above upper limit value, the thickness of the sound absorbing layer and the waterproof ventilation layer can be secured, and the soundproofing of the soundproof material Performance can be secured. If the sum of the thickness of the sound absorbing layer 2 and the thickness of the waterproof breathable layer 3 is less than the lower limit, the soundproof performance of the soundproofing material 1 may be lowered. If the sum of the thickness of the sound absorbing layer 2 and the thickness of the waterproof breathable layer 3 exceeds the upper limit, the soundproof material 1 may be excessively thick.

  The sound insulation layer 4 blocks sound. Specifically, the sound insulation layer 4 suppresses the sound from being transmitted through the sound insulation layer 4 by reflecting sound waves. The sound insulation layer 4 is disposed on the opposite side of the waterproof breathable layer 3 (the other side in the thickness direction) with respect to the sound absorption layer 2 in the thickness direction of the sound absorption layer 2. The sound insulating layer 4 covers the entire surface of the sound absorbing layer 2 on the other side in the thickness direction. The sound insulating layer 4 is in contact with the second layer 6 of the sound absorbing layer 2. The sound insulation layer 4 is waterproof and does not have air permeability. The sound insulation layer 4 extends in a direction orthogonal to the thickness direction. The sound insulation layer 4 has a flat plate shape or a sheet shape. The sound insulating layer 4 is larger than the sound absorbing layer 2 in the direction orthogonal to the thickness direction. That is, the peripheral portion of the sound insulation layer 4 is disposed outside the sound absorption layer 2 in the direction orthogonal to the thickness direction. The peripheral edge of the waterproof breathable layer 3 is bonded or welded to the peripheral edge of the sound insulating layer 4. This prevents water from entering the soundproof material 1 from between the peripheral edge of the sound insulating layer 4 and the peripheral edge of the waterproof breathable layer 3.

  Examples of the material of the sound insulating layer 4 include polyolefin resins such as polypropylene, polyethylene, or a mixture thereof.

  As the sound insulation layer 4, a commercially available product can be used, and examples thereof include PH001 (polyolefin film, manufactured by Mitsubishi Plastics).

  The transmitted sound insertion loss (JIS A 1441-1: 2007) of the sound insulating layer 4 is, for example, 3 dB or more, preferably 5 dB or more in a frequency band of 1000 Hz or more and 6300 Hz or less.

  JIS A 1441-1: 2007 is a Japanese industrial standard created by translating ISO 15186-1: 2000 and changing technical contents.

  The above-described soundproofing material 1 is formed by stacking the waterproof air-permeable layer 3, the sound-absorbing layer 2, and the sound-insulating layer 4 so that the sound-absorbing layer 2 is disposed between the waterproof air-permeable layer 3 and the sound-insulating layer 4, for example. Is manufactured by adhering or welding the peripheral edge of the waterproof air-permeable layer 3 and the peripheral edge of the waterproof breathable layer 3.

  The normal incident sound absorption coefficient (JIS A 1405-2: 2007) in the thickness direction of the soundproofing material 1 is, for example, 0.80 or more, preferably 0.90 or more in a frequency band of 3150 Hz or more and 6300 Hz or less.

  Note that JIS A 1405-2: 2007 is a Japanese Industrial Standard created by translating ISO 10534-2: 1998 without changing the technical contents and the format of the standard form.

  Moreover, the total thickness of the soundproof material 1 is 10 mm or more, for example, Preferably, it is 15 mm or more, for example, is 300 mm or less, Preferably, it is 200 mm or less.

  In addition, the weight of the soundproofing material 1 is, for example, 0.5 g or more, preferably 1 g or more, for example, 10 g or less, preferably 5 g or less, when the soundproofing material 1 has a square shape with a side of 50 mm. .

  Moreover, the above-described soundproofing material 1 is used in order to prevent noise from entering a room in a structure having a room such as a vehicle or a building. More specifically, the soundproof material 1 is attached to the inside of a hollow member (for example, a fender) around the passenger compartment. Thereby, the soundproof material 1 prevents noise from entering the vehicle interior through the hollow member around the vehicle interior.

According to this soundproof material 1, as shown in FIGS. 1 and 2, the sound absorbing layer 2 is covered by the waterproof breathable layer 3 having both waterproofness and breathability. Specifically, in the water repellency test specified in ISO 4920, the water repellency is grade 4 or higher, and the airflow resistance is 1.0 × 10 ³ Pa · s / m ² or higher, 1.0 × 10 ^6. The sound-absorbing layer 2 is covered with the waterproof breathable layer 3 that is Pa · s / m ² or less.

  Therefore, the air permeability with respect to the sound absorbing layer 2 can be secured while preventing the sound absorbing layer 2 from getting wet.

  As a result, it is possible to prevent the sound absorbing layer 2 from getting wet while suppressing the sound absorbing performance of the sound absorbing layer 2 from being lowered.

Further, according to the soundproofing material 1, the sound absorbing layer 2 includes a plurality of layers (first layer 5 and second layer 6), and the first layer disposed between the waterproof ventilation layer 3 and the second layer 6. The air permeability of 5 is ensured. Specifically, the ventilation resistance of the first layer 5 is 1.0 × 10 ³ Pa · s / m ² or more and 1.0 × 10 ⁶ Pa · s / m ² or less.

  Therefore, the air permeability in the sound absorbing layer 2 can be ensured by the first layer 5.

  As a result, it can suppress more that the sound absorption performance of the sound absorption layer 2 falls.

  Moreover, according to the soundproofing material 1, the first layer 5 includes a fiber-based sound absorbing material, and the second layer 6 includes a foamed sound absorbing material.

  Therefore, sound in a wide frequency band can be absorbed by the fiber-based sound absorbing material that has excellent sound absorbing characteristics for high-frequency sound and the foamed sound-absorbing material that has excellent sound absorbing characteristics for low-frequency sound.

  Moreover, according to this soundproof material 1, the sum total of the thickness of the sound absorption layer 2 and the thickness of the waterproof ventilation layer 3 is 10 mm or more.

  Therefore, the thickness of the sound absorbing layer 2 and the waterproof breathable layer 3 can be secured, and the soundproofing performance of the soundproofing material 1 can be secured.

  Further, according to the soundproofing material 1, the sound insulating layer 4 is further provided in the thickness direction of the sound absorbing layer 2, which is disposed on the opposite side of the waterproof breathable layer 3 with respect to the sound absorbing layer 2.

  Therefore, the sound that cannot be absorbed by the sound absorbing layer 2 can be blocked by the sound insulating layer 4.

  In the first modification of the present invention, as shown in FIG. 3, the soundproofing material 1 further includes a space layer 11 for scattering sound waves between the sound insulating layer 4 and the sound absorbing layer 2. it can. The space layer 11 has a plurality of protrusions 12 having a hollow conical shape. The plurality of protrusions 12 partition the space between the sound insulating layer 4 and the sound absorbing layer 2. The spatial layer 11 attenuates sound waves that could not be absorbed by the sound absorbing layer 2 by scattering the sound waves by the plurality of protrusions 12. A commercial item can be used as the space layer 11, for example, a core cone (polypropylene sheet, Ube Eximo Co., Ltd.) etc. are mentioned.

  Further, in the second modified example of the present invention, as shown in FIG. 4, the sound absorbing layer 2 includes only one layer including the foamed sound absorbing material, and the space layer 11 is provided between the sound insulating layer 4 and the sound absorbing layer 2. Further, it can be provided.

  Moreover, in the 3rd modification of this invention, as shown in FIG. 5, the sound absorption layer 2 can also be provided with only one layer containing a fiber-type sound absorption material.

  Moreover, in the 4th modification of this invention, as shown in FIG. 6, the sound absorption layer 2 can also be provided with only one layer containing a foaming type | system | group sound absorption material.

  Next, although this invention is demonstrated based on an Example and a comparative example, this invention is not limited by the following Example. “Part” and “%” are based on mass unless otherwise specified. In addition, specific numerical values such as a blending ratio (content ratio), physical property values, and parameters used in the following description are described in the above-mentioned “Mode for Carrying Out the Invention”, and a blending ratio corresponding to them ( Substituting the upper limit value (numerical value defined as “less than” or “less than”) or the lower limit value (number defined as “greater than” or “exceeded”) such as content ratio), physical property values, parameters, etc. be able to.

1. Material (1) Waterproof breathable layer Non-woven fabric A: Splytop SP1100EBKNF (spunbond non-woven fabric, basis weight 100 g / m ² , thickness 0.5 mm, manufactured by Maeda Kosen Co., Ltd.)
Nonwoven fabric B: Splytop 1130E (spunbond nonwoven fabric, basis weight 130 g / m ² , thickness 0.5 mm, manufactured by Maeda Kosen Co., Ltd)
Nonwoven fabric C: DFK processed nonwoven fabric (needle punched nonwoven fabric, basis weight 115 g / m ² , thickness 1.4 mm, manufactured by Nagoya Yuka Co., Ltd.)
(2) Sound-absorbing material Sound-absorbing material A: SP180 (fiber sound-absorbing material, non-woven fabric of polyethylene terephthalate fiber, thickness 15 mm, manufactured by Teijin Limited)
Sound absorbing material B: polyurethane foam (foamed sound absorbing material, thickness 10 mm)
(3) Sound insulation layer Sound insulation layer A: polyolefin resin film (mixture of polypropylene and polyethylene, thickness 0.4 mm)
Sound insulation layer B: Nonwoven fabric (needle punched nonwoven fabric)
(4) Spatial layer Core cone (polypropylene sheet, manufactured by Ube Eximo Co., Ltd., thickness 4.5 mm)
2. Production of soundproofing material (1) Example 1
The waterproof ventilation layer, the first layer, the second layer, and the sound insulation layer shown in Table 1 are stacked in the order of the waterproof ventilation layer, the first layer, the second layer, and the sound insulation layer, and the periphery of the sound insulation layer and the periphery of the waterproof ventilation layer The parts were hot-pressed at 160 ° C. for 15 seconds and welded. Thereby, a soundproof material was obtained.

(2) Example 2
A soundproof material was obtained in the same manner as in Example 1 except that the waterproof breathable layer was changed to the nonwoven fabric B.

(3) Comparative Example 1
The waterproof breathable layer is changed to non-woven fabric C, the sound absorbing material A is removed, a space layer is provided between the sound absorbing layer and the sound insulating layer, and the sound insulating layer B is replaced with butyl tape (No. 5930, Hitachi Maxell Co., Ltd.). A soundproofing material was obtained in the same manner as in Example 1 except that it was affixed in the same manner as in Example 1.

(4) Comparative Example 2
A soundproof material was obtained in the same manner as in Example 1 except that the waterproof breathable layer was removed.

3. Evaluation (1) Normal incident sound absorption coefficient In accordance with JIS A 1405-2: 2007, the normal incident sound absorption coefficient in the thickness direction in the frequency band of 3150 Hz or more and 6300 Hz or less was measured for each example and each comparative example. The results are shown in Table 1.

(2) Water Repellency According to ISO 4920, each example and each comparative example were evaluated for water repellency. The results are shown in Table 1.

(3) Breathability Using a ventilation resistance measuring device (AirFlow Resistance Meter, manufactured by SIGMA), according to the measurement method of ventilation resistance defined in ISO 9053: 1991, for each example and each comparative example, a waterproof ventilation layer, The ventilation resistance of each of the first layer and the second layer was measured. The results are shown in Table 1.

(4) Total thickness of soundproofing material The total thickness of the soundproofing material was measured for each Example and each Comparative Example. The results are shown in Table 1.

(5) Weight For each example and each comparative example, a square soundproof material having a side of 50 mm was prepared and the weight was measured. The results are shown in Table 1.

DESCRIPTION OF SYMBOLS 1 Soundproof material 2 Sound absorption layer 3 Waterproof ventilation layer 4 Sound insulation layer 5 1st layer 6 2nd layer

Claims (5)

A sound absorbing layer,
A waterproof breathable layer covering the sound absorbing layer,
The water repellency of the waterproof breathable layer is grade 4 or higher in the water repellency test specified in ISO 4920,
The soundproof material, wherein the waterproof ventilation layer has a ventilation resistance of 1.0 × 10 ³ Pa · s / m ² or more and 1.0 × 10 ⁶ Pa · s / m ² or less. The sound absorbing layer includes a first layer and a second layer stacked on the first layer in the thickness direction of the sound absorbing layer,
The first layer is disposed between the waterproof ventilation layer and the second layer in the thickness direction,
The ventilation resistance of the first layer is 1.0 × 10 ³ Pa · s / m ² or more and 1.0 × 10 ⁶ Pa · s / m ² or less. Soundproof material. The first layer includes a fiber-based sound absorbing material,
The soundproofing material according to claim 2, wherein the second layer includes a foamed sound absorbing material.   The sum total of the thickness of the said sound absorption layer and the thickness of the said waterproof ventilation layer is 10 mm or more, The soundproof material as described in any one of Claims 1-3 characterized by the above-mentioned.   The soundproofing according to any one of claims 1 to 4, further comprising a sound insulation layer disposed on the opposite side of the waterproof breathable layer with respect to the sound absorbing layer in the thickness direction of the sound absorbing layer. Wood.

Images