JP2022008174A - Soundproof sheet, method of manufacturing soundproof sheet, and dash silencer for vehicle - Google Patents

Abstract

To provide a soundproof sheet that comprises a sound insulation layer formed of a thermoplastic resin sheet, and a sound absorption layer made of a fiber sheet and/or a porous material, and is partially bonded extremely easily as designed.SOLUTION: A soundproof sheet 1 comprises a sound insulation layer 2 formed of a thermoplastic resin sheet 21 and a sound absorption layer 3 made of a fiber sheet and/or a porous material. A surface of the thermoplastic resin sheet 21 to be pasted on the sound absorption layer 3 is coated partially with a release agent 22. The sound insulation layer 2 is fused to the sound absorption layer 3 on the surface on the side coated with the release agent 22 except the part coated with the release agent 22.SELECTED DRAWING: Figure 1

Description

The present invention relates to a soundproof sheet and a dash silencer for a vehicle using the soundproof sheet.

Patent Document 1 is an invention relating to a sheet-shaped low-frequency sound absorbing material having an absorption peak in a frequency region of 1000 to 2000 Hz. The Patent Document 1 discloses a sheet-shaped low-frequency sound absorbing material in which a sound absorbing layer made of a fiber or a porous material and a thin film layer having a meltability are laminated in the order of a sound absorbing layer / a thin film layer / a sound absorbing layer ( Patent Document 1 [Claim 1]). Since the thin film layer in Patent Document 1 has a structure fused to the fibers, it is considered that the thin film layer exhibits a sound absorbing function by being converted into heat energy by the vibration of the thin film layer and the friction between the fibers (Patent Document 1 []. 0018]). However, Patent Document 1 does not disclose any sound absorption at frequencies below 1000 Hz and frequencies above 2000 Hz.

Patent Document 2 is an invention relating to an ultra-lightweight soundproof material. In Patent Document 2, attention is paid to the adhesion state at the interface between the sound absorbing layer and the non-breathable resonance layer (corresponding to the sound insulation layer of the present invention), the non-breathable resonance layer is extremely lightened, and the sound absorbing layer is made high. By controlling the frequency of transmission loss and sound absorption coefficient by using a two-layer structure consisting of a high-density sound-absorbing material and a low-density sound-absorbing material, or by providing a sound-absorbing layer on the indoor side, the noise from the outside of the vehicle can be isolated while insulating the noise inside the vehicle interior. It is disclosed that sound absorption is ensured and quietness in a vehicle interior is improved (Patent Document 2 [0010]).
Specifically, in a soundproof material (common form: sound absorbing layer / resonance layer) in which a sound absorbing layer and a resonance layer are laminated via an adhesive layer, due to the difference in the adhesive area at the interface between the sound absorbing layer and the non-breathable resonance layer, It is disclosed that the transmission loss (sound insulation) and the sound absorption coefficient change (Patent Documents 2 [0061] to [0063]). Further, in the soundproof material of Example 3-3, in which the second sound absorbing layer is provided on the indoor side (Embodiment 3: sound absorbing layer / resonance layer / sound absorbing layer) and the resonance layer is a film body of an olefin resin, the second sound absorbing layer is provided. It is disclosed that the larger the bonding area with and the larger the bonding area, the higher the transmission loss, and the smaller the bonding area, the higher the sound absorption coefficient (Patent Documents 2 [0082] to [0088]).

Japanese Unexamined Patent Publication No. 2019-2996 Japanese Unexamined Patent Publication No. 2005-227747

Patent Document 2 discloses that the soundproofing performance changes depending on the bonding area between the non-breathable resonance layer and the sound absorbing layer, but the bonding method includes the amount of adhesive applied, the compression pressure, the time, and the like. It is only disclosed. However, it is very difficult to control the adhesive area depending on the amount of the adhesive applied, the compression pressure, the time, and the like. Every time the thickness and density of the resonance layer and the sound absorbing layer, the material, the atmospheric temperature, etc. change, it is necessary to derive the optimum bonding conditions by trial and error.
INDUSTRIAL APPLICABILITY The present invention provides a soundproof sheet provided with a soundproof layer made of a thermoplastic resin sheet and a soundproof layer made of a fiber sheet and / or a porous material, which is extremely easily partially bonded as designed. Is the subject. At the same time, it is an object to provide a method for manufacturing a soundproof sheet that does not require fine control of the amount of adhesive applied, the compression pressure, the time, and the like.

As a result of diligent studies to solve the above problems, the present inventors have come up with the idea of using a release agent in combination. Strict control of these is required to control the adhesive area by the amount of adhesive applied, compression pressure, time, etc., but if the release agent is applied to the parts that you do not want to adhere in advance, it will be manufactured. Even if the conditions change slightly, the desired area can be adhered.

That is, according to the present invention, the following means are proposed in order to solve the above problems.
[1] In a soundproof sheet provided with a sound insulating layer made of a thermoplastic resin sheet and a sound absorbing layer made of a fiber sheet and / or a porous material, the surface of the thermoplastic resin sheet to be bonded to the sound absorbing layer side is , The release agent is partially coated, and the sound insulation layer is fused to the sound absorbing layer on the surface on the side where the release agent is applied, except for the portion coated with the release agent. A soundproof sheet that is characterized by its ability to do so.
[2] In a soundproof sheet in which a sound insulation layer made of a thermoplastic resin sheet and a sound absorption layer made of a fiber sheet and / or a porous material are laminated in the order of sound absorption layer / sound insulation layer / sound absorption layer, the thermoplastic resin sheet. A release agent is partially coated on at least one surface of the above, and the sound insulation layer is fused to the sound absorbing layer except for the portion coated with the release agent. Soundproof sheet.
[3] The soundproof sheet according to [1] or [2], wherein the release agent is made of a silicone resin and / or a silicone-modified resin.
[4] The soundproofing according to any one of [1] to [3], wherein the thermoplastic resin sheet is a multilayer sheet including a low melting point resin layer / a high melting point resin layer / a low melting point resin layer in this order. Sheet.

[5] The coating step of partially applying a release agent to at least one surface of the thermoplastic resin sheet and the coated surface of the thermoplastic resin sheet are superposed with a fiber sheet and / or a porous material. One of [1] to [4], which comprises a laminating step of melting the surface of the thermoplastic resin sheet and fusing the thermoplastic resin sheet to the fiber sheet and / or the porous material. The method for manufacturing a soundproof sheet according to the description.
[6] A vehicle dash silencer comprising the soundproof sheet according to any one of [1] to [4].

In the soundproof sheet of the present invention, a release agent is partially coated on at least one surface of the thermoplastic resin sheet forming the sound insulation layer. Therefore, it is easy to control the adhesive area between the sound insulating layer and the sound absorbing layer. If a release agent is applied to the part of the sound insulation layer that is not desired to be adhered, and the sound insulation layer is fused to the sound absorption layer under the condition that the sound insulation layer is sufficiently heat-sealed, the sound insulation layer and the sound absorption layer can be formed in the desired part. Only bonded soundproof sheets can be obtained.
In particular, when the release agent is made of a silicone-based adhesive and / or a silicone-modified resin, the surface coated with the release agent is a portion that is not adhered very accurately.

Further, when the sound insulation layer is a multilayer sheet including a low melting point resin layer / a high melting point resin layer / a low melting point resin layer in this order, the sound insulation layer has very good fusion property and sound insulation property.
Further, the manufacturing method of the present invention can stably obtain a desired soundproof sheet even if the adhesive pressure, time, etc. are slightly changed.
Further, since the soundproof sheet of the present invention can easily control the contact area between the sound insulation layer and the sound absorption layer, it is possible to particularly reduce the noise level in the frequency band related to human conversation, and it is used as a dash silencer for vehicles. Can be suitably used for.

It is a schematic cross-sectional view which shows one Embodiment of the soundproof sheet of this invention. It is a schematic sectional drawing for demonstrating one Embodiment of the soundproof sheet of this invention. It is a schematic cross-sectional view which shows one Embodiment of the soundproof sheet of this invention. It is a schematic cross-sectional view which shows one Embodiment of a thermoplastic resin sheet. It is a schematic plan view of the sound insulation layer coated with a release agent.

Hereinafter, the present invention will be described in detail with reference to the drawings, but the present invention is not limited thereto. Needless to say, various embodiments can be taken as long as they have the same effect.

<Sound insulation layer>
FIG. 1 is a schematic cross-sectional view showing an embodiment of the soundproof sheet 1 of the present invention. The soundproof sheet 1 of FIG. 1 is composed of a sound insulation layer 2 and a sound absorption layer 3.
The sound insulation layer itself deforms to attenuate the vibration of sound. Therefore, it is desired to be flexible enough to be deformed by the vibration of sound, and it is preferable to use a thermoplastic resin sheet 21 having a thickness of 10 to 150 μm, preferably 20 to 100 μm, and further 25 to 50 μm as a base material. The tensile elastic modulus (based on JISK7161-2014) of the sheet 21 is preferably 100 to 1000 MPa, particularly 200 to 700 MPa, more preferably 300 to 500 MPa, and conventionally sound insulation of polyethylene, polypropylene, polyamide, polyester, polystyrene, etc. The thermoplastic resin sheet used for the sheet can be appropriately used.

Further, in the soundproof sheet of the present invention, the sound insulation layer is fused to the sound absorption layer, so that the sound insulation layer and the sound absorption layer are adhered to each other. In other words, in the adhesive portion α between the sound insulating layer and the sound absorbing layer, the outermost surface of the sound absorbing layer 3 made of a fiber sheet or a porous material is in a state of being buried in the thermoplastic resin forming the thermoplastic resin sheet 21. .. Therefore, it is desirable that the surface of the thermoplastic resin sheet 21 is made of a resin having a relatively low melting point. However, if the thermoplastic resin sheet 21 is made of only a resin having a low melting point, the sound insulating layer 2 may be completely absorbed between the sound absorbing layers 1 and may not exist as a layer. If the sound insulation layer 2 does not exist as a layer, sound insulation cannot be exhibited. Therefore, the thermoplastic resin sheet 21 of the present invention is preferably a multilayer sheet including the low melting point resin layer 21L / the high melting point resin layer 21H / the low melting point resin layer 21L in this order as shown in FIG. The melting point difference between the resin used for the low melting point resin layer 21L and the resin used for the high melting point resin layer 21H is preferably 15 ° C. or higher, particularly preferably 30 ° C. or higher, and further preferably 50 ° C. or higher. An olefin resin is preferably used for the low melting point resin layer 21L, and a polyethylene resin is particularly suitable. A polyamide-based resin, a polyester-based resin, or the like is preferably used for the refractory resin layer 21H, and a polyamide-based resin is particularly suitable. Since polyethylene and polyamide have low adhesiveness, an adhesive resin layer such as modified polyethylene or an adhesive layer is provided between the layers, and a polyethylene-based resin layer / adhesive resin layer (adhesive layer) / polyamide layer / adhesiveness is provided. It may be a resin layer (adhesive layer) / polyethylene-based resin layer.

The greatest feature of the soundproof sheet of the present invention is that the release agent is partially coated on the surface of the above-mentioned thermoplastic resin sheet to be bonded to the sound absorbing layer side. In the soundproof sheet 1 of FIG. 1, the release agent 22 is partially coated on the surface of the thermoplastic resin sheet 21 on the sound absorbing layer 3 side. On the surface β of the release agent 22, the sound insulating layer 2 and the sound absorbing layer 3 are not fused and are separated. In the present invention, the area to which the release agent 22 is applied is controlled, and the area of the adhesive portion α is controlled. The relationship between the adhesive area (fused area) of the sound insulating layer 2 and the sound absorbing layer 3 and the soundproofing property (transmission loss and sound absorption coefficient) is as described in detail in Patent Document 2.

As the release agent, for example, in addition to the silicone resin type release agent, a non-silicone resin type release agent such as an alkyd resin type, an olefin resin type, an acrylic type, a long chain alkyl group-containing compound type, and a rubber type can be used, but sound insulation can be used. A release agent composed of a silicone resin and / or a silicone-modified resin is particularly preferable in order to reliably prevent the layer from fusing to the sound absorbing layer.
The silicone resin-based release agent has a polysiloxane structure as a basic structure, and a silicone resin or a modified silicone resin having an organic group introduced into at least one of its side chains and terminals can be used. Further, the silicone-modified resin has a structure other than the polysiloxane structure as a basic skeleton, and is a resin having a polysiloxane group as a part of its molecule. Examples of the thermoplastic resin constituting the silicone-modified resin include acrylic resin, polyurethane resin, polyester resin, epoxy resin, polyacetal resin, polycarbonate resin, and polyimide resin, and among them, acrylic resin, polyurethane resin, and the like. Polyester resin and polyacetal resin, particularly acrylic resin are preferable.

<Sound absorption layer>
The sound absorbing layer of the present invention is made of a fiber sheet and / or a porous material.
Examples of the material of the fiber sheet include glass wool, rock wool, polypropylene fiber, polyester fiber, and fiber waste. More preferably, it is a high-density polyester fiber. The fiber preferably has a fiber diameter of 1 mm or less. More preferably, the fiber diameter is 25 μm or less. In the case of ultrafine fibers, the number of fibers per unit volume increases, so that the sound absorption performance is also improved. In the melt blown manufacturing method in which the molten resin is extruded by applying pressure from the pores to form fibers, ultrafine fibers at the level of several microns can be obtained, and fibrous bodies having high sound absorption performance can be obtained. In addition, one type or two or more types of fiber diameters may be used in combination. Further, one kind of fiber material may be used alone, or two or more kinds may be mixed and used in combination.

Examples of the porous material include polyurethane foam, polyethylene propylene / diene rubber foam, polystyrene foam, polyethylene foam, polyimide foam, phenol foam, and melamine foam. More preferably, it is a melamine foam. The density of the foam is preferably 0.5 g / cm ³ or less. More preferably, it is 0.01 g / cm ³ or less. As these materials, a single material may be used as the sound absorbing layer, but two or more kinds may be laminated or mixed and combined. When melamine foam and polyethylene propylene / diene rubber foam are laminated and combined, the sound absorption characteristics are improved due to the significant difference in density and elastic modulus between the two materials.

The soundproof sheet 1 of FIG. 1 has a two-layer structure of a soundproof layer 2 and a sound absorbing layer 3. However, in the soundproof sheet of the present invention, for example, as shown in FIG. 2, a soundproof layer 2'is further laminated on the soundproof sheet 1. It may be a thing. At this time, the positions and areas of the release agent 22 of one sound insulation layer 2 and the release agent 22'of the other sound insulation layer 2'may not be the same. Since the sound insulation layer itself deforms to attenuate the vibration of the sound, if there are a plurality of the sound insulation layers, the vibration of the sound can be attenuated more reliably. The soundproof sheet of the present invention may have three or more soundproof layers.

FIG. 3 is a schematic cross-sectional view showing another embodiment of the soundproof sheet of the present invention. The soundproof sheet 1 of FIG. 1 is provided with a sound absorbing layer only on one surface of the sound insulating layer 2, but the soundproof sheet of the present invention has a sound absorbing layer 13 / a sound insulating layer 12 / a sound absorbing layer 13'as shown in FIG. It may have a layered structure. The soundproof sheet 11 having a three-layer structure of the sound absorbing layer 13 / the sound insulating layer 12 / the sound absorbing layer 13'is superior in soundproofing performance to the soundproof sheet 1 having a two-layer structure.

<Manufacturing method of soundproof sheet>
The soundproof sheet of the present invention comprises (1) a coating step in which a release agent is partially applied to at least one surface of the thermoplastic resin sheet, and (2) a fiber sheet and a fiber sheet on the coated surface of the thermoplastic resin sheet. It is characterized by comprising a laminating step of superimposing / or laminating the porous material, melting the surface of the thermoplastic resin sheet, and fusing the thermoplastic resin sheet to the fiber sheet and / or the porous material.

(1) Coating process Prior to the coating process, a thermoplastic resin sheet is prepared. The method for producing the sheet is not particularly limited, and a conventionally known method can be appropriately adopted. For example, in the case of a three-layered thermoplastic resin sheet including the above-mentioned low melting point resin layer / high melting point resin layer / low melting point resin layer in order, the low melting point resin and the high melting point resin are supplied to separate extruders. It may be manufactured by using an inflation coextrusion method, a T-die coextrusion method, or the like.
In the coating process of the present invention, a release agent is applied to the surface of the thermoplastic resin sheet. For the coating, for example, a flexographic printing machine, a gravure printing machine, or the like may be used. The amount of the release agent applied is not particularly limited, but the film thickness after drying is 0.1 to 10 μm, particularly 0.5 to 5 μm, and further applied to about 1.25 to 3 μm. Is desirable. As shown in FIG. 5, the release agent is appropriately applied so that the area of the adhesive portion is a desired ratio, such as a mesh shape (A), a dot shape (B), a square shape (C), etc. The size, shape, etc. may be determined. It is preferable to apply the non-adhesive portion β so as not to be biased to a part. The width x of the release agent-coated portion (non-adhesive portion β1 to β3) may be appropriately determined in consideration of sound insulation, and may be, for example, 1 cm to 10 cm.

(2) Laminating Step Next, the sound absorbing layer made of the fiber sheet and / or the porous material is integrated with the thermoplastic resin sheet (sound insulating layer) partially coated with the release agent produced by the coating step. .. Specifically, the thermoplastic resin sheet (sound insulation layer) and the sound absorbing layer made of a fiber sheet and / or a porous material are preheated and then integrated by cold press molding. By cold press molding after preheating, the surface of the thermoplastic resin sheet is melted and enters the voids of the sound absorbing layer except for the portion coated with the release agent, and the soundproof sheet of the present invention is completed. The temperature condition of the preheat may be a temperature such that the surface of the thermoplastic resin sheet melts, and the surface may be set to about 90 to 180 ° C, particularly about 100 to 160 ° C.

<Dash silencer>
The soundproof sheet of the present invention can be used as a dash silencer arranged on the vehicle interior side of the dash panel along the dash panel that separates the engine room and the vehicle interior in an automobile or the like. The noise propagating from the engine room is absorbed by the sound absorbing material through the dash panel, and is also insulated by the sound insulating layer, so that the noise propagating to the vehicle interior is suppressed.
From the viewpoint of soundproofing, in the soundproofing sheet having a two-layer structure of the soundproofing layer 2 / the sound absorbing layer 3 like the soundproofing sheet 1 shown in FIG. 1, the sound absorbing layer 3 is on the dash panel side and the sound insulating layer 2 is in the passenger compartment. It is desirable that they be arranged so as to be on the side. Further, in the soundproof sheet 11 having a three-layer structure of the sound absorbing layer 13 / the sound insulating layer 12 / the sound absorbing layer 13'shown in FIG. 3, the surface (the sound absorbing layer 13'side) on which the release agent 122 of the sound insulating layer 12 is printed is the passenger compartment. It is desirable that the side, the surface on which the release agent 122 is not printed (the sound absorbing layer 13 side) is arranged so as to be on the engine room side.
In addition, the soundproof sheet of the present invention can be used as a dash silencer for automobiles, and by laying it on the floor surface (floor mat), ceiling surface, etc. of the vehicle interior, it can absorb noise and make the vehicle interior quieter. can.

[Example 1]
Peeling made of silicone-modified acrylic resin manufactured by Toyo Ink Co., Ltd. on the central part of the surface of a three-layer thermoplastic resin sheet (width 1000 mm, thickness 50 μm) consisting of a polyethylene-based resin layer / polyamide-based resin layer / polyethylene-based resin layer. The agent (DYPC S-110) is applied with a width of 460 mm to obtain a sound insulating layer.
Next, two sound absorbing layers (thickness 10 mm) made of felt are prepared, and the sound insulating layer and the two sound absorbing layers are preheated to 110 ° C. with hot air and then cold pressed to form a sound absorbing layer / sound insulating layer / sound absorbing layer. A soundproof sheet was molded.
When the obtained soundproof sheet was cut and the cross section was confirmed, the sound insulation layer was fused to the sound absorption layer except where the release agent was applied.

[Example 2]
A release agent made of an acrylic resin was applied to the central portion of the surface of the same thermoplastic resin sheet as in Example 1 so that the average film thickness after drying was 1.29 μm to form a sound insulation layer, and then Example 1 A soundproof sheet for the sound absorbing layer / sound insulating layer / sound absorbing layer was formed in the same manner as in the above.
When the obtained soundproof sheet was cut and the cross section was confirmed, the sound insulation layer was fused to the sound absorption layer except where the release agent was applied.

[Example 3]
A soundproof sheet was formed in the same manner as in Example 2 except that the release agent was applied so that the average film thickness after drying was 1.04 μm.
When the obtained soundproof sheet was cut and the cross section was confirmed, there were some spots where the coated part of the release agent and the sound absorbing layer were slightly fused, but the part where the release agent was applied was generally found. The sound insulating layer and the sound absorbing layer were not fused, and the sound insulating layer was fused to the sound absorbing layer in other parts.

1, 11 Soundproof sheet 2, 12 Sound insulation layer 21, 121 Thermoplastic resin sheet 22, 122 Release agent 3, 13, 13'Sound absorbing layer α Adhesive part β Non-adhesive part

Claims (6)

In a soundproof sheet provided with a sound insulating layer made of a thermoplastic resin sheet and a sound absorbing layer made of a fiber sheet and / or a porous material.
A release agent is partially coated on the surface of the thermoplastic resin sheet to be bonded to the sound absorbing layer side.
A soundproof sheet characterized in that the sound insulation layer is fused to the sound absorbing layer on the surface on the side coated with the release agent, except for the portion coated with the release agent. In a soundproof sheet in which a sound insulating layer made of a thermoplastic resin sheet and a sound absorbing layer made of a fiber sheet and / or a porous material are laminated in the order of sound absorbing layer / sound insulating layer / sound absorbing layer.
At least one surface of the thermoplastic resin sheet is partially coated with a release agent.
A soundproof sheet characterized in that the sound insulation layer is fused to the sound absorption layer except for a portion coated with the release agent. The soundproof sheet according to claim 1 or 2, wherein the release agent is made of a silicone resin and / or a silicone-modified resin. The soundproof sheet according to any one of claims 1 to 3, wherein the thermoplastic resin sheet is a multilayer sheet including a low melting point resin layer / a high melting point resin layer / a low melting point resin layer in this order. A coating process in which a release agent is partially applied to at least one surface of the thermoplastic resin sheet, and
The fiber sheet and / or the porous material is superposed on the coated surface of the thermoplastic resin sheet, the surface of the thermoplastic resin sheet is melted, and the thermoplastic resin sheet is fused to the fiber sheet and / or the porous material. Laminating process to make
The method for manufacturing a soundproof sheet according to any one of claims 1 to 4, wherein the soundproof sheet is provided. A vehicle dash silencer comprising the soundproof sheet according to any one of claims 1 to 4.

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