JP2001265357A - Sound absorbing member - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a sound absorbing material which has high durability, does not destroy the surrounding environment, may be applied with colors harmonized with the surrounding environment, hardly gives rise to variation in the effect of lowering noise, has good shape retainability overalong period and maintains the reducing effect of the high noise and lends itself widely to buildings, automobiles, etc., in addition to sound absorbing walls, sound absorbing devices to be installed below the floor plates of elevated bridges, the elevated bridges of high level roads, elevated railways, etc., and sound absorbing members, such as fall preventive devices. SOLUTION: Synthetic fiber nonwoven fabric blocks 12C-1 and 12C-2 formed by intertwining fire-retardant fibers, such as vinylidene chloride-vinyl chloride copolymer fibers of 3 to 30 denier, acrylonitrile-vinyl chloride copolymer fibers and acrylonitrile-vinylidene chloride copolymer fibers, polyester fibers of 3 to 30 denier approximately equal to the fire-retardant fibers and fibers which are approximately equal to the fire-retardant fibers and have a low melting point lower than the fire-retardant fibers and bonding the fire-retardant fibers and the polyester fibers by melting the fibers of the low melting point are used as the sound absorbing member of the sound absorbing member 1A".

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION The present invention relates to a sound absorbing device provided below a floor slab of a viaduct (in this specification, sometimes simply referred to as "viaduct") such as a soundproof wall, an elevated viaduct and an elevated railway. The present invention relates to a sound absorbing member that can be widely used in buildings, automobiles, and the like, in addition to a soundproof member such as a fall prevention device.

[0002]

2. Description of the Related Art With an increase in traffic volume and an increase in the size of vehicles, measures against traffic noise have been strongly demanded. To cope with this, soundproof walls provided with various soundproof members have been put into practical use. FIG. 12 shows a cross-sectional structure of a soundproof wall most commonly used at present. The soundproof wall includes a surface plate 111 made of a metal plate material having a louver structure subjected to rust prevention processing, a sound absorbing material 112 made of glass wool whose surface is covered with a synthetic resin film 112a, and a space 115 on the back of the sound absorbing member 112.
A unit block 10 composed of a back plate 114 made of a rust-proof metal plate and a frame member 113 made of a rust-proof metal plate that seals a space 115.
The unit block 101 is inserted into and fixed to a post made of H-shaped steel or the like that has been subjected to rustproofing, or is fixed directly to a concrete side wall to form a soundproof wall.

[0003]

By the way, the soundproof wall is
The vehicle is exposed to extremely poor environments such as exhaust gas emitted by the vehicle, vibrations from the vehicle, rainwater, etc., and in some cases, is washed by a washing vehicle equipped with brushes and high-pressure water nozzles. Required. Also, in order to harmonize with the surrounding environment, it is necessary to consider the soundproof wall in terms of colors and the like. However, as shown in FIG. 12, the conventional soundproofing member used for the soundproofing wall is such that a sound absorbing material 112 made of glass wool whose surface is covered with a synthetic resin film 112a is arranged so as to directly contact the back surface of the surface plate 111. The synthetic resin film 112a
However, it deteriorates due to long-term use, and is damaged by the vibration of the traveling vehicle or a large load acting during cleaning, and if left unattended for a long period of time, glass wool will scatter, causing environmental destruction and eventually pollution. Had the problem that

Also, a sound absorbing material 112 made of glass wool.
Because it is difficult to color, when using a metal plate material with many openings such as expanded metal or punched metal on the surface plate, color these openings in harmony with the surrounding environment Was difficult.

[0005] The applicant of the present application has previously solved the problems of the sound absorbing member used in the conventional soundproof wall, has high durability, does not damage the surrounding environment, and has no problem with the surrounding environment. A sound absorbing member capable of providing harmonious colors has been proposed (see JP-A-9-257833).

[0006] The sound absorbing member is formed by entanglement of 10 to 100 denier polyvinylidene chloride fiber and 1 to 10 denier polyvinylidene chloride fiber having a lower melting point than the polyvinylidene chloride fiber. Is melted, so that a synthetic fiber non-woven fabric block formed by binding polyvinylidene chloride fibers is used as a sound absorbing material.

By the way, the sound absorbing member has a high durability, and does not destroy the surrounding environment, and can give a color in harmony with the surrounding environment.
Since 100 denier polyvinylidene chloride fiber and a fiber having a lower melting point than 1 to 10 denier polyvinylidene chloride fiber, which is finer than the polyvinylidene chloride fiber, are entangled, the polyvinylidene chloride fiber and the low melting fiber Is liable to be insufficiently mixed, and the resulting synthetic fiber nonwoven fabric block becomes non-uniform, and the noise reduction effect tends to vary. In addition, the synthetic fiber nonwoven fabric block thus obtained does not have a very high shape-retaining property. In particular, in the case of a low-density synthetic fiber nonwoven fabric block, it is deformed by long-term use, and the effect of reducing noise is reduced. There was a problem of lowering.

In view of this problem, the present invention has high durability, does not destroy the surrounding environment, can provide a color that is in harmony with the surrounding environment, and has an effect of reducing noise. Is less likely to occur, the shape retention is good, and a high noise reduction effect can be maintained over a long period of time, and a sound-insulating wall, an elevated bridge overpass, an elevated bridge such as an elevated railway (in this specification, simply referred to as " The object is to provide a sound-absorbing member that can be widely used in buildings, automobiles, and the like, in addition to a sound-absorbing member provided below the floor slab, such as a sound absorbing device and a fall prevention device. .

[0009]

In order to achieve the above object, a sound absorbing member according to the present invention comprises a 3 to 30 denier vinylidene chloride-vinyl chloride copolymer fiber, an acrylonitrile-vinyl chloride copolymer fiber, and an acrylonitrile-vinylidene chloride copolymer fiber. Flame-retardant fibers such as polymerized fibers, 3 to 30 denier polyester fibers substantially equal to the flame retardant fibers, and fibers having a lower melting point than the 3 to 30 denier flame retardant fibers substantially equal to the flame retardant fibers. And a synthetic fiber non-woven fabric block formed by combining the flame-retardant fiber and the polyester fiber by melting the low-melting fiber, as a sound-absorbing material. Here, the term "flame retardant fiber" means a fiber having a self-extinguishing property that does not burn by raising a flame.

This sound absorbing member comprises a synthetic fiber non-woven fabric block used as a sound absorbing material, a vinylidene chloride-vinyl chloride copolymer fiber, an acrylonitrile-vinyl chloride copolymer fiber,
Flame-retardant fibers such as acrylonitrile-vinylidene chloride copolymer fiber, polyester fibers, and fibers having a lower melting point than the flame-retardant fibers are entangled, and the low-melting fibers are melted to form the flame-retardant fibers. Because it is formed by bonding, unlike conventional sound absorbing materials made of glass wool, glass wool does not scatter and cause environmental destruction, and colors can be easily applied, and the surface of the sound absorbing material Is not required to be covered with a synthetic resin film, so the manufacturing cost is low, the water resistance to rainwater and the like, and the chemical resistance to exhaust gas and the like are high, and the surrounding environment is not destroyed. A sound-absorbing member capable of providing harmonious colors and having high safety against fire can be obtained. Flame-retardant fibers such as 3 to 30 denier vinylidene chloride-vinyl chloride copolymer fiber, acrylonitrile-vinyl chloride copolymer fiber, and acrylonitrile-vinylidene chloride copolymer fiber;
Since the polyester fiber of 0 denier and the fiber having a lower melting point than the flame retardant fiber of 3 to 30 denier, which is substantially equal to the flame retardant fiber, are entangled with each other, the flame retardant fiber and the fiber having the lower melting point are mixed. It is easy to mix and a uniform synthetic fiber nonwoven fabric block can be obtained. Further, by adding the polyester fiber, the shape retention can be improved, and a high noise reduction effect can be maintained over a long period of time.

In this case, flame-retardant fibers such as 3-15 denier and 20-30 denier vinylidene chloride-vinyl chloride copolymer fibers, acrylonitrile-vinyl chloride copolymer fibers, acrylonitrile-vinylidene chloride copolymer fibers, etc. Polyester fibers of １５15 denier and 20 to 30 denier and fibers having a lower melting point than flame retardant fibers of 3 to 15 denier and 20 to 30 denier can be entangled.

Thus, noise of a wide range of frequencies can be efficiently absorbed by the flame-retardant fiber having two types of denier, and the noise can be reduced.

A flame-retardant fiber such as 40-80% by weight of vinylidene chloride-vinyl chloride copolymer fiber, acrylonitrile-vinyl chloride copolymer fiber, acrylonitrile-vinylidene chloride copolymer fiber, and 10-40% by weight of polyester The fiber and the fiber having a lower melting point than the flame retardant fiber of 10 to 40% by weight can be entangled.

[0014] This makes it possible to obtain a durable synthetic fiber nonwoven fabric block which has water resistance against rainwater and the like, chemical resistance against exhaust gas and the like, and is durable.

The synthetic fiber nonwoven fabric block is laminated in the noise incident direction, and a synthetic fiber nonwoven fabric block having a lower density than the synthetic fiber nonwoven fabric block on the back side is used for the synthetic fiber nonwoven fabric block located on the noise incident side. be able to.

Thus, it is possible to obtain the effect of reducing noise in a wide range of frequencies while increasing the incidence rate of noise.

Further, a metal foil such as an aluminum foil can be adhered to the surface of the synthetic fiber nonwoven fabric block.

As a result, a sound-absorbing member (sound-absorbing member) disposed around a building such as a house, a car body, or an engine, where glass wool or foamed polyurethane is conventionally used.
The heat insulating member can be widely used as a substitute that does not destroy the surrounding environment and has high safety against fire.

[0019]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of the sound absorbing member of the present invention will be described below with reference to the drawings.

FIG. 1 shows an embodiment of the sound absorbing member of the present invention. The sound absorbing member 1 is made of a surface plate 11 made of a metal plate material having a large number of openings, such as aluminum, rust-proof expanded metal, punched metal, and a louver structure.
And a sound absorbing material 12 made of a synthetic fiber non-woven fabric block, and a unit block whose periphery is covered with a frame member 13 made of a metal plate material subjected to a rust-proof treatment.

Among these, the synthetic fiber nonwoven fabric block constituting the sound absorbing material 12 has high water resistance against rainwater and the like, high chemical resistance against exhaust gas and the like, and has a self-extinguishing property of vinylidene chloride that does not burn by burning a flame. (VDC) -vinyl chloride (VC) copolymer fiber or acrylonitrile (A
N) -vinyl chloride (VC) copolymer fibers, acrylonitrile (AN) -vinylidene chloride (VDC) copolymer fibers, and other flame-retardant fibers such as acrylic synthetic fibers (in the present specification, "vinylidene chloride-vinyl chloride" Flame-retardant fibers such as copolymer fibers, acrylonitrile-vinyl chloride copolymer fibers, acrylonitrile-vinylidene chloride copolymer fibers, or simply "flame-retardant fibers") and polyester (PE) fibers as shape-retaining materials. , A bridging agent, polypropylene with a lower melting point than flame-retardant fiber (P
Fibers made of a synthetic resin material such as P) are entangled, and the whole is heated to melt the low-melting-point fibers, thereby joining the flame-retardant fibers to form a predetermined shape. . This synthetic fiber nonwoven block
Like a conventional sound absorbing material made of glass wool, the sound absorbing material can be used without being covered with a synthetic resin film.

In this case, the flame-retardant fibers are 3 to 3
0 denier, preferably 3 to 15 denier and 20 to
The polyester fiber used as two types of 30 deniers and as a shape-retaining material is 3 to 30 deniers, which are substantially equal to the flame retardant fibers, preferably 3 to 15 deniers and 20 to 30 deniers. The fiber having a lower melting point than the flame retardant used in the agent is 3 to 30 deniers, which are substantially equal to the flame retardant fiber, preferably 2 to 3 deniers and 20 to 30 deniers. 80% by weight,
Preferably, 65 to 75% by weight, a polyester fiber and a low melting point fiber are used at a ratio of 10 to 40% by weight, preferably 12.5 to 30% by weight, respectively, and both are entangled with each other. By melting the fibers, the flame retardant fibers are bonded. In addition, two types of flame-retardant fibers of 3 to 15 denier and 20 to 30 denier,
When two types of polyester fibers having a lower melting point than two types of polyester fibers having a denier of 15 to 15 denier and 20 to 30 denier and two types of flame retardant fibers having a denier of 3 to 15 denier and 20 to 30 denier are used, the two types of fibers are respectively It is desirable to mix approximately equal amounts. This makes it possible to obtain a synthetic fiber nonwoven fabric block that is homogeneous, has good shape retention properties, is less likely to lose its shape, and can maintain a high noise reduction effect over a long period of time.

The sound absorbing material 12 can have a number of irregularities (not shown) on its surface, more specifically, irregularities of about 3 to 10 mm during molding, if necessary.
Furthermore, the sound absorbing material 12 can also form a cavity at the center thereof, thereby reducing the amount of the sound absorbing material used without deteriorating the sound absorbing performance.

As shown in FIG. 2, the sound absorbing member 1 can be provided with a space 3 in front of a side wall 2 made of concrete or the like with a space 3 therebetween to form a sound insulating wall. In this case, when arranging the sound absorbing member 1 on the front surface of the side wall 2,
Although not particularly limited, the frame member 13 of the sound absorbing member 1 is fixed to the angle iron 41 fixed vertically to the side wall 2 with an anchor bolt or the like via a fixing bracket 42 by a bolt.
Then, the sound absorbing members 1 are sequentially stacked up to a predetermined height to construct a soundproof wall.

As shown in FIG. 3, the sound absorbing member 1 is provided with a back plate 14 made of a rust-proof metal plate with a space 15 provided on the back of the sound absorbing member 1.
Frame member 13 made of a metal plate material in which space 15 has been rust-proofed
It can be configured as a unit block 10 sealed by a. In this case, the soundproof wall is constructed by inserting and fixing the unit block 10 to a post made of rust-proofed H-shaped steel or the like, or by directly fixing it to the side wall made of concrete.

FIG. 4 shows a modification of the sound absorbing member of the present invention.
This sound absorbing member 1 ′ is made of a sound absorbing material 12 made of a synthetic fiber nonwoven fabric block of the sound absorbing member 1 shown in FIG.
For example, a plurality (two types in this modification) of synthetic fiber nonwoven fabric blocks 12-1 and 32 kg / m ³ and 48 kg / m ³ ,
12-2, and the other basic configuration is the same as the sound absorbing member 1 shown in FIG.

As described above, by forming the sound absorbing material by combining a plurality of synthetic fiber nonwoven fabric blocks 12-1 and 12-2 having different densities, noise in a wide range of frequencies can be efficiently reduced.

In this case, the synthetic fiber non-woven fabric blocks 12-1 and 12- of the sound absorbing material are provided so that the noise reduction effect of a wide range of frequencies can be obtained while increasing the noise incidence rate.
2 is a synthetic fiber nonwoven fabric block 12-1 of a sound absorbing material that is laminated in the noise incident direction and located on the noise incident side.
Then, a synthetic fiber nonwoven fabric block having a lower density than the synthetic fiber nonwoven fabric block 12-2 on the back side is used.

The sound absorbing member 1 'shown in FIG.
Can be used in the same manner as the sound absorbing member 1 shown in FIG.

The sound-absorbing member of the present invention can be used for the sound-absorbing device and the fall-preventing device provided below the viaduct floor slab, which the present inventors have previously proposed, in addition to the above soundproof wall. 5 to 9 show examples of these devices.

As shown in FIGS. 5 and 6, a sound absorbing device 7 for covering a substantially entire lower surface of the floor slab 51 so as to form a predetermined working space 6 below the floor slab 51 of the viaduct 5.
Is provided. The sound absorbing device 7 is provided with a permanent scaffold that is permanently installed so that the worker enters the work space 6 and repairs the lower surface of the floor slab 51 and repairs the steel material used for the bridge girder 52. It also serves as paint, rebar,
Roads 8 where work materials such as concrete and work tools are located below
It is provided so as to cover substantially the entire lower surface of the floor slab 51 so that there is no gap to fall upward. This eliminates the need to assemble a scaffold each time repair work is performed, as is the case with conventional temporary scaffolds. This improves safety, improves the work environment for repair work, and improves work efficiency. In addition, during the repair work, the working materials such as paints, reinforcing bars, and concrete, and working tools do not drop, and therefore, the vehicle traveling on the lower road 8 is not damaged. Therefore, it is possible to reduce the compensation cost associated therewith.
The height H of the working space 6 is set to a height at which the repair work such as the repair of the lower surface of the floor slab 51 or the painting of the steel material used for the bridge girder 52 can be easily performed, for example, about 1 to 2 m. It is preferable to set.

The sound absorbing device 7 includes an erecting member 72 made of H-shaped steel disposed on the bridge girder 52 of the viaduct 5, and the erecting member 72
And a sound absorbing member 1A fixed via a fixing member 73.

As shown in detail in FIG. 7, this sound absorbing member 1A is made of aluminum, expanded metal treated with rust prevention,
A plate material having a number of openings (including fine openings such as an aluminum foam plate) such as a punching metal and a louver structure, and having a swollen portion protruding outward in a strip shape extending along the longitudinal direction of the viaduct 5. 11A and a sound absorbing material 12A made of the same synthetic fiber nonwoven fabric block as the sound absorbing member 1 described above. On the back of the sound absorbing material 12A, aluminum, rust-proof expanded metal, punched metal, louver structure, etc. A back plate 14A serving also as a scaffold plate having a large number of openings is provided, and a front plate 11A and a back plate 14A are provided.
A frame member 13 made of aluminum or the like obtained by rust-proofing A
The connection is made by A. In this case, the sound absorbing material 12
A synthetic fiber nonwoven fabric block constituting A is composed of a combination of various basic shapes of synthetic fiber nonwoven fabric blocks.
In addition to using the shape of the sound absorbing member 1A, by filling a shape in which fibers made of the same synthetic resin material are entangled in a mold of the shape of the sound absorbing member 1A, and heating the whole to melt the low melting point fibers, By combining the flame-retardant fibers, it is possible to use those integrally molded into a predetermined shape. Alternatively, the back plate 14A and the frame member 13A may be formed by integrally forming the frame member by aluminum extrusion.

FIG. 8 shows a modification of the sound absorbing member 1A. This sound absorbing member 1A 'is composed of a sound absorbing material 12A made of the synthetic fiber nonwoven fabric block of the sound absorbing member 1A shown in FIG. 7 and a plurality of synthetic fiber nonwoven fabric blocks 12A-1 and 12A- having different densities.
2, and 12A-3, and a hollow 15A is formed at the center of the synthetic fiber nonwoven fabric block 12A-2. The other basic configuration is the sound absorbing member 1A shown in FIG.
Is the same as

In this case, the sound-absorbing synthetic fiber nonwoven fabric block 12A-1 located on the back plate 14A side on which the noise of the vehicle traveling through the viaduct 5 penetrates through the floor slab 51 of the viaduct 5 is provided with another noise. Synthetic fiber non-woven fabric block 1
It is preferable to use a synthetic fiber nonwoven fabric block of high density, for example, 48 kg / m ³ , which has a higher effect of reducing noise at lower frequencies than 2A-2 and 12A-3. In addition, a synthetic fiber nonwoven fabric block 1 of a sound absorbing material is provided so as to obtain a noise reduction effect of a wide range of frequencies while increasing the noise incidence rate.
2A-2 and 12A-3 are laminated in the noise incident direction, and are lower than the synthetic fiber nonwoven fabric block 12A-3 on the back side of the synthetic fiber nonwoven fabric block 12A-2 of the sound absorbing material located on the noise incident side. Density, for example, 24 kg / m
³ and 32 kg / m ³ synthetic fiber non-woven fabric blocks are used.

As described above, a plurality of synthetic fiber nonwoven fabric blocks 12A-1, 12A-2, 12
By combining A-3, noise in a wide range of frequencies can be efficiently reduced, and by forming a cavity 15A in the center of the synthetic fiber nonwoven fabric block 12A-3, the sound absorption performance is improved. In this case, the amount of the sound absorbing material used can be reduced.

The sound absorbing member 1A 'shown in FIG. 8 can be used in the same manner as the sound absorbing member 1A shown in FIG.

As shown in FIGS. 5 and 6, on both sides of the sound absorbing device 7 in the width direction of the viaduct 5, pillars 95 made of H-shaped steel whose ends are fixed to the floor slab 51 and the sound absorbing device 7 are arranged. The column 95 is provided with the fall prevention device 9. The fall prevention device 9 is used to prevent work materials such as paints, reinforcing bars, and concrete, work tools, and the like from dropping on the road 8 and the worker from falling down during repair work on the side wall 53 and the like of the viaduct 5. The extension is provided along the longitudinal direction of the viaduct 5 and is usually installed at a storage position below the floor slab 51 of the viaduct 5, and an adjusting tool 92 such as a chain is used during repair work. By operating it, it swings around the hinge 91 and is installed at the projecting position 9 ′ outside the lower side wall 53 of the viaduct 5. The fall prevention device 9
The overhang width W is a width that can prevent work materials such as paint, reinforcing steel, concrete, work tools, and the like from dropping on the road 8 and a worker from falling down during repair work of the side wall 53 of the viaduct 5 and the like. For example, it is preferable to set the distance to about 1 m. Further, in the present embodiment, the fall prevention device 9 is provided with the fixed portion 96 for the convenience of setting the height H of the work space 6 to be large, but the height H of the work space 6 and the tension of the fall prevention device 9 are set. The fixed portion 96 may be omitted according to the width W.

The fall prevention device 9 is provided with a sound absorbing member 1B on a frame member 93 made of rust-proofed steel or aluminum so as to reduce the noise of a vehicle running on a road below the viaduct. Arrange and configure.

This sound absorbing member 1B is, as shown in FIG.
A bulging portion that has a large number of openings, such as aluminum, rust-proof expanded metal, punched metal, and a louver structure, that is located on the side visible from the road 6 and that protrudes outward in a strip shape that extends along the longitudinal direction of the viaduct 5. A sound absorbing material 12B made of a synthetic fiber nonwoven fabric block similar to the sound absorbing member 1 described above,
On the back surface of the sound absorbing material 12B, a back plate 14B serving also as a fall prevention plate made of a plate material having a large number of openings made of rust-proofed aluminum or the like or a plate material having no openings is provided. 14B is connected to a back plate 14B made of aluminum or the like by a frame member 13B integrally formed.

FIG. 10 shows a further modification of the sound absorbing member 1A. This sound absorbing member 1A "is made of a metal plate material having no rust-proofed through-hole (or having a through-hole), for example, a top plate 14C made of a flat plate or a deck plate, and a frame made of a rust-proofed metal plate material. Member 13C, aluminum,
A lower plate 11C made of a metal plate having a large number of through holes such as punched metal such as stainless steel is fixed using a blind rivet or the like to form a hollow box, and a sound absorbing member 1A is provided therein. 1 / th of thickness T
The sound absorbing members 12C-1 and 12C-2 having a thickness t of 4 to 3/4 are provided. In the present modification, a metal square pipe 16C is provided below the upper surface plate 14C to reinforce the sound absorbing member 1A ″, and the synthetic fiber nonwoven fabric blocks 12C-1 and 12C- constituting the sound absorbing material are provided.
2, thin cloth-like protective members 17C-1, 17C
Although -2 is arranged, these members are not essential and can be omitted. Thus, the sound absorbing material 12C-1 having a small thickness is provided inside the sound absorbing member 1A ".
By disposing 12C-2, the sound that has passed through the lower surface plate 11C of the sound absorbing member 1A ″ and into the inside of the sound absorbing member 1A ″ can be used to reduce the sound emitted from the synthetic fiber nonwoven fabric block 12C− that constitutes the sound absorbing material.
1, 12C-2 and the space 15C formed in the back thereof can reliably absorb the noise, reduce noise, and reduce the amount of sound absorbing material used. The top plate 14C and / or the frame member 13C can be made of an aluminum plate or a stainless steel plate. In this case, the rust prevention treatment can be omitted.

In this case, the same synthetic fiber nonwoven fabric block as the above sound absorbing member 1 can be used for the synthetic fiber nonwoven fabric blocks 12C-1 and 12C-2 constituting the sound absorbing material.

The synthetic fiber non-woven fabric block can be used as it is without covering the surface of the sound absorbing material with a synthetic resin film as in the case of a conventional sound absorbing material made of glass wool.

Furthermore, the noise reduction effect of a wide range of frequencies can be obtained while increasing the noise incidence rate.
Synthetic fiber nonwoven fabric block 12C-1, which constitutes a sound absorbing material,
12C-2 is laminated in the noise incident direction, and the density of the synthetic fiber nonwoven fabric block 12C-1 of the sound absorbing material located on the noise incident side is lower than that of the synthetic fiber nonwoven fabric block 12C-2 of the sound absorbing material on the back side. For example, 32 kg / m ³
And a synthetic fiber nonwoven fabric block of 48 kg / m ³ .

The thin cloth-like protective members 17C-1 and 17C-2 provided on the upper and lower surfaces of the synthetic fiber nonwoven fabric blocks 12C-1 and 12C-2 constituting the sound absorbing material are not particularly limited. However, for example, vinylidene chloride having a water resistance to rainwater of 50 to 100 denier, preferably 65 to 75 denier, a high chemical resistance to exhaust gas, etc., and a self-extinguishing property that does not burn by burning a flame. -Adhering flame-retardant fibers such as vinyl chloride copolymer fibers, acrylonitrile-vinyl chloride copolymer fibers, acrylonitrile-vinylidene chloride copolymer fibers, etc., by fusing with a bridging agent made of a synthetic resin material having appropriate weather resistance. 5 to 15 with a large void
A cloth having a size of about mm can be used.

The sound absorbing member 1A "is formed in a box shape so that the synthetic fiber nonwoven fabric blocks 12C-1 and 12C-1 constituting the sound absorbing material used for the sound absorbing member 1A" are formed.
The shape of 12C-2 can be simplified and the amount of use thereof can be reduced. Therefore, it is easy to manufacture, and the synthetic fiber nonwoven fabric blocks 12C-1 and 12C constituting the sound absorbing material can be easily manufactured.
The manufacturing cost of the sound absorbing member 1A "including C-2 can be reduced.

The sound-absorbing member of the present invention has high durability, does not damage the surrounding environment, can provide a color that is in harmony with the surrounding environment, and has an effect of reducing noise. Since variation hardly occurs, as described in each of the above-described embodiments of the present invention, it can be suitably used for soundproofing members such as soundproofing devices and soundproofing devices that are provided below floorboards of viaducts. However, the use of the sound absorbing member of the present invention is not limited to this, and the sound absorbing member of the present invention has a high water resistance, a high chemical resistance, and a self-extinguishing property that does not burn by burning a flame. Utilizing the property that it has high safety against fire because it has, conventionally, glass wool, foamed polyurethane, etc., used around buildings and automobiles and engines around houses, for example, buildings and automobiles The sound absorbing member disposed between the exterior material and the interior material constituting (sound absorbing and sound insulation member), without destroying the surrounding environment, as a safety against fire high replacement, can be widely used.

For example, in the case of a sound absorbing member (sound absorbing / heat insulating member) 1C disposed around the engine of an automobile, as shown in FIG. 11, fibers made of a similar synthetic resin material are combined. A metal foil 18 such as an aluminum foil is disposed on the surface of the entangled material via an adhesive 19 as necessary, and the whole is heated and compressed to melt the low-melting-point fiber. By combining them, a member integrally formed in a predetermined shape with a higher density than a normal sound absorbing member is used.

[0049]

According to the sound absorbing member of the present invention, the synthetic fiber nonwoven fabric block used as the sound absorbing material is made of vinylidene chloride.
Flame-retardant fibers such as vinyl chloride copolymer fiber, acrylonitrile-vinyl chloride copolymer fiber, acrylonitrile-vinylidene chloride copolymer fiber, polyester fiber, and fibers having a lower melting point than the flame-retardant fiber are entangled. By melting the fibers of the melting point, the flame-retardant fibers are combined and formed, so that glass wool does not scatter and cause environmental destruction, as in conventional sound absorbing materials made of glass wool. Because it is easy to apply color and it is not necessary to cover the surface of the sound absorbing material with a synthetic resin film, the manufacturing cost is low, and furthermore, the water resistance to rainwater and the like, the chemical resistance to exhaust gas and the like are high, It is possible to obtain a sound-absorbing member with high safety against fire that can be colored in harmony with the surrounding environment without destroying the surrounding environment. Kill. Flame-retardant fibers such as 3-30 denier vinylidene chloride-vinyl chloride copolymer fiber, acrylonitrile-vinyl chloride copolymer fiber, and acrylonitrile-vinylidene chloride copolymer fiber; Polyester fiber and a fiber having a lower melting point than the flame-retardant fiber of 3 to 30 deniers, which is substantially equal to the flame-retardant fiber, is mixed with the flame-retardant fiber and the low-melting fiber. It is easy to obtain a uniform synthetic fiber non-woven fabric block, and furthermore, by adding the polyester fiber, the shape retention is improved and the high noise reduction effect can be maintained over a long period of time. As a result, a favorable noise reduction effect can be obtained.

Flame-retardant fibers such as 3-15 denier and 20-30 denier vinylidene chloride-vinyl chloride copolymer fibers, acrylonitrile-vinyl chloride copolymer fibers, and acrylonitrile-vinylidene chloride copolymer fibers;
By entanglement of 15 denier and 20 to 30 denier polyester fiber and 3 to 15 denier and 20 to 30 denier flame-retardant fiber having a lower melting point than fiber, 2
The noise of a wide range of frequencies can be efficiently absorbed by the flame-retardant fibers having different denier numbers, and the noise can be reduced.

Further, flame-retardant fibers such as 40-80% by weight of vinylidene chloride-vinyl chloride copolymer fiber, acrylonitrile-vinyl chloride copolymer fiber, acrylonitrile-vinylidene chloride copolymer fiber, and 10-40% by weight of polyester By entanglement of fibers and fibers having a lower melting point than 10 to 40% by weight of flame-retardant fibers, durable synthetic fiber non-woven fabric which has water resistance to rainwater and the like, chemical resistance to exhaust gas and the like, and is durable You can get blocks.

Further, the synthetic fiber nonwoven fabric block is laminated in the noise incident direction, and a synthetic fiber nonwoven fabric block having a lower density than the synthetic fiber nonwoven fabric block on the back side is used for the synthetic fiber nonwoven fabric block located on the noise incident side. Thus, it is possible to obtain the effect of reducing noise in a wide range of frequencies while increasing the incidence rate of noise.

Further, a metal foil such as an aluminum foil can be adhered to the surface of the synthetic fiber non-woven fabric block.
Conventionally, glass wool, foamed polyurethane, etc. have been used. Sound absorbing members (sound absorbing and heat insulating members) installed around buildings such as houses, automobile bodies, and engines do not destroy the surrounding environment. It can be widely used as a fire-safe alternative.

[Brief description of the drawings]

1A and 1B show an embodiment of a sound absorbing member of the present invention, in which FIG. 1A is a front view, FIG. 1B is a side longitudinal sectional view, and FIG.

FIGS. 2A and 2B show an example of a soundproof wall using the sound absorbing member of the present invention, wherein FIG. 2A is a cross-sectional plan view, FIG. 2B is a front view, and FIG. 2C is a cross-sectional view taken along line AA of FIG. is there.

3A and 3B show an example of a soundproof wall using the sound absorbing member of the present invention, wherein FIG. 3A is a front view and FIG.

4A and 4B show a modification of the sound absorbing member of FIG. 1, wherein FIG. 4A is a front view, FIG. 4B is a side longitudinal sectional view, and FIG.

FIG. 5 is a schematic perspective view of a viaduct provided with a sound absorbing device and a fall prevention device.

FIG. 6 is a sectional view of the main part.

FIG. 7 is a sectional view showing an example of a sound absorbing member used in the sound absorbing device.

FIG. 8 is a sectional view showing a modification of the sound absorbing member.

FIG. 9 is a cross-sectional view illustrating an example of a sound absorbing member used in the fall prevention device.

FIG. 10 is a sectional view showing a modification of the sound absorbing member.

11A and 11B show an example of a sound absorbing member disposed around an engine of an automobile, wherein FIG. 11A is a plan view and FIG. 11B is a sectional view taken along line BB.

FIG. 12 is a sectional view showing a structure of a conventional soundproof wall.

[Explanation of symbols]

1, 1 ', 1A, 1A', 1A ", 1B, 1C Sound-absorbing member 11, 11A, 11B, 11C Surface plate 12, 12-1, 12-2, 12A, 12A-1, 12
A-2, 12A-3, 12B, 12C-1, 12C-2
Sound absorbing material 14 Back plate 14A, 14B, 14C Back plate 15, 15C Space 15A Cavity 18 Metal foil 19 Adhesive 2 Side wall 3 Space 5 Viaduct 51 Floor slab 52 Bridge girder 53 Side wall 7 Sound absorbing device 8 Road 9 Fall prevention device

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) D04H 1/58 E04B 1/86 D E01F 8/00 G10K 11/16 A 8/02 E01F 8/00 E04B 1 / 86 F term (reference) 2D001 AA01 BA02 CA02 CB02 CB03 CD03 DA02 2E001 DF04 FA04 FA09 FA11 FA30 GA01 GA26 GA32 HB02 HB04 HD11 HD13 4L047 AA15 AA17 AA21 BA08 CA02 CB03 CC10 5D061 AA06 AA22 CC01 DD07

Claims (5)

[Claims] 1. Flame-retardant fibers such as 3 to 30 denier vinylidene chloride-vinyl chloride copolymer fibers, acrylonitrile-vinyl chloride copolymer fibers, acrylonitrile-vinylidene chloride copolymer fibers, and the like, and are substantially equal to the flame-retardant fibers. 3 to 30
A denier polyester fiber and a fiber having a lower melting point than the flame retardant fiber of 3 to 30 deniers, which are substantially equal to the flame retardant fiber, are entangled with each other, and the low melting point fiber is melted to form a flame retardant fiber. And a synthetic fiber nonwoven fabric block formed by combining polyester fibers with a sound absorbing material. 2. 3 to 15 denier and 20 to 30 denier vinylidene chloride-vinyl chloride copolymer fibers, acrylonitrile-vinyl chloride copolymer fibers, acrylonitrile-
Flame-retardant fibers such as vinylidene chloride copolymer fibers;
The sound-absorbing member according to claim 1, wherein denier and 20 to 30 denier polyester fibers and 3 to 15 denier and 20 to 30 denier fibers having a lower melting point than the flame-retardant fibers are entangled. 3. Flame-retardant fibers such as 40-80% by weight of vinylidene chloride-vinyl chloride copolymer fiber, acrylonitrile-vinyl chloride copolymer fiber, acrylonitrile-vinylidene chloride copolymer fiber, and 10-40% by weight of polyester The fiber is entangled with 10 to 40% by weight of a fiber having a lower melting point than the flame-retardant fiber.
The sound absorbing member according to any one of the preceding claims. 4. A synthetic fiber nonwoven fabric block which is laminated in the noise incident direction, and a synthetic fiber nonwoven fabric block having a lower density than the synthetic fiber nonwoven fabric block on the back side is used for the synthetic fiber nonwoven fabric block located on the noise incident side. The sound absorbing member according to claim 1, 2 or 3, wherein the sound absorbing member is provided. 5. The sound absorbing member according to claim 1, wherein a metal foil such as an aluminum foil is adhered to a surface of the synthetic fiber nonwoven fabric block.