JP3109567U - Sound insulation - Google Patents

Abstract

A sound insulation material having an excellent sound insulation effect and a high sound insulation property is provided.
SOLUTION: One side of a 1 mm thick aluminum plate formed by bonding one side of an aluminum plate 2 and one side of a plate-shaped sound absorbing material 1 with an aluminum powder mixed adhesive 3 and a thickness formed into a plate shape. A 10 mm-long urethane foam is bonded to one side with an aluminum powder mixed adhesive. If an adhesive containing aluminum powder is used in this way, the sound insulation effect due to aluminum powder mixing is small, but the vibration energy of the noise is attenuated by the interference action due to the difference in vibration frequency with the adhesive surrounding the aluminum powder, Noise is suppressed.
[Selection] Figure 1

Description

  The present invention relates to a sound insulating material that blocks noise and the like. Specifically, the present invention relates to a sound insulating material that blocks noise caused by engine sound generated by construction machinery.

As this type of sound insulating material, for example, the technique disclosed in Patent Document 1 is already known. In this technique, a noise absorbing material sandwiching a sound insulating plate made of a metal plate mainly made of aluminum having a thickness of 2 mm is attached to a wall surface in a soundproof cover of the engine to block noise caused by engine sound.
JP 2003-214176 A

  However, although the conventional technology has a sound insulation effect, it has not been sufficient to cut off the engine sound of a construction machine that generates a large noise.

  The present invention has been devised as a solution to the above-described problems, and the problem to be solved by the present invention is to provide a sound insulation material that is excellent in sound insulation effect and has high sound insulation properties.

In order to solve the above problems, the sound insulating material of the present invention is configured as follows.
First, the first device of the present invention is a sound insulating material formed by bonding one side of an aluminum plate and one side of a plate-shaped sound absorbing material with an aluminum powder mixed adhesive. Specifically, one side of an aluminum plate having a thickness of 1 mm and one side of a urethane foam having a thickness of 10 mm formed in a plate shape are bonded to each other with an aluminum powder mixed adhesive. This aluminum powder mixed adhesive is obtained by mixing 10% aluminum powder having a particle size of 50 μm with an adhesive (bond G17 spray type) manufactured by Konishi Co., Ltd.
If an adhesive containing aluminum powder is used in this way, the sound insulation effect due to aluminum powder mixing is small, but the vibration energy of the noise is attenuated by the interference action due to the difference in vibration frequency with the adhesive surrounding the aluminum powder, Noise is suppressed.
Therefore, the adhesive layer (adhesive layer) also has a sound insulation effect. Therefore, the sound insulation is improved as compared with an adhesive not mixed with aluminum powder.

Next, the second device of the present invention is a sound insulating material in which one side of an aluminum plate and one side of a plate-shaped sound absorbing material are bonded with an adhesive and encapsulated with aluminum foil. Specifically, one side of a 1 mm thick aluminum plate and one side of a 10 mm thick urethane foam formed in a plate shape are bonded with an adhesive and encapsulated with an aluminum foil with a thickness of 50 μm. It is. This adhesive is an adhesive (bond G17 spray type) manufactured by Konishi Co., Ltd.
The aluminum foil is sound-insulating because it is uniform and solid. However, since it is thin, it vibrates against noise. Since the vibration frequency is greatly different from that of the sound absorbing material in contact with the aluminum foil, mutual interference occurs, the vibration energy of the noise is attenuated, and the noise is suppressed.
Therefore, sound insulation is improved as compared with a sound insulation material not encapsulated with aluminum foil.

Next, a third invention of the present invention is a sound insulating material in which one side of an aluminum plate and one side of a plate-shaped sound absorbing material are bonded with an aluminum powder mixed adhesive and encapsulated with aluminum foil. Specifically, one side of a 1 mm thick aluminum plate and one side of a 10 mm thick urethane foam formed in a plate shape are bonded with an aluminum powder mixed adhesive and encapsulated with an aluminum foil with a thickness of 50 μm. Configured.
The third device is a sound insulating material including the effects of the first device and the second device.

Next, the fourth idea of the present invention is that one side of an aluminum plate covered with aluminum foil adhering with an aluminum powder mixed adhesive, and a plate-shaped sound absorbing material encapsulated with aluminum foil adhering with an aluminum powder mixed adhesive. It is a sound insulating material formed by bonding one side of a material with an adhesive mixed with aluminum powder. Specifically, an aluminum plate having a thickness of 1 mm is encapsulated with aluminum foil. When encapsulating, the aluminum foil is adhered and encapsulated with an adhesive mixed with aluminum powder. Moreover, a 10 mm thick urethane foam is encapsulated with aluminum foil. When encapsulating, the aluminum foil is adhered and encapsulated with an adhesive mixed with aluminum powder. Then, one side of the aluminum plate encapsulated with aluminum foil and one side of the urethane foam encapsulated with aluminum foil are bonded to each other with an aluminum powder mixed adhesive.
When this configuration is compared with the third device, the aluminum foil layer changes from “2 layers” to “4 layers” and the aluminum powder adhesive layer changes from “1 layer” to “5” with respect to the sound incident direction. Layer ". For this reason, the fourth device is further improved in sound insulation as compared with the third device.

Next, according to a fifth aspect of the present invention, in any of the first to fourth aspects described above, the aluminum plate has a thickness of 0.5 to 10 mm, and the sound absorbing material has a thickness of 5 to 5. 30 mm.
If the thickness of the aluminum plate is in the above range, the sound insulating material is suitable from the viewpoint of cost and sound insulating properties. Moreover, if the thickness of the sound absorbing material is in the above-described range, the sound insulating material is suitable from the usage and sound insulating properties.

  Embodiments of the best mode for carrying out the present invention will be described below with reference to the drawings. FIG. 1 shows a sound insulating material A1 of the first embodiment. FIG. 2 shows a sound insulating material A2 of the second embodiment. FIG. 3 shows a sound insulating material A3 of the third embodiment. FIG. 4 shows a sound insulating material A4 of the fourth embodiment. FIG. 5 is a measuring device for confirming the sound insulation effect of the sound insulation material A (A1, A2, A3, A4) of each example.

First, the sound insulating material A1 of the first embodiment will be described.
As shown in FIG. 1, the sound insulating material A <b> 1 is obtained by bonding one side of an aluminum plate 2 and one side of a plate-shaped sound absorbing material 1 with an adhesive 3 mixed with aluminum powder. The aluminum plate 2 may be a general aluminum plate having a thickness of 0.5 to 10 mm. If the thickness is thinner than 0.5 mm, sound insulation, strength and durability are lowered. On the other hand, if the thickness is thicker than 10 mm, the weight increases and handling becomes difficult, and the improvement in sound insulation is reduced only by increasing the cost.

  Moreover, the sound-absorbing material 1 should just be 5-30 mm in thickness. The material may be any of metal fibers such as aluminum, inorganic fibers such as glass fibers, organic fibers such as nonwoven fabric, and organic foams such as urethane foam. If the thickness is less than 5 mm, the sound absorption is reduced. On the other hand, if the thickness is greater than 30 mm, the thickness of the sound insulating material becomes too large, and the improvement in sound absorption is reduced.

  The aluminum powder-mixed adhesive 3 may be any one in which 1 to 20% of aluminum powder having a particle size of 100 μm or less is mixed into the chloroprene rubber-based adhesive 4. When the particle size is larger than 100 μm, dispersion in the adhesive is deteriorated, and the sound insulation effect is reduced. If the mixing rate is less than 1%, the sound insulation effect is reduced. If the mixing rate is more than 20%, the cost is increased and the improvement in sound insulation is reduced. The material of the adhesive 4 is not limited to chloroprene rubber, but may be any material that does not erode the aluminum plate 2 or the sound absorbing material 1 and has a required adhesive strength. For example, an epoxy resin system, a phenol resin system, a urethane resin system, an acrylic resin system, a polyethylene resin system, a polyester resin system, a vinyl acetate resin, a natural rubber system, and a silicone rubber system can be used.

  When using an adhesive containing aluminum powder in this way, the effect of sound insulation due to aluminum powder mixing is small, but the vibration energy of noise is attenuated by the interference action due to the difference in vibration frequency with the adhesive surrounding the aluminum powder, Noise is suppressed. Therefore, the adhesive layer (adhesive layer) also has a sound insulation effect. Therefore, the sound insulation is improved as compared with an adhesive not mixed with aluminum powder.

  In the first embodiment, one side of the aluminum plate 2 and one side of the plate-shaped sound absorbing material 1 are bonded with an aluminum powder mixed adhesive 3. However, the present invention is not limited to this, and one surface of each of the two plate-shaped sound absorbing materials 1 may be bonded to both surfaces of the aluminum plate 2 with the aluminum powder mixed adhesive 3. In this case, the latter has higher sound insulation than the former.

Next, the sound insulating material A2 of the second embodiment will be described.
In the description of the second embodiment, the same members as those in the first embodiment are denoted by the same reference numerals, and redundant description is omitted. The same applies to third and fourth embodiments described later. As shown in FIG. 2, the sound insulating material A <b> 2 is formed by bonding one surface of the aluminum plate 2 and one surface of the plate-shaped sound absorbing material 1 with an adhesive 4 and encapsulating with an aluminum foil 5. The adhesive 4 may be a chloroprene rubber adhesive. The aluminum foil 5 may be a general one having a thickness of 6 to 200 μm.

Since the aluminum foil 5 is uniform and solid, it has sound insulation. However, since it is thin, it vibrates against noise. Since the vibration frequency is greatly different from that of the sound absorbing material 1 in contact with the aluminum foil 5, mutual interference occurs, the vibration energy of the noise is attenuated, and the noise is suppressed.
Therefore, compared with the sound insulation material which is not encapsulated with the aluminum foil 5, the sound insulation property is improved.

In the second embodiment, one side of the aluminum plate 2 and one side of the plate-shaped sound absorbing material 1 are bonded with an adhesive 4 and encapsulated with an aluminum foil 5. However, the present invention is not limited to this, and one side of the two plate-shaped sound absorbing materials 1 may be bonded to both sides of the aluminum plate 2 with the adhesive 4 and encapsulated with the aluminum foil 5. In this case, the latter has higher sound insulation than the former.
In the second embodiment, one side of the aluminum plate 2 and one side of the plate-shaped sound absorbing material 1 are bonded with an adhesive 4 and encapsulated with an aluminum foil 5. However, the present invention is not limited to this, and the plate-like sound absorbing material 1 may be bonded to one side or both sides of the aluminum plate 2 by baking and encapsulated with the aluminum foil 5.

Next, the sound insulating material A3 of the third embodiment will be described.
As shown in FIG. 3, the sound insulating material A <b> 3 is one in which one side of the aluminum plate 2 and one side of the plate-shaped sound absorbing material 1 are bonded with an aluminum powder mixed adhesive 3 and encapsulated with an aluminum foil 5. The sound insulating material A3 can include the effects of the sound insulating material A1 and the sound insulating material A2 by using the aluminum powder mixed adhesive 3 and the aluminum foil 5.

Next, the sound insulating material A4 of the fourth embodiment will be described.
As shown in FIG. 4, the sound insulating material A 4 is encapsulated by adhering the aluminum foil 5 with the aluminum powder-mixed adhesive 3 and encapsulating the aluminum foil 5 with the aluminum powder-mixed adhesive 3. The plate-shaped sound-absorbing material 1 is bonded to one side with an aluminum powder mixed adhesive 3. When this sound insulating material A4 is compared with the sound insulating material A3, the aluminum foil layer changes from “2 layers” to “4 layers” and the aluminum powder adhesive layer changes from “1 layer” to “4” with respect to the sound incident direction. 5 layers ". Therefore, the sound insulation material A4 has further improved sound insulation properties compared to the sound insulation material A3.

  In addition, this 4th Example is the plate | board shape which adhered and encapsulated the aluminum foil 5 with the aluminum powder mixed adhesive 3, and the single side | surface of the aluminum plate 2 which adhered and wrapped the aluminum foil 5 with the aluminum powder mixed adhesive 3 The one side of the sound-absorbing material 1 is bonded with an aluminum powder mixed adhesive 3. However, the present invention is not limited to this, and the aluminum foil 5 is adhered and encapsulated by the aluminum powder-mixed adhesive 3 on both sides of the aluminum plate 2 that is adhered and encapsulated by the aluminum powder-mixed adhesive 3. The plate-shaped two sound-absorbing materials 1 may be bonded to each other with an aluminum powder mixed adhesive 3. In this case, the latter has higher sound insulation than the former.

An experiment for confirming the sound insulation effect of the sound insulation material A1 of the first embodiment, the sound insulation material A2 of the second embodiment, the sound insulation material A3 of the third embodiment, and the sound insulation material A4 of the fourth embodiment will be described.
First, as shown in FIG. 5, the experimental apparatus includes a sound level meter 11, a microphone 12, an engine room cover 14, and an engine 15. The engine room cover 14 is disposed so as to block between the engine 15 and the microphone 12. The microphone 12 picks up the noise emitted from the engine 15, and the picked up noise is a noise level L5 (maximum value measured during a measurement time of a predetermined length by the sound level meter 11, this time for 1 second. The maximum noise value measured 1000 times) is measurable. The microphone 12 is disposed at a horizontal distance of 7.5 m from the engine room cover 14 and 1.2 m from the ground surface.

  Then, various sound insulation materials are attached to the surface of the engine room cover 14 on the engine 15 side and measured. A result obtained by attaching the sound insulating material A1 and measuring it is referred to as Example 1. Similarly, a result obtained by pasting and measuring the sound insulating material A2 is referred to as Example 2. Similarly, a result obtained by pasting and measuring the sound insulating material A3 is referred to as Example 3. Similarly, a result obtained by pasting and measuring the sound insulating material A4 is referred to as Example 4. The result of not attaching the sound insulating material is referred to as Comparative Example 1. Further, a result obtained by attaching and measuring a sound insulating material obtained by adhering one surface of the sound absorbing material 1 formed in a plate shape to one surface of the aluminum plate 2 with an adhesive 4 is referred to as Comparative Example 2.

  In this experiment, the sound-absorbing material 1 is made of urethane foam having a thickness of 10 mm, the aluminum plate 2 is made 1 mm in thickness, and the aluminum powder-mixed adhesive 3 is made of an adhesive (bond G17 spray type) manufactured by Konishi Co., Ltd. It is assumed that 10% of 50 μm aluminum powder is mixed, the adhesive 4 is an adhesive manufactured by Konishi Co., Ltd. (bond G17 spray type), and the aluminum foil 5 is 50 μm thick.

  The measurement results of the noise level L5 are shown in Table 1 below.

エンジン１５に対して１面だけの遮音であったにも関わらず、各実施例では比較例１に対し２．４〜４．３（ｄｂ）の騒音を低減させることができた。また同様に、各実施例では比較例２に対し１．１〜３．０（ｄｂ）の騒音を低減させることができた。

In spite of the fact that only one surface of the engine 15 was sound-insulated, the noise of 2.4 to 4.3 (db) could be reduced in each example compared to Comparative Example 1. Similarly, in each example, the noise of 1.1 to 3.0 (db) could be reduced as compared with Comparative Example 2.

FIG. 1 shows a sound insulating material A1 of the first embodiment. FIG. 2 shows a sound insulating material A2 of the second embodiment. FIG. 3 shows a sound insulating material A3 of the third embodiment. FIG. 4 shows a sound insulating material A4 of the fourth embodiment. FIG. 5 is a measuring device for confirming the sound insulation effect of the sound insulation material A (A1, A2, A3, A4) of each example.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Sound absorption material 2 Aluminum board 3 Aluminum powder mixing adhesive 4 Adhesive 5 Aluminum foil A1 Sound insulation material (1st Example)
A2 Sound insulation material (second embodiment)
A3 Sound insulation material (third example)
A4 Sound insulation material (4th example)

Claims (5)

  A sound insulating material made by bonding one side of an aluminum plate and one side of a plate-shaped sound absorbing material with an adhesive mixed with aluminum powder.   A sound insulating material formed by bonding one side of an aluminum plate and one side of a plate-shaped sound absorbing material with an adhesive and encapsulating with aluminum foil.   A sound insulating material formed by bonding one side of an aluminum plate and one side of a plate-shaped sound absorbing material with an adhesive mixed with aluminum powder and encapsulating with aluminum foil. One side of an aluminum plate that is covered with aluminum foil adhering with an adhesive mixed with aluminum powder,
A sound insulating material made by adhering one side of a plate-shaped sound-absorbing material, which is made by adhering aluminum foil with an adhesive mixed with aluminum powder, with an adhesive mixed with aluminum powder. The aluminum plate has a thickness of 0.5 to 10 mm,
The sound insulation material according to claim 1, wherein the sound absorbing material has a thickness of 5 to 30 mm.

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