JP3308693B2 - Three-dimensional soundproof and heat insulating plate - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sound and heat insulating plate having a three-dimensional shape such as an engine cover.

[0002]

2. Description of the Related Art Conventionally, for example, in an engine room of an automobile, electronic devices for performing engine control, running control, and the like are arranged together with an engine. Therefore, an engine cover as a heat shield is provided to protect these electronic devices from high heat. This engine cover provides a certain space from the engine as a heat source and is disposed around the space, and serves as an effective heat shield. The engine cover is generally fixed to an engine that is a vibration source. The engine is also a noise source. Therefore, the engine cover is a sound-insulating heat-insulating plate having a role as a heat-insulating material as well as a heat-insulating plate.

[0003]

However, the above-mentioned conventional engine cover has a structure in which a metal plate or a plurality of metal plates are laminated and fixed, or an asbestos sheet or the like is sandwiched between them. Therefore, it does not sufficiently fulfill its role as a sound and heat insulating plate. That is, the noise of the conventional engine cover may be increased due to the fixed propagation sound from the engine.

Further, the space between the engine and the engine cover plays a role of a resonance box, and noise from the engine is repeatedly reflected in the space, and the noise is amplified. Therefore, the noise value increases due to the engine cover. In addition, even when an asbestos sheet or the like is interposed between one or more metal plates as a sound absorbing material, the metal plate reflects noise. Therefore, a sufficient sound absorbing effect cannot be obtained.

Further, as a sound insulating material and a vibration damping material, a damping steel plate having a viscoelastic resin sandwiched between two metal plates has been proposed. However, since this viscoelastic resin is weak to heat, it is not preferable to install it around a high-temperature body such as an engine in terms of durability. Under such circumstances, the present inventors have previously described (Japanese Patent Application No. 5-243777) "Soundproof and heat insulating plate having a three-dimensional shape such as an engine cover" in which the soundproof and heat insulating plate is formed into the above-mentioned shape. A three-dimensional soundproof and heat-insulating material, comprising: a metal substrate; a sound absorbing material provided on the surface of the metal substrate; and a net disposed on the surface of the inorganic sound absorbing material and fixed to the metal substrate. Invented the board. However, in the above invention, when continuously used at a high temperature, the metal substrate or the net is distorted due to thermal expansion, the adhesion between the metal substrate and the inorganic sound absorbing material is reduced, and the problem that the vibration damping property is reduced occurs. . The present invention has been made in view of the above-described problems, and provides a sound-insulating heat-insulating plate having a three-dimensional shape with excellent soundproofing, heat-insulating, and durability without a reduction in vibration damping even when used continuously at high temperatures. Is what you do.

According to the present invention, there is provided a sound insulating and heat insulating plate having a three-dimensional shape such as an engine cover, wherein the sound insulating and heat insulating plate is provided on a metal substrate formed in the above-described shape, and on a surface of the metal substrate.
Inorganic fiber, inorganic expanding material and
A three-dimensional sound insulating and heat insulating plate comprising a heat-expandable inorganic sound absorbing material comprising a paper strength enhancer and a net disposed on the surface of the inorganic sound absorbing material and fixed to the metal substrate. The most remarkable thing in the present invention is that the heat-expandable inorganic sound-absorbing material expands by heating, thereby absorbing the distortion due to the thermal expansion of the metal substrate and the net that occurs when used continuously at a high temperature, and always absorbs the metal. This is because the substrate and the heat-expandable inorganic sound absorbing material are in close contact with each other.

As the metal plate, for example, a steel plate, an aluminum plate, a stainless steel plate, a plated steel plate or the like is used.
Next, the net is preferably made of an inorganic material such as metal or ceramic fiber from the viewpoint of heat resistance. In the case of a metal net,
It is preferable to fix by rivet, brazing, spot welding or the like. As the fixing method, it is preferable to use rivets and spot welding from the viewpoint of productivity. In this case, in particular,
The net can be completely fixed to the curved surface of the metal substrate. The above-mentioned heat-expandable inorganic sound-absorbing material is composed of 40 to 90 wt% of inorganic fiber, 10 to 60 w of inorganic expanding material.
It is preferable that the ratio is t%.

The above-mentioned heat-expandable inorganic sound absorbing material absorbs noise in the following manner. That is, the energy of the sound that has entered the gap between the inorganic fiber and the inorganic expanding material is converted into heat energy by viscous resistance of the capillary, or vibrated by the energy of the sound that the fiber itself has penetrated and converted into heat energy. . Therefore, the heat-expandable inorganic sound absorbing material plays a role of a sound absorbing material.

Further, the heat-expandable inorganic sound absorbing material absorbs vibration in the following manner. That is, the vibration energy transmitted from the engine to the metal substrate is converted into thermal energy by the internal friction of the heat-expandable inorganic sound absorbing material. Therefore, the heat-expandable inorganic sound absorbing material plays a role of a vibration damping material. In order for the above-mentioned heat-expandable inorganic sound-absorbing material to sufficiently serve as a vibration damping material, the metal substrate and the heat-expandable inorganic sound-absorbing material need to be always in close contact with each other. In the present invention, the distortion due to thermal expansion of the metal substrate and the net, which is generated when the metal substrate and the net are continuously used at a high temperature, is absorbed by the expansion of the heat-expandable inorganic sound absorbing material, and the metal substrate and the heat-expandable inorganic sound absorbing material are absorbed. There is no decrease in adhesion to the substrate.

If the amount of the inorganic fiber is less than 40% by weight, the sound absorption and durability are reduced. If the amount is more than 90% by weight, a sufficient expansion effect is not obtained, the adhesion is reduced, and the vibration damping property is reduced. If the amount of the inorganic expander is less than 10% by weight, a sufficient expansion effect cannot be obtained, and the adhesiveness is reduced and the vibration damping property is reduced. 6
If it exceeds 0 wt%, the soundproofing property and durability will be reduced. Therefore, the heat-expandable inorganic sound-absorbing material is composed of 40 to 90 wt% of inorganic fiber and 10 to 60 wt% of inorganic expandable material.
Preferably.

The inorganic fibers include alumina,
It is preferable to use at least one material selected from the group consisting of silica-alumina, glass, and silica. It is preferable that unexpanded vermiculite is used as the inorganic expanding material.

Next, the above-mentioned inorganic sound absorbing material is 0.5 mm to 5 mm.
mm and a bulk density of 0.05 g / cm
³ is preferably to 0.5 g / cm ^3. 0.5m
If the thickness is less than 5 m, the sound absorption and vibration damping properties are insufficient.
If it is thicker than mm, it may not be possible to mount it on the engine in a limited space of the engine room, for example. Also,
Is less than the bulk density of 0.05 g / cm ^3, results in durability issues, greater than 0.5 g / cm ^3, which may cause a sound absorption failure problems.

The soundproof and heat insulating plate of the present invention exhibits excellent effects as a soundproof and heat insulating material for high heat and noise generating equipment such as an exhaust pipe, a turbocharger cover, a catalytic converter, etc., in addition to the engine cover.

[0014]

The sound and heat insulating plate of the three-dimensional shape according to the present invention comprises a metal substrate, a heat-expandable inorganic sound absorbing material adhered to the surface of the metal substrate, and the above-mentioned net. The engine cover and the like made of the soundproof and heat insulating plate are installed so that the surface on which the inorganic sound absorbing material is provided faces the engine and the like. Therefore, noise from an engine or the like is absorbed by the heat-expandable inorganic sound absorbing material and does not propagate to the metal substrate. Therefore, through the metal substrate,
No noise is transmitted to the outside. In addition, since the heat-expandable inorganic sound-absorbing material expands by heating, even when used continuously at a high temperature, the adhesion between the metal substrate and the heat-expandable inorganic sound-absorbing material does not decrease, resulting in excellent control. It shows vibration characteristics.

Further, the above-mentioned inorganic sound absorbing material has an excellent heat shielding effect. Therefore, heat generated from the engine or the like can be easily cut off. Further, a net is arranged on the sound source side with respect to the inorganic sound absorbing material. Since the net allows the sound on the sound source side to pass through the sound absorbing material, the sound absorbing effect of the inorganic sound absorbing material is extremely effectively exhibited.
Also, the net supports the inorganic sound absorbing material. Therefore, peeling of the inorganic sound absorbing material is prevented, and the durability is excellent. Also,
According to the above configuration, a sound insulating heat insulating plate having a complicated three-dimensional shape can be easily manufactured. As described above, according to the present invention, there is provided a sound-insulating heat-insulating plate having a three-dimensional shape excellent in soundproofing, heat-insulating, and durability without a decrease in vibration damping even when used continuously at high temperatures. Can be.

[0016]

【Example】

Example 1 A three-dimensional soundproof and heat insulating plate according to an example of the present invention is described below.
This will be described with reference to FIGS. The three-dimensional soundproof and heat insulating plate of this example is used as an engine cover 1 of an automobile. As shown in FIG. 1, the engine cover 1 is made up of a soundproof and heat insulating plate 10 having a three-dimensional shape. The engine cover 1 includes a metal substrate 11 formed into the above-described shape, and a heat-expandable inorganic sound absorbing material 12 disposed on the surface of the metal substrate 11.
And a net 13 arranged on the surface of the heat-expandable inorganic sound absorbing material 12 and fixed to the metal substrate 11.

Next, the metal substrate 11 uses an aluminum-plated steel plate. Its thickness is 0.6 mm. Next, the net 13 is made of stainless steel and has a mesh of 50 Me.
sh, the wire diameter is 0.18 mm. Then, a plurality of locations are fixed to the metal substrate 11 with rivets 15 as shown in FIG.

Next, the method for producing the heat-expandable inorganic sound absorbing material 12 is as follows. Water (50 l) at 20 ° C. was put into a stirring vessel and stirred, and 600 g of silica-alumina ceramic fiber (trade name: ibiwool) was added thereto and stirred for 5 minutes. Next, 400 g of unexpanded vermiculite (from South Africa) was charged and stirred for 2 minutes. In addition, colloidal silica (Nissan Chemical's ST-
(30, solid content 30 wt%) was added and stirred for 30 seconds. 200 ml of 10% aluminum sulfate solution is added to the suspension, followed by addition of 200 ml of 1% polyacrylamide solution to cause aggregation, and the mixture is stirred for about 10 seconds. The obtained suspension was put into a 115 cm × 115 cm papermaking container,
By vacuum suction, a sheet having a thickness of about 12 mm was prepared. The above-mentioned sheet is press-dewatered with a roller press device, and then dried at 120 ° C. for 6 hours with a hot-air drier to have a thickness of 3 m.
m, and a heat-expandable inorganic sound absorbing material having a bulk density of 0.25 g / cm ³ were obtained. Next, it was punched into a desired shape. At this time, in order to improve the handling strength after drying, a paper-strength enhancer such as acryl, latex, or starch can be added as necessary. The heat-expandable inorganic sound absorbing material 12 is fixed by a rivet 15 through a net 13. The engine cover 1 made of the soundproof and heat insulating plate 10 is installed so that the surface on which the net 13 is provided faces the engine.

Next, the operation and effect of this embodiment will be described. The engine cover 1 is installed so that the surface on which the net 13 is provided faces the engine. for that reason,
The noise from the engine passes through the net 13 and is absorbed by the heat-expandable inorganic sound absorbing material 12, and the attenuated noise reaches the metal substrate 11. It is absorbed by the inorganic sound absorbing material 12 and reduced.

Therefore, the structure of this embodiment is based on the fact that the space between the engine and the engine cover plays the role of a resonance box, and the noise from the engine is reflected repeatedly in the space and the noise is amplified. It suppresses. Further, the vibration propagated from the engine to the engine cover 1 is absorbed by the heat-expandable inorganic sound absorbing material 12. Therefore, the generation of new noise using the engine cover as the sound emitting surface is prevented. Further, even when the heat-expandable inorganic sound absorbing material 12 is continuously used at a high temperature, even if the metal substrate 11 and the net 13 are thermally expanded and distorted, the heat-expandable inorganic sound absorbing material 12 can be separated from the metal substrate 11 by its heat-expandability. Can be prevented. Therefore, it exhibits excellent vibration damping properties even when used continuously at high temperatures. Further, as described above, the net 13 is disposed with respect to the heat-expandable inorganic sound absorbing material 12, and the net 13 supports the heat-expandable inorganic sound absorbing material 12.
Therefore, the heat-expandable inorganic sound absorbing material 12 can be prevented from peeling off from the metal substrate 11. Therefore, the engine cover of this example is excellent in durability. Further, with the above configuration, it is easy to manufacture a sound-insulating and heat-insulating plate having a complicated three-dimensional shape. Further, as the inorganic sound absorbing material 12, a ceramic fiber having an excellent heat shielding effect is used. Therefore, heat generated from the engine can be easily cut off. Furthermore, ceramic fiber is a material having excellent heat resistance, and can withstand high heat conditions around the engine. As described above, according to this example, there is provided a soundproof and heat insulating plate having a three-dimensional shape with excellent soundproofing, heat insulating, and durability without a decrease in vibration damping even when used continuously at high temperatures. Can be. What
In addition, in the above-mentioned heat-expandable inorganic sound absorbing material of this example, paper strength is enhanced.
This paper strength enhancement is an inorganic expander
To suppress the excessive expansion of a certain vermiculite
It is used to prevent the sound insulation effect from lowering.
It is.

Example 2 In this example, as shown in Table 1, an engine cover was produced by using the soundproof and heat insulating plate according to the present invention and the conventional product. These were mounted on an actual engine for comparison and control, and the noise transmitted to the outside through the engine cover was measured. The soundproof and heat insulating plate used in this example is the same as the sample according to the present invention in Example 1.
Sample 1 having the same configuration as that of Sample 1 and Samples 2 and 3 in which the composition of the heat-expandable inorganic sound absorbing material of Sample 1 is changed as shown in Table 1 are used. As Comparative Examples, Samples 4 to 5 and Sample C-1 using a ceramic fiber paper (trade name: ibi wool paper) having no heat expandability of the heat expandable inorganic sound absorbing material were used. The engine used for the measurement was 2
Liter, 4-cylinder diesel engine with 300 rpm
0r. p. m. A noise meter was installed at a position 50 cm away from the engine cover of the engine, and its noise characteristics were measured. The noise measurement was performed 5 minutes and 2 hours after the start of engine rotation. Table 1 shows the results. As can be seen from Table 1, Sample 1 according to the present invention,
The noise values at 2 hours after the start of engine rotation were lower in Comparative Examples 2 and 3 than in Comparative Examples, Samples 4, 5 and C-1. That is, the samples 4 and 5 of the comparative example and the C-1 of the conventional product are strains caused by thermal expansion of the metal substrate and the net due to the heating, and the inorganic sound absorbing material is separated from the metal substrate, so that the vibration damping property is reduced. Therefore, the noise value is large. But,
The sound-insulating heat-insulating plate of the present invention is a heat-expandable inorganic sound-absorbing material, which is a distortion caused by thermal expansion of the metal substrate and the net by heating, without the inorganic sound-absorbing material peeling off from the metal substrate.
Even when used continuously at a high temperature, the vibration damping property does not decrease. Therefore, the product of the present invention does not have a high noise value two hours after the start of engine rotation.

[0021]

[Table 1]

[Brief description of the drawings]

FIG. 1 is a front sectional view of an engine cover according to a first embodiment.

FIG. 2 is an enlarged view of a main part of FIG.

[Explanation of symbols]

1: Engine cover 10: Soundproof and heat insulating plate 11: Metal substrate 12: Heat-expandable inorganic sound-absorbing material 13: Net 1
5: Rivet

──────────────────────────────────────────────────続 き Continued on the front page (58) Field surveyed (Int. Cl. ⁷ , DB name) F02B 77/13 C04B 32/00 G10K 11/162

Claims (4)

(57) [Claims] 1. A soundproofing heat shield plate having a three-dimensional shape such as an engine cover, is-proof sound heat shield plate is a metal substrate which is formed into the shape, in the surface of the metal substrate, provided on the sound source side , Mineral fiber, mineral expander and paper strength
A three-dimensional soundproof and heat insulating plate comprising: a heat-expandable inorganic sound-absorbing material made of an agent ; and a net disposed on the surface of the inorganic sound-absorbing material and fixed to the metal substrate. 2. The heat-expandable inorganic sound-absorbing material according to claim 1, wherein the heat-expandable inorganic sound-absorbing material comprises 40 to 90% by weight of an inorganic fiber,
A sound-insulating heat-insulating plate having a three-dimensional shape, characterized by comprising up to 60 wt%. 3. The inorganic fiber according to claim 2, wherein the inorganic fiber is at least one material selected from the group consisting of alumina, silica-alumina, glass, and rock wool silica, and the inorganic expandable material is unexpanded vermiculite. A three-dimensional soundproof and heat insulating plate characterized by the following. 4. The heat-expandable inorganic sound-absorbing material according to claim 3, having a thickness of 0.5 mm to 5 mm, and a bulk density of 0.05 g / cm ^{3 to} 0.5 g / cm ³ . A three-dimensional sound and heat insulating plate characterized by the following.