JP3381335B2 - Soundproof heat insulation 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 soundproof and heat insulating plate 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, traveling control, etc. are arranged together with an engine. Therefore, in order to protect these electronic devices from high heat, an engine cover as a heat shield plate is provided. This engine cover is provided around a certain space from the engine, which is a heat source, and is arranged around the space, and is an effective heat shield plate. The engine is also a noise source. Therefore, the engine cover is a sound insulating and heat insulating plate that serves as a heat insulating plate as well as a sound insulating material.

[0003]

However, the above-mentioned conventional engine cover is one 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 play a sufficient role as a sound and heat shield. That is, the conventional engine cover cannot prevent the solid-borne sound in which the noise from the engine propagates through the metal plate.

Further, the space between the engine and the engine cover plays the role of a resonance box, and the noise from the engine is repeatedly reflected in the space, and the noise is amplified. Therefore, the engine cover increases the noise level. The metal plates are joined together by rivets or the like. However, the above rivets make it easy to let the sound through,
Acts as a sound bridge.

Also, in the case where an asbestos sheet or the like is sandwiched between one or a plurality of metal plates as a soundproof material, the metal plates reflect noise. Therefore, sufficient soundproofing effect cannot be obtained. The present invention has been made in view of the above problems by soundproofing,
The aim is to provide a soundproof and heat shield plate that is excellent in heat shield and easy to manufacture.

[0006]

According to a first aspect of 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 the surface of the metal substrate formed in the above shape. An inorganic sound absorbing material and a net arranged on the surface of the inorganic sound absorbing material, and the net is spot welded to a metal substrate, and the welded portion of the spot welding is
Has a pitch of 10 mm to 100 mm, and
The net is a soundproof and heat insulating plate characterized by having a mesh size of 10 to 100 mesh .

What is most noticeable in the first aspect of the invention is that the sound insulation and heat shield plate comprises a metal substrate, an inorganic sound absorbing material disposed on the surface of the metal substrate, and a net spot-welded to the metal substrate. Do Ri, welding portion of the spot welding
Has a pitch of 10 mm to 100 mm,
And the net is 10 mesh to 100 mesh . As the metal substrate, for example, a steel plate, a stainless steel plate, a plated steel plate or the like is used. A metal that can be spot welded is used as the net.

The inorganic sound absorbing material is preferably an inorganic fiber having heat resistance. As the above inorganic fiber,
For example, ceramic fiber is used. When the requirement for heat resistance is not so important, it is preferable to use glass fiber from the viewpoint of cost.

The above ceramic fiber is 0.5 mm
It has a thickness of ~ 5 mm and its bulk density is 0.05 g /
It is preferably from cm ^{3 to} 0.5 g / cm ³ . That is, if the thickness is less than 0.5 mm, the sound insulation is insufficient.
On the other hand, if it is thicker than 5 mm, it may not be mounted on the engine in a limited space of the engine room, for example.
Further, when the bulk density is less than 0.05 g / cm ³ results in durability issues, is greater than 0.5 g / cm ^3, there is a risk that soundproofing property becomes insufficient.

Next, the welded portion has a pitch of 10 to 100.
It has a distance of mm, and net Ru 10 to 100 mesh der. If the pitch is less than 10 mm, the welded part becomes a sound bridge, and the soundproof effect may be reduced. Further, when the pitch is larger than 100 mm, the inorganic sound absorbing material floats from the metal substrate. Therefore, the sound absorbing material may fall due to the vibration of the engine, etc., and there is a problem in durability.

If the net is larger than 100 mesh, the mesh becomes too small and the sound reflection by the net becomes large, so that the soundproof effect is deteriorated. Also, 1
When the mesh size is less than 0 mesh, only about 1 to 2 threads constituting the net are placed on the welded portion. Therefore, spot welding becomes difficult. The spot welding nugget diameter is 3
It is preferably from mm to 5 mm. Nugget diameter is 3m
If it is less than m, the weld bond strength between the net and the metal substrate is weak, resulting in poor durability. If it is larger than 5 mm, a problem of sound bridge occurs.

In addition, it is preferable that the layer of the inorganic sound absorbing material is previously provided with a welding hole at a spot welding portion. The welding hole preferably has a diameter of 7 mm to 15 mm. If the diameter is less than 7 mm, it will be difficult to insert an electrode for spot welding.
If it is larger, the soundproofing effect is reduced.

The second aspect of the invention is to stand up an engine cover or the like.
In a soundproof heat shield having a physical shape, the soundproof heat shield
On the surface of the metal substrate and the metal substrate formed in the above shape
The inorganic sound absorbing material provided and the inorganic sound absorbing material disposed on the surface
A net, and the net is for a metal substrate,
Spot welded, the edge of the metal substrate is an inorganic sound absorbing material
And has a bent portion bent in the direction of the net.
It is a soundproof and heat-insulating plate, which is characterized by covering the part.
With the structure according to the second aspect of the present invention, a soundproof and heat insulating plate in which the net and the sound absorbing material do not stick out in the lateral direction is obtained. In addition, the metal substrate and the end of the net do not appear on the side surface. Therefore, at the time of installation work of the soundproof and heat shield plate, even if the end portion is touched by hand, there is no fear of injury and it is safe.

[0014]

FUNCTION AND EFFECT The soundproof and heat insulating plate of the first and second inventions is installed so that the surface provided with the inorganic sound absorbing material faces the heat source such as the engine and the sound source. Therefore, noise from the engine or the like is absorbed by the inorganic sound absorbing material and does not propagate to the metal substrate. Therefore, no noise is transmitted to the outside through the metal substrate.

Further, the inorganic sound absorbing material has an excellent heat shielding effect. Therefore, the heat generated by the engine can be easily shielded. A net is arranged on the sound source side with respect to the inorganic sound absorbing material. Since the net allows sound from the sound source to pass through the sound absorbing material, the sound absorbing effect of the inorganic sound absorbing material is extremely effectively exhibited.

The net supports the inorganic sound absorbing material.
Therefore, exfoliation of the inorganic sound absorbing material is prevented and the durability is excellent. Furthermore, the net is joined to the metal substrate by spot welding. Therefore, the net and sound absorbing material are securely attached, and the production is easy. Further, with the above configuration, a sound insulating and heat insulating plate having a complicated three-dimensional shape can be easily manufactured.
As described above, according to the present invention, it is possible to provide a soundproof and heat insulating plate which is excellent in soundproofing and heat shielding and is easy to manufacture.

[0017]

【Example】

Example 1 FIGS. 1 to 5 show a soundproof and heat insulating plate according to an example of the present invention.
Will be explained. The soundproof and heat insulating plate of this example is used as the engine cover 1 of an automobile. As shown in FIG. 1, the engine cover 1 is composed of a sound insulating and heat insulating plate having a three-dimensional shape. As shown in FIG. 2, the engine cover 1 includes a metal substrate 11 formed in a cover shape, an inorganic sound absorbing material 12 provided on the surface of the metal substrate 11, and a net 13 arranged on the surface of the inorganic sound absorbing material 12. And consists of. The net 13 is spot-welded to the metal substrate 11.

Next, as the metal substrate 11, a galvanized steel plate is used. Its thickness is 0.6 mm. The net 13 is made of stainless steel and has a mesh of 50 mesh and a wire diameter of 0.18 mm. Then, as shown in FIGS. 2 and 4, the metal substrate 11 is fixed by spot welding. As shown in FIG. 3, the welding portion 14 of the spot welding is performed with a pitch of 30 mm (symbol P) and a nugget diameter of 3 mm (symbol N). The inorganic sound absorbing material 12 does not exist in the welded portion 14 where spot welding is performed (FIGS. 2 and 4).

Next, the inorganic sound absorbing material 12 is a layered product of silica-alumina ceramic fiber (trade name; Ibiwool paper, manufactured by Ibiden Co., Ltd.). The layer thickness of the inorganic sound absorbing material 12 is 3 mm. Its bulk density is 0.25
It is g / cm ³ . The inorganic sound absorbing material 12 is fixed to the metal substrate 11 by the net 13. The engine cover 1 is installed so that the surface on which the net 13 is provided faces the engine.

Next, the relationship between the pitch of the welded portion 14 and the noise is as shown in FIG. The above relationship is measured by the following method. That is, an engine cover manufactured using the soundproof and heat insulating plate is installed around a 2-liter, 4-cylinder diesel engine. Then, the engine is operated at 3000 rpm. At this time, noise is measured at a position 50 cm away from the engine cover.

Next, the function and effect of this example 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,
Noise from the engine passes through the net 13, is absorbed by the inorganic sound absorbing material 12, and does not propagate to the metal substrate 11. Therefore, no noise is transmitted to the outside through the metal substrate 11.

Further, the inorganic sound absorbing material 12 uses ceramic fibers having an excellent heat shielding effect. Therefore, the heat generated from the engine can be easily shut off. Furthermore, ceramic fiber is a material with excellent heat resistance and can withstand high heat conditions around the engine. Further, the net 13 is arranged with respect to the inorganic sound absorbing material 12, and the net 13 is
Support. Therefore, the inorganic sound absorbing material 12 can be prevented from peeling off from the metal substrate 11. Therefore, the engine cover 1 of this example has excellent durability.

The net 13 is fixed to the metal substrate 11 by spot welding. The net 13 supports the inorganic sound absorbing material. Therefore, it is possible to easily arrange the inorganic sound absorbing material 12 along the inner surface shape of the metal substrate 11 even for the metal substrate 11 having a complicated three-dimensional shape. As described above, according to this example, it is possible to provide a soundproof and heat insulating plate which is excellent in soundproofing and heat shielding and easy to manufacture.

Example 2 In this example, as shown in FIG. 6, the end portion of the metal substrate 11 in the engine cover 1 is connected to the inorganic sound absorbing material 12 and the net 13.
It shows an example in which it is bent in the arrangement surface direction. The peripheral portion of the metal substrate 11 has a bent portion 15. The peripheral portions of the inorganic sound absorbing material 12 and the net 11 have the bent portions 15
Is covered by. Others are the same as in the first embodiment.

Next, the function and effect of this example will be described. In this example, the peripheral portions of the net 13 and the inorganic sound absorbing material 12 do not protrude to the side surface direction of the engine cover 1. Therefore, the inorganic sound absorbing material 12 does not fall off. Further, the side surfaces of the metal substrate 11 and the net 13 are not exposed on the surface of the engine cover 1. Therefore, even if it is touched by hand at the time of attaching the engine cover, there is no risk of injury and it is safe.

Embodiment 3 This embodiment explains a method of manufacturing the engine cover 1 shown in Embodiment 1, as shown in FIGS. First, as shown in FIG. 7, a plate-shaped inorganic sound absorbing material 12 having spot welding holes 140 is prepared. Spot welding hole 14
0 is provided in a size corresponding to the pitch of spot welding and the nugget diameter. The material, size, etc. of the inorganic sound absorbing material 12 are the same as in the first embodiment. Next, as shown in FIG. 8, the inorganic sound absorbing material 12 is placed on the metal substrate 11. Furthermore,
The net 13 is arranged on it.

Thereafter, as shown in FIG. 9, the welding electrode 2 is attached to the metal substrate 11 at the position of the welding hole 140.
Place them on both the front and back sides and perform spot welding. In FIG. 9, from the left to the right of the drawing, after welding, during welding and before welding, the metal substrate 11 and the inorganic sound absorbing material 12 are shown.
And the state between the three of the nets 13 is shown. According to this example, the engine cover 1 shown in Example 1 can be easily manufactured.

Example 4 This example illustrates another method for manufacturing the soundproof and heat insulating plate shown in Example 1 as shown in FIGS.
That is, in this example, as shown in FIG. 10, spot welding is performed using the welding electrode 2 inserted in the tubular guide 20. The electrode 2 itself has the same shape as that of the third embodiment. And when doing spot welding,
The guide 20 is brought into contact with the net 13 near the weld.

Next, the function and effect of this example will be described. In this example, when performing spot welding,
The guide 20 presses the net 13 near the weld. Therefore, the mesh of the net 13 does not open too much, and the net 13 is spot-welded in a uniform state. Further, as shown in FIG. 11, the tension applied to the net 13 is also uniform. Therefore, disconnection of the net 13 can be prevented.

Further, FIG. 12 shows an eccentric weld 141 which occurs when the guide 20 is not used. That is, the welding part 141 is applied with only the electrode 2 when the net 13 is slackened,
More likely to occur when welded. In this case, excessive tension is applied to the net right side 131 in the figure, and the net is in a tensioned state. On the other hand, the left side 132 of the net is, on the contrary, relaxed. For this reason, the net right side 131, when extra force is applied,
It is more likely to be cut than other parts.

The net right side 131 strongly presses the inorganic sound absorbing material 12 underneath. Therefore, the inorganic sound absorbing material 1
The thickness of 2 becomes small and the soundproofing is impaired. Further, the inorganic sound absorbing material 12 cannot be firmly fixed to the net left side 132. Therefore, if the net 13 is pressed by using the guide 20, the spot welding can be performed in a uniform state without tension or looseness. Therefore, the adverse effects shown above can be eliminated. Therefore,
According to this example, it is possible to obtain a soundproof and heat shield plate having excellent durability.

[Brief description of 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.

FIG. 3 is an explanatory diagram of spot welding in Example 1.

FIG. 4 is an explanatory diagram of spot welding in Example 1.

FIG. 5 is a diagram showing a relationship between pitch of spot welded portions and noise in Example 1.

FIG. 6 is a sectional view of an end portion of an engine cover according to a second embodiment.

FIG. 7 is a perspective view of an inorganic sound absorbing material according to a third embodiment.

FIG. 8 is an explanatory diagram of a configuration of each member in the third embodiment.

FIG. 9 is an explanatory diagram of spot welding in Example 3.

FIG. 10 is an explanatory view of spot welding with a guide in the fourth embodiment.

FIG. 11 is an explanatory diagram of an ideal welded portion according to the fourth embodiment.

FIG. 12 is an explanatory diagram of an inappropriate welded portion according to the fourth embodiment.

[Explanation of symbols]

1. ． ． Engine cover, 11. ． ． Metal substrate, 12. ． ． Inorganic sound absorbing material, 13. ． ． Net, 14. ． ． welded part, 15. ． ． Bent part,

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Claims (2)

(57) [Claims] 1. A sound-insulating heat-insulating plate having a three-dimensional shape such as an engine cover, wherein the sound-insulating heat-insulating plate comprises a metal substrate formed in the above shape, an inorganic sound absorbing material provided on the surface of the metal substrate, It consists of a net placed on the surface of the inorganic sound absorbing material,
And the above net is spot welded to the metal substrate.
The spot welded portion has a pitch of 10 mm to 1
It has a space of 00 mm and the net is 10 mesh.
A soundproof and heat-insulating plate characterized by a size of 100 to 100 mesh . 2. A three-dimensional shape such as an engine cover.
Soundproof heat shield plate, the soundproof heat shield plate is molded into the above shape.
Metal substrate and inorganic sound absorbing material provided on the surface of the metal substrate
And a net arranged on the surface of the inorganic sound absorbing material,
And the above net is spot welded to the metal substrate.
The edge of the metal substrate is an inorganic sound absorbing material or net.
It has bent parts bent in the direction and covers these peripheral parts.
A soundproof and heat shield board characterized by