JPH071650A - Composite metal panel - Google Patents

Abstract

PURPOSE:To enhance cutting workability and the bonding workability to a wall surface and to prevent the generation of shift or a gull phenomenon (crimping of a flange) at the time of bending processing by providing an adhesive layer between a lead panel and a metal panel composed of a metal other than lead. CONSTITUTION:A composite metal panel 1 is obtained by laminating a lead panel 2 and a metal panel 3 composed of a metal other than lead through an adhesive 4. The metal panel 3 to be used has yield strength of 98N/mm<2> or more and a thickness of 0.2-3mm. Next, when the metal panel 1 is subjected to bending processing in such a state that the lead panel 2 is arranged inside, compression stress is applied to the lead panel 2 but, since the lead panel 2 is soft, the lead panel 2 generates compression deformation easily and, since to shift is generated between the lead panel 2 and the metal panel 3 provided through the adhesive 4, no gull phenomenon is generated. Since the adhesive is provided between the lead panel 2 and the metal panel 3, the composite metal panel 1 is enhanced in rigidity as compared with the case of the lead panel along and the shear cutting thereof becomes possible in a large dimensional state at the time of cutting and cutting workability is enhanced. Further, the bonding work of the metal panel 1 to a wall can be performed in a large dimensional state and bonding workability is enhanced.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a composite metal plate, and more specifically, it does not cause a "seagull" phenomenon in which a flange portion bends when bending is performed, and
The present invention relates to a composite metal plate used as a vibration damping material, a sound insulating material, and a radiation shielding material that can be easily processed.

[0002]

2. Description of the Related Art Recently, a material having a vibration damping function is provided as an intermediate layer in order to suppress or prevent the generation of noises and vibrations of structural materials such as various machines and appliances, vehicles, ships, etc. or equipments, devices and the like. A composite metal plate or a composite metal plate consisting of only a metal plate and a composite metal plate for the purpose of weight reduction have been developed and put into practical use.

However, such a composite type metal plate is structurally significantly inferior to a single metal plate in structure, so that
Mainly used for bending. This bending of metal plates is widely used in home appliances, metal furniture, doors and the like.

Bending is performed by a method suitable for each application. As a commonly performed method, as shown in FIG. 7, a V-shaped punch 5 and a V-shaped die 7 are used. The bending of the metal plate 6 is performed by.

When the composite type metal plate is bent by the tool shown in FIG. 7, as shown in FIG.
There is a problem in that the composite metal plate 8 is bent at a flange portion which is in line contact with the shoulder portion, and when viewed from the front, a so-called "seagull" shape is formed.

In order to solve this problem, various proposals have been made in terms of materials used or processing techniques. First, the proposed materials used will be described. The adhesive strength of the adhesive, for example, the resin layer provided between the metal plates is increased. Metal plates having different plate thicknesses are provided on both sides of a resin as an adhesive. Metal plates with different strength are provided on both sides of the resin.

Next, a technique for processing a metal plate will be described. A specific layer in the processed portion of the composite metal plate to be bent is cut off. A kerf is provided in the processed part of the composite metal plate. Instead of providing a kerf on the entire processed portion of the composite metal plate, a hole is formed along the planned bending line by a punch or the like. A cushion pin supported by a spring is placed inside the center of the lower die body of the bending die of the composite type damping steel plate, and when the cushion pin retreats in response to the press-fitting of the punch, the cushion pin retreats. It is equipped with a steel plate receiver whose angle can be changed in response to the movement to prevent the "seagull" phenomenon.

However, the measures against the materials used as described above are not yet complete, and increasing the shear strength of the metal plate deteriorates the vibration damping property, and there is a limit. However, there is a problem in terms of workability and the like.

Further, as a measure of the processing technique, the removal of a specific layer of a processed portion, the provision of a kerf, the provision of a hole, etc., must be performed in advance on the composite metal plate. There is a problem that it does not occur, and there is a problem that the strength of the bent portion when the original shape of the composite metal plate is changed and partly cut and punched is significantly reduced.

Further, changing the structure of the bending mold makes the structure of the mold extremely complicated, and scratches and indentations are transferred to the outer surface of the bending, and the cost of the mold is high. In addition, we cannot completely suppress the "seagull" phenomenon,
There is a problem that the bending outer metal plate becomes extremely thin, the number of processing steps increases, and the bending line is not sharp.

[0011]

SUMMARY OF THE INVENTION As described above, the present invention is intended to solve various problems of the prior art of a composite metal plate and various problems to solve the problems. , The present inventor has conducted diligent research, and as a result of repeated examinations, even a thin sheet-like material has a very large sound-insulating effect for sound-insulating, and also for sound-insulating to suppress or prevent the generation of noise and vibration, As an anti-vibration material, it also has an excellent radiation shielding effect.
It was discovered that lead (including lead alloys) as a radiation shielding material is used as one of the constituent materials of the composite metal plate.

However, since lead is an extremely flexible metal, the lead sheet bends or breaks due to the weight of lead itself, and shear cutting of a large-sized sheet material cannot be performed. . Further, when sticking or fixing to a wall, it was necessary to stick the whole area of the sheet with an adhesive or the like.

A technique has been proposed as described below as a countermeasure against the problem when lead is used as one constituent material of the composite metal plate. However, these proposals also have various problems.

It is necessary to cut to an appropriate size that can be handled. However, cutting into a predetermined size complicates the work such as an increase in the number of cutting processes and costs money.

The material is cut into a suitable size that can be handled by scissors or a cutter. However, when cutting to a predetermined size, shear cutting cannot be performed, so that a large amount of cutting requires a long working time, a large amount of labor, poor production efficiency, and high cost.

A lead powder is mixed with a rubber asphalt compound to form a sheet (see JP-A-56-073738). In addition, a sheet dispersed in a polyvinyl chloride resin in the form of lead fibers is used (Jitsuko Sho 56-030880).
(See the official gazette). It is not technically easy to process lead into powder or fiber, and the use of resin produces harmful gases such as hydrogen chloride and sulfurous acid gas when burned.

A lead plate is laminated with a plastic film (see Japanese Patent Laid-Open No. 58-074350). A laminate of lead and a plastic film is suitable for use as a flat plate, but cannot be processed by pressing or the like.

Therefore, when lead is used as one constituent material of the composite metal plate, in order to solve or reduce various problems of lead, by using a metal plate other than lead as another constituent material. In the process of bending the composite metal plate, the flange part does not bend and the "seagull" phenomenon does not occur, and we have developed a composite metal plate that overcomes the difficulty of handling and cutting due to the use of lead. is there.

[0019]

A composite metal plate according to the present invention is characterized in that an adhesive layer is provided between a lead plate and a metal plate other than lead. A first invention, and a second invention is a composite metal plate characterized in that an adhesive layer is provided between a lead plate and a metal plate having a yield strength of 98 N / mm ² or more. It consists of two inventions.

The composite metal plate according to the present invention will be described in detail below. First, in the first invention of the composite metal plate according to the present invention, as shown in FIG. 1, 1 is the composite metal plate according to the present invention, in which a lead plate 2 and a metal plate 3 other than lead are bonded. It is a composite metal plate in which the agent 4 is provided and laminated.

The second invention of the composite metal plate according to the present invention is also the composite metal plate 1 according to the present invention, as shown in FIG. 1, which has a lead plate 2 and a yield strength of 98 N / mm ²
It is a composite metal plate obtained by laminating the above metal plate 3 with an adhesive 4.

In the composite metal plate according to the present invention, it is preferable to use pure lead as lead, but a lead alloy can also be used depending on the intended use. The thickness depends on the characteristics required for the lead sheet, but it is 0.05-5m.
The thickness is preferably in the range of m. The thickness of the normal sound insulating material is preferably 0.3 to 1 mm, and the thickness of the normal radiation shielding material is preferably 0.05 to 0.2 mm.

Further, in the composite metal plate according to the present invention, as the metal plate other than lead, any metal such as steel plate and aluminum plate can be used, and the metal plate subjected to surface treatment such as plating. Can also be used. Further, it is necessary to determine the plate thickness and strength in consideration of the handling property in a large size sheet state, and the yield strength is 98 N /
The plate thickness is ² mm or more and the plate thickness is selected from 0.2 to 3 mm before use.

The adhesive may be any resin such as a polyolefin resin, a thermoplastic resin, a thermosetting resin, etc., and may have any composition. Further, it is a two-component type such as an epoxy type and a viscoelastic resin or the like can be used.

The "seagull" phenomenon in the composite metal sheet according to the present invention will be described. That is, in FIG. 2, when the composite metal plate is bent, a “deviation δ” is generated in the skin metal plate as shown in FIG. .

As shown in FIG. 4, this "deviation δ" shows a peak at a position corresponding to a bending R = 5 mm, and decreases from that point further away, and "deviation δ" occurs from a certain point. Disappear. Therefore, a bending moment toward the outside of the bending is generated in the vicinity of the deviation occurrence portion, and is released outside the shoulder of the die, so that a "seagull" phenomenon occurs.

Next, a case where the composite metal plate according to the present invention is V-bent will be described with reference to FIGS. 5 and 6. In FIG. 5, when the composite metal plate 1 according to the present invention is bent with the lead plate 2 placed inside, the lead plate 2 is subjected to compressive stress, but the lead plate 2 is soft. Therefore, compressive deformation easily occurs, and between the lead plate 2 and the metal plates 3 other than lead (including the yield strength of 98 N / mm ² ) provided with the adhesive 4 sandwiched therebetween, the above-mentioned "deviation Since "" does not occur, the "seagull" phenomenon does not occur.

Further, as shown in FIG. 6, when the lead plate 2 is arranged on the outer side of bending and bending is performed, a tensile stress is applied to the outer lead plate 2 and the lead plate is stretched and deformed. Therefore, between the lead plate 2 and the metal plate 3 (including the yield strength of 98 N / mm ² ) provided via the adhesive 4 and the lead plate 2,
The "seagull" phenomenon does not occur.

Next, in the composite metal plate according to the present invention, an adhesive is provided between the lead plate and the metal plate having a yield strength of 98 N / mm ² or more. Rigidity is improved as compared with, and shearing can be performed with a large size while cutting, and cutting workability is improved.

In addition, the work of sticking to a wall in a room can be stuck with a large size and the workability is improved. Moreover, one side of lead has a higher strength than a lead plate, that is, Since the metal plate having the yield strength of 98 N / mm ² or more is provided, the lead plate is less likely to be damaged by the high-strength metal plate.

[0031]

EXAMPLES Examples of composite metal plates according to the present invention will be described.

[0032]

[Example 1] A 0.4 mm thick steel plate was bonded to a 0.4 mm thick lead plate through a polyolefin resin to form a composite metal plate. Width 50 mm, length 300 m
m. When this composite metal plate was bent by the bending method of the type shown in Fig. 7, "Kamome"
No phenomenon occurred at all.

[0033]

[Example 2] A composite metal plate was prepared by bonding a 0.4 mm-thick lead plate with a 0.4 mm-thick metal plate to a steel plate having a yield strength of 98 N / mm ² or more via an adhesive agent. . This composite metal plate has a thickness of 0.8 mm, a width of 914 mm, and a length of 1.
It is 929 mm. The prepared composite metal plate could be fixed to the wall surface only by nailing, and it did not slide down. Also, the measurement result of sound insulation hardening is 60 dB (1000
Hz) and a good value.

[0034]

As described above, since the composite metal sheet according to the present invention has the above-mentioned structure, it becomes possible to shear-cut the composite metal sheet having lead on one side, and the cutting workability is improved. In addition, the workability of sticking to the wall surface is dramatically improved, and the excellent effect that there is no misalignment or "seagull" phenomenon during the bending process. Have.

[Brief description of drawings]

FIG. 1 is a schematic sectional view of a composite metal plate according to the present invention.

FIG. 2 is a schematic cross-sectional view for explaining the influence of bending of the composite metal plate.

FIG. 3 is a partially enlarged schematic cross-sectional view for explaining the influence of bending of the composite metal plate.

FIG. 4 is a diagram showing a distribution of displacement when the composite metal plate is bent at a bending R of 5 mm.

FIG. 5 is a schematic cross-sectional view showing an example of bending when the lead of the composite metal plate according to the present invention is arranged inside.

FIG. 6 is a schematic cross-sectional view showing an example of bending when the lead of the composite metal plate according to the present invention is arranged outside.

FIG. 7 is a schematic cross-sectional view showing an example of a normal V-bending single metal plate.

FIG. 8 is a schematic cross-sectional view showing an example of V-bending of a general composite metal plate.

[Explanation of symbols]

1 ... Composite type metal plate 2 ... Lead plate 3 ... Metal plate other than lead (metal plate having a yield strength of 98 N / mm ² or more) 4 ... Adhesive agent 5 ... V-type punch 6. ..Single metal plate 7 ... V-shaped die 8 ... Conventional composite metal plate

Claims (2)

[Claims] 1. A composite metal plate comprising a layer of an adhesive between a lead plate and a metal plate other than lead. 2. A composite metal plate, wherein an adhesive layer is provided between a lead plate and a metal plate having a yield strength of 98 N / mm ² or more.