JPH02190553A - Building panel material - Google Patents

Abstract

PURPOSE:To promote heat insulation efficiency and to suppress the vibration of a metal plate by laying a material layer different from the metal plate between the front and the rear metal plates, and coating the end of the other metal plate and the end of the material layer with either of the metal plates. CONSTITUTION:The rear metal plate 3 of a side end section 11 of a panel material 1 is extended in a proper width wider than the front metal plate 2 and a resin thin film layer 4 to form an extension section 31. After that, the extension section 31 is folded back to the surface of the front metal plate 2, and the end of the front metal plate 2 and the end of the resin thin film layer 4 are covered by the inside 32 of the folded surface. The front metal plate 2 of a side end section 12 of the panel material 1 is extended in a proper width wider than the rear metal plate 3 and the resin thin film layer 4 to form an extension section 21, and the extension section 21 is folded back to the surface of the rear metal plate 3. According to the constitution, heat insullation efficiency is promoted, and the coming off of the resin layer or the corrosion of the end of the metal plate can be prevented as well as condensation preventive effect.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention relates to a face plate material for a building, and more particularly to a face plate material suitable for use as a roof plate or exterior plate of a building.

[Prior Art] Conventionally, as a face plate for a roof board or an exterior board of a building, a face plate made of a single metal plate with an engaging part formed by bending the -(iii!i part and the other side line part) has been used. Generally used.Such face plates are used to connect adjacent face plates for horizontal roofing by engaging the engaging part on the - side edge with the engaging part on the other side edge of the adjacent face plate. However, for example, it is commonly used to construct the roof of a building.

Furthermore, as disclosed in Japanese Patent Application Laid-open No. 1819/1983, a face plate material is known in which a metal plate is attached to at least one of the inner and outer surfaces of plywood through a heat insulating material (insulating material).

As another face plate material, a layer of heat insulating material such as a wooden wool board made of cemented wood wool can be fixed to the inner surface of the metal plate, or
Face plate materials are known in which both the inner and outer surfaces or one of the inner and outer surfaces of a metal plate are coated with a coating material made of synthetic resin, etc., and a synthetic resin such as styrene resin is coated in a box-shaped cross section formed by bent inner and outer metal plates. Faceplate materials are also known that are foamed to form a layer of thermally insulating material.

[Problems to be Solved by the Invention] However, it is difficult to form the aforementioned engaging portions for connection on the side edges of the face plate material on which the heat insulating material layer is formed as described above. Even if a portion is formed, the thickness of the engaging portion becomes thick due to the presence of the heat insulating material layer up to the tip of the face plate material, making it difficult to engage these portions unless the engaging portion is made larger. Furthermore, since the heat insulating material layer is exposed in the side line portion, this layer tends to peel off and sometimes peels off. Therefore, the processing to form the engaging part is troublesome, and the processing cost is higher than that of forming the engaging part on a single metal plate. It had to be considerably more expensive than other metal plates.

On the other hand, in cases where only sound insulation is particularly required without much need for insulation, or when it is necessary to reduce the sound generated by the face plate material itself due to wind, raindrops, etc., a thermal insulation material layer such as the one described above can be used. Many of the face plate materials that have been used up have been used up, but these heat-insulating face plate materials are not only expensive as mentioned above, but also heavier than face plate materials that are made of a single metal plate. Transportation and installation are troublesome, and in some cases it may be necessary to increase the strength of the building structure, which can even affect the overall construction cost.

Therefore, an object of the present invention is to provide a face plate material for buildings that is particularly suitable for use as a face plate material that mainly requires sound insulation properties, has excellent workability, and is lightweight.

[Means for Solving the Problems] In order to achieve the above object, the present invention interposes a layer of material different from these metal plates between the back metal plate and the back metal plate. Or, one side edge of the back metal plate extends beyond the side edge of the other metal plate and is folded back toward the other metal plate, and the end of the other metal plate is folded inside this folded surface. A face plate material for a building, characterized in that an end portion of the material layer is coated, and a resin thin film layer is interposed between a back metal plate having corrosion resistance and a back metal plate having stronger strength than the back metal plate. At the same time, the side edge of either the back metal plate or the back metal plate extends beyond the side edge of the other metal plate and is folded back toward the other metal plate, and the other side is folded on the inside of this folded surface. The object of the present invention is to provide a face plate material for a building, characterized in that the edges of a metal plate and the edges (with a degreasing thin film layer) are coated, and in particular, the resin thin film layer is made of rubber made of natural resin or synthetic resin, adhesive, etc. It includes a face plate material for a building, which is characterized by having a film thickness of 0.1 to 0.3 m.

[Function] As described above, a layer of material different from the metal plate is interposed between the front and back metal plates, one side edge of the metal plate is folded back toward the other metal plate, and the end of the other metal plate is folded back. By coating the end portion of the material layer, it is possible to easily produce a face plate material that reduces vibration of the face plate material and has excellent sound insulation properties. In particular, by forming the material layer as a resin thin film layer, the overall thickness can be reduced and workability can be improved.

By roughly extending the side edge of one metal plate and folding it back, and covering the edge of the material layer together with the edge of the other metal plate, peeling off of the material layer and corrosion of the edge of the face plate material can be prevented. It can be prevented.

Further, the corrosion-resistant front metal plate prevents corrosion of the face plate material, and the back metal wing plate, which is stronger than the front metal plate, provides sufficient strength.

In addition, the resin thin film layer has a film thickness of 0.1 to 0.3 ml.
The face plate material can be easily formed by using rubber, adhesive, or sheet made of natural resin or synthetic resin.

[Example] Hereinafter, the present invention will be roughly described in detail based on an example shown in the drawings.

FIG. 1 shows an embodiment of the building face plate material of the present invention, and FIG. 2 shows an enlarged view of the main parts thereof.

This face plate material (1) consists of a front metal plate (2) and a back metal wing plate (
3), and a resin thin film layer (4) formed of a material different from these metal plates (2) and (3) and disposed between both metal plates (2) and (3). .

The front metal plate (2) is made of a corrosion-resistant material such as a copper plate or a stainless steel plate with a thickness of approximately 0.1 to 0.21 mm, and the back metal wing plate (3) is 0.5～
It is made of a material that is stronger than the top metal plate (2), such as a steel plate of about 1.6 mm.

The resin thin film N (4) can be formed with a thickness of about 0.1 to 0.31° using natural rubber, synthetic rubber, various adhesives, extruded or stretched synthetic resin sheets, etc. Both metal plates (2
), (3). Furthermore, by using a resin compound with adhesiveness and adhesive properties as the resin thin film layer (4), both metal plates (2) and (3) can be reliably joined, significantly improving strength and performance. Can be done.

The side end of the face plate material (1) is connected to the front metal plate (2).
Alternatively, one side end of the back metal wing plate (3) extends beyond the side end of the other metal plate, and this extended part is folded back toward the surface of the other metal plate, and this folded surface is It is formed so as to cover the end of the other metal plate and the end of the resin thin film layer (4) on the inside.

That is, the side end (11) of the face plate material (1) shown on the right side in FIG. An extended portion (31) is formed by extending an appropriate width from the layer (4), and this extended portion (31) is folded back toward the surface of the top plate (2).
The inner side (32) of this folded surface covers the end of the top plate (2) and the end of the resin thin film layer (4).

In addition, the side end portion (12) of the face plate material (1) shown on the left side in Fig. 1 extends the front metal plate (2) by an appropriate width beyond the back metal wing plate (3) and the resin thin film layer (4). and the extension part (2
1), and this extending portion (21) is folded back toward the surface of the back metal wing plate (3).

The face plate material (1) formed in this way has a thin resin film between the front and back metal plates (2) and (3)! The presence of (4) suppresses the vibration of the metal plate, improving sound insulation compared to a face plate material made of a single metal plate, and the noise generated by the face plate material (1) itself due to wind and raindrops. can also be significantly reduced. In general, it has better heat insulation than conventional face plate materials made of a single metal plate, and can also provide effects such as preventing dew condensation.

In addition, the overall thickness of the face plate material (1) increases only slightly compared to the conventional single face plate material (those with sufficient strength), and the thickness of the face plate material (1) is approximately the same, or both metal plates (2), (3) and the resin layer (4) are made of the face plate material (
By appropriately selecting 1) depending on the place of use, etc., it is possible to form the material thinner while providing sufficient strength.

Therefore, it is possible to obtain almost the same workability as a conventional single face plate material, and therefore various bending processes can be easily performed.

In addition, there is almost no increase in weight as the thickness increases, and it can be formed with approximately the same weight as a conventional single face plate material. Roughly both metal plates (2).

By using the material (3) as shown in this example, sufficient corrosion resistance and strength can be easily obtained.

In addition, by folding back the side edges of the metal plate, it is possible to prevent peeling of the resin layer and corrosion of the edge of the metal plate, and it is also possible to cover the cut edges of the metal plate, increasing safety during construction work. The face plate material (1
) can also prevent accidents such as injuries to workers at the side edges of the parts.

The folded shape of the side edges (11) and (12) of the face plate material (1) is determined as appropriate depending on the material of the front and back metal plates (2) and (3), the secondary processing shape of the face plate material (1), etc. For example, as shown in Fig. 3, the top metal plate (2
) on both sides of the back metal plate (3) and resin thin film layer (4).
Extending portions (22) on both sides with appropriate convergence extending from each side.
, (22) are formed, and the extending portions (22), (22
) can be folded back toward the surface of the back metal plate (3), so that the front metal plate (2) wraps the back metal plate (3) and the resin thin film layer (4).

4 to 11 show examples of various face plates obtained by secondary processing of the face plate material according to the present invention.

First, the face plate (40) shown in FIG. 3) sides are respectively bent to form engaging portions (43) and (44). That is, as shown enlarged in FIG.
) of the engaging part (43) is a folded part (43) folded back upwards.
a) and a bent part (43b) whose tip is bent into an S-shape, and the engaging part (43b) at the other end (42).
4) has a bent part (44a) bent downward into a cone shape and a folded part (44b) at the tip.

FIG. 6 shows a face plate (50) having a continuous trapezoidal wave cross-sectional shape called a folded plate shape by bending the entire face plate material (1). At both end portions of this face plate (50), as shown in an enlarged view in FIG.
Curved portions (51) and (52) are formed which are bent in a direction that abuts the front metal plate (2) or the back metal plate (3).

Furthermore, this face plate (50) has a resin layer (
4a) is formed to be thin, and the resin layer (4b) in the central portion is formed to be thick. In this way, by changing the thickness of the resin N (4a) and (4b) and changing the material of the resin between the center and both ends, we aim to improve processability as well as sound insulation and heat insulation. be able to.

Each face plate (60) shown in FIGS. 8 to 11 is
This is an example of the processing form of the engaging portions (61) and (62) at both end portions, and may be processed depending on various conditions such as the material of the constituent members of the face plate (60), the width and length of the face plate, and the place of use. It is possible to process the engaging portions (61) and (62) into optimal shapes.

As described above, by applying various secondary processes to the face plate material (1) of the present invention, it becomes possible to obtain face plates that can be used in a wide variety of applications.

[Effects of the Invention] As explained above, the building face plate material of the present invention can improve heat insulation and suppress vibration of the metal plate due to the layer of material different from the metal plate between the front and back metal plates. ,
It improves sound insulation and reduces the sound of wind and raindrops.

In particular, by using a resin R4 film layer as the material layer formed of a material different from the metal plate, it is possible to form the plate with approximately the same thickness and weight as the conventional single face plate material, and the conventional single face plate material can be formed with approximately the same thickness and weight. It is possible to obtain almost the same workability as the other face plate material, and it is possible to easily obtain face plates suitable for various uses. Even if the material layer interposed between the two metal plates is formed as a thin film, it has better heat insulation than the conventional face plate material made of a single metal plate, and can also be used to prevent condensation. Ru.

In addition, by folding back the side edges of the metal plate, it is possible to prevent peeling of the resin layer and corrosion of the edge of the metal plate, and it is also possible to cover the cut edges of the metal plate, increasing safety during construction work. can.

Corrosion of the face plate material is prevented by forming the back metal plate with a metal plate having corrosion resistance, and sufficient strength is obtained by forming the back metal plate with a metal plate stronger than the back metal plate. Can be done.

[Brief explanation of the drawing]

FIG. 1 is a cross-sectional perspective view showing one embodiment of the building face plate material of the present invention, FIG. 2 is an enlarged sectional view of the main part of the face plate material shown in FIG. 1, and FIG. 3 is another embodiment of the present invention. FIG. 4 is a sectional view showing an example of the processing of the side edge of the face plate; FIG. 5 is an enlarged sectional view of the main part of the face plate shown in FIG. 4; FIG. 7 is an enlarged sectional view of the main part of the face plate shown in FIG. 6, and FIGS. 8 to 11 each show an example of the shape of the face plate formed using the face plate material of the present invention. FIG. (1)... Face plate material (2)... Back metal plate (3)... Back metal plate (4)... Resin thin film layer (11), (12)... Side edge (21)... ), (22), (31)...extending portion (3
2)...Inner side of folded surface (40), (50), (60)...face plate (4
3), (44), (61), (62)...
Engaging portions (51), (52)...Curved portion Patent applicant Funaki Shoji Co., Ltd.

Claims (3)

[Claims] (1) A layer of material different from these metal plates is interposed between the front metal plate and the back metal plate, and the side edge of either the front metal plate or the back metal plate is connected to the other metal plate. A face plate for a building, which extends beyond a side edge and is folded back toward the other metal plate, and covers the edge of the other metal plate and the edge of the material layer inside this folded surface. material. (2) A resin thin film layer is interposed between a front metal plate having corrosion resistance and a back metal plate having stronger strength than the front metal plate, and a side end of either the front metal plate or the back metal plate. extends beyond the side edge of the other metal plate and is folded back toward the other metal plate, and the edge of the other metal plate and the edge of the resin thin film layer are covered on the inside of this folded surface. Characteristic face plate material for buildings. (3) The resin thin film layer is a rubber, adhesive, or sheet made of natural resin or synthetic resin, and has a thickness of 0.1 to 0.3 mm. Face plate material.