JPH0146665B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention mainly relates to a method of manufacturing a thermal insulation panel for construction used for external insulation of a wooden house.

Recently, with the spread of energy saving ideas, insulation materials have come to be actively used in general housing (single-family houses, apartment complexes).

For panels to be attached to the walls of buildings, combination structures of heat insulating materials and exterior materials, especially structures with an air layer formed between the two, are often used (Reference examples: Utility Model Application No. 54-60909, Utility Model Application No. 60909) No. 55-73014).

According to the above structure, the heat insulation effect of the wall can be further enhanced by utilizing the convection effect of air, which is also advantageous in terms of construction. Conventionally, the structure has been assembled by laminating a heat insulating material and an exterior body or by interposing an intermediate member.

An object of the present invention is to provide a method for manufacturing the above-mentioned structure integrally with an exterior material and a moisture-proof sheet by utilizing the self-adhesive properties of foamed plastics.

In the method for manufacturing a thermal insulation panel for construction of the present invention, a foamed plastic stock solution is discharged onto a specific area on a moisture-proof sheet while continuously feeding the sheet,
The moisture-proof sheet is turned upside down during movement, and the foamed plastic layer formed on the sheet surface is fed along the conveyance line of the sheet to form a metal plate having wavy irregularities on the sheet surface. The foamed plastics layer is introduced between double conveyors in a specific area and heated while passing between the conveyors to harden the foamed plastics layer, and the self-adhesive property of the foamed plastics creates a bond between the convex portion of the metal plate and the foamed plastics layer. The plastic layer, the metal plate, and the moisture-proof sheet are bonded together, leaving a space between them.

Embodiments of the present invention will be described below with reference to the drawings.

Figure 1 shows a panel P manufactured by the method of the present invention.
An example is shown below. That is, as shown in FIG. 1, the panel P is made by laminating in order a metal plate 2 with continuous wavy uneven stripes 1, a foamed plastic board 3, and a moisture-proof sheet 4. The surface of the foamed plastic board 3 is covered with grooves 1 of the metal plate 2.
A space 5 is formed between the inner surface of the protruding strip 1B and the surface of the board 3.

On the other hand, one edge or both edges of the metal plate 2 is extended from the edge of the board 3 and is used as a connection line 6 for the panel during construction. If necessary, as shown in FIG. 2, both edges of the moisture-proof sheet 4 are bent and adhered to the end face of the foamed plastic board 3 to cover at least three sides of the foamed plastic board 3, including the bottom and both sides. do.

As the metal plate 2, a colored galvanized iron plate, a vinyl steel plate, a galvanized iron plate, a tin plate, an aluminum plate, a colored or painted aluminum plate, etc. can be used.

Regarding the wavy uneven stripes attached to the metal plate 2,
The shape of the plate does not matter as long as the concave and convex stripes are formed in one direction in a continuous manner.The example shows a case where the concave and convex stripes are square, but semicircular and other shapes are also possible. It may also have a curved shape.

In short, when the foamed plastic board 3 is adhered to the outer surface of the concave strip 1B of the metal plate 2, the convex strip 1B
It is necessary to form a space 5 open at both ends between the inner surface of B and the board 3.

The ratio (area ratio) of the bonded portion to the non-bonded portion between the metal plate 2 and the foamed plastic board 3 is in the range of 1:9 to 9:1, preferably 3:
It is in the range of 7 to 7:3.

When the panel is installed on the outer wall of a wooden house, the space 5 becomes a passageway for a small amount of moisture that moves from the indoor side to the outdoor side to flow out to the outside, and also absorbs the impact applied to the metal plate 2. metal plate 2
This is a space that weakens the heat transfer of solar heat irradiated to the inner layer.

If the ratio of the bonded part is smaller than the above range, the panel will lack strength and rigidity, making it unsuitable for use as an exterior wall.On the other hand, if the ratio of the bonded part is larger than the range above, the effect of creating a space, especially The moisture release effect is impaired.

Foamed plastic boards include hard urethane foam, urethane-modified isocyanurate foam, isocyanate-modified urethane foam,
Isocyanurate foam, phenol foam, epoxy foam, phenol modified urethane foam, etc. can be used.

The moisture-proof sheet 4 may be a polyolefin-based or polyvinyl-based polymer film, a single metal foil (aluminum foil, iron foil, etc.), a composite of a polyolefin film and paper, a combination of a polyolefin film, paper, and aluminum foil. Any sheet-like material that is moisture-proof and flexible can be used, such as a composite material) or asbestos paper impregnated with asphalt.

FIG. 3 shows a method for manufacturing the panel of the present invention. A known sandwich panel manufacturing machine using a continuous laminator or a multistage press can be used to manufacture the panels of the present invention. FIG. 3 shows an example in which a continuous laminator is used.

In the figure, first, while continuously moving the moisture-proof sheet 4, a foamed plastic stock solution is discharged from the discharge device 7 onto the upper surface of the moisture-proof sheet 4, and this is laminated on the moisture-proof sheet 4 and foamed. On the other hand, the metal plate 2 is carried onto the carry-in conveyor 8 and conveyed toward the double conveyor 9. The moisture-proof sheet 4 is turned upside down while being fed, and the foamed plastic layer 3' formed on the sheet surface is covered with metal, leaving the connecting edges 6 on both edges, as shown in FIG. The plastic layer is stacked on top of the plate 2, introduced into the double conveyor 9, and while passing through the conveyor 9, the plastic layer is heated to harden it, and at the same time, the self-adhesive force of the foamed plastics causes the plastic layer to become three-dimensional. strongly unite people.

The laminated body sent out from inside the double conveyor 9 is carried out by a carry-out conveyor 10, and cut into a certain size by a cutting device 11 to obtain a panel shown in FIG. 1.

When obtaining the panel shown in FIG. 2, a foamed plastic layer is formed in the center part with a certain width left on both sides of the waterproof sheet 4, and the moisture-proof sheet 4 is bonded together between the double conveyors 9. After bending both sides and gluing them to both end faces of the foamed plastic layer, cut to size.

Of course, the metal plate 2 may be cut to a fixed size in advance, or it may be rolled into a coil shape and placed on the conveyor 8 continuously while being molded using a profile device. Panels can be manufactured in a process.

Next, an example of external heating of a wooden house using panels obtained by the method of the present invention will be described.

FIG. 5 shows an example of constructing a panel between the pillar 12 and the stud 13 or between both pillars. That is, the metal plate 2 is placed between the pillar 12 and the stud 13 or between both pillars.
Insert the panel P with the panel P on the outside, overlap the connecting edges 6 provided on each adjacent panel P on the outer surface of the pillar 12 or stud 13, and fix it to the pillar 12 or stud 13 by driving a nail 14 into the overlapped part. do.

By constructing this panel P, the uneven strips 1 of the metal plate 2 are arranged in the vertical direction, and the spaces 5 are opened at the upper and lower ends of the panel P. Or column 12 if necessary
A hole (not shown) may be attached to the stud 13, and the panel P may be fixed and nailed to this hole.

Furthermore, by applying an interior base material 15 and an interior finishing material 16 to the inner surface of the panel P, the wall (interior and exterior walls) is completed.

In addition, when using kan (in the case of Makabe structure)
By setting the location of the holes, panels with any thickness of insulation (foamed plastic board) can be used. Furthermore, in the case of a large wall structure, any thickness of insulation material can be used as long as it is within the dimensions of the columns (usually 100 to 200 m/m).

Figure 6 shows a rim 17 on the outside of the pillar 12 and the through pillar 13.
An example is shown in which a panel P is attached to the surface of the panel P. In this case, a panel P is used in which a connecting edge 6 is provided only on one side of the metal plate 2, the connecting edge is overlapped on another adjacent panel, and a nail 14 driven through the overlapped portion is attached to the body edge 17. It is passed through and fixed to the pillar 12 or stud 13. Components that are the same as those in FIG. 5 are given the same numbers and their explanations will be omitted. According to this structure, the thickness of the panel is not limited at all, and the thickness of the heat insulating material used for the panel can be set arbitrarily.

As described above, according to the present invention, by laminating and integrating the foamed plastic layer on one side of the metal plate with both edges or one edge left intact, the connection edge during construction can be formed on the metal plate, and the moisture-proof sheet can be It is possible to form a foamed plastic layer in the center part with a certain width left on both sides, and to form an end-covering edge of the plastic layer on both sides of the sheet. formation of an air layer,
It has the effect of easily manufacturing a panel consisting of a combination of a metal plate, a heat-insulating plastic board, and a moisture-proof sheet, which have a connecting edge during construction and a moisture-proof coating edge on three sides of heat-insulating material.

[Brief explanation of drawings]

1 and 2 are partial sectional views of panels showing embodiments of the present invention, FIG. 3 is a schematic diagram of the manufacturing process of the panel, and FIG. 4 is an enlarged cross-sectional view taken along the line - in FIG. FIG. 5 and FIG. 6 are cross-sectional views of the outer wall of a wooden house, respectively, showing construction examples. 1... Uneven strip, 1A... Concave strip, 1B... Convex strip,
2... Metal plate, 3... Foamed plastic board, 4... Moisture-proof sheet, 5... Space, 6... Connection edge.

Claims (1)

[Claims] 1 Dispense the foamed plastic stock solution onto a specific area on the moisture-proof sheet while continuously feeding the sheet,
The moisture-proof sheet is turned upside down during movement, and the foamed plastic layer formed on the sheet surface is fed along the conveyance line of the sheet to form a metal plate having wavy irregularities on the sheet surface. The foamed plastics layer is introduced between double conveyors in a specific area and heated while passing between the conveyors to harden the foamed plastics layer, and the self-adhesive property of the foamed plastics creates a bond between the convex portion of the metal plate and the foamed plastics layer. 1. A method for manufacturing a thermal insulation panel for construction, which comprises bonding the plastic layer, a metal plate, and a moisture-proof sheet together, leaving a space in between.