JPS645146B2 - - Google Patents

Abstract

1. A panel comprising an outer skin (12), an inner skin (14), a panel core (16), and an edge strip (18, 26) glued in between the skins, characterized in that the edge strip (18, 26) has recesses (20, 24) at the outer corners, and that the recesses are completely filled with permanently elastic sealing material.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a panel, and particularly includes an outer panel, an inner panel, a panel core, and a bridge member that is fixed between the inner and outer panels and connects them around the entire circumference of the panel. It's about panels.

This type of panel is integrated into the wall structure of the building,
It performs functions such as heat insulation, soundproofing, fire prevention, and bulletproofing. These panels are adapted to be screwed to the outside of the wall structure at their periphery. These panels then pass through their periphery and act as a support or bonding material all around the bridge member so that they can support the inevitable pressure of the screws or thin metal plates closing the gaps between the panels. Equipped with: This type of bridge member is made of polyurethane foam (PU foam), compressed sand (e.g.
Thermax) or Finnish birch.

The panel core may be made of PU foam, mineral fiber thin plate, foam glass, or
It can be constructed from a honeycomb material filled with PU foam material.

As the outer and inner plates, thin plates of aluminum, thin plates of steel, or, depending on the circumstances, plate-shaped tempered glass can be used. The inner and outer plates generally have an adhesive layer on their inner surfaces;
The panel core and bridge member are fixed onto the adhesive layer.

The peripheral edge of this type of panel, ie, the area where the inner and outer panels are joined by the bridge member, has a decisive influence on the overall strength and heat permeability of the panel. The two large-surface aluminum sheets impose an exaggerated effect on the panel's periphery due to their high thermal conductivity. Another problem is the sealing problem at the panel periphery. In other words, the purpose is to prevent rainwater and other moisture from entering the inside of the panel from the periphery.
This is because moisture that accumulates or condenses inside the panel combines with the panel core and becomes strongly basic or acidic, causing severe corrosion of aluminum from within.

It is already known to cover the peripheral edge of a panel with a U-shaped thin aluminum foil, and it is also known to glue a sheet of aluminum onto the folded area. Furthermore, it is already known to use sheets of plastic material with an adhesive layer covered by a protective sheet,
This can be done by tearing off the protective sheet just before use.
It is attached in a U-shape to the periphery of the panel.
Moreover, when assembling the panels, thick rubber strips are placed over the panel peripheries. Despite the utmost care in applying the covering and placing the aluminum strip over it, it still happens that it becomes detached from the periphery of the panel within a short period of time. If this happens, water can enter the interior of the panel from there.

In order for the bridge members to be impermeable to moisture, they must be covered on at least one side with a plastic material. However, if the plastic sheet or aluminum foil around which the adhesive is applied comes off due to the influence of water, the water will penetrate the adhesive layer between the bridge member and the outer or inner panel of the panel. .

The basic problem of the invention is that the periphery of the panel remains completely intact under any adverse conditions, i.e. even if water flows or accumulates on the periphery of the panel. To construct a panel peripheral part that maintains watertightness and does not allow any moisture to enter the inside of the panel from the outside.

The solution to this problem is achieved as follows.
That is, a groove is formed between the inner and outer side plates of the bridge member, and this groove is filled with a filler material having lasting elasticity. For example, two outer edges of a bridge member having a rectangular cross-sectional shape are cut out along the longitudinal direction, and then the bridge member is sandwiched and fixed between the inner and outer side panels of the panel. As a result, the notch in the bridge member forms a groove, and this groove is filled with a filler material serving as a sealing material. In this case, the shape of the notch may be rectangular or triangular in cross section. Furthermore, it is not essential that the bridge member be provided with a notch. Even if the bridge member does not have a notch, if it is fixed at a position slightly retracted from the edges of the inner and outer plates, a groove will be formed by the outer surface of the bridge member and the mutually opposing inner surfaces of the inner and outer plates. Therefore, a filling material can be placed in this groove.

The filler is preferably silicone (organopolysiloxic acid) having a certain expansion property, so that movement of the panel periphery during heat inflow can be absorbed. Therefore, the width of this expandable seam is such that the inflatable capacity within the safety range of the material of sustained elasticity is sufficient to absorb the expected movement of the panel periphery and that the filler material is the bridge member or panel. It is desirable to place it in a space that will prevent it from coming off the inner and outer panels.

Since the inner and outer panels of the panel are generally coated with an adhesive (kleber) on their inner surfaces to hold the panel core and bridge member together, the filler material brings this adhesive layer into contact with it. It should be completely receptive (compatible with the adhesive layer) in the areas where it will be applied, and should be able to be sufficiently fixed to both the inner and outer panels. Note that it is also possible for the inner and outer plates to have no adhesive layer in the regions corresponding to the notches filled with the filler. In order to maintain sufficient watertightness at the abutting portion of the bridge member, it is desirable that the abutting portion be filled with a filler and the corners thereof also filled with the filler.

Hereinafter, the invention will be explained in more detail according to several embodiments with reference to the drawings.

FIG. 1 shows a panel 10 having an outer panel 12 and an inner panel 14 with a panel core 16 disposed between the outer panel 12 and the inner panel 14. This panel 10 is thinner at its entire circumference than at other parts, and is adapted to be fixed to, for example, a wall structure of a building. Both inner and outer panels 12,1
A frame-shaped bridge member 15 is fitted between the peripheral edges of the two plates 4 and functions as a support or a connecting member for both side plates. The inner and outer panels 12 and 14 may each be made of, for example, an aluminum plate, and the panel core 16 may be made of PU foam, a thin plate of mineral fiber,
It can be constructed of foamed glass or honeycomb material filled with PU foam. Further, the bridge member 18 may be made of PU foam material,
It can also be constructed of compressed sand (eg Thermax) or glued multilayer wood laminates (Finnish birch). This bridge member should be covered on at least one side with plastic material to prevent any water from penetrating through the bridge member.

As is clear from FIG. 2, the bridge member 18
is a member with a rectangular cross-section, but notches 20 with a triangular cross-section are provided along both outward edges thereof.

These cutouts 20 cooperate with the side panels of the panel to form two grooves, which are filled with a filling material 22 having a permanent elasticity. The widths of these notches 20, ie, the grooves formed therein, are determined such that the momentum of the panel periphery due to thermal expansion is smaller than the expansion capacity of the filler 22. This ensures that the durable elastic filler material 22 sufficiently absorbs the expected movement of the panel periphery and does not lift away from the bridge member 18 or the inner and outer panels 12, 14. It is. Both side plates 12, 14 are provided with an adhesive layer on their inner surfaces, so that the filling material can be held directly by this layer.
However, it is also possible for the side plates 12, 14 to not be provided with an adhesive layer in the regions corresponding to the grooves to be filled.

FIG. 3 shows another form of cutout 24 in the bridge member 26.

In FIG. 4, a bridge member 28 having a rectangular cross-section is installed between the side plates 12 and 14, and this member 28 has a persistent elasticity whose outer surface is curved into a substantially concave shape. Filler 3
covered by 0. The thickness of the filling material 30 is the thickest at the side portions contacting the side plates 12 and 14, and the thinnest at the center portion.

FIGS. 5 and 6 each show examples of abutting portions in the corner areas of bridge members. In FIG. 5, the components 32, 34 of the bridge member are butted at right angles to each other.
is provided with a gap 36 that widens outwardly. This gap is then filled with a filler material that has lasting elasticity. Furthermore, the inner corners of the abutting portions are filled with filler material 38. FIG. 6 shows the bridge member components 40, 42 abutted in a one-on-one relationship, with a parallel gap formed between them. This gap is also filled with filler material, and the inner corners are also filled with filler material 44.

[Brief explanation of drawings]

FIG. 1 is a plan view of a panel that is an embodiment of the present invention. FIG. 2 is a cross-sectional view of FIG. 1. FIG. 3 is a sectional view corresponding to FIG. 2 of the peripheral edge of the panel in another embodiment. FIG. 4 is a sectional view corresponding to FIG. 2 of the peripheral edge of the panel in yet another embodiment. 5 and 6 are diagrams schematically showing the structure of the abutting portion of the bridge member. 10: panel, 12: outer plate, 14: inner plate,
16: Panel core, 18, 26, 28: Bridge member, 20, 24: Notch, 22, 30, 38, 4
4: Filler, 32, 34, 40, 42: Component of bridge member, 36: Gap.

Claims (1)

[Scope of Claims] 1. Outer panel 12, inner panel 14, panel core 16, and bridge members 18, 26, which are fixed between the peripheral edges of the both side panels in a state surrounding the panel core.
28, wherein the bridge member cooperates with the outer and inner plates to form a groove along the inner surface of the side plates, the groove having a filler material 22, 30 having a persistent elasticity. A panel characterized by being filled with. 2. Notches 20, 24 are formed along the outer edges of the bridge members 18, 26, and the notches cooperate with the side plates 12, 14 to form the two grooves. Panel described in scope 1. 3. The panel according to claim 2, wherein the cutout 24 has a rectangular cross-sectional shape. 4. The panel according to claim 2, wherein the cutout 20 has a triangular cross-sectional shape. 5. The bridge member 28 does not have a notch, and the outer surface of the bridge member and the inner and outer side plates 12, 14
The inner surface of the groove has a rectangular cross-sectional shape.
A panel according to claim 1 as herein formed. 6. The groove is filled with the filler 30 in such a shape that it is thickest at both sides contacting the inner and outer plates 12, 14, thinnest at the center, and has a concave outer surface. The panel described in Section 5. 7. The panel according to any one of claims 1 to 6, wherein the filler 22 is silicone. 8. The panel according to any one of claims 1 to 7, wherein the inner and outer side panels 12, 14 are provided with an adhesive layer on their inner surfaces. 9 The inner and outer side plates 12, 14 have the cutouts 20,
9. The panel according to claim 8, wherein the area corresponding to 24 is not provided with an adhesive layer. 10 a plurality of components 32 in which the bridge members 18, 26, 28 abut at the corners of the panel;
10. A panel according to any one of claims 1 to 9, consisting of 34, 40, 42, and wherein the gap 36 between each abutting portion is filled with a filler material having persistent elasticity. 11 The inner corner of the abutment part is filled with filler material 3
Claim 10 filled in at 8.44
Panel described in section. 12 The notches 20, 24 provided in the bridge members 18, 26 have a width such that the momentum of the inner and outer plates 12, 14 due to thermal expansion is smaller than the amount of expansion of the filler 22. A panel according to any one of claims 2 to 4.