KR20020007136A - Composite panel - Google Patents

Abstract

PURPOSE: To prevent separation and cracking from being caused by a differential on a coefficient of thermal expansion between a metallic outer skin and an inorganic surface decorative material, enable the danger of disengagement to be eliminated even in the case of long-term use, and shorten the time to finish off the inorganic surface decorative material. CONSTITUTION: A thermal insulating material 3 is interposed between the paired metallic outer skins 1 and 2. The inorganic surface decorative material 6 is disposed in the outer surface of a sandwich panel 7 wherein a projecting fitting part 4 is installed at one end in a longitudinal direction and a recessed part 5 to be fitted, which can be connected with the fitting part 4, is installed at the other end. Fixing means 13 for fixing the decorative material 6 to sandwich panel 7 are disposed at intervals in a plurality of sections of the decorative material 6.

Description

Composite Panel {COMPOSITE PANEL}

The present invention relates to a building panel mainly used for indoor walls, exterior walls, roofs, floors, and the like, and more particularly, a sandwich panel formed through a heat insulating material between a pair of metal shells, and an inorganic system adhered to the surface thereof. The present invention relates to a composite panel having a surface finish material.

Background Art Conventionally, ALC (Autoclaved Light-weight Concrete) panels are used for indoor walls, exterior walls, roofs, floors, etc., which are lightweight and have excellent heat insulation and fire resistance. In the case of improving the appearance design of this ALC panel, a tile is usually applied to the surface thereof, but there is a problem in the durability of the tile in this manner.

Therefore, in order to provide sufficient durability and improve the appearance design, as shown in FIG. 6, the plate-like inorganic surface finish material 6 is attached to the surface of the ALC panel 80 with an adhesive 90 or a double-sided tape. It is proposed a composite panel fixed by the whole surface adhesive method using a. Moreover, in recent years, the sandwich panel formed through a heat insulating material between a pair of metal shells instead of an ALC panel has become mainstream.

However, in the composite panel in which the inorganic surface finish material and the sandwich panel are combined, the inorganic surface finish material is bonded to one metal shell of the sandwich panel. Stress occurs due to the difference in thermal expansion coefficient of, and there is a problem that cracks or peeling easily occur on the inorganic surface finish material by the stress. In order to improve such a problem, it is also proposed to use an adhesive having elasticity. However, in this type of adhesive, the adhesive strength decreases when used for a long period of time, causing the inorganic surface finish material 6 to peel off or fall off. Moreover, in the whole surface adhesion method, the drying time of an adhesive may take a long time, and there also existed a problem which process should be interrupted until drying is completed.

Accordingly, the present invention has been made in view of the above problems, and its main object is to provide a composite panel having the following advantages.

(1) Cracking or peeling of the inorganic surface finish material can be prevented due to the difference in thermal expansion coefficient between the metal material and the inorganic material.

(2) Even after long-term use, the risk of dropping of inorganic surface finishes can be eliminated.

(3) We can plan reduction of construction period.

(4) The adhesion of the inorganic surface finish to the sandwich panel can be enhanced and the waterproofness of the inorganic surface finish can be enhanced.

1 is a perspective view of a composite panel according to an embodiment of the present invention.

2 is a cross-sectional view taken along line A-A of the composite panel of FIG.

3 is a cross-sectional view showing a connection between the composite panel.

4 (a) and 4 (b) are explanatory diagrams before and after mounting the fixing means, respectively.

5 is a cross-sectional view taken along line B-B of the composite panel of FIG.

6 is a cross-sectional view showing a conventional composite panel.

That is, the composite panel according to claim 1 includes a sandwich panel comprising a pair of metal shells and a heat insulating material interposed between the metal shells, and an inorganic surface finish material adhered to one metal shell of the sandwich panel. Has a concave portion fitted at one end thereof with a convex portion fitted to the convex portion of an adjacent sandwich panel when the panel is connected to the other end thereof, and the inorganic surface finish material is attached to the metal shell at a plurality of spaces by fixing means. It is characterized by being fixed mechanically.

The composite panel according to claim 2, in the configuration of claim 1, wherein the fixing means includes a head, an insert mounting portion inserted into the heat insulating material through the inorganic surface finish material and the metal shell of the sandwich panel adhered thereto. The insert has a clip that is expandable in the radial direction of the insert, and the clip of the insert is expanded with respect to the heat insulator, thereby sandwiching an inorganic surface finish material and a metal shell adjacent thereto between the head and the extended clip. .

The composite panel according to claim 3, in the configuration of claim 1 or 2, a waterproof means for preventing water from invading between the inorganic surface finish material and the metal shell adhered thereto is provided on the outer peripheral portion of these joint surfaces. It is characterized by having.

In the composite panel according to claim 4, in the configuration of claim 1, the inorganic surface finish material has a concave boundary portion on the surface, and an opening for inserting the fixing means is formed in the boundary portion.

In the composite panel according to claim 5, in the configuration of claim 1, the inorganic surface finish material is a concave boundary formed on the surface, a finishing tile portion partitioned by the boundary, and a finish for inserting the fixing means. An opening formed in the tile portion, and a spot facing formed near the inlet of the opening to accommodate the head of the fixing means, wherein the head has an inorganic surface finish material fixed to the metal shell by the fixing means. After that, it is characterized by being covered with a filler supplied in the spot facing.

The composite panel according to claim 6 is characterized in that, in the configuration of claim 1, the inorganic surface finish material is not coated when it is fixed to the metal shell.

Hereinafter, a composite panel according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 and 2, the composite panel of the present embodiment includes a sandwich panel 7 and a sandwich panel 7 in which a heat insulating material 3 is interposed between a pair of metal shells 1 and 2. It consists mainly of an unpainted inorganic surface finish material 6 which is fixed to the surface of one metal shell 1 of the metal. As the metal shell 1, 2 of the sandwich panel 7, a steel plate can be used, for example, and foamable resin, rock wool, etc. can be used as the heat insulating material 3, for example.

At both ends in the longitudinal direction of the sandwich panel 7, there are provided connecting means for connecting a plurality of composite panels to form a wall surface. In the composite panel of the present embodiment, as shown in FIG. 3, the first protrusion 25 and the second protrusion 22 are provided at one side end of the sandwich panel 7, and the pair of third protrusions at the other end thereof. 21a and 21b are provided. Therefore, when connecting the composite panels, the first projection 25 of the composite panel A 'is formed between the pair of third projections 21a and 21b of the composite panel A adjacent thereto. While fitting to the recess 27, one side 21a of the third projection of the composite panel A is disposed between the first projection 25 and the second projection 22 of the composite panel A '. It fits into the 2nd recessed part 28 formed in the back.

The other third projection 21b of the composite panel A is further lower than the surface on the side opposite to the surface having the second projection 22 of the composite panel A '(the surface under the panel in FIG. 3). It is accommodated in the installed 1st step part 26, and is connected so that the lower surface of two composite panels A and A 'may be coplanar. Similarly, the second projection 22 of the composite panel A 'is provided lower than the surface on the side opposite to the surface having the third projection 21b of the composite panel A (the surface on the upper panel in FIG. 3). It is accommodated in the 2nd step part 23, and is connected so that the upper surface of two composite panels A and A 'may be coplanar. 3 is a groove | channel provided in the 2nd step part 23 in order to accommodate the head of the mounting screw mentioned later, and the reference numeral 60 is a thing in order to ensure waterproofness in a connection part. The packing is disposed between the first protrusion 25 and the first recess 27, and reference numeral 70 is a mounting screw for connecting / fixing the composite panels.

As the inorganic surface finish material 6, for example, a cement composite material such as a cement material filled with fibers can be used. On the surface of the inorganic surface finish material 6, a boundary portion 30 separating the plurality of rectangular tile portions 14 and the adjacent rectangular tile portions 14 is formed in a concave shape. In addition, the rectangular tile part 14 can improve the appearance design of a panel by making it into a tile atmosphere, a stone pattern atmosphere, a sandstone atmosphere, or a brick atmosphere. The surface of the inorganic surface finish material 6 is uncoated at the stage of being fixed to the sandwich panel 7, and the surface of the inorganic surface finish material is applied to the surface of the inorganic surface finish material after fixing to the sandwich panel 7 so as to meet the requirements of the user. I can do it with the color and the shape of In addition, the inorganic surface finish material 6 is formed in a rectangular shape, and the size of one side thereof is, for example, about 300 mm to 900 mm, and the thickness of the boundary part 30 is 5 mm or more, for example, of the rectangular tile part 14. The thickness can be, for example, 20 mm or less. In addition, from the viewpoint of environmental protection, a waste (inorganic cement type) such as sludge may be used as a raw material of the inorganic surface finish material 6, and it may be one obtained by drying and roasting it.

The inorganic surface finish material 6 is fixed to the sandwich panel 7 by the fixing means 13. A spot facing 35 is formed at a plurality of places of the inorganic surface finish material 6, and the spot facing 35 penetrates through the metal shell 1 adjacent to the inorganic surface finish material and reaches the inside of the heat insulating material 3. A loose hole 36 is formed. The fixing means 13 is inserted into this loose hole 36 through the spot facing 35. The spot facing 35 may be provided anywhere of the rectangular tile portion 14 and the boundary portion 30. As shown in FIGS. 2 and 5, the spot facing 35 is formed of the boundary tile portion 30 and the rectangular tile portion 14. It can also be installed on both sides.

In this embodiment, as shown in Figs. 4A and 4B, a fixing tool called a valve tie is used as the fixing means 13. The fixing means 13 consists of a threaded portion 16, a substantially disk-shaped head 15 having an opening through which the threaded portion 16 passes, and a sleeve 18 extending from the bottom of the head 15. The sleeve 18 of the fixing means 13 is inserted into the loose hole 36 of the sandwich panel 7 through the spot facing 35 of the inorganic surface finish material 6. The sleeve 18 is formed of a shrink-deformable material, and a clip 12 that is expandable in the radial direction of the loose hole is provided on the outer surface thereof in accordance with the deformation of the sleeve 18 during the fixing operation described later. The threaded portion 16 penetrates the head 15 and is inserted into the sleeve 18, and the tip 16a of the threaded portion 16 is fixed to the tip portion 11 of the sleeve 18. In Fig. 4A, reference numeral 17 is a washer.

The operation of fixing the inorganic surface finish material 6 to the sandwich panel 7 using the fixing means 13 will be described. First, the sleeve 18 of the fixing means 13 is inserted into the loose hole 36 of the sandwich panel 7 through the spot facing 35, which is an inorganic surface finish material 6. Subsequently, while pressing the head 15 firmly from above with a dedicated fixing jig (not shown), the threaded portion 16 is pulled upward (in the direction indicated by the arrow P in Fig. 4A). By doing so, the tip 16a of the threaded portion 16 fixed to the sleeve tip is pulled closer to the head 15, and the sleeve 18 shrinks and deforms. As shown in Fig. 4 (b), the sleeve 12's clip 12 deforms into a butterfly shape that is widened in the radial direction of the sleeve near the boundary between the metal shell 1 and the heat insulator 3, as shown in Fig. 4 (b). do. The inorganic surface finish 6 and the metal shell 1 are sandwiched between the butterfly 12 deformed clip 12 and the head 15 in contact with the spot facing 35. By this operation, since the screw portion 16 protruding outward from the head is cut as shown in FIG. Cannot be solved. The sticking operation by the fixing means 13 having such a separation preventing function is performed in each of the spot facings 35 provided at a plurality of spaces of the inorganic surface finish material 6 so that the inorganic surface finish material and the sandwich as a whole are formed. A strong bond between the panels can be achieved.

An advantage of using the fixing means 13 as in the present embodiment is that the heat insulating material 3 in the sandwich panel 7 is a heat insulating material made of a relatively soft material such as cement material in which fibers are dispersed, as described above. In this case, a solid bonding state between the inorganic surface finish material 6 and the sandwich panel 7 can be obtained. That is, in the case where the screw groove is directly installed in the heat insulating material 3 and the inorganic surface finish material 6 is fixed by the fixing screw externally, a stable screw connection between the heat insulating material and the fixing screw cannot be obtained. Bonding strength between the inorganic surface finish and the sandwich panel is not sufficient, and if used for a long time, peeling or dropping of the inorganic surface finish may occur due to loosening of the fixing screw. However, according to the fixing means 13 of the present embodiment, the clip 12 of the sleeve 18 is deformed into a butterfly shape in the heat insulating material 3 of the sandwich panel 7, and the deformed clip 12 and the head ( The inorganic surface finish 6 and the metal shell 1 can be sandwiched between 15 to provide a firm mechanical bond therebetween. In addition, a loose hole is formed to penetrate the sandwich panel, and since the depth of the loose hole is shallower than when bolts and nuts are fastened to both sides of the sandwich panel, the work required for fixing can be reduced. Work efficiency can be improved.

In addition, since the spot facing 35 of the inorganic surface finish material 6 is covered by a filler or the like after the fixing operation, the head 15 accommodated in the spot facing 35 is covered with this filler and hidden. Therefore, the fall of the external appearance of the completed composite panel by exposure of the fixing means can be prevented. In the present embodiment, the spot facing 35 formed in the rectangular tile portion 14 is preferably covered by covering the head 15 with the filler 50 and hidden. On the other hand, with respect to the spot facing 35 provided in the boundary part 30, the head part 15 eyes from the outside by painting the head 15 with the color of the same system as the boundary part 30 (for example, black). You can make it invisible. By finally painting the surface portion of the inorganic surface finish material 6, the appearance of the conventional tile and the appearance does not change.

The fixing of the inorganic surface finish material 6 to the metal shell 1 by the fixing means 13 is performed by the spot facing 25 formed at a plurality of spaces of the inorganic surface finish material 6. When the adhesive is used between the inorganic surface finish material and the metal shell by the whole surface bonding method, the problem of stress caused by the difference in thermal expansion between them can be avoided, and it is necessary to wait for the adhesive to dry. There is no advantage, and it is possible to shorten the completion time (shorten the construction period). In other words, the stress due to the difference in thermal expansion coefficient can be absorbed by the region 9 between the metal shell 1 and the inorganic surface finish material 6 other than the joint portion by the fixing means 13.

The composite panel formed by the fixing operation by the fixing means 13 as described above can prevent the occurrence of cracking or peeling of the inorganic surface finish material 6 during use, and the inorganic surface finish material 6 The appearance of can be kept good over a long period of time. Moreover, even if it is used for a long time, the risk that an inorganic surface finish material may fall out can be eliminated, and construction reliability can be improved. The composite panel thus obtained is used for interior and exterior walls, roofs, floors, and the like to provide lightweight and excellent heat insulation and fire resistance and to shorten the construction period.

However, prior to fixing by the fixing means 13, a double-sided tape having a waterproof property (dashed line in Fig. 2) is attached along the outer circumferential portion of the back surface of the inorganic surface finish material 6 as the waterproof adhesive means 17, By adhering this to the surface of the metal shell 1 of the sandwich panel 7, it is possible to prevent water from entering between the sandwich panel and the inorganic surface finish material. By using the fixing means 13 and the waterproof adhesive means 17 for waterproofing the surface of the inorganic surface finish material 6 in this manner, the waterproofness of the composite panel can be improved and the inorganic substance to the sandwich panel 7 can be improved. The adhesion of the system surface finish material 6 can be raised more. In addition, the waterproof means 17 disposed on the outer circumferential portion of the inorganic surface finish material 6 is not limited to the double-sided tape, but an adhesive or the like having waterproof property may be used.

In addition, it is preferable to form a cutting groove (not shown) in a portion of the screw portion 16 in advance so that the screw portion 16 is easily broken at the end of the fixing operation. As a result, as shown in FIG. 2 or FIG. 5, the extra threaded portion can be prevented from protruding from the panel surface. In FIG. 2, the head 15 disposed in the spot facing 35 of the rectangular tile portion 14 is shown in a round head shape, and in FIG. 5, the head 15 disposed in the boundary portion 30 is formed in a dish head shape. Although shown, the shape of the head 15 can be changed design appropriately.

As described above, according to the composite panel of the present invention, there is a non-sticking portion which is not fixed by the fixing means between the inorganic surface finish material and the sandwich panel, and there is a difference in thermal expansion coefficient between the metal shell and the inorganic surface finish material. Even if stress is generated by the stress, the stress is absorbed / relaxed at the non-fixed portion. Therefore, cracking or peeling can be prevented from occurring in the inorganic surface finish material, and the appearance of the inorganic surface finish material can be well maintained for a long time. In addition, since a mechanical (physical) fixing method is employed, even if the composite panel is used for a long time, the risk of dropping the inorganic surface finish material can be eliminated, and construction reliability can be improved. In addition, compared with the conventional whole surface bonding method, there is no need to wait until an adhesive dries, and the completion time can be shortened.

In addition, in the case of using the fixing means for sandwiching the inorganic surface finish material and the metal shell adjacent thereto between the head and the extended clip, it is not necessary to penetrate the fixing means to the other metal shell of the sandwich panel. Since the depth of insertion can be made shallower, the fixing work becomes easier. In addition, since the clip is expanded inside the heat insulating material, the outer diameter of the insertion hole provided in the sandwich panel is small, and the influence on the appearance of the composite panel can be minimized.

In addition, when the waterproof means is used together, the adhesion of the inorganic surface finish material to the sandwich panel can be increased while preventing water from entering the back surface of the inorganic surface finish material, thereby improving water resistance.

Claims (6)

A sandwich panel comprising a pair of metal shells and a heat insulating material interposed between the metal shells, and an inorganic surface finish material fixed to one metal shell of the sandwich panel, wherein the sandwich panel has a convex portion at one end thereof. Opposing the other end has a recess that can fit into the convex portion of the sandwich panel adjacent to the panel when the panel is connected, the inorganic surface finish material is mechanically fixed by the fixing means at intervals in multiple places on the metal shell. A composite panel characterized by. The method of claim 1, The fastening means includes an insert that is inserted into the heat insulating material through the head, the inorganic surface finish material, and the metal shell of the sandwich panel secured thereto, wherein the insert is provided with a clip extending in the radial direction of the insert. And extending the clip of the insertion portion inside the heat insulating material, thereby sandwiching the inorganic surface finish material and the metal shell adjacent thereto between the head and the expanded clip. The method according to claim 1 or 2, And a waterproofing means for preventing water from invading between the inorganic surface finish material and the metal shell adhered thereto. The method of claim 1, And the inorganic surface finish material has a concave boundary portion on the surface, and an opening for inserting the fixing means is formed in the boundary portion. The method of claim 1, Accommodates the inorganic surface finish material, a concave boundary formed on the surface, a finish tile portion partitioned by the boundary portion, an opening formed in the finish tile portion for inserting the fixation means, and a head of the fixation means And a spot facing formed near the inlet of the opening, wherein the head is coated with a filler supplied in the spot facing after the inorganic surface finish is fixed to the metal shell by fixing means. panel. The method of claim 1, The inorganic surface finish material is a composite panel, characterized in that when not fixed to the metal shell is not coated.