JP2008255594A - Heat insulating panel and its connection structure - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a heat insulating panel reducing labor in carrying out construction by a vertical laying method. <P>SOLUTION: The heat insulating panel A is formed by filling a heat insulating material 3 between two metal outer skins 1, 2, providing one side end with a fitting protrusion 4, providing the other side end with a fitting recess 5 fitted to the fitting protrusion 4, and providing the fitting recess 5 with packing 6. A taper part 7 for biting into the packing 6 provided in the fitting recess 5 is provided at the tip of the fitting protrusion 4. The packing 6 can be pressed by concentrating manual force on the tapered part 7 of small area. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a heat insulating panel used as a wall panel such as an outer wall and a connection structure thereof.

  As shown in FIG. 3, a heat insulating panel (so-called sandwich panel) A is formed by filling a heat insulating material 3 between two metal shells 1 and 2, and a plurality of heat insulating panels A, A. For example, a wall such as an outer wall of a building is formed (for example, see Patent Document 1). In addition, when a plurality of heat insulating panels A, A... Are arranged side by side, a so-called vertical stretching method is performed in which the heat insulating panels A, A are constructed while being adjacent to each other in the horizontal direction (lateral direction). Furthermore, as shown in FIG. 4, the heat insulation panel A which forms the fitting convex part 4 in the one side edge part of the heat insulation panel A, forms the fitting recessed part 5 in the other side edge part, and adjoins in the horizontal direction. The adjacent heat insulation panels A and A are also connected by fitting the fitting convex part 4 and the fitting concave part 5 of A. The fitting recess 5 is provided with a packing 6 in order to improve the waterproofness of the connection portion. When the fitting projection 4 and the fitting recess 5 are fitted, the tip of the fitting projection 4 is fitted. The packing 6 is elastically compressed by the surface. Thereby, the packing 6 is brought into close contact with the front end surface of the fitting convex portion 4 to ensure waterproofness.

However, in the case of the vertical construction method, it is necessary to compress the packing elastically at the front end surface of the fitting convex portion while pressing the heat insulating panel A toward the other heat insulating panel A only by human power. There was a problem of requiring.
JP 2004-76428 A

  This invention is made | formed in view of said point, and it aims at providing the heat insulation panel which can reduce an effort at the time of construction by a vertical stretching method, and its connection structure.

  The heat insulation panel A according to claim 1 of the present invention is filled with the heat insulating material 3 between the two metal shells 1 and 2 and provided with the fitting convex portion 4 at one side end portion and the other side end portion. In the heat insulating panel A in which the fitting concave portion 5 to be fitted to the fitting convex portion 4 is provided, and the packing 6 is provided in the fitting concave portion 5, the tapered portion 7 for biting into the packing 6 provided in the fitting concave portion 5. Is provided at the tip of the fitting convex portion 4.

  The connection structure of the heat insulation panel A according to claim 2 of the present invention is the connection structure of the heat insulation panel A according to claim 1, and another heat insulation panel A is disposed adjacent to the side of the heat insulation panel A. The fitting convex part 4 of the other heat insulating panel A is fitted into the fitting concave part 5 of one heat insulating panel A and the tapered part 7 of the fitting convex part 4 is bitten into the packing 6 of the fitting concave part 5. It is characterized by comprising.

  In the present invention, it is possible to concentrate the manpower on the tapered portion 7 having a small area and press the packing 6, and even with a small force, the packing 6 can be compressed and the tapered portion 7 can be digged in. It is possible to reduce the labor during construction at the site.

  Hereinafter, the best mode for carrying out the present invention will be described.

  As shown in FIG. 1, the heat insulating panel A of the present invention is formed as a so-called sandwich panel by filling a heat insulating material 3 as a core material between two metal skins 1 and 2.

The metal shells 1 and 2 are formed by rolling or bending a metal plate into a desired shape. The metal plate has a thickness of 0.2 to 2.0 mm and is made of a stainless steel plate, a coated steel plate, or a galvanized plate. A steel plate, an aluminum-zinc alloy plated steel plate (trade name: Galvalume steel plate) and the like can be used, but are not limited thereto. The heat insulating material 3 may be an inorganic fiber material such as glass wool or rock wool or a resin foam material such as urethane foam or phenol foam having a density of 20 to 200 kg / m ³ , but is not limited thereto. It is not something.

  A head housing recess 20 is formed on the surface (outdoor side surface) of one side of the heat insulation panel A, and a concave step portion 21 is formed on the back surface (inside side surface) of that side of the heat insulation panel A. Yes. Further, a side end portion of the heat insulation panel A (a portion projecting to the side from the head receiving recess 20 and the recessed step portion 21) is formed as a fitting convex portion 4. A tapered portion 7 having a substantially inverted V-shaped cross section is formed. The head receiving recess 20, the recessed step portion 21, the fitting protrusion 4, and the tapered portion 7 are provided over substantially the entire length of the heat insulation panel A in the vertical direction (vertical direction). Further, almost the entire surface of the head receiving recess 20, the concave step 21, the fitting protrusion 4, and the tapered portion 7 is formed by the metal skin 1 on the front surface side (outdoor side) or the metal skin 2 on the back surface side (indoor side). It is covered with. The tapered portion 7 has a tapered shape in which the thickness dimension gradually decreases toward the tip. In order to obtain such a tapered shape, the indoor side surface of the tapered portion 7 is formed as an inclined surface 7a, and the tapered portion 7 is formed in a draining shape.

  The surface of the other side portion of the heat insulation panel A is formed by a cover portion 23. The cover portion 23 is formed by bending the front surface side metal shell 1 back into a substantially inverted U shape. Further, the back surface of the side portion of the heat insulating panel A is formed by the ridge portion 24. And between the cover part 23 and the protrusion part 24, the fitting recessed part 5 is formed in the other side edge part of the heat insulation panel A. As shown in FIG. The cover 23, the protrusion 24, and the fitting recess 5 are provided over substantially the entire length of the heat insulation panel A in the vertical direction. Also, almost the entire surface of the protrusion 24 and the fitting recess 5 is covered with the metal skin 1 on the front surface side (outdoor side) or the metal skin 2 on the back surface side (indoor side). A packing 6 is provided on the bottom (back) of the fitting recess 5. The packing 6 is a watertight packing and is formed of a synthetic resin foam such as urethane foam or a synthetic rubber such as EPDM.

  And the outer wall of a building, etc. can be formed by arranging a plurality of heat insulation panels A side by side vertically and horizontally. At this time, as shown in FIG. 2, the heat insulation panel A can be fixed by driving a fixing tool 28 such as a drill screw from the outdoor side of the head housing recess 20 to a wall base material such as a pillar. Further, the vertically-insulated thermal insulation panels A, A adjacent in the horizontal direction (lateral direction) are fitted by inserting the fitting convex part 4 of one thermal insulation panel A into the fitting concave part 5 of the other thermal insulation panel A. Connected by. When connected in this manner, the cover 23 of the one heat insulation panel A is positioned on the outdoor side of the head housing recess 20 and covers the head of the fixture 28 to improve the appearance. Moreover, the taper part 7 can be made to bite into the packing 6, compressing the packing 6 with the taper part 7 of the other heat insulation panel A, and the watertightness of a fitting part can be ensured. Further, the protrusion 24 of the upper heat insulation panel A is fitted into the concave step portion 21 of the lower heat insulation panel A.

  And the heat insulation panel A of this invention is the taper part 7 which seals packing 6 while fitting the fitting convex part 4 and the fitting recessed part 5 while pressing the heat insulation panel A toward the other heat insulation panel A manually. In order to compress elastically, as compared with the case where the packing 6 is compressed by the flat fitting convex portion 4 as in the prior art, the packing 6 is pressed by concentrating human power at the tip of the tapered portion 7 having a small area. Even with a small force, the packing 6 can be compressed and the tapered portion 7 can be bitten, and labor can be reduced in the construction by the vertical tension method. That is, in the past, the packing 6 was compressed by the plane of the fitting convex part 4 having a large area, whereas the present invention can compress the packing 6 by the line of the tapered part 7 having a small area. The packing 6 can be compressed by force.

It is a perspective view which shows an example of embodiment of this invention. It is sectional drawing which shows a connection state same as the above. It is a perspective view which shows the heat insulation panel of a prior art example. It is sectional drawing which shows the connection state of the heat insulation panel of a prior art example.

Explanation of symbols

A heat insulation panel 1 metal hull 2 metal hull 3 heat insulating material 4 fitting convex part 5 fitting concave part 6 packing 7 taper part

Claims (2)

  A heat insulating material is filled between the two metal shells, a fitting convex portion is provided at one side end portion, and a fitting concave portion that is fitted to the fitting convex portion is provided at the other side end portion. A heat insulating panel having a packing provided with a tapered portion for biting into the packing provided in the fitting concave portion at the tip of the fitting convex portion. It is the connection structure of the heat insulation panel of Claim 1, Comprising: The other heat insulation panel is arrange | positioned adjacent to the side of a heat insulation panel, The fitting convex part of another heat insulation panel in the fitting recessed part of one heat insulation panel And a heat insulating panel connecting structure, wherein the tapered portion of the fitting convex portion is bitten into the packing of the fitting concave portion.

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