The present invention relates to an interior panel structure for forming inner walls of buildings and particularly to a connected structure of two interior panels (e.g., gypsum boards).
In recent years, it has been well known to use gypsum boards or the like, which are superior in workability and heat insulation, as building interior members.
Japanese Patent Publication JP-A-8-326183 discloses a method for connecting two wall panels together.
It is an object of the present invention to provide an interior panel structure, which is superior in external appearance.
According to the present invention, there is provided an interior panel structure, comprising:
With reference to
As is seen from
Each of the first and second panels 11 and 12 may have a thickness of about 10 mm and a length of about 1.8 m to about 2.75 m in the vertical direction in
The first panel 11 has first and second major faces opposed to each other and a minor face 11b defined therebetween, and the second panel 12 has first and second major faces opposed to each other and a minor face 12b defined therebetween.
According to need, the first panel 11 may be cut on site to have a suitable size and to expose the minor face 11b. Due to cutting on site, it may be difficult to provide the minor face 11b with a perfectly flat surface. In other words, the minor face 11b may have major projections 18 and minor projections where major projections 18 have heights that are greater than those of minor projections. The boundary between the major and minor projections may be changed depending on, for example, the thickness of the first and second panels 11 and 12.
Such major projections 18 can easily be removed in the present invention, as described hereinafter in detail. In contrast, the removal of the minor projections is omitted, since they do not affect external appearance of the interior panel structure of the present invention by a special positioning of the first and second panels 11 and 12 relative to each other, as described hereinafter in detail.
The first panel 11 has thick cardboards 14 bonded to the first and second major faces of a gypsum board proper. Similarly, the second panel has thick cardboards 15 bonded to the first and second major faces of a gypsum board proper.
In the L-shaped panel structure of the first and second panels 11 and 12, a majority of the minor face 12b of the second panel 12 is in abutment with a corresponding end portion of the second major face of the first panel 11 such that the first and second panels 11 and 12 are substantially perpendicular to each other and that the minor faces 11b and 12b of the first and second panels 11 and 12 are adjacent to each other and substantially perpendicular to each other.
The first interior panel structure has an L-shaped reinforcing member 13 that may be made of a synthetic resin and is substantially L-shaped in cross section. The reinforcing member 13 may be monolithically formed by extrusion to have an elongate shape. It may be cut on site to have a suitable length depending on the size of the first and second panels 11 and 12. The reinforcing member 13 is fixed to an outer corner surface of the L-shaped panel structure for reinforcing the corner of the L-shaped panel structure.
The reinforcing member 13 has an edge 13a and first and second planar portions 13c and 13b that are substantially perpendicular to each other. As is seen from
The reinforcing member 13 is fixed to the outer corner portion of the L-shaped panel structure of the first and second panels 11 and 12 through two double-faced adhesive tapes 16 and 17 bonded to inner surfaces of the outer portions of the first and second planar portions. The outer portion 21 of the second planar portion 13b, which is defined from the outer edge of the first through holes 20 to the outer edge 13d of the second planar portion 13b, is a planar region for providing adhesion between the reinforcing member 13 and the L-shaped panel structure.
The outer portion 21 of the second planar portion 13b has a width that can accommodate a relatively wide, double-faced, adhesive tape, and the first planar portion 13c has a width that can accommodate such double-faced, adhesive tape. With this, it is possible to fix the reinforcing member 13 to the L-shaped panel structure with a sufficient strength. The first planar portion 13c shown in
The first through holes 20 are aligned along the edge 13a. Adjacent through holes 20 are sufficiently close to each other to have a predetermined distance therebetween. Furthermore, each through hole may have a sufficient size (e.g., a diameter of about 10 mm) that allows a finding of the above-explained major projections 18, if any, formed on the minor face 11b of the first panel 11 and an operation of a tool (e.g., cutter) against the minor face 11b of the first panel 11 through the through holes 20. In other words, it is possible to easily remove such major projections 18 with the tool by inserting the tip of the tool into the corresponding through holes 20.
Furthermore, according to the present invention, the first panel 11 is positioned relative to the second panel 12 such that the minor face 11b of the first panel 11 is spaced away from the first major face of the second panel 12 in a direction along the width of the minor face 12b of the second panel 12 to have a distance L (see
As is seen from
After that, it is possible to take the reinforcing member 13 from the L-shaped panel structure and then remove all of the major projections 18 by a cutter or the like. In other words, the major projections 18 can turn into minor projections by cutting with a cutter or the like. Then, it is possible to take cover papers from the double-faced adhesive papers 16 and 17 and then to fix the reinforcing member 13 to the L-shaped panel structure in a manner to bring the double-faced adhesive papers 16 and 17 into a pressing abutment with the first and second panels 11 and 12. Thus, it is possible to surely prevent deformation of the first and second planar portions 13c and 13b of the reinforcing member 13, thereby making the edge 13a of the reinforcing member 13 straight. This improves the final product in external appearance.
Then, putty can be applied to various portions of the panel structure, such as an outer surface of the reinforcing member 13, a stepped portion defined between the outer edge 13e or 13d of the reinforcing member 13 and the first or second panel 11 or 12, and the space defined between the minor face 11b of the first panel 11 and the inner portion of the second planar portion 13b of the reinforcing member 13. After that, an outer face of the panel structure can be wrapped with an interior finish such as vinyl cloth (synthetic cloth).
As mentioned above, each of the first through holes 20 has a relatively large size that allows insertion of a tool (e.g., cutter). Thus, it becomes easy to put putty into the space through the first through holes 20 until filling the through holes 20 with putty. Therefore, the finish of the interior panel structure becomes remarkably good, and it becomes possible to obtain a good putty adhesion.
As an alternative to the above-mentioned preparation of the first interior panel structure with the temporary fixing of the reinforcing member, the first interior panel structure can be prepared, as follows.
Firstly, it is possible to take cover papers from the double-faced adhesive papers 16 and 17 and then fix the reinforcing member 13 to the L-shaped panel structure in a manner to bring the double-faced adhesive papers 16 and 17 into a pressing abutment with the first and second panels 11 and 12. Under this condition, the major projections 18 and burr of the cardboards 14, 15 can easily be found and removed by a cutter through the first through holes 20, since the first through holes 20 have a relatively large size and are continuously arranged to have a close distance between the two adjacent holes 20. This makes the operation of fixing the reinforcing member 13 simpler. Then, putty can be applied to various portions of the panel structure, as mentioned above.
It is optional to form slits on the inner surface of the inner portion of the second planar portion 13b of the reinforcing member 13. Thus, the putty may intrude into the slits to improve the putty adhesion strength.
With reference to
The reinforcing member 13 is additionally formed with second through holes 22 on the inner portion of the first planar portion 13c. In fact, the first and second through holes 20 and 22 are symmetrically arranged about the edge 13a. The first planar portion 13c has an outer portion for accommodating thereon a double-faced adhesive tape 16.
By the provision of the first and second through holes 20 and 22, it becomes much easier to find and remove the major projections 18, as compared with the first interior panel structure.
Since the first and second through holes 20 and 22 are symmetrically arranged about the edge 13a, the reinforcing member 13 may be upside down relative to the L-shaped panel structure of the first and second panels 11 and 12 in the preparation of the interior panel structure.
The present invention is not limited to the above-explained first and second embodiments. For example, the size of the first and second through holes 20 and 22 may be enlarged, depending on the tool used for removing the major projections 18 and burr of the cardboards 14. The position of the first and second through holes 20 and 22 may be changed.
The first and second panels 11 and 12 are not limited to gypsum boards. They may be selected from various ceramic boards (e.g., rock wool board) and noncombustible materials. The size of the first and second panels 11 and 12 is not particularly limited. It can freely be changed according to need.
As an alternative to the double-faced adhesive tapes 16 and 17, an adhesive may previously be applied to the first and second planar portions 13c and 13b of the reinforcing member 13 in order to fix the reinforcing member 13 to the L-shaped panel structure of the first and second panels 11 and 12.
Number | Date | Country | Kind |
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2004-140598 | May 2004 | JP | national |