KR20130127194A - Constructing structure of ceiling molding - Google Patents

Abstract

The present invention can not only significantly reduce the construction time caused by the construction of each of the angles and moldings separately as each of the angles and moldings are constructed by constructing one ceiling molding without constructing each of the angles and moldings separately. As a result, the construction cost can be reduced, and construction work can be improved and work efficiency can be obtained by shortening the construction time. A predetermined space is formed at the edge of the plasterboard constructed by the non-sensitizing part so that the molding is walled. To provide a ceiling molding construction structure that can be solved by the problems caused by the slide from the.
To this end, the present invention, after fixing one end of the long bolt 11 to the ceiling surface 12 and fixing the carrier channel 13 to the other end of the fixed long bolt 11 to the lower side of the carrier channel 13 embar ( 14 is positioned in the grid to fix the gypsum board 15 to the embar 14 with screws 16 and to install the ceiling molding 20 on the edge of the gypsum board 15, the ceiling molding 20 is And, located in the upper portion of the gypsum board 15 and the angle member 21 is fastened and fixed to the wall surface 17 with an anchor bolt 18; The end of the gypsum board 15 is drawn in and fixed to the pin 22, and a finishing part 23 positioned at the edge of the gypsum board 15 is integrally formed, thereby forming the corner part 21 on the wall surface 17. After fixing to the edge of the gypsum board 15 to the finishing portion 23 is fixed to the pin 22 by the ceiling molding 20 construction is made.

Description

Constructing structure of ceiling molding

The present invention relates to a ceiling molding construction structure, and more particularly, to provide a ceiling molding formed by integrally forming the corner portion and the finish molding, thereby eliminating the construction of the corner materials and the finish molding. In addition, the present invention relates to a ceiling molding construction structure in which a beautiful portion is formed along the edge of the ceiling after the ceiling molding is formed by further forming an aesthetic portion on one side of the finish molding to obtain the interior effect of the ceiling. .

Generally, a ceiling panel as an interior material is installed on a ceiling surface of a concrete-laid building. Various constructional structures of such a ceiling panel have been proposed and widely used so far.

For example, there is a structure in which a ceiling panel is directly installed on a ceiling surface using a simple cap having a simple structure, and an anchor bolt is fastened and fixed to a ceiling surface of a building using a tattoo gun, After the quick cap is tightened to maintain the overall level, the ceiling panel is fixed with a nail or a screw or the like through the upper cap to complete the construction.

However, this configuration has a merit that the ceiling panel can be directly installed on the ceiling surface, but the ceiling panel is fixed simply by the aid cap, so that the fixing force is weak. There is a disadvantage that installation space of various pipes due to the cooling, heating and fire-fighting facilities can not be secured due to the narrow space, and thus there is a problem that the facility can not be installed under conditions such as a large building or the like.

Accordingly, a method of installing a fixing bar made of emboss, tee, or the like separately in the form of a lattice with a certain distance from the ceiling surface and installing a ceiling panel using the fixing bar has been widely applied.

1 and 2 illustrate a prior art in which a ceiling is constructed using embossments. As shown in FIG. 1, a carrier channel 2 is installed at the end of a long bolt 1 fixed to a ceiling surface and a carrier channel 2 And then the gypsum board 4 is fastened and fixed to the gypsum board 4 by means of the bolts 5. [

At this time, as shown in FIG. 2, a gypsum board (4) is further provided with a groove (6) (a turning neck) for supporting the gypsum board (4) (6) and a molding (7) fixed to the gypsum board (4) are installed.

The molding 7 is entirely installed along the edge of the ceiling surface to prevent the edges of the gypsum board 4 from being exposed to the outside.

The conventional construction structure is such that the grooves 6 are fastened to the top of the gypsum board 4 with an anchor bolts 8 to fix the gypsum board 4 to the wall surface in order to construct the molding 7, The gypsum board 4 and the wood material 6 are fixed with the nails 9 and the like and then the molding 7 is molded again using another nail 9a while being positioned on the lower side of the wood material 6. [ There is a problem that the construction time is delayed due to the construction of the slabs 6 and the moldings 7 because the slabs 7 are fixed to the gypsum board 4 and the slabs 6. [

Further, since the gypsum board 4 is installed after the plate material 6 is first fixed on the wall surface, and the molding 7 is further applied, inefficient construction due to the ceiling construction is performed and the construction time is delayed, There is a problem that the cost is increased.

Further, since the conventional molding 7 is installed completely in close contact with the ceiling surface, the edge of the ceiling where the molding 7 is installed can not be smoothly formed, and the molding 7, which is in close contact with the ceiling, So that the moldings 7 are separated from each other.

In the prior art, a ceiling construction tile plate finishing molding, which is a registration room type application No. 20-0212933, has been proposed. It is formed as a single horizontal piece having a plurality of slices on one side of a narrow and long vertical piece, A bending support piece is formed on the lower end of the vertical piece so as to form an inner groove, and when the vertical member is attached to the corner of the ceiling and the wall in order to finish the tile plate on the ceiling, After fitting the pieces through the inner grooves in a state in which the vertical pieces are in close contact with each other, the tiles are inserted into the bending support pieces and a plurality of pieces formed in the horizontal pieces are artificially bent so as to fix the tile plates, So that the tile plate is fastened with the slice while the tile plate by the head of the piece is tightly joined with the closing member Because it is expecting the effect that the tiles do not pop up in the plate is bent supporting piece construction is solid and the finished appearance elegant.

As another example, a molding decoration molding structure and a construction method thereof are disclosed, which include a bonding portion of a back surface bonded to a predetermined wall surface of a building, an eave of an upper surface, And a paint coating unit covering a remaining portion of the molding body excluding a rear surface thereof, wherein the molding coating body comprises a molding body having a predetermined fastening hole through which a fastener fastened to the wall surface is passed from the front side to the back side, It is possible to simplify the manufacturing and installation work and to facilitate the connection work between the molding structures and to provide a coating coating layer on the outer surface of the molding structure so that not only the shape but also the coloring beauty .

However, as described above, the conventional art has still not solved the problems caused by separately installing the molding and the grooved material.

The present invention has been made in order to solve the problems caused by the conventional ceiling construction, by the ceiling molding formed integrally with the corner portion and the finish portion to be installed at the same time the corner portion and the finish portion at the same time to shorten the construction work time accordingly The purpose is to provide a ceiling molding construction structure to achieve economic effects.

The ceiling molding construction structure of the present invention as a means for achieving the above object is, by fixing one end of the long bolt to the ceiling surface and fixing the carrier channel to the other end of the fixed long bolt after placing the embar as a lattice at the bottom of the carrier channel as a gypsum In fixing the board to the embar with bolts and constructing the ceiling molding on the edge of the gypsum board, the ceiling molding is located in the upper part of the gypsum board and the angle member which is fastened and fixed to the wall with an anchor bolt; The end of the gypsum board is drawn in and fixed with pins, and a finishing part formed at the edge of the gypsum board is integrally formed. The corner parts are fixed to the wall, and then the edge of the gypsum board is positioned at the finishing part to fix the pins with ceiling molding. This is done.

One end of the finishing portion is fitted with the fitting portion is fitted gypsum board, the lower end of the fitting portion is formed with a support jaw for supporting the lower end of the gypsum board is fitted to the fitting portion.

The other end of the finishing portion is further formed aesthetics spaced from the wall surface.

The present invention can not only significantly reduce the construction time caused by the construction of each of the angles and moldings separately as each of the angles and moldings are constructed by constructing one ceiling molding without constructing each of the angles and moldings separately. As a result, the construction cost can be reduced, and construction work can be improved and work efficiency can be obtained by shortening the construction time. A predetermined space is formed at the edge of the plasterboard constructed by the non-sensitizing part so that the molding is walled. The problem caused by the skidding from is solved.

1 is a block diagram showing a conventional ceiling construction.
FIG. 2 is a structural view showing a conventional ceiling construction structure and a construction of a timber construction.
Figure 3 is a schematic view showing a ceiling molding construction of the present invention.
Figure 4 is a block diagram showing that the corner portion and the finishing portion is constructed by the present invention ceiling molding construction structure.
5 is a perspective view illustrating a ceiling molding constructed in FIGS. 3 and 4.
6 is a configuration diagram showing another embodiment of the present invention ceiling molding construction structure.
FIG. 7 is a diagram illustrating the construction of the lumber section and the finish section according to another embodiment of FIG. 6.
8 is a perspective view illustrating a ceiling molding of another embodiment of FIGS. 6 and 7.

Hereinafter, the structure and operation of the present invention will be described in more detail with reference to the accompanying drawings. In describing the present invention, the term or word used in the present specification and claims is based on the principle that the inventor can appropriately define the concept of the term in order to best describe the invention of his or her own. It should be interpreted as meanings and concepts corresponding to the technical idea of

In addition, in describing the present invention, the same technology as in the prior art will be described by applying the same name as it is.

As shown in the present invention, the ceiling molding construction structure includes fixing one end of the long bolt 11 to the ceiling surface 12 and fixing the carrier channel 13 to the other end of the fixed long bolt 11. In place of the embar 14 in the grid to secure the gypsum board 15 to the embar 14 with screws 16 and to the ceiling molding 20 to the edge of the gypsum board 15, The ceiling molding 20 is located in the upper portion of the gypsum board 15, the corner portion 21 is fastened and fixed to the wall surface 17 by the anchor bolt 18, and the end of the gypsum board 15 is drawn in The finishing portion 23 fixed to the pin 22 and positioned at the edge of the gypsum board 15 is integrally formed.

Accordingly, the corner molding part 21 is fixed to the wall surface 17, and then the ceiling molding 20 is constructed by fixing the edge of the gypsum board 15 to the finishing part 23 by pin 22.

Therefore, by fixing the ceiling molding 20 to one of the wall surfaces 17 without constructing the angular part and the molding separately, the construction time can be minimized by the angular part and the molding, thereby minimizing the construction time. You can get it.

This is possible because the corner portion 21 and the finishing portion 23 of the ceiling molding 20 are integrally formed with one, and the material of the ceiling molding 20 is made of wood or various materials other than wood. It may be made of.

Furthermore, according to the present invention, the angled corner portion 21 of the ceiling molding 20 is fixed to the wall surface 17 by the anchor bolt 18 and the gypsum board 15 and the pin 22 are fixed by the pin 22. It is not necessary to install the molding so that it is installed on the wall first and then the gypsum board is re-fixed to the angular material and also fixed to both the gypsum board and the angular material.

6 to 8, the fitting portion 24 into which the gypsum board 15 is inserted is further formed at one end of the finishing portion 23, and the fitting portion 24 is formed. The lower end of the support jaw (25) for supporting the lower end of the gypsum board 15 is fitted to the fitting portion 24 is formed.

Accordingly, since the gypsum board 15 is inserted into the fitting portion 24 and then the gypsum board 15 and the corner members 21 are fixed by the pins 22, the fixing property of the gypsum board 15 is further improved.

Furthermore, as the lower end of the gypsum board 15 fitted to the fitting part 24 is firmly supported by the support jaw 25 formed at the lower end of the fitting part 24, the supportability of the gypsum board 15 is further improved. Of course.

In addition, the other end of the finishing portion 23 is formed with an aesthetic portion 26 spaced apart from the wall surface.

Accordingly, the finishing portion 23 may be spaced apart from the wall surface 17 by the space of the aesthetic portion 26, so that the ceiling molding 20 repeating contraction and expansion according to the seasonal change or the temperature change is provided from the wall surface 17. It is pushed back and prevented from falling off each other.

Furthermore, as the space of the aesthetic portion 26 is formed along the edge of the gypsum board 15, it is of course possible to obtain the interior effect of the room.

As described above, the present invention has been described with reference to a preferred embodiment of the present invention as being capable of various modifications, but the present invention is not limited to such an embodiment, and the embodiment is simply applied in combination with the known art. Together with the claims and the detailed description of the present invention it will be seen that the technology that can be used by those skilled in the art that the present invention belongs to be included in the technical scope of the present invention.

11: long bolt 12: ceiling surface
13: carrier channel 14: embar
15: plasterboard 16: screw
17: wall 18: anchor bolt
20: ceiling molding 21: each part
22: pin 23: finish
24: fitting portion 25: support jaw
26: no sense

Claims (3)

One end of the long bolt 11 is fixed to the ceiling surface 12, and the carrier channel 13 is fixed to the other end of the fixed long bolt 11, and then the embar 14 is positioned on the lower part of the carrier channel 13 in a grid. In fixing the gypsum board 15 to the embar 14 with a screw 16 and constructing the ceiling molding 20 on the edge of the gypsum board 15,
The ceiling molding 20,
A corner member 21 positioned on the gypsum board 15 and fastened and fixed to the wall surface 17 with an anchor bolt 18;
The end of the gypsum board 15 is drawn in and fixed with pins 22 and a finishing portion 23 positioned at the edge of the gypsum board 15 is integrally formed.
The corner member 21 is fixed to the wall surface 17, and then the edge of the gypsum board 15 is positioned at the finishing part 23 to fix the pins 22 so that construction of the ceiling molding 20 is performed. Ceiling molding construction structure. The method according to claim 1,
One end of the finish portion 23 is further formed with a fitting portion 24 is fitted with the gypsum board 15,
The ceiling molding construction structure, characterized in that the lower end of the fitting portion 24 is further formed supporting jaw 25 for supporting the lower end of the gypsum board 15 is fitted to the fitting portion (24). The method according to claim 1,
The other end of the finishing portion 23, the ceiling molding construction structure, characterized in that the aesthetics 26 is further formed spaced apart from the wall surface.

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