KR101564199B1 - Finishing Moulding of Metal Ceiling Material for Separation Prevention - Google Patents

Abstract

According to the present invention, a finishing molding finishes an end part of a metal ceiling panel to prevent the end part of the metal ceiling panel from being exposed. Moreover, the present invention prevents the most end part of the metal ceiling panel from shaking due to wind pressure. The present invention comprises: a vertical unit fixated to a wall surface; a lower horizontal unit where the outer horizontal surface of the metal ceiling panel is placed on; an upper horizontal unit pressing the metal ceiling panel. The upper horizontal unit comprises: a horizontal main body unit having a predetermined width; and a plurality of panel support units pressing the metal ceiling panel. According to the finishing molding for preventing separation of a ceiling material, the present invention has a simple structure and is easily manufactured to provide economic efficiency and is easily installed.

Description

{Finishing Molding of Metal Ceiling Material for Separation Prevention}

The present invention relates to a finishing molding, and more particularly, to a finishing molding method, and more particularly, to a method of finishing a metal ceiling panel by arranging a metal ceiling panel in a row and a row, , And a ceiling panel release finishing mold for preventing a metal ceiling panel from being lifted by wind pressure due to the opening of a window or other reasons.

In general, under the slab corresponding to the ceiling in the building structure such as apartment or building, various electric wiring for lighting, air duct for ventilation and piping for fire protection are installed. In order to prevent such facilities from being exposed, Ceiling materials are being constructed.

These ceiling materials can be used in various ways depending on soundproofing, sound absorption, insulation, texture, and aesthetics.

Until now, a lot of inorganic ceiling materials containing gypsum such as ascaltech or amitex have been used in general.

Current ceiling use trends are increasing due to the superiority of environment, beauty, light weight, and recycling, but the use of metal ceiling materials such as metal ceiling panels is increasing.

In the installation of the metal ceiling material as in the inorganic ceiling material, a metal ceiling panel is assembled in a row and a row, and the ceiling is formed at a portion where the wall meets the ceiling so that the end of the metal ceiling panel is not exposed. Molding is performed.

In addition, the inorganic ceiling material is formed by assembling the inorganic ceiling material in the form of rows and columns, and the ceiling material at the portion where the wall meets the wind pressure due to the wind coming in from the window or other reasons Even if you receive it, it is solidly connected, so you do not hear it by wind pressure.

However, the metal ceiling material, such as the metal ceiling panel, is a fitting type when the metal ceiling material is assembled in a row and a row, There is a problem that is heard when receiving wind pressure due to incoming wind or other reasons.

1-1 shows an example of an existing finishing molding A of the finishing molding of the metal ceiling material. The existing finishing molding A is composed of a vertical portion 11A, a lower horizontal portion 12A and an upper horizontal portion 13A, The upper fitting groove 14A and the lower fitting groove 15A are formed so that the upper fitting hole 11A1 and the lower fitting hole 12A1 of the ceiling panel fixing clip 1A1 of FIG. And the panel pressing portion 13A1 presses the metal ceiling panel 2 as shown in FIG.

When the existing finishing molding A is used, it is necessary to use the ceiling panel fixing clip 1A1. However, there is a problem that the hands are not easily handled because of difficulty in installation, or the places where installation is difficult are not installed.

3-1 is an example of an existing finishing molding B of the finishing molding of the metal ceiling material. The existing finishing molding B is composed of a vertical portion 11B, a lower horizontal portion 12B and an upper horizontal portion 13B, The ceiling panel fixing plate spring 1B1 of Fig. 3-2 is used to press the metal ceiling panel 2 as shown in Fig.

When the existing finishing molding B is used, the ceiling panel fixing plate spring 1B1 must be used, but the ceiling panel fixing clip 1A1 is easier to install than the ceiling panel fixing clip 1A1, There was a problem.

5-1 is another example of the existing finishing molding B of the finishing molding of the metal ceiling material, wherein the existing finishing molding B comprises a vertical portion 11B, a lower horizontal portion 12B and an upper horizontal portion 13B And the metal ceiling panel 2 is pressed as shown in Fig. 6 by using the ceiling panel fixing wood or the styrofoam 1B2 of Fig. 5-2.

In addition, there was a problem that the hands were not easily handled or the places where installation was difficult were not installed.

A structure having a flat surface on one side so as to come in contact with the outer wall surface posted in Registration Practical Utility Model No. 20-0317815,

Shaped left side chassis portion; The upper part of the upper part is connected to the left chassis part, one side of which is folded upwardly so as to hang the hook 30-1, and the other part is formed with a step that supports the ceiling finishing material.

Shaped right side chassis portion but is applied to the finish and inorganic ceiling material differently from the application of the present invention.

The heat insulating molding structure of the architectural metal exterior panel disclosed in the registration utility model 20-0403456 includes an upper frame formed at the edge of the metal exterior panel; A lower frame fixedly installed on the outside of a support coupled to the building; And a heat insulating material sandwiched between the upper frame and the lower frame to block heat conduction. However, the structure is different from that of the present invention in the structure for heat insulation.

General-purpose aluminum extrusion molding disclosed in Registration Practical Utility Model No. 20-0418720 has a structure in which an intermediate part of a molding body extruded from an aluminum material as a whole is fixed to a wall surface of a building through a fixing member, the molding body is configured to be opened to one side, The ceiling material receiving grooves are formed in a straight line from the entrance to the inside of the building and the inside of the ceiling material receiving grooves are in contact with the inside space of the building from the entrance side to the inside side It is possible to accommodate the ceiling material regardless of its thickness by forming a multi-step hanging step so that the width gradually becomes narrower, but it is not a finishing molding which prevents the lifting due to the wind pressure of the metal ceiling panel.

In the coupling structure of the ceiling panel, which is easy to install, which is disclosed in Japanese Patent Registration No. 10-1325670, when the pair of ceiling frames inserted in the insertion direction of the embossment in the embossing direction are in contact with each other

A support surface for supporting the ceiling mold frame inserted into a molding insertion groove formed in both the ceiling mold frames and an insert portion protruding perpendicularly to a central portion of the support surface and having serrated projections formed on the outer periphery thereof. Different uses.

According to an aspect of the present invention, there is provided a metal ceiling panel comprising a metal ceiling panel assembled in a row and a row, , And an easy way of bending the panel support to prevent the metal ceiling panel from being shaken by wind pressure.

The finishing moldings of the present invention are installed in a portion where a metal ceiling panel is assembled in a row and a row and where the metal ceiling panel meets the wall to finish the end of the metal ceiling panel so that the end of the metal ceiling panel is not exposed, A vertical part of the metal ceiling panel being prevented from being shaken by the wind pressure and being fixed to the wall surface by a screw in contact with the wall surface; A lower horizontal portion formed horizontally by a predetermined width at a lower end of the vertical portion and on which an outer horizontal surface of the metal ceiling panel rests; The metal ceiling panel is horizontally formed in the same direction as the lower horizontal portion by a predetermined width at an upper end of the vertical portion so that the metal ceiling panel can be inserted between the lower horizontal portion and the metal ceiling panel, And an upper horizontal portion which is partially bent downward by 90 degrees to press the metal ceiling panel to prevent the distal end of the ceiling panel from being shaken by the wind pressure.

Wherein the upper horizontal portion includes a horizontal main body portion having a width that is wider than the lower horizontal portion; And a plurality of panel supports formed in the horizontal main body part at regular intervals in a pattern and pressing the metal ceiling panel by turning the metal ceiling panel at 90 degrees after installation.

The horizontal support member is provided with a cut-out portion cut in a "?" Shape so as to allow the panel support portion to be bent by 90 degrees, and a groove which is narrowed to a certain depth from the end portion of the panel support portion, .

The cutouts are formed at intervals of a predetermined length at an end of the metal ceiling panel where the cutouts are not caught by the bent portions of the metal ceiling panel.

The metal ceiling panel is inserted and joined to a panel clip in which the end portion of the metal ceiling panel is fitted so that the metal ceiling panel can be assembled in a row and a row.

The panel clip includes an embossed engagement portion which is rotated by 90 degrees in a counterclockwise direction of the C shape, and then is bent at an upper end of the emblem to be fixed to the upper portion of the emblem; And a panel coupling portion formed at the lower center of the embley coupling portion in the longitudinal direction to prevent the end portions of the metal ceiling panels on both sides from being fitted.

The metal ceiling panel includes a panel horizontal plate portion of a quadrangle shape having a pattern of a predetermined shape for sound absorption and aesthetic appearance; A vertical panel clip vertical unit formed perpendicularly to the four sides of the panel horizontal plate unit and inserted into the panel coupling unit and facing each other, And a panel vertical portion formed of a vertical portion.

The panel horizontal plate portion is folded twice at 45 degrees so as to have no step due to the optical effect when the metal plate panel and the metal ceiling panel are installed in a row and a row at the portion where the panel horizontal plate portion and the panel vertical portion meet, Is formed.

The inner surface of the vertical portion of the panel clip is formed with two or three clip engagement holes which are engaged with the panel engagement portion to prevent the panel clip engagement portion from falling downward.

The above-mentioned finish molding can solve the problem to be solved by the present invention.

According to the present invention, in order to prevent lifting due to the wind pressure of the metal ceiling panel, the ceiling panel fixing clip, the ceiling panel fixing plate spring and the ceiling panel fixing wood or the styrofoam should be installed in the existing finishing moldings, But it can be easily supported by bending the panel support part so that the metal ceiling panel can be prevented from being shaken by the wind pressure and the structure is simple and easy to manufacture so that the price is low and the installation is simple have.

1 is a perspective view of a first example of a conventional finishing molding and a metal ceiling panel fixing clip perspective view
FIG. 2 is a front view of a conventional wall molding and an example of a wall molding in which a metal ceiling panel fixing clip is installed.
3 is a perspective view of a conventional example of the finish molding 2 and a ceiling panel fixing plate spring perspective view
FIG. 4 is a front view of a conventional wall molding according to a second embodiment of the present invention and a ceiling panel fixing plate spring mounting wall molding
FIG. 5 is a cross-sectional view of a conventional example 2 of the finishing molding and a fixed wood or styrofoam perspective view
FIG. 6 is a front view of the conventional finishing molding example 2 and the fixed wood or styrofoam wall molding.
FIG. 7 is a side view of the wall molding detail according to the ceiling-
(Wall Molding Detail) Front view
FIG. 8 is a perspective view of a metal ceiling panel combined with a finish molding according to the ceiling-
Fig. 9 is a detailed view of the ceiling release prevention molding of the present invention
Fig. 10 is a perspective view of the ceiling material separation prevention molding of the present invention
Fig. 11 is a detailed view after the installation of the ceiling release preventive finishing molding of the present invention
Fig. 12 is a perspective view of the ceiling material departure-
Fig. 13 is a detailed view of a metal ceiling panel used in the first embodiment of the present invention
14 is a perspective view of a metal ceiling panel used in the present invention.
15 is a detailed view of a second embodiment of the metal ceiling panel used in the present invention
16 is a detailed view of a panel clip used in the present invention
17 is a perspective view of a panel clip used in the present invention
Fig. 18 is a partially enlarged view of part A of Fig. 7 in accordance with the ceiling-

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS First, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

It should be noted that the following terms are defined in consideration of the functions of the present invention and may vary depending on the intention or custom of the user, the operator, and the like. It should be based on the contents throughout the specification.

Hereinafter, a preferred embodiment of the "ceiling material separation prevention finishing mold" according to the present invention will be described in detail.

The following examples are merely illustrative of the present invention and are not intended to limit the scope of the present invention.

FIG. 1 is a perspective view of a first example of a conventional finishing molding and a fixing clip of a metal ceiling panel, FIG. 2 is a front view of a wall molding of an existing finishing molding installation example and a metal ceiling panel fixing clip installation, FIG. 5 is a perspective view of a conventional finishing molding and a fixed wood or styrofoam perspective view, FIG. 6 is a perspective view of a conventional fixing finishing spring, 7 is a front view of a wall molding detail according to the present invention's ceiling release preventive finishing molding, FIG. 8 is a front view of a finishing mold according to the ceiling release preventive finishing molding of the present invention, and FIG. FIG. 9 is a detailed view of the ceiling material separation prevention molding of the present invention before installation, FIG. 10 is a front view of the ceiling material separation prevention molding of the present invention FIG. 12 is a perspective view of the ceiling material removal preventing finishing molding according to the present invention, and FIG. 13 is a sectional view of a metal ceiling panel used in the present invention. FIG. FIG. 14 is a perspective view of a first embodiment of a metal ceiling panel used in the present invention, FIG. 15 is a detailed view of a second embodiment of a metal ceiling panel used in the present invention, and FIG. FIG. 17 is a perspective view of a panel clip used in the present invention, and FIG. 18 is an enlarged view of a portion A of FIG. 7 in accordance with the ceiling release preventive finishing molding of the present invention.

FIGS. 1 and 2 are a perspective view of an existing finish molding and a metal ceiling panel fixing clip and an installation wall molding front view, wherein FIG. 1-1 is an example of an existing finish molding A of the finish molding of the metal ceiling material, A is formed by a vertical part 11A, a lower horizontal part 12A and an upper horizontal part 13A. An upper fitting groove 14A and a lower fitting groove 15A are formed, The upper fitting hole 11A1 and the lower fitting hole 12A1 of the clip 1A1 are inserted into the upper fitting groove 14A and the lower fitting groove 15A and the panel pressing portion 13A1 is inserted into the metal Press the ceiling panel (2).

When the existing finishing molding A is used, it is necessary to use the ceiling panel fixing clip 1A1. However, there is a problem that the hands are not easily handled because of difficulty in installation, and the places where installation is difficult are not installed.

FIGS. 3 and 4 are a perspective view of a conventional finishing molding and a ceiling panel fixing plate spring perspective view and an installation wall molding front view. FIG. 3-1 is an example of an existing finishing molding B of the finish molding of the metal ceiling material, The molding B is composed of a vertical portion 11B, a lower horizontal portion 12B and an upper horizontal portion 13B. Using the ceiling panel fixing leaf spring 1B1 of FIG. 3B, Press the ceiling panel (2).

When the existing finishing molding B is used, the ceiling panel fixing plate spring 1B1 must be used, but the ceiling panel fixing clip 1A1 is easier to install than the ceiling panel fixing clip 1A1, There is a problem.

FIGS. 5 and 6 are a perspective view of a conventional finishing molding and a fixed wood or styrofoam perspective view and an installation wall molding front view, FIG. 5-1 is another example of an existing finishing molding B of a finish molding of the metal ceiling material, The molding B is composed of a vertical portion 11B, a lower horizontal portion 12B and an upper horizontal portion 13B. Using the ceiling panel fixing wood or the styrofoam 1B2 shown in FIG. 5-2, Press the metal ceiling panel (2).

In addition, there is a problem that hands are not easily handled or places where installation is difficult are not installed.

As shown in FIGS. 7 and 18, the ceiling-mounted structure of the present invention includes a metal ceiling panel 2 that is installed at the bottom surface and has a predetermined size and is assembled in rows and columns to form a ceiling scene and absorbs sound; A panel clip 3 for preventing an end portion of the metal ceiling panel 2 from being fitted so that the metal ceiling panel 2 can be assembled in a row and a row; A hanger bolt 8 fixed to an upper floor or upper slab 10 and coupled to an anchor bolt 81 inserted and fixed to the floor or upper slab 10 and including a nut; A hanger 7 fixed to the lower portion of the hanger bolt 8 by the nut 82 and installed at a predetermined height; A carrying channel 6 held by the hanger 7 and horizontally installed on the floor surface and extending equally to each other and being installed at regular intervals in a width or a vertical width of the indoor space; An M-bar (not shown) is installed on the lower surface of the carrying channel 6 at a right angle to the installation direction of the carrying channel 6 and at regular intervals, 5); A Finishing Molding (Finishing Molding) which is fixed to the four side wall surfaces of the end portion where the metal ceiling panel 2 is installed and is closed so that the distal end of the metal ceiling panel 2 is sandwiched and the ends of the metal ceiling panel 2 are not exposed. ) ≪ / RTI > (1).

The carrying channel 6 and the embossing unit 5 are coupled to each other by an M-bar clip 4 or a wire clip (not shown).

As shown in Fig. 8, the present invention relates to a finishing molding 1 of the above-mentioned ceiling-mounted structure, which has a cross-sectional shape and has a predetermined length and is cut and used in accordance with the finished length, The panel supporting portion 132 is bent by 90 degrees to prevent the distal end portion of the metal ceiling panel 2 from swinging due to the wind pressure to prevent the panel horizontal portion plate 21 of the metal ceiling panel 2 from being pressed.

As shown in FIGS. 9 and 10, the finishing molding 1 of the present invention is installed in a portion where the metal ceiling panel 2 is assembled in rows and columns and a wall, End of the metal ceiling panel 2 is closed so that the end of the metal ceiling panel 2 is not exposed, and the metal ceiling panel 2 is cut off to have a length of a predetermined length and has a "C" sectional shape, Thereby preventing the distal end portion of the metal ceiling panel 2 from being shaken by wind pressure.

The finishing molding 1 comprises a vertical part 11 which is in contact with a wall surface and is fixed to the wall surface by a screw or molding fixing piece 14; A lower horizontal part 12 formed horizontally by a predetermined width at a lower end of the vertical part 11 and on which an outer horizontal surface of the metal ceiling panel 2 rests; The metal ceiling panel 2 is horizontally formed in the same direction as the lower horizontal portion 12 by a predetermined width at an upper end of the vertical portion 11 so that the metal ceiling panel 2 can be inserted between the upper horizontal end portion 12 and the lower horizontal portion 12 In order to prevent the metal ceiling panel (2) from being shaken by the wind pressure due to the opening of the window or other reasons after the metal ceiling panel (2) is inserted, the metal ceiling panel (2) And an upper horizontal portion 13 for pressing the panel 2.

The upper horizontal part 13 includes a horizontal main part 131 having a width that is wider than the lower horizontal part; A plurality of panel supports 132 formed at regular intervals in a pattern on the horizontal main body 131 and pressing the metal ceiling panel 2 by turning 90 degrees after the metal ceiling panel 2 is installed, .

The horizontal body part 131 is provided with an incision 1311 formed by cutting the panel support part 132 in a right and left direction so as to turn the body support part 132 at 90 degrees, 132 is formed at a narrow depth from the end portion to a certain depth so as to be easily bent by 90 degrees.

That is, the finishing molding 1 may have a shape that is rotated symmetrically to the left in FIG.

The cutouts 1311 are spaced apart from each other by a predetermined length at ends of the cutouts 1311 that meet the vertical portion 11 so as not to be caught by the bent portions 23 of the metal ceiling panel 2. [

That is, the cutout 1311 is formed inwardly of the starting portion of the bent portion 23 of the metal ceiling panel 2 so that the panel supporting portion 132 supports the horizontal surface of the metal ceiling panel 2, And should not be interfered with by the bent portion 23 when the panel supporting portion 132 is bent by 90 degrees.

The finishing molding 1 of the present invention is manufactured by forming aluminum in the shape of an extruded bar by an extrusion die and then bending and bending the extruded bar in the press to form the cutout 1311 and the notch 1312.

The notched portion 1312 has a narrow groove extending from the end portion to a predetermined depth so as to easily turn the panel support portion 90 by 90 degrees. The notched portion 1312 can be easily bent and bent at a fixed position, . If the groove is too deep, the supporting force may be weakened. Therefore, it is preferable that the depth is determined between the grooves of about 5 to 20 mm.

FIGS. 11 and 12 show a state in which the metal ceiling panel 2 is bent by 90 degrees to prevent the metal ceiling panel 2 from being lifted up by the wind pressure after the metal ceiling panel 2 is installed, In a state of being supported.

The panel support 132 can easily bend to support the metal ceiling panel 2. Since the ceiling panel fixing clip 1A1 or the ceiling panel fixing plate spring 1B1 or the ceiling panel fixing wood or the styrofoam 1B2 are separately prepared and inserted to support the metal ceiling panel 2, There are times when you only need to install, or forget to install.

Therefore, the finishing molding 1 of the present invention can support the metal ceiling panel 2 only by bending the panel supporting portion 132 by 90 degrees, which is convenient to work easily.

As shown in FIGS. 13 and 14, the metal ceiling panel 2 is a first example of the metal ceiling panel 2, so that the metal ceiling panel 2 can be assembled in a row and a row. The end of the metal ceiling panel (2) is inserted and inserted into the panel clip (3) which does not fall, and is assembled and assembled.

The metal ceiling panel (2) is formed in a pattern with a predetermined shape of holes (211) for sound absorption and aesthetics, and has a rectangular plate horizontal plate portion (21) of a quadrangle shape; Two panel clip coupling vertical parts 221 formed perpendicular to the four side edges of the panel horizontal plate part 21 and inserted into the panel coupling parts 32 and facing each other, And a panel vertical portion 22 composed of two general vertical portions 222 opposed to each other.

In the portion where the panel horizontal plate portion 21 and the panel vertical portion 22 meet, when the strength reinforcement and the metal ceiling panel 2 are installed in rows and columns, the panel horizontal plate portion 21 And bent at 45 degrees twice to form the vertical portion 22 of the panel.

Two or three clip fastening holes 2211 are formed on the inner surface of the panel clip coupling vertical portion 221 to prevent the panel clip fastening portion 227 from falling down when the panel fastening portion 32 is fitted into the panel fastening portion 32.

The clip fitting part 2211 is a protruding clip fitting part 22111 protruding from the outer surface of the panel vertical part 22 to the inner surface.

As shown in FIG. 14 in which two protrusion clip fittings 22111 are inserted into one panel clip 3, one pair is formed as shown in FIG. 13, And the shape that does not fall down is the same.

As shown in FIG. 15, this figure shows a second example of the metal ceiling panel 2, in which the metal ceiling panel 2 includes a metal ceiling panel 2, The end of the panel 2 is inserted and inserted into the panel clip 3 which does not fall out, and is engaged and assembled.

The metal ceiling panel (2) is formed in a pattern with a predetermined shape of holes (211) for sound absorption and aesthetics, and has a rectangular plate horizontal plate portion (21) of a quadrangle shape; Two panel clip coupling vertical parts 221 formed perpendicular to the four side edges of the panel horizontal plate part 21 and inserted into the panel coupling parts 32 and facing each other, And a panel vertical portion 22 composed of two general vertical portions 222 opposed to each other.

In the portion where the panel horizontal plate portion 21 and the panel vertical portion 22 meet, when the strength reinforcement and the metal ceiling panel 2 are installed in rows and columns, the panel horizontal plate portion 21 And bent at 45 degrees twice to form the vertical portion 22 of the panel.

Two or three clip fastening holes 2211 are formed on the inner surface of the panel clip coupling vertical portion 221 to prevent the panel clip fastening portion 227 from falling down when the panel fastening portion 32 is fitted into the panel fastening portion 32.

The clip coupling part 2211 is formed with a plate bending clip coupling part 22112 formed by cutting a certain part of the panel vertical part 22 into a d shape and bending it 20 to 90 degrees inward.

The panel engaging portion 32 of the panel clip 3 corresponding to the second example of the metal ceiling panel 2 is fixed to the clip horizontal portion 312 of the embossed engaging portion 31 at a constant A 135-degree bent portion formed by cutting both sides in a C shape at an interval and bending the cut portion by 135 degrees in the direction of the center line; A vertical bending portion bent at 45 degrees in a direction opposite to a center line at a distal end of the 135 degree bent portion and perpendicular to the ceiling surface; And two oppositely symmetrical panel-engaging apertures divided by a 45-degree bent in the direction opposite to the center line at the distal end of the vertical bending portion and divided into a distal bending portion closely contacting the bending portion 13.

The vertical bending portion is formed with a rectangular opening portion so that the clip coupling opening 2211 is protruded and inserted.

As shown in FIGS. 16 and 17, the panel clip 3 is configured such that the end portion of the metal ceiling panel 2 is fitted so that the metal ceiling panel 2 can be assembled in a row and a row, Is formed into an extruded bar shape by an extrusion die, and is manufactured by bending it from a press.

The panel clip (3) has an embossed engaging portion (31) which is rotated by 90 degrees in a counterclockwise direction and then bent at the upper end of the emblem (5) to be fixed to the upper portion of the emblem (5); And a panel coupling part 32 formed at the lower center of the embley coupling part 31 in the longitudinal direction so as to prevent the ends of the metal ceiling panel 2 on both sides from being fitted.

The embroidering portion 31 is engaged with the embroidering portion 5 and is formed perpendicular to the ceiling surface. The embroidering portion 31 is folded twice at the inner side at 90 degrees to be folded at the embroidering portion 5 when the panel clip 3 is engaged with the embroidering portion 5, The upper portion of the panel clip 3 is bent perpendicularly to the ceiling surface so as to be symmetrical to the embedding-coupling vertical portion 3111 and the emblem-coupling vertical portion 3111, The panel clip 3 is guided to be easily engaged with and disassembled from the emblem 5 upon disassembly or disassembly and is positioned on the horizontal end portion of the embossment 5 so that the metal clip 3, A clip vertical portion 311 including an emblem connection induction vertical portion 3112 for receiving a load of the clip 2; And a clip horizontal part 312 formed horizontally to connect the emblem connection vertical part 3111 and the lower end of the emblem connection induction vertical part 3112.

13 and 14, the panel connecting portion 32 is formed by cutting the both sides of the clip horizontal portion 312 of the embossed engaging portion 31 at a predetermined interval in the longitudinal center line, A 135-degree bent portion 3211 bent at 135 degrees in a center line direction; An arcuate bend portion 3212 which bends at an angle of 90 degrees from the distal end of the 135-degree bent portion 3211 in the direction opposite to the center line to form a circular arc and forms a space in which the clip fitting opening 2211 protrudes; And two panel symmetrical panel coupling fittings 321 which are bent at 90 degrees from the distal end of the arcuate curved portion 3212 and divided into horse-breaking curved portions 3213 which are in close contact with the curved portion 23.

The protruding clip fitting portion 22111 is protruded from the arcuate bent portion 3212 so that the metal ceiling panel 2 does not fall downward.

The panel connecting portion 32 corresponding to FIG. 15 is not shown, but the clip horizontal portion 312 of the embossed engaging portion 31 is cut at both sides with a constant distance at the center line in the longitudinal direction, A 135-degree bent portion bent at 135 degrees in the centerline direction; A vertical bending portion bent at 45 degrees in a direction opposite to a center line at a distal end of the 135 degree bent portion and perpendicular to the ceiling surface; And two oppositely symmetrical panel-engaging projections which are bent at an angle of 45 degrees in a direction opposite to a center line at a distal end of the vertical bent section and divided into a distal bent section which is in close contact with the bent section.

The vertical bending portion is formed with a rectangular opening portion so that the clip coupling opening 2211 is protruded and inserted.

The plate bending clip fitting hole 22112 is engaged with the lower edge of the open portion of the vertical bent portion so that the metal ceiling panel 1 does not fall downward.

According to the present invention, in order to prevent lifting due to the wind pressure of the metal ceiling panel 2, the ceiling panel fixing clip 1A1, the ceiling panel fixing plate spring 1B1, and the ceiling panel fixing However, since the panel support 132 can be easily supported by bending it, it is possible to prevent the metal ceiling panel 2 from being shaken by the wind pressure. It is easy to construct, easy to manufacture, low cost, and simple to install.

1A: Existing finish molding A 11A: Vertical portion
12A: lower horizontal part 13A: upper horizontal part
14A: upper fitting groove 15A: lower fitting groove
1A1: Ceiling panel fixing clip 11A1: Top fitting
12A1: Lower fitting part 13A1: Panel pressing part
1B: Existing finish molding B 11B: Vertical section
12B: lower horizontal portion 13B: upper horizontal portion
1B1: ceiling panel fixing plate spring
1B2: Ceiling panel fixing wood or styrofoam
1: Finishing molding
11: vertical part 12: lower horizontal part
13: upper horizontal part 131: horizontal main part
1311: incision part 1312: notch part
132: panel support 14: molding fixing piece
2: Metal ceiling panel
21: panel horizontal plate 211:
22: panel vertical portion 221: panel clip coupling vertical portion
2211: clip coupling port 22111: projecting clip coupling port
22112: plate bending clip fitting 222: general vertical part
23:
3: Panel clip
31: emboss connecting part 311: clip vertical part
3111: embossed coupling vertical portion 3112: embossed coupling induction vertical portion
312: clip horizontal part 3121: panel joining part generation open part
32: Panel coupling part 321: Panel coupling part
3211: 135 degree bending portion 3212: arc bending portion
3213: horse cut-off valley part 3214: 135-degree bent part
3215: vertical bent portion 32151: open portion
3216: Horseshoe cut
3A: Clip bar
4: Embarcle Clip 5: Embaras
6: carrying channel 7: hanger
8: Hanger bolt 81: Anchor bolt
82: Nut 9: Wall
10: Upper floor or upper slab

Claims (3)

The metal ceiling panel (2) is assembled in a row and a row, and the ceiling panel (2) is installed at a portion where the ceiling and the wall meet to expose the end portion of the metal ceiling panel (2) (Finishing Molding) In (1)
Since the finishing molding 1 has a "C" sectional shape, the distal end of the metal ceiling panel 2 is prevented from being shaken by wind pressure,
The finishing molding 1 includes a vertical part 11 which is in contact with a wall surface and is fixed to the wall surface with screws;
A lower horizontal part 12 formed horizontally by a predetermined width at a lower end of the vertical part 11 and on which an outer horizontal surface of the metal ceiling panel 2 rests;
The metal ceiling panel 2 is horizontally formed in the same direction as the lower horizontal portion 12 by a predetermined width at an upper end of the vertical portion 11 so that the metal ceiling panel 2 can be inserted between the upper horizontal end portion 12 and the lower horizontal portion 12 The metal ceiling panel 2 is bent downward by 90 degrees in order to prevent the distal end of the metal ceiling panel 2 from being shaken by wind pressure, And a horizontal portion 13,
The upper horizontal part 13 includes a horizontal main part 131 having a width that is wider than the lower horizontal part;
A plurality of panel supports 132 formed at regular intervals in a pattern on the horizontal main body 131 and pressing the metal ceiling panel 2 by turning 90 degrees after the metal ceiling panel 2 is installed, Lt; / RTI >
The horizontal body part 131 is provided with a cutout 1311 cut in a shape such that the panel support part 132 can be bent at 90 degrees and a cut part 1311 formed at an end part of the panel support part 132 so that the panel support part 132 can be bent 90 degrees. A notched portion 1312 having a narrow groove is formed to a certain depth from the inside thereof,
The cutout portion 1311 is formed at a predetermined interval at an end portion of the cutout portion 1311 that is in contact with the vertical portion 11 so as not to be caught by the bent portion 23 of the metal ceiling panel 2,
The metal ceiling panel 2 is inserted into a panel clip 3 in which an end portion of the metal ceiling panel 2 is fitted so that the metal ceiling panel 2 can be assembled in a row and a row, And,
The panel clip 3 includes an embossed engaging portion 31 which is rotated by 90 degrees in a counterclockwise direction and then is hooked on an upper portion of the M-bar 5 in a bent shape at both ends thereof;
And a panel coupling part (32) formed at the lower center of the embley coupling part (31) in the longitudinal direction so as to prevent the ends of the metal ceiling panel (2)
The metal ceiling panel (2) has a rectangular plate horizontal plate (21) having a pattern of holes (211) having a predetermined shape for sound absorption and aesthetic appearance;
Two panel clip coupling vertical parts 221 formed perpendicular to the four side edges of the panel horizontal plate part 21 and inserted into the panel coupling parts 32 and facing each other, And a panel vertical portion 22 composed of two general vertical portions 222 opposed to each other,
In the portion where the panel horizontal plate portion 21 and the panel vertical portion 22 meet, when the strength reinforcement and the metal ceiling panel 2 are installed in rows and columns, the panel horizontal plate portion 21 A folded portion 23 is formed by folding 45 degrees twice so as to become the panel vertical portion 22,
And two or three clip engagement holes 2211 are formed on the inner surface of the panel clip coupling vertical portion 221 so as to be engaged with the panel engagement portion 32 so as not to fall into the lower portion. molding
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