KR102569925B1 - Capture-type Combination structure of slip stone panel for curtain wall - Google Patents

Abstract

The present invention relates to a capture type combination structure of a stone panel for a curtain wall, which enables a design suitable for the purpose of a building by combining glass modules and stone modules on the outside of the wall, and connects stones to stones. It is composed of a TYPE A panel (700A), a first curtain wall fixing assembly 100, a backup member 810, a sealing member 820, an asbestos mounting gasket 870, and a flame retardant foam 890. Panel A (700A) has a rectangular PF board 710, a polymer mortar 720 surrounding and finishing the PF board 710, and a stone 730 in front of the PF board 710 wrapped with the polymer mortar 720. is attached, and the PF board 710 is a representative insulation board. It is manufactured in a foam board type through a process of foaming and molding a resin having insulation properties, and has flame retardancy, heat resistance, and low smoke retardancy due to the characteristics of the main material, phenolic resin. great.

Description

Capture-type combination structure of slip stone panel for curtain wall}

The present invention relates to a capture type coupling structure of a stone panel for a curtain wall, and more particularly, to a curtain that allows a design suitable for the purpose of a building by combining a glass module and a stone module together outside a wall. It relates to the capture type bonding structure of stone panels for walls.

Recently, the construction of a curtain wall is increasing to improve the aesthetics while introducing external light into the interior by constructing a glass member on the outer wall of the building.

A curtain wall refers to an outer wall of a building that does not support the load of the building. In other words, the vertical and horizontal loads applied to the building are supported by the frame composed of columns and beams, and the curtain wall serves as a curtain to protect the occupants of the building from the external environment.

These curtain walls block rain, wind, etc. from the outside, block noise or heat, and are used for finishing the outer walls of buildings by using transparent glass or reflective glass so that columns and beams are not exposed to the outside.

In general, curtain walls are made of lightweight materials such as aluminum that have less load on columns and beams and can be manufactured by injection molding.

As a first embodiment of the prior art, as shown in FIGS. 1 to 3 of Patent Registration No. 10-1973399, the structural reinforcement type window system according to an embodiment of the prior invention includes a frame 100 made of aluminum provided on the indoor side and , the partition material 200 that surrounds the front surface of the frame 100 and blocks the thermal bridge phenomenon, the cover 300 fixed by compressing one end of the partition material 200, the frame 100 and the cover ( 300) may be provided with a reinforcing member 400 for improving structural performance.

The structural reinforcement type window system can be used in a variety of ways, such as a curtain wall or a window in which the frame 100 is exposed, which is often used in high-rise or super-high-rise construction in which high structural performance is required.

As another conventional second embodiment, referring to FIGS. 4 and 5 in Patent Registration No. 10-1916866, the upper mold frame 100 has a configuration corresponding to the lower mold frame 200, and the upper mold frame 100 has a lower mold It forms a pair with the frame 200. The upper mold frame 100 and the lower mold frame 200 are made of steel and may be manufactured through bending and roll forming.

Since the upper frame 100 and the lower frame 200 have the same shape, the upper frame 100 and the lower frame 200 may be manufactured through roll forming to form one profile.

At this time, the upper frame 100 and the lower frame 200 manufactured by roll forming may be manufactured as a steel curtain wall 1000 by bending pre-coated metal (PCM) steel plates. In this case, the PCM (Pre-Coated Metal) steel sheet made of pre-coated may be a steel sheet to which fluorine resin is applied to a galvanized steel sheet for reinforcing the corrosion resistance and weather resistance of the steel curtain wall, or may be a steel sheet made of another pre-coated sheet.

In this way, in the case of manufacturing the upper frame 100 and the lower frame 200 from pre-coated metal (PCM) steel plates, the manufacturing time of the steel curtain wall 1000 does not require a separate painting operation. can be shortened.

In other words, in the case of a pre-coated steel curtain wall (1000) to which a high corrosion resistance and high weather resistance color paint is applied to ensure the corrosion resistance and weather resistance of the steel curtain wall (1000), which is a fixing device for glass windows as a building finishing material, the painting process after processing By deleting this, it is possible to reduce the manufacturing cost and construction cost of the steel curtain wall 1000 and shorten the period. That is, post-coated metal after bending and roll forming of galvanized steel sheet, or post-coated metal forming of pre-coated metal sheet provides high corrosion resistance and insulation properties with improved structural rigidity that can be mass-produced at low cost. An improved welding-less integrated unit type steel curtain wall 1000 can be manufactured.

The upper type frame 100 and the lower type frame 200 are not limited to being manufactured from pre-coated steel sheets through a roll forming operation, and may also be manufactured from steel sheets that are not pre-coated. In the case of manufacturing the upper frame 100 and the lower frame 200 from steel sheets that have not been subjected to such a pre-coating process, a separate painting process is performed after the upper frame 100 and the lower frame 200 are formed.

As such, the upper frame 100 may include an upper base 110, an upper first protrusion 120, an upper second protrusion 130, and an upper third protrusion 140.

The upper base 110 supports each protrusion provided on the upper mold frame 100 .

The upper first protrusion 120 protrudes from one end of the upper base 110 . An end of the upper first protrusion 120 is made to support an end of the support 300 supporting the window 1 . That is, when the upper frame 100 and the lower frame 200 are coupled, a support coupling groove 111 is formed between the end of the first upper protrusion 120 and the lower stepped surface 213 formed on the lower frame 200. do. The support part 300 is inserted into the support coupling groove 111 so that the support part 300 can be supported and fixed to the upper frame 100 and the lower frame 200 .

The upper second protrusion 130 protrudes from the upper base 110, is spaced apart from the upper first protrusion 120 [0043] and forms the first insertion groove 101. The lower third protrusion 240 of the lower mold frame 200 is inserted into the first insertion groove 101 .

Here, the first insertion groove 101 is provided with a first adhesive member 510, and the first adhesive member 510 connects the inner surface of the first insertion groove 101 and the end surface of the lower third protrusion 240. will combine The first adhesive member 510 coupled to the lower third protrusion 240 and the first insertion groove 101 may also be made of Norton tape. As such, the first adhesive member 510 couples the inner surface of the first insertion groove 101 and the end surface of the lower third protrusion 240 and at the same time blocks leakage of air or rainwater that may be introduced from the outside. , made to increase airtightness and heat insulation.

As such, the first adhesive member 510 may be provided in the second insertion groove 201 in which the lower first protrusion 220 and the lower second protrusion 230 are spaced apart and the upper third protrusion 140 is inserted. can This first adhesive member 510 combines the inner surface of the second insertion groove 201 and the end surface of the upper third protrusion 140, and at the same time blocks leakage of the steel curtain wall 1000, improves airtightness and heat insulation. is made up of

In addition, since the lower third protrusion 240 is inserted into and coupled to the first insertion groove 101, sealing members 530 may be further provided on both side surfaces of the lower third protrusion 240. The sealing member 530 combines the inner surface of the first insertion groove 101 and both sides of the lower third protrusion 240, and at the same time blocks leakage of air or rainwater that may be introduced from the outside and maintains airtightness. It is done. The sealing member 530 may be made of sealant.

As such, the sealing member 530 is provided on both sides of the upper third protrusion 140 so that when the upper third protrusion 140 is inserted into the second insertion groove 201, leakage is blocked and airtightness is maintained. .

In other words, the steel curtain wall 1000 has a non-welding structure, and the upper frame 100 and the lower frame 200 are used in common, and the adhesive member and the sealing when the upper frame 100 and the lower frame 200 are fastened. The coupling is made primarily by the member or the like.

However, in the case of the first embodiment as described above, a technology for connecting glass modules vertically has been developed, but when a part requiring a glass module and a part requiring a stone module are generated in a building structure, the glass module and the stone module are used. A binding structure has not been developed.

Moreover, in the conventional second embodiment, although a structure combining a glass module and a stone module applied to a curtain wall has been developed, the structure is an integral unit type and is manufactured as a steel curtain wall 1000, but an upper frame and a lower frame And it is manufactured by dividing it into a support, but it is used by combining it again integrally, or the function of blocking heat is poor because it is a single unit of the stone module (wall 2), and even in the method of combining it, the 'b'-shaped fixed frame ( 600) with bolts, as well as loosening in terms of binding force, and the glass modules and stone modules coupled vertically and horizontally to the steel curtain wall 1000 depend only on the support portion 300, which is resistant to strong winds. Not only may there be a risk of damage due to damage, but the structure is difficult to support the heavy load of the stone module, and moreover, the fixing member 561 and the insulating member 562 must be inserted and adjusted for their coupling. trouble will arise.

The present invention has been made to solve the above problems, and an object of the present invention is to minimize the combination of a separate structural shape or a bolt to facilitate the combination of a glass module and a stone module coupled to a curtain wall. .

Another object of the present invention is to improve the structure that can enhance the binding force of the stone module and the glass module of the curtain wall coupled to the top and bottom or left and right by combining the stone module applied to the curtain wall with the phenolic foam (PF) board.

Another object of the present invention is to provide a clip so as to improve the binding force of the stone module of the curtain wall coupled to the top and bottom or left and right by combining the stone module applied to the curtain wall with the phenolic foam (PF) board.

Another object of the present invention is to provide a structure capable of supporting the heavy load of the stone module and eliminating the risk of damage due to strong winds of the glass module and the stone module coupled to the curtain wall in the upper, lower, left and right directions.

Another object of the present invention is to provide a coupling method that can be connected by designing the size of stone modules coupled to the curtain wall in the upper, lower, left and right directions to suit the size or location of the stone module.

Another object of the present invention is to provide a structure that can be easily designed for a connection portion of a glass module and a stone module coupled to a curtain wall in an up, down, left, and right direction, and whose appearance can be beautifully designed.

In the present invention, the structure connecting stones to stones is a TYPE A panel (700A), a first curtain wall fixing assembly 100, a backup member 810, a sealing member 820, an asbestos mounting gasket 870, and flame retardant foam ( 890) as a capture type coupling structure of a stone panel for a curtain wall, comprising a rectangular PF board 710 and a polymer mortar 720 finished surrounding the PF board 710, the PF board ( 710), it has a stone corner portion 734 protruding outward and a connection space portion 732 formed inside, and is larger than the size of the PF board 710 wrapped with the polymer mortar 720 and is formed as a thin rectangular tetrahedron. A spacer 860 and a sealing member 820 between a TYPE A panel 700A composed of a stone 730 attached in front of the PF board 710 wrapped with the polymer mortar 720 and a pair of glass windows 742 ) is formed by continuously positioning and combining a glass module 740 and a pair of TYPE A panels ( 700A) are located one by one, and between the TYPE A panel 700A and the T-shaped stone fixing guide part 112 of the first curtain wall fixing assembly 100, a backup member 810 and a sealing member 820 are continuously filled, and between the inner side of the stone corner portion 734 of the asbestos 730 of the TYPE A panel 700A and the gasket fixing member 120 of the first curtain wall fixing assembly 100, an asbestos mounting gasket 870 is located, and the flame retardant foam 890 is filled in the connection space 732 of the TYPE A panel 700A, which is the inner space between the TYPE A panel 700A and the first curtain wall fixing assembly 100) A horizontal structure connecting the TYPE A panels 700A formed parallel to the floor and the TYPE A panels 700A is formed, and the T-shaped additional fixing part 213 of the second curtain wall fixing assembly 200 is located. Position the spacer fixing member 840 on the inside of the frame part 214, and the spacer bar 850 and the glass module ( 740) is located, and the TYPE A panel 700A is located in the insertion portion opposite to where the glass module 740 is located based on the T-shaped frame portion 214 of the second curtain wall fixing assembly 200 , The spacing bar 850 is located inside the glass module 740, and then the glass module 740 is fitted and coupled, and the glass module 740 and the second curtain wall fixing assembly 200 A backup member 810 and a sealing member 820 are continuously filled between the horizontal stone fixing guide member 220, and the frame member 210 of the glass module 740 and the second curtain wall fixing assembly 200 is filled. ) Between the cylindrical gasket 880 and the sealing member 820 are continuously filled, and between the TYPE A panel 700A and the horizontal stone fixing guide member 220 of the second curtain wall fixing assembly 200 The back-up member 810 and the sealing member 820 are continuously filled, and the inner side of the stone corner portion 734 of the asbestos 730 of the TYPE A panel 700A and the frame of the second curtain wall fixing assembly 200 An asbestos mounting gasket 870 and a gasket fixing member 120 are positioned between the members 210, and the inner space between the TYPE A panel 700A and the second curtain wall fixing assembly 200, the TYPE A The flame retardant foam 890 is filled in the connection space 732 of the panel 700A to form a vertical structure connecting the glass module 740 with the TYPE A panel 700A formed vertically on the floor. It is a capture type combination structure of stone panels for curtain walls.

And, in the present invention, the configuration connecting stones to stones is a TYPE A panel (700A), a first curtain wall fixing assembly 100, a backup member 810, a sealing member 820, an asbestos mounting gasket 870, and flame retardant foam As a capture type coupling structure of a stone panel for a curtain wall composed of 890, a rectangular PF board 710 and a polymer mortar 720 finished surrounding the PF board 710, the PF board A stone corner portion 734 protruding outward from 710, a connection space portion 732 formed inside, and one or a plurality of stone connecting clip coupling grooves 734 in the stone corner portion 734 along one side TYPE B composed of a stone 730 attached in front of the PF board 710 wrapped with the polymer mortar 720 and formed in a rectangular shape that is larger and thinner than the size of the PF board 710 wrapped with the polymer mortar 720 It consists of a glass module 740 formed by continuously positioning and combining a spacer 860 and a sealing member 820 between the panel 700B and a pair of glass windows 742, and the aluminum frame member 110 A pair of TYPE A panels 700A are positioned one by one in a pair of insertion parts (names) formed on both sides of the connection part 113 of the TYPE A panel 700A and the first curtain wall fixing assembly 100 A backup member 810 and a sealing member 820 are continuously filled between the T-shaped stone fixing guide part 112, and the inside of the stone corner part 734 of the asbestos 730 of the TYPE A panel 700A and the gasket fixing member 120 of the first curtain wall fixing assembly 100, the asbestos mounting gasket 870 is located, and the inside between the TYPE A panel 700A and the first curtain wall fixing assembly 100) The connection space 732 of the TYPE A panel 700A, which is a space, is filled with flame retardant foam 890 to form a horizontal space connecting the TYPE A panel 700A and the TYPE A panel 700A formed parallel to the floor. The structure is formed, and the stone material 730 of the TYPE B panel 700B is coupled to the second curtain wall fixing assembly 200 without the stone connecting clip coupling groove 735 to form the second curtain wall fixing assembly ( 200) in the insertion part where the additional fixing part 213 is located, the spacing bar 850 and the glass module 740 are sequentially located from the inside, and the T-shaped frame part of the second fixing assembly 200 for the curtain wall ( 214), the TYPE B panel 700B is located in the insertion part of the opposite side where the glass module 740 is located, and the horizontal stone of the glass module 740 and the second curtain wall fixing assembly 200 A backup member 810 and a sealing member 820 are continuously filled between the fixing guide members 220, and the frame member 210 of the glass module 740 and the second fixing assembly 200 for a curtain wall is filled. A cylindrical gasket 880 and a sealing member 820 are continuously filled between them, and a backup member is provided between the TYPE B panel 700B and the horizontal stone fixing guide member 220 of the second curtain wall fixing assembly 200. 810 and the sealing member 820 are continuously filled, and the inner side of the stone corner portion 734 of the asbestos 730 of the TYPE B panel 700B and the aluminum frame member of the second curtain wall fixing assembly 200 An asbestos mounting gasket 870 and a gasket fixing member 120 are positioned between the 210, and the TYPE B panel is an inner space between the TYPE B panel 700B and the second curtain wall fixing assembly 200, the TYPE B panel The flame retardant foam 890 is filled in the connection space 732 of the 700B to form a vertical structure connecting the TYPE B panel 700B and the glass module 740 formed vertically on the floor, and the TYPE B The part of the stone material 730 of the panel 700B having the stone material connecting clip coupling groove 735 is coupled to the third curtain wall fixing assembly 300, and the left stone material connecting clip of the third curtain wall fixing assembly 300 TYPE B panels (700C) are located on both sides of the 610 and the right stone connecting clip 620, respectively, and the stone coupling part 615 of the left stone connecting club 610 of the third curtain wall fixing assembly 300, and The stone coupling groove 616 and the stone coupling clip coupling groove 735 of the TYPE B panel 700B are coupled and connected, and the left stone coupling clip 610 of the third curtain wall fixing assembly 300 and the right stone The spacer 860 and the sealing member 820 are continuously positioned and filled between the connection clips 620, and then the inner space between the TYPE B panel 700B and the third curtain wall fixing assembly 300 , Flame retardant foam 890 is filled inside the left stone connecting clip 610 and the right stone connecting clip 620 of the third curtain wall fixing assembly 300 to form the TYPE B panel 700B and the TYPE B panel ( 700B) is a capture type coupling structure of a stone panel for a curtain wall, characterized in that it forms a vertical structure that divides and connects.

And, in the present invention, the first curtain wall fixing assembly 100 is formed at both ends of the upper side to engage and fix the gasket fixing member 120 and the gasket fixing member coupling portion 115 and the gasket fixing member coupling portion ( 115) is located on the inner side of the gasket fixing member 120 and has a gasket fixing member coupling groove 116 in which the frame coupling portion 125 of the gasket fixing member 120 is positioned and coupled. 111) and a T-shaped stone fixing guide portion 112 formed in a hollow hollow shape in the shape of a T to guide the position of the stone, a connection portion connecting the frame portion 111 and the T-shaped stone fixing guide portion 112 113 is integrally formed, and is formed on both sides of the aluminum frame member 110 having an insertion portion in which the stone 730 of the TYPE C panel 700C is located on both sides of the connection portion 113 and at both ends of the upper portion to form an asbestos seating gasket A gasket coupling portion 121 coupled to and fixed to 870, a gasket coupling groove 123 located inside of the gasket coupling portion 121 and in which the asbestos seating gasket 870 is located, formed on both sides of the lower portion of the aluminum It consists of a pair of gasket fixing members 120 having a frame coupling portion 125 coupled to the gasket fixing member coupling portion 115 of the frame member 110, and the second curtain wall fixing assembly 200 is The gasket fixing member coupling portion 115 formed at both upper ends and coupled and fixed to the gasket fixing member 120 and the frame coupling portion of the gasket fixing member 120 located inside the gasket fixing member coupling portion 115 ( 125) is located on the upper part of the frame part 211, which is a hollow frame made of aluminum having a gasket fixing member coupling groove 116 for positioning and coupling, and a fixing hook at the end of the frame part 211 ( 212), the additional fixing part 213 located on one side of the T-shaped frame portion 214 is formed integrally, and the TYPE on both sides of the T-shaped frame portion 214 An aluminum frame member 210 having an insertion part where the stone 730 and the glass module 740 of the A panel 700A are located, a pair of side walls 221 located at both ends, and a hook located inside the center and fixed at the ends The first inner wall 222 having 225 and the second inner wall 223 located on one side of the interior are integrally formed, and the frame coupling groove 224 formed between the first inner wall 222 and the side wall 221 ) It is a capture type coupling structure of a stone panel for a curtain wall, characterized in that it is composed of a horizontal stone fixing guide member 220 having a.

In the present invention, between the T-shaped stone fixing guide part 112 of the aluminum frame member 110 and the stone 730 of the TYPE A panel 700A and between the horizontal stone fixing guide member 220 A backup member filled between the fixing hook 225 and the glass module 740, between the T-shaped frame 214 of the horizontal stone fixing guide member 220 and the stone 730 of the TYPE A panel 700A ( 810); Between the T-shaped stone fixing guide part 112 of the aluminum frame member 110 and the stone 730 of the TYPE A panel 700A, and between the fixing hook 225 of the horizontal stone fixing guide member 220 and the glass Between the module 740, between the T-shaped frame 214 of the horizontal stone fixing guide member 220 and the stone 730 of the TYPE A panel 700A, the top of the aluminum frame member 210 and the glass module ( 740) a sealing member 820 filled between; A gap fixing member 840 located inside the T-shaped frame portion 214 where the additional fixing part 213 of the second curtain wall fixing assembly 200 is located; a spacing bar 850 located inside the insertion part of the aluminum frame member 210 where the glass module 740 is located; an asbestos seating gasket 870 made of an elastic material positioned between the stone corner portion 734 of the stone material 730 of the TYPE A panel 700A and the gasket fixing member 120; A cylindrical gasket 880 formed of a cylindrical elastic material filled between the upper portion of the aluminum frame member 210 and the glass module 740; Connection space 732 of the stone 730 of the TYPE A panel 700A, which is a space between the polymer mortar 720 of the TYPE A panel 700A and the fixing assembly 100 for the first curtain wall, and the TYPE A Flame retardant foam 890 filled in the connection space 732 of the stone 730 of the TYPE A panel 700A, which is the space between the polymer mortar 720 of the panel 700A and the fixing assembly 100 for the first curtain wall. ); It is a capture type coupling structure of a stone panel for a curtain wall, characterized in that composed of.

The present invention has solved the above problems, and the present invention is a separation structure by forming a T-shaped stone material fixing guide part for exterior use at the top of an aluminum bar to facilitate the combination of a glass module and a stone module coupled to a curtain wall. It has the effect of minimizing the coupling of shapes or bolts.

In the present invention, when the stone module applied to the curtain wall is combined with the phenolic foam (PF) board, wings are formed on the stone module to form flame retardant foam in the space to be combined. There is an effect of enhancing the coherence of the module.

The present invention eliminates the risk of damage such as damage due to strong wind of the glass module and stone module coupled up, down, left and right by forming an exterior T-shaped stone material fixing guide part at the top of the aluminum bar on the curtain wall, and supports the heavy load of the stone module. There are possible effects.

The present invention has the effect of designing and connecting the size of the stone module coupled vertically and horizontally to suit the size and location of the stone module by forming an exterior T-shaped stone material fixing guide portion at the top of the aluminum bar on the curtain wall.

The present invention makes it easy to work on the connection part of the glass module and the stone module that are combined vertically and horizontally by forming a T-shaped stone material fixing guide part for the exterior at the top of the aluminum bar on the curtain wall as a separate type, and the exterior can be designed beautifully. There are possible effects.

1 is a perspective view showing a curtain wall in which a structural reinforcement type window system according to a first embodiment of the prior art is installed.
Figure 2 is a cross-sectional perspective view showing a structural reinforcement type window system according to a first embodiment of the prior art.
Figure 3 is a cross-sectional view showing a vertical member of the structural reinforcement type window system according to the first embodiment of the prior art.
Figure 4 is a perspective view showing an integrated unit type steel curtain wall according to a second embodiment of the prior art.
Figure 5 is a cross-sectional view showing an integrated unit type steel curtain wall according to a second embodiment of the prior art.
6 is a design drawing of a stone back panel type A applied to the present invention
Figure 7 is an enlarged design drawing of the main part of the stone back panel type A applied to the present invention
8 is a design drawing of a stone back panel type B (one-side clip type) applied to the present invention
Figure 7 is an enlarged design drawing of the main part of the stone backpanel type B (one-side clip type) applied to the present invention
9 is a design drawing of a stone back panel type C (four-sided clip type) applied to the present invention
10 is an enlarged design drawing of the main part for the left and right clip parts of the stone backpanel type C (four-side clip type) applied to the present invention
11 is an enlarged design drawing of the main part for the upper and lower clip parts of the stone backpanel type C (four-sided clip type) applied to the present invention.
12 is a design drawing of a stone back panel type D (four-sided clip type) applied to the present invention
13 is an enlarged design drawing of the main part for the left and right clip parts of the stone backpanel type D (four-side clip type) applied to the present invention
14 is an enlarged design drawing of the main part for the upper and lower clip parts of the stone backpanel type D (four-sided clip type) applied to the present invention.
15 is a cross-sectional view of a first curtain wall fixing assembly composed of an aluminum frame member and a gasket fixing member integrally formed with a frame portion and a T-shaped stone fixing guide portion of the present invention
16 is a cross-sectional view of a second curtain wall fixing assembly composed of an aluminum frame member and a horizontal stone fixing guide member of the present invention
17 is a cross-sectional view of a third curtain wall fixing assembly composed of an aluminum transom (crossbar) of the present invention, left and right stone connecting clip connecting members, and left and right stone connecting clips
18 is a cross-sectional view of a fourth curtain wall fixing assembly composed of an aluminum frame member having a partition wall of the present invention, left and right stone connecting clip connecting members, and left and right stone connecting clips.
19 is a cross-sectional view of a fifth curtain wall fixing assembly composed of an aluminum frame member having a partition wall of the present invention, a stone connecting clip connecting member located on one side of the aluminum frame, and a stone connecting clip.
20 is an overall design drawing of the capture type coupling structure of the stone panel for the curtain wall of the present invention
21 is a horizontal cross-sectional view of the capture type coupling structure of the stone panel for the curtain wall of the present invention
Figure 22 is a vertical cross-sectional view of the capture type coupling structure of the stone panel for the curtain wall of the present invention
Figure 23 is a partial enlarged view of Figure 21
24 is a partially enlarged view of FIG. 22
25 is a partially enlarged view of FIG. 22
26 is an overall design diagram of a second embodiment of the capture type coupling structure of the stone panel for curtain wall of the present invention
27 is a horizontal cross-sectional view of the second embodiment of the capture type coupling structure of the stone panel for curtain wall of the present invention
28 is a vertical cross-sectional view of a second embodiment of the capture type coupling structure of the stone panel for curtain wall of the present invention
29 is a partially enlarged view of FIG. 27
30 and 31 are partial enlarged views of FIG. 28

Embodiments of the present invention may be modified in various forms, and the scope of the present invention should not be construed as being limited due to the examples described below. This embodiment is provided to more completely explain the present invention to those skilled in the art. Therefore, the shapes of components in the drawings are exaggerated to emphasize a clearer explanation.

Figure 6 is a design drawing of the stone back panel type A applied to the present invention, Figure 7 is an enlarged design drawing of the main part of the stone back panel type A applied to the present invention, Figure 8 is a stone back panel type B applied to the present invention (One-side clip type) design drawing, Figure 9 is an enlarged design drawing of the main part of stone backpanel type B (one-side clip type) applied to the present invention, Figure 10 is a stone backpanel type C (two-side clip type) applied to the present invention ) design drawing, Figure 11 is an enlarged design drawing of the main part of the clip part of the stone back panel type C (two-side clip type) applied to the present invention, Figure 12 is a stone back panel type D (four-side clip type) applied to the present invention ), Figure 13 is an enlarged design drawing of the left and right clips of the stone back panel type D (four-sided clip type) applied to the present invention, Figure 14 is a stone back panel type D (four-sided clip type) applied to the present invention 15 is a cross-sectional view of a first curtain wall fixing assembly composed of an aluminum frame member and a gasket fixing member integrally formed with a frame portion and a T-shaped stone fixing guide portion of the present invention, 16 is a cross-sectional view of a second curtain wall fixing assembly composed of an aluminum frame member and a horizontal stone fixing guide member of the present invention, and FIG. 17 is an aluminum transom (crossbar) of the present invention, left and right stone connecting clip connecting members, and left and right stones 18 is a cross-sectional view of a fourth curtain wall fixing assembly composed of an aluminum frame member having a partition wall of the present invention, left and right stone connecting clip connecting members, and left and right stone connecting clips, 19 is a cross-sectional view of a fifth curtain wall fixing assembly composed of an aluminum frame member having a partition wall of the present invention, a stone connecting clip connecting member located on one side of the aluminum frame, and a stone connecting clip.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

At this time, the thickness of lines or the size of components shown in the accompanying drawings to explain the preferred embodiment of the present invention may be exaggerated or omitted for clarity and convenience of description, and according to the reference numerals in the drawings The terms given are terms defined in consideration of functions in the present invention, which may vary according to the intention or practice of a user or operator.

6 and 7 are views of a stone backpanel type A applied to the present invention. The TYPE A panel (700A) has a rectangular PF board 710 and a polymer mortar 720 finished surrounding the PF board 710. ), a stone material 730 is attached in front of the PF board 710 wrapped with the polymer mortar 720.

The PF board 710 is a representative insulation board, and is manufactured as a foam board type through a process of foaming and molding a resin having insulation properties, and has excellent flame retardancy, heat resistance, and low smoke resistance due to the characteristics of a phenolic resin as a main material.

In particular, it is molded to have independent foams in the form of fine pores in the form of closed cells inside the foam board, so that toxic gas or smoke generation is significantly less when burned by flame, and the board itself is light in weight, It has the characteristics of maintaining relatively stable insulation performance, durability, shape, etc.

Most of these phenolic foam insulation boards are continuous molding in which various surface finishing materials such as polymer mortar, aluminum foil, glass wool, non-woven fabric, etc. In the present invention, the finish is formed with the polymer mortar 720.

The stone 730 is formed in a rectangular shape that is larger and thinner than the size of the PF board 710 wrapped with the polymer mortar 720, and the stone 730 to which the PF board 710 wrapped with the polymer mortar 720 is attached. The stone edge portion 734 protrudes outward from the PF board 710 and forms a connection space portion 732.

The connection space portion 732 forms a curtain wall by being fitted into a fixing assembly for a curtain wall to be described later.

8 and 9 are views of a stone backpanel type B (one-sided clip type) applied to the present invention, the TYPE B panel (700B) surrounds a rectangular PF board 710 and the PF board 710, and is finished A stone material 730 is formed in front of the polymer mortar 720 and the PF board 710 wrapped with the polymer mortar 720.

Since the PF board 710 and the polymer mortar 720 have been described in detail according to FIGS. 6 and 7, they are omitted.

The stone 730 is formed in a rectangular shape that is larger and thinner than the size of the PF board 710 wrapped with the polymer mortar 720, and the stone 730 to which the PF board 710 wrapped with the polymer mortar 720 is attached. The stone edge portion 734 protrudes outward from the PF board 710 and forms a connection space portion 732, and one or a plurality of stone connection clip coupling grooves ( 734) to be combined with one or a plurality of aluminum stone connecting clips 600 to be described later.

The connection space portion 732 forms a curtain wall by being fitted into a fixing assembly for a curtain wall to be described later.

10 and 11 are views of a stone backpanel type C (two-sided clip type) applied to the present invention, the TYPE C panel (700C) is finished by surrounding the PF board 710 in the form of a tetrahedron and the PF board 710 A stone material 730 is formed in front of the polymer mortar 720 and the PF board 710 wrapped with the polymer mortar 720.

Since the PF board 710 and the polymer mortar 720 have been described in detail according to FIGS. 6 and 7, they are omitted.

The stone 730 is formed in a rectangular shape that is larger and thinner than the size of the PF board 710 wrapped with the polymer mortar 720, and the stone 730 to which the PF board 710 wrapped with the polymer mortar 720 is attached. The stone edge portion 734 protrudes outward from the PF board 710 to form a connection space portion 732, and one or a plurality of stone connection clip coupling grooves ( 734) to be combined with one or a plurality of aluminum stone connecting clips 600 to be described later.

The connection space portion 732 forms a curtain wall by being fitted into a fixing assembly for a curtain wall to be described later.

12 to 14 are views of a stone backpanel type D (four-side clip type) applied to the present invention, the TYPE D panel (700D) surrounds a rectangular PF board 710 and the PF board 710. It is formed by attaching a stone material 730 in front of the polymer mortar 720 and the PF board 710 wrapped with the polymer mortar 720.

Since the PF board 710 and the polymer mortar 720 have been described in detail according to FIGS. 6 and 7, they are omitted.

The stone 730 is formed in a rectangular shape that is larger and thinner than the size of the PF board 710 wrapped with the polymer mortar 720, and the stone 730 to which the PF board 710 wrapped with the polymer mortar 720 is attached. The stone corner portion 734 protrudes outward from the PF board 710 and forms a connection space 732, and is combined with one or a plurality of aluminum stone connection clips 600 on all four sides.

The connection space portion 732 forms a curtain wall by being fitted into a fixing assembly for a curtain wall to be described later.

15 is a cross-sectional view of the first curtain wall fixing assembly 100, the first curtain wall fixing assembly 100 is composed of an aluminum frame member 110 and a pair of gasket fixing members 120.

The aluminum frame member 110 is formed in a hollow hollow shape in the form of a T with the frame portion 111, which is a hollow frame made of aluminum material with light weight and good workability that can be processed into a complex cross section. The T-shaped stone fixing guide portion 112 for guiding the position of the stone material and the connection portion 113 connecting the frame portion 111 and the T-shaped stone fixing guide portion 112 are integrally formed.

The T-shaped stone fixing guide part 112 of the aluminum frame member 110 has the effect of minimizing the coupling of the separate structural shape or bolts, and the risk of damage such as glass modules and stone modules coupled vertically and horizontally due to strong winds It has the effect of removing the stone module, supporting the heavy load of the stone module, and designing and connecting the size of the stone module that is combined up, down, left and right to suit the size and location of the stone module.

At both ends of the upper side of the frame part 111, the gasket fixing member coupling part 115, which is a part that is coupled and fixed to the gasket fixing member 120, and the frame coupling part 125 of the gasket fixing member 120 to be described later are located. and a gasket fixing member coupling groove 116 for coupling.

The gasket fixing member 120 includes a gasket coupling portion 121 formed on both sides of the upper portion to be coupled and fixed to a gasket described later, a gasket coupling groove portion 123 in which a gasket described later is located, and a frame coupling portion 125 formed on both sides of the lower portion. to provide

A fixing hook ( It may be formed by having an unnamed name).

The coupling of the fixing assembly 100 for the first curtain wall is as follows.

In the first curtain wall fixing assembly 100, each of the frame coupling parts 125 of the pair of gasket fixing members 120 is connected to the pair of gasket fixing member coupling grooves 116 of the aluminum frame member 110. formed by combining

16 is a cross-sectional view of the second curtain wall fixing assembly 200, the second curtain wall fixing assembly 200 is composed of a combination of an aluminum frame member 210 and a horizontal stone fixing guide member 220.

The aluminum frame member 210 is located on the upper part of the frame part 211, which is a hollow frame made of aluminum material with light weight and good workability that can be processed into a complex cross-section, and the frame part 211, and the end A T-shaped frame portion 214 having a fixing hook 212 and an additional fixing portion 213 located on one side of the T-shaped frame portion 214 are integrally formed.

Both upper ends of the frame portion 211 have a gasket fixing member coupling portion 215, which is a portion that is coupled to and fixed to the gasket fixing member, and a gasket fixing member coupling groove portion 216 where the gasket fixing member is positioned and coupled.

The gasket fixing member coupling part 215 of the aluminum frame member 210 may be formed by having a fixing hook (named name) at an end for stronger fixing and coupling.

The horizontal stone fixing guide member 220 includes a pair of side walls 221 located at both ends, a first inner wall 222 located inside the center and having fixing hooks 225 at the ends, and a second inner wall 222 located at one side of the inside. The inner wall 223 is integrally formed, and has a frame coupling groove 224 formed between the first inner wall 222 and the side wall 221 .

By forming the horizontal stone fixing guide member 220 at the upper end of the aluminum frame member 210 as a separate type, it is easy to work on the connection part of the glass module and the stone module that are coupled up, down, left and right, and the appearance is beautifully designed. There are effects that can be done.

The coupling of the second fixing assembly 200 for the curtain wall is as follows.

In the second curtain wall fixing assembly 200, the upper end of the T-shaped frame portion 214 of the aluminum frame member 210 is fixed to the frame coupling groove portion 224 of the horizontal stone fixing guide member 220 and the fixing hook 225 It is formed by interlocking coupling of the fixing hook 212.

17 is a cross-sectional view of the third curtain wall fixing assembly 300, which is composed of an aluminum frame member 310, left and right stone connecting clip connecting members 320, reinforcing parts 330, and aluminum stone connecting clips 600.

The aluminum frame member 310 is an aluminum transom 313 formed in a U-shape with an open central portion made of aluminum material having light weight and good workability that can be processed into a complex cross section, and the inside of the aluminum transom 313 It consists of an internal coupling member 315 located on the inside and having a coupling portion 316 on the inside.

The left and right stone connecting clip connection members 320 have a U-shape with an open central portion, and side walls 321 representing both sides of the open portion and stone connecting clip coupling parts 323 located at both ends of the side walls 321 consists of

The reinforcing part 330 is located between one end of the outer surface of the aluminum transom 313 and the left and right masonry connecting clip connecting members 320.

The aluminum stone connecting clip 600 is hollow inside made of aluminum, and is composed of a left stone connecting clip 610 and a right stone connecting clip 620.

The left stone connecting clip 610 is hollow inside made of aluminum, and has a hollow part 613 formed therein, a connecting member coupling portion 611 formed at one end, and the connecting member coupling portion 611. A connecting member coupling groove 612 formed inside and in which the stone coupling clip coupling portion 323 of the left and right stone coupling clip coupling members 320 is fitted and coupled, a stone coupling portion 615 formed outside the end, the stone It is formed inside the coupling part 615 and consists of a stone coupling groove 616 in which the stone is located.

The right stone connecting clip 620 is made of an aluminum material and is hollow inside, and includes a hollow part 623 formed therein, a connecting member coupling part 621 formed at one end, and the connecting member coupling part 621. A connecting member coupling groove 622 formed inside and in which the stone coupling clip coupling portion 323 of the left and right stone coupling clip coupling members 320 is fitted and coupled, a stone coupling portion 625 formed outside the end, the stone It is formed inside the coupling portion 625 and consists of a stone coupling groove 626 in which the stone is located.

By forming the left stone connecting clip 610 and the right stone connecting clip 620 as separate types at the top of the aluminum frame member 310, it is easy to work on the connection between the glass module and the stone module that are combined vertically and horizontally. , it has the effect of beautifully designing its appearance.

The combination of the third fixing assembly 300 for the curtain wall is as follows.

First, the internal coupling member 315 is located inside the aluminum transom 313, and the internal coupling member 315 and the central surface of the aluminum transom 313 are bolted to form the aluminum frame member 310.

The reinforcement part 330 is located outside the aluminum transom 313 of the aluminum frame member 310 and the left and right stone connecting clip connection members 320 are located outside the reinforcement part 330, so that the aluminum frame The member 310, the reinforcing part 330, and the left and right stone connecting clip connecting members 320 are connected by bolting, and the stone connecting clip coupling parts 323 at both ends of the left and right stone connecting clip connecting members 320 are connected by bolting. The connecting member coupling portion 611 of the left stone connecting clip 610 and the connecting member coupling portion 621 of the right stone connecting clip 620 form the third fixing assembly 300 for the curtain wall.

18 is a cross-sectional view of a fourth curtain wall fixing assembly 400, an aluminum frame member 410, an aluminum stone connecting clip 600, a pair of left and right stone connecting clips connecting members 420, a pair of reinforcing parts ( 430).

The aluminum frame member 410 has a frame portion 411, which is a hollow frame made of aluminum material with light weight and good workability that can be processed into a complex cross section, and a partition wall 413 formed in the center of the upper side. formed in one piece.

The left and right stone connecting clip connecting members 420 are composed of a side wall 421 formed on one side and a stone connecting clip coupling part 423 formed at an end of the side wall 421.

The reinforcing part 430 is located between the upper part of the frame part 411 of the aluminum frame member 410 and the lower part of the left and right masonry connecting clip connecting members 420.

The aluminum stone connecting clip 600 is hollow inside made of aluminum, and is composed of a left stone connecting clip 610 and a right stone connecting clip 620.

The left stone connecting clip 610 is hollow inside made of aluminum, and includes a hollow part 613 formed therein, a connecting member coupling part 611 formed at one end, and the connecting member coupling part 611. A connecting member coupling groove 612 formed inside and in which the stone coupling clip coupling portion 423 of the left and right stone coupling clip coupling members 420 is fitted and coupled, a stone coupling portion 615 formed outside the end, the stone It is formed inside the coupling part 615 and consists of a stone coupling groove 616 in which the stone is located.

The right stone connecting clip 620 is made of an aluminum material and is hollow inside, and includes a hollow part 623 formed therein, a connecting member coupling part 621 formed at one end, and the connecting member coupling part 621. A connecting member coupling groove 622 formed inside and in which the stone coupling clip coupling portion 423 of the left and right stone coupling clip coupling members 420 is fitted and coupled, a stone coupling portion 625 formed outside the end, the stone It is formed inside the coupling portion 625 and consists of a stone coupling groove 626 in which the stone is located.

The combination of the fourth curtain wall fixing assembly 400 is as follows.

The fourth curtain wall fixing assembly 400 has a pair of reinforcing parts 430 located on both sides of the partition wall 413 of the aluminum frame member 410, respectively, to the outside of the pair of reinforcing parts 430. A pair of left and right stone connecting clip connecting members 420 are located, respectively, and the aluminum frame member 410, the reinforcement part 430, and the left and right stone connecting clip connecting members 420 are bolted together, and the pair of left and right connecting clips are bolted together. Each of the stone connecting clip coupling parts 423 of the stone connecting clip connecting member 420 is the connecting member coupling portion 611 of the left stone connecting clip 610 and the connecting member coupling portion 621 of the right stone connecting clip 620 formed by combining

19 is a cross-sectional view of the fifth curtain wall fixing assembly 500, which is composed of an aluminum frame member 510, a stone connecting clip connecting member 520, a reinforcing part 530, and a left stone connecting clip 610.

The aluminum frame member 510 has a frame portion 511, which is a hollow frame made of aluminum material having light weight and good workability that can be processed into a complex cross section, and a partition wall 513 formed in the center of the upper side. formed in one piece.

The stone connecting clip connecting member 520 is composed of a side wall 521 formed on one side and a stone connecting clip coupling part 523 formed at an end of the side wall 521.

The reinforcing part 530 is located between the upper part of the frame part 511 of the aluminum frame member 510 and the lower part of the left and right masonry connecting clip connecting members 520.

The left stone connecting clip 610 is hollow inside made of aluminum, and includes a hollow part 613 formed therein, a connecting member coupling part 611 formed at one end, and the connecting member coupling part 611. A connecting member coupling groove 612 formed inside and in which the stone coupling clip coupling portion 523 of the left and right stone coupling clip coupling members 520 is fitted and coupled, a stone coupling portion 615 formed outside the end, the stone It is formed inside the coupling part 615 and consists of a stone coupling groove 616 in which the stone is located.

Although the stone connecting clip of the fifth curtain wall fixing assembly 500 is composed of the left stone connecting clip 610 according to the position of the glass module and the panel according to the embodiment of the present invention, when the position of the glass module and the panel is changed , The left stone connecting clip 610 is changed to the right stone connecting clip 620, and the right stone connecting clip 620 is located on the right side of the partition wall 513 to secure the fifth curtain wall fixing assembly 500. can be formed

The combination of the fifth fixing assembly 500 for the curtain wall is as follows.

In the fifth curtain wall fixing assembly 500, a reinforcing part 530 is located on one side of the upper part of the partition wall 513 of the aluminum frame member 510, and a stone connecting clip connection member is attached to the outside of the reinforcing part 530. 520 is located, the aluminum frame member 510, the reinforcing part 530, and the stone connecting clip connecting member 520 are bolted together, and the stone connecting clip coupling part of the stone connecting clip connecting member 520 ( 523) is formed by coupling to the connecting member coupling groove 612 of the left stone connecting clip 610.

Next, the capture type coupling structure of the stone panel for a curtain wall of the present invention will be described.

As shown in FIGS. 20 to 25, schematically looking at the components of the capture type coupling structure of the stone panel for curtain walls according to the present invention, it can be divided into horizontal components and vertical components.

Figure 20 is an overall design drawing of the capture type coupling structure of the stone panel for curtain wall of the present invention, Figure 21 is a horizontal cross-sectional view of the capture type coupling structure of the stone panel for curtain wall of the present invention, Figure 22 is the capture type combination of stone panel for curtain wall of the present invention Vertical cross-sectional view of the structure, Figure 23 is a partial enlarged view of Figure 21, Figure 24 is a partial enlarged view of Figure 22, Figure 25 is a partial enlarged view of Figure 22, Figure 26 is a capture type coupling structure of the stone panel for curtain wall of the present invention Overall design drawing of the second embodiment, Figure 27 is a horizontal cross-sectional view of the second embodiment of the capture type coupling structure of the stone panel for curtain wall of the present invention, Figure 28 is the vertical cross-section of the second embodiment of the capture type coupling structure of the stone panel for curtain wall of the present invention 29 is a partially enlarged view of FIG. 27 , and FIGS. 30 and 31 are partially enlarged views of FIG. 28 .

A detailed description of the above components is as follows.

As shown in Figures 21 and 23, the horizontal configuration installed parallel to the floor of the capture type coupling structure of the stone panel for curtain wall of the present invention is a configuration connecting stones to stones, and the TYPE A panel (700A) and the first It consists of a fixed assembly 100 for a curtain wall, a backup member 810, a sealing member 820, an asbestos seating gasket 870, and a flame retardant foam 890.

The TYPE A panel 700A includes a rectangular PF board 710, a polymer mortar 720 wrapped around the PF board 710, and a stone in front of the PF board 710 wrapped with the polymer mortar 720 ( 730) is attached to form.

The PF board 710 is a representative insulation board, and is manufactured as a foam board type through a process of foaming and molding a resin having insulation properties, and has excellent flame retardancy, heat resistance, and low smoke resistance due to the characteristics of a phenolic resin as a main material.

In particular, it is molded to have independent foams in the form of fine pores in the form of closed cells inside the foam board, so that toxic gas or smoke generation is significantly less when burned by flame, and the board itself is light in weight, It has the characteristics of maintaining relatively stable insulation performance, durability, shape, etc.

Most of these phenolic foam insulation boards are continuous molding in which various surface finishing materials such as polymer mortar, aluminum foil, glass wool, non-woven fabric, etc. In the present invention, the finish is formed with the polymer mortar 720.

The stone 730 is formed in a rectangular shape that is larger and thinner than the size of the PF board 710 wrapped with the polymer mortar 720, and the stone 730 to which the PF board 710 wrapped with the polymer mortar 720 is attached. The stone edge portion 734 protrudes outward from the PF board 710 and forms a connection space portion 732.

The connection space 732 forms a curtain wall by being fitted into a first fixing assembly 100 for a curtain wall, which will be described later.

The first curtain wall fixing assembly 100 is composed of an aluminum frame member 110 and a pair of gasket fixing members 120.

The aluminum frame member 110 is formed in a hollow hollow shape in the form of a T with the frame portion 111, which is a hollow frame made of aluminum material with light weight and good workability that can be processed into a complex cross section. The T-shaped stone fixing guide part 112 for guiding the position of the stone and the connection part 113 connecting the frame part 111 and the T-shaped stone fixing guide part 112 are integrally formed, and the connection part 113 On both sides of the TYPE A panel (700A), the stone 730 is provided with an insertion portion (named name).

The T-shaped stone fixing guide part 112 of the aluminum frame member 110 has the effect of minimizing the coupling of the separate structural shape or bolts, and the risk of damage such as glass modules and stone modules coupled vertically and horizontally due to strong winds It has the effect of removing the stone module, supporting the heavy load of the stone module, and designing and connecting the size of the stone module that is combined up, down, left and right to suit the size and location of the stone module.

At both ends of the upper side of the frame part 111, the gasket fixing member coupling part 115, which is a part that is coupled and fixed to the gasket fixing member 120, and the frame coupling part 125 of the gasket fixing member 120 to be described later are located. and a gasket fixing member coupling groove 116 for coupling.

The gasket fixing member 120 includes a gasket coupling portion 121 formed on both sides of the upper portion that engages and fixes an asbestos seating gasket 870 described later, and a gasket coupling groove portion 123 in which an asbestos seating gasket 870 described later is positioned, Frame coupling parts 125 formed on both sides of the lower portion coupled to the gasket fixing member coupling portion 115 of the aluminum frame member 110 are provided.

A fixing hook ( It may be formed by having an unnamed name).

In the first curtain wall fixing assembly 100, each of the frame coupling parts 125 of the pair of gasket fixing members 120 is connected to the pair of gasket fixing member coupling grooves 116 of the aluminum frame member 110. formed by combining

The backup member 810 and the sealing member 820 are continuously filled between the T-shaped stone fixing guide 112 of the aluminum frame member 110 and the stone 730 of the TYPE A panel 700A. Insulation and airtightness function.

The sealing member 820 is formed of weather silicone sealant in the embodiment of the present invention, and may be formed of various other types of materials, and various changes and modifications are possible within a range that does not deviate from the technical spirit of the present invention. .

The asbestos mounting gasket 870 is made of an elastic material and is located between the stone edge 734 of the stone 730 of the TYPE A panel 700A and the gasket fixing member 120, and allows fluids such as air and rainwater to move. It prevents durability from being weakened due to corrosion by blocking corrosion, and has high insulation effect along with glass protection, support function, airtightness, watertightness, and sound insulation function.

The flame retardant foam 890 is a space between the polymer mortar 720 of the TYPE A panel 700A and the first curtain wall fixing assembly 100, that is, the connection space of the stone 730 of the TYPE A panel 700A It is filled in the part 732 to prevent loss of indoor and outdoor heat energy of the building, and to improve watertightness, airtightness, and insulation of windows. The sealing effect can be further increased by closing with airtight tape after filling.

Among the capture type combination structures of the stone panels for curtain walls of the present invention, the combination of the configurations installed horizontally and parallel to the floor is as follows.

A pair of TYPE A panels 700A are located in a pair of insertion parts (names) formed on both sides of the connection part 113 of the aluminum frame member 110, and the TYPE A panels 700A and the first curtain A backup member 810 and a sealing member 820 are continuously filled between the T-shaped stone fixing guide part 112 of the wall fixing assembly 100, and the stone of the asbestos 730 of the TYPE A panel 700A An asbestos mounting gasket 870 is positioned between the inner side of the corner portion 734 and the gasket fixing member 120 of the first curtain wall fixing assembly 100, and the TYPE A panel 700A and the first curtain wall fixing assembly (100)), the flame retardant foam 890 is filled in the connection space 732 of the TYPE A panel 700A, which is the inner space, to function as heat insulation and airtightness.

As shown in Figures 22, 24 and 25, the vertical configuration formed perpendicular to the floor of the capture type coupling structure of the stone panel for curtain wall of the present invention is a configuration connecting stone and glass, TYPE A panel (700A) and glass Module 740, second curtain wall fixing assembly 200, backup member 810, sealing member 820, adhesive member 830, spacing fixing member 840, spacing bar 850, spacer 860 ), an asbestos mounting gasket 870, a cylindrical gasket 880, and a flame retardant foam 890.

The TYPE A panel 700A includes a rectangular PF board 710, a polymer mortar 720 wrapped around the PF board 710, and a stone in front of the PF board 710 wrapped with the polymer mortar 720 ( 730) is attached and formed.

The PF board 710 is a representative insulation board, and is manufactured as a foam board type through a process of foaming and molding a resin having insulation properties, and has excellent flame retardancy, heat resistance, and low smoke resistance due to the characteristics of a phenolic resin as a main material.

In particular, it is molded to have independent foams in the form of fine pores in the form of closed cells inside the foam board, so that toxic gas or smoke generation is significantly less when burned by flame, and the board itself is light in weight, It has the characteristics of maintaining relatively stable insulation performance, durability, shape, etc.

Most of these phenolic foam insulation boards are continuous molding in which various surface finishing materials such as polymer mortar, aluminum foil, glass wool, non-woven fabric, etc. In the present invention, the finish is formed with the polymer mortar 720.

The stone 730 is formed in a rectangular shape that is larger and thinner than the size of the PF board 710 wrapped with the polymer mortar 720, and the stone 730 to which the PF board 710 wrapped with the polymer mortar 720 is attached. The stone edge portion 734 protrudes outward from the PF board 710 and forms a connection space portion 732.

The connection space 732 forms a curtain wall by being fitted into a first fixing assembly 100 for a curtain wall, which will be described later.

The glass module 740 separates a pair of glass windows 742 at a predetermined interval by a spacer 860, and through a sealing member 820 formed outside the spacer 860, the pair of glass windows ( 742) is maintained at a distance so that an air layer is formed between the pair of glass windows 742, thereby improving heat insulation.

The sealing member 820 is formed of weather silicone sealant in the embodiment of the present invention, and may be formed of various other types of materials, and various changes and modifications are possible within a range that does not deviate from the technical spirit of the present invention. .

The second fixing assembly 200 for the curtain wall is composed of a combination of an aluminum frame member 210 and a horizontal stone fixing guide member 220.

The aluminum frame member 210 is located on the upper part of the frame part 211, which is a hollow frame made of aluminum material with light weight and good workability that can be processed into a complex cross-section, and the frame part 211, and the end A T-shaped frame portion 214 having a fixing hook 212 and an additional fixing portion 213 located on one side of the T-shaped frame portion 214 are integrally formed, and the T-shaped frame portion 214 On both sides of the TYPE A panel (700A), the stone 730 and the glass module 740 are provided with an insertion part (named name).

Both upper ends of the frame portion 211 have a gasket fixing member coupling portion 215, which is a portion that is coupled to and fixed to the gasket fixing member, and a gasket fixing member coupling groove portion 216 where the gasket fixing member is positioned and coupled.

The horizontal stone fixing guide member 220 includes a pair of side walls 221 located at both ends, a first inner wall 222 located inside the center and having fixing hooks 225 at the ends, and a second inner wall 222 located at one side of the inside. The inner wall 223 is integrally formed, and has a frame coupling groove 224 formed between the first inner wall 222 and the side wall 221 .

In the second curtain wall fixing assembly 200, the upper end of the T-shaped frame portion 214 of the aluminum frame member 210 is fixed to the frame coupling groove portion 224 of the horizontal stone fixing guide member 220 and the fixing hook 225 It is formed by interlocking coupling of the fixing hook 212.

The gasket fixing member coupling part 215 of the aluminum frame member 210 may be formed by having a fixing hook (named name) at an end for stronger fixing and coupling.

The backup member 810 and the sealing member 820 are between the fixing hook 225 and the glass module 740 of the horizontal stone fixing guide member 220 and the T-shaped frame portion of the horizontal stone fixing guide member 220. 214 and the stone 730 of the TYPE A panel 700A are continuously filled to function as insulation and airtightness.

The sealing member 820 is formed of weather silicone sealant in the embodiment of the present invention, and may be formed of various other types of materials, and various changes and modifications are possible within a range that does not deviate from the technical spirit of the present invention. .

The asbestos mounting gasket 870 is made of an elastic material and is located between the stone edge 734 of the stone 730 of the TYPE A panel 700A and the gasket fixing member 120, and allows fluids such as air and rainwater to move. It prevents durability from being weakened due to corrosion by blocking corrosion, and has high insulation effect along with glass protection, support function, airtightness, watertightness, and sound insulation function.

The flame retardant foam 890 is a space between the polymer mortar 720 of the TYPE A panel 700A and the first curtain wall fixing assembly 100, that is, the connection space of the stone 730 of the TYPE A panel 700A It is filled in the part 732 to prevent loss of indoor and outdoor heat energy of the building, improve watertightness, airtightness and insulation of windows, and improve the bonding strength between stone modules and stone modules and between glass modules and stone modules.

As shown in FIGS. 22, 24, and 25, the combination of the vertical configuration of the capture type coupling structure formed vertically with the floor of the present invention, connecting the stone and glass, is as follows.

The spacing fixing member 840 is positioned inside the T-shaped frame portion 214 where the additional fixing part 213 of the second curtain wall fixing assembly 200 is located.

Then, the spacing bar 850 and the glass module 740 are positioned in the insertion part (name name) where the additional fixing part 213 of the second curtain wall fixing assembly 200 is located, and the second curtain wall A TYPE A panel 700A is positioned at an insertion portion (named name) on the opposite side of the T-shaped frame portion 214 of the fixing assembly 200 where the glass module 740 is located.

At this time, the space maintaining bar 850 is located inside the glass module 740, and then the glass module 740 is fitted and coupled to the position.

Between the glass module 740 and the horizontal stone fixing guide member 220 of the second curtain wall fixing assembly 200, a backup member 810 and a sealing member 820 are continuously filled, and the glass module ( 740) and the frame member 210 of the second curtain wall fixing assembly 200, a cylindrical gasket 880 and a sealing member 820 are continuously filled to perform insulation and airtightness.

A backup member 810 and a sealing member 820 are continuously filled between the TYPE A panel 700A and the horizontal stone fixing guide member 220 of the second curtain wall fixing assembly 200, and the TYPE A panel Between the inner side of the stone corner portion 734 of the asbestos 730 of (700A) and the frame member 210 of the second curtain wall fixing assembly 200, an asbestos mounting gasket 870 and a gasket fixing member 120 are The flame retardant foam 890 is filled in the connection space 732 of the TYPE A panel 700A, which is the inner space between the TYPE A panel 700A and the second curtain wall fixing assembly 200, to provide insulation. and confidentiality function.

The fixing assembly 100 for the first curtain wall and the fixing assembly 200 for the second curtain wall are coupled with bolts 900.

26 to 31, schematically looking at the components of the second embodiment of the capture type coupling structure of the stone panel for curtain wall according to the present invention, it can be divided into horizontal components and vertical components.

A detailed description of the above components is as follows.

As shown in Figures 27 and 29, the horizontal configuration installed parallel to the floor is a configuration connecting stones to stones, TYPE B panel (700B), the first curtain wall fixing assembly 100, backup member (810) ), a sealing member 820, an asbestos seating gasket 870, and a flame retardant foam 890.

The TYPE B panel 700B includes a rectangular PF board 710, a polymer mortar 720 wrapped around the PF board 710, and a stone in front of the PF board 710 wrapped with the polymer mortar 720 ( 730) is attached to form.

The PF board 710 is a representative insulation board, and is manufactured as a foam board type through a process of foaming and molding a resin having insulation properties, and has excellent flame retardancy, heat resistance, and low smoke resistance due to the characteristics of a phenolic resin as a main material.

In particular, it is molded to have independent foams in the form of fine pores in the form of closed cells inside the foam board, so that toxic gas or smoke generation is significantly less when burned by flame, and the board itself is light in weight, It has the characteristics of maintaining relatively stable insulation performance, durability, shape, etc.

Most of these phenolic foam insulation boards are continuous molding in which various surface finishing materials such as polymer mortar, aluminum foil, glass wool, non-woven fabric, etc. In the present invention, the finish is formed with the polymer mortar 720.

The stone 730 is formed in a rectangular shape that is larger and thinner than the size of the PF board 710 wrapped with the polymer mortar 720, and the stone 730 to which the PF board 710 wrapped with the polymer mortar 720 is attached. The stone corner portion 734 protrudes outward from the PF board 710 to form a connection space portion 732, and one stone connecting clip coupling groove 734 is formed in the stone corner portion 734 along one side. Alternatively, it is provided with a plurality and combined with one or a plurality of aluminum stone connecting clips 600 to be described later.

The connection space 732 forms a curtain wall by being fitted into a first fixing assembly 100 for a curtain wall, which will be described later.

The first curtain wall fixing assembly 100 is composed of an aluminum frame member 110 and a pair of gasket fixing members 120.

The aluminum frame member 110 is formed in a hollow hollow shape in the form of a T with the frame portion 111, which is a hollow frame made of aluminum material with light weight and good workability that can be processed into a complex cross section. The T-shaped stone fixing guide part 112 for guiding the position of the stone and the connection part 113 connecting the frame part 111 and the T-shaped stone fixing guide part 112 are integrally formed, and the connection part 113 On both sides of the TYPE B panel (700B), the stone 730 is provided with an insertion part (named name).

The T-shaped stone fixing guide part 112 of the aluminum frame member 110 has the effect of minimizing the coupling of the separate structural shape or bolts, and the risk of damage such as glass modules and stone modules coupled vertically and horizontally due to strong winds It has the effect of removing the stone module, supporting the heavy load of the stone module, and designing and connecting the size of the stone module that is combined up, down, left and right to suit the size and location of the stone module.

At both ends of the upper side of the frame part 111, the gasket fixing member coupling part 115, which is a part that is coupled and fixed to the gasket fixing member 120, and the frame coupling part 125 of the gasket fixing member 120 to be described later are located. and a gasket fixing member coupling groove 116 for coupling.

The gasket fixing member 120 includes a gasket coupling portion 121 formed on both sides of the upper portion that engages and fixes an asbestos seating gasket 870 described later, and a gasket coupling groove portion 123 in which an asbestos seating gasket 870 described later is positioned, Frame coupling parts 125 formed on both sides of the lower portion coupled to the gasket fixing member coupling portion 115 of the aluminum frame member 110 are provided.

A fixing hook ( It may be formed by having an unnamed name).

In the first curtain wall fixing assembly 100, each of the frame coupling parts 125 of the pair of gasket fixing members 120 is connected to the pair of gasket fixing member coupling grooves 116 of the aluminum frame member 110. formed by combining

The backup member 810 and the sealing member 820 are continuously filled between the T-shaped stone fixing guide 112 of the aluminum frame member 110 and the stone 730 of the TYPE B panel 700B. Insulation and airtightness function.

The sealing member 820 is formed of weather silicone sealant in the embodiment of the present invention, and may be formed of various other types of materials, and various changes and modifications are possible within a range that does not deviate from the technical spirit of the present invention. .

The asbestos mounting gasket 870 is made of an elastic material and is located between the stone edge 734 of the stone 730 of the TYPE B panel 700B and the gasket fixing member 120, and allows fluids such as air and rainwater to move. It prevents durability from being weakened due to corrosion by blocking corrosion, and has high insulation effect along with glass protection, support function, airtightness, watertightness, and sound insulation function.

The flame retardant foam 890 is a space between the polymer mortar 720 of the TYPE B panel 700B and the first curtain wall fixing assembly 100, that is, a space connecting the stone 730 of the TYPE B panel 700B. It is filled in the part 732 to prevent loss of indoor and outdoor heat energy of the building, and to improve watertightness, airtightness, and insulation of windows.

Among the capture type combination structures of the stone panels for curtain walls of the present invention, the combination of the configurations installed horizontally and parallel to the floor is as follows.

A pair of TYPE B panels 700B are located in a pair of insertion parts (names) formed on both sides of the connection part 113 of the aluminum frame member 110, and the TYPE B panels 700B and the first curtain A backup member 810 and a sealing member 820 are continuously filled between the T-shaped stone fixing guide part 112 of the wall fixing assembly 100, and the stone of the asbestos 730 of the TYPE B panel 700B An asbestos mounting gasket 870 is positioned between the inner side of the corner portion 734 and the gasket fixing member 120 of the first curtain wall fixing assembly 100, and the TYPE B panel 700B and the first curtain wall fixing assembly The flame retardant foam 890 is filled in the connection space 732 of the TYPE B panel 700B, which is the inner space between the 100, to function as insulation and airtightness.

In such a coupling configuration in which stones are connected and installed horizontally, the stone 730 of the TYPE B panel 700B is coupled to the first curtain wall fixing assembly 100 without the stone connecting clip coupling groove 735 .

As shown in FIGS. 28 and 30, the vertical configuration formed perpendicular to the floor among the capture type coupling structures of the stone panel for the curtain wall of the present invention is a TYPE B panel (700B), a glass module (740), and a first fixed assembly for the curtain wall (200), backup member 810, sealing member 820, gap fixing member 840, gap maintaining bar 850, spacer 860, asbestos mounting gasket 870, cylindrical gasket 880, flame retardant foam As shown in FIGS. 28 and 31, a configuration for connecting stone and glass made of 890, a TYPE B panel 700B, a third fixing assembly 300 for a curtain wall, a sealing member 820, and a spacer 860 ), it is divided into a structure that divides and connects the stone and the stone made of flame retardant foam 890.

Of the second embodiment of the capture type coupling structure of the stone panel for curtain wall of the present invention shown in FIGS. 28 and 30, the construction of stone and glass among the vertical constructions formed perpendicularly to the floor is as follows.

The TYPE B panel 700B includes a rectangular PF board 710, a polymer mortar 720 wrapped around the PF board 710, and a stone in front of the PF board 710 wrapped with the polymer mortar 720 ( 730) is attached to form.

The PF board 710 is a representative insulation board, and is manufactured as a foam board type through a process of foaming and molding a resin having insulation properties, and has excellent flame retardancy, heat resistance, and low smoke resistance due to the characteristics of a phenolic resin as a main material.

In particular, it is molded to have independent foams in the form of fine pores in the form of closed cells inside the foam board, so that toxic gas or smoke generation is significantly less when burned by flame, and the board itself is light in weight, It has the characteristics of maintaining relatively stable insulation performance, durability, shape, etc.

Most of these phenolic foam insulation boards are continuous molding in which various surface finishing materials such as polymer mortar, aluminum foil, glass wool, non-woven fabric, etc. In the present invention, the finish is formed with the polymer mortar 720.

The stone 730 is formed in a rectangular shape that is larger and thinner than the size of the PF board 710 wrapped with the polymer mortar 720, and the stone 730 to which the PF board 710 wrapped with the polymer mortar 720 is attached. The stone corner portion 734 protrudes outward from the PF board 710 to form a connection space portion 732, and one stone connecting clip coupling groove 734 is formed in the stone corner portion 734 along one side. Alternatively, it is provided with a plurality and combined with one or a plurality of aluminum stone connecting clips 600 to be described later.

The connection space 732 forms a curtain wall by being fitted into a first fixing assembly 100 for a curtain wall, which will be described later.

The glass module 740 separates a pair of glass windows 742 at a predetermined interval by a spacer 860, and through a sealing member 820 formed outside the spacer 860, the pair of glass windows ( 742) is maintained at a distance so that an air layer is formed between the pair of glass windows 742, thereby improving heat insulation.

The sealing member 820 is formed of weather silicone sealant in the embodiment of the present invention, and may be formed of various other types of materials, and various changes and modifications are possible within a range that does not deviate from the technical spirit of the present invention. .

The second fixing assembly 200 for the curtain wall is composed of a combination of an aluminum frame member 210 and a horizontal stone fixing guide member 220.

The aluminum frame member 210 is located on the upper part of the frame part 211, which is a hollow frame made of aluminum material with light weight and good workability that can be processed into a complex cross-section, and the frame part 211, and the end A T-shaped frame portion 214 having a fixing hook 212 and an additional fixing portion 213 located on one side of the T-shaped frame portion 214 are integrally formed, and the T-shaped frame portion 214 On both sides of the TYPE B panel 700B, the stone 730 and the glass module 740 are provided with an insertion part (named name).

Both upper ends of the frame portion 211 have a gasket fixing member coupling portion 215, which is a portion that is coupled to and fixed to the gasket fixing member, and a gasket fixing member coupling groove portion 216 where the gasket fixing member is positioned and coupled.

The horizontal stone fixing guide member 220 includes a pair of side walls 221 located at both ends, a first inner wall 222 located inside the center and having fixing hooks 225 at the ends, and a second inner wall 222 located at one side of the inside. The inner wall 223 is integrally formed, and has a frame coupling groove 224 formed between the first inner wall 222 and the side wall 221 .

In the second curtain wall fixing assembly 200, the upper end of the T-shaped frame portion 214 of the aluminum frame member 210 is fixed to the frame coupling groove portion 224 of the horizontal stone fixing guide member 220 and the fixing hook 225 It is formed by interlocking coupling of the fixing hook 212.

The gasket fixing member coupling part 215 of the aluminum frame member 210 may be formed by having a fixing hook (named name) at an end for stronger fixing and coupling.

The backup member 810 and the sealing member 820 are between the fixing hook 225 and the glass module 740 of the horizontal stone fixing guide member 220 and the T-shaped frame portion of the horizontal stone fixing guide member 220. 214 and the stone 730 of the TYPE B panel 700B are continuously filled to function as insulation and airtightness.

The sealing member 820 is formed of weather silicone sealant in the embodiment of the present invention, and may be formed of various other types of materials, and various changes and modifications are possible within a range that does not deviate from the technical spirit of the present invention. .

The asbestos mounting gasket 870 is made of an elastic material and is located between the stone edge 734 of the stone 730 of the TYPE B panel 700B and the gasket fixing member 120, and allows fluids such as air and rainwater to move. It prevents durability from being weakened due to corrosion by blocking corrosion, and has high insulation effect along with glass protection, support function, airtightness, watertightness, and sound insulation function.

The flame retardant foam 890 is a space between the polymer mortar 720 of the TYPE B panel 700B and the first curtain wall fixing assembly 100, that is, a space connecting the stone 730 of the TYPE B panel 700B. It is filled in the part 732 to prevent loss of indoor and outdoor heat energy of the building, improve watertightness, airtightness and insulation of windows, and improve the bonding strength between stone modules and stone modules and between glass modules and stone modules.

As shown in FIGS. 28 and 30, the combination of the vertical configuration of the capture type coupling structure formed vertically with the floor of the present invention, connecting the stone and glass, is as follows.

The spacing fixing member 840 is positioned inside the T-shaped frame portion 214 where the additional fixing part 213 of the second curtain wall fixing assembly 200 is located.

Then, the spacing bar 850 and the glass module 740 are positioned in the insertion part (name name) where the additional fixing part 213 of the second curtain wall fixing assembly 200 is located, and the second curtain wall A TYPE B panel 700B is positioned at an insertion portion (named name) on the opposite side of the T-shaped frame portion 214 of the fixing assembly 200 where the glass module 740 is located.

At this time, the space maintaining bar 850 is located inside the glass module 740, and then the glass module 740 is fitted and coupled to the position.

Between the glass module 740 and the horizontal stone fixing guide member 220 of the second curtain wall fixing assembly 200, a backup member 810 and a sealing member 820 are continuously filled, and the glass module ( 740) and the frame member 210 of the second curtain wall fixing assembly 200, a cylindrical gasket 880 and a sealing member 820 are continuously filled to perform insulation and airtightness.

A backup member 810 and a sealing member 820 are continuously filled between the TYPE B panel 700B and the horizontal stone fixing guide member 220 of the second curtain wall fixing assembly 200, and the TYPE B panel Between the inner side of the stone corner portion 734 of the asbestos 730 of (700B) and the frame member 210 of the second curtain wall fixing assembly 200, an asbestos mounting gasket 870 and a gasket fixing member 120 are provided. The flame retardant foam 890 is filled in the connection space 732 of the TYPE B panel 700B, which is the inner space between the TYPE B panel 700B and the second curtain wall fixing assembly 200, to provide insulation. and confidentiality function.

In such a coupling configuration in which stone and glass are installed vertically, the stone 730 of the TYPE B panel 700B is coupled to the second curtain wall fixing assembly 200 without the stone connecting clip coupling groove 735 .

The fixing assembly 100 for the first curtain wall and the fixing assembly 200 for the second curtain wall are coupled with bolts 900.

A description of the configuration of dividing and connecting stones among the capture type coupling structures of the stone panels for curtain walls of the present invention shown in FIGS. 28 and 31 is as follows.

The TYPE B panel 700B includes a rectangular PF board 710, a polymer mortar 720 wrapped around the PF board 710, and a stone in front of the PF board 710 wrapped with the polymer mortar 720 ( 730) is attached and formed.

The PF board 710 is a representative insulation board, and is manufactured as a foam board type through a process of foaming and molding a resin having insulation properties, and has excellent flame retardancy, heat resistance, and low smoke resistance due to the characteristics of a phenolic resin as a main material.

In particular, it is molded to have independent foams in the form of fine pores in the form of closed cells inside the foam board, so that toxic gas or smoke generation is significantly less when burned by flame, and the board itself is light in weight, It has the characteristics of maintaining relatively stable insulation performance, durability, shape, etc.

Most of these phenolic foam insulation boards are continuous molding in which various surface finishing materials such as polymer mortar, aluminum foil, glass wool, non-woven fabric, etc. In the present invention, the finish is formed with the polymer mortar 720.

The stone 730 is formed in a rectangular shape that is larger and thinner than the size of the PF board 710 wrapped with the polymer mortar 720, and the stone 730 to which the PF board 710 wrapped with the polymer mortar 720 is attached. The stone corner portion 734 protrudes outward from the PF board 710 to form a connection space portion 732, and one stone connecting clip coupling groove 734 is formed in the stone corner portion 734 along one side. Alternatively, it is provided with a plurality and combined with one or a plurality of aluminum stone connecting clips 600 to be described later.

The connection space 732 forms a curtain wall by being fitted into a third fixing assembly 300 for a curtain wall, which will be described later.

The third fixing assembly 300 for the curtain wall is composed of an aluminum frame member 310, left and right masonry connection clip connection members 320, reinforcing parts 330, and aluminum masonry connection clips 600.

The aluminum frame member 310 is an aluminum transom 313 formed in a U-shape with an open central portion made of aluminum material having light weight and good workability that can be processed into a complex cross section, and the inside of the aluminum transom 313 It consists of an internal coupling member 315 located on the inside and having a coupling portion 316 on the inside.

The left and right stone connecting clip connection members 320 have a U-shape with an open central portion, and side walls 321 representing both sides of the open portion and stone connecting clip coupling parts 323 located at both ends of the side walls 321 consists of

The reinforcing part 330 is located between one end of the outer surface of the aluminum transom 313 and the left and right masonry connecting clip connecting members 320.

The aluminum stone connecting clip 600 is hollow inside made of aluminum, and is composed of a left stone connecting clip 610 and a right stone connecting clip 620.

The left stone connecting clip 610 is hollow inside made of aluminum, and includes a hollow part 613 formed therein, a connecting member coupling part 611 formed at one end, and the connecting member coupling part 611. A connecting member coupling groove 612 formed inside and in which the stone coupling clip coupling portion 323 of the left and right stone coupling clip coupling members 320 is fitted and coupled, a stone coupling portion 615 formed outside the end, the stone It is formed inside the coupling part 615 and consists of a stone coupling groove 616 in which the stone is located.

The right stone connecting clip 620 is made of an aluminum material and is hollow inside, and includes a hollow part 623 formed therein, a connecting member coupling part 621 formed at one end, and the connecting member coupling part 621. A connecting member coupling groove 622 formed inside and in which the stone coupling clip coupling portion 323 of the left and right stone coupling clip coupling members 320 is fitted and coupled, a stone coupling portion 625 formed outside the end, the stone It is formed inside the coupling portion 625 and consists of a stone coupling groove 626 in which the stone is located.

By forming the left stone connecting clip 610 and the right stone connecting clip 620 as separate types at the top of the aluminum frame member 310, it is easy to work on the connection between the glass module and the stone module that are combined vertically and horizontally. , it has the effect of beautifully designing its appearance.

The combination of the third fixing assembly 300 for the curtain wall is as follows.

First, the internal coupling member 315 is located inside the aluminum transom 313, and the internal coupling member 315 and the central surface of the aluminum transom 313 are bolted to form the aluminum frame member 310.

The reinforcement part 330 is located outside the aluminum transom 313 of the aluminum frame member 310 and the left and right stone connecting clip connection members 320 are located outside the reinforcement part 330, so that the aluminum frame The member 310, the reinforcing part 330, and the left and right stone connecting clip connecting members 320 are connected by bolting, and the stone connecting clip coupling parts 323 at both ends of the left and right stone connecting clip connecting members 320 are connected by bolting. The connecting member coupling portion 611 of the left stone connecting clip 610 and the connecting member coupling portion 621 of the right stone connecting clip 620 form the third fixing assembly 300 for the curtain wall.

The spacer 860 and the sealing member 820 are continuously positioned and filled between the left stone connecting clip 610 to which the stone 730 is coupled and the right stone connecting clip 620 to which the stone 730 is coupled, so that the gap is filled. It functions to maintain, insulate, and maintain confidentiality.

The sealing member 820 is formed of weather silicone sealant in the embodiment of the present invention, and may be formed of various other types of materials, and various changes and modifications are possible within a range that does not deviate from the technical spirit of the present invention. .

The flame retardant foam 890 is the space between the polymer mortar 720 of the TYPE B panel 700B and the third curtain wall fixing assembly 300, that is, the left stone connecting clip 610 and the right stone connecting clip 620 Is filled inside to prevent loss of indoor and outdoor heat energy of the building, improve watertightness, airtightness and insulation of windows, and improve the binding force between the stone module and the third curtain wall fixing assembly 300 and the stone module and the stone module.

As shown in FIGS. 28 and 31, the combination of the vertical configuration of the capture type coupling structure formed vertically with the floor of the present invention and the split and connecting configuration of the stone and the stone is as follows.

TYPE B panels 700C are located on both sides of the left stone connecting clip 610 and the right stone connecting clip 620 of the third curtain wall fixing assembly 300, respectively, and the third curtain wall fixing assembly 300 The stone coupling portion 615 and stone coupling groove portion 616 of the left stone coupling club 610 and the stone coupling clip coupling groove 735 of the TYPE B panel 700B are coupled and connected.

The spacer 860 and the sealing member 820 are continuously positioned and filled between the left stone connecting clip 610 and the right stone connecting clip 620 of the third curtain wall fixing assembly 300 to maintain a gap and The left side stone connecting clip 610 of the third curtain wall fixing assembly 300, which functions as insulation and airtightness, and is an inner space between the TYPE B panel 700B and the third curtain wall fixing assembly 300 The fire retardant foam 890 is filled inside the and right side stone connection clips 620, and a pair of TYPE B panels 700B are connected and coupled to perform insulation and airtightness.

In such a coupling configuration in which stones are vertically divided and connected, the stone 730 of the TYPE B panel 700B has a stone connecting clip coupling groove 735, and the third curtain wall fixing assembly 300 and are combined

In the above, the configuration and operation of the capture type coupling structure of the stone panel for curtain wall according to the present invention have been shown in accordance with the detailed description and drawings, but this is only described by way of example, and within the scope of not departing from the technical spirit of the present invention. Various changes and changes are possible in

700A: TYPE A panel
700B: TYPE B panel
700C: TYPE C panel
710: PF board
720: polymer mortar
730: stone
732: connection space
734: stone corner
735: stone connecting clip coupling groove
600: aluminum clip
740: glass module
742; glass windows
100: fixing assembly for the first curtain wall
110: aluminum frame member
111: frame part
112: T-shaped stone fixing guide
113: connection part
115: gasket fixing member coupling part
116: gasket fixing member coupling groove
120: gasket fixing member
121: gasket coupling part
123: gasket coupling groove
125: frame coupling part
200: fixing assembly for the second curtain wall
210: aluminum frame member
211: frame part
212: fixed hook
213: additional fixture
214: T-shaped frame part
215: gasket fixing member coupling part
216: gasket fixing member coupling groove
220: horizontal stone fixing guide member
221: side wall
222: first inner wall
223 second inner wall
224: frame coupling groove
225: fixed hook
300: fixing assembly for the third curtain wall
310: aluminum frame member
313: aluminum transom
315: internal coupling member
316: joint
320: left and right stone connecting clip connecting member
321: side wall
323: masonry connection clip coupling part
330: reinforcement part
400: fixing assembly for the fourth curtain wall
410: aluminum frame member
413: partition wall
411: frame part
420: left and right stone connecting clip connecting member
421: side wall
423: masonry connection clip coupling part
430: reinforcement part
500: fixing assembly for the fifth curtain wall
510: aluminum frame member
513: partition wall
511: frame part
520: stone connecting clip connecting member
521: side wall
523: masonry connection clip coupling part
530: reinforcement part
600: aluminum masonry connection clip
610: Left stone connecting clip
611: connecting member coupling part
612: connecting member coupling groove
613: hollow part
615: stone joint
616: stone coupling groove
620: Right stone connecting clip
621: connecting member coupling part
622: connecting member coupling groove
623: hollow part
625: stone joint
626: stone coupling groove
810: backup member
820: sealing member
830: adhesive member
840: gap fixing member
850: spacing bar
860: spacer
870: asbestos seating gasket
880: Cylindrical gasket
890: flame retardant foam
900: bolt

Claims (4)

The structure connecting stones to stones is a TYPE A panel (700A), a first curtain wall fixing assembly (100), a backup member (810), a sealing member (820), an asbestos mounting gasket (870), and a flame retardant foam (890). As a capture type coupling structure of stone panels for curtain walls,
A rectangular PF board 710, a polymer mortar 720 surrounding and finishing the PF board 710, a stone corner portion 734 protruding outward from the PF board 710, and a connection space formed inside A stone 730 having a PF board 732 and attached in front of the PF board 710 wrapped with the polymer mortar 720 and formed as a rectangular shape that is larger and thinner than the size of the PF board 710 wrapped with the polymer mortar 720 A glass module 740 formed by continuously positioning and combining a spacer 860 and a sealing member 820 between a TYPE A panel 700A composed of and a pair of glass windows 742 is formed,
A pair of TYPE A panels 700A are located in a pair of insertion parts (names) formed on both sides of the connection part 113 of the aluminum frame member 110, and the TYPE A panels 700A and the first curtain wall A backup member 810 and a sealing member 820 are continuously filled between the T-shaped stone fixing guide part 112 of the fixing assembly 100, and the stone corner of the asbestos 730 of the TYPE A panel 700A An asbestos mounting gasket 870 is positioned between the inside of the unit 734 and the gasket fixing member 120 of the first curtain wall fixing assembly 100, and the TYPE A panel 700A and the first curtain wall fixing assembly ( 100), the connection space 732 of the TYPE A panel 700A, which is the inner space between the TYPE A panel 700A and the TYPE A panel 700A formed parallel to the floor by filling the flame retardant foam 890 ) to form a horizontal structure connecting,
Position the gap fixing member 840 inside the T-shaped frame portion 214 where the additional fixing part 213 of the second curtain wall fixing assembly 200 is located,
The spacing bar 850 and the glass module 740 are positioned in the insertion portion where the additional fixing part 213 of the second fixing assembly 200 for the curtain wall is located, and the second fixing assembly for the curtain wall 200 The TYPE A panel 700A is located in the insertion part of the opposite side of the T-shaped frame part 214 where the glass module 740 is located, and the space maintaining bar 850 is inside the glass module 740. positioned, and then the glass module 740 is fitted and positioned,
Between the glass module 740 and the horizontal stone fixing guide member 220 of the second curtain wall fixing assembly 200, a backup member 810 and a sealing member 820 are continuously filled, and the glass module ( 740) and the frame member 210 of the second curtain wall fixing assembly 200 are continuously filled with a cylindrical gasket 880 and a sealing member 820,
A backup member 810 and a sealing member 820 are continuously filled between the TYPE A panel 700A and the horizontal stone fixing guide member 220 of the second curtain wall fixing assembly 200, and the TYPE A panel Between the inner side of the stone corner portion 734 of the asbestos 730 of (700A) and the frame member 210 of the second curtain wall fixing assembly 200, an asbestos mounting gasket 870 and a gasket fixing member 120 are The flame retardant foam 890 is filled in the connection space 732 of the TYPE A panel 700A, which is the inner space between the TYPE A panel 700A and the second curtain wall fixing assembly 200, A capture type coupling structure of a stone panel for a curtain wall, characterized in that it forms a vertical structure connecting the TYPE A panel (700A) and the glass module (740) formed vertically on the floor.
The structure connecting stones to stones is a TYPE A panel (700A), a first curtain wall fixing assembly (100), a backup member (810), a sealing member (820), an asbestos mounting gasket (870), and a flame retardant foam (890). As a capture type coupling structure of stone panels for curtain walls,
A rectangular PF board 710, a polymer mortar 720 surrounding and finishing the PF board 710, a stone corner portion 734 protruding outward from the PF board 710, and a connection space formed inside 732, one or more stone connection clip coupling grooves 734 are provided in the corner portion 734 of the stone along one side, and are larger and thinner than the size of the PF board 710 wrapped with the polymer mortar 720 A spacer 860 between a TYPE B panel 700B made of a stone 730 attached in front of the PF board 710 formed in a rectangular shape and wrapped with the polymer mortar 720 and a pair of glass windows 742 And the sealing member 820 is made of a glass module 740 formed by continuously positioning and combining,
A pair of TYPE A panels 700A are located in a pair of insertion parts (names) formed on both sides of the connection part 113 of the aluminum frame member 110, and the TYPE A panels 700A and the first curtain wall A backup member 810 and a sealing member 820 are continuously filled between the T-shaped stone fixing guide part 112 of the fixing assembly 100, and the stone corner of the asbestos 730 of the TYPE A panel 700A An asbestos mounting gasket 870 is positioned between the inside of the unit 734 and the gasket fixing member 120 of the first curtain wall fixing assembly 100, and the TYPE A panel 700A and the first curtain wall fixing assembly ( 100), the connection space 732 of the TYPE A panel 700A, which is the inner space between the TYPE A panel 700A and the TYPE A panel 700A formed parallel to the floor by filling the flame retardant foam 890 ) to form a horizontal structure connecting,
In the stone material 730 of the TYPE B panel 700B, the part without the stone material connecting clip coupling groove 735 is combined with the second curtain wall fixing assembly 200 to further secure the second curtain wall fixing assembly 200. The spacing bar 850 and the glass module 740 are sequentially located from the inside in the insertion portion where the top 213 is located, based on the T-shaped frame portion 214 of the second curtain wall fixing assembly 200 A TYPE B panel 700B is located in the insertion part of the opposite side where the glass module 740 is located,
Between the glass module 740 and the horizontal stone fixing guide member 220 of the second curtain wall fixing assembly 200, a backup member 810 and a sealing member 820 are continuously filled, and the glass module ( 740) and the frame member 210 of the second curtain wall fixing assembly 200 are continuously filled with a cylindrical gasket 880 and a sealing member 820,
A backup member 810 and a sealing member 820 are continuously filled between the TYPE B panel 700B and the horizontal stone fixing guide member 220 of the second curtain wall fixing assembly 200, and the TYPE B panel Between the inner side of the stone corner portion 734 of the asbestos 730 of (700B) and the aluminum frame member 210 of the second curtain wall fixing assembly 200, an asbestos seating gasket 870 and a gasket fixing member 120 is located, and the flame retardant foam 890 is filled in the connection space 732 of the TYPE B panel 700B, which is the inner space between the TYPE B panel 700B and the second curtain wall fixing assembly 200, A vertical structure connecting the TYPE B panel 700B vertically formed on the floor and the glass module 740 is formed,
The part of the stone material 730 of the TYPE B panel 700B having the stone material connecting clip coupling groove 735 is coupled to the third fixing assembly 300 for a curtain wall, so that the left side of the third fixing assembly 300 for a curtain wall TYPE B panels 700C are located on both sides of the stone connecting clip 610 and the right stone connecting clip 620, respectively, and the stone coupling part of the left stone connecting club 610 of the third curtain wall fixing assembly 300 ( 615) and the stone coupling groove 616 and the stone coupling clip coupling groove 735 of the TYPE B panel 700B are coupled and connected,
The spacer 860 and the sealing member 820 are continuously positioned and filled between the left stone connecting clip 610 and the right stone connecting clip 620 of the third curtain wall fixing assembly 300, and then the The inner space between the TYPE B panel 700B and the third curtain wall fixing assembly 300, the inner side of the left stone connecting clip 610 and the right stone connecting clip 620 of the third curtain wall fixing assembly 300 The flame retardant foam 890 is filled in to form a vertical structure that divides and connects the TYPE B panel 700B and the TYPE B panel 700B. Capture type combination of stone panels for curtain walls structure.
According to claim 1 or 2,
The first curtain wall fixing assembly 100 is formed at both ends of the upper side and is located inside the gasket fixing member coupling portion 115 coupled and fixed to the gasket fixing member 120 and the gasket fixing member coupling portion 115 It is made of aluminum and has a gasket fixing member coupling groove 116 where the frame coupling portion 125 of the gasket fixing member 120 is positioned and coupled to the frame portion 111, which is a hollow frame with an empty inside, in the form of a T. The T-shaped stone fixing guide part 112, which is hollow inside and guides the stone position, and the connection part 113 connecting the frame part 111 and the T-shaped stone fixing guide part 112 are integrally formed. , and is formed on both sides of the aluminum frame member 110 having an insertion part where the stone 730 of the TYPE C panel 700C is located on both sides of the connection part 113 and at both ends of the upper part to combine and fix with the asbestos mounting gasket 870 A gasket coupling portion 121 located on the inside of the gasket coupling portion 121 and a gasket coupling groove portion 123 where the asbestos mounting gasket 870 is located, formed on both sides of the lower portion of the gasket of the aluminum frame member 110 It consists of a pair of gasket fixing members 120 having a frame coupling portion 125 coupled to the fixing member coupling portion 115,
The second curtain wall fixing assembly 200 is formed at both ends of the upper side and is located inside the gasket fixing member coupling portion 115 coupled and fixed to the gasket fixing member 120 and the gasket fixing member coupling portion 115 The frame part 211, which is a hollow frame made of aluminum and having a gasket fixing member coupling groove 116 in which the frame coupling portion 125 of the gasket fixing member 120 is positioned and coupled, and the frame portion ( 211) and a T-shaped frame portion 214 having a fixing hook 212 at an end thereof, and an additional fixing portion 213 located on one side of the T-shaped frame portion 214 are integrally formed, A pair of side walls ( 221), a first inner wall 222 located inside the center and having a fixing hook 225 at the end, and a second inner wall 223 located on one side of the inside are integrally formed, and the first inner wall 222 and the side wall (221) A capture type coupling structure of a stone panel for a curtain wall, characterized in that it consists of a horizontal stone fixing guide member 220 having a frame coupling groove 224 formed between them.
According to claim 1 or 2,
Between the T-shaped stone fixing guide part 112 of the aluminum frame member 110 and the stone 730 of the TYPE A panel 700A, and between the fixing hook 225 of the horizontal stone fixing guide member 220 and the glass A backup member 810 filled between the modules 740 and between the T-shaped frame 214 of the horizontal stone fixing guide member 220 and the stone 730 of the TYPE A panel 700A;
Between the T-shaped stone fixing guide part 112 of the aluminum frame member 110 and the stone 730 of the TYPE A panel 700A, and between the fixing hook 225 of the horizontal stone fixing guide member 220 and the glass Between the module 740, between the T-shaped frame 214 of the horizontal stone fixing guide member 220 and the stone 730 of the TYPE A panel 700A, the top of the aluminum frame member 210 and the glass module ( 740) a sealing member 820 filled between;
A gap fixing member 840 located inside the T-shaped frame portion 214 where the additional fixing part 213 of the second curtain wall fixing assembly 200 is located;
a spacing bar 850 located inside the insertion part of the aluminum frame member 210 where the glass module 740 is located;
an asbestos seating gasket 870 made of an elastic material positioned between the stone corner portion 734 of the stone material 730 of the TYPE A panel 700A and the gasket fixing member 120;
A cylindrical gasket 880 formed of a cylindrical elastic material filled between the upper portion of the aluminum frame member 210 and the glass module 740;
Connection space 732 of the stone 730 of the TYPE A panel 700A, which is a space between the polymer mortar 720 of the TYPE A panel 700A and the fixing assembly 100 for the first curtain wall, and the TYPE A Flame retardant foam 890 filled in the connection space 732 of the stone 730 of the TYPE A panel 700A, which is the space between the polymer mortar 720 of the panel 700A and the fixing assembly 100 for the first curtain wall. ); Capture type (capture type) coupling structure of stone panels for curtain walls, characterized in that consisting of.

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