KR200413016Y1 - Rib glass and patch type glass structure composed of homogeneous glass - Google Patents

Abstract

The present invention is a ribbed glass and patch-type glass structure of the SPG system, two or more rib glass (2) having a hole formed in part; Patch plates (3) respectively positioned above and below the rib glass (2) to connect the rib glass (2) to each other with bezel fittings (5) through holes in the at least two rib glass (2); And a bracket 4 connecting the rib glass 2 connected with the patch plate 3 to the face glass 1 constituting the glass structure, wherein the patch plate 3 is formed of the rib glass. By providing a glass structure, characterized in that the glass is the same as (2), to ensure a visual field with a sense of openness inside and outside the glass structure, and relates to a glass structure that can maximize the vitality by giving a sense of homogeneity to the structure.

Description

Rib glass and patch type glass structure composed of homogeneous glass {RIB GLASS AND PATCH TYPE GLASS STRUCTURE COMPRISED OF THE SAME GLASS MATERIAL}

1 is a schematic view showing an embodiment of a ribbed glass and patch-type glass structure composed of homogeneous glass according to the present invention,

2A is a cross-sectional view taken along the line AA ′ of FIG. 1 when the rib glass is laminated glass;

FIG. 2B is a cross-sectional view taken along the line AA ′ of FIG. 1 when the rib glass is one sheet glass; FIG.

3 is a schematic view showing another embodiment of the ribbed glass and patch-type glass structure composed of homogeneous glass according to the present invention,

4A is a cross-sectional view taken along the line BB ′ of FIG. 3 when the rib glass is laminated glass;

4B is a cross-sectional view taken along the line BB ′ of FIG. 3 when the rib glass is a single sheet glass;

5 is a schematic view showing an example of a conventional rib glass and patch-type glass structure,

6 is a cross-sectional view taken along line CC ′ of FIG. 5;

7A is a perspective view illustrating a state in which a plate glass is bonded using a bezel fitting;

7B is a cross-sectional view showing a state in which the plate glass is bonded using the bezel fitting.

Explanation of symbols on the main parts of the drawings

1,11,101: face glass 2,12,102: rib glass

2 ', 12': single plate glass 3,13,103: patch plate

4,14,104: Bracket 5,15,105: Bezel fitting

6,16,106: bolt

The present invention relates to ribbed glass and patch type glass structures of an SPG system.

In addition to the trend toward higher floors in buildings, the exterior wall finishing method is taking full advantage of the design, structure, and construction surface to maximize the benefits of the curtain-wall method. Most of these buildings have a light and beautiful exterior, which makes the aesthetics of the city more clean and lively.

Looking closely at recent windshields or horizontally extending continuous windows, the number and size of metal frames noticeable in conventional window frames are gradually decreasing, and attempts to conceal the window frames on the glass back as much as possible (Metal Back) -mullion method) is also seen. These efforts include SPG (Special Point Glazing) and SSG (Structural Sealant Glazing System). It has developed into SGS (Structural Glazing System), and is spreading actively in Korea as well as in Europe and Japan.

The SPG system combines a special machined bolt with a dish-headed groove, which provides a smooth surface with glass, rod truss, wire and stainless steel pipes. It is the latest construction to support the structure with stainless pipe). This SPG system maintains excellent safety without the use of frame or structural silicone, and its excellent design maximizes the natural beauty of the building, ensuring maximum openness and light. The SPG system is based on the use of 12 mm tempered glass, and all the tempered glass used to ensure stability are used after the heat soak test for anti-magnetic treatment. In addition, in order to prevent the scattering of debris that occurs when the tempered glass breaks due to physical impact, a scattering prevention film is attached as an option.

Advantages of the SPG system include the following. SPG system is a frameless system for fixing plate glass and plate glass with bolts after special hole processing to create a wide field of view, and it does not use aluminum or steel frame for exterior wall construction. When the dog is assembled, the height and width can be adjusted freely and can be installed in any size. In addition, construction can be done at any angle of inclination, such as vertical or horizontal, enabling design utilizing creativity in a variety of applications.It is designed to withstand wind pressures and all structural loads. Since glass is constructed after hot maintenance test for all products, there is no possibility of jappa and it has excellent stability. In addition, the design is free, so it can be installed in any purpose openings, including doors, and it is designed to be free from deformation and damage even under intense sunlight, so it can withstand external exposure for a long time.

SPG system is designed to realize the open space by utilizing the natural beauty of glass, a building that needs to secure a natural view from the outside, and has excellent natural light effect, so it has a greenhouse skylight, a lobby, a ceiling, and a walkway. It is used in places where original designs such as atriums, sunken gardens, exhibition halls, glass curtain walls and glass greenhouses are required.

Generally, the glass used in the SPG system includes single glass, laminated glass, and double glazing units. In general, single glass is used after hot holding test of 12mm tempered glass and clear glass is used rather than colored glass to maximize light effect. 15 mm and 19 mm can also be used in mountain areas, beaches and high rises where wind loads are high. In addition, a shatterproof film can be optionally attached to prevent the shattering of glass fragments in case of breakage. Laminated glass is mainly applied to canopy and skylight, which are expected to be damaged by the scattering of debris when the glass is broken.In this case, the SPG bolt fastening part may be cracked due to the opening force that may occur. To prevent de-lamination, the SPG bolt for laminated glass of 2-Washer type must be applied. Multi-layered glass consists of 10 ~ 15mm outer plate, 12 ~ 18mm air layer, 6 ~ 12mm inner plate, and its composition depends on glass standard and wind load.

The use of multilayer glass in the SPG system provides good sound insulation and insulation effect, and it is possible to reduce the manual work in the manufacturing process and improve the quality and delivery time through the automation process, compared to the foreign multilayer glass system, and the hinge type By using special bolts, it can be easily applied to any structure as well as to improve seismic performance, and excellent sealing and watertightness by sealing with butyl and silicon around the hole. When using multilayer glass, it is preferable to use an aluminum black spacer or a warm-edge spacer as a spacer used.

There are many structures for supporting the system in such an SPG system. Pipe type is a method of welding SPG support brackets at each vertical and horizontal joint and then joining the spider brackets. The construction method is relatively easy and the cost is low. . Rib glass and patch type (Rib glass & Patch type) is a method of using a glass or vertical structural material of the tempered glass, the rib glass connection using a plate (plate). Rod & Pipe type is a type that reduces the cross section of vertical pipe and uses a combination of pipe and rod truss, and various designs are possible depending on the shape of the building. Cable or rod truss type (Cable or Rod Truss type) is a structure that resists the load by using the tension of the cable or rod truss, the cross section of the structure is small and excellent openness, but expensive and relatively difficult to construct.

Among these supporting structures, the bezel fitting for laminated glass as a connecting mechanism for connecting the laminated glass to each other in rib glass and patch type is described in Korean Utility Model Publication No. 20-0375869. . In connecting the laminated glass and other laminated glass to form a structure (building), when the bezel fitting, which is a connector, is used in the hole formed in the laminated glass, each of the panes constituting the laminated glass is slightly displaced at the time of mutual bonding. Even if the center of the gap is spaced apart by inserting the cam member or bushing constituting the bezel fitting on the inner circumferential surface of the hole to adjust the center of the cam member to support the plate glass horizontally so that the bending of the laminated glass due to external load In this case, a uniform stress acts on the inner circumferential surface of the hole to prevent the risk of breakage due to stress concentration around the hole of the laminated glass. 7A and 7B, the holes 212 and 212 'are used to connect the laminated glass 201 having the holes 212 and 212' of the panes 210 and 210 'spaced apart from each other with the laminated glass 201 and the bracket 205. A bezel fitting inserted into the first glass member (220, 220 ', 230, 230') inserted into the holes (212, 212 ') of the plate glass (210, 210'), the cam holes (222, 222 ', 231, 231') are formed eccentrically; A second cam member 223, 223 ', 232, 232' inserted into the cam holes 222, 222 ', 231, 231' of the first cam members 220, 220 ', 230, 230', and having pin holes 224, 224 ', 233, 233' formed eccentrically; And cam washers (225, 225 ', 237, 237') which face the outer side of the first cam members (220, 220 ', 230, 230') and the second cam members (223, 223 ', 232, 232') and have pinholes formed in the center thereof. A nut pin 226 inserted into the pinholes 224, 224 ', 233 and 233' of the second cam members 223, 223 ', 232 and 232'; End bolts 228 screwed to both ends of the nut pin 226; and the first cam members 220, 220 ', 230, and 230' formed in holes 212 and 212 'formed in two sheets of glass 210 and 210'. ) And the second pins 223, 223 ', 232, 232' are inserted into the pin holes 224, 224 ', 233, 233', respectively, and the brackets 205 are provided on both sides of the cam washer. One embodiment of the bezel fitting for laminated glass is shown, characterized in that the end bolt 228 is coupled after being inserted to allow other laminated glass 201 to be coupled by the bracket 205.

One example of a conventional rib glass and patch type glass structure in which plate glass is bonded to each other using such a bezel fitting is shown in FIGS. 5 and 6. Patch plates 103 are located on each of the upper and lower portions of the two rib glass 102, which are coupled to each other by the bezel fitting 105. In the conventional rib glass and patch type glass structures, the patch plate 103 is made of metal, particularly stainless steel. However, when a patch plate made of a metal material is used in a glass structure made of a glass material, most of the glass structures have a problem in that light transmission is interrupted in the patch plate portion, which may impede visibility.

The present invention has been made in order to solve the above problems, the object of the present invention is to use the material of the patch plate used to connect the plurality of rib glass constituting the glass structure with each other by using a material other than metal, glass It is to provide a glass structure that can maximize the vitality by securing a visual field with a sense of openness inside and outside the structure, and gives a sense of homogeneity to the structure.

The object of the present invention, such as two or more rib glass (2) is formed in the hole; Patch plates (3) respectively positioned above and below the rib glass (2) to connect the rib glass (2) to each other with bezel fittings (5) through holes in the at least two rib glass (2); And a bracket 4 connecting the rib glass 2 connected with the patch plate 3 to the face glass 1 constituting the glass structure, wherein the patch plate 3 is formed of the rib glass. It is achieved by a ribbed glass and a patch-type glass structure characterized by being the same glass as (2).

Preferably, the patch plate (3) is achieved by a glass structure, characterized in that the single glass or laminated glass.

In addition, the rib glass 2 is achieved by a glass structure, characterized in that the single glass or laminated glass.

Hereinafter, with reference to the drawings will be described an embodiment according to the present invention.

1 is a schematic view showing an embodiment of a ribbed glass and patch-type glass structure composed of homogeneous glass according to the present invention, Figure 2a is a cross-sectional view taken along line AA 'of Figure 1 when the rib glass is laminated glass. All. A portion of the at least two rib glass 2 constituting the glass structure shown in Figure 1 and 2a is formed with a hole, the patch plate 3 is located on the upper and lower portions of the rib glass 2, respectively The rib glass 2 is connected to each other by bezel fitting 5 through the hole. The rib glass 2 is preferably tempered. The patch plate 3 and the rib glass 2 joined in this manner are connected to the face glass 1 constituting the glass structure by the bracket 4. The face glass 1 may be made of single glass, laminated glass, and laminated glass. Here, the patch plate 3 is made of the same glass material as the rib glass 2 to ensure the homogeneity of the material and the field of view of the glass structure. As shown in FIG. 2A, the rib glass 2 in the glass structure according to the present invention is illustrated with laminated glass, but the rib glass 2 may be a single sheet glass. In addition, the patch plate 3 may also be laminated glass as shown in Fig. 2A, or may be a single sheet glass. FIG. 2B is a cross-sectional view taken along the line AA ′ of FIG. 1 when the rib glass is one sheet glass.

3 is a schematic view showing another embodiment of a ribbed glass and patch-type glass structure composed of homogeneous glass according to the present invention, Figure 4a is a cross-sectional view taken along line BB 'of Figure 3 when the rib glass is laminated glass. All. 3 and 4A show an embodiment in which the structural arrangement of the face glass constituting the glass structure and the shape of the bracket are slightly different from those in FIGS. 1 and 2A. A portion of the at least two rib glass 12 constituting the glass structure shown in Figs. 3 and 4a is formed with a hole, the patch plate 13 is located on the upper and lower portions of the rib glass 12, respectively The rib glass 12 is connected to each other by bezel fitting 15 through the hole. The rib glass 12 is preferably tempered. The patch plate 13 and the rib glass 12 joined in this manner are connected to the face glass 11 constituting the glass structure by the bracket 14. The face glass 11 may be made of single glass, laminated glass, and laminated glass. Here, the patch plate 13 is made of the same glass material as the rib glass 12 to ensure the homogeneity of the material and the visual field of the glass structure. The rib glass 12 in the glass structure according to the present invention may be laminated glass or single sheet glass. Moreover, laminated glass may also be sufficient as the patch plate 13, and single piece of glass may be sufficient as it. 4B is a cross-sectional view taken along the line BB ′ of FIG. 3 when the rib glass is one sheet glass.

As described above, the glass structure according to the present invention is made of rib glass and glass of the same quality as the material of the patch plate used to connect the plurality of rib glasses constituting the rib glass and the patch type glass structure to each other. Along with the sense of openness inside and outside the structure, it is possible to maximize visibility by giving a sense of homogeneity to the structure.

Claims (3)

Two or more rib glass 2 in which holes are formed in part; Patch plates (3) respectively positioned above and below the rib glass (2) to connect the rib glass (2) to each other with bezel fittings (5) through holes in the at least two rib glass (2); And It comprises a bracket (4) for connecting the rib glass (2) connected with the patch plate (3) and the face glass (1) constituting a glass structure, The patch plate (3) is a glass structure of the rib glass and patch type, characterized in that the glass of the same quality as the rib glass (2). The method of claim 1, The patch plate 3 is a glass structure, characterized in that the single glass or laminated glass. The method according to claim 1 or 2, The rib glass 2 is a glass structure, characterized in that the single glass or laminated glass.

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