KR100597070B1 - Hybrid Steel-Glass Beam - Google Patents

Abstract

The present invention has a large rigidity by applying a reinforced glass or a laminated glass to the web, and by forming a composite beam in which the steel flange for the adapter is applied to the upper and lower sides of the web, it is not limited in length and improves the transparency of the view A hybrid steel-glass beam that can be made.

The present invention is a laminated glass web that overlaps in a predetermined layer to act as a web of the beam; A steel flange installed at upper and lower sides of the multilayer glass web and having an adapter formed at a portion corresponding to the web to be fitted thereto; And bonding means for adhering between the multilayer glass web and the steel flange, wherein the web fitted to the adapter of the steel flange is continuous in a predetermined span.

Hybrid, Steel-Glass Beam, Web, Glass Mortar, Steel Flange, Laminated Glass Web

Description

Hybrid steel-glass beam             

1 is a perspective view showing an embodiment configuration of a hybrid steel-glass beam according to the present invention.

2A and 2B are front and side views of the hybrid steel-glass beam according to the present invention.

Figure 3 is a side perspective view showing in detail the junction of the hybrid steel-glass beam according to the present invention.

Figure 4 is a cross-sectional view showing in detail the bonding state of the steel flange and tempered glass which is the main part of the present invention.

Figure 5 is a side cross-sectional view showing in detail the coupling portion of the steel flange and tempered glass that is the main portion of the present invention.

Figure 6 is a detailed side view showing a bonding state between the tempered glass which is the main part of the present invention.

* Explanation of symbols for the main parts of the drawings

2: laminated glass web 4: steel flange

4a: adapter 6: glue

8: cushioning material 10: glass mortar

The present invention relates to a hybrid steel-glass beam that combines a steel sheet and tempered glass to form an H-beam, and more particularly, by applying a multilayer tempered glass to a web and applying a steel sheet to upper and lower flanges of the multilayer tempered glass. The present invention relates to a hybrid steel-glass beam capable of securing transparency in a field of view by forming a beam of a section steel.

In general, the use of plate glass is limited by the dimensions (thickness and length) and flexural strength that can be produced structurally. In order to overcome these limitations, technologies such as tempering and laminating have been developed over the past 30 years to produce tempered glass or multilayer laminated glass plates.

The tempered glass is manufactured by forming a general plate glass and heating to 500-600 ° C. close to the softening temperature, and rapidly cooling the surface with compressed cooling air. The surface of the glass is provided with a compressive stress and a tensile stress inside. The mechanical strength of the glass is improved.

The tempered glass has a dense surface structure, which is 3 to 5 times stronger than ordinary glass, 3 to 8 times stronger impact resistance, and has excellent mechanical properties.

The multilayer laminated glass plate is a multilayer glass that is pressed by inserting a synthetic resin film having a strong tensile strength between two sheets of glass having a high compressive strength.

Tempered glass or multi-layer glass with increased mechanical strength as described above is used in various applications such as various aircraft glass, office window glass, large window of the building lobby, show window of a store, showcase, aquarium, and the like. In addition, the tempered glass or the multilayer glass is also used as a short span beam, which is used alone as a rib of a P.F.G (Point Fixing Glazing) system by supporting the glass roof or connecting with a steel plate. In addition, in the case of glass beams having a span of about 3 to 4 m, it is also used as a beam for supporting a glass slab of a glass passage (pedestrain bridge) connecting the building.

On the other hand, the section steel forming the skeleton of the steel ball conditional building satisfies the function as a beam, but because it obscures the field of view, there is a problem in that the steel beam is applied to various exhibition structures.

Although applied to various fields through the technical progress of the plate glass as described above, there are two structural problems to apply the conventional tempered glass or multi-layer laminated glass plate as a beam of the exhibition structure.

First, when the tempered glass is applied to the beam, because the cross-section is thinner than the beam made of steel, wood, concrete is determined by the lateral torsional buckling, the strength of the glass given the prestress by heat treatment It does not work properly.

Second, the maximum span of the glass beam without the joint is determined by the production length of the plate glass, which is the base material, so the span of the beam is limited.

Therefore, the present invention has been proposed to solve the above problems, and has a large rigidity by applying a reinforced glass or multilayer glass to the web, and forming a composite beam in which the steel flange for the adapter is applied to the upper and lower sides of the web. It is an object of the present invention to provide a hybrid steel-glass beam which is not limited in length and can improve the transparency of the field of view.

In order to achieve the above object, the present invention is a laminated glass web overlapping a predetermined layer to act as a web of the beam; A steel flange installed at upper and lower sides of the multilayer glass web and having an adapter formed at a portion corresponding to the web to be fitted thereto; And bonding means for bonding and integrating the multilayer glass web with the steel flange, wherein the web inserted into the adapter of the steel flange is continuous in a predetermined span.

In an embodiment of the present invention, the adapter of the steel flange is characterized in that it further comprises an aluminum buffer for dispersing the stress concentration applied to the upper and lower ends of the multilayer glass web.

In addition, by further comprising a glass mortar filled in the boundary between the web and the web to function as a compression joint, it is possible to implement a continuous long-span hybrid steel-glass beam beyond the limit of the maximum span determined by the production length of the existing plate glass Do.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings of FIGS. 1 to 6.

Hybrid steel-glass beam according to the present invention is not affected by the length of the span, to replace the web of the existing steel beam with glass to ensure the transparency of the view, and to implement to improve the resistance to transverse buckling, In the embodiment of the present invention, as shown in Figures 1 to 3, the laminated glass web (2) to overlap a predetermined layer to act as a web of the beam; A steel flange (4) installed on the upper and lower sides of the multilayer glass web (2), and having an adapter (4a) formed at a portion corresponding to the web to be fitted therein, and supporting a bottom to transmit a load; And an adhesive 6 for bonding and integrating the multilayer glass web 2 with the steel flange 4. By the said structure, the shaped steel beam which has H cross section which fits the multilayer glass web 2 to the adapter 4a of the said steel flange 4 is comprised.

As shown in FIG. 4, the glass 6 and the steel adapter 4a are bonded by filling the adhesive 6 in a section where both sides of the multilayer glass web 2 and the inner surface of the adapter of the steel flange 4 contact each other.

In the adapter 4a of the steel flange 4, an aluminum sheet for dispersing stress concentration applied to the upper and lower ends of the multilayer glass web 2, or a material having similar acupressure performance, for example, urethane or fiber A cushioning material 8 such as reinforced plastic (FRP) is fitted.

In addition, as shown in Figure 6, the boundary between the multilayer glass web (2) is filled with a glass mortar (10) in charge of the compression joint function can form a continuous beam in a predetermined span.

In the embodiment of the present invention, the steel flange 4 is used as a general steel or stainless steel, as the laminated glass may be used as semi-tempered glass or tempered glass. The multilayer glass web 2 is formed by overlapping two or more panes, but when the three panes overlap, the upper and lower portions of the center pane is formed so as to protrude further by a predetermined height than the ends of the two panes transverse buckling It can improve the resistance performance against.

The shock absorbing material 8 is formed as a strip having a predetermined length as shown in FIG. 5 and arranged at predetermined intervals on the inner surface of the adapter 4a, or as a single setting block installed only at both sides of the flange as shown in FIG. Can be.

Referring to the working state of the present invention configured as described above are as follows.

First, three sheets of tempered glass are overlapped, but the upper and lower ends of the central glass are projected by a predetermined height than the upper and lower ends of both glass, and the overlap is applied to the web. And after inserting the aluminum buffer material 8 into the adapter 4a of the steel flange 4, it fits in the upper and lower parts of the multilayer glass web 2, and comprises H cross-section steel beam. At this time, the adhesive 4 is attached between the adapter 4a of the steel flange 4 and the multilayer glass web 2.

As described above, the section steel beam having an H cross section is supported by the multilayer glass web 2 while supporting the bottom through the steel flange 4 while the multilayer glass web 2 bears the load transmitted through the steel flange 4 to the structural position of the beam. It is applicable. In this case, when taking the form of a continuous beam, by filling the glass mortar (10) at the boundary between the multilayer glass web (2), and performing a compression joint, a bospan that exceeds the limit of the maximum span determined by the production length of conventional glass It can be formed.

 In addition, the general multilayer glass web 2 is composed of three layers to maintain a greater rigidity than the critical bending moment acting on the ordinary pure glass beam. Accordingly, even if a load equal to or greater than a critical bending moment acting on the pure glass beam can be sufficiently endured, the resistance against lateral buckling can be improved.

The hybrid steel-glass beam structure of the present invention as described above may also be used where the glass roof is supported by the pillar. More specifically, it can be used for pedestrian bridges in long spans that must support loads, and can be used as a jamb of glass to building facades. In addition, it can be used for heavy objects such as automobiles in exhibition halls and exhibition spaces through glass floors.

As mentioned above, although the Example of this invention was described in detail, this invention is not limited to the said Example, A various change, a deformation | transformation are possible by a person with ordinary knowledge within the range of the technical idea of this invention. Will be apparent to those of ordinary skill in the art.

As described above, according to the present invention, by applying the laminated glass as a web, and by combining the flange of the steel or stainless steel to the web, it is possible to ensure the transparency of the field of view through the laminated glass web, production of existing flat glass It is possible to implement a long span beam that exceeds the maximum span determined by the length, so that it can be applied to structural positions such as H-shaped section beams that support the floor and transmit the load.

In addition, the present invention has a large rigidity compared to the conventional glass beam by forming a general multilayer glass web in three layers, and at the same time has another effect of improving the resistance to lateral buckling.

Claims (12)

A laminated glass web overlapping in a predetermined layer to serve as the web of the beam; A steel flange installed at upper and lower sides of the multilayer glass web and having an adapter formed at a portion corresponding to the web to be fitted thereto; And Bonding means for bonding and integrating the multilayer glass web with a steel flange A hybrid steel-glass beam, comprising: a web inserted into the adapter of the steel flange continuous in a predetermined span. The method of claim 1, Hybrid steel-glass beams provided in the adapter of the steel flange further comprises a buffer means for dispersing the stress concentration applied to the upper and lower ends of the multilayer glass web. The method of claim 1, Hybrid steel-glass beam further comprises a mortar filled in the interface between the web and the web to function as a compression joint. The method of claim 3, wherein Hybrid steel-glass beam, characterized in that the mortar is glass mortar. The method of claim 2, Hybrid steel-glass beam, characterized in that the buffer means is made of aluminum. The method of claim 2, Hybrid steel-glass beam, characterized in that the buffer means is made of any one material of urethane, fiber reinforced plastic (FRP). The method according to any one of claims 2, 5 and 6, And said buffer means is formed in a strip and arranged every predetermined length. The method according to any one of claims 2, 5 and 6, The buffer means is a hybrid steel-glass beam, characterized in that consisting of a single setting block. The method according to any one of claims 1 to 6, The laminated glass web is a hybrid steel-glass beam, characterized in that made of tempered glass. The method according to any one of claims 1 to 6, The multilayer glass web is a hybrid steel-glass beam, characterized in that made of semi-tempered glass. The method according to any one of claims 1 to 6, Hybrid steel-glass beam, characterized in that the steel flange is made of stainless steel. The method according to any one of claims 1 to 6, The laminated glass web is formed by overlapping three pane members, wherein the upper and lower portions of the center pane is formed so as to protrude further by a predetermined height than the ends of both panes.

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