RU138723U1 - BUILDING BEARING ELEMENT - Google Patents

Abstract

1. A construction supporting element comprising a laminated glass beam and means for attaching the beam to the building structure, as well as fastening means connecting the beams to each other, the fastening means containing metal plates located on one and the other sides of the beam and connected by fixing nodes through holes made in the beam, characterized in that the beam is made of laminated glass with an ionomer adhesive layer, while between the metal plates of the fastening means and the beam are located rocket launchers made of dense non-abrasive material, and the fixing nodes contain two bushings and fasteners, the first sleeve made of polymeric material placed in the hole of the beam without a gap, and the second sleeve made of metal inserted into the first sleeve, while fixing the elements are fixed in the second sleeve. 2. The construction supporting element according to claim 1, characterized in that the means for attaching the beam to the building structure include brackets. The construction supporting element according to claim 1, characterized in that the fastening means connecting the beams to each other contain wedges inserted between the ends of the beams made of polymer material.

Description

The inventive utility model relates to construction and can be used in roof truss structures of glass roofs and structures of anti-aircraft lamps.

Known truss containing upper and lower belts, fastened with rod ties, respectively, made of linear elements with a constant cross-sectional profile, and supporting platforms with holes at the ends of the lower belt for installation and fastening on the bearing supports, while the linear elements of the upper and lower belts and core bonds are made of glass or basalt plastic based on longitudinally intersecting longitudinally arranged glass or basalt fibers with a volumetric ratio of pl astics of the upper, lower zones and core bonds from 1: 0.95: 0.3 to 1: 0.5: 0.2 (RF patent No. 2179218, 2002).

The disadvantage of this device is the reduction of light transmission of the structure due to the opacity of the elements made of glass or basalt plastic.

Also known is a building structural element containing one or more monolithic or laminated glasses, such as a beam or brace, characterized in that it contains means of attachment to the building structure or to the wall, while these means serve, if necessary, to connect several elements in continued one after another, and these fastening means are made in such a way that they do not allow compression of the glass in their thickness (international application WO 2006128887, 2006). This device is taken as the closest analogue.

The disadvantage of this device is the low structural strength at significant loads.

The technical result, which is achieved by the claimed utility model, is to increase the strength of the structure with a simultaneous increase in light transmission.

The specified technical result is achieved by the fact that in the building support element comprising a laminated glass beam and means for attaching the beam to the building structure, as well as fastening means connecting the beams to each other, the fastening means comprising metal plates located on one and the other sides of the beam and connected by fixing nodes through holes made in the beam, the beam is made of laminated glass with an ionomeric adhesive layer, while between the metal plates of the means fasteners and a beam are gaskets made of dense non-abrasive material, and the fixing nodes contain two bushings and fasteners, the first sleeve made of polymer material placed in the hole of the beam without a gap, and the second sleeve made of metal inserted into the first sleeve while the fasteners are fixed in the second sleeve.

In addition, the means of attaching the beams to the building structure contain brackets, and the means of fastening connecting the beams to each other contain wedges inserted between the ends of the beams made of polymer material.

The utility model is illustrated by drawings, which depict:

- in FIG. 1 - a general view of a building supporting element;

- in FIG. 2 is a view A in FIG. one;

- in FIG. 3 - section of the fixing unit;

- in FIG. 4 is a section bB in FIG. 2.

According to FIG. 1-4, the building support element comprises a beam 1 of laminated glass with an ionomer adhesive layer and means for attaching 2 beams 1 to the building structure, as well as means for attaching 3 connecting the beams 1 to each other. The fastening means 2 and the fastening means 3 contain plates 4 made of metal, for example steel, which are located on one and the other sides of the beam 1 and are connected by fixing nodes 5 through holes 6 made in the beam 1. Between the plates 4 and the beam 1 are located gaskets 7 made of a dense non-abrasive material, for example, paronite. Each of the fixing nodes 5 contains a sleeve 8, a sleeve 9 and fasteners 10. In this case, the sleeve 8 is made of a polymeric material, for example, fluoroplastic, and is placed in the hole 6 of the beam 1 without a gap. A sleeve 9 made of metal, for example steel, is inserted into the sleeve 8. Fasteners 10, for example, screws, are screwed into the sleeve 9.

In addition, the fastening means 2 include brackets 11 that are attached to the building structure.

The fastening means 3 connecting the beams 1 to each other, contains wedges 12 inserted between the ends of the beams 1, made of a polymeric material, for example, fluoroplastic. Wedges 12 allow you to align the connected beams 1 in one plane.

Building bearing element is assembled as follows.

On the beam 1, metal plates 4 are fastened through the gaskets 7 using fixing nodes 5. If necessary, the connection of two beams 1 between their ends are inserted wedges 12. Brackets 11 are installed that connect the beam 1 with the building structure. Using a rotary axis (not shown in the drawing), the beam 1 is connected to the brackets 11 and is fixed by retaining rings (not shown in the drawing).

Thanks to the implementation of the laminated glass beams with an ionomer adhesive layer, the structural strength and load-bearing capacity are significantly increased. This also increases the light transmission of the structure.

The presence in the fastening means of gaskets made of a dense non-abrasive material between the metal plates and the beam, as well as polymer sleeves placed in the holes of the beam without a gap, and metal sleeves inserted into the polymer sleeves allows mechanical compression of the beams through the holes in them, which also increases structural strength. At the same time, gaskets made of a dense non-abrasive material, and polymer sleeves do not allow contact of metal and glass, and metal sleeves exclude excessive compression compression of the glass beam.

Claims (3)

1. A construction supporting element comprising a laminated glass beam and means for attaching the beam to the building structure, as well as fastening means connecting the beams to each other, the fastening means containing metal plates located on one and the other sides of the beam and connected by fixing nodes through holes made in the beam, characterized in that the beam is made of laminated glass with an ionomer adhesive layer, while between the metal plates of the fastening means and the beam are located rocket launchers made of dense non-abrasive material, and the fixing nodes contain two bushings and fasteners, the first sleeve made of polymeric material placed in the hole of the beam without a gap, and the second sleeve made of metal inserted into the first sleeve, while fixing the elements are fixed in the second sleeve. 2. The construction supporting element according to claim 1, characterized in that the means for attaching the beam to the building structure include brackets. 3. The construction supporting element according to claim 1, characterized in that the fastening means connecting the beams to each other contain wedges inserted between the ends of the beams made of polymer material.

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