RU2633927C1 - Connection joint of fiberglass profiles in lattice structure - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: in known connection joint of fiberglass profiles in lattice structures, including a gird and bars of the lattice, overlapped together by a fiberglass sheet gusset plate on bolts, the sheet fiberglass gusset plate manufactured by the pultrusion method is made of several layers with different orientations of the pultrusion direction. To increase the load-bearing capacity for crushing, the pultrusion direction of the outer layers of the sheet gusset plate is oriented along the gird axis, and that of the middle layers made of two parts connected by a height with a serrated profile - along the axis of each adjacent lattice bar. In a number of cases, it is advisable to orient the pultrusion direction of the outer layers of the sheet gusset plates along the axis of a lattice bar with the greatest stress, and that of the middle layers - along the axis of a lattice bar with the least stress. In the above cases, the outer and the middle layers of the sheet gusset plate are made of various thicknesses, and the girds and the bars of the lattice are made of paired profiles, for example, channels.

EFFECT: reducing the material consumption for sheet fiberglass gusset plates manufactured by the pultrusion method.

4 cl, 5 dwg

Description

The invention relates to the field of construction, in particular to nodal joints of fiberglass profiles in lattice structures, for example, building trusses.

Known connection node fiberglass profiles of closed section [Patent RU No. 2373344, IPC EV 1/58, published: 20.11.2009]. The connection node includes a belt and lattice rods of a closed section of fiberglass made by pultrusion. Connections are made using connecting elements at the ends of said rods and inserts inside closed belts. The fastening of the connecting elements and inserts is carried out on bolts.

The disadvantage of the connection node is the complexity and laboriousness of manufacturing, which is justified only in designs that have specific requirements for appearance.

There is another knot connecting fiberglass profiles of open section, manufactured by pultrusion [http://zzyalong.en.alibaba.com/product/760568341-801289787/Fiberglass_reinforced_plastic_building_material_ideal_for_corrosive_environment.html].

Belts and rods of an open cross-section lattice are interconnected using steel sheet shapes on bolts. A disadvantage of the known joint is the use of steel sheet gussets having low corrosion resistance.

Closest to the invention is the junction of fiberglass profiles manufactured by the method of pultrusion in lattice structures, including a belt and lattice rods connected by sheet gussets. The sheet gusset, also made of pultruded fiberglass, is combined with the belt and the ends of the lattice rods with an overlap and fastened to them with bolts [http://www.apatech.ru/mobile_briges.html].

A disadvantage of the known joint is that the sheet gusset has different crushing strengths in the direction of pultrusion (of the order of 240 MPa) and across the pultrusion (of the order of 70 MPa). Therefore, when designing a joint assembly having different contact angles of elements and various forces, the use of sheet gussets of large thickness is required.

The aim of the invention is to reduce the consumption of material on sheet fiberglass gussets made by pultrusion.

The purpose of the invention is achieved by the fact that in the known unit for connecting fiberglass profiles in lattice structures, including a belt and lattice rods, overlapped by a fiberglass sheet gusset on bolts, a fiberglass sheet gusset made by pultrusion is made of several layers with different orientations of the pultrusion direction. To increase the bearing capacity for collapse, the direction of pultrusion of the extreme layers of the sheet guss is oriented along the axis of the belt, and the middle layers made of two parts connected in height by a sawtooth profile are aligned along the axis of each of the adjacent lattice rods. In some cases, it is advisable to orient the direction of pultrusion of the extreme layers of the sheet gusset along the axis of the lattice rod with the greatest effort, and the middle layers along the axis of the lattice rod with the least effort. In the above cases, the extreme and middle layers of the sheet gusset are made of different thicknesses, and the belts and lattice rods are made of paired profiles, for example, channels.

In FIG. 1 shows a diagram of a lattice structure of paired profiles and sheet gussets made of fiberglass made by pultrusion; in FIG. 2 shows the assembly 1 of FIG. 1, the arrows indicate the forces in the belt and the rods of the lattice for which the connection node should be designed; in FIG. 3 shows a cross section 1-1 of FIG. 2; in FIG. Figures 4 and 5 show options for fiberglass sheet shapes consisting of several layers with different orientations of the pultrusion direction.

The connection unit of fiberglass profiles in the lattice structure includes a belt 1 and the rods of the lattice 2, for example, of paired channels, and sheet gusset 3 made by pultrusion and consisting of several layers with different orientations of the direction of pultrusion. The overlap 3 combines the belt 1 and the ends of the rods of the lattice 2 and fastens to them with bolts 4.

The node lattice structure is implemented as follows. The sheet gusset 3 of fiberglass manufactured by the pultrusion method is composed of several layers with different pultrusion orientations (Figs. 4 and 5). Different orientation of the layers makes it possible to increase the bearing capacity of the gusset 3 for collapse at different contact angles of the rods of the grating 2 and the forces acting in them (Fig. 2). It is advisable to orient the extreme layers of the gusset 3 in the direction of pultrusion for the most loaded of the rods of the grating 2, and also to take different thicknesses of the layers, placing them symmetrically with respect to the middle of the thickness of the gusset 3. In FIG. 5 shows a variant of the profile 3, when the direction of pultrusion of its extreme layers is oriented in the direction of the axis of the belt 1, and the direction of pultrusion of the middle layers made of two parts connected by a serrated profile is oriented along the axis of each of the rods of the lattice 2. Using the manufactured multi-layer profile 3 overlap combine the belt 1 and the rods of the lattice 2 and tighten them together with bolts 4.

The nodal connection of fiberglass profiles in a lattice design allows to reduce the overall thickness of the gusset.

Claims (4)

1. The connection unit of fiberglass profiles in lattice structures, including a belt and lattice rods, overlapped by a fiberglass sheet gusset on bolts, characterized in that the fiberglass sheet gusset made by pultrusion is made of several layers with different orientations of the direction of pultrusion. 2. The connection unit of fiberglass profiles in lattice structures according to claim 1, characterized in that the direction of pultrusion of the outermost layers of the sheet gusset is oriented along the axis of the belt, and the middle layers made of two parts connected in height by a sawtooth profile along the axis of each of the adjacent lattice rods. 3. The junction of fiberglass profiles in the lattice structure according to claim 1, characterized in that the direction of pultruction of the extreme layers of the sheet gusset is oriented along the axis of the lattice rod with the greatest effort, and the middle layers along the axis of the lattice rod with the least effort. 4. The junction of fiberglass profiles in the lattice structure according to paragraphs. 1-3, characterized in that the extreme and middle layers of sheet fiberglass gussets are made of different thicknesses, and the belts and rods of the lattice are made of paired profiles, for example, channels.

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