RU2063501C1 - Nodal joint for rods of a spatial skeleton - Google Patents

Abstract

FIELD: nodal joints of metal, reinforced concrete, wooden and plastic rods, may be used a non-stressed and prestressed rod-type structure. SUBSTANCE: nodal joint of rods of a spatial skeleton includes a core comprising two parts and interconnected through a central bolt. Horizontal coaxial rods coming towards one direction are fixed between core parts. Horizontal rods coming towards other direction being perpendicular to previous one and inclined rods are provided too. Core parts are made in the form of two spatial shaped parts of similar size. Bases of the parts have openings placed vertically. Inclined rods are attached to the shaped spatial parts. Fixed between core parts coaxial horizontal rods are made in the form of through tube with tensile member passed through. Stopping ledge is placed in the point where axes of horizontal rods are intersected. The stopping ledge is made in the form of through tube passed through horizontal through rod. Cantilever parts of the tube are provided with bases of the spatial shaped parts strung on. Base of one shaped part is attached to the stopping ledge. Coaxial rods of other perpendicular direction are interconnected by the central bolt passed through the stopping ledge. Ends of the horizontal rods of other perpendicular direction may be provided with a bolt and nut joint to them by welding. EFFECT: high efficiency, reliability, low labour consumption. 2 cl, 2 dwg

Description

 The invention relates to construction, namely to spatial bar structures, in particular to the nodes of the connection of metal, reinforced concrete, wooden and plastic rods and can be used to create both not stressed and prestressed rod structures of the type of structure.

 Known is the nodal connection of the rods of the spatial frame of the Tubacord system, including a horizontally located rod of one direction with one attached to it inclined rod and two gussets located respectively: horizontally, to which horizontally located rods of another perpendicular direction are connected, and inclined to which is connected another inclined rod, and fasteners / 1 /.

 Such a unit allows you to create flat trusses, but it is time-consuming both in manufacturing and in installation, since during the assembly of the frame at the construction site, a large number of additional horizontal and inclined elements are attached to the flat trusses.

 Closest to the invention is a nodal connection of the rods of the spatial frame, including the core, consisting of two parts in the form of plates, fastened together by a central bolt, the tips of horizontally located rods pinched between the parts of the core, and inclined rods connected to one of the plates using eyes / 2 /.

 The disadvantages of this connection are the high complexity of manufacturing and installation, the lack of the ability to create prestress to increase spans, the inability to carry out an enlarged assembly assembly.

 In the nodal connection of the rods of the spatial frame, including a core consisting of two parts fastened together by a central bolt, coaxially located horizontal rods of one direction, coaxially located horizontal rods of another perpendicular direction and inclined rods, the core parts are made in the form of two identical the dimensions of the spatial gussets, the bases of which are made with holes, are arranged vertically, and the inclined rods are attached welded to the spatial shapes, the coaxially located horizontal rods pinched between the core parts are made in the form of a through pipe with a guiding element passed through it and with a locking protrusion, while the locking protrusion is located at the intersection of the axes of the horizontally located rods, made in the form of a through pipe passed through a horizontal through rod, on the cantilever parts of which are dressed with holes of the base of the spatial shapes, the base of one of the shapes attached about to the locking protrusion, and coaxially arranged rods of another perpendicular direction are interconnected by a central bolt passed through the locking protrusion; the ends of horizontally arranged rods of another perpendicular direction are provided with a bolt with a nut connected to them by welding.

 In FIG. 1 shows a nodal connection of the rods of the spatial frame; figure 2 view aa in figure 1.

 The nodal connection of the rods of the spatial frame includes a core consisting of two spatial dimensions of the same size 1 and 2, the bases 3 of which are provided with an opening 4, are arranged vertically in the assembly and to which the inclined rods are attached 5. A horizontally located rod is placed between the parts of the core 1 and 2 one direction 6 with the tensioning element 7 passed through it and with the locking protrusion 8. The locking protrusion 8 is located at the intersection of the axes of the horizontally located rods 6 and 9, flax in the form of a through pipe, passed through a horizontally located rod 6 and attached to it by welding. On the cantilever ends 10 and 11 of the protrusion 8, holes 4 of the bases 3 of the spatial fittings 1 and 2 are dressed and the base of one of the fittings, for example 1, is attached to the locking protrusion 8. The horizontally arranged rods of another perpendicular direction 9 are interconnected by a central bolt 12 passed through the fixing protrusion 8. The ends of these rods 9 are provided with a bolt 12 and a nut 13, respectively, and are connected to them by welding.

 When performing a spatial frame of wooden rods, holes 14 are provided in the bases of 3 spatial shapes 1 and 2.

 The implementation of the parts of the core in the form of two spatial dimensions of the same size 1 and 2, and attaching to the base of one of the shapes of the locking protrusion 8 of the horizontal rod 6 made it possible to create flat trusses with one belt. This made it possible to significantly reduce the metal consumption and weight of the frame, the complexity of its manufacture and installation, to obtain a sliding type structure, to perform a spatial structure of various building materials.

 Assembly of the frame is carried out in the following sequence. Two starting elements arrive at the construction site, namely: a flat truss in a bag and horizontal rods of another perpendicular direction 9. The trusses are pushed apart and connected by rods 9, twisting the nut 13 of the mounted rod onto the bolt 12 of the mounted rod 9, or vice versa.

 During installation, in order to increase the bearing capacity of the assembly and the frame as a whole, it is possible to weld the fixing protrusion 8 with the base 3 of the second spatial profile 2, as well as the rods 9 with the base 3 of the shapes 1 and 2.

 The spatial frame is made of metal elements. However, in order to reduce the dead weight of the carcass and / or / save metal, the carcass can be made of wood, plastic, prestressed concrete or fiber-reinforced concrete, or of combined elements.

 The node allows, thanks to the creation of flat trusses, to significantly simplify the design of the node, as well as to minimize the number of shipping elements and get the design almost complete factory readiness, while reducing not only the complexity of its manufacture but also installation, to increase the bearing capacity of the node and frame as a whole, expand the functionality by creating structures of metal, reinforced concrete, wood, plastic and combined rods.

Claims (2)

 1. Nodal connection of the rods of the spatial frame, including a core consisting of two parts, fastened together by a central bolt, pinched between the parts of the core, coaxially located horizontal rods of one direction, coaxially located horizontal rods of another perpendicular direction and inclined rods, characterized in that the parts of the core made in the form of two spatial dimensions of the same size, the bases of which are made with holes, are arranged vertically, and the clone rods are attached to the spatial shapes, pinched between the core parts, the coaxially located horizontal rods are made in the form of a through pipe with a tensioning element passed through it with a locking protrusion, while the locking protrusion is located at the intersection of the axes of the horizontally spaced rods, made in the form of a through pipe, passed through a horizontal through rod, on the cantilever parts of which are worn with openings of the base of spatial shapes, and the base of one and 3 gussets are attached to the locking protrusion, and coaxially arranged rods of another perpendicular direction are interconnected by a central bolt passed through the locking protrusion.  2. The compound according to claim 1, characterized in that the ends of the horizontally spaced rods of another perpendicular direction are provided with a bolt and nut connected by welding.

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