RU184428U9 - Nodal connection of structural structure rods - Google Patents

Abstract

The utility model relates to the field of construction, namely to spatial bar structures, in particular to the nodes of the connection of metal rods.

The technical result of the utility model is to increase the reliability and stability of the nodal connection of the rods of the spatial frame, reducing the number of components of the nodal connection, as well as simplifying the technology of their manufacture and simplifying the installation of the spatial frame.

The technical result is achieved by the fact that in the nodal connection of the rods all the rods of the structural structure of the spatial frame are made of channels or closed profiles continuous in length. At the same time, part of the shelves are cut off at the inclined rods and the walls are bent, which are wound between horizontal rods and are connected by bolts. Horizontal rods are oriented to each other by their walls.

Using the proposed technical solution allows us to simplify and speed up the assembly of the spatial frame, reduce labor costs during its manufacture and installation by reducing the number of elements in the nodal connection and the exclusion of specially manufactured nodal connectors, reduce the cost of production as a result of rational unification of the elements.

Description

The utility model relates to the field of construction, namely to spatial bar structures, in particular to the nodes of the connection of metal rods.

It is known nodal connection of the rods of the spatial frame, consisting of pinched between parts of the core and fastened together by a central bolt, coaxially located horizontal and inclined rods. // RF patent for the invention №2063501, IPC Е04В 1/58 (1995.01) Nodal connection of the rods of the spatial frame / V.I. Burchu, P.T., Bulat, Yu.K. Lunenko, declared. IN AND. Burchu, 04/20/1992, publ. 07/10/1996 / Accepted as a prototype.

The disadvantages of this nodal connection are a large number of elements and low reliability, significant labor costs in the manufacture of elements of the nodal connection and the installation of the spatial frame.

The essence of the utility model is to reduce the number of additional elements, simplify the assembly of the nodal connection of the rods of the spatial frame, reduce labor costs during its manufacture and installation, reduce the cost of production as a result of rational unification of the elements, as well as increase the convenience of transporting the structure in disassembled form.

The technical result of the utility model is to increase the reliability and stability of the nodal connection of the rods of the spatial frame, reducing the number of components of the nodal connection, as well as simplifying the technology of their manufacture and simplifying the installation of the spatial frame.

The technical result is achieved by the fact that in the nodal connection of the rods of the spatial frame, consisting of coaxially located horizontal and inclined rods, as well as the central bolt fastening, the feature is that the rods are solid and continuous, and the central bolt fastening is installed at the axial intersection of the rods while the inclined rods have cutting sections that allow them to be stably positioned between the horizontal rods and fixedly bolted eat. At the boundary of the cutting sections, the inclined rods are bent at a given angle.

The rods can be made of a channel, while the horizontal rods are oriented to each other by their walls or from a closed profile, in this case the horizontal rods, in the area of the bolt fastening, have holes for its installation, and the upper horizontal rod is equipped with a plug for the hole.

In the manufacture of the rods from the channel there is no connector, the assembly is made of the elements themselves by cutting part of the cross section of the inclined rods and connecting them to the horizontal rods using bolt fastening. In the manufacture of rods from a closed profile, there is also no connector, the assembly is made of the elements themselves by cutting part of the cross section of the inclined rods and connecting them to the horizontal rods using bolt fastening, and a cut is made in the place of bolt fastening on the upper horizontal rod and a plug is installed.

The utility model is illustrated by drawings.

In FIG. 1 shows an axonometric view of the nodal connection of the rods of the spatial frame of the channels, where the following designations are accepted: horizontal rod - 1, inclined rod - 2, bolt fastening - 3.

In FIG. 2 shows a perspective view of the nodal connection of the rods of the spatial frame from closed profiles, where the following notation is used: horizontal rod - 1, inclined rod - 2, bolt fastening - 3, plug - 4.

The nodal connection of the rods of the spatial frame contains horizontal rods - 1 and inclined rods - 2, made of continuous channels or closed profiles. Inclined rods - 2 can be made of bent channels or closed profiles of another section and have, for example, a section of no more than 1/2 section of horizontal rods. In the supporting zone, at the axial intersection of the rods, the inclined rods - 2 have cutting sections. Fragments of shelves and the upper wall (channel or closed profile) were removed in these areas, which allows them to be stably placed between horizontal rods - 1 and securely fixed with bolt fastening - 3. At the border of the undercut sections, the inclined rods - 2 have bends at a certain angle, for example, at an angle of 135 °. In the manufacture of rods from a closed profile on horizontal rods - 1, holes are made with the possibility of installing bolt fasteners through them - 3.

Nodal connection of the rods of the spatial frame is collected in the following order.

All structural structural elements of the spatial frame come from the factory with already prepared undercuts, bends and holes. Horizontal rods - 1, which are made with a length equal to the dimensions of the entire structure, i.e. continuous in nodes. Inclined rods - 2 are made in lengths “from knot to knot” and have trimmings in the shelves of a channel or a closed profile. The uncut walls of the inclined rods - 2, previously bent to a predetermined angle, for example, 45 ° relative to the axis of the rod, are positioned relative to each other, for example, at an angle of 90 ° and mounted on a horizontal rod - 1. Then, another horizontal one is laid on top of the inclined rods - 2 rod - 1. When performing a nodal connection of channels, horizontal rods - 1 are oriented to each other by their walls. After that, using bolt fastening - 3, all the rods are connected. In horizontal rods - 1 made of closed profiles, plugs - 4 are installed in the holes above the bolt fastening - 3. As a plug - 4, a fragment of a closed profile is used, cut to install a bolt fastener - 3 through the hole formed. Plugs - 4 are fixed, for example, using a sealant in the form of a woven material or an adhesive composition deposited on its side faces.

Using the proposed technical solution allows us to simplify and speed up the assembly of the spatial frame, reduce labor costs during its manufacture and installation by reducing the number of elements in the nodal connection and the exclusion of specially manufactured nodal connectors, reduce the cost of production as a result of rational unification of the elements.

Reliability and stability of both the nodal connection and the spatial frame itself are enhanced by making the spatial frame rods continuous, horizontal rods are made with a length equal to the dimensions of the entire structure, inclined rods are also made integral, i.e. continuous in nodes. This allows you to reduce the number of connecting nodes between the elements of the spatial frame, the number of elements of each node connection and, as a result, reduce the number of structural elements as a whole.

Claims (3)

1. Nodal connection of the rods of the spatial frame, consisting of coaxially located horizontal and inclined rods, as well as a central bolt fastening, characterized in that the rods are solid and continuous, and the central bolt mount is installed at the axial intersection of the rods, while the inclined rods have cutting areas that allow them to be stably positioned between horizontal rods and fixedly bolted; at the boundary of the cutting sections, the inclined rods are bent at a given angle. 2. Nodal connection according to claim 1, characterized in that the rods are made of channel, while the horizontal rods are oriented to each other by their walls. 3. The nodal connection according to claim 1, characterized in that the rods are made of a closed profile, while the horizontal rods, in the area of the bolt fastening, have holes for its installation, and the upper horizontal rod is equipped with a plug for the hole.

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