RU2678283C1 - Node connection of collapsible dome-shaped building structures - Google Patents

Abstract

FIELD: construction.SUBSTANCE: invention relates to the construction, namely to the node connections of collapsible dome-shaped building structures. Knotted joint consists of a core-bonded building material, tightening nuts. Joint contains a multi-faceted bracket, in the holes of which there are U-shaped bolt brackets, and tightening plates and tightening nuts are installed on the U-shaped bolt brackets.EFFECT: technical result is an increase in the strength characteristics of the nodal connection due to getting rid of stress concentrators in the places of attachment of the bonded core building material and fasteners of the nodal connection.1 cl, 5 dwg

Description

The invention relates to the field of construction and can be used for the manufacture of collapsible dome-shaped building structures of buildings and structures.

Known nodal connections of spatial and shell building structures (RU No. 2190733 C1, MKI E04B 1/32, publ. 10/10/2002), (RU No. 2468157 C1, MKI E04B 1/58, publ. 11/27/2012), (RU No. 2519142 C2, MKI E04B 1/38, publ. 06/10/2014) containing connecting elements, fasteners, elements reinforcing the strength of the nodal connection.

A disadvantage of the known nodal joints of spatial and shell building structures is the lack of strength due to the fact that the materials fastened in the nodes have technological cavities and / or holes that are stress concentrators.

Known structural joint connection of the bearing panels of a collapsible building envelope (RU No. 2190733 C1, MKI E04B 1/32, publ. 10.10.2002), consisting of spherical segments with threaded ends welded to the convex parts, fixing and adjusting nuts, washers, hemispherical casing elements with flanges, embedded ball element with a protruding cylindrical retainer, connecting bolts, nuts, washers, fastened building material.

A disadvantage of the known nodal building joints of load-bearing panels of a collapsible building shell is the presence of fasteners that destroy the integrity of the fastened building materials. The presence of technological cavities in fastened building materials, which are stress concentrators, reduces the life of a collapsible building shell.

The invention solves the problem of increasing the strength characteristics of the nodal connection of collapsible dome-shaped building structures.

The technical result consists in changing the design of the fastening of the fastened core building material in the nodal connection of a collapsible dome-shaped building structure.

The presence in the nodal connection of collapsible dome-shaped building structures of the tightening plates that fix the core building materials without destroying its integrity, while completely eliminating the presence, in the fastened core building material, of technological cavities and holes for fastening in the nodal connection.

The nodal connection of collapsible dome-shaped building structures fastens the building material with tightening plates, while the fastened core building material is compressed in the center of the multi-faceted bracket due to the pointed end of the ends, and the guide slot in the core building material determines its inclination relative to the multi-faceted bracket and determines the diameter of the multi-faceted bracket collapsible domed building structure.

To achieve the specified technical result in the nodal connection of collapsible dome-shaped building structures containing a multi-faceted bracket with holes, U-shaped bolt-brackets according to the invention are installed in the holes, the rod-mounted building material has no holes and technological cavities. The nodal connection of collapsible dome-shaped building structures has no wedge-shaped joints and is made with the possibility of fastening at the same time as many fastened materials as installed U-shaped bolt brackets on the bracket.

In FIG. 1 shows a nodal connection of collapsible dome-shaped building structures, an isometric view of a nodal connection in an unassembled form, in FIG. 2 - nodal connection of collapsible dome-shaped building structures, isometric projection of the nodal connection in partially assembled form, in FIG. 3 - nodal connection of collapsible dome-shaped building structures, the main view, where the angle β is the angle of sharpening of the ends of the fastened core building material, FIG. 4 is a fastened core building material with a guide slot, where the angle α is the angle of inclination of the core fastened building material 5 relative to the multi-faceted bracket 1, in FIG. 5 - nodal connection of collapsible dome-shaped building structures without fastened material, photograph.

The nodal connection of collapsible dome-shaped building structures consists of a multi-faceted bracket 1 with holes 2 drilled in it for fastening U-shaped bolt-brackets 3 to U-shaped bolt-brackets 3; tightening plates 4 are installed; tightening plates 4 are pulled together by a rod fastened building material 5 due to the tightening of the nuts for tightening the plates 6, the contractible building material 5 for guiding the construction of the dome shape has guide slots 7 which set the angle α between the core builder materials 5 and polyhedral bracket 1. For full contact of the ends of the rod fastened building material 5 in a nodal connection, the ends of the rod fastened building material 5 are pointed at an angle β. (The nodal connection of collapsible dome-shaped building structures consisting of six fastened building materials is considered).

The assembly of the nodal connection of collapsible dome-shaped building structures is carried out in the following sequence, on a multi-faceted bracket 1, the number of faces of which corresponds to the number of rod fastened building materials 5, U-shaped bolt brackets 3 are installed in holes 2, on U-shaped bolt brackets 3 the tightening plates 4 are installed, the tightening plates 4 are preliminarily, without tightening, screwed onto the fastening nuts of the tightening plates 6, then in the multi-faceted bracket 1, between the tightening and the plates 4 install the rod-fastened building material 5 so that its guide slots 7 extend onto the multi-faceted bracket 1 at an angle α, then the screws tighten the tightening nuts of the plate 6 to the desired tightening torque, the tightening plates 4 moving along the U-shaped bolt brackets 3 towards the multifaceted bracket 1 by tightening the nuts of the fastening of the clamping plates 4, catching on the rod fastened building material 5 move it towards the center of the multifaceted bracket 1. Ends with replicable building material 5, having a sharpening at an angle β, abut against each other in the center of the multifaceted bracket 1 and finally are pulled together, the guide slots 7 have a size that makes it possible to freely contact the pointed, at an angle β, ends of the core fastened building material 5 to connect in the center of the multifaceted bracket one.

Claims (1)

The nodal connection of collapsible dome-shaped building structures, consisting of a rod-fastened building material, tightening nuts, is characterized in that the connection contains a multifaceted bracket, in the holes of which are U-shaped bolt-brackets, and tightening plates are installed on U-shaped bolt-brackets and tightening nuts.

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