RU1815323C - Multiple-bar joint of rod spatial structure - Google Patents

Abstract

Usage: in rod spatial systems of supporting structures in the fields of engineering, energy, space technology, etc. using metal alloys as well as reinforced concrete for the manufacture of system elements. SUMMARY OF THE INVENTION: a nodal connection of a rod-shaped spatial structure with horizontal and inclined elements having shaped tips includes a core with a central hole, in which a tie bolt with spacer conical bushings and shaped tips of the elements are placed. The connection is provided with a cross-shaped spacer installed in the central hole of the core, between the branches of which are shaped tips-inclined elements, and the side surface of the core is made with profiled grooves around the perimeter for fastening the tips of horizontal elements. 2 ill.

Description

The invention relates mainly to the field of industrial and civil engineering, but can also be used in pivotal spatial systems of load-bearing structures in the field of mechanical engineering, energy, space technology, and the like. using for the manufacture of system elements both metal alloys and reinforced concrete,

The aim of the invention is to simplify the installation of the spatial frame and reduce the complexity.

Figure 1 is a general view of a nodal connection; figure 2 is a section of the core and a cross-shaped spacer.

The nodal connection of the rod spatial structure consists of a core 1 made in the form of a sleeve, on the side surface of which profiled grooves 2 are made on the outside, for example in the form of a dovetail of the tail, and which are placed during assembly of the tips of the connecting horizontal elements 3. made with seats corresponding to the shape of the grooves in the lateral surface of the core 1. In the Central hole of the sleeve (core 1) when assembling placed tips 4 inclined connecting el parts and retaining bolt (stud) 5 s

00

from so go

tapered bushings 6 and a cret-shaped spacer 7, in the grooves of which the assembly contains the tips 4 of the inclined elements, as well as the nut 8. The ends of each inclined element are provided with a pair of chamfers 9 and 10, which contact the assembly, respectively, with the chamfers 11 of the central hole of the sleeve 1 and the conical surface mi spacers 6. The ends of the connecting horizontal elements 3 are pinched in the grooves 2 of the sleeve 1, which can be made blind. The fastening of the tips 4 of the inclined connecting elements to the core 1 can be strengthened by bolts 12 in front of the annular protrusion 13. which, if necessary, can be performed on the upper end of the sleeve 1.

A nodal connection works as follows ..

The assembly of spatial structures from horizontal and inclined connecting elements made of metal alloys or reinforced concrete, for example, fine-grained sand concrete, and manufactured at the factory, is carried out at the construction site (in the case of civil or industrial construction) or at the assembly site (in the case of creating load-bearing structures in the field of mechanical engineering, energy or space technology) sequentially from node to node. When assembling, the connecting horizontal elements of the spatial frame are inserted with their tips 3 into the profiled grooves 2 of the core 1. The clamping grooves 2 for placing the tips of the horizontal connecting elements 3 are strictly vertical and the elements (rods) 3 are mounted by lowering the shaped tips of the horizontal elements into the groove 2. e.g. dovetail. When mounting in enlarged blocks, those cores 1 that are involved in attaching the block to the structure must be well attached to the rods (horizontal connecting elements) 3 before the assembly of the assembly is complete. When assembling, the inclined connecting elements (braces) with their tips 4 are inserted inside the central hole of the core 1, placing them in the grooves of the cross-shaped spacer 7, and the central tightening bolt (hairpin) 5 through the spacer conical bushings 6 is used to tighten the inclined connecting elements of the spatial frame . When assembling, the tips of the 4 inclined connecting elements of the spatial frame due to chamfers made in the central hole

5

0

5

0

5

0

5

0

5

the core 1 and the tips of the inclined elements in contact with the chamfers 9 and 10, angularly rotate and orient the elements of the spatial frame, which facilitates the assembly of the spatial-rod system. In order to be able to place the tips 4 in the central hole of the core 1, a cross-shaped spacer 7 is inserted into the hole of the core after the tips 4 are placed there and wedged them in the hole. The final fastening of the tips 4 in the core 1 is carried out by spacer conical bushings 6 with the help of a central tightening bolt 5. The fastening of the tips 4 to the core 1 can be strengthened by bolts 12.

The proposed device allows milling grooves in the side walls of the core and profiling the shaped tips of the horizontal and inclined connecting elements of the spatial frame on automatic machines with programmed control without the use of manual labor. Reinforced concrete connecting elements are molded in a group formwork, for example 100 pieces at once or more, and are simple in shape. They are made by a progressive method of molding from cement-sandy fine-grained concrete based on fine-mixed complex binders (TKV) and compacted on a conventional vibrating platform with a lifting capacity of 5 tons. After assembly, each node is monolithic with cement-colloid adhesive, after monolithic joints and joint spills of the spatially rod system becomes rigid, and the floor slab is waterproof.

Compared with the known technical solutions, the invention allows to simplify the installation of the spatial structure, to reduce its laboriousness, and also has greater manufacturability and lower cost.

Formulas of the invention

A nodal connection of a rod-shaped spatial structure with horizontal and inclined elements having shaped tips, including a core with a central hole in which the bolt is arranged with spacer conical bushings and shaped tips of the elements, characterized in that. in order to simplify installation and reduce its complexity, the connection is equipped with a cross-shaped spacer installed in the central hole of the core, between the branches of which are shaped tips of the inclined elements, and