RU2599998C1 - Node connection of structural design - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to construction and can be used for node connections of spatial structures, for example, structural plates of covers (floors). In a node connection of a structural design including intersecting rods of belt grids with end plugs and cut-in zigzag plates, as well as diagonal grid elements with suppressed and bent flat tips, each of the tips is located between extending parts of the cut-in plates and attached to them by means of bolts let through coaxial holes. Herewith the cut-in zigzag plates have the shape of isosceles trapezoids, lateral sides of which coincide with bending lines of the flat tips.

EFFECT: technical result is reducing material consumption and labour intensiveness of manufacturing and assembling.

1 cl, 7 dwg

Description

The invention relates to construction and can be used for nodal connections of spatial structures of buildings and structures, for example cross-rod systems or structural slabs of coatings (floors).

Known is the nodal connection of a two-belt spatial structure with frames at the corners of the ends of the elements, where one of the shelves of each gusset is made with broadening for fastening with the rods of the lattice [V. Orlik Nodal connection of spatial bar structures. - Copyright certificate No. 648703, 02/28/1979, bull. No. 7]. The design is assembled on bolts without welding.

The disadvantage of this nodal connection is the need for double cutting of tubular elements, which increases the complexity of manufacturing. In addition, the bolted joints of the corner gussets require compliance with increased accuracy both in the manufacture and installation of structures.

In the node of intersection of split rods from tubular profiles, you can use a typical bolted connection, including mortise gussets and end caps [Metal construction. In 3 t. T. 1. Elements of structures. Textbook for high schools / Ed. V.V. Grief. - M.: Higher School, 2004 .-- S. 352, Fig. 6.20]. Mortise gussets at one end pass through the midpoints of the ends of the connected rods, dividing each of the end caps into two equal parts, and the other end is a continuation of the rods in which the holes for the bolts are located. If the insertion depth is 1.5 ... 1.6 times or more greater than the diameter of the pipe (section height), then the influence of eccentricity on the operation of the gusset can not be taken into account when calculating the extended rods, and in compressed ones, take this influence into account by the coefficient of working conditions equal to 0.6. At the same time, the noted parameters of the insertion depth ensure equal strength of the rod and the attachment of the cut-in gusset to it. At the installation, the protruding parts of the gussets overlap each other and, after aligning the holes, are bolted.

The disadvantage of this nodal connection at the intersection of four core elements in it is the presence of total eccentricity, which causes an additional bending moment and increases the material consumption of the structures.

Another well-known technical solution is a spatial truss (structural structure) of tubular rods formed by waist grids parallel to each other and interconnected in nodes by braces. At the intersection, the core elements of the belts and braces of one direction are interrupted, and the other remain continuous. The rod elements are made with flattened ends in the form of flat tips. In addition, in places dividing in half by their length, they are flattened with the allocation of flat sections. With the help of single bends of flat tips and double bends of the middle sections, the rod elements of the braces are given a V-shape. In connecting nodes that coincide with the intersection, interrupted rod elements of one direction overlap each other and are joined with continuous rod elements of the other direction with centrally located bolts and double pairs of pressure washers [Space truss. - EP 1496166 A1, 12.01.2005, bulletin 2005/02].

The disadvantage of this technical solution is that double pairs of clamping washers increase the labor costs of manufacturing and the consumption of structural material, and their total thickness is the reason for noticeable misalignment in the connecting nodes. Nodal offsets can result in eccentricities exceeding one fourth of the height of the waist element. In such cases, it is necessary to take into account additional stresses from moments, which is accompanied by an increase in the material consumption of the supporting structures.

Another nodal connection of intersecting rods, mainly tubular, is known, including flanges (end caps) and trims (gussets) cut into the pipes, fastened by protruding parts to each other with an overlap by means of bolts passed into the coaxial holes. In this case, the slats are cut in at least two levels along the height of the section of the rods perpendicularly and symmetrically with respect to their longitudinal axes. In addition, gaps are formed by the lateral edges of the protruding parts of the slats and the walls of the rods [Avanesov S.I., Marutyan A.S., Trofimov V.I., Pimenov I.L., Sargsyan O.V. Nodal connection of intersecting rods. - Copyright certificate No. 1325144, 07.23.1987, bull. No. 27].

The disadvantage of this nodal connection is the certain complexity of the installation work due to the location of the mortise bars of the rod elements of one direction in height between the bars of the elements of another direction. Moreover, the presence of double slots in the side walls of the tubular elements of the intersecting rods increases the complexity of manufacturing structures, especially in the case of round pipes.

The closest technical solution (adopted as a prototype) to the proposed one is a nodal connection of intersecting rods mainly of round pipes, including end caps and mortise bars. The strips are placed in the middle of the height of the cross section of the rods perpendicularly and symmetrically with respect to their longitudinal axes. The strips are fastened by protruding parts between themselves overlapping by means of bolts passed into the coaxial holes. Each of the strips has a zigzag shape with protruding parts parallel to each other. All contact surfaces of the bolted lap joints lie in the same plane with the longitudinal axes of the intersecting rods [Marutyan AS, Yanukyan GM Nodal connection of intersecting rods. - Patent No. 2358068, 06/10/2009, bull. No. 16].

The disadvantage of the prototype is that by connecting the intersecting rods of the waist grids, it does not allow diagonal lattice elements to be joined with them, and thereby limits the scope. Therefore, for use in spatial cross-rod (structural) structures, the prototype needs some refinement.

The technical result of the proposed solution is to expand its scope with a decrease in the consumption of structural material, as well as a decrease in the complexity of manufacturing and installation.

The specified technical result is achieved in that in the nodal connection of the structural structure mainly from round pipes, including intersecting waist net rods with end caps and mortise zigzag planks, as well as diagonal lattice elements with flattened and bent flat tips, each of the tips is located between the protruding parts of the mortise strips and fastened with them by means of bolts passed into the coaxial holes. In this case, the cut-in zigzag planks have the shape of isosceles trapeziums, the sides of which coincide with the bending lines of flat tips.

The proposed nodal connection of the structural design has a fairly universal technical solution. So, the knot on the cut-in slats is simplified when a solid (continuous) core element of one of the intersecting directions passes through its intra-node cavity, and the number of end caps is halved. At the same time, the planks embedded in the integral element, which may have a flat shape, also simplify.

As another example of the use of the proposed nodal connection, one of the structural design options for the endless coating can be cited, where the solid (continuous) core elements of one of the intersecting directions are made of tubular profiles of rectangular cross section.

The proposed technical solution is illustrated by graphic materials, where in FIG. 1 shows the nodal connection of the structural design of round pipes, a top view (bolt mountings are not conventionally shown); in FIG. 2 - a lateral section of the assembly at the level of the upper waist mesh (bolt mountings are not conventionally shown); in FIG. 3 - a lateral section of the assembly at the level of the lower waist mesh (bolt mountings are not conventionally shown); in FIG. 4 shows the nodal connection of the structural structure of the driveless coating, top view (bolt mountings are not conventionally shown); in FIG. 5 is a lateral section of the assembly at the level of the upper waist mesh of the impregnated coating (bolt mountings are not conventionally shown); in FIG. 6 is a snapshot of a fragment of a prototype nodal joint after its tensile test; in FIG. 7 is a tensile diagram of a prototype nodal joint.

The nodal connection of the structural structure, mainly from round pipes, includes intersecting rods of waist belts 1 and diagonal elements of the lattice 2. At the ends of the intersecting rods 1 are plugs (flanges) 3 and strips (gussets) 4. Zigzag brackets 4 fastened by protruding parts overlapping , have the shape of isosceles trapezoids and are cut in the middle along the height of the sections of the rods 1 perpendicularly and symmetrically with respect to their longitudinal axes. The ends of the diagonal elements 2 are flattened and bent in the form of flat tips 5. In the assembled assembly connection, each of the tips 5 is located between the protruding parts of the mortise bars 4 and fastened to them by means of bolts passed into the coaxial holes 6. The sides of the mortise bars 4 coincide with the lines of the bends of the flat tips 5.

The rods of one of the intersecting directions can be made integral in the form of a continuous rod element 7, and the slats 8 cut into it are flat.

The results of experimental studies of the connecting node of the rod elements of round pipes on the cut-in planks confirmed its necessary and sufficient reliability, as well as the prospect of further development for rational and effective use in structural (spatial-rod) structures [Marutyan A.S. Nodal connections of cross-systems and their calculation. - Structural mechanics and calculation of structures, 2010, No. 3. - S. 18-26]. Therefore, in the proposed nodal connection, the revealed reliability of the cut-in slats allows you to give them additional functions using the flat tips of the diagonal lattice elements as clamping parts, which helps to expand the scope with a decrease in the consumption of structural material, as well as reducing the complexity of manufacturing and installation.

The formation of flattened (flat tips) and transitional parts of the diagonal elements of the lattice is recommended to be made with a slope of the transitional section 1/6 ... 1/4 [1. Trofimov V.I., Kaminsky A.M. Lightweight metal structures of buildings and structures: Textbook. - M.: Publishing house of the DIA, 2002. - S. 152; 2. J.A. Packer, J. Wardenier, X.-L. Zhao, G.J. van der Vegte and Y. Kurobane. Construction with hollow steel sections. Design Guide for rectangular hollow section (RHS) joints under predominantly static loading. CIDECT, 2009. - P. 102]. Sheet hinges are formed along the bending lines of flat tips, which ensures close correspondence of the design design in the form of a hinge-rod system to its actual operation and is accompanied by an increase in the reliability of the nodal connection.

Claims (1)

A nodal connection of a structural design, including intersecting rods of waistbands with end caps and mortise zigzag bars, as well as diagonal lattice elements with flattened and bent flat tips, characterized in that each of the tips is located between the protruding parts of the mortise straps and fastened with them through coaxial bolt holes, and the cut-in zigzag planks have the shape of isosceles trapeziums, the sides of which coincide with the lines of the bends Osk tips.

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