RU2010091C1 - Building and frame of building skeleton - Google Patents

Abstract

FIELD: construction of buildings. SUBSTANCE: lattice gantry beams rest on both branches of frame posts by their upper belt through supporting table. Lower belt of collar beams is connected to inner branches of posts. Post branches are reinforced with additional braces in zone of attachment of gantry beam lower belt to them. Tension bars are parallel to gantry beams in the middle of span between them and along building with their attachment to outer branches of posts in plane of gantry beam lower belts. Wall guard is attached to post outer branches through girders horizontally installed in gap between them. Branches and post lattice, belts and gantry beam lattices, posts of framework and connections made of single or twin Σ-shaped sections. Twin sections may be interconnected with flanges to form spaces for passing engineering services or for filling with concrete. EFFECT: higher efficiency. 21 cl, 16 dwg

Description

 The invention relates to the field of construction and can be used in the construction of buildings with a metal frame for industrial and agricultural purposes.

 The closest technical solution is a building containing foundations, a metal frame of frames in the form of racks of two branches and a lattice and trellised crossbars from the upper and lower zones and braces, runs of vertical and horizontal ties, half-timbered racks and fences.

 The disadvantage of this solution is that the building and the frame have a high material consumption and insufficiently high technological adaptability.

 The problem solved by the invention is to increase the efficiency of the building and frame by reducing material consumption and simplifying installation.

 The problem is solved in that each bolt is supported on both branches of the frame racks by the upper belt by means of supporting tables protruding beyond the lower edge of the upper belt and raised above the lower belt level by 0.68-0.74 of the minimum crossbar height in its supporting part, and the lower belt of each crossbar is attached to the inner branch of the struts of the frames between the attachment points of the lattice, and the branches of the struts are unfastened by an inclined brace, the upper end of which is attached to the upper end of the outer branch, and the lower end to the inner branch in the zone fastening the lower girder belt to it, while the building is equipped with tie rods, some of which are installed parallel to the girders in the middle of the span between the last, and the other along the building and attached to the outer branches of the struts in the plane of the lower girder belts, and the wall fence is installed at the outer branches of the struts frames with a gap relative to them and attached to them by means of runs run horizontally in the gaps and made of single or twin profiles of a Σ-shaped cross section.

 In addition, at least part of the runs, and / or half-timbered racks, and / or ties can be made of paired Σ-shaped cross-sectional profiles connected by walls; at least part of the runs and / or half-timbered racks and / or ties can be made of paired profiles of a Σ-shaped cross section, interconnected by shelves with the formation of a closed cavity; horizontal ties can be located between adjacent crossbars in the plane of their upper zones and are made of rigid diagonal elements connected to each other and with longitudinal cords at the points of intersection of the latter with the runs; longitudinal vertical ties are made cruciform with the fastening of their upper ends to the uprights of the frames in the level of longitudinal cords, and transverse vertical ties can be installed at the ends of the building and made in the form of inclined elements attached at one end to the half-timbered pillar and the other to the half-timbered outer pillars ; the attachment site to the middle rack, the fachwerk of the elements of transverse vertical ties located at least at one end of the building, can be placed at the level of the lower girder belt, and the attachment points of the elements of the transverse vertical ties to the outer racks of the half-timbers - in the middle part of the latter according to their height; the attachment unit to the middle rack, fachwerk of the elements of transverse vertical ties located at least at one end of the building, can be placed between the ends of the middle rack of the fachwerk, and the attachment points of the elements of the transverse vertical connection to the outer racks of the fachwerk can be placed respectively in the lower and upper parts of the outer racks half-timbered; the wall fence can be made in the form of insulated panels with at least one lining of corrugated flooring.

 The problem was also solved by the fact that in the frame of the building frame, the crossbar is supported on both branches of the uprights by the upper belt by means of a support table protruding beyond its lower edge, and connected by the lower belt to the internal branch of the racks with the connection of the lower belt connection unit through an additional brace of the grate, the upper end which is attached to the upper end of the outer branch of the uprights with the formation of a rigid node for fastening the latter with a crossbar.

 In addition, at least one branch of the uprights can be made of paired profiles of a Σ-shaped cross section; the diagonal lattice of the racks is made of molded elements from single or twin profiles of a Σ-shaped cross section; at least the upper belt of the trellis crossbar is made of paired profiles of a Σ-shaped cross section; the lower girder belt, at least in part of its length, can be made of a paired profile of a Σ-shaped cross section; at least part of the braces of the crossbar lattice can be made of elements of a Σ-shaped cross section; the upper and lower belts and braces of the lattice have the same width and are interconnected by paired scarves installed on their outer sides; paired profiles of racks and crossbars are interconnected by shelves with the formation of a closed cavity; closed cavities of paired elements of racks and crossbars can be filled with concrete; the inner surfaces of the paired elements of the uprights and crossbars can be coated with anticorrosive material; at least part of the paired profiles of the racks and crossbars can be equipped with holes and / or valves for passing engineering communications; the frame can be equipped with fastening elements for the guide rails located on the lower belt of the crossbar.

 The design is illustrated by drawings.

 In FIG. 1 shows a building, a cross-section with a frame of the frame; in FIG. 2 - the same plan (arrangement of frame elements); in FIG. 3 - section AA in FIG. 2; in FIG. 4 - the end of the building with the arrangement of transverse vertical ties; in FIG. 5 - the same option with a gate; in FIG. 6 - half-timbered rack; in FIG. 7 is a view B in FIG. 6; in FIG. 8 is a section BB in FIG. 7; in FIG. 9 is a section GG in FIG. 7; in FIG. 10 - lattice crossbar of a frame (option); in FIG. 11 - node D in FIG. 10; in FIG. 12 - node E in FIG. 10; in FIG. 13 - node G in FIG. 10; in FIG. 14 - a rack of a frame with branches from single profiles of a Σ-shaped cross section; in FIG. 15 is a section II in FIG. 14; in FIG. 16 is a section K - K in FIG. 14.

 The building contains foundations 1, a metal frame of frames 2 in the form of racks 3 of two branches 4 and 5 and the lattices 6 and bolts 7 connecting them in the form of upper 8 and lower 9 belts, joined by braces 10, runs 11, vertical 12, 13, 14 and horizontal 15 ties, half-timbered racks 16 and 17, covering 18 and fencing 19.

 Each bolt 7 is supported on both branches 4 and 5 of the racks 3 by the upper belt 8 by means of supporting tables 20 protruding beyond the lower edge of the upper belt 8 and is rigidly attached to the branches 4 and 5. The lower belt 9 of each bolt 7 is attached to the inner branch 5 of the racks 3 between the attachment points of the lattice 6. The branches 4 and 5 of each rack 3 are fastened together by an additional brace 21, the upper end of which is attached to the upper end of the outer branch 4, and the lower end to the inner branch 5 of the rack 3 in the zone of attachment of the lower belt to it 9 crossbars 7.

 The transverse cords 22 are installed parallel to the crossbars in the middle of the span between the latter.

 Longitudinal cords 23 are placed along the building and attached to the outer branches of 4 racks 3 in the plane of the lower zones 9 of the crossbars 7.

 Wall fence 19 is installed at the outer branches of 4 racks 3 frames 2 with a gap of 24 relative to them, in which horizontally runs 25 and 26 are made of single or twin profiles of a Σ-shaped cross section and connecting the fence 19 with the outer branches of 4 racks 3 frames 2 The wall fence 19 may be made, for example, of insulated panels with one or two sheathing of corrugated flooring.

 At least part of the runs 11 and / or racks half-timbered 16 and 17 and / or ties 12, 13, 14 and 15 can be made of paired profiles of a Σ-shaped transverse profile, which are interconnected by walls 27 or shelves 28 with the formation of a closed cavity 29.

 Horizontal ties 15 are located between adjacent crossbars 7 in the plane of their upper belts 8 and are made of rigid diagonal elements that are interconnected and with transverse strands 22 at points 30 of the intersection of strands 22 with runs 11.

 The longitudinal vertical ties 12 are made crosswise and are attached by their upper ends to the uprights 3 of the frames 2 at the level of the longitudinal cords 23.

 The transverse vertical ties 13 and 14 can be installed in at least one end of the building and made in the form of inclined elements that are attached at one end to the middle post of the half-timbered 17 at the level of the lower belt 9 of the crossbars 7, and the other to the outer racks of the half-timbered 16 in the middle part according to their height (Fig. 4) or at one end to the middle rack half-timbered 17 between its upper and lower ends, and the other end, respectively, in the upper and lower parts of the outer racks of the half-timbered 16 (Fig. 5).

 The frame 2 of the building frame is formed of rigidly interconnected two-branch struts 3 and the lattice crossbar 7. The branches 4 and 5 of the racks 3 are interconnected by a diagonal lattice 6. The crossbar 7 contains the upper 8 and lower 9 belts and the braces connecting them 10. The crossbar 7 is supported on both branches 4 and 5 of the uprights 3 of the upper belt 8 through the supporting tables 20, protruding beyond the lower edge of the upper belt 8. The lower belt 9 of the crossbar 7 is attached to the inner branch 5 of the racks 3. The branches 4 and 5 of the latter are fastened together by an additional brace 21, the upper end which is attached to the top then rtsu of the outer branch 4 racks 3, and the lower end to the inner branch 5 of the racks 3 in the area of the attachment point of the lower belt 9 of the crossbar 7

 At least one branch of 4 and 5 racks can be made of paired profiles of a Σ-shaped cross section, and its lattice 6 can be made of linear elements in the form of single or paired profiles of a Σ-shaped cross section.

 In the crossbar 7, only the upper belt 8 or the upper belt 8 and the lower belt 9, at least for part of its length, as well as at least part of the braces 10 of the lattice, can be made of paired profiles of a Σ-shaped cross section. In this case, the upper 8 and lower 9 zones and braces 10 of the lattice have the same width and are interconnected by paired headscarves 31 mounted on their outer sides.

 Paired profiles of uprights 3 and crossbars 7 are interconnected with the formation of a closed cavity 29, which can be filled with concrete 32 or used for laying utilities, for which they are performed with holes 33 and / or valves 34.

 In buildings with crane equipment, the lower belt 9 of the crossbars 7 can be equipped with elements 35 for attaching the guides 35 of the crane beam 37.

 The invention allows to improve the technological, transport and operational qualities of structures and the building as a whole by reducing the material consumption and effective forms of application of lightweight bent profiles. (56) Kutukhtin E.G. Lightweight constructions of one-story industrial buildings. Designer reference. M., Stroyizdat, 1988, p. 103.

Claims (20)

BUILDING AND FRAME BUILDING FRAME
1. The building, including foundations, a metal frame with frames from racks in the form of two branches and a lattice and lattice beams supported on them, curtains, vertical and horizontal connections, half-timbered racks, flooring and wall fencing, characterized in that each bead is supported on both the branches of the uprights with the upper belt through supporting tables protruding beyond the lower edge of the upper belt and raised above the level of the lower belt by 0.68 N 0.74 of the minimum height of the crossbar in its supporting part, and the lower belt of each crossbar is connected to the inner branch of the struts between lamellas for attaching to it, moreover, the branches of the racks are split by means of additional beveling, the upper end of which is attached to the upper end of the outer branch, and the lower end is attached to the internal branch in the zone of attachment of the lower crossbar to it, while one of the buildings is equipped with parallel to the crossbars in the middle of the span between the last, and others along the building and attached to the outer branches of the struts in the plane of the lower girders, moreover, wall fencing was installed at the outer branches of the struts with gaps relative to them and the peak attached to them by means of passages horizontally located in the gaps and made of unary or paired profiles of Σ-shaped cross-section.  2. The building according to claim 1, characterized in that at least a part of the driveways and / or racks of the half-timbered house and / or ties are made of paired profiles Σ - of a different cross-section, interconnected by walls.  3. The building according to claim 1, characterized in that at least part of the driveways and / or racks of the half-timbered house and / or ties are made of paired profiles of a Σ -shaped cross-section, interconnected by shelves with the formation of a closed cavity.  4. The building in paragraphs. 1 - 3, characterized in that the horizontal connections are located between adjacent crossbars in the plane of their upper belts and are made of rigid diagonal elements connected to each other and with longitudinal strands at the points of intersection of the latter with progony.  5. The building according to paragraphs 1 - 4, characterized in that the longitudinal vertical connections are made crosswise with the fastening of their upper ends to the racks of frames in the level of longitudinal cords, and the vertical cross connections are installed at the ends of the building and are made in the form of inclined elements attached at one end to the middle of the rack the other end - to the outdoor racks half-timbered.  6. The building according to paragraphs 1 - 5, characterized in that the knot of attachment to the middle rack half-timbered elements of the transverse vertical links located at least in one end of the building, is located in the level of the lower belt of the crossbars, and the knot of the fastening elements of the transverse vertical links to the edges of the front last in their height.  7. The building according to paragraphs 1 - 5, characterized in that the unit of fastening to the middle rack half-timbered elements of the transverse vertical links located at least in one end of the building, is located between the ends of the middle strut half-timbered, and the nodes of the fastening of the elements of the transverse vertical links to the bottom to the and upper parts of outdoor racks half-timbered.  8. The building in paragraphs. 1 - 7, characterized in that the wall fencing is made in the form of insulated panels at least with one lining of corrugated flooring.  9. The frame of the building frame, including racks of two branches connected by a lattice, and a lattice crossbar supported by them with upper and lower belts, characterized in that the crossbar is supported on both branches of the pillars by the upper belt by means of a supporting table protruding beyond its lower edge and connected the lower belt with the internal branch of the struts with the splitting of the knot of the connection of the lower belt by means of an additional beveling of the lattice, the upper end of which is attached to the upper end of the outer branch of the struts with the formation of a hard knot of the latter with the bolt.  10. The frame according to claim 9, characterized in that at least one branch of the racks is made of paired profiles of a Σ -shaped cross section.  11. Frame according to paragraphs 9 and 10, characterized in that the rack lattice is made of linear elements from unary or paired profiles of a Σ-shaped cross section.  12. Frame according to paragraphs 9 - 11, characterized in that at least the upper belt of its crossbar is made of paired profiles of a Σ-shaped cross section.  13. Frame according to paragraphs 9 - 12, characterized in that the lower crossbar belt at least on a part of its length is made of paired profiles of a Σ-shaped cross section.  14. Frame according to paragraphs 9 to 13, characterized in that at least a part of the bevels of the crossbar of the crossbar is made of profiles of a Σ-shaped cross section.  15. Frame according to paragraphs 9 - 14, characterized in that the upper and lower belts and bevels of the crossbar lattice have the same width and are interconnected by pair of scarves installed from their outside.  16. Frame according to paragraphs 9 - 15, characterized in that the paired profiles of racks and crossbars are interconnected by shelves with the formation of a closed cavity.  17. Frame according to paragraphs 9-16, characterized in that the closed cavities of the paired profiles of the uprights and crossbars are filled with concrete.  18. Frame according to paragraphs 9 - 17, characterized in that the internal surfaces of the paired profiles of racks and crossbars are covered with anticorrosive material.  19. Frame according to paragraphs 9 - 16, characterized in that at least part of the paired profiles of racks and crossbars is made with holes and / or valves for the passage of utilities.  20. Frame according to paragraphs 9 - 19, characterized in that it is equipped with lashing elements for guiding the crane beam located in the lower belt of the crossbar.

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