RU2010092C1 - Building and frame of building skeleton - Google Patents

Abstract

FIELD: construction of buildings. SUBSTANCE: braces are located in frame plane and secured with their lower end to middle twin-branch columns at distance of 0.3-0.4 of its height from cap. The other end of rigid braces is secured to gantry beams, respectively, at distance of 0.3-0.35 of width of frame middle span, and 0.9-0.95 of width of frame extreme span. Crossbars are attached with their upper end to gantry beams in middle and extreme spans, and with their lower end, to braces. Braces are arranged at different inclination to horizontal and have same length of horizontal projection. Columns, beams braces, crossbars and posts of framework are made of single or twin Σ-shaped roll-formed sections. One part of tension bars are parallel to gantry beams in the middle of span between them; the other part of tension bars is located in cells formed by girders positioned towards building center, adjacent girders and gantry beams, and connected to first tension bars with one end, and to girders with the other end. Ties are arranged in cells formed by outer, adjacent tension bars and girders, and attached with one end to gantry beams, and with the other end, to girders. Ties and tension bars located in cells form Y-shaped stiffener in roofing plane. EFFECT: higher efficiency. 17 cl, 18 dwg

Description

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

 The closest technical solution is a building containing foundations, a frame with three-span frames from columns, girders and girders, a gable floor, a wall fence and connecting elements. The disadvantage of this solution is the increased consumption of materials, the cost of transportation and the complexity of installation.

 The objective of the invention is to increase the manufacturability of the manufacture, transportation and installation of the building while improving its economic and operational qualities.

 The problem is solved in that the frame is equipped with ties, strands, half-timbered struts and rigid struts and struts, and the hard struts are located on both sides of the middle columns at different angles to the horizontal, have the same projection length in plan and are attached with the lower end in the upper third of the middle height columns, and the upper end to the crossbars, respectively, from the middle column at a distance of 0.3-0.35 of the width of the middle span of the frames and 0.9-0.95 of the width of the outer span of the frames, while the spacers are attached with their upper end to the head of the middle columns, and the lower end to rigid struts at a distance of 0.2-0.3 of the length of the latter from the axis of the middle columns, and all columns, crossbars, rigid struts and half-timbered racks are made of paired bent profiles of a Σ-shaped cross section, while the profiles of the middle columns are installed at a distance from each other with the formation of two branches interconnected by means of discretely arranged paired patch plates, and paired profiles of crossbars, struts and racks half-timbers are interconnected by shelves with the formation of a closed cavity, and neither strands are installed parallel to the crossbars in the middle of the span between them, and the second are placed in pairs in cells formed by the central and adjacent runs, and are connected at one end to the first strands and to the crossbars at the other, while the bonds are located in cells formed by outer and adjacent with them the crossbars located between them by cords and girders are attached at one end to the crossbars, and the other to the girders and form with the cords a Y-shaped stiffening element in the plane of the building covering.

 Bent profiles of rigid runs can be wall-mounted to each other and connected to the crossbars using ┴-shaped inserts; wall fencing and coating can be made of profiled flooring; profiled flooring can be supported on centrally located double runs with the formation of a ventilation opening between them, which is blocked by a ridge strip; wall fencing can be made with openings and protective airtight filling; at least the corner joints of the wall fence and / or the joints of the coating with the wall fence can be breathable; ventilation openings in the coating and openings with aero-light filling in the wall enclosure can be made with adjustable valves or flaps; The corner joints of the wall fence can be sealed.

 The problem was also solved by the fact that the three-span metal frame frame is equipped with rigid struts, and the hard struts are located on two sides of the middle columns at different angles to the horizontal, have the same projection length and are attached with the lower end in the upper third of the height of the middle columns, and the upper end - to the crossbars, respectively, at a distance from the axis of the middle columns 0.3-0.35 of the width of the middle span of the frame and 0.9-0.95 of the width of the outer span of the frame, while the spacers are attached on both sides with the upper end to the head of the media columns, and the lower end to rigid struts at a distance of 0.2-0.3 of the length of the latter from the axis of the middle columns, and the columns, beams and rigid struts are made of paired bent profiles of Σ-shaped cross section, and the profiles of the middle columns are mounted on distance from each other with the formation of two branches interconnected by means of discretely arranged paired patch plates, and paired profiles of crossbars and rigid struts are interconnected by shelves with the formation of a cavity.

 The crossbar can be made integral in length of four parts. In this case, the ridge joint of the crossbar parts is placed along the central longitudinal axis of the frame, and the intermediate joints of the crossbar parts are located in the middle span of the frame at a distance from the axis of the middle columns 0.05-0.06 of the width of the middle span of the frame, connecting elements in the fastening points of the crossbars with columns and struts and the latter with the middle columns can be installed on their two lateral sides, made in the form of a channel section and connected to them by means of fittings; the distance between the branches of the middle columns in the plane of the frame can be 1.7-1.8 the height of the cross section of the bent profiles, the height of their patch plates can be 1.17-1.18 the height of the cross section of the bent profiles, and the distance between the axes of the patch plates in height medium columns is 4.75-4.9 plate heights; the sections of the channel of the connecting elements in the attachment points of the struts to the middle columns are arranged with the formation of two consoles.

 The design is illustrated by drawings.

 In FIG. 1 shows a building with a frame frame; in FIG. 2 - the same in plan; in FIG. 3 is a view A in FIG. 2; in FIG. 4 - fragment (extreme section); in FIG. 5 is a view B in FIG. 4; in FIG. 6 - a fragment of a crossbar (middle section); in FIG. 7 is a view B in FIG. 6; in FIG. 8 - the middle column; in FIG. 9 is a view D in FIG. 8; in FIG. 10 is a section DD in FIG. 9; in FIG. 11 - node E in FIG. 1; in FIG. 12 - unit G in FIG. 1: in FIG. 13 - corner joint of the wall fencing; in FIG. 14 - node 3 in FIG. 4; in FIG. 15 - node And in FIG. 1; in FIG. 16 - node K in FIG. 1; in FIG. 17 - end facade of the building; in FIG. 18 is a fragment of the side facade of the building.

 The building contains foundations 1, a frame with three-span frames 2 of columns 3 and 4, crossbars 5 and girders 6, gable floor 7, wall fencing 8 and connecting elements 9.

 The frames 2 are equipped with rigid frames 10 and struts 11. The rigid struts 10 are located on two sides of the middle columns 4 at different angles α and β to the horizontal, have the same projection “a” in the plan and are attached with the lower end at a distance of 0.3-0.4 the heights of the middle columns 4 from their head 12. The upper ends of the stiff struts 10 are attached to the crossbars 5, respectively, at a distance of 0.3-0.35 of the width of the middle span of the frames 2 and 0.9 - 0.95 of the width of the outer span of the frames 2.

 The spacers 11 are attached with the upper end to the head 12 of the middle columns 4, and the lower end is attached to the rigid struts 10 at a distance of 0.2-0.3 of the length of the latter from the axis of the middle columns 4.

 All columns 3 and 4, crossbars 5, rigid struts 10 and half-timbered racks 13 are formed from paired curved profiles of 14 Σ-shaped sections. The profiles 14 of the middle columns 4 are installed at a distance from each other with the formation of branches 15 connected by discretely arranged paired overhead plates 16.

 Paired profiles 14 of the outer columns 3, crossbars 5, struts 10 and struts half-timbered 13 are interconnected by shelves with the formation of a closed cavity 17. The latter can be used to pass engineering communications, for which the crossbars 5, struts 10 and the outer columns 3 are equipped with valves 18, or a hole 19 is made in them. The cavities 17 can be filled with concrete 20 to strengthen the carcass, or their inner surfaces are covered with anticorrosive material 21. One part of the strands 22 is located in the middle of the span between the crossbars 5 parallel to the last, and ugaya portion strands 23 located in the cells 24 formed adjacent bolts 5, centrally located double purlin 6 adjacent thereto and purlins 6 and connected at one end to the cords 22, arranged parallel girders 5 and the other end - 5 with bolts.

 Ties 25 are located in cells 26, formed in plan by external crossbars 5, adjacent internal crossbars 5, located between them by cords 22 and runs 6, attached at one end to crossbars 5, and the other to runs 6 and form with the second cords 23 Y- shaped stiffener in the plane of the coating 7 of the building.

 The bent profiles 14 of at least part of the hard runs 6 can be wall mounted to each other and connected to the crossbars 5 by ┴-shaped inserts 27 located by the wall between the profiles 14 and attached by the shelf to the crossbars 5.

 Wall fencing 8 and cover 7 is made of profiled flooring. The latter in the coating 7 is supported by centrally located double runs with the formation of a ventilation opening 28 between them, which is blocked by a ridge shaped strip 29.

 Wall fencing 8 is made with openings 30 and protective aero-light filling 31. At least the corner joints 32 of wall fencing 8 and / or joints 33 of cover 7 with wall fencing 8 are breathable, which is necessary when using the building to store certain materials, for example grain.

 Wall fencing 8 and / or cover 7 can be made insulated.

 The ventilation aperture 28 in the coating 7 and the apertures 30 with aero light filler 31 in the wall guard 8 are made with adjustable valves 34 or flaps 35. The corner joints 32 of the wall guard 8 can be sealed.

 The inner surfaces of the cavities 17 of the outer columns 3, crossbars 5, struts 10 and struts half-timbered 13 are coated with an anti-corrosion compound and / or filled with concrete 20.

 The crossbars 5 of the frames 2 can be made integral along the length of four parts 36, 37, 38 and 39 with the placement of the ridge joint 40 along the central longitudinal axis of the frame and the intermediate joints 41 in the middle span of the crossbar 5 at a distance from the axis of the middle columns 4 of 0.05- 0.06 of the width of the middle span.

 The connecting elements 9 in the attachment points of the crossbars 5 with columns 3.4 and struts 10 and the latter with the middle columns 4 can be installed on their two sides, made in the form of a section of the channel 42 and connected to them by fittings 43.

 The distance between the branches 15 of the middle columns 4 in the plane of the frame 2 can be 1.7-1.8 the height of the cross section of the bent profiles 14, the height of their patch plates 16 can be 1.17-1.18 the height of the cross section of the bent profiles 14, and the distance between the axes of the overhead plates 16 along the height of the middle columns 4 may be 4.75-4.9 the height of each plate 16.

 The sections of the channel 42 of the connecting elements 9 in the node 44 for attaching the struts 10 to the middle columns 4 are located with the formation of two consoles 45 and 46.

 The designed building and the frame of the frame are made of steel or alloys used in construction, and are mounted by known methods using well-known mechanisms used for the installation of building structures.

 The application of the invention provides quick assembly and high performance. (56) Topchy D.N. Agricultural buildings and constructions. M., Stroyizdat, 1973, p. 80, p. 1.30.

Claims (16)

BUILDING AND FRAME BUILDING FRAME
1. The building, including foundations, frame with three-frame frames of columns and beams, ceilings, gable flooring, wall fencing and connecting elements, characterized in that the frame is equipped with ties, cords, half-timbered racks and rigid braces and brackets, even tight the two sides of the middle columns at different angles to the horizontal, have the same projection and are fastened with the lower end at a distance of 0.4 - 0.3 of the height of the middle columns from the head of the middle columns, and with the upper ends to the crossbars, respectively, at a distance from the axes of the middle columns are respectively 0.3 - 0.35 the width of the middle span of the frame and 0.9 - 0.95 the width of the middle span of the frame, while the spacers are fastened with the upper end to the head of the middle columns and the lower end to rigid struts at a distance of 0.2 - 0.3 the length of the latter from the axis of the middle columns; moreover, all columns, beams, rigid struts and half-timbered racks are made of paired bent profiles of a Σ -shaped cross-section, while the profiles of the middle columns are installed at a distance from each other with the formation of branches connected to each other so as to be discreet outdoor columns, crossbars, struts and struts half-timbers are interconnected by shelves with the formation of a closed cavity, moreover, some cords are installed parallel to the crossbars in the middle of the span between them, and other cords are placed at paired in cells formed by adjacent crossbars centrally located by double and adjacent runners, and connected at one end to the first strands, and the other to the crossbars, while the connections are located in cells formed by outdoor and adjacent crossbars runners, attached at one end to the crossbars, and others - to the runners and form with the second strands a Y-shaped stiffener in the plane of the building covering.  2. The building according to claim 1, characterized in that the bent profiles to the least extent of the hard runners are installed by walls of each other and connected to the crossbars by means of ┴ -shaped inserts.  3. The building according to paragraphs. 1 and 2, characterized in that the wall fencing and coating are made of profiled flooring.  4. The building according to claim 3, characterized in that the profiled flooring is supported by centrally located double passages with the formation of a ventilation gap between them, which is interrupted by a ridge strip.  5. The building according to p. 3, characterized in that the wall fencing is made with gaps and protective aerial lighting.  6. The building according to claim 3, characterized in that at least the corner joints of the wall enclosure and / or the joints of the coating with the wall enclosure are made air-permeable.  7. The building according to claim 1, characterized in that the wall fencing and / or coating is made insulated.  8. The building according to claim 7, characterized in that the ventilation gap in the cover and the apertures with aero-light filling in the wall enclosure are made with adjustable valves or stitches.  9. The building according to claim 8, characterized in that the corner joints of the wall enclosure are sealed.  10. The building according to paragraphs 1 - 9, characterized in that the internal surfaces of the cavities of the outdoor columns, beams, struts and racks half-timbered roofs are coated with an anti-corrosion compound and / or filled with concrete.  11. The building according to paragraphs 1 - 10, characterized in that the middle columns, beams, half-timbered racks and struts are made with holes or valves for the passage of utilities.  12. The frame of the building frame, including columns, girders and connecting elements, characterized in that it is equipped with rigid struts and spacers, moreover, rigid struts are located on two sides of the middle columns at different angles to the horizontal, have the same projection in the plan and are attached to the lower the distance 0.3 - 0.4 of the height of the middle columns from their head, and the upper end to the crossbars, respectively, at a distance from the axis of the middle columns of 0.3 - 0.35 width of the average span of the frame and 0.9 - 0.95 width of the end span frames, at the same time, the spacers are attached on both sides their columns with the upper end to the head of the middle columns, and the lower end to the rigid struts at a distance of 0.2 - 0.3 of the length of the latter from the axis of the middle columns, moreover, the columns, crossbars and struts are made of paired bent profiles of a Σ -shaped cross section, moreover profiles of the middle columns are installed at a distance from each other with the formation of two branches, interconnected by means of discreetly placed paired overhead plates, and paired profiles of the external columns of crossbars and rigid struts are interconnected by shelves with the formation of a closed the bones.  13. The frame according to p. 12, characterized in that the crossbar is made of four parts in length, moreover, its intermediate joints are located in the middle span of the crossbar at a distance from the axis of the middle columns of 0.05 - 0.06 of the width of the middle span, and the ridge joint placed on the center longitudinal axis of the frame.  14. Frame according to paragraphs 12 and 13, characterized in that the connecting elements in the attachment points of the crossbars with columns and struts and the latter with the middle columns are installed on their two side sides and made in the form of a channel section and connected to them by means of gussets.  15. Frame according to paragraphs 12 - 14, characterized in that the distance between the branches of the middle columns in the plane of the frame is 1.7 - 1.8 height of the cross-section of the bent profiles, the height of their overhead plates is 1.17 - 1.18 the height of the cross-section of the bent profiles, and the distance between the axes of the overhead plates along the height of the middle columns is 4.75 - 4.9 the height of the plates.  16. Frame according to paragraphs 12 - 14, characterized in that the sections of the channel of the connecting elements in the knot of bracing of struts to the middle columns are located with the formation of two consoles.

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