RU2010096C1 - Building and frame of building skeleton - Google Patents

Abstract

FIELD: construction. SUBSTANCE: transverse frames of skeleton are formed by lattice half-members of gantry beams and twin-branch columns. Relation of heights of half-members of gantry beams at their outer and inner ends is (2.05-2.15): (1.45-1.55). Vertical ties between columns of adjacent frames are made in form of nonparallel belts and lattice. Inner belt of vertical ties and inner branch of columns are inclined inside building. Distance between upper ends of belts and branches exceeds distance between their lower ends by 1.45-1.55 times. Branches and column braces and/or belts and braces of gantry beams and/or structures of framework, vertical and horizontal ties and girders are made of single Σ-shaped and/or twin S-shaped roll-formed sections. EFFECT: higher efficiency. 18 cl, 18 dwg

Description

 The invention relates to the field of construction and can be used in the construction of one-story industrial buildings.

 The closest technical solution is a building containing foundations, transverse frame frames of two-branch columns and crossbars, formed from half-beams supported on both branches of columns with upper and lower inclined belts, runs horizontal and vertical coating connections oriented along the extreme longitudinal axes of the frame, vertical diagonal connections between the columns of frames, half-timbered structures, wall fencing with light and technological openings, gable flooring and crane beams.

 The disadvantage of this solution is the increased material consumption and the associated additional labor costs for the manufacture, transportation and installation of structures, as well as the low operational quality of the building.

 The purpose of the invention is the reduction of material consumption, labor and energy costs at the stages of manufacturing structures, their transportation and installation while ensuring high operational qualities of the building.

 This goal is achieved by the fact that in a building that includes foundations, transverse frames of the frame and double-branch columns and crossbars formed from semi-beams supported on both branches of the columns with upper inclined and lower belts, runs, horizontal and oriented along the extreme longitudinal axes of the frame, vertical coating connections, vertical diagonal connections between the columns of the frames, half-timbered structures, wall fencing, gable flooring, crane beams, each half-beam is supported on the column branch by a lower belt oriented horizontally ntal and combined with the upper belt through racks and braces, the ratio of heights at the outer and inner ends of the half-beams is in the range (2.05-2.15) - (1.45 - 1.55), and the vertical connections between the columns are made in the form of diagonal non-parallel belts and lattices, and the inner belt of vertical ties and the inner branch of the columns, combined with the outer branch of the braces, are tilted into the building, the distance between the upper and lower ends of the belts and branches exceeds the distance between their lower ends by 1.45-1.55 times, and the branches and repent The systems of columns and / or belts and braces of crossbars and / or vertical and horizontal connections, half-timbered constructions and runs are made of single or paired bent profiles with a Σ-shaped cross section.

 The building can be equipped with additional vertical ties in the coating, which are installed along the central longitudinal axis of the frame, and the main and additional vertical ties can be made of parallel belts and a pair of v-shaped interconnected and with braces, with additional vertical ties provided with braces , the lower end of which is attached to the end of the lower belt, and the upper - to the middle part of the braces, the coating can be made of profiled flooring attached to the runs with azovaniem hard disk cover, and runs in the ridge of the last pair met and secured in polurigeley ends; on each slope of the covering, the profiled flooring has at least one butt joint, the butt joint of the profiled flooring is located a quarter of the length of the slope from the ridge of the coating; light openings in a longitudinal wall enclosure are made of length and height, the value of which is determined from the relation l = L -2 a; h = 0.35-0.45a, where l is the length of the opening, h is the height of the opening, L is the length of the building, and is the distance between adjacent frames of the frame; at least the branches of the columns of the girder belt and the braces of the columns and girders can be provided with end caps and connecting elements; plugs and connecting elements are interconnected with the formation of a ┴-shaped profile; at least a lattice of vertical ties with a Σ-shaped cross section between the columns is made of paired profiles connected symmetrically on both sides by walls to the shelves of the belts; crane beams can be attached to the lower belt of the crossbars at a distance of 0.18-0.19 the length of the span of the frame from the ends of the crossbars; the wall fence can be made insulated, and the coating with a soft roll roof; the building can be made with an unorganized drain.

 The task is also achieved by the fact that in the frame of the building frame, including two-branch columns and a crossbar, formed from semi-beams supported on both branches with an upper inclined and lower belts, each half-bolt is supported on the column branches by a lower belt oriented horizontally and combined with the upper belt by means of racks and braces, the ratio of heights at the outer and inner ends of the half-beams is in the range (2.05-2.15) - (1.45-1.55), the inner branch of the columns is connected to the outer branch by braces and tilted inwardly Denmark, the distance between the upper ends of the branches exceeds the distance between their lower ends by 1.45-1.55 times, and each pair of columns of braces adjacent in height connected in one node with the inner branch has the same length, with the ratio of the lengths of the upper and lower braces attached to the outer branches of the columns is 1,065-1,07.

 In addition, at least the branches and braces of the columns can be made of paired bent profiles of a Σ-shaped cross section; at least belts and / or braces can be made of paired and / or single bent profiles of a Σ-shaped cross section; paired bent profiles of a Σ-shaped cross section of at least branches and braces of columns and a belt and braces of crossbars can have the same cross-sectional area with the same or different geometric dimensions; the intermediate braces attached in one node to the upper half-girdle belt can have the same length, and the distance between the bracing attachment points of the braces to the belts from the outer end of the half-girders can be equal, and the ratio of the length of adjacent braces attached to the lower half-girder belt is 1.02 -1.11, while the distance from the inner end of the half-beams to the first attachment point of adjacent braces may exceed the distance between the other brace attachment points by half.

 The design is illustrated by drawings.

 In FIG. 1 shows a building, a cross section, in FIG. 2 - the same, longitudinal facade; in FIG. 3 - the same, an option for solving a coating of profiled flooring sheets stacked on slopes; in FIG. 4 - floor plan with the arrangement of girders and links along the upper belt of the frames; in FIG. 5 is a view AA in FIG. 4; in FIG. 6 - design half-timbered end of the building; in FIG. 7 is a geometric diagram of a column of a frame of a building frame; in FIG. 8 - column; in FIG. 9 is a view B in FIG. 8; in FIG. 10 is a section BB in FIG. 8; in FIG. 11 is a geometric diagram of a half-frame of a building frame; in FIG. 12 - node G in FIG. 1; in FIG. 13 - node D in FIG. 1; in FIG. 14 - node E in FIG. 1; in FIG. 15 - unit G in FIG. 5; in FIG. 16 is a section II in FIG. 4 (vertical bond design in the coating); in FIG. 17 - vertical connection between the columns; in FIG. 18 is a cross section KK in FIG. 17.

 The building contains foundations 1, transverse frames 2 of the frame 3, vertical ties 4 between columns 5 frames 2, vertical ties 6 and 7 in the gable roof 8, horizontal ties 9 in the coating 8, girders 10, half-timbered structure 11, wall fencing 12 with light 13 and technological 14 openings and crane beams 15.

 Frames 2 consist of double-branch columns 5 with braces 16 and trellised crossbars 17. The outer branch 18 of the columns 5 is installed vertically, and the inner branch 19 is inclined inside the building. The distance between the ends of the branches 18 and 19 exceeds the distance between their lower ends by 1.45-1.55 times. Each pair of adjacent in height columns 5 of the braces 16, connected in one node 20 of the attachment with the inner branch 19, has the same length. The ratio of the lengths of the upper and lower braces 16 attached to the outer branch 18 in the attachment points 21 is 1.065-1.07.

 The crossbars 17 are formed of two half-beams 22 with a lower horizontal belt 23 and an upper inclined belt 24, forming a slope of the coating 8, struts 25 and 26 and extreme 27 and 28 and intermediate 29 braces. The half-beads 22 are supported on both branches 18 and 19 of the columns 5 and are interconnected by inner ends.

 The ratio of the heights of the semi-beams 22 at the outer and inner ends is in the range (2.05-2.15) - (1.45-1.55).

 The intermediate braces 29 of the half-beams 22, attached in one mount 30 to the upper belt 24, have the same length. The distance between the nodes 30 and 31 of the fastening of the braces 27, 28 and 29 to the upper and lower belts 23 and 24 from the outer end of the half-beams 22 is made equal, and the ratio of the lengths of the adjacent braces 28 and 29 attached to the lower belt 23 is 1.02-1 ,eleven. The distance from the inner end of the half-beams 22 to the first attachment point 30 of the adjacent braces 27 and 29 exceeds the distance between the remaining nodes 31 of the braces 28 and 29 twice.

 Vertical connections 4 between columns 5 of adjacent frames 2 are made in the form of diagonal non-parallel belts 32 and 33 and lattice 34. The inner belt 32 is inclined into the building. The distance between the upper ends of the belts 32 and 33 exceeds the distance between their lower ends by 1.45-1.55 times.

 Vertical ties 6 and 7 in the coating 8 are installed between the extreme frames 2 and are made of parallel belts 34 and v-shaped connected to each other and with the belts 34 of the braces 35.

 Vertical ties 7 located along the central longitudinal axis of the frame 3 are provided with struts 36, the lower end of which is attached to the end of the lower belt 34, and the upper end to the middle of the braces 35.

 Branches 18 and 19 and braces 16 of columns 5, and / or belts 23 and 24 and braces 27, 28 and 29 of half-beams 22 and / or vertical connections 4.6 and 7 between columns 5 and in the covering 8 and horizontal connections 9, half-timbered construction 11 and runs 10 are made of bent single 37 or paired 38 profile Σ-shaped cross section.

 At least branches 18 and 19 of columns 5, belts 23 and 24 of half-beams 22 and braces 16, 27, 28 and 29 of columns 5 and half-beams 22, made of paired bent profiles, are equipped with end caps 39 and connecting elements 40, which can be interconnected to form a ┴-shaped profile.

 At least the lattice 34 of vertical links 4 between the columns 5 is made of paired bent profiles connected symmetrically on both sides by walls 41 to the shelves 42 of the belts 32 and 33.

 Paired bent profiles 37 and 38 of a Σ-formed cross section of at least branches 18 and 19 and braces 16 of columns 5 and belts 23 and 24 and braces 27, 28 and 29 of crossbars 17 can have unequal cross-sectional areas with the same or different geometric sizes.

 The coating 8 is made of profiled flooring 43, attached to the girders 10 with the formation of a hard disk coating 8. Girders 10 in the ridge part of the coating 8 are paired and attached at the ends of the half-beams 22.

 On each slope of the cover 8, the profiled flooring 43 may have at least one butt joint 44, the latter being located a quarter of the length of the slope from the ridge of the cover 8.

 The light openings 13 in the horizontal wall fence 12 are made of length l and height h, the value of which is determined from the relations l = L-2a; h = 0.35-0.45a, where L is the length of the building, and is the distance between adjacent frames 2 of the frame 3.

 Crane beams 15 are attached to the lower belts 23 of the crossbars 17 at a distance of 0.18-0.19 the length of the span of the frames 2 from the ends of the half-crossbars 22.

 The wall fence 12 can be made insulated, in this case, the coating 8 is performed with a soft roll roof 45.

 Coating 8 may be with an unorganized gutter 46.

 Cavities 47 formed by paired bent profiles 38 in columns 5, crossbars 17, vertical ties 7 and half-timbered structure 11 can be filled with concrete 48 to reinforce the structure of frame 3; for the same purpose, strut 49 is installed in columns 5.

 The developed building and the frame of the building frame during their implementation in the construction industry and at the construction industry plants provide a positive effect, which is expressed in improving the performance of the building by obtaining spatial rigidity and resistance to various combinations of static and dynamic loads while reducing material consumption of structures, labor and energy costs at the stages of manufacture and construction of the building. (56) E.G. Kutukhtin et al. Lightweight construction of one-story industrial buildings. M.: Stroyizdat, 1988, p. 85-87, p. 2.61.

Claims (17)

BUILDING AND FRAME BUILDING FRAME
1. The building, including foundations, transverse frame frames of two-branch columns and crossbars, formed from half-crossbars supported on both branches of the column with upper inclined and lower belts, hollows, horizontal and oriented along the extreme longitudinal axes of the vertical communication vertical alignment frames, half-timbered constructions, wall fencing with light and technological gaps, gable roofing, crane beams, characterized in that each half-beam is supported on the column branch by a lower belt, oriented horizontally and combined with the upper belt through racks and races, the ratio of heights at the outer and inner ends of the half-bars is within (2.05 - 2.15) - (1.45 - 1.55), moreover, the vertical connections between the columns are made in the form of diagonal non-parallel belts and lattices, and the inner belt of vertical ties and the inner branch of the columns, combined with the outer branch of the struts, are tilted inside the building, the distance between the upper ends of the belts and branches exceeds the distance between their lower - 1,55 times 1,45 , and branches and rasposki columns And / or belts and paskosy pigeley and / or VERTICAL and gopizontalnye communication konstpuktsii fahvepka and ppogony odinapnyh made of bent or spapennyh ppofiley with Σ -obpaznym by cross-section.  2. The building according to p. 1, characterized in that it is equipped with additional vertical ties in the cover, which are installed along the central longitudinal axis of the frame, with the main and additional vertical ties made of parallel belts and V-shaped interconnected with each other and with the braces, at the same time, additional vertical connections are equipped with struts, the lower end of which is attached to the end of the lower belt, and the upper one - to the middle part of the struts.  3. The building according to paragraphs. 1 and 2, characterized in that the coating is made of profiled flooring, attached to the rails with the formation of the hard drive of the cover, moreover, the rails in the ridge part of the latter are made in pairs and attached at the ends of the half-rails.  4. The building according to claim 3, characterized in that on each slope of the covering, the profiled flooring has at least a one-joint connection.  5. The building according to claim 4, characterized in that the butt joint of the profiled flooring is located at a quarter of the length of the ramp from the ridge.  6. The building according to claim 1, characterized in that the light gaps in the longitudinal wall enclosure are made of length and height, the value of which is determined from the relations l = L - 2a, h = 0.35 - 0.45a, where: l is the length of the aperture, h is the opening height, L is the length of the building, a is the distance between adjacent frames of the frame.  7. The building according to claim 1, characterized in that at least the branches of the columns, the girder belts and the bevels of the columns and the crossbars are provided with end caps and connecting elements.  8. The building according to claim 7, characterized in that the plugs and connecting elements are interconnected with the formation of a ┴ -profile.  9. The building according to claim 1, characterized in that at least the vertical lattice of connections with Σ - the opposite cross-section between the columns is made of pair profiles connected symmetrically with two sides of the walls to the shelves of the belts.  10. The building according to paragraphs 1 - 9, characterized in that the crane beams are attached to the lower belt of the beams at a distance of 0.18 - 0.19 the length of the span of the frame from the ends of the beams.  11. The building under item 1, characterized in that the wall fencing is made insulated, and the coating - with soft roll roofing.  12. The building under item 11, characterized in that it is made with an unorganized drain.  13. The frame frame of the building, including double-branch columns and a crossbar, formed from half-crosses supported on both branches with an upper inclined and lower belts, characterized in that each half-cross is supported on the column branch by a lower belt, oriented horizontally and combined with the top and top , the ratio of heights at the outer and inner ends of the half-beams is between (2.05 - 2.15) - (1.45 - 1.55), and the inner branch of the columns is connected to the outer branch by means of the struts and tilted inside the building, the distance between top torus of the branches exceeds the distance between their lower ends by 1.45-1.55 times, each pair of columns of braces of the height adjacent to one another, connected in one knot of fastening with an internal branch, has the same length, at the same time, the ratio of the lengths of the upper and lower braces attached to the outer branch of the columns is 1.065 - 1.07.  14. The frame according to claim 10, characterized in that at least the branches and the struts of the columns are made of paired and / or single bent profiles of a Σ -shaped cross section.  15. The frame according to claim 10, characterized in that at the very least, the belts and / or bevels of the half-beams are made of paired and / or single bent profiles of a Σ-shaped cross section.  16. Frame according to paragraphs 11 and 12, characterized in that the paired bent profiles of a Σ-shaped cross section to the least extent of branches and bevels of columns and girders and bevels of crossbars have the same cross-sectional area at the same or different geometric dimensions.  17. The frame according to claim 13, characterized in that the intermediate struts attached in one node to the upper belt of half-beams have the same length, with the distance between the attachment points of the braces of the bevels and the belts from the outer end of half-beams being equal, and the ratio of the lengths of the adjacent half-beams to the lower half-flange zone, it is 1.02 - 1.11, and the distance from the inner end of the half-flanges to the first attachment point of adjacent struts exceeds the distance between the other attachment points of the struts by two times.

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