RU33046U1 - Building element (2 options) and building structure based on it (2 options) - Google Patents

Description

Building element (2 options) and building structure based on it

IPC B21D5 / 06, E04C3 / 07, E04SZ / 32, E04D12 / 00

(2 options). 003119709 The utility model relates to the rolling production of cold-formed thin-walled thin-walled profiles of increased stiffness and can be used in construction for the installation of trusses, roofing runs and beams, columns, roof battens, flooring coverings, partition walls, walls and false ceilings. Known bent special profile channel type and the method of its manufacture. containing a wall and vertical heights of equal height, one of which has a flange inside the profile with a width of at least three profiles, and the other is made with a double thickness element equal to 0.65-0.75 of the shelf height (iiareirr RF No. 2124408, publ. 01.10 .99 g., B21D5 / 06). A disadvantage of the known profile is its low bearing capacity. constructive implementation does not allow to produce building structures based on it, which reduces the scope - it can not be used when installing farms, beams, columns, as a frame of partitions. Known bent profile channel type, containing shelves and corrugated} H) a wall with a given value of bending radii R between them, characterized in that when manufacturing a profile of galvanized steel with a thickness of S 0.5 - 1.0 mm, it additionally contains 1 o-elt 1 o contains longitudinal corrugations on the shelves and flanging along their edges, directed 1p 1e liHyrpb profile with an angle of inclination to the shelves equal to 45 °, while the radius of bending between the shelves and flanges is R2 (1.5 - 1.8) 8 and RI (2.0 - 2.5) 8, and the minimum distance from the corrugation base to the corresponding bending point Ii 2R with a minimum the distance between the corrugations on the shelves 88 b (RF Patent number. 2,118,579, publ. 09.10.1998 city, B21D5 / 06. F1683 / 04). 11IIIII NI) 11SH1 “III 111CH -, - 5 9,200 mating of the wall with the shelves and the radius of the mating of the shelf with flanges are made of different sizes, and the flanges are directed inside the profile with an angle of inclination to the shelves of 45 °, which does not allow building structures to be assembled from a building element box-section, and this limits the scope - it can not be used when installing farms, beams, columns, as a frame of partitions. The execution of the walls and shelves of the first profile corrugated complicates the process of manufacturing the profile - it is necessary to use additional pairs of roll forming calibers. A box-shaped building element is known, the outer contour of which has a double-shaped shape in cross section and is formed by C-shaped profiles with bends at the ends directed towards each other, and with shelves spanning the entire length of the shelf of another pair profile, and the walls of each C- shaped profile in the places of adjacency of the shelves have convex sections corresponding to the curly bends of the ends of the other profile of the pair, while in the shelves of the profiles longitudinal ridges of a triangular shape can be formed, in which KpeiioKfjbie elements must be installed, and holes or perforations may be formed in the profile walls. A disadvantage of the known building element is its co-structure, which can be assembled only one version of the building element, which limits the scope of its application - it is used as load-bearing supports or building frames, for example, support columns, for wall insulation, in window openings, as drainage or drain pipes. In addition, for the manufacture of the profiles that make up the building element, a large number of calibers and stands of the rolling mill require at least 14, which complicates their production. The closest in technical durability and the achieved result, BbropaffHbSivi as a prototype, is a building element and a building structure based on it, protected by RF certificate No. 24483, publ. 10/08/2002, E04SZ / 07. The building element is made in the form of a profile with a C-shape with bends. 2 directed towards each other, the lateral side of the profile in the central part is made with a recess inward, forming ledges, in the recess a gosra is made. having circular arcs in cross section, with ledges and corrugations located with a tag 1/5 of the length of the side, the height of the ledges and the depth of the corrugations exceed the thickness of the profile, while the conjugation of the profile parts — the flanges, the side and the bends of the ends are made at an angle of 90 °, and the bends of the ends are made of the same length, while the length of the side of the C-shaped profile is 4.0-4.5 of the shelf length, and the element is made of metal with a thickness of 1.5-2.5 mm. A building structure based on a building element is made of two building elements rotated to each other, combined with corresponding bends and rigidly fastened to each other on the other side of the bending ribs with the formation of a box-shaped sectional structure with longitudinal stiffeners, as well as a building structure on the osmosis of the building element made of two building elements, turned to each other, combined with the sides and rigidly fastened to each other along the bunk / side non-adjacent ribs with the formation of the profile design of the I-beam split with longitudinal stiffeners. The advantage of the prototype and a common feature with the proposed utility model is its constructive implementation, which allows you to use the building element separately, as well as collect several options for the building structure based on it. However, at the same time, as well as the analogs described above, the building element) - and the building structure based on it according to the prototype are characterized by such disadvantages as: small bearing capacity, limiting the scope. complex manufacturing process, metal consumption. The problem solved by the utility model is the improvement of the building element and building structure based on it. The technical result from the use of the utility model is to increase the bearing capacity, expand the scope of the building element and building structure based on it by increasing the options for euktsky. reduction of metal consumption, simplification of manufacture, cost reduction. This is achieved by the fact that in a building element made in the form of a profile of a Shaped shape containing equal vertical height shelves, the side with a recess inward in the central part, forming ledges whose height exceeds the thickness of the profile, while the conjugation of the profile parts - shelves and side at an angle of 90 °, the mating parts of the profile are made radial with the same size, 8 mm, while the building element is made of meta-1 ;; and a thickness of 0.8-1.2 mm. This is achieved by the fact that in the building element, made in the form of a profile C shaped, containing equal-height vertical shelves with bends on the carcasses. directed towards each other, the side with a recess inward in the central part, forming ledges whose height exceeds the thickness of the profile, crp for this, the gears of the profile parts — the flanges, the side and the bends of the condes are made with a 90 ° angle, the mates of the profile parts are made with the same value , 8 mm, while the building element is made of metal with a thickness of 0.8-1.2 mm This is achieved by the fact that in a building structure based on a building element made of two building elements rotated to each other by inner surfaces, combined and rigidly fastened to form a box-shaped sectional structure, the inner surface of the corner parts of the side and the inner surface of the shelves of one building element is combined with the external surface of the limb and with the external surface of the shelves of another building element, and they are fixed Zami on. the outer side of the combined shelves, for example, the building elements are made and :; metal 0.8-1.2 mm thick. This is achieved by the fact that in a building structure based on a building element made of internal surfaces turned to each other, docked and rigidly bonded to each other building elements with the shape of 1is; m profile box-shaped structure, it is made of four building elements arranged alternately and perpendicular to each other. joined by combining the inner surfaces of the angular parts of the sides and the inner surfaces of the shelves of the two first building elements located opposite each other, respectively, with the outer surface of the shelves with bends and with the outer surface of the angular parts of the sides of the two other building elements located opposite each other, fixed with hardware on the outside of the combined parts, while the building elements are made of metal with a thickness of 0.8-1.2 mm. In fig. 1 shows a General view of the building element A (1 option). In fig. 2 shows a side view of the building element A (option I). In fig. 3 shows a General view of the building element In (2 option). In fig. 4 shows a side view of the building element B (option 2). In fig. 5 shows a side view of a building structure based on building element A and B (1 embodiment). In fig. 6 shows a side view of a building structure based on building element A and B (option 2). Building element A (option 1), made in the form of a C-shaped profile 7, contains a side 1, on which in the central part there is a recess 2 with ledges 3, equal vertical racks 4. (building element B (option 2)) , made in the form of a C-shaped profile, contains a side 1, on which in the central part there is a recess 2 with ledges 3, equal vertical shelves 4 with bends of the ends 5. The building structure based on building element A and B (option 1) consists of from construction th element A (option 1) and building element B (option 2), which are fixed with hardware 6. The building structure based on building element A and B (option 2) consists of two building elements A (option 1) and two building elements 1 ( Option 2), which are fixed with hardware 6. Building element A (option 1) and B (option 2) are produced by continuous rolling through a system of profile bending gauges - a tape or strip of metal, for example, galvanized steel, 0.8-1.2 mm thick sequentially passed through 11 stands p ofilegibochnogo mill. A tape or strip of a given length is deformed (bent) in the calibers of individual stands, acquiring in the last stand a predetermined cross-sectional shape with different heights: 40 mm, 49 mm and width: 100 mm, 103 mm, 50 mm, 153 mm. Assembling a building structure based on building element A and B (option 1) is as follows. When assembling a building structure based on building element A and B (option 1), building element A and building element B are turned to each other) by internal surfaces and insert building element B into building element A so that the inner surface of the corner parts of the sidewall 1 and the inner surface of the shelves 4 of the building element A, respectively, is combined with the external surface of the limb 5 and the external surface of the shelves 4 of the building element Mr. B. The assembled building structure on the basis of the building element (option 1) is fixed on the outside of the combined shelves with 4 hardware 6. h When assembling the building structure on the basis of the building element A and B (option 2), two building elements A and two building elements B are turned with their inner surfaces perpendicular to each other and arranged alternately in such a way that the inner surfaces of the angular parts of the sides 1 and the inner surfaces of the shelves 4 of the building elements A combine etstvenno the outer surface of flange 4 with the rims 5 and the outer surface sides of the corner portions of the construction element 1 B and is fixed on the outer side sovmesh; ennyh parts 6 via hardware. As hardware use, for example, self-tapping screws, bolts with nuts. The pairing of the parts of the building element A and B radius1 about the same size, 8 mm contributes to a better combination of its watch and the building structure based on the building element. The combination of parts of building elements in a building structure based on it promotes the formation of double stiffeners, which leads to an increase in the bearing capacity of a building structure based on a building element. The structural implementation of the building element will simplify its manufacture; fewer calibers and stands of the rolling mill are required, which leads to lower production costs. In addition, the number of variants of the construction based on it is increasing. In addition to the proposed variants of the building structure based on the building element, from the proposed variants of building elements, at least 3 variants of the building structure of the I-section can be assembled if the building elements are combined on the sides. In addition, such a constructive implementation of the building element leads to the expansion of the scope of both the building element itself and the building structure on it

basis. For example, it is recommended to use single building elements as a truss lattice, for interfloor and attic floors, as flooring for suspended ceilings, as racks for the partition walls, walls, as well as non-load-bearing elements, and building construction based on a building element is recommended to be used in as a truss belt, as beams, columns, racks.

The implementation of the building element of galvanized steel with a thickness of 0.8-1.2 mm helps to reduce the metal consumption of both the building element and the building structure based on it.

8 (

Claims (8)

1. A building element made in the form of a profile with a C-shape, containing equal vertical height flanges, the side with a recess inward in the central part, forming ledges whose height exceeds the thickness of the profile, while the mating parts of the profile - shelves and side are made at an angle 90 °, characterized in that the mating parts of the profile are made radial with the same value of R = 2.8 mm 2. The building element according to claim 1, characterized in that it is made of metal with a thickness of 0.8-1.2 mm 3. A building element made in the form of a profile with a C-shape, containing equal-height vertical shelves with bends at the ends directed towards each other, the side with a recess inward in the central part, forming ledges whose height exceeds the thickness of the profile, while mating parts profile - shelves, side and bends of the ends are made at an angle of 90 °, characterized in that the mating parts of the profile are made radius with the same value of R = 2.8 mm 4. The building element according to claim 3, characterized in that it is made of metal with a thickness of 0.8-1.2 mm 5. A building structure based on a building element according to claims 1 and 3, made of two building elements rotated to each other by inner surfaces, combined and rigidly bonded to each other with the formation of a box-shaped profile design, characterized in that the inner surface of the corner parts is lateral the sides and the inner surface of the shelves of one building element are aligned respectively with the outer surface of the bends and the outer surface of the shelves of another building element and they Lena hardware by the outer side of the superposed shelves. 6. The building structure based on the building element according to claim 5, characterized in that the building elements are made of metal with a thickness of 0.8-1.2 mm 7. A building structure based on a building element according to claims 1 and 3, made of internal surfaces turned to each other, joined and rigidly bonded to each other building elements with the formation of a box-shaped profile design, characterized in that it is made of four building elements, located alternately and perpendicular to each other, joined by combining the inner surfaces of the angular parts of the sides and the inner surfaces of the shelves of two the first building elements located opposite each other, respectively, with the outer surface of the shelves with bends and with the outer surface of the corner parts of the sides of two other building elements located opposite each other, fixed with hardware on the outside of the combined parts. 8. The building structure based on the building element according to claim 7, characterized in that the building elements are made of metal with a thickness of 0.8-1.2 mm