RU2085683C1 - Building - Google Patents

Abstract

FIELD: construction engineering. SUBSTANCE: this relates to erection of buildings with metal framework for industrial or storage usage. Framework is made up of hollow posts and halves of span-pieces. Posts and halves of span-pieces are made of two channel bars with their flanges located at clearance, and shaped sheets fastened to flanges. Shaped sheets are made sectional in length and are of different thickness. Length of sheets at lower part of posts and at middle part of halves of span-pieces is similar and corresponds to part of maximal or minimal length of bevelled sheets located at upper part of posts and at ends of span-pieces. Halves of span-pieces and posts for purpose of their connection are made with end connecting strips and their angle of incline is 96-100 deg. Frames are interconnected by longitudinal beams which are rigidly connected over length of building with formation of unsplittable structures. EFFECT: high efficiency. 11 cl, 9 dwg

Description

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

 The closest technical solution to the described invention is a building, including foundations, fachwerk, girders, walling, a metal frame of girders and frames formed from hollow closed sections of racks and inclined half-beams, which have ends at the ends of which are connecting plates located by abutting surfaces along the angle bisector between racks and half-rails, and are made of two channels, installed with a gap between their shelves and connected to the racks, which are attached to the latter, along the length of semi-profiled profiled sheets.

 A disadvantage of the known solution is the technological complexity of its manufacture in connection with the increased number of sizes of frame elements, as well as the relatively low performance due to the small slope of the coating and roof. In addition, in the known solution there is a relatively low fire resistance of the supporting structures and closed cavity cavities are not used.

 The objective of the invention is to improve the manufacturability of the design and improve performance.

где α угол наклона соединительных пластин стойки и полуригеля к горизонтали, b угол наклона стыков профилированных листов к горизонтали; стыки профилированных листов полуригелей могут быть расположены под углом к оси полуригелей, в том числе расположены вертикально, в рамах могут быть выполнены технологические проемы для пропуска инженерных коммуникаций, в соединительных пластинах рам могут быть выполнены технологические проемы; здание может быть снабжено приточной и/или вытяжной вентиляцией, сообщающейся с внутренними полостями рам; здание может быть снабжено противопожарной системой трубопроводов по крайней мере часть из которых размещена в полостях стоек и/или ригелей рам; трубопроводы, расположенные в стойках и/или полуригелях, могут быть снабжены установленными по их длине легкоразрушаемыми от повышенных температур клапанами; ограждающие конструкции могут быть выполнены из профилированного настила; ограждающие конструкции могут быть выполнены с тепловой изоляцией; по крайней мере часть ограждающих конструкций выполнена из панелей типа "сэндвич" и с жесткой и/или полужесткой и/или эластичной тепловой изоляцией.The problem is solved in that in a building including foundations, half-timbered houses, enclosing structures, a metal frame made of girders and frames formed from hollow closed sections of racks and inclined half-beams, which have connecting plates at the ends located by abutting surfaces along the bisector of the angle between the stands and half-beams , and made of two channels, installed with a gap between their shelves and connected to the profiled sheets attached to the last components along the length of the racks and half-girders, profiled sheet s placed in the middle and upper parts of the uprights and in the end parts of the half-beams have a thickness exceeding the thickness of the sheets in the lower part of the uprights and in the middle of the half-beams, and the profiled sheets placed in the middle and lower parts of the uprights and in the middle of the half-arches have the same length of 0,9-0,94 maximum or minimum length of the chamfered sheets laid on top of the pillars and the front and back girders, wherein the angle between polurigelem and connected thereto, the counter is 96 ^o -100 ^o, and runs rigidly interconnected another along the length of the building with the formation of continuous structures. In addition, the joints of profiled sheets located at least in the upper and middle parts of the racks can be tilted to the horizontal at an angle determined from the ratio:

where α is the angle of inclination of the connecting plates of the rack and the half-bolt to the horizontal, b is the angle of inclination of the joints of the profiled sheets to the horizontal; joints of profiled sheets of half-beams can be located at an angle to the axis of half-beams, including vertically, technological openings for passing engineering communications can be made in frames, technological openings can be made in the connecting plates of frames; the building can be equipped with supply and / or exhaust ventilation, communicating with the internal cavities of the frames; the building can be equipped with a fire-fighting piping system, at least some of which are located in the cavities of the uprights and / or crossbars of the frames; pipelines located in racks and / or half-girders may be equipped with valves that are readily destructible from elevated temperatures and installed along their length; enclosing structures can be made of profiled flooring; building envelopes can be made with thermal insulation; at least part of the enclosing structures is made of sandwich panels and with rigid and / or semi-rigid and / or elastic thermal insulation.

 In addition, the building can be made with a combined frame and rack-and-beam frame, while the rack-and-beam system can be applied at least at one end of the building with at least the outer end of the girders resting directly on the half-timbered racks of the end wall, the pitch of which can be equal to or a multiple of the run step.

 In FIG. 1 shows a building, cross section; in FIG. 2 the same plan; in FIG. 3 geometric diagram of the half frame; in FIG. 4 frame rack; in FIG. 5, section AA in FIG. 4; in FIG. 6, section BB in FIG. 4; in FIG. 7 - semi-deadbolt, side view; in FIG. 8 is a section BB of FIG. 7; in FIG. 9 is a continuous run diagram.

 The building contains foundations 1, fachwerk 2, walling 3 and 4, a metal frame 5 of frames 6 and runs 7.

 The frames 6 are made of hollow closed sections of the uprights 8 and half-girders 9 in the form of two channels 10, installed with a gap between their shelves 11 and interconnected by profiled sheets 12, 13, 14 and 15 attached to the shelves 11.

 Profiled sheets 12-15 are located along the length of the uprights 8 and half-girders 9 and have different thicknesses and lengths. Profiled sheets 12, 13, installed in the lower and middle parts of the uprights 8 and the middle part of the half-girders 9, have the same length "a", which is determined from the ratio: a = /0.9-0.94 / b, where b is the maximum or minimum the length of the profiled sheets 14 located in the upper part of the uprights 8 and in the end parts of the crossbars 9. The thickness of the profiled sheets 13, 14 and 15 located in the middle and upper parts of the uprights 8 and in the end parts of the half-beams 9 exceeds the thickness of the profiled sheets 12 located in the lower part of the uprights 8 and in the middle part of the half-girders 9.

 At the ends of the uprights 8 and half-beams 9, inclined connecting plates 16, 17 and 18 are installed. Their abutting surfaces are placed along the bisector of the angle with half-beams 9 and between the uprights 8 and half-beams 9.

The angle between the half-beams 9 to the uprights 8 is (96-100) ^o .

 Runs 7 are rigidly interconnected along the length of the building with the formation of continuous structures.

, где α угол наклона соединительных пластин 16 к горизонтали.The joints 19 of the profiled sheets 13 and 14, located at least in the upper and middle parts of the uprights 8, are inclined to the horizontal at an angle b, which is determined from the ratio

where α is the angle of inclination of the connecting plates 16 to the horizontal.

 The joints 20 of the profiled sheets 12, 14 and 15 of the half-beams 9 can be made inclined to the axis of the latter, or the joints of the joints 20 of the profiled sheets 12, 14 and 15 of the half-beams 9 can be arranged vertically.

 In the frames 6, technological openings 21 can be made for passing engineering communications 22. In the connecting plates 16, 17 and 18 of the frames 6, technological openings 23 and 24 can also be formed.

 In a building with an air conditioning system and a supply and / or exhaust ventilation system, these systems are connected to the internal cavities of 25 frames 6.

 If the building has a fire-fighting piping system, at least part of the pipelines are located in the cavities of 25 racks 8 and / or semi-girders 9 of the frame 6. Moreover, valves (which are not shown conditionally) are easily discrete along their length in these pipelines.

 Building envelopes 3 and 4 can be made of profiled flooring with or without thermal insulation. At least part of the enclosing structures 3 and 4 can be made of sandwich panels with rigid and / or semi-rigid and / or elastic thermal insulation (not shown conditionally).

 The invention allows to improve the manufacturing technology of building structures and at the same time improves the performance of the building.

Claims (12)

1. The building, including foundations, fachwerk, enclosing structures, a metal frame of girders and frames formed from hollow closed sections of racks and inclined half-beams, which have connecting plates at the ends located by abutting surfaces along the bisector of the angle between the stands and half-beams, and are made of two channels, installed with a gap between their shelves and connected to the profiled sheets attached to the last components along the length of the racks and half-girders, characterized in that the profiled sheet placed in the middle and upper parts of the uprights and in the end parts of the half-beams, have a thickness exceeding the thickness of the sheets in the lower part of the uprights and in the middle of the half-beams, and the profiled sheets placed in the middle and lower parts of the uprights and in the middle of the half-beams have the same length equal to 0.9 0.94 of the maximum or minimum length of the beveled sheets installed in the upper part of the racks and in the end parts of the crossbars, the angle between the half-bolt and the rack connected to it is 96 100 ^o , and the runs are rigidly connected between wallpaper along the length of the building with the formation of continuous structures. 2. The building according to claim 1, characterized in that the joints of the profiled sheets located at least in the upper and middle parts of the racks are inclined to the horizontal at an angle determined from the ratio

where α is the angle of inclination of the connecting plates of the rack and half-bolt to the horizontal;
β is the angle of inclination of the joints of the profiled sheets to the horizontal.  3. The building according to paragraphs. 1 and 2, characterized in that the joints of the profiled sheets of half-beams are located at an angle to the axis of the latter.  4. The building according to claim 3, characterized in that the axis of the joints of the profiled sheets of semi-beams are arranged vertically.  5. The building according to paragraphs 1 4, characterized in that the frames are made of technological openings for the passage of utilities.  6. The building according to claim 5, characterized in that the technological openings are made in the connecting plates of the frames.  7. The building in paragraphs. 5 and 6, characterized in that it is provided with a supply and / or exhaust ventilation, communicating with the internal cavities of the frames.  8. The building according to paragraphs. 5 7, characterized in that it is equipped with a fire-fighting piping system, at least some of which are placed in the cavities of the uprights and / or half-girders of the frames.  9. The building according to p. 8, characterized in that the pipelines located in the racks and / or half-rails are equipped with valves that are discretely installed along their length and are easily destructible from elevated temperatures.  10. The building according to paragraphs 1 to 9, characterized in that the enclosing structures are made of profiled flooring.  11. The building according to paragraphs 1 to 9, characterized in that the walling is made with thermal insulation.  12. The building according to paragraphs 1 to 9, 11, characterized in that at least part of the building envelope is made of sandwich panels and with rigid and / or semi-rigid and / or elastic thermal insulation.

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