RU2170309C1 - Building structure and method for its erection - Google Patents

Abstract

FIELD: general purpose building structures such as three-dimensional ones formed by long-measuring members (columns, beams, reinforced concrete frames). SUBSTANCE: building structure used in construction of low and medium- story buildings in difficult regions, on subsiding and heaving grounds, on underworking territory has monolithic strip foundation made of beams rigidly joined to vertical columns of monolithic reinforced-concrete framed spatial bearing skeleton formed by horizontal bearing beams, connecting girders, and composite slabs of floors. Building structure is also provided with face skeleton parallel to bearing one and joined by flexible braces to it; posts of face skeleton abut against common foundation. Face and bearing skeletons are spaced in corresponding planes through width of heating gasket made of small-piece light-weight concrete members. Recesses for vertical and horizontal skeleton members are made in walls assembled of light-weight thermally effective blocks; free lengths of reinforcement bars are filled with concrete to form vertical skeleton members; supporting parts of horizontal bearing beams are made simultaneously with mentioned skeleton members; then composite slabs of floors are assembled and horizontal connecting girders are made. Heating gasket and walls are made of light-weight thermally effective members. EFFECT: improved stability; facilitated manufacture; reduced labor consumption. 2 cl, 5 dwg

Description

 The invention relates to general-purpose building structures, in particular to three-dimensional structures consisting of long bearing elements, for example, columns, beams, reinforced concrete frames, and can be used in the construction of buildings of small and medium floors in areas with special conditions, including . in seismic zones, areas with difficult climatic conditions, on subsidence and heaving soils, in undermined territories.

 Known construction of the building described in A.S. USSR N 1193259 "Frame of a multistory building" according to class. E 04 B 1/18, declared 04.21.84, op. 11/23/85.

 The known design includes a building frame, which is prefabricated and reinforced concrete and contains columns with through holes in the level of the floors, floor slabs interconnected by releases of reinforcement, through tensile reinforcement and reinforced concrete.

 The known design has a small specific material consumption, however, it is realized only with ribbed floor slabs, which limits its use for residential buildings, and in public buildings requires the installation of suspended ceilings. In addition, the fixing of plates in the overlap is carried out only on friction and their engagement with the edges of the bolts, which reduces the reliability of the structure as a whole.

 The building structure described in A.S. is also known. USSR N 1361266 "Frame of a building or structure" according to class. E 04 B 1/18, declared 06/03/86, op. 12/23/87.

 The known design has a frame, which includes columns with through holes in the level of the ceilings, reinforced concrete monolithic crossbars placed mutually perpendicularly in the alignments of the columns, and flat disks of flooring from prefabricated plates located between the transverse crossbars and connected with them, as well as between them with monolithic joints along their longitudinal faces.

 The disadvantage of this design is the complex technology of the erection of the frame, due to the need to use through tensile reinforcement of the crossbars on the length and / or width of the building.

 Closest to the technical nature of the claimed is the building structure described in the article "Prefabricated monolithic multi-storey residential building" authors T. Baranova and others in the magazine "Housing" 1999, N 2, p. 16-17 and selected as a prototype.

 The known design is located on the foundation and rigidly connected with it, bearing a monolithic reinforced concrete frame spatial frame, columns, load-bearing beams and connecting beams of which are located mainly in the planes of the outer and interroom walls, and their orientation is selected taking into account the specific planning solution, and assembled in a fixed factory-made formwork, which is a claydite-concrete shell of a channel profile with an internal insulation layer of expanded polystyrene, at Ohm, the floors are prefabricated or monolithic or prefabricated monolithic slabs, and the wall elements are made with insulation in the form of a three-layer structure.

 A disadvantage of the known building design is its lack of strength and relative fragility, due to the following. All elements included in the design have different service lives: reinforced concrete elements - more than 100 years; building envelopes - 25-50 years; fixed formwork elements and wall elements in the insulation part - up to 15 years. At an external temperature of, for example, minus 15 and a relative humidity of 80% and an indoor temperature of plus 20, “dew” appears at the junction of dissimilar surfaces in the wall array in a layer with zero temperature, and the insulation begins to collapse, reducing the total service life of the structure. In addition, this design is characterized by technological complexity and busyness, because it is required to pre-fabricate the formwork in the factory, and then make the installation; the assembly of three-layer walls with insulation also complicates the construction process.

 A known method of building buildings described in A.S. USSR N 483506 "Three-layer formwork for the construction of walls" according to class. E 04 G 11/22 claimed 05.03.73, op. 09/05/75.

 The known method consists in alternately concreting the outer layers and the inner layer, separated from the outer layers by dividing walls.

 The disadvantage of this method is the duration of the technological cycle, i.e. in the duration of the manufacture of the structure due to the alternate formation of layers and in significant metal consumption and the complexity of the device for lifting the formwork panels and dividing walls. A known method of erection of monolithic wall structures described in A.S. USSR N 1649076 "Device for the construction of multilayer monolithic walls" according to class. E 04 G 19/06, claimed 11.23.88, op. 05/15/91.

 The known method includes the simultaneous formation of the supporting outer layers and the middle layer, the lifting of the dividing walls located between the layers.

 The disadvantage of this method is the significant complexity of lifting the separation walls with a large length of the walls.

 Closest to the technical nature of the claimed is the method of construction of the building described in the above article Baranova T.I. and others in the magazine "Housing" in 1999, N 2, p. 16-17 and selected as a prototype.

 The known method consists in the fact that a monolithic reinforced concrete reinforced concrete spatial frame of interconnected vertical columns, horizontal load-bearing beams and connecting crossbars using factory-made fixed formwork in the form of expanded clay concrete shells of a tray profile with an internal insulation made of polystyrene foam is erected on the basement floor the inner columns are erected without the use of fixed formwork, the outer walls are erected with a height of one floor from the wall elements with insulation polystyrene foam, collecting walls like a sheet pile wall without sealing joints with a solution when the elements are arranged in two rows along the wall thickness, mutually overlapping the joints formed (the walls at the same time serve as supporting scaffolding, fixing the design position of the formwork elements and taking up the load from their mass and masses of freshly laid concrete mix) and then floor floors are assembled from prefabricated or monolithic or precast monolithic slabs.

 The known design is lightweight and relatively cheap, can be used for the construction of multi-story residential buildings, but it is not strong enough and relatively short-lived for the reasons mentioned above, namely the use of materials that are too heterogeneous in terms of service life during construction in difficult climatic conditions (see construction above building).

 In addition, the known constructive solution is technologically complex and busy, due to the need to manufacture fixed formwork for erecting columns, beams and crossbars of the frame, insulated wall elements and assembling walls with overlapping wall elements of their joints.

 The aim of the claimed invention is to increase the strength and durability of the building structure while simplifying the technology and reducing busyness during its construction.

The goal is achieved in that:
- in the construction of the building, including the foundation and the rigidly connected supporting monolithic reinforced concrete frame spatial frame formed by vertical columns, horizontal load-bearing beams and connecting beams located in the planes of the external and internal walls, as well as interfloor ceilings from slabs, and bearing beams and connecting the crossbars are oriented taking into account the specific planning solution, according to the invention, the foundation is made of a monolithic tape in the form of a system of cross monolithic beams, count They are rigidly connected to the interface nodes of the supporting beams and connecting crossbars and foundation beams, in the facade layer of the outer walls, a facade frame parallel to the carrier and connected with it by flexible connections is made, the columns of which are supported by a common foundation, while the elements of the facade and bearing frames spaced in the respective planes on the thickness of the insulation pad, which is used as small piece lightweight concrete elements, and the outer walls are made of modular light and heat su- elements;
- in the method of building a building, including floor-by-floor construction on a foundation of a rigidly connected supporting monolithic reinforced concrete frame spatial frame of interconnected vertical columns, horizontal load-bearing beams and connecting beams using formwork, erecting a floor height of external walls from light heat-efficient materials and installing of interfloor ceilings made of slabs, according to the invention, the foundation is made as a monolithic tape in the form of a system of cross reinforced concrete monolithic balloons k, leaving the outlets of reinforcement under the vertical elements of the frame in the inner and outer walls, then erect the walls to the height of the floor, leaving niches in certain places of the outer and inner walls that are used as formwork during the erection of the framework, mononize the left outlets of the reinforcement through the left niches and get vertical and horizontal elements of the frame, while the supporting parts of the horizontal supporting beams are performed simultaneously with the vertical elements of the frame, at the same time as the carrier, e parallel The façade frame closed on the contour of the building in the external walls, connecting it with the flexible connections in the joints and spreading it with it to the thickness of the insulation strip, which is made of small-sized lightweight concrete elements, then mount the floor slabs and perform horizontal communication beams.

 The construction of the foundation building with a monolithic strip in conjunction with the execution of a monolithic reinforced concrete supporting frame made of elements rigidly connected to the foundation and the walls being erected first, and then the supporting and facade frames placed on the same foundation are used, using as formwork for the construction of niche frames, left in special places of the erected walls, and the supporting parts of the horizontal load-bearing beams are performed simultaneously with the vertical columns, This allows you to make the design of the building tough and durable while simplifying technology and reducing Busy construction; the implementation of insulation and walls made of heat-efficient lightweight concrete elements makes it possible to obtain a more homogeneous structure (reinforced concrete-lightweight concrete elements), less susceptible to temperature changes outside and inside the building, and therefore more durable and durable. The presence of a facade frame also strengthens the finishing layer, and its connection with the supporting frame - the whole structure as a whole.

The invention is illustrated by drawings, which represent:
FIG. 1 - a general view of the building frame;
FIG. 2 and FIG. 3 is a schematic view of a building structure, respectively, from above and in section;
FIG. 4 and FIG. 5 is a perspective view of a fragment of a building, and a sectional side view.

 The building structure (see Fig. 1 - Fig. 5) includes a monolithic strip reinforced concrete foundation 1 of beams 2, to which vertical columns 3 of a supporting monolithic reinforced concrete frame spatial frame are rigidly connected, also formed by horizontal supporting beams 4, connecting beams 5 and prefabricated plates 6 interfloor ceilings, a facade frame parallel to the supporting frame and connected to it by flexible connections (reinforcement outlets), the racks 7 of which are based on a common foundation 1. The facade and supporting frames us in respective planes at a thickness thermal insulating gasket 8 made of a small sized light concrete elements, in particular from cellular units. In the walls assembled from modular lightweight concrete heat-efficient elements - blocks, niches 9 are left in certain places that serve as formwork for frame elements.

 The construction of the building of the claimed design is carried out, in particular, as follows.

 A monolithic strip foundation 1 is made in the form of a system of cross monolithic reinforced concrete beams 2. Under the entire foundation 1, a common base is made in the form of crushed stone preparation of the estimated thickness after removing the vegetative soil layer; in addition, under the beams 2 perform the underlying leveling layer of lean concrete B7.5 50 mm thick. In the manufacture of the foundation, releases of reinforcement are left for the erection of the supporting and facade frames in the internal and external walls.

 Walls of modular lightweight concrete elements are erected to the height of the floor, while leaving niches 9 in the places where the reinforcement is released under the frames, into which concrete is then poured and vertical columns 3 of the supporting and pillars 7 of the front frames spaced in the respective planes to the thickness of the insulation strip 8, making outlets armatures for building frames; at the same time, along with the vertical columns 3 and the uprights 7, the supporting parts of the horizontal load-bearing beams 4 are made and the heat-insulating gasket 8 is made of small pieces. The bearing and facade frames to the height of the floor are obtained in the form of monolithic reinforced concrete racks and monolithic reinforced concrete belts connected by rigid nodes when they are mated in any of the directions, performed as a whole directly in the process of building construction. Flexible connections - releases of reinforcement - connect the facade frame to the bearing; while the racks 7 of the front frame are based on the same foundation as the supporting frame. An insulation pad 8 is made of small piece lightweight concrete elements, for example, cellular blocks. They install interfloor ceilings from prefabricated or monolithic or prefabricated-monolithic plates 6 and perform horizontal crossbars 9, welding the embedded parts of the plates and concreteing them to turn the precast into a horizontal hard disk. Welding build up outlets of reinforcement from vertical columns 3 and racks 7 for frames. Then, the outer and inner walls of modular blocks are again raised to the height of the next floor to the bottom marks of monolithic reinforced concrete belts, leaving temporary niches 9 for vertical columns 3 and racks 7 in them, serving as a formwork for erecting the frame. The niches 9 are poured with concrete, continuing the erection of frames from vertical columns 3 of the bearing and racks 7 of the front frames, and at the same time the supporting parts of the horizontal supporting beams 4 are made, then the floor floors are again assembled from prefabricated or monolithic plates 6 and horizontal connection beams 5 of monolithic reinforced concrete are made . Next, they increase the frame and again erect the walls to the height of the next floor, mount the floor floors, etc.

 In comparison with the prototype, the claimed building structure and method of its construction make it possible to obtain a more solid and durable building structure and are simpler technologically and less busy.

Claims (2)

 1. The structure of the building, including the foundation and a rigidly connected monolithic reinforced concrete frame spatial frame formed by vertical columns, horizontal load-bearing beams and connecting beams located in the planes of the external and internal walls, as well as interfloor ceilings from slabs, and supporting beams and connecting beams oriented according to a specific planning solution, characterized in that the foundation is made of a monolithic strip in the form of a system of cross monolithic beams, columns they are simply connected to the interface nodes of the supporting beams and connecting crossbars and foundation beams, in the facade layer of the external walls, the facade frame is parallel to the carrier and connected with it by flexible connections, the racks of which are supported by a common foundation, while the elements of the facade and bearing frames are spaced in appropriate planes on the thickness of the insulating strip made of small-piece lightweight concrete elements, and the outer walls are made of modular lightweight concrete heat-efficient elements.  2. The method of construction of the building, including the manufacture of the foundation, the floor-by-floor construction on the foundation of a rigidly connected supporting monolithic reinforced concrete frame spatial frame of interconnected vertical columns, horizontal load-bearing beams and connecting beams using formwork, the construction of floor-height walls from light heat-efficient materials and installation of interfloor ceilings made of slabs, characterized in that the foundation is made of monolithic strip in the form of cross reinforced concrete systems casting beams, leaving the outlets of reinforcement under the vertical elements of the carcass in the inner and outer walls, then erecting the walls to the height of the floor, leaving niches in certain places of the outer and inner walls, which are used as formwork during the construction of the carcass, monoling the left outlets of the reinforcement through the left niches, get vertical and horizontal elements of the frame, and the supporting parts of the horizontal load-bearing beams are performed simultaneously with the vertical elements, simultaneously with the carrier they are erected in parallel it closed on a path in front frame exterior walls, connecting it with the carrier at the interface flexible connections and different with him in the respective planes, the thickness of the thermal insulating lining which is made of small sized light concrete elements, then assemble prefabricated slabs and perform Svjaseva horizontal crossbars.

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