RU2295010C2 - Low building - Google Patents

Abstract

FIELD: building, particularly to erect low residential, industrial and public buildings.

SUBSTANCE: low building comprises foundation, floor and roof panels, enveloping wall structures and bearing posts made as pipe-and-concrete columns arranged along outer building walls and located from inner sides thereof. The pipe-and-concrete columns are spaced equal distances from outer building walls. Distance between pipe-and-concrete columns is equal to 0.5-0.7 of adjoining building wall length. The pipe-and-concrete columns are joined to foundation and floor panels. Roof panels are supported by pipe-and-concrete columns. Enveloping structures are made of light-weight concrete, which is prepared by grouting filler with encapsulated binding agent.

EFFECT: reduced erection time, increased seismic stability and operational reliability.

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Description

The present invention relates to construction and can be used in the construction of low-rise buildings for residential, industrial and social purposes.

The closest in technical essence to the claimed one is a low-rise building, including a foundation, supporting racks, floor slabs and coatings enclosing wall structures (see, for example, RF patent No. 2046909, class E 04 S 3/02, 1993).

To improve the performance of the building and its resistance to external energy influences, the well-known building is equipped with angular support posts, upper and lower profiled beams connected to each other and with support posts using overlays, as well as coating plates interconnected on the cantilever shelves of the upper beams, interconnected using wooden blocks to form a frame type frame. However, such a solution does not provide the necessary strength of the finished building structure in extreme conditions, for example, during an earthquake, and installation work is notable for its increased laboriousness with significant use of manual labor, which, in turn, leads to an increase in the construction time and cost of a known building.

The task of the invention is to accelerate the construction period, increase the seismic resistance and operational reliability of a low-rise building, provide the possibility of free planning of the internal partitions of the building, reduce the cost of construction.

The technical problem is solved in that in a low-rise building, including the foundation, support pillars, floor slabs and coatings, enclosing wall structures, support pillars are made in the form of concrete pipes arranged in pairs in the interior of the building at an equal distance from the outer walls, and the distance along the wall between the concrete columns is from 0.5 to 0.7 of the length of the adjacent wall of the building; the columns are interfaced with floor slabs, and the enclosing structures are made of lightweight concrete made by monolithic lightweight aggregate encapsulated with a binder.

The proposed technical solution allows to significantly increase the strength of the building and its seismic resistance due to the use of pipe concrete columns paired with a foundation, roof and floor floors and connecting all structural elements of a low-rise building into a single high-strength frame as supporting racks. In addition, due to the technical features of the concrete, in which the steel tubular shell of the columns acts as a formwork and reinforcement, as well as a rigid bearing support, the foundation and basement of the building are constructed without digging a deep open pit, which can significantly reduce the overall construction period, and the use of the pipe-concrete construction of the castle connecting element for pairing (connecting) the pipe-concrete columns provides a significant reduction in the complexity of work during the construction of tangent, acceleration rack mounting of low-rise buildings, reducing the cost of construction. The use of lightweight large-porous concrete from monolithic encapsulated aggregate with improved heat-shielding characteristics in the enclosing wall improves the performance of the inventive low-rise building and speeds up the erection time of enclosing structures.

The proposed technical solution is illustrated by drawings, in which: figure 1 shows a low-rise building, a cross section; figure 2 is a section aa in figure 1.

The building contains a foundation 1, pipe-concrete columns 2 installed on it, cover slabs 3, enclosing walls 4 of lightweight porous concrete, floor slabs 5.

Pipe-concrete columns 2 with a diameter of at least 100 mm are arranged in pairs inside the enclosing outer walls 4 and at an equal distance from the corresponding wall. Moreover, the distance between the concrete pipes is from 0.5 to 0.7 of the length of the adjacent wall of a low-rise building. The outer walls 4 are made of lightly porous concrete obtained by monolithic, for example expanded clay aggregate, encapsulated with cement binder and laid in the formwork 6. Other lightweight aggregates, for example, polystyrene foam, foam, etc., can be used as aggregate for large-porous concrete. and as a binder - Portland cement, water glass, magnesia binder. Encapsulation of the aggregate is carried out in a mixer-capsulator (see RF patent No. 220B41, class B 28 C 5/48, 2001).

Installation of a low-rise building is as follows.

In reinforced concrete columnar supports, pipe concrete columns 2 of the required section are installed and then monolithic: either round with a diameter of more than 100 mm, or square (rectangular) with a side of a cross section of more than 100 mm. A lightweight strip foundation is laid along the perimeter of the building under construction, after which a floor slab 5 is placed and rigidly connected to the columns 2 at the design elevation, and the roof casing 3 is installed and fixed on the concrete columns above, thus forming a single spatial frame erected building. A formwork 6 for erecting walls is installed around the entire perimeter of the frame, and a light porous aggregate, for example, expanded clay, followed by monolithization in natural conditions, is encapsulated with a binder, for example, placed in the inter-deck space formed. The roof is also insulated using a lightweight porous aggregate, for example, expanded polystyrene, encapsulated with an aqueous solution of sodium silicate (water glass) and the subsequent laying of the encapsulated aggregate under the roof surface.

The proposed construction of the building with a high-strength supporting frame made of concrete can be used in the industrial construction of low-rise buildings in areas of high seismicity.

Claims (1)

Low-rise building, including the foundation, support racks, floor slabs and coatings, enclosing wall structures, characterized in that the support racks are made in the form of concrete columns located along the outer walls of the building from their inner side and at an equal distance from the outer walls, and the distance between pipe-concrete columns is from 0.5 to 0.7 of the length of the adjacent wall of the building; the columns are interfaced with the foundation and floor slabs, the coating slabs are supported on the columns, and the enclosing structures are made of lightweight concrete made by monolithic aggregate encapsulated with a binder.

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