RU2024697C1 - Building - Google Patents

Abstract

FIELD: civil engineering. SUBSTANCE: side members supported by bearing walls are disposed on two opposite sides of covering span. Ends of stressed reinforcement located in longitudinal joints between covering slabs pass through horizontal holes of side members and are secured thereon, forming a rigid covering disc. Bearing walls have niches arranged coaxially with longitudinal joints between covering slabs. Each side member has the form of anchor block accommodated in corresponding niche. EFFECT: improved design. 2 dwg

Description

 The invention relates to construction and can be used in the construction and reconstruction of residential, public and some types of industrial buildings from prefabricated reinforced concrete elements, as well as with bearing stone walls.

 A building is known, including vertical load-bearing supports, floor slabs, prefabricated airborne elements located on two opposite sides of the building, and reinforcement strained in building conditions, placed in longitudinal seams between the plates and anchored on the side elements with the formation of a hard drive of the ceilings (1).

 However, the design of such a building has great material consumption.

 The closest technical solution is the building, including vertical load-bearing walls, floor slabs, airborne elements supported on load-bearing walls located on two opposite sides of the span span, tensioned reinforcement placed in longitudinal seams between the floor slabs, passed through the horizontal holes of the airborne elements, fixed on the latter and monolithic with concrete with the formation of a hard disk of ceilings (2).

 However, the design of such a building is quite material-intensive and time-consuming in the manufacture of airborne elements and in the production of construction and installation works.

 The objective of the proposed solution is to reduce material consumption and labor intensity in the manufacture of airborne elements and in the construction and installation works.

 The problem is solved in that the bearing walls are made with niches located discretely and coaxially to the seams between the floor slabs, and the side elements are in the form of anchor blocks located in the wall niches.

 In FIG. 1 shows a fragment of a building, a plan view; in FIG. 2 is a section AA in FIG. 1.

 The building contains vertical load-bearing walls 1, floor slabs 2, side elements 3 supported on the load-bearing walls 1, floor slabs 2 located between them, tensile reinforcement 4 placed in longitudinal seams 5 between the floor slabs 2, passed by the ends 6 through the through horizontal openings 7 of the side elements 3, fixed to the latter and monolithic with concrete 8 with the formation of a hard drive of the floors. The bearing walls 1 are coaxially located with longitudinal seams 5 between the floor slabs 2 of the niche 9, and each side element 3 is made in the form of an anchor block placed in the corresponding niche 9. The floor slabs 2 can have a span of less than or less. In FIG. 1 and 2 show the line of the transverse junction between the floor slabs 3, the length of which is half the span.

 The sequence of installation of prefabricated elements of the building is carried out in the following order.

 Bearing walls 1 are erected, for example, from panels of external walls, and, if necessary, columns and panels of internal walls, and during installation, they are fixed in the usual way. Using mounting devices, mounting racks with mounting formwork are installed and secured (not shown in the drawings), floor plates 2 are laid out, which are supported on the mounting formwork. The onboard elements 3 are mounted, which are laid in niches 9 formed in the walls 1 at the same time. At the same time, tensile reinforcement 4 is passed through their holes 7 and secured with anchors 10, which are inserted into the joints 5 between the floor slabs 3. Then, the joints 5 between the floor slabs 2, and also the seams between the plates 2 and the walls 1, between the plates 2 and the side elements 3 and the side elements 3 and the walls 1 are monolithic. The holes 7 in the airborne elements 3 are filled with cement mortar. This completes the construction of floor structures of the building. The formwork and support elements are disassembled in the reverse order.

 The invention allows more fully use the strength properties of concrete floor slabs, which makes it possible to use concrete of a lower class in strength, to save cement and reduce the cost of structures.

 The possibility of using prefabricated reinforced concrete slabs and airborne elements for floors of a simpler design, mastered in mass production, will significantly reduce the material and labor costs of developing effective building structures erected using reinforced tensile under construction conditions, and, in addition, allows you to work reconstruction using standard prefabricated floor slabs, which will significantly reduce costs in the construction and installation works.

Claims (1)

 BUILDING, including vertical load-bearing walls, airborne elements supported on them, floor slabs located in the span of walls between airborne elements, and prestressed reinforcement placed in longitudinal seams between the floor slabs, passed through the horizontal holes of the airborne elements, fixed in them and monolithic concrete with the formation of a hard drive of floors, characterized in that the walls are made with niches located discretely and coaxially with seams between the floor slabs, and Elements - in the form of anchor blocks placed in wall niches.

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