SU1638277A1 - Building - Google Patents

Abstract

The invention relates to the building. The purpose of the invention is to reduce material consumption by using the strength properties of concrete floor slabs. Prefabricated side elements are supported on supports in the form of walls or columns installed along the external axes of the building. The floor slabs are located longitudinally across the building and are connected to the side elements by means of fittings placed in the seams of the floor slabs and openings of the side elements, tensioned under construction conditions and anchored on the side elements. The walls of the latter are located within the middle part of the adjacent end sides of floor slabs, which have a ratio of longitudinal and end sides a 2b, where a is the length of the plate; b is the width of the slab. 3 hp ff, 10 ill.

Description

The invention relates to the construction and can be used in the construction of residential, public and some types of industrial buildings from prefabricated reinforced concrete elements.

The purpose of the invention is to reduce material consumption by using the strength properties of concrete floor slabs.

Figure 1 shows a fragment of a building, a plan; FIG. 2 is a section A-A in FIG. fig. 3 - the same, the variant with the cantilever support of floor slabs with a two-span building structure; 4 is the same, the variant with the placement of prestressed reinforcement along the curve of convexity upwards; figure 5 - node I in figure 1; on figb - section BB in figure 5; figure 7 - node II in figure 1; on Fig - section bb In figure 7; figure 9 - section GG in figure 2; figure 10 - the building in the installation process.

The building includes vertical supports in the form of columns 1 and exterior wall panels 2, diaphragms 3 stiffness, prefabricated side elements 4 located on two opposite sides of the building, and reinforcement 5, tensioned under construction conditions, placed in the longitudinal seams 6 between the floor slabs 7 and anchored on the side elements 4 with the formation of a hard disk of floors during the installation of joints 6 and 8 with concrete.

The side elements 4 are supported on vertical supports 1.2 and have horizontal holes 9 for the passage of tensioned reinforcement 5. The joints of the side elements 4 are located within the middle part of the adjacent end sides of the plates 7, made with the ratio of the longitudinal and end sides a 2b, where a is the length of the slab; b is the width of the slab.

ABOUT

with

00

to XI XI

The tensioned reinforcement 5 may have a curvilinear outline with an upward bulge at a ratio of the height of the slabs of 7 to the span of the building 1:40 and more.

The building can be equipped with additional floor slabs 10 and vertical bearing supports 11 installed inside the building in the zone of the junction of the plates 7 or displaced relative to it.

External vertical bearing supports 1,2 can be displaced on one or two sides of the building relative to the side elements 4 to form a console of floor slabs,

Floor slabs 7 may be of a continuous hollow box or ribbed cross section.

The stiffening diaphragms 3 have reinforcement outlets 12 placed in the seams of 6 floor slabs 7 for interconnecting them in height and forming a continuous cut them in the height of the building and installed with a gap of 13 relative to supports 1 and 2 filled with concrete (mortar) after nat reinforced steel bars 5.

The longitudinal rigidity of the building is provided by panels of external walls 2 or by installing diaphragms of rigidity 3 between the columns 1.

Additional supports 11 can be made in the form of panels of walls or columns arranged with small pitch, and can be located within 1/3 of the span between the main supports 1 and 2,

The maximum overhang of the floor slab consoles 7 can be 10h, where h is the height of the cross section of the floor slabs 7 /

The columns 1 and the exterior wall panels 2 in the upper end face have fittings 14 that pass through the openings 15 in the side elements 4 and enter the grooves 16 of the lower ends of the interchangeable columns 1 and the adjacent exterior wall panels 2.

The holes 15 and 9 in the side elements 4 and the grooves 16 are filled with cement mortar after installation.

Concrete monolithing seams 6 and 8 of the floor slabs 7 in the places of installation of the diaphragms 3 stiffness is fed into the seam 6 and 8 through the holes 17 in the diaphragms 3 stiffness.

The sequence of installation of prefabricated building elements using the example of its two-span variant (Fig. 10) is carried out in the following order:

install supports (columns 1 and panels of external walls 2), panels 11 of internal walls and diaphragm 3 stiffness and during installation fix them in the usual ways using mounting devices;

mounting racks 18c are fixed and fixed by mounting form 19;

Laying out the slabs 7, which rest on the mounting formwork

nineteen;

the installation of the Borg elements 4 is carried out, while the outlets of 14 columns 1 from the wall panels 2 pass through the openings 15 in the side elements 4;

0production of concrete (mortar) holes 15 in the side elements 4 and joints 6 and 8 between the plates 7 and the side elements 4 and between the plates 7 in the middle of the span is made;

5, the tension reinforcement 5 is pulled into the seams 6 between the plates 7 and into the openings 9 in the side elements 4, and anchors 20 are tensioned and anchored;

the holes 9 in the side elements 4 are filled with cement mortar, columns 1 and exterior wall panels 2, stiffening diaphragms 3 and panels 11 of the internal walls of the upper floor are installed;

The joints between the slabs 7 are filled with concrete, after the concrete has been drawn up with the required strength, the mounting posts 18 and the formwork 19 are disassembled, the joints between the upper ends of the panels 11 and the slabs 7 are filled with mortar.

0On this erection of floor constructions

buildings finish.

In the building, it is possible to use structures of external walls (single-layer and three-syllable wall panels, brick,

5 small-block and others), foundations, roofs, stairs, etc.

The invention allows more complete use of the strength properties of concrete floor slabs, which allows

0 to apply concrete of a lower class of strength, to obtain savings of cement and reduce the cost of construction.

The possibility of applying for precast concrete slabs more

5 simple construction, mastered in mass production, will significantly reduce the material and labor costs for the development of effective structures of buildings erected with the use of valves,

Claims (3)

0 tensioned in construction conditions. Claims 1. Building comprising vertical load-bearing supports, floor slabs, prefabricated side elements located along 5 to two opposite sides of the building, and reinforcement, which is strained under construction conditions, placed in the longitudinal joints between the slabs and anchored on the side elements with the formation of a hard disk of floors, different that, in order to reduce the material intensity due to the use of the strength properties of concrete floor slabs, the side elements are supported on vertical bearing supports and have horizontal holes for the passage of tensioned reinforcement, and their joints are located within the middle part of adjacent end faces of the plates made with the ratio of the longitudinal and end sides a 2b, where a is the length, b is the width of the plate, 2. The building according to claim 1, characterized in that the tension fittings have a curvilinear outline convexity upwards, / 0 3. Building according to claim 1, characterized in that, in order to expand the architectural and planning solutions, it is equipped with additional floor slabs and vertical bearing supports installed inside the building in the zone of the junction of the plates or with an offset relative to it. 4, Building according to Clause 3, characterized in that the external vertical bearing supports are displaced along one or two sides of the building relative to the side elements with the formation of a console of floor slabs. / FIG. one FIG. 2 Fig.Z FIG. five FIG. eight 20 7