RU159630U1 - UNIVERSAL FAST-MOUNTED FRAME WITH ASSEMBLY-MONOLITHIC UNINTERRUPTED CEILINGS AND SELF-FIXING WALL PANELS - Google Patents

Abstract

1. Universal fast-mounted full frame, including flat and ribbed continuous floors, one-storied columns of rectangular cross-section, panels of external walls, diaphragms of rigidity and connecting elements, characterized in that the external walls of buildings are made of three-layer non-bearing panels on flexible connections installed between wall columns on floor slabs with free support through special parts so that their internal vertical faces and the faces of adjacent columns are located in the same plane and due to the self-fixation of panels at installation by installing fixing rods in vertical channels and lateral grooves on the end faces of their inner layer, and prefabricated flat floor slabs are directly supported by embedded parts in the corners on steel sheets at the ends of one-story columns or crossbar consoles, fixed to them with the help of bolts and welds passed into the vertical channels, prefabricated plates and crossbars included in the ceilings are connected to each other by upper horizontal fittings, some of which are fixed on mortgages details of prefabricated slabs or on the outlets of the transverse reinforcement of the crossbars placed in layers of monolithic concrete laid on the object in open grooves of rectangular section arranged along the upper face of the plates and crossbars, as well as in horizontal grooves of a triangular section on the side faces of the plates with the formation of diamond-shaped dowels. 2. The frame according to claim 1, characterized in that in the supporting zones of the slabs diamond-shaped concrete dowels on their lateral faces are provided with transverse reinforcement in the form of a wound spiral of reinforcing wire, and in the supporting zones of continuous beams the compressed zone is

Description

The utility model is intended for the construction of one-story and multi-story civil buildings for various purposes with a supporting system of reinforced concrete structures, including a full frame of one-story columns, rigidly connected prefabricated-monolithic continuous floors, stiffeners and non-bearing self-fixing wall panels.

An incomplete frame with precast monolithic continuous floors of flat precast reinforced concrete slabs supported by corners directly on the ends of one-story columns or on tables of external wall panels with supporting vertical ribs and rigidly fixed to them by bolts and welding is known (1).

The disadvantages of this system are:

- the structural complexity of the nodes supporting flat and ribbed continuous floors on the supporting three-layer panels of the outer walls;

- increased complexity of the manufacture of wall panels with a system of supporting vertical and horizontal ribs in one-piece formwork.

Also known is the prefabricated monolithic system of frame structures for the construction of various types of civil buildings "Radius", in which prefabricated floor slabs are connected to each other and with columns using monolithic intercolumn sections (girders) with span and support fittings passed through holes in the columns [ 2].

The main disadvantages of this system are the uneven connection of the prefabricated slabs with each other and with the monolithic crossbar sections of the floors and the lack of their continuity in the span of the plates, the use of special supporting formwork to absorb the weight of the prefabricated elements and the monolithic intercolumn sections, the possible decrease in the bearing capacity of the columns in the hole zone and a significant slowdown in construction.

To eliminate these drawbacks of expanding the scope in buildings with different planning structures and construction conditions, reducing its complexity, a useful model of a universal full frame is proposed, including (Fig. 1, 2, 3): one-story columns of rectangular cross section for the middle rows 1 and wall 2 with steel sheets at ends 3 and stud bolts 4; continuous overlapping of flat plates 5 with open rectangular grooves 6 along the contour of the upper face, provided in the corners with supporting embedded parts 7 and vertical channels 15 for passing bolts 4 and securing to the ends of columns 1, 2; single-span crossbars 9 with support on their shelves of plates 5 (Fig. 4); three-layer non-supporting panels of the outer walls 8, located between the wall columns 2 so that their inner faces coincide and form a common plane (Fig. 5), flat reinforced concrete panels of stiffness diaphragms 10, fixed by welding of mounting parts 28 to columns 1, 2 and overlays 29 to plates 5 (Fig. 7).

Continuity of the overlap is ensured by installing the upper horizontal working reinforcement (span 11 and support 12) and hardening the monolithic concrete 13, laid in open grooves 6 along the contour of the upper face of the slabs, so that reinforced cross belts connecting them due to the coupling of the precast and monolithic concrete for the perception of bending moments. Part of the upper support reinforcement can be made in the form of welded nets 12 or rods 14 welded to embedded parts 18 in the supporting sections of the grooves 6 of the plates 5 (see Fig. 3).

For the perception of transverse and shear forces in the ceilings, a device is provided along the lateral faces of flat plates 5 of triangular grooves 16 with the installation of reinforcing spirals 17 (if necessary) and the formation of monolithic diamond-shaped concrete keys (Fig. 2).

When the crossbars 9 are included in the overlap (to increase the pitch of the columns), their joint work with the continuous disk is ensured by hardening the concrete 13, laid in open horizontal grooves along the upper faces of the crossbars 9 and the slabs 5 supported on them, with the installation of horizontal reinforcing reinforcement in the form individual rods 14 and welded meshes 12, as well as releases of transverse reinforcement 19.

Filling with concrete monolithic 13 vertical grooves 20 at the ends of the crossbars 9 creates in them a compressed zone of the supporting sections of multi-span continuous edges of the floors (Fig. 4).

Outer rods are made of three-layer reinforced concrete non-load-bearing panels with flexible connections between wall columns 2 with free support on floor slabs 5 through fluoroplastic gaskets 22 so that the inner vertical faces of panels 8 and columns 2 are located in the same plane (Fig. 5). In this case, the columns 2 are supported by the end sheets 3 on the plates 5 and are combined with the overlap by a rigid assembly using bolts-studs 4 and welding of the connecting part 23.

When installing the panels 8, their design position is ensured by: self-fixing due to installation in the vertical channel 15 and inclined grooves 27 in the inner carrier layer of the panel of the fixing rods 25 and 26 (Fig. 6).

Permanent fixing of the panels 8 is carried out by welding a rigid ductile mounting part 21 to the embedded parts 18 of the bearing layer of the panels 8 and columns 2 (Fig. 6).

These methods of fixing panels exclude their random displacements and do not impede movements due to temperature-shrinkage deformation of concrete.

Providing spatial rigidity of the frame of the diaphragm 10 is made in the form of reinforced concrete flat single-layer panels that are installed on the plates 5 before monolithic overlap and are attached to the columns 1, 2 and plates 5 by welding to their embedded parts 18 of the mounting parts 28 and steel plates 29 with anchors (Fig. . 7).

To compensate for movements and reduce additional efforts from temperature-shrinkage deformations of concrete, separation of continuous floor disks into compartments by expansion joints is provided, which are formed by free support of plates 5 on special tables 30 installed on the ends of columns 1 and excluding the loading of plate units 5, as well as devices end-to-end vertical clearance 31 in the concrete monolithic when installing the separator from a sheet of galvanized steel 32 along the side faces of the plates 5 adjacent to the seam (Fig. 8).

After completion of installation and monolithic overlappings, the system of structures turns into a frame-and-bond frame with increased spatial rigidity with a limited amount of additional efforts from temperature-shrinkage deformations of concrete.

REFERENCES:

1. Morozensky V.L. Universal precast monolithic frame with continuous floors. Utility Model Patent No. 54980 by Application No. 2006109830.

2. Lepsky V.I. and others. Regionally adaptable home-building system. Collection of scientific papers of A / O "Inrekon" "Improving designs for the construction of public buildings", - M., 1992.

Claims (3)

 1. Universal fast-mounted full frame, including flat and ribbed continuous floors, one-storied columns of rectangular cross-section, panels of external walls, diaphragms of rigidity and connecting elements, characterized in that the external walls of buildings are made of three-layer non-bearing panels on flexible connections installed between wall columns on floor slabs with free support through special parts so that their internal vertical faces and the faces of adjacent columns are located in the same plane and due to the self-fixation of panels at installation by installing fixing rods in vertical channels and lateral grooves on the end faces of their inner layer, and prefabricated flat floor slabs are directly supported by embedded parts in the corners on steel sheets at the ends of one-story columns or crossbar consoles, fixed to them with the help of bolts and welds passed into the vertical channels, prefabricated plates and crossbars included in the ceilings are connected to each other by upper horizontal fittings, some of which are fixed on mortgages details of prefabricated slabs or on the outlets of the transverse reinforcement of the crossbars, placed in layers of monolithic concrete laid on the object in open grooves of rectangular section arranged along the upper face of the plates and crossbars, as well as in horizontal grooves of a triangular section on the side faces of the plates with the formation of diamond-shaped dowels. 2. The frame according to claim 1, characterized in that in the supporting zones of the slabs, diamond-shaped concrete dowels on their lateral faces are provided with transverse reinforcement in the form of a wound spiral of reinforcing wire, and in the supporting zones of continuous beams, the compressed zone is formed by filling vertical grooves with monolithic concrete ends of prefabricated beams. 3. The frame according to claim 1, characterized in that the permanent fixing of the wall panels is carried out by welding to their embedded parts and adjacent wall columns of hard-flexible mounting parts, which does not interfere with their movements due to temperature-shrinkage deformation of concrete.

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