RU2071535C1 - Floor slab - Google Patents

Abstract

FIELD: floor slab for construction of multistory prefab panel buildings. SUBSTANCE: slab is made of thermally treated concrete mix and endless string-type reinforcement which is wound in dual-axis and dual-row direction. Panel has ribs at three sides which are located in part of cross- sectional height of panel in middle part of its sides. Panel has also vertical slots in ribs and along its forth side. It is provided with internal rectangular anchors with supporting flats and external and internal bifurcated vertical protrusions with holes which are seated in slots of slab. String armature is wound with tension around internal anchors. Upper internal anchors are connected by means of tie-rods and pins with lower internal anchors. External protrusions of anchors are made as load-lifting loops. Tension force applied to each reinforcement string is equal to 0.7 of its ultimate strength value. EFFECT: high efficiency. 4 cl, 6 dwg

Description

 The invention relates to the field of construction and can be used in the manufacture of floor slabs for multi-storey large-panel housing construction, civil buildings, industrial buildings and other structures.

 A floor slab of a multi-storey large-panel building is known, including a heat-treated concrete mortar with a welded reinforcing cage and having a rectangular shape, where along the edges of the slab at the corners in the places of support of two internal transverse, parallel wall panels and one longitudinal internal wall panel on the lower panels, it has taken out places, and for connecting it in the longitudinal direction of the building with others, adjacent to the floor slabs, it has grooves where the embedded parts fit out, on one they are made in the form of threaded concrete sleeves, and on the other a tube with bolts rotating in them, and a U-shaped descent is a belt along the perimeter of the plate from above (ed. St. 1252440, class E 04 B 1/02, 1982) .

 The disadvantage of this coating plate is its low crack resistance, rigidity, strength, and bearing capacity, since they depend only on the adhesion of the reinforcement metal to the concrete mortar, high metal consumption, uncomfortable and unreliable construction of the embedded connecting part and the connecting unit itself, lack of fixing a node of this floor slab with external wall panels and with internal wall panels, which reduces the seismic resistance of the building.

 The closest in technical essence is a prestressed floor panel, including a heat-treated concrete mortar, reinforced with continuously-closed string reinforcement in a biaxial and double-row direction with holes at the ends of the panel perimeter from the removed pins, with the tension of the reinforcement during its manufacture on the pins removed during stripping, and weakened loops of string reinforcement (K.V. Sakhnovsky. Reinforced concrete structures. M. Gosstroyizdat, 1959, p. 324-325, Fig. XI.25).

The disadvantage of this overlapping panel is its high metal consumption, its low crack resistance, stiffness, strength, frost resistance and bearing capacity, since loosened loops of string reinforcement reduce the panel's carrying capacity and will not prevent the creep of concrete from metal, weakening the end parts of the panel. The presence of perimeter holes in the ends of the slab from the removed pins weakens the supporting surface of the slab, the tensile strength of which is only equal to the strength of the concrete mortar itself without reinforcement, i.e. 7 ^o C8% of the reinforced concrete product itself, which contributes to breakage of concrete in the end parts of the slab and further collapse of the slab. In this connection, this design of the panel according to SNiP is rejected and has not received distribution. Its disadvantage is that it does not have fastening devices for connecting it to the internal, external and other panels of the building itself.

 The purpose of the invention is the increase in crack resistance, strength, rigidity, frost resistance, reduction of metal consumption and the creation of the possibility of connecting the floor slab with the external, internal wall panels and floor slabs using bolted joints, changing the design of the bolt joint and the design of the connecting parts themselves to give the building seismic resistance.

 This goal is achieved in that the floor slab, including heat-treated concrete mortar, continuously-closed string reinforcement stretched in biaxial and double-row direction to the pins removed from the plate during stripping, weakened reinforcement loops, it is provided along the plane in the ribs with grooves removed by the concrete along the edges the edges of the plate at its corners in the U-shaped direction and the U-shaped descent with a belt around the perimeter of the plate from above, with internal rectangular anchors with supporting platforms. And the connecting anchors are equipped with front fork-shaped vertical outlets with holes in them. Moreover, the front fork-shaped outlets go into the slots of the plate. And the string reinforcement is wound on the internal anchors remaining in the concrete, keeping the reinforcement loops in a stressed state. At the same time, the hulls of the inner upper anchors (along the thickness of the panel) are connected to the lower inner anchors by means of rods and rollers, for which the hulls of the anchors are also equipped with rear upper or lower outlets with holes in them. Front releases of internal anchors act as hoisting loops of the slab. The tension force of each string of reinforcement is 0.7 of its temporary resistance. The slab can be made of cellular or lightweight concrete, as well as with hollow holes and with channels for hidden electrical wiring and a channel for outputting it to the inner surface of the plate.

 In Fig.1 shows a floor slab, a plan view; figure 2 is the same view from the side of figure 1; figure 3 section aa figure 2; in Fig. 4, the node I is a view along arrow B of Fig. 3; in Fig.5 node II view along arrow C of Fig.4; figure 6 section KK figure 1.

 The slab includes a heat-treated concrete solution 1 (Fig. 1, 2, 3), a continuous closed string reinforcement 2, 3 (Fig. 3, 4, 5), wound in biaxial x, y and two-row direction with loops 4, 5 at the ends slab, it is equipped with grooves 6, places of concrete 7 removed along the edges 8, 9 of the slab at its corners in the U-shaped direction, U-shaped descent with a belt 10 (Fig.6) around the perimeter of the slab from above. The floor slab is also equipped with rectangular internal anchors 11, 12, 13, 14 remaining in concrete 1 with a supporting platform 15, 16, and the connecting anchors 13, 14 are equipped with front fork-shaped vertical outlets 17 (Figs. 4, 5) with holes 18 in them . The front fork-shaped outlets 17 (Figs. 1, 3, 4) extend into the slots 6 of the floor slab, and the string fittings 2, 3 (Figs. 3, 4) are wound on the internal anchors 11, 12, 13, 14, keeping the loops 4, 5 in tension. At the same time, the bodies of the internal anchors 11, 13, made according to the applications N 4318685, N 4318686 using rods 19 and rollers 20 with cotter pins 21, are connected to the lower internal anchors 12, 14 (Figs. 4, 5), for which the anchor bodies equipped with rear upper 22 or lower 23 outlets with openings 24 in them. And the front releases 17 of the internal connecting anchors 13, 14 act as load-lifting loops of the plate. The coefficient of tension of reinforcement 2, 3 is 0.7 of the temporary resistance of the reinforcement itself. The slab can be made of cellular or lightweight concrete, as well as with hollow holes (not shown in the drawing) and can be made with channels for hidden electrical wiring and with a channel for outputting it to the bottom surface of the plate (not shown in the drawing).

 The presence of internal anchors in concrete 1 of the slab, made according to applications N 4318685, N 4318686, makes it possible to maintain a continuous closed thread of reinforcement 2, 3, and keep loops 4, 5 in tension, thereby changing the nature of the work of reinforcement in concrete 1, preventing creep concrete 1 for reinforcement metal 2, 3, which makes it possible to more fully use the mechanical properties of reinforcing steel, apply more durable steel grades for reinforcement, thereby reducing metal consumption, increasing crack resistance, stiffness, strength and bearing floor slab ability. And the supply of anchors supporting platforms 15, 16 (Fig.4, 5) reduces the specific pressure on concrete, preventing crushing of concrete 1 anchor. The supply of connecting anchors 13, 14 (Figs. 3, 4) with front outlets 17 with holes 18 in them and their outlet into the slots 6 of the plate makes it possible to connect anchors 13, 14 through rollers with additional connecting parts 25, the ribs of which are inserted into the grooves of the outlets anchors, and through the additional connecting parts of another connected plate and using bolts with washers and nuts (not shown) to connect the plates to each other. And depending on the design of the additional connecting part necessary for connecting it to other panels, made according to the following application numbers 1) N 4732161; 2) N 4765789; 3) N 4765788; 4) N 4771358 and others, makes it possible to connect the floor slab with both external wall panels, with internal wall panels, and with the floor panels located nearby, performing any joint overlap. The presence of internal floor anchors prevents the creep of concrete 1 on the reinforcement metal, and this avoids the formation of gap gaps between the reinforcement and concrete and the filling of these gap gaps with water, avoiding freezing water in winter and crushing concrete 1 with ice, thereby increasing the frost resistance of the slab.

Claims (4)

 1. The floor slab containing heat-treated concrete, a continuously-closed string reinforcement wound in a biaxial and double-row direction, characterized in that the floor slab is provided on three sides with ribs placed on a part of the section height in the middle of the sides and is made with vertical grooves in the ribs and on the fourth side and the remaining in the concrete internal rectangular anchors with supporting platforms and external and internal fork-shaped vertical outlets with holes in them included in the grooves ity, and the string reinforcement is wound with tension on the internal anchors, the internal upper anchors using rods and rollers connected to the lower internal anchors, and the external releases of the anchors are made in the form of lifting loops, while the tension force of each string of reinforcement is 0.7 of the temporary her resistance.  2. A slab according to claim 1, characterized in that it is made of cellular or lightweight concrete.  3. The stove according to claim 1, characterized in that it is made with hollow holes.  4. The stove according to claim 1, characterized in that it is provided with channels for hidden electrical wiring and a channel for outputting it to the inner surface.

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