RU2627524C2 - Platform assembly-monolithic joint - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: platform assembly-monolithic joint comprises hollow-core flooring plates, arranged in the layout above adjacent rooms in mutually perpendicular directions, resting on the inner bearing wall panels; concrete diaphragms are arranged in the cavities of the flooring plates facing the plate butt, at a distance exceeding the panel thickness; the openings trapezoidal in the section are made on the entire plate thickness; the wall panels have openings, and therefore the upper zone of the panel is reinforced with a frame that has projections from the upper face plane of the panel on which the flooring plates rest; between the butts of the flooring plates, using these projections, the monolithic reinforced belt is arranged, the armature of which is connected to the vertical operating rods of the overlying panel and concreted. Also on the side faces of the flooring slabs there are recesses of the trapezoidal shape (dowels, grooves) which after laying in the space between the slabs of the flat reinforcing frame and filling them with concrete connect adjacent slabs to each other and form an assembly-monolithic horizontal hard disc of flooring.

EFFECT: rigid joint between the wall panels with openings by height and the formation of an assembly-monolithic horizontal hard disc of flooring when erecting panel buildings in seismically hazardous areas with the increase in the resistance of these buildings to progressive collapse.

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Description

The invention relates to the field of construction and is intended for the device of prefabricated monolithic joints of wall panels with openings and ceilings in panel and panel-frame residential, civil, industrial and other buildings and structures.

This joint can be arranged in the bearing panels of buildings, made in the form of bearing reinforced concrete panels-frames, the inner space of which is filled with light piece material. The outer walls are supported on a supporting crossbar with thermal connectors, floor panels are placed in plan above adjacent rooms in mutually perpendicular directions. At the ends of the upper flange of the floor panels there are cutouts for dowels, the platform joints of the wall panels and floor panels are monolithic along with the reinforcing outlets on the upper surface of the crossbars of the frame panels (see Pat. 2506385, Russian Federation, IPK Е04Н 1/00. Panel building elements / V.A. Ilyichev, V.I. Kolchunov, N.V. Klyueva, A.S. Bukhtiyarov .-- No. 2012133065/03, declared 01.08.2012, published 10.12.2014, Bull. No. 4. - 8 s.).

The known platform joint (see Falevich, B.N. Design of stone and large-panel structures / B.N. Falevich, K.F. prefabricated wall panels and prefabricated multi-hollow floor slabs supported on the wall panel, and a section filled with concrete to the calculated depth between the ends of the wall panels and the supporting sections of the floor slabs.

The disadvantage of this design solution is that without sealing the voids of the floor slabs with concrete, the strength of individual sections of the slab is significantly lower than the prismatic strength of the concrete from which the structures are made. As a result, the strength of the platform joint is insufficient for buildings with high floors (more than 5 floors). Also, in the absence of connections between hollow core slabs, it does not allow erecting buildings and structures in seismically dangerous areas

The platform joint is also known (see Pat. 2276712 Russian Federation, IPC Е04В 1/61, Е04В 5/02. Platform precast-monolithic joint / V.I. Kolchunov, V.N. Petrov, N.V. Klyueva, E. A. Meleshkova .-- No. 2005100242/03, declared January 11, 2005, published May 20, 2006, Bull. No. 14. - 5 pp.), Including multi-hollow floor slabs supported on internal load-bearing wall panels, in the voids of floor slabs, facing the end of the slab, at a distance exceeding the thickness of the panel, concrete diaphragms with a thickness of at least 30 mm are arranged, at the same end along the edge in the upper thin part of the slab above the voids openings are rectangular in plan to the depth from the top surface of the slab to the void, the section between the end of the floor slab and the diaphragm is reinforced with a vertical frame and filled with concrete, an reinforcing mesh is laid in the upper part of the monolithic joint along the entire width of the monolithic section, which has rectangular projections in the plan, overlapping these monolithic sections in rectangular holes arranged at the ends of the plate above the voids.

The disadvantage of such a constructive solution is that this joint does not provide a rigid connection of floor slabs between themselves and wall panels, which is an important factor for increasing the overall spatial stability (geometric immutability) of a building with high floors and the survivability parameter of these structures, especially if there are panels of openings for the construction of panel buildings in seismically hazardous areas.

The technical problem to which the invention is directed, is to provide a rigid connection of floor slabs between themselves and wall panels and increase the stiffness of the shift of the floor slab with increasing stiffness of the connection of the frames.

This is achieved by the fact that in a prefabricated monolithic junction, including multi-hollow floor slabs located in plan above adjacent rooms in mutually perpendicular directions, supported on internal load-bearing wall panels, in the voids of floor slabs facing the end of the slab at a distance exceeding the thickness of the panel concrete diaphragms are arranged, wall panels have openings, the upper zone of the panel is reinforced with a frame that has outlets from the plane of the upper face of the panel on which the floor slabs rest, between at the ends of the floor slabs, using these outlets, a reinforced monolithic belt is constructed, the reinforcement of which is connected to the vertical working rods of the upstream panel and concreted, on the side faces of the floor slabs there are recesses of a trapezoidal shape located in the space between the plates of the flat reinforcing cage and interconnecting located next to each other floor slabs, forming a prefabricated monolithic horizontal hard drive floor slab.

Distinctive features of the technical solution: wall panels have openings, the upper zone of the panel is reinforced with a frame that has outlets from the plane of the upper face of the panel on which the floor slabs are supported, between the ends of the floor slabs, using these outlets, a reinforced monolithic belt is arranged, the reinforcement of which is connected to vertical working rods of an upstream panel and concreted, on the side faces of the floor slabs there are trapezoidal recesses located in the space between the slabs reinforcing cage and connecting adjacent adjacent floor slabs, forming a prefabricated monolithic horizontal hard drive floor slab.

The significance of the differences is ensured by solving a new technical problem: providing a rigid connection of prefabricated structural elements and the possibility of their use in seismically hazardous areas with increasing resistance of these structures to progressive collapse.

The invention is illustrated in the drawing.

In FIG. 1 shows a General view of the platform precast-monolithic joint in isometry.

The platform prefabricated monolithic joint includes (Fig. 1) an internal supporting wall panel with openings 1 with multi-hollow reinforced concrete slabs supported on it above the adjacent rooms in mutually perpendicular directions, floor slabs 2, concrete diaphragms 3, outlets 4 of the reinforcing cage 5 of the upper wall zone panels, concrete reinforced monolithic belt 6, "П" -shaped reinforcing rods 7 connecting the reinforcement of the monolithic belt 8 with vertical working rods 9 of an upstream wall panel 10. Fittings The reinforced concrete frame 5 and the concrete of the reinforced monolithic belt 6 are connected by multi-hollow reinforced concrete floor slabs 2.

The device operates as follows.

In the holes facing the end of the multi-hollow floor slab 2, at a distance greater than the thickness of the internal load-bearing wall panels 1 and 10, concrete diaphragms 3 with a thickness of at least 30 mm are arranged. Due to the fact that wall panels 1 and 10 have openings, the upper zone of the panels is reinforced with a frame that has 4 outlets from the plane of the upper face of the panel, on which the floor slabs 2 are supported. Between the hollow slabs located in the plan above adjacent rooms in mutually perpendicular directions floors 2, using these issues, arranged reinforced monolithic belt. Monolithization is carried out using trapezoidal holes in the plan (keys, grooves) along the edge of the plates 2. Such holes are arranged over the entire thickness of the floor slabs. When concrete 6 is filled between the ends of the wall panels 1 and 10 and the supporting sections of the floor slabs supported on them 2, the formed spaces in the voids of the floor slabs limited by concrete diaphragms are monolithic 3. Under the working reinforcement of the monolithic belt 8, "U" -shaped reinforcing bars 7 are installed , the outlets of which are passed into the openings in the shelf of the floor slab above the voids and are welded to the outlets of the vertical working rods 9 of the wall panel 10 and then concreted. Also on the side faces of floor slabs 2 there are trapezoidal depressions (dowels, grooves), which, after laying in the space between the plates of the flat reinforcing cage 5 and filling them with concrete, connect adjacent floor slabs to each other and form a precast monolithic horizontal hard disk of the floor.

In the production of multi-hollow plates at construction enterprises for the formation of trapezoidal recesses in plates, punches (hollow formers) are welded on special cut-in-shape recesses of rigid inserts that are removed together with the punch, thus forming holes of a given shape. At the ends of the plates, the formation of recesses is ensured by welding to the formwork forms special hard inserts of the necessary shape.

The technical solution provides a rigid connection in height between wall panels with openings and the formation of a precast monolithic horizontal hard drive of overlap during the construction of panel buildings in seismically dangerous areas with an increase in the resistance of these buildings to progressive collapse.

Claims (1)

Platform prefabricated monolithic joint, including multi-hollow floor slabs located in the plan above adjacent rooms in mutually perpendicular directions, supported on internal load-bearing wall panels, in the voids of floor slabs facing the end of the slab, concrete diaphragms are arranged at a distance exceeding the thickness of the panel, in the same end has trapezoidal openings in terms of the entire thickness of the plate, characterized in that the wall panels have openings, the upper zone of the panel is reinforced with a frame that has outlets from In the gloss of the upper edge of the panel, on which the floor slabs rest, between the ends of the floor slabs, using these outlets, a reinforced monolithic belt is arranged, the reinforcement of which is connected to the vertical working rods of the upper panel and is concreted, on the side faces of the floor slabs there are recesses, trapezoidal, located in the space between the plates of the flat reinforcing cage and the adjacent adjacent floor slabs, forming a precast-monolithic horizontal rigid d ck overlap.

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