RU2725351C1 - Platform composite-monolith joint - Google Patents

Abstract

FIELD: construction.SUBSTANCE: invention relates to construction, namely to platform assembly-monolith joint. Platform joint comprises hollow floor slabs resting on inner wall panels. In the plate end above the cavities the holes are made. Wall panels have openings, and their upper zone above the cut-out is reinforced with a frame with outlets from the upper face. Between the plates end faces the reinforced monolithic belt is installed, the reinforcement of which is connected to the panel outlets and to the vertical rods of the above-positioned panel. Embedded parts with centring elements and rods mounted in appropriate embedded parts of superposed wall panel are installed from above on monolithic belt. To lower edge of embedded parts with centring rods are attached anchor rods, which are fixed to longitudinal rods of monolithic belt. To external edges of wall panels anchor rods are attached, passed through floor slabs. From each face of the post of the wall panel, it is connected to the covering plate by the pair angles installed on both sides of the anchor rods.EFFECT: technical result is high strength of joint.1 cl, 4 dwg

Description

The present 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.

There is a known platform joint supporting wall panels on multi-hollow floor slabs (see SP 335.1325800.2017 Large-panel structural systems. Design rules - M .: 2017, - Fig. 4.5, p. 22), including a lower monolithic panel, multi-hollow floor slabs “with reinforced »The ends and the upper monolithic panel supported on them, as well as the concrete monolithing between the ends of the hollow core slabs reinforced by the frame.

The disadvantage of this design solution is that in the case of the device in the underlying panel of the wall of large openings, the bearing capacity of the joint is not provided. A drawback of such a constructive solution also lies in the fact that there is no monolithic constructive connection between the monolithic concrete and the lower wall panel at the joint.

A platform joint is also known (see Pat. 2276712 Russian Federation, IPC E04B 1/61, E04B 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, extending to 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, in the same end along the edge in the upper thin part of the slab above the voids there are rectangular openings in depth 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 are reinforced with a vertical frame and filled with concrete, in the upper part of the monolithic joint, the reinforcement mesh is additionally laid on the entire width of the monolithic section, which in plan has rectangular protrusions that overlap these monolithic sections in a rectangular holes arranged at the ends of the plate above the voids.

The disadvantage of this constructive solution is that such a joint, due to the lack of reinforcing outflow from the underlying wall panel, also does not provide a rigid connection between the concrete reinforcement and if there is a large opening in the lower panel, and as a result, the bearing capacity of the platform is not provided in such a joint the joint, in addition, with this design of the platform joint, the overall spatial rigidity of the high-rise building is significantly reduced, especially in the case of large openings in the wall panels, which significantly reduces the spatial rigidity of the high-rise buildings and the survivability of the entire structural system of the type in question, especially if there are openings in the wall panels.

A platform joint is also known (see Pat. 2589779 Russian Federation, IPC Е04В 1/38. Platform prefabricated-monolithic joint / V.I. Kolchunov, N.V. Klyueva, S.A. Filatova, D.V. Martynenko. - No. 2015113471/03, announced April 13, 2015, published July 10, 2016, Bull. No. 9. - 7 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 are made rectangular holes in depth to the depth from the top of the slab to the void, wall panels have large openings and their upper zone above the cutout is reinforced with an additional frame having outlets from the plane of the upper face of the panel, on which the floor slabs are supported, and in the resulting space between the ends of the plates a reinforced monolithic belt is arranged, the reinforcement of which is connected to the outlets of the upper edge of the panel and with the vertical working rods of the upper panel, and on the monolithic belt, embedded parts with centering rods mounted in the corresponding centering grooves of the upper wall panel are installed.

The disadvantage of this design solution is that such a joint, due to the absence of anchor parts, does not provide a rigid connection between the crossbar of the underlying panel and the strut of the overlying panel, and if there is a large opening in the lower panel, as a result, the load-bearing capacity of the platform joint, which significantly reduces the spatial rigidity of buildings with high floors and the survivability of the entire structural system of the type in question and especially in cases of special effects on the building.

The technical problem to which the invention is directed is to provide the bearing capacity of the platform joint formed by wall panels and floor panels and to provide the possibility of device in the wall panels of the openings of large sizes of protection against the progressive collapse of building frames from panel elements, as well as to improve the manufacturability of the platform joint.

This is achieved by the fact that in the platform prefabricated-monolithic joint, including multi-hollow floor slabs supported on internal load-bearing wall panels, in the voids of the 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 plate above the voids, rectangular holes are made to a depth from the top surface of the plate to the void, wall panels have large openings and their upper zone above the cutout is reinforced with an additional frame having outlets from the plane of the upper face of the panel on which the floor slabs are supported, and in the resulting space between the ends of the slabs, a reinforced monolithic belt is arranged, the reinforcement of which is connected to the outlets from the upper edge of the panel and to the vertical working rods of the upstream panel, and embedded parts with centering rods mounted on the monolithic belt are mounted cent In contrast to the prototype, anchor rods are attached to the lower edge of embedded parts with centering rods, which are attached to the longitudinal rods of the monolithic belt, and anchor rods are attached to the outer edges of the wall panels, which are passed through through the hollow core slabs, in addition to this , from each of the four faces of the rack of the wall panel-frame, the wall panel is connected to a multi-hollow floor slab with paired corners installed on both sides of the anchor rods passed through through multi-hollow floor slabs.

The invention is illustrated by drawings. Figure 1 shows a General view of the platform precast-monolithic joint in isometry, figure 2 is a transverse section "1-1" of the joint, figure 3 is a longitudinal section of the joint "2-2", figure 4 is a section of the joint "3-3".

The prefabricated monolithic joint joint includes an internal load-bearing wall panel with openings blocked by a crossbar 1 and framing their posts 2, multi-hollow reinforced concrete slabs 3 supported on a crossbar, with 30 mm thick concrete diaphragms 4 installed in the voids, releases of reinforcement 5 of the reinforcement cage 6 of the crossbar panels filled with concrete, reinforced monolithic belt 7, “P” -shaped reinforcing bars-outlets 8 connecting the reinforcement 9 of the monolithic belt with vertical working rods 10 of the overlying panel strut, embedded part 11 with a centering pyramid 12 and anchor rods 13, which is included in embedded part 14 with a centering pyramidal hole, indirect reinforcement reinforcing 15 of the support section of the wall panel strut attached to the outer faces of the wall panels of the anchor rods 16, passed through through the hollow core slabs installed on either side of them of the paired corners 17.

The device operates as follows. In the holes located at the end of the multi-hollow floor slab 3, at a distance exceeding the thickness of the internal load-bearing wall panel, concrete diaphragms 4 are installed with a thickness of at least 30 mm. The panel crossbar is reinforced with a reinforcing cage 6, from which the reinforcing outlets 5 protrude beyond the plane of the upper edge of the crossbar, and floor slabs 3 are supported on this plane. Then, the working reinforcement 9 of the monolithic belt 7 is installed and this reinforcement is connected with the reinforcing outlets 5 emerging from the outlet of the underlying panel. Above, above the working armature 9, embedded parts 11 are arranged with anchors down, with centering pyramids 12 protruding upward and anchor rods 13 protruding downward at an angle of at least 30 degrees. “P” -shaped reinforcing bars-outlets 8 are tied to the working reinforcement 9, the vertical ends of which are passed into the holes arranged in the shelf of the plate and connected to the vertical working rods 10 of the overlying panel strut, and the horizontal outlets of the anchor rods 13. The support zones of the panel racks, in which are embedded parts 14 with a centering pyramidal hole reinforced by indirect fittings 15. The space between the upper plane of the upper flange of the lower panel and the ends of the floor slabs together with the diaphragm is filled with concrete to the level of the upper plane of the floor panels and the upper plane of the embedded part 11. After the concrete has hardened to protruding the centering pyramids 12, as in the guides, are mounted on the uprights of the overlying panel by means of embedded parts 14 with a centering pyramidal hole. Anchor rods 16 are attached to the outer faces of the wall panels, which are passed through through the multi-hollow floor slabs 3. A connection of the wall panel to the multi-hollow floor slab with 3 paired corners 17 mounted on both sides of the anchor rods 16 is made from each of the four faces of the wall panel-frame rack. .

The presence of these new features in a single combination provides the bearing capacity of the platform joint formed by wall panels and floor panels and provides the possibility of arranging large apertures in wall panels and protecting against progressive collapse of building frames from such panel elements, as well as improving the manufacturability of the platform joint in panels with large openings through the introduction of anchor rods that are attached to the longitudinal rods of the monolithic belt, as well as by attaching additional anchor rods to the outer faces of the wall panels that pass through the multi-hollow floor slabs, and by connecting the wall panel to the multi-hollow floor slab with paired corners installed on both sides of the anchor rods passed through through the hollow core slabs, with each of the four faces of the panel-frame rack.

Claims (1)

Platform prefabricated-monolithic joint containing 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 end along the edge at the top of the thin part of the slab above the voids, holes are made rectangular in depth to the depth from the top surface of the slab to the hollow, wall panels have openings and their upper zone above the cutout is reinforced with an additional frame having outlets from the plane of the upper face of the panel, on which the slabs are supported, and in the resulting a reinforced monolithic belt is arranged between the ends of the plates, the reinforcement of which is connected to the outlets from the upper edge of the panel and to the vertical working rods of the upstream panel, and embedded parts with centering pyramids mounted in the corresponding embedded parts with centering pyramids from the monolithic belt are installed on top verities of an upstream wall panel, characterized in that anchor rods are attached to the lower edge of embedded parts with centering rods, which are attached to the longitudinal rods of the monolithic belt, and anchor rods are attached to the outer edges of the wall panels, which are passed through through multi-hollow floor slabs, in addition, from each of the four faces of the wall panel-frame rack, a wall panel is connected to a multi-hollow floor slab with paired corners installed on both sides of the anchor rods passing through the multi-hollow floor slabs.

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