RU153336U1 - BEARING ASSEMBLY FOR LARGE-PANEL WALLS ON THE CROSS - Google Patents

Abstract

A unit for supporting large-panel walls on a crossbar, including a column, a crossbar with one shelf and a crossbar with two shelves, walls of the external fence, characterized in that the shelves of the crossbars are flush with the ends of the body of the crossbars, and large-panel walls are used as the walls of the external fence, moreover, large-panel walls based on the shelves of the crossbars are joined by parts protruding beyond the front side of the column and overlapping it on both sides, while the large-panel walls are made of three layers.

Description

The utility model relates to the field of construction and can be used mainly in the construction of frame-monolithic and prefabricated frame residential and public buildings.

Known panel-frame building, a structure with integrated frame elements (patent RU 139727 IPC E04B 1/00 publ. 04/20/2014), in which a heat-efficient load-bearing wall panel with a load-bearing beam is combined.

The disadvantages of the technical solution are the complexity of the formwork necessary for the manufacture of a combined product; the technological complexity of creating the preliminary tension of the reinforcement in the bearing beam in these formwork forms; the large weight of the combined product, which increases the complexity of transportation of the product and installation at the construction site, as well as the massiveness of embedded parts for fastening the combined product to the supporting column.

A known model for the assembly of a frame building unit (patent RU 101464 IPC E04B 1/00 publ. 01/20/2011), in which the strapping beam contains a body bounded by the upper and lower sides, the first and second end sides, and also serving as the front side of the first longitudinal beam side and the opposite longitudinal side thereof. The upper side of the beam has a section extending along the length of the beam, designed to accommodate the outer layer of the wall.

The disadvantages of this technical solution are the formation of additional horizontal installation joints of the building facade, which reduce the resistance to aggressive environmental influences and the operational reliability of the building; the formation of "cold bridges" along the length of the beam in places located between the vertical voids, which serve to fill an effective insulation.

We know a prefabricated frame building and a strapping beam intended for use in this building, which we selected for the prototype (patent RU 74403 IPC E04B 1/18 publ. 06/27/2008), in which strapping beams are used, the longitudinal shelves of which are elongated at the ends of the beams with the formation protruding end sections. Beams, with the exception of longitudinal shelves, are placed in the alignments of the columns around the perimeter of the building frame, while the elongated ends of the shelves adjoin the outer faces of the columns and the longitudinal shelves form closed belts covering the building frame at the levels of floors. A part of the strapping beams is made with one shelf designed to support the load-bearing walls of the outer fence, the other part of the strapping beams contains an additional horizontal shelf for supporting the floor slabs.

The disadvantages of the utility model that we have chosen for the prototype are: the complexity of the formwork necessary for the manufacture of a product of complex section; the technological complexity of creating a prestressing reinforcement in a beam having elongated ends of the shelves; the presence of additional horizontal installation joints, reducing the overall operational reliability of the outer wall of the building; the formation of “cold bridges” along the length of the beam in places located between vertical voids, which serve to be filled with an effective insulation, as well as at the interface of two corner panels, where insulation is not provided for by design, with the exception of the option with a curtain wall.

The task to which the utility model is directed is to improve the quality of frame-monolithic and prefabricated frame residential and public buildings,

The technical result that is achieved using the proposed solution is to increase the energy efficiency of the building as a whole by reducing the number of mounted building envelopes, which reduces the number of horizontal joints on the facade of the building.

The claimed model, as in the prototype, contains: a crossbar (designated in the prototype as a “strapping beam”), having a shelf for supporting the outer enclosing structure, and a crossbar with two shelves for supporting the outer enclosing structure and floor slabs.

The new fact is that the crossbars of the crossbars are flush with the ends of the crossbar body, and the large-panel walls resting on the crossbars of the crossbars are joined in parts, protrude beyond the front side of the column and overlap it on both sides, while the large-panel walls are made of three-layer ones.

The utility model is illustrated by drawings, where: in FIG. 1 shows the arrangement of crossbars with one shelf oriented to the outside of the building to support the outer wall panels, with two shelves for supporting the floor slabs on one side and the outer wall panels on the other side; in FIG. 2 shows a combined arrangement of crossbars and external wall panels; in FIG. 3 shows a section AA along the wall, showing the support unit of the outer wall panel with the crossbar of the building.

The unit for supporting large-panel walls on a crossbar consists of a column 1 of the building frame, on which a crossbar 2 with two shelves is mounted, which serves to support floor slabs and large-panel walls 3, and a crossbar 4 with one shelf, which serves to support large-panel walls 3. Installation of large-panel walls 3 is carried out on the outer shelves of the crossbars 2 and 4. In a horizontal joint between two large-panel walls of 3 adjacent floors, an elastic gasket of mineral wool plates 5, an elastic gasket 6 of a type of porous-insulated tourniquet, waterproofing are laid vertically uyuschaya mastic 7, 8 of thermofiller effective insulation. Column 1 is predominantly made of heavy concrete with working hot-rolled reinforcement of a periodic profile without prestressing, connected into a spatial frame by transverse hot-rolled smooth reinforcement. Crossbars 2 and 4 are made of heavy concrete of high strength grades, they perceive the weight of floor slabs, external and internal large-panel walls 3, floor structures. The crossbars 2 and 4 are reinforced mainly by cold-drawn wire, prestressed reinforcement located in the lower and upper parts of the crossbars 2 and 4. The large-panel walls 3 are made of three layers, the structural layers of which (external and internal reinforced concrete) are mainly made of expanded clay concrete, and the middle the layer is made of an effective insulation, for example, polystyrene foam. The connection of the structural layers of large-panel walls 3 can be carried out using reinforced concrete dowels or ribs, as well as using flexible connections made, as a rule, of non-metallic composite reinforcement.

The unit for supporting large-panel walls on the crossbars 2 and 4 is carried out in the following sequence: the crossbars 2 and 4 are installed between the columns 1, then the large-panel walls 3 are mounted on the shelves of the crossbars 2 and 4, so that the shelves of the crossbars 2 and 4, which serve to support the large-panel walls 3, go beyond the front of columns 1; after which a device for warming the assembly is made by installing a thermal liner 5 with subsequent laying of an elastic gasket from mineral wool plates 8. Then, large-panel walls 3 are installed with a further joint sealing device between the large-panel walls 3 with an elastic gasket 6 and sealing mastic 7.

Ensuring thermal protection of the horizontal joint of large-panel walls is carried out thanks to the following measures: the design of large-panel walls provides protection to the end side of the crossbar shelf, which increases the sealing of the joint; reduction in the number of open horizontal joints on the facade of the building; the air groove formed by the proposed design of the supporting sections of the outer wall panels and the crossbar shelf is filled with a thermal liner from an effective heater, leading to a reduction in heat loss through this joint.

The calculations of thermal parameters, thermal imaging surveys, technical tests of the claimed design confirm the specified technical result.

Claims (1)

A unit for supporting large-panel walls on a crossbar, including a column, a crossbar with one shelf and a crossbar with two shelves, walls of the external fence, characterized in that the shelves of the crossbars are flush with the ends of the body of the crossbars, and large-panel walls are used as the walls of the external fence, moreover, large-panel walls based on the shelves of the crossbars are joined by parts protruding beyond the front side of the column and overlapping it on both sides, while the large-panel walls are made of three layers.

Images