RU67125U1 - FRAMELESS FRAME BUILDING - Google Patents

Abstract

The utility model relates to construction and can be used in the construction of bezelless frame buildings. The technical task of the proposed technical solution is to provide optimal opportunities for interior planning and a wide selection of building options with the same element base, reducing the material consumption of both the structures themselves and their constituent elements, reducing the consumption of valves and the cost of construction, reducing the range of floor elements . To accomplish the technical task, the bezelless frame building contains floor slabs and columns connected to each other, while floor slabs of each floor are made 180 mm thick, and in plan square with a side of a square of 3300 mm, are equipped with supporting tables and shelves and are located in the same plane, and the columns are made with a cross section of 450 × 450 mm, and their axes are spaced apart by a distance of 6600 mm, with each intercolumn plate on both sides resting on the tables of the over-column plates on both sides, and each middle plate with four its sides rests on shelves intercolumned plate, wherein, in each knee-radial armature plate installed around a center axis coinciding with the holes in the plate for installation nadkolonnoy column. 1 n.p. f-ly.

Description

The utility model relates to construction and can be used in the construction of bezelless frame buildings.

Closest to the proposed technical solution is the design of the frame building containing floor slabs and columns connected to each other (see RF patent No. 2173750). The disadvantage of this solution is the high labor costs in the manufacture of metal molds for floor slabs, the increased consumption of reinforcement, the inability to obtain optimal planning solutions, which leads to an increase in the cost of the building and the cost of construction.

The technical task of the proposed technical solution is to provide optimal conditions for the planning of internal rooms and a wide selection of building options with the same element base, reducing the material consumption of both the structures themselves and their constituent elements, reducing the consumption of reinforcement and the cost of construction, reducing the range of floor elements .

To accomplish the technical task, the bezelless frame building contains floor slabs and columns connected to each other, while floor slabs of each floor are made 180 mm thick, and in plan square with a side of a square of 3300 mm, are equipped with supporting tables and shelves and are located in the same plane, and the columns are 450 × 450 mm in cross-section, and their axes are spaced 6,600 mm apart, each intercolumn slab on both sides resting on the tables of the knee-high slabs, and each middle slab with four its sides rests on shelves intercolumned plate, wherein, in each knee-radial armature plate installed around a center axis coinciding with the holes in the plate for installation of knee-

the columns.

The distinguishing features of the proposed design are the following: floor slabs of each floor are made 180 mm thick, and in plan square with the side of the square 3300 mm, are equipped with supporting tables and shelves and are located in the same plane, and the columns are made in section 450 × 450 mm, and their axes are spaced each other at a distance of 6600 mm, and each inter-column plate on both sides with its shelves rests on the tables of the over-column plates, and each middle plate on four sides with its shelves rests on the inter-column plates, while in each adkolennoy radial armature plate installed around a center axis coinciding with the holes in the plate for installation nadkolonnoy column.

The invention is illustrated in the drawing, which shows an assembly diagram of a frame building.

Bezelless frame building contains floor slabs 1, 2, 3 and columns 4, interconnected, while floor slabs 1, 2, 3 of each floor are made 180 mm thick, and in plan square with a side of the square 3300 mm, are equipped with supporting tables 5 and shelves 6, made for example in the form of corners and located in the same plane, and the columns 4 are made with a cross section of 450 × 450 mm, and their axes are spaced 6600 mm apart from each other, with each intercolumn plate 2 resting on two sides on the over-column tables plates 1, and each middle plate 3 s etyreh its sides rests on shelves intercolumned plate 2, wherein, in each nadkolonnoy plate 1 is installed at intervals of 10 ÷ 30 degrees radial reinforcement around the center axis coinciding with the holes 7 in nadkolonnoy plate 1 for mounting tower 4.

This embodiment of structural elements and joints provides structural strength, allows the entire range of plates to produce in one formwork, which reduces costs.

Plates are manufactured at the factory using a unified

formwork. Installation of the proposed design of the frameless building on the construction site is carried out in the following sequence. First, columns 4 are installed, then over-column plates 1 are mounted, then inter-column plates 2, and then middle plates 3 are mounted. The installation of the pop-up plate on the column is carried out using a mounting jig. A popliteal plate mounted on the design mark is connected to the column by welding the shell of the plate with the working reinforcement of the column. When installing the plates, the supporting elements with their shelves 6 are combined with the supporting platforms 5 and, after alignment of the position of the plate, are connected by welding. U-shaped staples (not shown in the figure) at the ends of adjacent plates are combined, so that holes are formed, into the lumen of which the studs are inserted, and connected by welding or twisted by wire. After that, the horizontal installation of the plate is checked. The joints of columns and slabs, and slabs between themselves are concreted. With this scheme of the building frame, the ratio of the pitch of the columns, the section of the columns, the thickness of the plates and the reinforcement of the elements is optimal and, accordingly, economically feasible. All this provides the possibility of building layout in a wide range of design solutions, as well as optimal ratios of bearing capacity to the costs incurred.

Claims (2)

1. Bezelless frame building containing floor slabs and columns connected to each other, characterized in that the floor slabs of each floor are made 180 mm thick, and in terms of square with a square side of 3300 mm, are equipped with supporting tables and shelves and are located in the same plane, and the columns are square in cross section 450 × 450 mm, and their axes are spaced apart by a distance of 6600 mm, each intercolumn plate on both sides with its shelves resting on the tables of the popliteal plates, and each middle plate on four sides with its own it rests on the intercolumn slabs, with each radial plate having additional radial reinforcement around the center, which coincides with the axis of the hole in the column plate for installing the column. 2. Bezelless frame building according to claim 1, characterized in that in each column plate radial reinforcement is installed with an interval of 10 ÷ 30 °.