RU77882U1 - FRAME BUILDING - Google Patents

Abstract

The invention relates to the field of construction and can be used in the construction of industrial, residential buildings and public buildings, erected in a crossbar frame. An object of the invention is the creation of elements that make up the frame of the building, with the simplest and most effective design, which, when assembled, allow the most efficient use of the internal volume of the building, are simple and reliable, both in manufacture, installation, and in operation. The problem is solved in that in the proposed solution, the crossbars and floor slabs are made equal in height, the console on the column is made either along its perimeter, or from its three sides, or from its two sides, and the floor slab is made with a support shelf. In addition, the support table of the crossbar is equal to at least half the height of the crossbar, and the support shelf of the floor slab is made on the upper surface of the slab and equal to at least half the height of the floor slab, and the length of the floor slab is equal to not more than the internal distance between the columns. In addition, the crossbar is made above the floor slab, and the lower surfaces of the crossbar and the floor slab are placed in the same plane. In addition, the crossbar is made of T-section, the shelf of which is placed below and the base is on top, and the shelf is made wider than the width of the column and equal to C≥B + H, and the base is equal to the width of the column in width, where: C is the width of the shelf of the T-section , B - column width, N - crossbar height. In addition, the console of the column is made at a height equal to at least half the height of the crossbar and with a reach equal to half the height of the crossbar. In addition, the crossbars have the ability to simultaneously be placed on the consoles in the longitudinal and transverse directions, and the supporting tables of the crossbars form a closed loop, and the floor slab is placed along the closed contour of the supporting tables of the crossbars and installed on them by means of a support shelf. 1 n.a.s. f-ly., 7 ill ..

Description

The utility model relates to the field of construction and can be used in the construction of industrial, residential buildings and public buildings, erected in the crossbar.

Known frame building according to the patent of the Russian Federation No. 2112117, class. ЕВВ 5/43, 1998, containing ordinary and external columns and ceilings made in the form of rectangular supercolumn, intercolumn and central plates articulated with each other with the same pitch, equipped with supporting tables and shelves around the perimeter. Part of the columns or all columns are located relative to their respective column columns with a displacement of the vertical axis of the column relative to the geometric center of the plate by a distance a = 0.05-0.21, where 1 is the length of the larger edge of the plate, and the pitch of the plates is left constant. The building is multi-storey, and the overlap of each floor is either monolithic or prefabricated from slabs laid in the same plane with monolithic or non-monolithic joints. The base tables of the plates are made asymmetric with respect to the horizontal axes drawn through the centers or normal to their ribs, where the popliteal plate is identical to the intercolumn plate and has an opening for the column to pass, and the intercolumn plates are supported on the column columns with their tables and all plates are monolithic on the upper planes flush on one level.

This solution has a complex structure, including many components that affect both the bearing capacity and its quality when assembled.

Known frame building described in the book "Design of industrial buildings and structures", author Shereshevsky IA, M., "Architecture-S", 2005, p. 72, adopted by the applicant for the prototype. It is multi-storey and contains prefabricated columns with consoles, reinforced concrete crossbars with two supporting tables placed on them, and reinforced concrete floor slabs with round voids placed on crossbars.

However, this design of the frame through the use of such crossbars after the final assembly leads to the formation of sharp changes and protrusions inside the room, violating not only the aesthetics, but also not effectively using the internal space.

The technical task of the utility model is to create the elements that make up the building frame with the simplest and most effective design, which, when assembled, allow the most efficient use of the internal volume of the building, are simple and reliable, both in manufacturing, installation, and operation.

The problem is solved in that in the proposed solution, the crossbars and floor slabs are made equal in height, the console on the column is made either along its perimeter, or from its three sides, or from its two sides, and the floor slab is made with a support shelf, the crossbar support table equal to at least half the height of the crossbar, and the supporting shelf of the floor slab is made on the upper surface of the plate and equal to at least half the height of the floor slab, and the length of the floor slab is not more than the internal distance between the columns.

In addition, the crossbar is made above the floor slab, and the lower surfaces of the crossbar and the floor slab are placed in the same plane.

In addition, the crossbar is made of T-section, the shelf of which is placed below, and the base is on top, and the shelf is made wider than the width of the column and equal to C≥B + H, and the base in width is equal to the width of the column, where

C is the width of the shelf of the T-section,

B is the width of the column,

H is the height of the crossbar.

In addition, the console of the column is made at a height equal to at least half the height of the crossbar and with a reach equal to half the height of the crossbar.

In addition, the crossbars have the ability to simultaneously be placed on the consoles in the longitudinal and transverse directions, and the supporting tables of the crossbars form a closed loop, and the floor slab is placed along the closed contour of the supporting tables of the crossbars and installed on them by means of a support shelf.

Figure 1 shows a General view of the frame building in plan;

figure 2 shows a part of the frame of the frame building, the connection of its elements;

figure 3 - bolt;

figure 4 - the console of the column, made around the perimeter;

figure 5 - the console of the column, made from three of its sides;

figure 6 - the console of the column, made from its two sides, angular;

Fig.7 - the simultaneous placement of the crossbars on the consoles in the longitudinal and transverse directions and the placement of the floor slab along the contour formed by the crossbars.

The frame building contains columns 1, which are installed at the corners, edges and inside the building, forming the frame of the building. The distance between the axes of the columns is L. All columns 1 are made with consoles 2, but on the inner columns they are made around the perimeter, on the outer columns are on its three sides, and on the corner and some inner columns are on both sides. On consoles 2, crossbars 3 are installed with supporting tables 4 ,. and on the crossbars 3 installed floor slabs 5, which are made with a support shelf 6. Crossbars 3 and floor slabs 5 are made equal in height.

Each supporting table 4 of each crossbar 3 is equal to at least half the height of the crossbar 3. The crossbar 3 is made of T-section, the shelf of which is placed below and the base is above, and the shelf is made wider than the width of the column and is equal to C≥B + H, and the base the width is equal to the width of the base of the column 1, where: C is the width of the shelf of the T-section of the crossbar;

B is the column width;

H is the height of the crossbar.

The supporting shelf 6 of the floor slab 5 is made on the upper surface of the slab and is equal to at least half the height of the floor slab 5. The length of the floor slab 5 is not more than the internal distance between the columns 1L ₁ ≥LB.

It is possible to manufacture the crossbar 3 above the floor slab 5, but in this case, the lower surfaces of the crossbar 3 and the floor slab 5 are necessarily placed in the same plane. The roughness formed by the protruding part of the crossbar 3, which determines the floor surface, is eliminated by subsequent finishing work.

Each of the consoles 2 used, regardless of the placement of the columns 1, is made at a height equal to at least half the height of the crossbar 3 and with a reach L2 equal to half the height of the crossbar 3. To install the crossbar 3 on the console 2, a protrusion 7 is made from one of its ends and the other.

The execution of the console 2 along the perimeter of the column makes it possible to place the crossbars 3 on the consoles 2 simultaneously in the longitudinal and transverse directions. The supporting tables 4 of the crossbars 3 thus form a closed loop, and the floor slab 5 by means of the support shelf 6 is installed in a closed loop on the supporting tables 4 formed by the crossbars 3. And this, as a result, opens up great possibilities for planning the internal volume of the building, increases the bearing capacity and operational properties of the facility.

Assembling a frame building is as follows.

The crossbar 3 with the protrusions 7 is installed on the console 2 of two columns 1 standing in the same row. Then, the floor slab 5 is installed on the crossbar 3, with the supporting shelf 6

it is laid on the table 4 and on the console 2 lying in the same plane. And rigidly unfasten among themselves, for example, by welding.

Wherein.

Since the base of the T-section of the crossbar 3 and the column 1 are made of the same size in the width of the column 1, during assembly they turn out to be installed flush with the width of the column and comprise one wall. The tables 4 of the crossbar 3 and the upper surface of the console 2 lie in the same plane. The base of the table 4 and the lower surface of the console 2 also lie in the same plane. The upper surface of the floor slab 5 lies in the same plane with the base of the T-section of the crossbar 3. And its lower surface lies in the same plane with the shelf, since they are made equal in height.

As a result of the assembly of the frame elements so made, there are no protrusions and height differences in the formed joint, but there is a single flat surface both below and above, which significantly reduces the time of finishing work and allows you to effectively use the internal space in full.

Using the proposed technical solution allowed us to create building frame elements as simple and reliable as possible in manufacturing, installation, and operation, but giving an improved effect of using the internal volume of the building.

Claims (5)

1. A frame building containing columns with a console, crossbars placed on them with supporting tables and floor slabs placed on crossbars, characterized in that the crossbars and floor slabs are made equal in height, the console on the column is made either along its perimeter, or from three its sides, or on its two sides, and the floor slab is made with a support shelf, the support table of the crossbar is equal to at least half the height of the crossbar, and the support shelf of the floor slab is made on the upper surface of the plate and equal to at least half the height of the slab overlap of, the slab length is less than the internal distance between the columns. 2. The frame building according to claim 1, characterized in that the crossbar is made above the floor slab, and the lower surfaces of the crossbar and the floor slab are placed in the same plane. 3. The frame building according to claim 1, characterized in that the crossbar is made of T-section, the shelf of which is placed below, and the base is above, and the shelf is made wider than the width of the column and is equal to C≥B + H, and the base is equal to the width in width columns, where C is the width of the shelf of the T-section, B is the width of the column, H is the height of the crossbar. 4. The frame building according to claim 1, characterized in that the console of the column is made at a height equal to at least half the height of the crossbar, and with a reach equal to half the height of the crossbar. 5. The frame building according to claim 1, characterized in that the crossbars have the ability to simultaneously be placed on the consoles in the longitudinal and transverse directions, and the supporting tables of the crossbars form a closed loop, and the floor slab is placed along the closed circuit of the supporting tables of the crossbars and mounted on them by means of a support shelves.