RU71673U1 - FLOOR SLAB - Google Patents

Abstract

The utility model relates to the field of construction, in particular, to the industrial construction of multi-story civil and industrial buildings, namely, to the device of ceilings of buildings erected in a crossbar frame. The technical task of the utility model is to create an element that is part of the building frame with the simplest and most effective design, which when assembled allows you to use the internal volume of the building as efficiently as possible, simple and reliable, both in manufacturing, installation, and operation. The problem is solved in that in the proposed solution, the support shelf is made on the upper surface, and is equal to at least half the height of the floor slab and equal in length to the width of the slab, the length of the floor slab is not more than the internal distance between the supporting tables of the crossbars, and the upper surface floor slabs are placed in one plane with the base of the T-section of the crossbar, and its lower surface is placed in the same plane with the shelf of the T-section of the crossbar. 1 n.a.s. f-ly, 1 ill ..

Description

The utility model relates to the field of construction, in particular, to the industrial construction of multi-story civil and industrial buildings, namely, to the device of ceilings of buildings erected in a crossbar frame.

Known for the typical design of slabs for the device of floors and coatings of buildings with a length of 3-9 m at a cross-sectional height of 220 mm with symmetrically arranged circular voids with a diameter of 159 mm. [Baykov V.N. and other reinforced concrete structures. M., Stroyizdat, 1978, p. 352, p. XI. 4a.]

The disadvantages of this design are the relative low overall stiffness and strength of the supporting sections, and after installation on the crossbar, it creates a height difference that not only worsens the appearance, but also does not rationally use the internal space of the building, which ultimately requires additional development costs.

Known frame building according to the patent of the Russian Federation No. 2112117, class. ЕВВ 5/43, 1998, adopted by the applicant for the prototype, in which floor slabs with supporting shelves were used. The building contains 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. The supporting tables of the floor slabs are made asymmetrically with respect to the horizontal axes drawn through the centers of the slabs normally to their ribs.

However, such a floor slab is used for installation on over-column slabs in a building with a beamless frame, and not on a crossbar.

The technical task of the utility model is to create an element that is part of the building frame with the simplest and most effective design, which when assembled allows you to use the internal volume of the building as efficiently as possible, simple and reliable, both in manufacturing, installation, and operation.

The problem is solved in that in the proposed solution, the support shelf is made on the upper surface, and is equal to at least half the height of the floor slab and equal in length to the width of the slab, the length of the floor slab is not more than the internal distance between the supporting tables of the crossbars, and the upper surface floor slabs are placed in one plane with the base of the T-section of the crossbar, and its lower surface is placed in the same plane with the shelf of the T-section of the crossbar.

The drawing shows a floor slab placed on the crossbars.

The floor slab 1 comprises an upper surface 2 and a lower surface parallel to it 3. On the upper surface 2, a support flange 4. A height of the support flange 4 is equal to at least half the height “H” of the floor slab 1 and equal in length to the width of the floor slab 1. Length “A” of floor slab 1 is equal to no more than the internal distance between columns 5. Namely, a = Lb, where: L is the axial distance between the columns; b is the width of the shelf of the T-section of the crossbar. The end walls of each supporting shelf 4 are made perpendicular to the upper 2 and lower 3 surfaces of the floor slab 1.

Installation of floor slabs is as follows.

On the crossbar 6, already placed on the column 5, on its supporting table 7, install the floor slab 1. Moreover, the supporting shelf 4 of the floor slab 1 is placed on the supporting table 7 of the crossbar 6 on one side and also exactly on the other side of the floor slab 1 on such the same bolt 6, located on the adjacent column 5.

The crossbar 6 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 the base is equal to the width of the base of the column 5. And in height it is made at the level of the upper surface 2 of the floor slab 1. The height of the T-shelf the cross section of the crossbar 6 is equal to half the height of the floor slab 1.

Therefore, in the mounted position, the upper surface 2 of the floor slab 1 lies in the same plane with the base of the T-section of the crossbar 6, and its lower surface lies in the same plane as the shelf of the T-section of the crossbar 6, since they are made equal in height.

As a result of the assembly of the floor slab and the crossbar made in this way, there are no protrusions and elevations in the formed joint, but there is a single flat surface both from below and from 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 one of the building frame elements: a floor slab that is as simple and reliable as possible in manufacturing, installation, and operation, but gives an improved effect of using the internal volume of the building.

Claims (1)

The floor slab containing the upper and lower surfaces parallel to each other, connected by end walls, support flanges for installation on a crossbar made of T-section, characterized in that the support flange is made on the upper surface and is equal to at least half the height of the floor slab and the length is equal to the width of the slab, the length of the floor slab is equal to not more than the internal distance between the supporting tables of the crossbars, and the upper surface of the floor slab is placed in the same plane with the base of the T-section Ia bolts, and its lower surface is placed on the same plane with a shelf T-section crossbar.