CS271929B1 - Assembled reinforced concrete skeleton structure - Google Patents

Abstract

The tilt-up reinforced-concrete skeleton structure with the transverse or longitudinal supporting beams consists of floor beams /5/ and supporting pillars /4/, which are created from formatively identical prefabricated parts /1/ of the U-section, which are eventually by the supporting pillars /4/ coupled into pairs for the creation of the H- or O-section. The floor beams /5/ are placed with their vertical flanged main supporting parts /3/ on the head of the main supporting parts /3/ of the supporting pillars /4/.<IMAGE>

Description

DESCRIPTION The invention relates to a prefabricated concrete skeleton constructions eeetávejici ^one of the supporting vertical columns e not stored therein * horizontal beams carrying the ceiling or roof structure.

The known prefabricated reinforced concrete skeleton structure e transverse or longitudinal frames are formed by columns β of full cross section of the pre-polygonal shape and not supported by them with pre-rectangular full cross section or e cross section of T shape or inverted T. The main drawback of these skeleton structures is the low lateral stiffness of the worn columns and the consequent lower stiffness of the transverse or longitudinal frames of the skeleton structure. A further drawback of these known columns and beams is the impermeability of the structure for hidden lines of technological or other distribution and installation.

Známá another known reinforced concrete frame structure consists of H-shaped supporting columns and pairs of independent beams * placed on the columns in the direction of their flanges. H-shaped columns with cross-section are assembled from individual parts *. The reinforcement * is placed on top of one another and additionally switched by reinforcements passing through the vertical channels in the individual parts of the ellipses, the vertical channels of the reinforcement being subsequently injected with a special injection mixture. The main drawback of this framework is the high frequency of elements, resulting in considerable demands on the manufacture, transport and storage of the components. Another disadvantage is the assembly effort with the difficult to detect accuracy of the frame systems of the framework. The assembly effort results from a large number of bed sprays, the necessity of changing the connecting reinforcement of considerable distances and the subsequent grouting of the channels.

A frame assembly structure known from the prior art, consisting of pre-fabricated cross-shaped or double-cross sections, having a distance over one field of the ceiling structure or reaching a height of more than two storeys when positioned vertically. span between the columns, in the vertical installation of May, the bed joints at half the height of the floor * Frame parts They are provided with continuous channels through which on the construction site after installation into the final position parts and making assembly difficult by the need to change relatively long switching cables. A further drawback is the impermeability of the thus-created eloupes and beams of the frame structure for the hidden guidance of various technological and other distributions.

SUMMARY OF THE INVENTION It is an object of the present invention to overcome the shortcomings of the prior art skeleton assemblies while at the same time solving a skeleton structure * which has a few longer advantages * especially consisting of parts of the same cross-section enabling constructed columns and beams of worn frames from one type of prefabricated elements to eliminate the need for a large number of shapes different from complicated parts, which had a difficult manufacture 1 assembly * For indoor buildings, the unfavorable high eloup density should be removed. most of the frame assemblies, and in addition the need to use windwalls to ensure the stability of the building, which must be placed in mills, determined by static needs often in conflict with the layout needs. The dense warp of the ellipses significantly reduces the building's utility parameters * and its variability in its use *, which significantly contrasts the long building lifetime and the ever shorter innovation cycle of technology. If there is a large amount of technological wiring in the building! the need to cover them considerably increases the cost and the construction effort, while reducing the usable space.

This object is achieved by a prefabricated reinforced concrete frame structure according to the invention, consisting of supporting columns and horizontal beams supported thereon, characterized in that the horizontal beams are formed or assembled in the same way as the supporting columns of a pair of parallel and spaced apart from each other. located basic support parts with a polygonal or trapezoidal cross-section, which are connected to each other in the area of one of the narrower lateral sides of the connecting plate part, the horizontal beams

CS 271929 B1 are mounted between the head of the lower deck columns and the heels of the upper floor columns and the base support of the horizontal beams.

According to a particular preferred embodiment of the invention, the vertical columns are formed from at least one U-shaped transverse cross-section, and in a longer specification of this feature, the supporting columns are formed of two column sections, joined together by their connecting plate portions into an associated cross-sectional shape let's write H, possibly attached to each other with their flange-like base portions to form a closed perimeter with a rectangular cross-section. The horizontal beams have an inverted U-shaped cross-section and are supported by their flange base support parts on the flange base support parts of the support columns.

According to a further feature of the invention, a monolithic layer of concrete is formed on the joining plate part of the horizontal beams, in particular and coupled to the joining plate part, to increase the load-bearing capacity of the horizontal beams and to increase the stiffness of the frame structure.

The prefabricated reinforced concrete skeleton structure according to the invention is preferably formed from prefabricated components having the same cross-sectional shape, so that the production of the components in a single type of production mold is considerably simplified and the components of the prefabricated structure are substantially reduced. Prefabricated parts have a relatively low weight because they are maximally lightened and used statically. The advantage of the skeleton according to the invention is the possibility of placing all the technological distributions in the contour of the supporting parts between the two basic supporting portions and the connecting plate part, i.e. in the vertical direction the distributions can be placed between the arms and uprights of U-shaped or H , and through the ceiling structure, openings in the connecting plate part or through specially formed openings in the carrier parts can be guided between the carrier parts 8 through possible outlets. In this connection, the interconnection of the piping and installation lines is also very well solved, since all the storage spaces are directly connected to the aeba directly within the contours of the support structure. Ceiling horizontal beams can have a large span, and even larger spans can be achieved in a direction perpendicular to the axes of the horizontal noanics. Tim ee acquires a skeletal structure and sparse eiti of supporting columns, providing a large degree of freedom of interior layout and allowing more frequent changes in the building's technological equipment. The shapes of the structural elements are advantageous for the progressive technology of their production and assembly. The visible surfaces of the parts can be formed, for example, by visible concrete, so that the surface treatment requirements are substantially reduced.

1 is a cross-sectional view of a support column and a horizontal ceiling beam; FIG. 2 is a cross-sectional view of an alternative embodiment of a support column and a ceiling beam; FIG. Fig. 4 is a vertical cross-section of part of the skeleton structure with various alternatives of the support columns and the ceiling structure, taken along the line A-A'in Fig. 3; Fig. 5 is a vertical sectional view of a portion of the skeleton structure taken along line BB of Fig. 3.

The prefabricated reinforced concrete skeleton structure according to the invention has transverse or longitudinal support frames, consisting of vertical support columns 4 and horizontal ceiling beams 5, on which the ceiling structure is then supported from prefabricated ceiling sections 6, for example behind ribbed ceiling panels or continuous monolithic slab 7 .

The vertical support columns 4.1 of the horizontal ceiling beams 5 are formed from prefabricated parts 1 of the same shape, which have a U-shaped cross-section and consist of a pair of parallel supporting spacers 3 which are spaced apart from one another.

They are connected together by a connecting plate part 2 (FIG. 1), which may optionally extend over the outer contours of the base support parts 3 (FIG. 1). 2 /.

CS 271929 Bl

The vertical support columns 4 may be formed by a single prefabricated U-shaped section 1, possibly at larger spans and loads, and if more rigidity of the frames is required, the two pre-ribbed sections are combined into H or O-shaped support columns. of the pre-assembled plate portions 2 of the prefabricated parts J on the aebe, whereas when the prefabricated parts 1 are mounted with their flange-shaped base portions 3, a closed cross-section 0 is formed, more precisely a closed rectangular cross-section.

The horizontal beams 5 are constituted by a single prefabricated piece 1, so that they have a cross-sectional shape of the inverted breed U with their basic support portions 3 on the upper faces of the lower support portions 3 of the worn columns 4. If necessary, to increase the load-bearing capacity of the ceiling beams 3 or to increase the stiffness of the frames, an overlayed monolithic plate 8 / FIG. 5 /.

The prefabricated sections 1 of the supported columns 4 and the ceiling beams 5 have a very advantageous shape for placing the technological lines into the space inside their circumference between the connecting plate part 2e of the flanged base part 2, these storage spaces or directly in the region of the frame members. Outlet openings 9 are provided in the flanged base portions 31 and the connecting plate members 2 of the prefabricated parts 1 for leading the process lines from the interior storage space of the ceiling brackets 5 to the ground for use (FIG. 4). Technological lines are very easy to access in ceiling beams 5 1 supporting columns 4, especially U and H sections.

The prefabricated reinforced concrete frame and supporting frames according to the invention create an open structural system with manufacturing-technological, design-designed and user-friendly openness that can be used for various sectors of civil, industrial and agricultural construction.

Claims (5)

A prefabricated reinforced concrete skeleton structure consisting of supporting columns and ceiling beams supported thereon, characterized in that the ceiling beams (5) and the supporting columns (4) are of identical prefabricated parts (1) formed of a pair of parallel and spaced apart base supporting parts (3) connected to each other by a connecting plate part (2), the ceiling beams (5) being positioned between the heads of the lowered columns (4) of the lower deck and the heels of the supporting columns (4) of the upper deck part (3) of the ceiling beams (5) are mounted on the basic worn parts (3) of the worn columns (4), 2. The prefabricated reinforced concrete skeleton structure according to claim 1, characterized in that the heeled elouples (4) are formed of two prefabricated panels (1), joined together by their epojoval plate members (2) for their association into an H-shaped cross-section. , 3. The prefabricated reinforced concrete frame structure according to claim 1, characterized in that the support columns (4) are formed of two prefabricated elements (1), joined together by their flange base support members (2) for their association into a rectangular cross section. 4. The prefabricated reinforced concrete frame structure according to claim 1, characterized in that the ceiling beams (5) have the shape of an inverted U-shaped cross-section and are provided in their vertical base support portions (3) and optionally in the connecting plate portion (2). (through outlets / 9) for process lines. CS 271929 Bl 5. Prefabricated reinforced concrete frame structure according to Claims 1 to 4, characterized in that a monolithic plate (8) is formed on the joining plate part (2) of the ceiling beams (5), in particular the associated and and joining plate part (2) of the ceiling beams (5). /. ’