CS204145B1 - Connection of precasted elements of certical and horizontal structures of builadings - Google Patents

Description

It is an object of the invention to join prefabricated components of vertical and horizontal building structures.

Previously known joints of prefabricated parts of load-bearing walls, perimeter walls, partition ceilings, parapets and parapet bars use for their connection steel clips in the form of hooks, staples or straight bars, which are loosely mounted, tied, screwed or cooked to prefabricated anchoring elements. mesh-shaped parts or steel plates. Thus, a large assortment of prefabricated parts arises in one building system, which negatively affects the design of the building itself, the cost of prefabricated parts, as well as the design and generosity of the molding equipment. The large assortment of prefabricated components in the building system negatively affects the organization of work in the manufacturing, handling, storage and transport of the components and increases the assembly effort in connection with the existing methods of joining them.

The above-mentioned drawbacks are eliminated by joining prefabricated vertical and horizontal building elements according to the invention for all types of prefabricated joining elements of load-bearing, reinforcing and peripheral walls to each other, as well as connecting prefabricated ceiling panels and vertical floor constructions. The invention is based on the connection of prefabricated parts by a steel bar of cross-section I inserted in contact of the vertical prefabricated parts into grooves formed in the lower and upper part of their contact surfaces by steel thin-walled profiles with the exclusion of welded or crimped joints. The joint is monolithic with concrete. The steel rod of cross-section I passes through the ceiling structure of prefabricated elements at the point of contact of the elements and is connected to the ceiling structure by reinforcing the joints of the ceiling elements. The connection of the vertical prefabricated panels of the next floor is by sliding them onto a steel bar of cross-section I, extending beyond the ceiling plane by grooves in the lower part of the panels. The joint of the vertical prefabricated parts is made of concrete. The connection of parapet and accessory parts is similar.

The proposed connection of prefabricated parts will reduce the assortment of components in the construction system, simplify the molding equipment, reduce labor in the manufacture of parts, simplify handling, storage and transport, facilitate assembly, simplify and refine the vertical alignment and increase the static efficiency of vertical and each other.

Examples of embodiments of the joint according to the invention are shown in the drawing, where in FIG. 1 is a vertical sectional view of a contact surface of a prefabricated part, FIG. 2 is a cross-sectional view of a groove formed by both steel and open thin-walled profiloin, FIG. 3 is a cross-sectional view of a joint of two prefabricated parts, FIG. 4 is a cross-sectional view of a joint of three prefabricated parts; FIG. 5 is a cross-sectional view of a joint of four prefabricated parts, FIG. 6 is a cross-sectional view of a joint of two panels, one panel joining the other panel outside its lateral contact surface; and FIG. 7 is a vertical sectional view of the connection of the vertical prefabricated panels to the prefabricated ceiling panels and to the vertical prefabricated panels of the next floor.

In FIG. 1 shows the shape of the contact surface 4 of the support part 1 or the peripheral part 1a with grooves in its lower and boring part, formed by steel open thin-walled profile bars 3, which are anchored to the prefabricated part by circular steel anchors 5 of required length and welded to the lattice reinforcement 6 pieces. In the section between the bars 3, the contact surface 4 of the panel is shaped under the conditions of the building system.

In FIG. 2 shows in a horizontal section the shape of a groove formed by a steel open thin-walled bar 3 anchored to the support part 1 or the peripheral part 1a by an anchor 5 and connected to the lattice reinforcement 6 of the part. . _H

In FIG. 3 shows in horizontal section the connection of two supporting parts 1 or peripheral parts 1a by a steel bar 7 of a cross-section I, inserted into grooves formed by steel open, thin-walled profile bars 3 and granulated by concrete 8.

In FIG. 4 shows in horizontal section the connection of the three load-bearing elements 1 or of two peripheral elements 1a to the load-bearing element 1 by the steel bars 7 of cross-section I inserted into the grooves monolithic with concrete 8.

In FIG. 5 shows a cross-sectional view of a cross-section of four cross-sectional supporting members 1 by means of three steel bars 7 of cross-section 1 inserted into grooves and filled with concrete 8.

In FIG. 6 shows in horizontal section the connection of two support members 1 or support member 1 to the peripheral member 1a, one of which is connected to the other member outside its interface, by a steel bar 7 of cross-section I inserted into grooves of open steel thin-walled profile sections of the rods 3, one of which is part of the contact surface of the carrier 1 and the other is anchored in the flat of the other carrier 1 or the peripheral piece 1a and the joint is monolithic with concrete 8.

In FIG. 7 is a vertical sectional view of a joint of vertical support members 1 or circumferential parts 1a ' of the rod ^{7A of} cross-section I, inserted into grooves formed in their upper part by steel open thin-walled rods 3 and monolithed by concrete 8 such that The reinforcement 9 of the joints of the ceiling tiles 2 bypasses the steel bar 7 according to the specific conditions of the static calculation and is tied to it or encloses it in the form of a hook or passes through the drilled holes. The joint is monolithic with concrete 8. On the steel rod 7 extending above the plane of the ceiling, the load-bearing elements 1 or the peripheral members 1a of the next floor are slid by their grooves of steel open thin-walled profile bars 3, which are at their bottom. The joint is monolithic with concrete 8.

In the examples, a uniform type of steel open thin-walled profile bar 3 is used for all alternatives, and for the connection actually a uniform type of steel bar 7 of cross-section 1 which is monolithic in grooves of steel open thin-walled profile bars 3 connected to parts 1, 1 and anchors 5 and lattice _{: a} reinforcement, 6, replaces the vertical reinforcement of the bar.

The joint of the invention is _; possible to apply it in the construction of civil, residential and industrial, realized from prefabricated surface elements, or in technology where the surface elements are connected, with structures realized in other technology.

Claims (2)

SUBJECT A joint of prefabricated vertical and horizontal building components, the basic element of which is a steel I-bar, the flanges of which are inserted in grooves formed on the contact surfaces of the connected vertical-bar components, characterized in that the steel I-bar (7) is inserted T-profile grooves formed on the upper portions of adjacent vertical support joints (11) extend through an opening in the ceiling panels (2) and extend into the T-profile grooves formed in the heel portions adjacent to the invention of the upper floor vertical joints (1), wherein the steel the rod (7) is cast in concrete (8J) in the grooves and in the opening of the ceiling panel (2). A joint according to claim 1, characterized in that the groove walls of the T-section are formed by steel thin-walled T-section bars (3) embedded in vertical support elements (1) or peripheral elements (1a) and anchored therein by anchors (5). optionally connected to the lattice reinforcement (6) of the vertical support members (11j).