CS199852B1 - Spatial frame joint for halls made from prefabricated elements - Google Patents

Description

The object of the invention is a spatial frame joint for prefabricated halls.

Prefabricated elements are used for the construction of halls, which are connected to the static action of the load-bearing structure as simple beams. The prefabricated elements are placed in the mortar bed and the contact is normally ensured by passing the omitted holes at the ends of the elements or the protruding eyes of the concrete reinforcement onto the mandrels in the bearing surface of the supporting elements and by concreting the joint. The disadvantage of this contact is that the prefabricated elements act statically only as simple beams, they cannot transmit negative moments and have larger deflections, so that a larger cross-sectional dimension results. Another contact arrangement is the fork head of the support element, which, like the prefabricated beam itself, is provided with grooves and additionally a gasket to prevent horizontal displacements of the two components between them. The disadvantage of this contact is, besides the disadvantages mentioned in the previous case, also the complexity of the shape of the two interconnected elements.

At present, the prefabricated halls have not yet been used in the frame construction. This is mainly due to the fact that there is no effective frame contact for the transmission of negative moments to meet various requirements - production, assembly and functional.

The spatial screwed frame joint according to the invention removes this drawback. Its essence lies in the fact that it has a steel box in the upper part, which is part of the column, into which the horizontal screwed spindles, which are part of the dies, are connected. At the bottom

199 852

199 852 parts of the frame joint are provided between the vertical faces of the liners and the supporting grout column. Thus, the screwed spindles and the grouts allow to transmit the negative bending support moment as two horizontal forces, while the screw spindles transmit the tensile support grout. This principle arrangement is provided in two mutually perpendicular directions, the upper levels of the connected dies being offset relative to one another. The horizontal spindles made of high-strength material are concreted in beams and connected to their supporting reinforcement. The steel box consists of three parts. The lower part is a part of the Reinforced Concrete Column and serves for the opening of screw spindles of longitudinal beams. The middle part of the steel box is located above the lower part of the box, which it closes, and is rotated by 90 ^{° in} plan and serves for the opening of the screw spindles of the cross dies. The third part faces the lid of the middle part of the box.

The formation of this joint allows the connection of prefabricated dies into the frame effect of the structure, which provides the possibility to lighten the load-bearing structure and to bridge larger spans Contact with the requirements of fast assembly, production and functional requirements. The frame effect of the structure results in better material utilization. The lightening of the construction will result in savings in both production and assembly.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT OF THE INVENTION FIG. 1 is a cross-sectional view of the joint taken along line A-A of FIG. 2 and FIG. 2 is a cross-sectional view of the joint taken along line B-B of FIG. Fig. 4 shows the end portion of a die provided with a sleeve welded to the reinforcement in which the longitudinally adjustable spindle of high-strength steel is shown, and Fig. 4 is a cross-sectional view of the die through C-C of Fig.

On the reinforced concrete column 6 is placed the lower part of the steel box 8, which is welded to the reinforcement of the eloup. The column 8 has receiving brackets 4 on which longitudinal beams 4 and transverse beams 2 are mounted. The upper levels of the beams 2, 4 are offset relative to one another, allowing the screw spindles to enter independently into separate parts.

boxes 6, 6 and facilitates the solution of the connection of contact with other constructional details of the hall. The spindles of high tensile steel, connected to the reinforcement 13 of the die 2, 6, protrude from the die 2, 4 in the upper part. The spindles 6 open out and are screwed into the lower box 4 of the longitudinal dies 6 and to the upper box 6 of the cross dies 2. The box 8 is closed by the bottom of the upper box 6, which is again closed by the lid 6. Between the girders 2, 6 and the column 1, a supporting grout 8 is provided in the lower part, which defines building tolerances and ensures the transmission of compressive forces. The tensile forces are transmitted by the screw spindles on which the supporting nuts are provided with counter nuts. The compartments 6, 6 can be filled with concrete.

Of course, in the above-mentioned contact arrangement, the vertical mounting on the brackets 6 can be varied, for example, made of concrete brackets, replaced by the insertion of dies on steel knives, etc. The proposed arrangement has in particular these advantages. The ends of the dies are smooth, straight with a perpendicular end, which is advantageous for manufacturing reasons. The contact allows to respect relatively rough construction tolerances, both longitudinal and vertical and cross-sectional. The contact also allows a slightly steep opening of the dies, which is important for creating the gravity conditions directly in the system of supporting elements. The arrangement of the joints remains the same in both the crest and the crest

199 852 also in the valleys of roofs. The contact meets the requirements of quick assembly. The principle arrangement of the contact remains the same for both the inner and outer frame joints of the hall.

SUBJECT OF THE INVENTION

Claims (4)

SUBJECT OF THE INVENTION Spatial frame joint for prefabricated halls, characterized in that it consists of a head of a reinforced concrete column (1) of rectangular cross section, provided with four bearing brackets (9), on whose upper surface a lower steel joint box (5), fixedly connected with the column reinforcement (1), above the lower box (5), there is an upper junction box (6), fixedly connected to the lower box (5) and provided with a lid (7), the lower junction box (5) connected by a screw connection longitudinal (3), and upper junction boxes (6) It is connected by a screw connection to the cross dies (2), the dies (2, 3) are mounted on the brackets (9) of the column (1) and the space between the lower portions of the dies (2, 3) and the column (1) is filled with grout (8) ). Spatial frame joint according to claim 1, characterized in that horizontal screw spindles (4) are fixed in the upper parts of the die (2, 3), firmly connected to the reinforcement (13) of the die (2, 3) projecting from the end faces of the die. (2, 3) and slotted holes in the walls into the junction boxes (5, 6) where they are anchored with nuts. Spatial frame joint according to Claims 1 and 2, characterized in that the screw spindles (4) are connected to the reinforcement (13) of the dies (2, 3) by means of bushings (11), each of which is permanently connected to the reinforcement bars (13). 1) and surrounds a screw spindle (4) on which it is secured by a pair of nuts (12), the sleeve (11) being concreted in the die (2, 3). 4 drawings