DD265294A3 - METHOD FOR PRODUCING CEILING ELEMENTS OF LARGE SPANNING WIDTHS - Google Patents

Abstract

The invention relates to a method for producing ceiling elements of large spans made of steel or prestressed concrete. The object of the invention is to produce ceiling elements large span material saving in high quality. The object of the invention is to save on the use of a higher quality Stahlguete, reinforcing steel and to reduce the deflection of the ceiling elements, even after installation and use of the building, permanently. According to the invention, the object is achieved by the surface of the ceiling elements receives an increase in accordance with the mirror-image course of the bending line during the concreting process. Field of application of the invention: Production of ceiling elements in the construction industry.

Description

Field of application of the invention

The invention relates to a method for producing ceiling elements of large spans of steel or prestressed concrete. Characteristic of the known technical solutions

It is already known from the general state of the art to produce ceiling elements by means of steel molds supported on vibrating tables. For slim panel elements with system lengths of about 7000mm, high deflections occur in the installed state. These sometimes considerable sag differences must be compensated by additional ceiling plaster as well as by greater layer thicknesses of the floor screed with high manual labor. These uncontrollably high additional loads result in the use of the structure to further deflections and inevitably reduce the safety of Baukcnctruktion in their structural behavior.

Ziol dar invention

It is the object of the invention, ceiling elements of large spans with low material and labor costs and in high Qualiti '. manufacture, where at the installation of the slender ceiling elements no additional compensation work in the ceiling and floor area must be performed meht.

Explanation of the essence of the invention

The object of the invention is to provide a method for producing ceiling elements of large spans, with which it is possible to save when using a higher grade Stehlgüte, reinforcing steel and to reduce the deflection of the ceiling elements even after installation and use of the building, permanently.

According to the invention the object is achieved by the side walls of the molds for ceiling panels made of steel or prestressed concrete large spans receive an elevation according to the course of the bending line. This is realized by having the side walls of the molds parabola-shaped sheets. These sheets are shaped according to the statically determined course of the bending line of the ceiling element. They are mirror-inverted to the actual flow of the bending line so attached to the forms, that in the middle of the ceiling element, the largest elevation arises. The concrete is removed after the introduction and compression on the edges of the parabolic plates. The two support areas of the ceiling element remain in their original thickness.

embodiment

The side walls of a mold for Decker jlemente large spans receive an elevation, which corresponds to the course of Blegellnie the static system. This is achieved by welding or screwing parabolic plates to the side walls of the molds. These sheets have been arranged in mirror image to the actual course of the bending line, wherein in the middle of the ceiling element, the largest elevation arises. The concrete is removed after the introduction and compression on the edges of panbelförmigen sheets. The bearing areas of the ceiling element remain in their original thickness. After installation and after the application of the floor, a nearly flat ceiling surface is established. By increasing the static height, which reaches its maximum in the middle of the ceiling element, Θ9 is possible to replace the STA-I quality steels previously required by higher quality steel grades. By this surprisingly inexpensive and technically easy to implement method succeeds to produce ceiling elements of large spans both reinforced concrete with limp reinforcement and prestressed concrete, which require neither an additional ceiling plaster nor a special floor equivalent layer. The steel consumption can be reduced to about 50%.

Claims (1)

A method for the manufacture of ceiling elements large spanwise of steel or prestressed concrete, characterized in that the surface of the ceiling elements receives an elevation corresponding to the mirror-image course of the bending line during the concreting process. Field of application of the invention The invention relates to a process for the production of debenkmenten large spans of steel or prestressed concrete. Characteristic of the known technical solutions It is already known from the general state of the art to produce ceiling elements with the aid of stilt molds which are supported on vibrating tables. For slim panel elements with system lengths of about 7000mm, high deflections occur in the installation condition. These sometimes considerable sag differences must be compensated by additional ceiling plaster as well as by greater layer thicknesses of the floor screed with high manual labor. This uncontrollably high Zusatzbelaptungen result in use of the building to further deflections and inevitably reduce the safety of the construction in their structural behavior. Ziol of the invention It is the object of the invention to produce ceiling elements of large spans with low material and Arbeitszeilaufwand and in high QuolitL ', at the installation of the slender ceiling elements no additional compensation work in the ceiling and floor area must be performed more. Explanation of the essence of the invention The object of the invention is to provide a method for producing ceiling elements of large spans, with which it is possible to save when using a höherwert'gen Stahlgüto, reinforcing steel and reduce the deflection of the ceiling elements even after installation and use of the building, permanently. According to the invention the object is achieved by the side walls of the molds for ceiling elements made of steel or prestressed concrete large spans receive an elevation according to the course of the bending line. This is realized by providing the side walls of the shapes with parabolic plates. These sheets are shaped according to the statically determined course of the bending line dec ceiling element. They are mirror-inverted to the actual flow of the bending line so attached to the forms, that in the middle of the ceiling element, the largest elevation arises. The concrete is removed after the introduction and compression on the edges of the parabolic plates. The two support areas of the ceiling element remain in their original thickness. embodiment The side walls of a mold for the ceiling ^r ilemente large spans obtain a camber, which corresponds to the course of the bending line of the static system. This is achieved by welding or screwing parabolic plates to the side walls of the molds. These sheets have been arranged in mirror image to the actual course of the bending line, wherein in the middle of the ceiling element, the largest elevation arises. The concrete is removed after the introduction and compression on the edges of panbelförmigen sheets. The bearing areas of the Deckenolementes remain in their original thickness. After installation and after the application of the floor, a nearly flat ceiling surface is established. By increasing the static height, which reaches its maximum in the middle of the ceiling element, it is possible to replace the previously required reinforcing bars the Good STA-I by higher quality steel grades. By this surprisingly inexpensive and technically easy to implement method succeeds to produce ceiling elements of large spans both reinforced concrete with flabby reinforcement and prestressed concrete, which require neither an additional ceiling plaster nor sine special ·) leveling layer. The steel consumption can be reduced to about 50%.