RU2010136804A - METHOD FOR MANUFACTURING HIGH-SPAN COVERINGS OF ANGARA, HIGH-SPAN COVERING OF ANGAR (OPTIONS) - Google Patents

Abstract

 1. A method of manufacturing large-span hangar coatings, according to which columns and coating elements are made, consisting of a system of supporting longitudinal and transverse structures, and trusses or beams included in the coating, during their manufacture, are given the construction lift of the lower and upper zones of each truss or coating beam, after the manufacture of all structural elements, a large-span hangar coating is assembled, characterized in that the large-span hangar coating is collected at the level of the surface of the construction site, and one half of the columns are made movable, and the other half of the columns are fixed, then the assembled support ropes elastically bend the coating of the entire hangar in the plane of the coating trusses, which gives a construction lift to each coating truss, and in the lower girders of the coating trusses by pulling from the bearing ropes they create prestress in these ropes and bearing structures of the hangar cover and fix the hangar cover in this position, for which each movable column is installed in the design position, using including hoisting mechanisms, and the construction hoist of the upper belts of the trusses of the coating is prescribed from the conditions of ensuring the design strength and configuration of the hangar, after which, along the external contour of the foundations of the columns, with the help of puffs from the system of load-bearing ropes, they create prestress in these ropes and fix them in the bearing support nodes, then the height of the columns raised to the height of the columns is fixed on the foundations and the lifting mechanisms are dismantled. ! 2. A method of manufacturing large-span hangar coatings, according to which

Claims (8)

1. A method of manufacturing large-span hangar coatings, according to which columns and coating elements are made, consisting of a system of supporting longitudinal and transverse structures, and trusses or beams included in the coating, during their manufacture, are given the construction lift of the lower and upper zones of each truss or coating beam, after the manufacture of all structural elements, a large-span hangar coating is assembled, characterized in that the large-span hangar coating is collected at the level of the surface of the construction site, and one half of the columns are made movable, and the other half of the columns are fixed, then the assembled support ropes elastically bend the coating of the entire hangar in the plane of the coating trusses, which gives a construction lift to each coating truss, and in the lower girders of the coating trusses by pulling from the bearing ropes they create prestress in these ropes and load-bearing structures of the hangar cover and fix the hangar cover in this position, for which each movable column is installed in the design position, using including hoisting mechanisms, and the construction hoist of the upper belts of the trusses of the coating is prescribed from the conditions of ensuring the design strength and configuration of the hangar, after which, along the external contour of the foundations of the columns, with the help of puffs from the system of load-bearing ropes, they create prestress in these ropes and fix them in the bearing support nodes, then the height of the columns raised to the height of the columns is fixed on the foundations and the lifting mechanisms are dismantled. 2. A method of manufacturing large-span hangar coatings, according to which columns and coating elements are made, consisting of a system of longitudinal and transverse structures, and trusses or beams included in the coating, during their manufacture, are given a construction lift of the lower and upper zones of each truss or coating beam, after the manufacture of all structural elements collect large-span hangar coating, characterized in that the large-span hangar coating is made at the surface level of the construction site, and columns they are made fixed and installed rigidly on the design foundations, then assembled in the lower and upper zones of the trusses of the coating using puffs from the load-bearing ropes to create a preliminary building lift of each farm and prestressing in these ropes and load-bearing structures of the coating of the hangar, and then using lifting mechanisms lift the assembled cover vertically and set it in the design position, then fix the hangar cover raised to a height on the columns and dismantle the lifting bellows isms. 3. A method of manufacturing large-span hangar coatings, according to which columns and coating elements are made, consisting of a system of supporting longitudinal and transverse structures, and trusses or beams included in the coating create prestress during their manufacture, after manufacturing of all structural elements, a large-span hangar coating is assembled characterized in that the large-span coating of the hangar is collected at the level of the surface of the construction site, with one half of the columns being made movable, and the other the half of the columns are fixed, each truss is made in the form of a connection of two beams, one of which is connected to a movable column, and the other to a fixed column, then with the help of lifting mechanisms and temporary mounting devices they raise the beams with columns and set them in the design position, fasten them together, then in the lower zone of each coating beam using puffs from the bearing ropes create a prestress in these ropes and load-bearing structures of the hangar cover, along the outer contour of the foundation in the columns, using puffs from the system of load-bearing ropes, they create a preliminary voltage in these ropes and fix them in the bearing support nodes, then the hangar cover raised to the height of the columns is fixed on the foundations and dismantle the lifting mechanisms and temporary mounting devices. 4. A large-span hangar coating containing columns, trusses or coating beams installed on them, including the lower and upper girdles, braces connecting trusses or coating beams to each other with a transverse supporting structure, comprising girders and a communication system, characterized in that it is provided with bearing supporting nodes, and each truss is equipped with load-bearing ropes, which are located in the lower zone of the truss, each pair of design foundations for the columns is equipped with a system of load-bearing ropes, which are placed below the floor structure, and one of them The supporting support nodes are made along the external contour of each column and are designed to fasten the bearing ropes, which are located in the lower zone of each truss, the other supporting supporting nodes are made along the external contour of each pair of design foundations for the columns, and are designed to secure the system of supporting ropes, which are located below the structure gender. 5. The large-span hangar coating according to claim 4, characterized in that the lower belt of each truss is equipped with movable nodes that are designed to change the length of the lower belt of the truss, the braces are placed at the same distance from each other and are made of variable length, the length of the braces of the truss being changed proportionally the ordinates of the plot of bending moments from the action of external loads, built in a beam of the same span as each farm. 6. A large-span hangar coating according to claim 4, characterized in that the lower belt of each truss is made of hollow elements of rectangular or circular cross-section, bearing ropes are placed in part of the voids, and part of the voids of the elements that work in compression are filled either with mortar or concrete and the upper belt of each truss is made of elements of either a rectangular box-shaped or cylindrical section. 7. A large-span hangar coating according to claim 6, characterized in that the hollow elements of the lower truss belt are either cylindrical in cross-section or with smoothed or conical joints that absorb the rotational stresses during assembly and installation of the large-span hangar cover. 8. The large-span hangar coating according to claim 4, characterized in that each floor beam is made of at least two beams composed of a height with a corrugated wall.