CZ30874U1 - A structure of the roofing of a hall, especially of a prefabricated hall - Google Patents

Description

Technical field

The technical solution concerns the construction of the roofing of the hall, especially the prefabricated hall.

BACKGROUND OF THE INVENTION

At present, roof constructions of prefabricated halls are formed mainly on the basis of cross beams of various shapes, which are arranged perpendicular to the longitudinal axis of the hall, in spacing given by the static design required by the roof load-bearing capacity. These separate beams are then connected by secondary horizontal load-bearing elements and necessary bracing in the roofing plane, which increases the number of load-bearing elements of the structure, the total weight and labor in the assembly of the hall.

The essence of the technical solution

The object of the invention is to eliminate the above-mentioned disadvantages of the prior art and to substantially reduce the number of secondary load-bearing elements, thereby reducing the laboriousness of the assembly process and allowing its re-assembly.

This object is solved according to the invention by the construction of the roofing of the hall, especially of the prefabricated hall, consisting of first beams placed side by side at a distance and obliquely with respect to the longitudinal axis of the hall. axis of the hall, where the first and other beams cross each other in the crossing. The first and further beams may preferably be placed parallel to each other.

The choice of the angle at which the beams of both rows cross each other and the distance between the individual crosses of the beams allows to react to different load conditions of the roof structure and to change them arbitrarily in the design of the hall according to the specifications. It is a principle of scissor structure, where by decreasing the spacing between beam crossings, the static load-bearing capacity of the roof structure is increased and by increasing the pitch, the load-bearing capacity is optimized according to the required input conditions. Advantageously, the selected spacing of the crossings of the beams makes it possible to reduce or completely omit the supporting secondary secondary elements from the roof structure. At the same time, the advantageously selected spacing of the beam crossings makes it possible to reduce or omit the bracing elements of the structure in the roof plane.

The actual shape of the individual beams can be formed in various ways, for example in the form of an arch, ellipse, rectangle, or triangular frames, according to the static design and requirements for external and internal arrangement of the hall.

Each beam in the roofing assembly is divided in length into min, four parts, which at the crossing point simultaneously intersect with adjacent beams at an angle given by the selected pitch of the crossing points according to the static input.

The material design of the beams can be designed in steel, wood or concrete, the actual construction of the individual beam can be solid, lattice, spatially shaped, etc. In the shape of arched, elliptical or rectangular beams, an intermediate floor in the hall structure can be advantageously used, which can statically act as a transverse horizontal tie rod, preferably eliminating vertical forces from the roof load.

From the viewpoint of optimum mechanical properties of hall roofing with steel, wooden or concrete construction, according to the technical solution it is advantageous if the suspended roof covering of the hall is made of light panels of sandwich type with insulation or in combination with sheathing based on single or double design.

The span of the hall in the transverse direction can be chosen differently, according to the requirements for the external appearance of the roof and with regard to the static design of the structure. In the longitudinal direction, the shifting and the number of beams can be freely expanded or reduced according to the requirements for the overall size of the hall, or can be solved in a variable manner during repeated assembly of the hall.

-1 CZ 30874 Ul

Clarification of the drawing

The technical solution is further described by way of example of its embodiment by means of a figure, which shows a view of the steel structure of roofing of a prefabricated hall in axonometry.

Example of technical solution implementation

The figure shows a roof structure of a prefabricated hall consisting of first beams 1 parallel to each other at a distance and at an angle to the longitudinal axis of the hall and second beams 2 parallel to one another at a distance and at an angle to the longitudinal axis halls. The first and further beams 1, 2 are arranged in such a way that they intersect at the crosses 3 at the top and at the crosses 4 along the length. In the figure, only one of the first and other beams 1, 2 is always indicated by a corresponding reference numeral to maintain sufficient clarity.

The construction of the roof of the prefabricated hall according to this example is intended, as is also well evident from the figure, for the hall of the exhibition pavilion of rectangular floor plan 96 x 52 m. Beams 1, 2 have a spacing of 8 crossings of beams I, 2. 2 is made of steel and has an ellipse shape with a height at the top of 17.5 m, two adjacent beams 1, 2 each crossing approximately one third of the span, and are led to a common foundation. Both ending end beams 5 of the hall are elliptical. At the apex of each front arch, two opposing beams 1, 2 are terminated. Preferably, an elliptical beam, at a statically optimal level, is interposed with an intermediate tray 6 as an exhibition tray, made of steel beams on steel supports. Here, the steel intermediate tray 6 will act statically as a transverse horizontal rod, preferably eliminating vertical forces from the roof load.

The sheathing of the prefabricated hall consists of a suspended roof sheathing of the hall consisting of lightweight panels of sandwich type with insulation or in combination with sheathing based on a stretched textile membrane of single or double design.

The prefabricated hall with the arrangement of the beam 1, 2 according to the technical solution can be advantageously mounted repeatedly with a considerable reduction of the implementation time, compared to standard roofing solutions.

Industrial applicability

The technical solution is applicable in the construction industry for roofing of halls, especially prefabricated halls.

Claims (3)

PROTECTION REQUIREMENTS Structure of a roofing of a hall, in particular of a prefabricated hall, characterized in that it consists of first beams (1) placed side by side at a distance and oblique with respect to the longitudinal axis of the hall and other beams (2) also spaced side by side with respect to the longitudinal axis of the hall, the first and further beams (1, 2) crossing each other in the crossing (3,4). Construction according to claim 1, characterized in that the first and further beams (1, 2) are arranged parallel to each other. A structure according to claim 1 or 2, characterized in that each of the beams (1, 2) is divided into at least four parts along the length, each part of the first beams (1) crossing at the crossing point (3, 4). with the respective part of the other beams (2).