CZ17111U1 - Structural part intended particularly for arched shops - Google Patents

Description

Structural part, especially for arched halls

Technical field

The technical solution concerns a structural component, especially for arched halls.

BACKGROUND OF THE INVENTION

The arched halls are usually built by attaching elements of different shapes and materials that form the walls of the hall to the steel frame or concrete structure. Solutions of self-supporting plastic parts are also known, but are only applicable to a limited range of hall spans.

The purpose of this technical solution is a structural component which is self-supporting and self-clamping and does not require any supporting structure. It can be unified for arched halls of the same radius.

The essence of the technical solution

The aforementioned purpose is achieved by a structural member for arched halls whose base surface is in the shape of an equilateral hexagon and the upper surface of the component is in the form of an irregular sy15 metric hexagon whose two opposite sides are shorter than the remaining four sides of the hexagonal upper surface. These shorter sides form part of the opposing narrower side faces of the panel and form an obtuse angle with the panel base surface that is greater than the obtuse angle formed by the remaining four wider panel side surfaces of the panel.

The essence of this technical solution is that the structural part has a convex upper surface, the rounding of this surface being given by the outer radius of the arched hall for which the component is intended. Workpiece base is flat or concave. In case the base of the workpiece is concave, the rounding of this surface is given by the inner radius of the arc hall for which the workpiece is intended.

It is also an object of the present invention that at least two of the side surfaces of the panel, preferably the narrower opposing surfaces, are provided with continuous grooves whose longitudinal axes are parallel to the surface of the panel base.

Furthermore, this technical solution is also based on a component whose continuous grooves are wedge-shaped with a vertex right angle.

Finally, the present invention also provides that the tongue with bevelled ends is integrated in the three lateral faces of the panel that are not adjacent to each other, and in the remaining lateral faces that are also not adjacent to each other are wedge-shaped grooves with a vertex right angle.

The advantage of this technical solution is that the structure of the arched hall is assembled only from these identical elements, by means of a movable scaffolding, which elements create a self-supporting structure, which only needs to be complemented by straight supporting structures. The outer rows of panels of the arc-shaped structure adjacent to the supporting structures of the hall are completed with axially halved panels according to this technical solution.

BRIEF DESCRIPTION OF THE DRAWINGS

The technical solution is further explained in more detail on the examples of its practical implementation, which are also shown in the attached drawings.

Fig. 1 shows a component with a convex upper surface - in plan view, side view and axial section A-A, taken along opposite shorter sides of a regular hexagon.

-1 CZ 17111 Ul

Fig. 2 shows a wedge-shaped construction with continuous right-angled grooves on all sides of the panel - plan, side and section, where the three side faces of the panel that are not adjacent are a tongue with bevelled ends at both sides and the remaining side For example, in the areas that are between the lateral surfaces with the tongues, the keyway grooves of the new shape are shown with an apex right angle.

FIG. 3 shows a part of an arched structure in a side view and in plan view, where axially halved parts are shown at a straight edge adjacent to the retaining wall.

Fig. 4 shows a part of the arched structure in side view and plan view with axially bisected pieces at a straight edge adjacent to the retaining wall, where it is seen in the side view that the pieces have wedge-shaped grooves with apex right angles and connecting tongues.

Exemplary embodiment

As shown in Fig. 1, the structural element of the present utility model is a spatial element whose base 1 has the shape of an equilateral hexagon and the upper surface 2 is hexagonal with two opposite sides 2,1 and 2.2 shorter than the other four sides 2.3, 2.4, 2.5, 2.6. This is because the opposing side surfaces 3.1, 3.2 of the panel form an obtuse angle with the base surface X, which is always greater than the obtuse angle which the remaining side surfaces 3.3, 3.4, 3.5, 3.6 of the panel form with the base surface. The angles are calculated according to the particular requirement for the parameters of the arched structure made up of components according to this utility model. From this it is obvious that for various parameters of the arched structure different parts according to this utility model will be calculated and manufactured. Since halls of this type are always offered as series with graded parameters, the components can be reused, which is seen as the main advantage of the solution.

The upper surface 2 of the panel may be flat and thus parallel to the plane of both the base and the panel, or the upper surface 2 may be convex. The flat upper surface 2 of the panel is advantageous from a production point of view and will be used in particular for larger radii of curves, in which the flat upper surface of 2 panels folded into the arch of the roof structure will optically approach the semicircular curve of this structure. For smaller radii of curves, it will be advantageous to make the upper surface 2 convex, by calculating from the semicircular curve of this curved structure described. It is also possible, especially in the case of smaller arcs, to make the base and the concave parts by calculating from the semicircular curve of this arcuate structure inscribed inside.

A specific solution of the spatial panel according to the utility model is also possible, wherein at least two of its side surfaces 3.1, 3.2, 3.3, 3.4, 3.5, 3.6, preferably opposing surfaces are provided with grooves 5 whose longitudinal axes are parallel to the surface 1 of the panel . The tongues 6 will be inserted into the grooves 5, which will connect the adjacent parts of the arch structure and also transfer part of the forces that are otherwise only retained by friction. If the grooves 5 are only on two opposite sides of the panel, then the shorter sides 3.1, 3.2 are those whose upper edges 2.1, 2.2 are perpendicular to the semicircular curve described by the arched structure.

Furthermore, a particular solution of the spatial panel with grooves 5 according to the utility model is possible, these grooves 5 being wedge-shaped with a vertex right angle. The tongues 6, in which case the adjacent parts of the arched structure are connected, are in the form of a slender prism with bevelled ends on both sides, so that at the point of contact of the three adjacent parts the three tongues touch each other.

Finally, it is also possible to provide a specific solution of the spatial panel according to the utility model, in which the tongues 6 with bevelled ends are bilaterally integrated in the lateral surfaces 3.1, 3.3, 3.5 of the panel, i.e. the non-adjacent surfaces. It is to be understood that the side surfaces 3.1, 3.3, 3.5 of the panel are provided with projections corresponding in shape to the half of the tongue 6, formed by cutting the longitudinal axis of the tongue 6 and the opposite long edges of the tongue 6. The remaining side surfaces 3.2, 3.4, 3.6 of the panel, also non-adjacent, are provided with grooves 5, the shapes of which always correspond to the shape of the integrated tongue 6, being its counterpart. This variant is the most demanding in terms of manufacturing accuracy, but reduces the number of elements required to build the structure. Components must always have a side orientation designation when assembling them into the structure.

-2EN 17111 Ul

Of all the above-mentioned exemplary embodiments - concrete solutions of the spatial panel according to the utility model, it is always necessary to create a part of axially bisected panels that will be used on the edge rows adjacent to the face of the retaining wall 7.

A supporting structure, preferably mobile, will be used to support the individual components of the utility model until at least one entire arc has been formed from the components, which is fixed at both ends on the ground and after completion becomes self-supporting. The axial forces will be absorbed by the adjacent retaining walls 7.

Industrial applicability i The solution according to the technical solution is usable in the construction of arc halls, from the parts unified for halls of the same required parameters and the radius of the roof arch. If the components are appropriately sized, the technical solution can also be used for large span halls. The material and dimensions of the parts will be chosen according to the required hall parameters. For example, the components may be translucent, or the hall structure may be combined from components made of different materials.

Claims (5)

15 PROTECTION REQUIREMENTS Component, in particular for arched halls, characterized in that the surface of the base (1) of the panel is in the shape of an equilateral hexagon and the upper surface (2) of the panel is hexagonal, the two opposite sides (2.1, 2.2) being shorter than the remaining four the sides (2.3, 2.4, 2.5, 2.6) and the opposing side surfaces (3.1, 3.2) of the workpiece form an obtuse angle with the base surface (1) which is 20 greater than the obtuse angle between the lateral remaining surfaces (3.3, 3.4, 3.5, 3.6) of the panel and the surface of the panel (1). Component according to claim 1, characterized in that the upper surface (2) is convex and the base (1) of the component is concave or flat. Component according to claim 1 or 2, characterized in that at least two of the 25 side surfaces (3.1, 3.2, 3.3, 3.4, 3.5, 3.6) of the component, preferably the opposite surface, are provided with grooves (5) whose longitudinal the axes are parallel to the surface of the workpiece base (1). Component according to claim 3, characterized in that the grooves (5) are wedge-shaped with a vertex right angle. Component according to the preceding claims, characterized in that a tongue with two-sided bevelled ends and a non-adjoining side surface (3.2, 3.4, 3.6) are integrated in the side 30 surfaces (3.1, 3.3, 3.5) of non-adjoining parts. are provided with a wedge-shaped groove (5) with an apex right angle.