DE2025704A1 - Construction elements and processes for the design of tower structures with three-dimensional framework construction - Google Patents

Description

COMPONENTS AND PROCEDURES FOR DESIGNING TOWER STRUCTURES WITH SPATIAL TRUSS CONSTRUCTION The invention relates to a component and method for Design of tower structures with spatial framework construction, with which on the one hand the cheap mass production of relatively small, lighter triangular elements, their economical one Packaging and its rational transport is made possible, on the other hand during assembly No welding, riveting, screwing and no scaffolding required on the site is.

In the case of tower-shaped structures, there are constantly growing demands the application of slim, simple transportable, kenen scaffolding and inexpensive, lightweight constructions requiring no lifting means. It becomes common demanded that the high, tower-shaped structures for the wind attack small areas perform, have sufficient rigidity and deal with their architectural aesthetic Fit the design well into the respective environment.

The main goal of the construction industry today is shortening the construction times, in the extensive reduction of what is required for the construction work Construction machinery and labor. This goal is mainly achieved by the The use of components enables, under favorable operational conditions, be made with well-organized manufacturing. The assembly method or the Modular systems have to be used more and more frequently.

The spatial specialist constructions are designed to satisfy all these requirements well suited.

Larger tower structures with half-timbered construction have so far been on assembled at the construction site by welding or riveting. It is about for the most part around steel towers, where the weather conditions when welding outdoors may have an unfavorable effect on the quality of the weld seams. Furthermore this process is also uneconomical.

Another solution will be in order to reduce the on-site workload Any work that arises in the company from aluminum parts is larger, but still transportable Truss elements welded or riveted together, which are included on the construction site suitable lifting equipment is moved and assembled. In this case it can even with particularly careful - and correspondingly expensive - transport the damage the construction often occur, in addition, the scaffolding, or the use the hoists for the assembly are associated with great costs.

In certain cases, the pre-assembled larger units are transported almost impossible / e.g. when building pipelines on wooded terrain /.

According to the invention, the spatial framework construction is made of equilateral Triangular elements put together.

The specialist parts, which are designed as regular triangles, are made Metal tube, conveniently made of aluminum robber and can be automated by Machine welding or metal bonding to those that can be mass-produced / Forged or die-cast / node connecting elements be attached.

In every single node of the spatial framework construction the tips of three triangular elements are hinged together. At the top At the top of the triangular elements there is a junction part provided with flanged bolts, $ while the parts of the lower pointed are bow-shaped.

At the Bpu, or during assembly, the individual triangular elements in an approximately horizontal or even deeper tilted plane on the tips of the triangular elements the row below and can be turned around the bolts, up to the stop on a stop member, are brought into their final position.

The fitting surfaces of the joints can be sealed with metal glue during assembly are treated to the game resulting from dimensional deviations in the manufacturing process to prevent.

Tower constructions of any regular polygonal outline can be built from the triangular elements according to the invention. where the meridian curve of its envelope surface can be straight / cylinder, truncated cone, double truncated cone, etc./, or curved / rotational hyperboloid, etc. /. The tower, produced as a three-dimensional framework construction without a stiffening base, has a minimal footprint and is also characterized by favorable static parameters4 All nodes of the towers with a cylindrical or conical meridian curve are the same, in the former case the triangular elements are congruent, in the latter Pall the triangular elements are analogous , and the theoretical side lengths of the elements in the successive rows or the heights of the successive rows each form a geometric row. The side length of the equilateral triangular element located in the nth row can be, if the side of the element located in the first row is denoted by al, with the. Determine the formula an = a1 q n-1, whereby the size of the quotient q depends exclusively on the taper of the tower. The tower height Hn can be, if the tower consists of n rows and the height of the first row is hl, with the known relationship calculate.

According to the invention, every single element of the construction is such designed in a way that corresponds to optimal economic efficiency. The lower bars, that have to withstand higher loads are made from pipes with a greater wall thickness, but expediently made with a uniform outer diameter, whereby for inclusion equally suitable for compressive loads / buckling loads / and tensile loads Truss elements are preserved.

The construction designed according to the invention can be used as good space lighting securing light masts with a large mounting height can be used advantageously.

The solution is primarily to illuminate areas with heavy traffic - in cities - advantageous because the slim, transparent fabric, similar to lace Half-timbered construction does not have a disruptive effect on the cityscape and is not an important one Details of the background are covered.

The construction is also used as an antenna tower and as a transmission tower large diameter can be used, in which case not only the wind pressure but also significant ones horizontal payloads are to be borne. Another advantageous application offers itself as a temporary structure for the assembly of systems of large WShe, whereby the construction according to the invention as a demountable working scaffold excellent can apply. In this case, no glue joints are applied to the dismantling to enable.

The construction according to the invention corresponds in every respect to modern project planning and calculation methods, as well as modern construction. For example, when used as a light pole, the calculation is - the size of the light to be illuminated Using area and the required exposure level as starting data - complex programmable, i.e. the geometric and static dimensioning of the gymnastics structure, as well as the calculation of the elastic deformation is. / with computer / in a few minutes possible. The machine program can be set up in such a way that the computer runs under Consideration of the requirements placed on economic efficiency, the geometrical Optimized data is calculated and from this the measurement tables required for production, or also produces the construction drawings.

Thus, the invention contributes to well-organized project planning and for operational prefabrication.

The production is with those available in metal construction companies Equipment easily possible. A large series will be produced for the half-timbered construction made of the same or analogous elements. The nested elements can be transported and stored in a rational way. The assembly on the Construction site is quick and easy. The elements can also be moved by hand. The construction work begins with the production of the concrete foundation, which is the lowest Articulation points of the tower structure is formed accordingly. On this The triangular elements of the first row of the tower construction are laid on the foundation and rotated into their final position, transferred to the tips of this first row you can then add the elements of the next row, etc. As the end of each row An articulated opening installation grille at each of the gelank points of the polygonal level are attached, from which one segment each remains permanently in the tower as required and used to create a spiral staircase-shaped interior staircase can.

Should in the tower / e.g. for the purpose of replacing light bulbs / other lifting and funding / e.g. Wire rope operated, hydraulic or pneumatic Lifting equipment and elevators / are used, so the working platforms can be used after completion of the tower construction work must be removed in order from top to bottom.

The invention is explained in more detail with reference to the accompanying drawings.

Fig. 1 shows the framework construction designed according to the invention a light mast with a regular hexagonal floor plan.

Fig. 2 shows the inventive design of an installation mast with regular triangular outline, shown axonometrically.

Fi8 3. shows two rows of the tower structure shown on Pig 1., in axonometric representation.

FIG. 4 shows a triangular element, FIG. 5 shows the same element in a side view and FIG. 6 shows the same element in plan view.

Fig. 7. shows the assembly of the triangular elements, their turning into the correct position, in axonometric representation.

Fig. 8 shows that which is useful during transport and storage Insertion of the triangular elements.

Fig. 9 shows the acute-angled rigid connection of the octahedral Masts with a triangular floor plan, in axonometric representation.

FIG. 10 shows a, a the elements according to FIG.

multi-part truss construction that can be produced with articulated joints, in axonometric representation. This form of construction is as super light and Rigid scaffolding is advantageous when constructing tower-shaped building cloisters applicable.

Among the figures listed, 1. and 3. show the variant with a hexagonal floor plan, Figures 2., 7., 9.

and 10. the variant with a three-circle basic ring. From the inventive Triangle elements can be used to produce tower edges of various shapes and purposes will. The shape of the nodal point elements changes depending on the side angle and the number of sides of the foundation polygon / Fig. 6. /.

The main structural part forms - if the tower cross-section is tapered in the vertical direction - the expediently equilateral triangular element regularly variable in size, its sides 1 with the upper junction elements 2, as well as the lower node elements 3 and 4 - preferably by welding or metal gluing - using an appropriately adjustable device in Mass production can be connected. If the tower cross-section in the height direction is constant, i.e. the corresponding nodes are parallel to the tower axis, so all triangle elements are equal / congruent triangles.

The bars 1 of the triangular element are expediently circular Pipes, the junction elements 2, 3 and 4 and the same for all triangular elements, can therefore be achieved with highly productive processes, with great dimensional accuracy and mass-produced from high-strength material.

Claims (6)

PATENT CLAIMS 1. Triangular construction element for the design of tower structures in a spatial manner Truss construction, characterized in that the triangular elements are made from profile bars existing sides / 1 / have two of their tips that are positively connected uniaxial sleeves / 3 /, / 4 / have a point that fits positively into the The socket of the adjacent triangular element fits, furthermore that the two flanged Bolts / 2 / enclose an angle with each other which is smaller than 180 °, where the size of this angle depends on the number of triangles forming the perimeter of the tower depends. 2. Component according to claim 1, characterized in that the subsequent Junctions dei triangular elements are formed with a bayonet lock. 3. Component according to claim 1 or 2, characterized in that the theoretical side lengths of those in the successive rows Reverse corner elements. form a geometric series. 4. Component according to any one of claims 1-3, characterized in that that the nodes of the triangular components with mass production, preferably can be manufactured by die casting or drop forged. 5. Construction element according to any one of claims 1-4, characterized in that that the sides 1 of the triangular elements made of profile bars with one, the stress corresponding cross-section factor, expediently consist of tubes. 6. Method of assembling the components according to any of the Claims 1 - 4 developed spatial lattice tower, characterized in that that the triangular elements twist further than the plane perpendicular to the tower axis, in this position towards the inside of the tower with the two bolts provided with sleeves Install from above onto the studded tips of the adjacent, ready one and triangles that are approximately parallel to the tower axis are placed on top, and then the bolted tip of the triangle element and the axis of rotation of the with Sleeve provided side, in the direction of construction of the tower, into one is rotated approximately parallel position to the axis. T. The method according to claim 6, characterized in that the to be installed Triangle elements turned into their final position from the outside of Des Turnes will. L e r s e i t e