DE19707133C1 - Method of making composite load support profile - Google Patents

Abstract

The method involves has stuctural or corrugated panels (4-6) with their cutting plane perpedicular to the direction of the undulations and a cut edge which has apices and recesses or valleys formed in it. The undulating panel sections can have reliefs on the structural panels opposing them so that an open cavity structure between the panels is formed. The reliefs of the corrugations can have point fixings. The corrugated panels can be cuerved so that the radius of curvature extends in the plane pof the panels. The upper and lower surfaces of the panel can have an open structure.

Description

The invention relates to a method for producing a support profile, in particular a curved support profile, consisting of at least one top layer with perpendicular to it Reinforcement elements in the form of structural or corrugated sheets, the structures or waves in the longitudinal direction of the Tragpro fils run and structures open in the transverse direction with a have truss or lamellar cross-sectional shape, and a method for producing a support profile.

Steel beams are known as a support profile, which are either complex coated or corrosion-resistant through expensive alloying processes be made. In addition to the expensive production method, there is also also the disadvantage that the overall construction is coated Steel beams is very heavy and therefore during assembly and also for repair work only to be handled by special hoists is.

Steel girders of the type mentioned are used, for example, for bridges superstructures according to DE 28 54 074 used, which in cross bridge direction, arranged side by side, self-supporting elements are composed. The elements each have an upper and lower belt plate with behind in the longitudinal direction of the bridge mutually arranged, serving as stiffening elements plates. The corrugated sheets are essentially the same width as the belt plates. This way arise Modules that are braced or stiffened and crosswise one give uniform transverse support so that the upper strap plate in its entire width can be used as a roadway (Page 15, 2nd paragraph of DE-OS 28 54 074).  

Furthermore, so-called "sandwich components" are known which are for higher claimed lightweight constructions used and possibly made Aluminum combined with other more corrosion-resistant works fabrics. Here are light core systems used either with relatively thin aluminum cover sheets glued or by thermal connection methods, such as Welding, soldering or the like can be connected. The protection cores can be made from honeycombs, foams or other light materials exist and prevent the bulges from buckling and buckling the sheets with vertical force to the plate level.

The well-known Sandwhich elements, for example the so-called "HOBE-Blöc ke, are relatively expensive and have to be made for a certain Towards the attacking load capacity can be optimized (aluminum Ta schenbuch, 14th edition, page 312). It is also corrosion do not behave so favorably under aggressive conditions that a problem-free period of use of several years is guaranteed can.

From the magazine "Reinforced Plastics", November 1996, Volume 40 page 28-30 there are known support profiles with an H cross-section, the upper and lower straps with fiberglass or carbon fiber deposits were strengthened. These are referred to as "hybrid beams" Support profiles have one in comparison to other composite cones Structures higher strength, but it exists in the fire fall the risk of release of toxic decomposition products. The hybrid beam therefore does not yet have general approval received as a support profile.

DE-OS 38 24 423 describes a method for producing a curved support profile known in which the axes of curvature run parallel to the trapezoidal profiles used as the core. The cover plates are connected to the trapezoidal base surfaces, so that the open structure in the known composite panel lies. Another, on its open structure with deck  plate closed variant is a method of curvature neither in the plane of the trapezoidal profiles nor perpendicular to it give.

The object of the present invention is therefore a method specify for the production of support profiles that consist of at least a top layer and reinforcement arranged perpendicular to it Kungselemente exist to ver an arcuate support profile can be formed, with the bending radius in the plate plane lies.

This object is achieved by a method according to claim 1 solved.

Advantageous further developments of the method according to the invention are specified in claims 2 and 3.  

Between at least two flat plastic plates are par allelic, strip-shaped spacers arranged out of structured plates, such as Wellplat cut out, trapezoidal profiles or honeycomb panels are, the cutting edges transverse to the structure of the plates run and form at right angles to the flat plates are conclusively embedded.

It is envisaged for a support manufactured according to the invention profile the spacers from individual corrugated sheet sections form, the adjacent plate sections the respective wave crests or the wave valleys with each other touch and flexibly ver in the points of contact be bound.

In the manufacture of the support profile according to the invention several layers of the corrugated sheet sections before application ver the flat cover layers to an arcuate support profile forms and glued in this position.

The particularly advantageous production of a curved support Profiles results from the fact that the individual plate sections the spacer before applying the flat plastic plates are fixed at the contact points and only those outer end faces with the flat plastic plates get connected.

The high load-bearing capacity of the curved version of the support profile according to the invention, wherein the bend gliding across the shaft direction of the individual corrugated sheet sections is made possible. This can in the contact area an elastic bond by screws, never ten or the like can be made so that the stack sliding of the individual spacer slats is not impeded becomes.

The cavity structure is lamellar in cross-section built, with two slats in the contact area one have common pivot point.

Referring to FIG. 1, a carrier according to the invention to manufacture profile in the initial state of the upper chord 1 and bottom flange 2 and between them shown disposed stiffening elements.

The stiffening elements consist of corrugated sheets 4 , 5 , 6 extending in the longitudinal direction of the supporting profile, which with their open faces form a lattice-like or lamellar structure.

Fig. 2 shows this truss or lamellar structure in plan view, it being recognizable that the wave crests or the wave troughs of the adjacent corrugated sheets are always in contact with each other. These can, as can be seen at the connection points 7, be fastened to one another by means of screws, rivets or the like, with point-acting means being used according to the invention. The individual corrugated plates can thus perform a relative movement to one another in the radius plane of the shaft.

The relative movement of the supporting wave crests when the corrugated sheets bend with one another can advantageously be used for the production of curved support profiles. In Fig. 3 an example of the execution of a curved support profile is given. One can see the stiffening elements arranged between the upper and lower belts 1 , 2 , which also act as spacers and which have a uniform curvature from the point of contact A to the point of contact B.

The process for producing a curved support profile can be carried out as follows:

• 1. Elongated sections are separated from corrugated sheets, the longitudinal direction of the sections with the wave direction tion matches.  
• 2. The corrugated sheet sections are put together so that they collide with the wave crests and thereby one Form open, honeycomb-like structure.
• 3. The corrugated sheet sections are at the touching Wave crests fixed in places, for example by screwing, never ten or the like.
• 4. The wave plate sections are ge in an arc shape brings, the bending radius in the plate plane of the well plate sections lies.
• 5. The corrugated sheet sections are on their open structure side with a top layer, which as a top or The lower flange acts and firmly with the corrugated sheet sections is glued.

The advantage of this procedure is that none special shapes for the production of curved support profiles required are. The corrugated sheet sections fixed to each other te have a minimum stability even when bent, so that the cover layers can be applied and glued without problems can be. Depending on the type of glue used, only short holding times required during the setting of the adhesive Lich.

Claims (3)

1. A method for producing a deformable in a bent state support profile consisting of at least one cover layer with reinforcing elements arranged perpendicular to it in the form of structural or corrugated sheets, the structures or waves extending in the longitudinal direction of the support profile and the corrugated sheets in the transverse direction with open cavity structures have a half-timbered or lamellar cross-sectional shape,
characterized by
that elongated sections are separated from structural or corrugated sheets, the cutting direction being transverse to the longitudinal direction of the waves and a cut edge with elevations or mountains and depressions or valleys being formed,
that the corrugated plate sections are placed against one another with the elevations of the structure or corrugations, so that an open cavity structure is created between the structured or corrugated plates,
that the structural or corrugated sheets are fixed at their elevations with fastening means,
that the structural or corrugated sheets are brought into an arcuate shape, the arc radius running in the plate plane and
that an upper and / or lower flange is applied as a cover layer to the open structure and the cover layer is glued to the corrugated sheet sections. 2. The method according to claim 1, characterized, that for point fixation fasteners on the Elevations of the structure or wave plates are arranged and the shaft plate sections at right angles to the shaft direction Bending slide on each other. 3. The method according to claim 1 or 2, characterized, that the curved corrugated sheet sections in the glass fa This reinforced plastic formed upper and lower straps in the not yet cured, wet state and be held until the adhesive has hardened.