DE8410840U1 - KEYSTONE PROFILE - Google Patents

Description

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PATENT LAWYERS F.W. HEMMERICH GERD MÜLLER D. GROSSE F. POLLMEIER - 3

April 04, 1984 g.us. 74 141

Eichener Maschinenfabrik Kurt an Haack, Hammerstraße 14, 5910 Kreuztal - Eichen

Trapezoidal profile

The innovation relates to a trapezoidal profile with a predetermined pitch running lengthways / trapezoidal Ribs.

Such trapezoidal profiles are widely used for covering roofs and for creating or cladding walls, Building fronts, storey ceilings, etc. used. Such Trapezoidal profiles experience a significant increase in their effective section modulus due to their profiling. It However, it has been shown that, in particular due to loads that are formed between the profile edges delimiting the ribs flat surfaces can deform ugly. In addition, such deformations reduce the load-bearing capacity of the trapezoidal profile.

Attempts have already been made to prevent such deformations by further profiling the trapezoidal profile; for example, additional, for example V-shaped, are in the upper and / or lower chords Arranged beads, and the profile webs are divided by web beads or web offsets. Such additional beads or offsets, however, are able to add the flat sheet metal strips formed in the trapezoidal profile between its edges stiffening and by their subdivision both to reduce the extent of flatness errors of these flat strips as well as to conceal something visually, however, avoided

PATENT LAWYERS F.W. HEMMERICH ■ GERD MÜLLER · * D. GROSSE P. POLLMEIER - 4 -

they will not, and the complication makes itself disadvantageous- }>

W tion and thus more expensive manufacturing noticeable. |

The innovation is based on the task between formed the profile edges of a generic trapezoidal profile plan to stiffen strip-shaped sheet metal areas, without burdening the production of the trapezoidal profile with significant additional profile components.

This is achieved by the flat sheet metal strips formed between the profile edges of the ribs with periodic fine profiling running transversely to the ribs
are provided. In this way, an additional substantial stiffening of the flat areas is achieved first of all,
so that this against bulging, buckling or the like. are protected from their basic level. But furthermore is through
this stiffening also increases the load capacity of the entire trapezoidal profile considerably, since the flat sheet metal areas are stiffened. This includes not only the cold deformation due to the introduction of the fine profile: In the area of the profile edges, this fine profile is formed back when they are formed, so that a double deformation and thus solidification takes place here.

The fine profiling is advantageously carried out wavy in the manner of a corrugated sheet; but it is also possible to use them for example rectangular, trapezoidal or alternately V-shaped.

It has proven useful to fine profiling a profile height have to be shown, which are in the range of 0.2 to 4 mm,

PATENTANWÄLTE FW ^ EMMERICH · GERb MÜLLER Ό. GROSSE F. POLLMEIER

more beneficial in the range of 0.35 to 1.5 mm. The period length the fine profiling can be between 2 and 12 mm, advantageously between 3 and 7 mm. Through the imprint of the Peinprofils in a flat sheet metal and its subsequent shaping to the trapezoidal profile is achieved that the fine profiling each extends to just before the profile edges of the trapezoidal profile, so that smooth, continuous edge areas can also be obtained, as well as increased strength of these edge areas by double cold working.

In detail, the features of the innovation are based on the description an embodiment in connection with this illustrative drawings. It shows:

Figure 1 is a perspective view of a broken trapezoidal profile,

FIG. 2 enlarges a section of FIGS. 1 and 2 that encompasses an edge region

FIG. 3 shows a partial section, indicated in FIG. 2, through the fine profiling of FIGS. 1 and 2.

In Fig. 1, a section of a trapezoidal profile 1 is shown in perspective and broken away, molded into the ribs 2 are. These ribs are formed and bounded by profile edges, for example profile edges 3 and 4, and between the Profile edges formed by cold deformation are essentially flat sheet metal strips 5, which form apices and webs of the rib as well as the planes connecting the ribs Belt strips of the trapezoidal profile. To further stiffen these flat sheet metal strips, they are finely profiled 6, which, as can be seen in FIG. 2, each extend into the area of the profile edges 3 and 4, respectively.

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PATENT LAWYERS F.W. HEMMURICH 'GERb MüL'L'ER Ό. GROSSE F. POLLMEIER

Through this transversely to the ribs 2 of the trapezoidal profile 1 running Peinprofilierung 6 becomes a stiffener this sheet metal strip 5 achieves the forces introduced into it from the outside without defoining such as bulges or the like. able to take over. The one through the fine profiling The resulting reinforcement affects both the upper and lower chords of the trapezoidal profile given by horizontal sheet metal strips as well as the planar strip of Llech that act as webs of the ribs 2. This also increases the resilience of the Trapezoidal profile 1 itself increased, since its components are protected against deformation. Another increase in resilience results from the additional cold deformation caused by the fine profiling and this Resulting strain hardening: The sheet metal strips 5 are additional compared to corresponding areas of conventional trapezoidal profiles cold-formed by the fine profiling 6, and in the production method preferably used, according to the first the entire sheet is provided with a fine profiling, and in a second process step the fine profiled, essentially flat sheet metal is formed into a trapezoidal profile, results in the area of the highly stressed profile edges 3, 4 a double cold deformation and thus a £ continues increased work hardening. However, this not only eliminates unsightly deformations of the parallels to the belts of the trapezoidal profile Metal strips prevented by their transverse profiling, the increased stiffening in connection with the additional Work hardening also causes an increase in the load-bearing capacity. It is also noticeable as advantageous that as a result the fine profiling and the given surface enlargement as well as the additional formation of superficial cavities of small dimensions a better bondability to be applied layers results. The acoustic behavior of new features has also been designed with a fine profile.

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PATENTANWÄLTE FW KgMMeRICH ^: GERO MDLUeR - TJ. GROSSE F. POLLMEIER - 7 -

equipped trapezoidal profiles stand out compared to the usual |

ψ trapezoidal profiles vprteilhaft of: The stiffening of the areas covered by the fine profiling restricts a resonating 'of the same acoustic under the action of vibrations, and the effect achieved by the fine profiling surface structures \ turing prevents directional sound reflections: The stiffened by fine profiling and structured surface regions put the resonating by their Reinforcement counteracts increased resistance, and at the same time the reflected sound is only emitted diffusely and thus weakened.

The additional fine structuring does not make excessive demands on the production of the trapezoidal profiles. So Corrugated sheet-like structures can be created by embossing or by rolling by means of rollers with ribs in the Sheet metal strip withdrawn from the coil can be produced. The amplitude of the periodic fine embossing remains here small amount; it can be between 0.2 and 4 mm, better between 0.35 and 1.5 mm, and in the exemplary embodiment was an amplitude of 0.6 mm was chosen. The period length is not critical either; it can be between 2 and 12 mm, better between 3 and 7 mm, and the fine profiling of the exemplary embodiment is dimensioned with a period length of 6.28 mm. The reshaping in the area of the profile edges takes place practically automatically during normal profiling, so that the finished Trapezoidal profile runs smoothly in the area of its profile edges and the fine profiling only between the Profile edges occurs and does not extend all the way to these. Regarding the material, there are no special ones Requirements made; It can therefore, as is common practice, galvanized, plastic-coated, phosphated and painted Steel sheets, but also aluminum-zinc sheets, can be used, whereby the anti-corrosion measures can be combined as desired.

PATENTANWÄLTE F.W, ^ EMMERICH 'GERtD MD |! I1eR * D. GROSSE F. POLLMEIER - 8 -

The type of processing ensures, for example, extensive disruptions when processing galvanized sheet metal. freedom, as there is no greater zinc abrasion than with the usual shaping of trapezoidal profiles. This means obeying 'The teaching of the innovation achieved a trapezoidal profile that is more resilient than conventional trapezoidal profiles, and with bulges and other unsightly deformations of the flat surfaces between the profile edges are avoided.

Claims (8)

PATENT AGENCIES F, W. ^ EMMERICH * · 'GERD MÜLLER' D. GROSSE - F. POLLMEIER April 04, 1984 g.us. 74 Eichener Maschinenfabrik Kurt an Haack, Hammerstraße 14, 5910 Kreuztal - Eichen Schutζ claims 1. Tirapez profile with a given pitch running lengthways, trapezoidal ribs, characterized in that that the between edges (3, 4) of the ribs (2) formed flat sheet metal strips (5) with a transverse to the ribs extending periodic fine profiling (6) are provided. 2. Trapezoidal profile according to claim 1, characterized in that that the fine profiling (6) is made wavy. 3. trapezoidal profile according to claim 1, characterized in that that the fine profiling is trapezoidal. 4. Trapezoidal profile according to one of claims 1 to 3, characterized in that that the fine profiling (6) has a profile height in the range of 0.2 to 4 mm. 5. trapezoidal profile according to claim 4, characterized in that that the fine profile (6) has a profile height in the range from 0.35 to 1.5 mm. PATENT LAWYERS F.W. ^ EMMERICH GERD MÖLLER - D. GROSSE F. POLLMEIER I. 6. trapezoidal profile according to one of claims 1 to 5, F characterized by i that the fine profiling (6) has a period length of I now have 2 to 12. r 7. trapezoidal profile according to claim 6, I characterized by that the fine profiling (6) has a period length of 3 to 7 mm. 8. trapezoidal profile according to one of claims 1 to 7, characterized in that that the fine profiling (6) extends in each case to just before the profile edges (3, 4).