DE2015754A1 - Edging frame for reinforced concrete panels - Google Patents

Description

Andrejewski & Honke patent attorneys Physicist Dr. Walter Andrejewski

• _M. . ,, _. "■ Graduate engineer

Lawyer file: 34 460 / mm- Dr-Ing. Manfred Honke

Essen, March 23, 1970 36 Kettwigcr Street

Patent and utility model registration Steloon Aktiengesellschaft »
Essen, Alfredstrasse 98

Edging frame for reinforced concrete slabs

The invention relates to an enclosure frame for Reinforced concrete slabs, which in turn are used for industrial floors, streets, squares, level crossings and the like · Such bezels generally exist made of angular steel profile bars welded together. With the described orientation of the Reinforced concrete slabs as slabs for industrial floors and the like the profile bars have a horizontal flange and a vertical flange. This terminology will therefore also be used in the following. The bezel frames capture the upper edge of the reinforced concrete slabs.

109043 / 008ft

Patent Attorneys Or. W. Andrejewski, Dr. M. Honke, 43 Essen, Kettwiger Strasse

In known edging frames of the type and purpose described, the profile bars are hot-rolled angle profiles given flange width. Since there is a static bond between the enclosure frame and the reinforced concrete body of the Reinforced concrete slabs are required, additional anchors are provided, namely anchors made from reinforcing steel bars internally welded to the flanges of the profile bars. This is disadvantageous for several reasons. On the one hand, the profile rods have the known edging frame with a given flange width for reasons of rolling technology relatively thick flanges that are statically, i.e. not required in terms of stability and strength. In addition, the Production of the known enclosing frames is expensive, in particular to the extent that the anchors are subsequently welded in will. In addition, bothersome that the profile bars for the edging frame as profile bars from the rolling mill to the construction site or have to be transported to the concrete plant.

The invention is based on the object of creating an enclosure frame for reinforced concrete slabs, which - in reinforced concrete slabs given size and load capacity - is much lighter than the known frame, nonetheless however, it absorbs all stresses, is easy to manufacture and, according to a preferred embodiment, uses the well-known frame even superior from a static point of view.

The invention relates to an edging frame for reinforced concrete slabs, consisting of angled, welded together

109043/0080

Patent attorneys Dr. W. Andrejewski, Dr. M. Honke, 43 Essen, Kettwiger Strasse 36

Profile bars that have a horizontal plan and a vertical plan. The invention consists in that the profile bars are bent from steel strip and stiffened on the vertical surface by at least one longitudinal bead. According to a preferred embodiment, the arrangement is such that the steel strip is bent cold to form the profile bar and the bead is also formed by cold deformation. Ä

In the case of the frame according to the invention, it is no longer necessary to Anchor to be additionally welded in * Rather an embodiment of the invention, which is through manufacturing technology Characterized by simplicity, characterized in that from the vertical plan of the profile bar below the bead running essentially in the longitudinal direction of the profile bar Anchoring tongues are punched out, and these are bent inwards essentially at right angles (with respect to the border frame) are. But there is also the possibility of instead of the anchoring tongues arranged in the manner described or in addition to these in the vertical splash above the indentations in the longitudinal bead and the recessed | as an anchoring tongue and inwards to turn · In both cases this is done by the anchoring tongues the stability of the enclosure frame according to the invention does not impaired. If the anchoring tongues are below the bead, the bead provides sufficient rigidity, if the anchoring tongues are above the bead, then

Patent attorneys Dr. W. Andrejewslei, Dr. M. Honke, 43 Essen, Kettwiger Strasse 36

the recess described causes a stiffening frame in the area of the recess, which is formed by the punching out of the Anchoring tongue is created in the bottom of the recess. The anchoring tongues can be chosen to be practically of any length, in particular so long that, from a static point of view, a composite is also possible is achieved with the reinforcement of the reinforced concrete slab. In addition, there is always the option of also using the horizontal one Punch out flange anchoring tongues. That happens with hindsight to the fact that the horizontal flange of the edging frame in the finished reinforced concrete slab it is visible that from the horizontal flange essentially In Anchoring tongues extending transversely of the profile bars are punched out and bent downwards. To connect between To improve the enclosure frame and the reinforced concrete body, the profile bars can be roughened on the inside be provided in the form of grooves, grooves or the like. In terms of strength, an embodiment is optimal in which all deformation processes are carried out by way of cold deformation, so that the individual frilled rods as a whole have increased strength values due to work hardening. It does not bother the fact that the profile bars of the frame in the Area of the corners, mostly after they have been mitred, are welded together. It is true that the work hardening takes place here canceled, but the corners themselves, as corners, nonetheless meet all static requirements.

The advantages achieved by the invention are mainly to be seen in the fact that in an inventive Elnfassungs-

103843/0080

Patent attorneys Dr. W. Andrejewski, Dr. M. Honke, 43 Essen, Kettwiger Strasse 36

- 5 ■ - ■■ ..

frame the profile bars simply bent from sheet metal (steel strip) can be. This can be done with simple tools or machines happen on the construction site or in the concrete works «whereby the steel belt can be withdrawn from a coil. Simultaneously with that With continuous operation, the bending process can also use the Bead to be pressed into the vertical flange · Even if If you work with a very thin steel strip, one or more beads provide sufficient strength and stability. This is especially true when the bending process of the steel strip to the profile bar than to the indentation of the bead in the way the cold deformation takes place. Here one achieves an advantageous one Work hardening and the usual increase associated with it the mechanical values. However, the bead not only fulfills a static function in the case of the border frame according to the invention in and of itself, but rather also in combination with the connected reinforced concrete slabs · For lifting loads it causes a form fit between the reinforced concrete slab and the bezel. This eliminates all stresses recorded without difficulty This applies regardless of whether the bead is pressed outwards or inwards · To preferred embodiment of the invention, however, is the Always press the corrugation or the corrugations inwards.

In the following the invention is based on only one Embodiment illustrative drawing explained in more detail; show it:

Fig. 1 is a perspective view of an enclosure frame according to the invention for reinforced concrete slabs.

109 »43 / (10βΟ

Patent attorneys Dr. W. Andrejewski, Dr. M. Honfce, 43 Essen, Kettwiger Strasse 36

Flg. 2 shows the enlarged section A from the object Pig. 1,

3 shows a section in the direction B-B through the object according to FIG 2,

Flg. 4 according to FIG. 2, another embodiment of a edging frame according to the invention, and

FIG. 5 shows a section in direction C-C through the object according to FIG. 4.

The border frame 1 shown in the figures is intended for reinforced concrete slabs · It consists of welded together angular profile bars 4. These have a horizontal and a vertical flange 3.4. The profile bars 2 are bent from steel strip according to the invention. At least one longitudinal bead 5 is located on the vertical flange 4. In the exemplary embodiment, only one longitudinal bead 5 has been drawn; in principle, several can also be provided be. The steel strip is (which cannot be seen in the figures) cold bent to the profile bar 2 and by cold deformation the bead 5 is also formed.

For anchoring between the concrete body of the reinforced concrete slabs and the enclosure frame 1 according to the invention are in the embodiment according to Figures 1 to 3 from the vertical flange 4 of the profile bars 2 below the bead 5 essentially in Longitudinal direction of the profile bar 2 running anchoring

10 * 843/0080

Patent Attorney Dr. W. Andrejewski, Dr. M. Honke, 43 Essen, Kettwiger Strasse

gen 6 punched out, which are bent inward essentially at right angles · The length of the anchoring tongues 6 can be without further be chosen so, that sufficient anchoring with the reinforced concrete body is reached. But there is also the Possibility that has been indicated in Figs. 4 and 5, after which in the vertical flange 4 of the profile bars 4 above the longitudinal bead 5 Vertlctingen 7 are pressed and the The bottom of the recess is punched out as an anchoring tongue 6 and in j is bent inward in the manner described. In addition, it can be seen from all figures that from the horizontal flange> running essentially in the transverse direction of the profile bar 2 Anchoring tongues 8 are punched out, which are shorter than that aforementioned anchoring tongues 6 and bent downwards are.

The beads 5 already cause a considerable bond between the reinforced concrete slabs and the border frame 1, and through positive locking. In addition, the profile bars 2 on the inside with composite roughening in the form of grooves, grooves or the like.

^: ■ ■ i

The sectional figures show that in an enclosure frame 1 according to the invention, the profile bars 2 are bent from a relatively thin steel strip. As a result of the described Arrangement of beads 5 and possibly depressions 7 and as a result the cold deformation, which is preferably to be carried out according to the invention, achieves extraordinary strength of the edging frame 1 according to the invention with a very low weight.

Expectations

109843/0080

Claims (6)

Patent attorneys Dr. W. Andrejewski, Dr. M. Honke, 43 Essen, Kettwiger Strasse - 8 claims f IJ edging frame for reinforced concrete slabs, consisting of each other welded angular profile bars that have a horizontal and a vertical plan, characterized in that the profile bars (2) are bent from steel strip and attached to the vertical flange (4) by at least one longitudinal bead (5) are stiffened. 2. edging frame according to claim 1, characterized in that that the steel strip is bent cold to form the profile bar (2) and the bead (5) is also formed by cold deformation, 2. edging frame according to claims 1 and 2, characterized in that that from the vertical flange (4) of the Prof11 rod (2) below the bead (5) essentially in the longitudinal direction of the profile bar (2) extending anchoring tongues (6) punched out and these are bent inwards. 4. edging frame according to claims 1 and 2, characterized in that in the vertical flange (4) above the - Longitudinal bead (5) depressions (7) are pressed in and the bottom of the depression is punched out as an anchoring tongue (6) as well as is bent inwards. 109843/0080 Patent attorneys Dr. W. Andrejewski, Dr. M. Honke, 43 Essen, Kettwiger Strasse -9- 5. edging frame according to claims 1 to 4, characterized «that from the horizontal flange (jj)" substantially in the transverse direction of the profile bar (2) extending anchoring tongues (8) punched out and bent downwards are. . 6. edging frame according to claims 1 to 5 * characterized in that the profile bars (2) on the inside with composite · roughening in the form of grooves, grooves or the like. 7. Edging frame according to Claims 1 to 6, characterized in that all deformations (bending of the steel strip to form the profile bar (2), molding of the bead (5) or beads (5), indentation of the depressions (7), punchings, indentations the composite roughening) carried out as cold deformations and thereby the profile rods (2) are work-hardened as a whole. PAe Dr Andrejewski «Dr Honke 10 98 43/0080 AO- Blank page