DE2225639A1 - COMPONENT, IN PARTICULAR CONSTRUCTION - Google Patents

Description

Stahlwerke Peine-Salzgitter AG 3150 Peine, Postfach 38 - 4 0

Component in particular prop

The invention relates to a multi-part compression rod Steel column whose cross-section has no material axis.

Supports, e.g. for building construction, civil engineering, industrial and bridge construction are known either as reinforced concrete columns or as steel columns with or without fabric-free levels. These known types of supports have significant disadvantages.

Reinforced concrete columns, in which the concrete core is surrounded by a steel reinforcement, which consist of steel rods running lengthways in the column, which are surrounded by steel brackets perpendicular to the direction of support, have the disadvantage that, due to the maximum allowable stresses in the steel or in the concrete, relatively large cross-sectional dimensions are required, especially since the steel reinforcement component may only be approx. 10 % of the cross-sectional area. This results in a relatively high dead weight of the reinforced concrete column. In addition, the disadvantage of conventional reinforced concrete columns is that stress redistribution of the concrete under compression occurs through shrinkage and / or creep of the concrete in the reinforcing steel, so that in the final state after the relaxation processes have ended, the stresses in the steel are high and in the concrete low.

309849/0727

Steel nozzles as one-piece pressure rods consist of solid wall girders or from full-walled hollow profiles. Solid wall girders have the disadvantage that they have different radii of gyration in the possible kink planes, so that optimal use of these profiles is only possible in one Level is possible. Full-walled hollow profiles do not have this disadvantage. However, their production is complex and expensive. Steel supports as multi-part compression rods, their material-free levels for stabilization with Binding plates (frame supports) or diagonal bars (truss supports) can be stabilized with little material expenditure will. The production of these relatively light supports of higher stability is not only labor-intensive and cost-intensive, but also sets In addition, consistent, flawless work is a precondition for this, which in the final analysis, e.g. due to the thermal influences during welding, is not is always guaranteed. Steel supports of the type mentioned must also be provided with effective corrosion protection and, for example, in building construction be provided with a fire protection coating.

The object of the invention is therefore to develop a heavy-duty component, in particular for use as a building support which eliminates the mentioned disadvantages of known supports. In addition, slim supports with optimal load-bearing capacity should be simple and can be manufactured inexpensively.

To achieve the object of the invention, a component, in particular proposed a steel support whose cross-section has material-free axes and consists of multi-part pressure rods, which is characterized by several at a distance freely from each other longitudinally arranged supporting pressure rods, between which stabilizing concrete for Absorption of the compressive forces occurring inwards at right angles to the main load-bearing direction when the individual compression rods are loaded and a die

3098 ^ 9/0727

Steel strapping encompassing pressure rods from the outside to accommodate the at Load are arranged at right angles to the main load direction to the outside tensile forces. The materials used, concrete and steel are used and used in this component according to the invention in each case specifically according to their material properties in such a way that that the concrete absorbs the compressive stresses that arise when the steel column is loaded and the constricting steel absorbs the tensile stresses that arise records.

The significant advantage over props of the known type is in it see that the steel column according to the invention by the minimal use of concrete, which only has a stabilizing effect and no static load-bearing Has function, is light and easy to manufacture with small cross-sectional dimensions in terms of load-bearing capacity.

The newly developed component is both against corrosion influences as also expediently protected against fire loads by an insulating casing, e.g. made of concrete, which in turn is relatively small in mass and therefore light and inexpensive due to the small cross-sectional area of the steel support according to the invention.

The component according to the invention is preferably provided with a foot and head part when used as a support, making a flawless one Impact when joining several successive columns on the construction site is possible. To prevent the stabilization of the Pressure rods used concrete does not absorb any compressive forces acting in the longitudinal direction, there is a free space between the connection plates of the Head or foot part and the concrete provided. The free space can be filled in with a pliable material. The stability

309849/0727

the steel support according to the invention is not by this measure impaired, since the transfer of forces from the head or foot plate to the load-bearing pressure rods by connecting elements, e.g. Welded sheets, profiles or the like. Takes place, which preferably overlap each other at the transition points with the stabilizing concrete.

Because the stabilizing concrete is only on the level between each two Pressure rods is required, arises in the arrangement of three, four or more load-bearing pressure rods in the interior between the Rods have a cavity that is used to accommodate all utility lines Type and communication systems or the like is suitable. The cavity can can also be secured against fire if necessary, for example preferably by a non-load-bearing but fire-protecting hollow body Made of a non-flammable lightweight construction material, which is particularly suitable for accommodating and protecting temperature-sensitive installation equipment or the like. Is well suited.

The component according to the invention should be based on the accompanying drawings for example are explained in more detail.

Show it:

Fig. 1 Structure of the prop according to the invention with the formation of the head and foot part in perspective, partially sectioned Depiction;

Fig. 2 prop according to Fig. 1 with connection example for carrier, Ceiling tiles, etc.

309849/0727

- ⁵ - ■ 2225B39

In Fig. 1, the structure of the prop 1 according to the invention is shown. The pressure rods 2, e.g. made of steel, are arranged lengthways in the prop 1 at a free distance from one another. The free space between the individual pressure rods 2 is filled with stabilizing concrete 3. The pressure rods 2 are better known with steel brackets 4 that encompass the outside Kind of wrapped around, which among other things also made of reinforcement mesh or spiral-shaped Spiral made of round steel or the like. Can exist. The constriction 4, which is subjected to tensile stress in the event of a buckling, acts as a stabilizing element, whereby it is avoided that the individual compression rods 2 cannot buckle outwards when subjected to compressive stress. Performs the same function the concrete 3 located between the pressure rods 2, which is when buckling the pressure-loaded individual pressure rods 2 is subjected to pressure inwards. The inventive function-related arrangement of the stabilizing concrete 3 and the bracket 4 results in the inner area between the individual pressure rods 2, a cavity 5, which to the outside can be limited by a fire-protecting hollow body 6 against the support structure 2, 3, 4. The use of such a hollow body 6 is also for the production of the component according to the invention advantageous because the hollow body 6 can serve as an inner formwork for the support 1 at the same time. The prop 1 according to the invention is through a casing 17, preferably made of concrete, protected against corrosion and fire.

To avoid a compressive stress of the stabilizing To avoid concrete 3 or the fire and corrosion protection coating 17, is between the top plate 9 and the base plate 15 and the concrete 3 a free space 14 is maintained. This free space 14 can be filled with a flexible material 27 will. This measure avoids disadvantageous relaxation processes.

309849/0727

To connect parts of the component 1 according to the invention, To form a head part 7, the pressure rods 2 for the transfer of forces are welded to a connection piece 8, e.g. a wide flange beam section, which is connected to the head plate 9. This type of connection is particularly advantageous because, by welding the pressure rods 2 in the head part 7 of a prefabricated support 1, plane-parallel connection surfaces of the head plate are obtained without reworking. 9 and the base plate 15 can be produced. The head plate 9 is useful for any connections with threaded bolts provided, but in particular for the connection of a base plate 15 of a further section of the component according to the invention 1. To the Side surfaces of the connection piece 8 are arranged for the attachment of carriers or the like. Any connecting elements, for example from a Latch 12 and threaded bolt 13 can exist. The open side 19 of the wide flange beam 8 is also with a - in the drawing Not shown - provided side plate, which can also be equipped with the connecting elements 12 and 13 described.

For the formation of the foot part 11 of the prop 1 is appropriate Another embodiment proposed, which consists in that 2 sheet metal ribs 18 are arranged between the pressure rods, which with the pressure rods 2 and the base plate 15 are welded and / or otherwise connected. The base plate 15 is with holes for Receipt of the threaded bolts of a head plate 9 to be connected to a further prop 1 is provided. Above these holes 28 is in the casing 17 has a hand hole 16 for screwing the bolts to the foot part 11. The support plates 18 and the stabilizing concrete 3 overlap each other in this area, whereby a perfect stabilization of the prop 1 to according to the invention

309849/0727

is guaranteed in the foot part Π.

The advantageous structure of the component according to the invention offers a favorable one due to its low weight and high load-bearing capacity Prerequisite, not only short storeys high, but also longer ones to use continuous props with constant cross-sectional dimensions in one piece.

In Fig. 2, an embodiment is shown in which the support 1 is provided with one or more connection points for the purpose of fastening beams 21 for receiving ceiling panels 23, intermediate ceilings 24 or the like. The connection point can be similar to Be made head part 7 in Fig. 1, only with the difference that the head plate 9 is omitted and the pressure rods 2 are not interrupted at this point, but rather extend through the entire length of the prop V. The wide flange beam section 8 welded, for example, between the pressure rods 2 is provided with connection plates on the open sides 20 provided in order to offer an all-round connection option.

The prop 1 according to the invention can expediently at the level of the provided intermediate ceilings 24, connection lines for air conditioning or Like., Are provided with openings 25 to the cavity 5 through pass through the stabilizing concrete 3 and the fire protection cladding 17 without impairing the stability of the prop 1. This measure makes it possible, for example, to install installations 26 from the cavity 5 of the prop 1 within the fire-protected rooms in To lead false ceilings or the like.

3Q9849 / Q727

Claims (10)

Claims ί 1st component, in particular steel column, whose cross-section is material-free Has axles and consists of multi-part pressure rods, characterized in that several load-bearing pressure rods (2), which are arranged longitudinally and freely spaced from one another, between which stabilizing concrete (3), - to absorb the compressive forces that arise inwards at right angles to the main load-bearing direction when the individual pressure rods (2) are loaded, - and a steel cord (4) encompassing the pressure rods (2) from the outside, - to accommodate the tensile forces arising outwards at right angles to the main load-bearing direction -, are arranged. 2. Component according to claim 1, characterized in that the steel support (l) with prefabricated lengths a flangeable head part (7) and a foot part (11). 3. Component according to claim 1 and 2, characterized in that between the head part (7) or foot part (ii), and the stabilizing concrete (3) has a gap (14). 4. The component according to claim 1 to 3, characterized in that the intermediate space (14) with a resilient Intermediate layer (27) is filled. 5. The component according to claim 1 to 4, characterized in that the transfer of the load-bearing forces to the Pressure rods (2) at their ends with the head part (7) or foot part (11) 3098A9 / 0727 via connecting elements, e.g. welded-in metal sheets (18) and / or Profiles (8) are connected. 6. Component according to claim 1 to 5, characterized in that the connecting elements (8 and 18) cover each other with the stabilizing concrete (3). 7. Component according to claim 1 to 6, characterized in that a cavity (5) between the profile bars (2) is available. 8. The component according to claim 7, characterized in that the cavity (5) with a non-load-bearing hollow body (6), is preferably made of non-combustible lightweight building material. 9. The component according to claim 7 and 8, characterized in that the cavity (5) with one or more laterally leading out openings (25) is provided. 10. The component according to claim 1 to 9, characterized in that one over the entire length of the steel support or several connection points (20) for fastening girders, false ceilings or the like. Are arranged. 309849/0727