DE877057C - Building panels, in particular made of rolled metal - Google Patents

Description

Building board, especially made of rolled metal. The Manufacture of steel structures the rigidity of panels by welding or rivets of angle or T-steel or other profile shapes increased. Meanwhile Such plates have disadvantages insofar as they result from the assembly The strengths resulting from the individual parts are in no way equal to the sum of the individual strengths of the assembled elements in their most favorable position, even not even in the same way of the theoretically resulting total strengths. Rather, the circumstances were so that a flange rests on the base plate to carry out the riveting had to. However, this results in an accumulation of material at a point where it cannot contribute to increasing the strength. In addition, the Nieturig the load-bearing capacity of the plate is reduced as a result of the reduction in cross-section. In the end So the manufacture of this panel, the cutting of the profiles to size and their Fastening to the plates is expensive.

The essence of the invention is now the recognition of the task that a balance between the amount of material and work required on the one hand and the strength achieved on the other hand must be brought about to a ribbed plate according to the invention a larger and more economical application. This balance succeeds it - to bring about two different solutions. The first solution is that the plate, if it is made of rolled metal, so rolled becomes that the ribs are joined with her to form a unit. Such plates are already known from casting technology. However, here they serve less for exaltation the strength than in the first place of increasing the surface area, thus better Heat dissipation is achieved, e.g. B. in the housings of transformers and the like increase the strength is associated with this, but not intended. To that extent when an increase in strength is achieved, one made of cast material also belongs manufactured. Plate under the inventive idea. However, since the invention It is about plates that can be produced cheaply as a component and in large numbers are to be made and, if necessary, should cover large total areas it may differ here from the manufacturing process that has been customary up to now for such Go off cast plates and the form z. By simply rolling a roller over it the molding sand.

According to the invention, however, such a building board is primarily intended Be made of rolled metal and spaced evenly Have ribs that are made in one piece with the base plate. It will this primarily involves steel construction panels. However, it is limited @The invention by no means on this material. Rather, as shown below, the use of other materials should be possible without further ado.

In a further embodiment of the invention, for example, the plates not only be produced by rolling them directly from a block, but it is possible to produce them from sheet metal by forming folds. Here the formation of creases from sheets of the same wall thickness after the rolling process for the smooth sheets themselves, d. H. so preferably still in warm condition of the sheets, in which their deformability is still high enough to to give a uniform product and in which a repeated warming up before treatment is not necessary. This way it will no longer be a building board result from a pronounced base plate with protruding from this There is ribs, but rather it becomes a wave-shaped structure in cross-section arise from the natural and continuous juxtaposition of a larger one Number of U-profiles comes about, these profiles on the free edges of the Outer thighs are connected to each other. Such plates are against bending stresses have the same resistance in the longitudinal section direction of the ribs as the rib plates described above with continuous base plate. But they show the advantage of being completely even well-worked material and correspondingly high strength, since nowhere .The plate has accumulations of material during rolling. But so far the plates are also subjected to bending in transverse directions to the ribs at the same time they will bounce. This stress is, however, as a rule, namely then not present when the panels are laid so that they are in. This direction be intercepted by the supporting structure. Should, however: the use of the Plates are made so that they are held, for example, only at the four corner points should, and should at the same time be the elasticity present in the cross-sectional direction not be desired, it can be easily and with simple means such. B. fix by laying tie rods on the underside of the plate, the .dhe Take up tensile forces in this direction. While, as described above, in the In most cases such a load is absorbed by the supporting structure, in other cases a certain elasticity will be necessary so that then the tie rods must not be used.

An increase in the rigidity of the ribbed plate according to the invention without significant increase in weight, measured by this increase in strength then possible if connecting webs are provided between the ribs, the cross-section or ribs, as this happens by itself for reasons related to rolling and penalties results, wedge-shaped, d. H. tapered towards the free edge and the connecting webs, to shape them according to d and to dimension them generously in terms of their length wedged between the ribs. This creates a cross-rib bandage, whose ribs lying in the rolling direction are continuous, while the advantageous Equally spaced ribs of the same height and cross-sectional shape consist of individual pieces in the direction perpendicular to it. This embodiment relates to all types of plates falling under the invention and can be found in apply in all cases in which a load is applied both longitudinally. as well as across Direction of the main ribs.

The connecting webs can be fastened in various ways. First of all, it is possible to hold them by clamping them between the ribs, i. E. H. to be pre-shrunk by exposure to cold in the plates bz1v. the plates To heat before the onset or to allow space for both processes, so diaß after insertion, an adjustment of the initially shorter connecting webs to the Distances between the longitudinal ribs occurs until the temperature equilibrium between the two parts has taken place and the parts adhere firmly and reliably to one another. But it is also possible to connect the webs to the plate by welding. The installation of the ribs in the thermal process and the tension associated with it is then of Particular advantage if the plate is laid in such a way that the bending stress can be avoided not from the smooth surface of the plate, but from the rib side, in fact, the tension can even be driven so far that the plate is in relocated condition can be slightly bent and only under normal load again assumes a completely level position. It goes without saying that in this way already Tensile stresses come into the Gnundplatte itself, which in the case of the described Load type can be further increased. This fact is important for the dimensioning to take into account the plate, which is therefore to be dimensioned accordingly. The proceedings for inserting the connecting bridges can be modified in many ways. So you can stretch the plate in its plane and insert the bars or also bend the plate so that the main ribs spread apart radially, and then insert the webs, among other things. m.

The second basic approach to making the fin plate is following on from the previous with regard to the stresses in the uri-loaded plate It said that the reverse procedure is used, first of all on ribbed plates without the simultaneous use of connecting webs. So you can do the ribs Take it in a jig and stretch it to the limit of elasticity. One can place them in this state on the plate and connect with her, that is, z. B. by welding or, if the ribs are not made of flat steel, but of angle steel are made by riveting. In this way a plate will be obtained, in which compressive forces already take effect in the plate before the load, which are generated by the tensile forces of the ribs. The thought of working with prestressed Elements in steel construction is new and roughly corresponds to the idea of installing tension wires in concrete parts. It should only be remembered here that the transfer of thought is by no means is possible without difficulty, since the prestressed elements in the simple Execution, as they exist with the ribbed plate, not built into the plate itself can turn, but must be attached to it. There is therefore one eccentric load. of the base plate, which theoretically leads to a slight deflection the plate could lead in the sense of the load to be applied later. Here is it is now a matter of the respective dimensioning, the plate and the ribs, the Selection of the corresponding strength and elasticity properties as well as the applied preloads and dimensions, the extent to which a deformation of the plate can be avoided. It can also be done with the help of special means z. B. an eccentric train to be attached, the center of the tensile force of the neutral The zone closer to the base plate. In this context, the use of T- and L-pieces provided with a lower flange are now not disadvantageous, but rather bring them on the contrary advantages, because in this application of the known profiles not one unwanted accumulation of material in one place arises, which for the strength properties is irrelevant, but because, on the contrary, it is precisely what is important in this statement is to have the largest possible rib cross-section near the plate and if possible to put only these parts of the rib under tension by eccentric pre-tensioning, so the center of tension is moved as close as possible to the base plate.

Using this basic idea, it is also easily possible to use the already mentioned connecting webs under pretension. This can z. B. be done by having continuous cross webs with comb-like, the profiles the cutouts corresponding to the longitudinal ribs press or press on the latter and thereby also places the base plate under compressive stress in this direction. Under certain circumstances, the plate will sag, in fact in the Meaning of the deformation resulting from the subsequent permanent load. But this is then irrelevant if the total deflection still remains within the permissible limits. It should be noted here that the deflection alone does not justify -the limit of the load to be measured closely. Rather, it should be borne in mind here that the Deflection under the previous conditions as a measure for the resulting tensile forces was to be seen on the convex side, while in the present case the deflection in the unloaded state is to be regarded as a measure of the existing compressive forces, and that if there is further deflection, the zero point is exceeded before the The plate according to the invention is under tension on its convex side.

The rib plate is particularly suitable for use in construction of bridge decks. It is precisely at this point that there is a construction element to obtain that withstands the highest demands with the lowest weight. By using .the plate the task is fulfilled in this case, a ceiling to create, not just for filling in, between the actual supporting structures existing fields, but at the same time to effectively take over the burdens itself is used. The plate should be involved in the main load-bearing system a building is striven for, d. H. .the record should not only be direct to you Take over the expected load, but rather also over several carriers and the like. also have a stiffening effect on the entire construction. The situation can vary Adjust the ribs to the course of the tensions in the main support system. Simultaneously it allows the formation of the plate, the spaces between the ribs with a bituminous layer of suitable composition or with concrete od. like. to be filled out. About .this layer, which the upper edges of the ribs are not even needs to be covered, then, if desired, the usual density can also be used and seamless chilled cast asphalt layer can be arranged.

But the rib plate according to the invention is also used in structural steelwork Advantageous to use when building ceilings or roof coverings. It is also in the Shipbuilding possible, the high frames and floor walls according to known designs at least to a large extent to be omitted if one has the high strength equipped rib plates applies. In this way you win with the same External cross-section to a considerable extent in terms of the usable cross-section and thus of the cargo space. To cover the frames and to create a uniform smooth inner surface Serving ground or side pathing can be placed directly on the ribs will.

Furthermore, the ribbed plate can also be used in container and silo construction of the invention with advantage and allows substantial savings at the rest of the supporting structure, as it is used as a supporting element itself. That the same applies to the manufacture of equipment such as B. Filters and the like In many cases it will be preferred to use the profile with a smooth undersurface and will, insofar as it involves the construction of chemical apparatus and the like, or about containers .that are exposed to chemical influences, also .the selection of the material and the manufacturing process, the chemical stresses and .the spatial shapes adjust. For example, while maintaining the rolling process, one becomes in certain cases prefer the use of bronze as a material and in other cases with curved ones Move away from the rolling process and use the pressing or casting process or already rolled plates in pressing devices the desired, z. B. a cylindrical Give form.

Another area of application is the use of the Ribbed plate in reinforced concrete is called a formwork plate. Here it will often be sufficient .that one uses very light profiles or very large field divisions with normal profiles bridged.

In the drawing are some embodiments for the plate and reproduced for your application.

Fig. I shows a ribbed plate with a smooth lower surface in cross section; in Fig. 2 the cross-section is drawn out in enlarged form; Fig. 3 there a ribbed plate re-rolled from sheet metal, also in cross-section again, while in Fig.4 this cross-section is again drawn in on an enlarged scale and at the same time the insertion of transverse ribs is shown; Fig. 5 gives a perspective Top view of a plate according to Fig.4; according to Fig. 6 is a plate according to the invention used to form the roadway; Fig. 7 shows the view from below under a ceiling; in Fig. 8 or a cross-section through a ship's hull with a longitudinal bulkhead, in Fig. 9 a similar hull with a transverse frame is shown.

As shown in Fig. I and. 2, the rib plate consists of a Base plate io and a number of evenly spaced juxtaposed Ribs ri; which, as shown in particular in Fig. 2, are rolled from one piece Thickness 12 of the base plate 1o is about twice as large as that in the present case medium thickness 13 of the rib,! the one at its root with roundings 14 on the base plate ro adjoins and their Seitenfläzhen 15 at an incline of in this case 8% are standing.

The starting piece for the ribbed plate according to Fig. 3 is a continuous one Sheet of the same wall thickness 16, which is made by rolling in the warm state in the drawing . Shown shape is brought. This results in contrast to the explanations ti and 2. a web thickness of twice the amount of the base thickness and an interrupted one Lower surface, so that this plate is particularly suitable when not a smooth one Bottom is required. The shape of the ribs 17 is again wedge-shaped, such as can also be seen particularly clearly in Figure 4.

In this Fig. 4 transverse webs 18 are inserted between the ribs 17, which are adapted to the cross-sectional shape of the ribs and one of the ribs 17 opposite have a lower height i9. The webs therefore only extend as far as the point 2o of the ribs 47, on which the rounding caused by the rolling process starts. Of course these webs can be used in the same way in panels as shown in Fig. i and 2 as in the plates according to Fig. 3.

From Fig. 5 it can be seen how on the one hand the upper edges 2.-1 of the The webs @ i8 are much closer to the upper edges 22 of the longitudinal ribs i i and on the other hand, this web arrangement results in cup-like cavities 23.

In Fig. 6 are on the carriageway girders 24 of a road bridge, of which one is drawn out, the ribbed plates io, ri laid according to Fig. 5. the Cups 23 according to Fig. 5 are poured here with soft asphalt, over which one Hard cast asphalt layer 25 is cast as a road surface.

The building ceiling according to A: bb. Figure 7 shows a joist 26 and a rib plate io, i i according to fig. i and 2, whereby the webs that are removed at. on which the plate rests on the carrier 26, towards the bottom .der ceiling lie. In particular for industrial buildings, stages and the like. is suitable without further Aids such a plate even with a wide division of the joists and stronger Load on the floor area.

The partial cross-section through a ship's hull according to Figure 8 shows the Use of the same plate, with the ribs ri being laid as longitudinal ribs and the rounding 27 at the transition from the side walls 28 of the fuselage to its bottom a9 is bent from finished starting plates.

The trunk according to Aibb. 9 is formed in such a way that the ribs egg are laid as transverse ribs. The rounding 27 results here from a corresponding pressing process of the sheets, in which the ribs @iti according to the rounding be compressed.

The figurative representation of a plate with ribs that are pretensioned are put on, because they are of the known arrangement, figuratively speaking, equals. The devices used to generate the bias can depending on the size of the plates, the way in which different webs are grouped into stress groups and according to the type of action of the tensile stress as a centric or eccentric force to be different. It is also possible to use a compressive stress instead of a tensile stress to bring them into the webs or, even better, the other way around instead of the webs To pretension the plate and connect the webs to it in an untensioned state. Be it reiterated that this connection applies to all possible type, i.e. by welding, riveting, clamping and the like.

It should also be noted that it is easily possible, the Plate according to the invention not only on one, but on both sides with webs to provide, in turn, all of the options described linked to one another can be. So it is easily possible to use a plate intended for roadways to be prestressed and to: connect the underside with tension-free webs, while the top can be provided with prestressed webs in this state. Of It should also be noted that it is easily possible, an eventual one Deflection of the plate due to previous deformation in the opposite direction to meet. Also the use of different materials within a plate, so z. B. of cast iron and rolled steel. The like. Is easily possible and offers often special advantages.

Claims (1)

PATENT CLAIMS: r. Building board, in particular made of rolled metal, preferably made of steel, characterized by one-sided or two-sided in the same Spaced ribs (1r, i7) which are made from one piece with the base plate (zo) exist or are attached to the base plate with or without pre-tensioning. z. Building board : according to claim t,. characterized in that .the ribs (i7) by folding made from the sheet metal of the building board, e.g. B. rolled, and optionally the building board Provide tie rods with tie rods to avoid bending across the direction of the folds is. 3. Building board according to claim r or a, characterized by or under pressure with bias between the ribs (1z, 17) inserted, preferably at the same intervals like .these arranged connecting webs (i8) of in particular the same cross-section like the ribs. q .. Building board according to claim, r, with applied under prestress Ribs: characterized by the fact that the ribs are not in their neutral zone, but are biased eccentrically to it. 5. Building board according to claim r, characterized characterized in that the ribs arranged on one side of the building panel in the Normal state connected to the prestressed plate during this connection united with pretensioned ribs arranged on the other side is. 6 bridge carriageway, using a building panel according to claim 3, characterized characterized in that the upwardly open cavities of the used as a supporting structure Cross-rib association with asphalt, bitumen, concrete or the like are filled and, if necessary : this filling is used directly as a roadway. Referred publications: U.S. Patent No. 777,656.