DE2026905A1 - Roof construction made of lined up, double-curved shells - Google Patents

Description

Roof construction made of lined up, double-curved shells The invention refers to a roof structure made up of single, double-curved ones in a row Peel. It can be reinforced concrete shells with single or multiple reinforcement, So there are also bowls made of asbestos, plastic or sheet metal.

In known roof structures of this type in the embodiment with reinforced concrete shells, the individual reinforced concrete shells are so-called hyperbolic curved reinforced concrete shells, i.e.

Equator-parallel sections from a rotational hyperboloid (cf. German patent specification 1 053 762>. As a result of the order forms such a roof construction does not have an undulating line in the middle cross-section, Rather, it consists of interconnected, according to the hyperbolic measure Curvature extending arches, the arrangement is mostly made so that the reinforced concrete shells are concave at the top.

This known embodiment of reinforced concrete shells and roof structures from these have proven themselves and have the construction of modern factories and warehouses decisively influenced. However, the individual reinforced concrete shells are proportionate heavy and as prefabricated elements not transportable in any lung and width. In this respect, the spans that can be bridged are in the known embodiment drunk. The individual reinforced concrete shells remain in the association of the roof structure statically, as it were, singular elements that relate to the resilience of the Do not support the roof structure as a whole in terms of its load-bearing effect, or not significantly. This also applies to designs made from other materials.

In contrast, the invention is based on the object of a roof structure of the type described above lighter, i.e. with relatively light shells, and so perform,. that even very large spans can be bridged without further ado are.

The invention relates to a roof structure made of individual rows, doppelgekrUmmt.n shells, the end face with essentially those support parts are connected to appropriate supports and lengthways to each other. The invention consists in that the roof structure composed of the individual shells is one Undulating central cross-section with constant wavelength and the same amplitude the wave crests and troughs and this amplitude to the support parts of the individual shells decreases to practically zero. - To define the invention The terms wavelength and amplitude are used in physics to describe them Continuous wave trains are used to the usual expressions. In other words, owns the roof structure according to the invention has a regularly undulating central cross-section, whose corrugation decreases continuously towards the supports down to practically zero. The amplitude defines the static height of the roof structure. She becomes the static Adapted to conditions. As with a roof construction from the central cross-section to the support parts towards the moments from the roof load and the applied load decrease, according to the invention the amplitude is also lower towards the supports. This is practical for everyone Easily optimize any cases that occur. One always achieves in static terms particularly favorable conditions if the length of the individual bowls is about three up to ten times, preferably about five times the wavelength. In the roof construction according to the invention can vary the width of the individual shells, For example, transport requirements (maximum width limited) or also to meet manufacturing requirements. Designates the wavelength of the waves.

zuges in the central cross-section of the roof structure, it is more preferred Embodiment of the invention with respect to the width of the shells the arrangement so hit that width of the individual shells # / 4 or an integer Multiples of A / 4, preferably # / 2 or. In general one will with the counting of # / 4 at the top of a wave crest, at the bottom of a Wave trough and also begin at a turning point of the wave train. The waveform is adapted to the static requirements, it should preferably run sinusoidally. But there is also the possibility of creating the wave train from circular arcs, parabolic arcs or the like. Over the length of the shells, i.e. in sections parallel to the central cross-section, the waveform can change, although more preferred Embodiment of the invention in this direction not the wave shape but only the amplitude changes. In all of these cases, and if one is in the described Way the counting starts from # / 4, there is the possibility of the individual bowls to train identically the same. This embodiment of the invention is therefore from production-related and also for transport and assembly-related reasons in the generally preferred. With a width of # / 2 you have to have the identically designed Alternating shells, with a width of # / 4 you have to have the identically formed Shells alternating in pairs with their convex or concave sides facing up arrange, in the latter case also offset in the pairs by 180 ° against each other. With a width of one can easily use the same bowls according to the invention Line up the roof structure, which is particularly easy in terms of assembly technology. If the roof structure according to the invention is identical in the manner described same shells, so can be in the Embodiment with soles that have a width of or \ / 2 always make the arrangement in such a way that that the shells have flat longitudinal edges. Draw in this embodiment the individual shells already have a high level of stability. The through level Longitudinal edges define planes in which the planar support parts are also regularly are arranged, can in this case at the same time planes of symmetry to the wave-shaped Form the central cross-section and this symmetry function in towards the support parts Maintain reference to the wave trains ending with decaying amplitude. These Embodiment is characterized by high stability of the roof structure as a whole the end. However, the stability is sufficient even if the wave troughs are essentially run horizontally so that these wave troughs in the roof structure from the interior appear as horizontal beams. Here you lend the individual Shells preferably a width of h, with the longitudinal edges straight out, when they coincide with the wave troughs, However, are arched when they lie in the highest points of the wave crests. If you work with bowls here, which have a width of J2 / 2, it is advisable to design the individual To hit shells so that the wave troughs are essentially horizontal. Then the shells have a horizontal and an arcuate longitudinal edge. However, within the scope of the invention, there are also those embodiments in which the Shells are arched in the longitudinal direction overall.

The length of the shells of a roof structure according to the invention is directed according to the span. If this is very large, transport-related, assembly and manufacturing reasons, the individual Divide the shells in the area of their transverse center into two shell elements and the shell elements to be connected to one another along this division via composite means. This changes nothing on the principle described. Are in a roof structure according to the invention the individual shells are stable for themselves, which is suitable for the widths # and # / 2 "Beginning of counting # / 4" can always be reached, so edge webs can be found on the dishes and edging in the form of steel profiles are missing. This is especially true when it comes to reinforced concrete shells. This also applies in particular if the edges of the shells are straight or substantially straight. Transport- and assembly stresses are generally without such reinforced concrete shells further added, especially for manufacturing reasons, the thickness of the concrete is greater than required by the statics, so that bending loads are absorbed. It is then sufficient at the edges of the reinforced concrete shells to bond neighboring ones Reinforced concrete shells or connection means for connection to the supports. To do this works one with the usual in reinforced concrete construction or steel construction, when assembling reinforced concrete prefabricated parts proven means. Are the individual shells in themselves not or not sufficient stable, need stabilizing auxiliary devices either during transport and assembly be used or edge bars or edging are attached. Such but can in all Cases be beneficial when the shells too be set up as individual elements to absorb extreme loads should. Therefore, there is a special proposal of the invention that the individual Shells or shell elements from a frame, e.g. made of steel profile bars or the Material of the shell, are limited, this frame composite means for the composite Have adjacent shells or connection means for connection to the support.

For the individual shells the most varied of items can be used within the scope of the invention Materials are used. Nonetheless, that is of particular concern Embodiment in reinforced concrete. The reinforcement of the reinforced concrete shells according to the invention Roof construction is carried out according to the rules of reinforced concrete construction or the shell statics. In general, the reinforcement of the individual reinforced concrete shells or reinforced concrete shell elements is used build up from welded wire mesh. The easiest way to do this is to follow the curvature arrange when they are as it were as bands with in the direction of the band and orthogonally to it reinforcing bars running at an angle to the central axis of the individual reinforced concrete shell would be arranged, namely in bands crossing each other. This embodiment the invention is in the described shape of the reinforced concrete shells according to the invention also of particular importance for static reasons. - Whatever the welded wire mesh are arranged, it is always advantageous to have additional sets of reinforcement from each other Provide parallel, intersecting reinforcing bars made of reinforcing steel the additional reinforcement panels are particularly advantageous from a static point of view, if their reinforcing bars cross each other orthogonally or rhombically. You run to it parallel or also obliquely, in particular more or less diagonal to the axis of the Reinforced concrete shells and thus to their longitudinal edges. Without further ado you can use the additional Form reinforcement sets as tension straps. These can be partly in and partly lying outside the reinforced concrete shells, in particular in the embodiment in of the individual reinforced concrete shells in the direction of the span as a whole arched, d0h. are curved in all cuts parallel to their longitudinal axis, In addition, the usual train can be provided, similar can also be used for others Materials to be provided as reinforced concrete rebars and tie rods The roof structure according to the invention, the individual shells have an indifferent effect whatever material they consist of, always statically together as a composite. The roof structure consists, as it were, of statically connected vault elements, whereby the composite also takes place over the wave troughs. This composite comes with the invention The geometry of the roof structure comes about because of the individual shells are connected to each other and transmit compressive forces in their plane. The association is improved if the connection of the shells to one another is pressure, tensile and shear resistant he follows. The usual means of building construction with prefabricated elements can be used for this purpose can be used. In all cases one can do something additional and achieve in With regard to the composite, an optimization in that the lined up shells or shell elements through additional composite reinforcement in Verbund are brought. Composite reinforcement refers to those that have several, at least two shells run through.

The advantages achieved by the invention can be seen in the fact that the roof structure according to the invention - compared to known execution forms of the genus according to the invention -very much lighter and constructed with lighter shells can be whose width without changing the statics of the roof structure as a whole can always be chosen in such a way that in terms of production technology, transport technology and montagetechni difficult respect no difficulties arise, namely not even with execution in reinforced concrete. It is within the scope of the invention, in the Shells of the roof structure according to the invention parts spare parts, while the reinforcements run through as frameworks, thereby forming skylights.

The individual shells of the roof structure according to the invention are suitable can also be used as filling wall elements or cladding wall elements in and in front of them Facades. - If the shells of the roof structure according to the invention are made of plastic, Asbestos cement, sheet metal or the like, you can also put several bowls on top of one another and bring them together, including with the interposition of reinforcements. Reinforcement mats made of wire mesh are particularly suitable here.

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 a roof structure according to the invention, in detail, FIG. 2 shows the wave train of the roof structure from FIG. 1 in the direction of the vertical section A-A, Fig. 3 shows the wave train of the roof structure according to Fig. 2 in the direction of the vertical sections B-B, Fig. 4 the vertical section C-C through the object according to Fig. 1, Fig. 5 the Vertical section D-D through the object according to FIG. 1, FIG. 6 another embodiment of the object according to FIG. 1, FIG. 7 shows the vertical section C-C through the object according to Fig. 6, Fig. 8 the vertical section D-D through the object according to Fig. 6, Fig. 9 shows the vertical section E-E through the object according to FIG. 10 in perspective 1, however, a shell of the width / 4 from the object according to FIG. 1, 11 shows the object according to FIG. 10 in a different orientation, FIG. 12 in the perspective of FIG. 1 However, a tray of width h / 2 increases from the object according to FIG. 1, FIG. 13, another embodiment of the object 12 and 14 in the perspective of FIG. 1, however, a shell is enlarged the width # from the object of FIG. 1.

The roof structure shown in the figures consists of how to particularly taken from Figs. 1 and 6, from strung, double-curved shells 1, In the exemplary embodiment (but not by way of limitation) it is about reinforced concrete shells. These have essentially flat support parts 2 on the front side and are connected to corresponding ones Support 3 of the structure connected, for example placed on a base. The reinforced concrete shells 1 are connected to one another on the longitudinal side. From the perspective Representations of FIGS. 1 and 6 as well as from the sectional figures 2 and 3 can be seen, that the roof structure has a wave-shaped central cross-section 4 with constant Has wavelength A and the same amplitude a of the wave crests and troughs, and that this amplitude a to the support parts 2 of the individual reinforced concrete shells 1 decreases to practically zero. The support parts 2 of the reinforced concrete shells 1 can for their part still have reinforcements that are in the drawings However, they have not been shown. The length of each reinforced concrete shell 1 is about three to ten times, in the exemplary embodiment about five times that Wavelength which has been drawn in with 7 <in the figures. By linework has been indicated in Figs. 1 and 6j that the individual reinforced concrete shells 1 a width of A / 4 or an integer multiple of ab / 4, namely # / 2 or # can make out. The embodiment shows the design in which the individual reinforced concrete shells 1 are always formed identically the same. they are however, alternately or in pairs, alternating with their convex or concave Arranged side up. In the ÅusfUhrungsform with reinforced concrete shells 1, their Width is A / 4, the reinforced concrete shells are also around 1800 against each other twisted.

FIGS. 10 to 14 explain through perspective representation Geometry of the individual reinforced concrete shells 1 that make up the roof structure according to the invention is composed. It can be seen that the reinforced concrete shells 1 easily the roof structure can be cut out so that it is flat Have longitudinal edges 5 (cf.

e.g. Figs. 13, 14). But you can also, as shown in FIG. 6, meet the geometry so that the wave troughs 6 are essentially horizontal, the reinforced concrete shells 1 having straight 5 or curved longitudinal edges 7. This embodiment also includes reinforced concrete shells 1, which are straight 5 and have an arcuate longitudinal edge 7.

It is only indicated in Fig. 1 that the individual reinforced concrete shells 1 can be divided into reinforced concrete shell elements la, 1b in the area of their transverse center, which are connected to one another along this division via connecting means 8, Ro dß the reinforced concrete shell elements la, 1b to form a complete reinforced concrete shell 1 and the complete reinforced concrete shells 1 to roof structure according to the invention add to. Are the reinforced concrete shells 1 of the roof construction according to the invention so carried out that they are stable in themselves (see. Fig. 13, Fig. 14), so can on edge webs or frame-like borders are dispensed with. However, edge walkways are and Frame-like enclosures are also conceivable here, in particular around composite means for connection to connect neighboring reinforced concrete shells. However, if the individual reinforced concrete shells 1 are inherently unstable, a frame 9 made of steel profile bars is used for stabilization provide or form edge bars out of concrete. This is indicated in FIGS. 10 and 12 been. It is not shown that this frame 9 is regularly provided with composite means for the connection of neighboring reinforced concrete shells or

Has connection means for connection to the support.

In the exemplary embodiment, the reinforcement is only shown in FIGS. 1 and 6 has been suggested. It consists of welded wire mesh 10 that cross as ribbons. Additional sets of reinforcement made up of mutually parallel and intersecting reinforcements are indicated Reinforcing bars 11. These either cross each other orthogonally or run more or less diagonal to the longitudinal axis of the reinforced concrete shells 1 and cross isch corresponding. You can see immediately that these additional Reinforcement sets 11 can also represent drawstrings. Additional composite reinforcements 12, which are in the Run through several reinforced concrete brackets 1 in the manner of tie rods the static composite of strung steel concrete shells 1 of the roof structure according to the invention dare In all FIGS. 1 to 14, the reinforced concrete shells 1 are essentially flat Support parts 2 and also at least one essentially straight longitudinal edge 5. The invention is not restricted to this embodiment. The inventive Roof construction can be provided with an additional arch support effect, by the reinforced concrete shells 1 and thus the roof structure as a whole in addition be bent so that these straight longitudinal edges 5 assume an arc shape. then additional tie rods 13 will also be provided on a regular basis. This execution form has been indicated in phantom in FIG.

Expectations

Claims (15)

A n p r ü c h e 1,) Roof construction made of strung, double-curved Shells, the end face with essentially flat support parts to corresponding Supports and are connected to each other along the length, characterized in that that they have an undulating central cross-section (4) with constant wavelength () and the same amplitude (a) of the wave crests and troughs and this amplitude (A) decreases towards the support parts (2) of the individual shells (1) down to zero. 2. Roof structure according to claim 1, characterized in that the Length of the individual shells (1) about three to ten times, preferably about five times the wavelength (A). 3. Roof structure according to claims 1 and 2, characterized in that that the width of the individual shells (1) # / 4, preferably t / 2 or A, makes up. 4. Roof structure according to claims 1 to 3, characterized in that that the individual shells (1) are of identical design. 5. Roof construction according to claims 1 to 4, characterized in that that the identically identically formed shells (1) alternate (with one width of # / 2) or alternating in pairs (at a width of X / 4) with their convex respectively. concave side up. 6. Roof structure according to claims 1 to 5 in the embodiment with trays having a width of # or # / 2, characterized in that the shells (1) have flat longitudinal edges (5). 7. Roof structure according to claims 1 to 5 in the embodiment with shells having a width of A, characterized in that the wave troughs (6) run horizontally every week and the bowls (1) straight (5) or curved Have longitudinal edges (7). 8. Roof structure according to claims 1 to 5 in the embodiment with shells having a width of A / 2, characterized in that the Wave troughs (6) are essentially horizontal and the shells (1) are horizontal (5) and have a curved longitudinal edge (7). 9. Roof construction according to claims 1 to 8, characterized in that that the individual shells (1) in the area of their transverse center in shell elements (la, lb) divided and the shell elements (la, lb) along this division over composite means (8) are connected to each other. 10. Roof construction according to claims 1 to 9, characterized in that that the individual shells (1) or shell elements (la, lb) from a frame (9) are limited and this frame (9) composite means for the connection of adjacent shells (1) or connection means for connection to the support. 11. Roof structure according to claims 1 to 10 in the execution form made of reinforced concrete, characterized in that the reinforcement consists of welded wire mesh (10) and, if necessary, additional sets of reinforcement made of parallel, intersecting reinforcing bars (11). 12. Roof structure according to claim 11, characterized in that Strips made of welded wire mesh (lo) and / or the additional reinforcement panels (11) cross each other orthogonally or rhombically. 13. Roof structure according to claim 11, characterized in that the additional reinforcement panels (11) are designed as tension straps. 14. Roof structure according to claim 11, characterized in that also customary tie rods (13) are provided. 15. Roof structure according to claim 11, characterized in that the lined up shells (1) or shell elements (la, lb) through composite reinforcement (12), which run through several shells (1), are brought into association. L e r s e i t e