DE2727495C3 - Self-supporting roof - Google Patents

Description

The invention relates to a self-supporting roof of the type specified in the preamble of claim 1. In DE-OS 16 09 480 a roof structure of this type with pyramidal cells is disclosed which are essentially attached to an upper belt bandage hanging and which are otherwise with their Support the base flanges on each other. These pyramidal cells have a closed and unchangeable plastic or sheet metal skin. For sufficient stability, the wall of the plastic or sheet metal skin can be chosen to be quite strong, which makes the weight relatively large. Actual Struts are missing in this version, they are replaced by the solid and closed sheet metal skin. As a result, no half-timbered cell is actually formed. The base flanges are butt against each other and there is a risk that, on the one hand, a moisture-proof dressing will not be possible in the long term and

that on the other hand no suitable drainage for the rainwater collecting at the parting line Is found.

The invention is based on the object of a roof

to create the type mentioned, which is statically flawless with a light and economically manufacturable construction Roofing of large areas is suitable and can be adapted to existing requirements at any time Heat, sound and moisture insulation, daylight lighting and drainage is adjustable

This object is achieved by the features in the characterizing part of claim 1. One such The roof can be converted into any large area thanks to the individual element structure with independent cells assemble. This enables serial, industrial prefabrication of the individual parts without the to influence the individual design of the entire umbrella organization. The connection of the space frame cells on the Umergurtem in the area of the frame corner points, of which the struts to the pyramid tip walking up has a number of static advantages. This not only achieves a homogeneous, Spatial force field without pronounced load peaks, but rather a very resistant one Association that is insensitive to external influences and that is economically justifiable Material costs, if necessary. Made from materials of particular strength. These items will be standardized and standardized and still an individual umbrella organization is possible. Partial destruction on the space frame cell do not lead to the collapse of the entire roof, because the force distribution is favorably distributed by the individual struts and nodes. The special cohesion of the However, nodes also allow easy dismantling of the roof, which can be done elsewhere without Loss can be rebuilt. Furthermore, subsequent expansions or reductions of the Total roof area possible without destroying what is already there or generating unnecessary additional costs. the Groove-like recordings on the struts running to the top of the pyramid offer the possibility of individual Covering of the roof surface, which can also be done later by simply replacing the individual surface elements is possible. As a result, cost-saving repairs to the surface elements can be carried out very easily carry out. The roofing is already included in the construction and could already be used in the Manufacture carefully built in and based on the ambient conditions of the building, the lighting conditions and the requirements for heat and sound insulation be adjusted.

Such constructions can be done quickly and with simple gauges and little material expenditure be manufactured cheaply. At the same time, the transport and the assembly of the individual space framework cells simple. The roofing can be produced by inserting or using surface elements expediently, quickly and regardless of the weather. By merging the space frame cells creates a closed water supply system that not only quickly drains the water on the roof, but that also offers special tightness at the joints between the neighboring lower chords. This The main advantage will not be because the water channels in each space frame cell are closed Forms sheet metal collar, which is placed on the outside of the space frame cell and attached to the struts.

A further development idea of the invention is that the frames are arranged in a star-shaped manner Connecting pieces to node points are screwed or riveted, whereby the node points can be easily detached are. This makes it possible to quickly dismantle an already used roof cell in another place put together in a different way, in turn, to be used as a roof cell. This is for example at construction sites or accident canopies that have a roof for the duration of the construction work or the Repairs are needed.

The strength in the area of the nodes is improved when the features according to claim 3 are used In addition to increasing the load-bearing capacity and strength, this measure offers a more pleasing appearance.

Statically very stable roofs are created when the features according to claim 4 are taken into account will. All the individual elements used for carrying are thus determined to be statically correct Space frame cells joined together The load-bearing capacity is very high despite the graceful construction, because in particular the rods or profiles have only small cross-sections and are relatively light can e.g. B. be designed as sheet metal edge profiles. Corresponding gauges and Automatic welding machines are used, which promotes the homogeneity of the connection and the production costs keeps low.

In a preferred embodiment, the features according to claim 5 are applied Versions have not only proven themselves for static reasons. For example, it has the square Pyramid has the advantage that its north-facing surface is translucent. while the other areas are filled in darkened and prevent glare into the room

Furthermore, the manufacturing costs are low if the lower chord frame is made of profiles with C, X, T or L-shaped cross-section and the struts of profiles with L-, rhombus-shaped or square hollow cross-section exist, on the outside of a W-shaped retaining profile is placed. These profiles can be drawn and are for the most part commercially available and inexpensive. They can also look edged, relatively thin sheet metal, so that the roof is light, graceful and yet very stable will. The strut profiling also forms part of the fastening elements for the roofing, z. B. the frame for the roofing surface elements.

Again with a view to mass production of the space frame cells with individual simple ones Basic elements come in a further embodiment of the subject matter of the invention, the features according to claim 8 for use. When assembling space frame cells constructed in this way in the In the area of the junctions, an essentially closed water supply system is formed in the area of the entire roof element. This water supply system is even accessible due to its attachment, because the water guide elements can be set between the struts at several points.

In continuation of this inventive idea it is also proposed that the upper edge of the inclined leg is bent down to form a clip edge and that between the Clip edges of the water guide elements and on the frame corresponding support edges sound, Heat insulating or cover elements can be determined. These flat elements are thus at the Inside of the pyramid surfaces secured in position without special fastening elements. It is conceivable that

they are already used in the manufacture of the space frame cells and for the basic equipment of the space frame cells belong.

Since rain or meltwater is too heavy, especially with larger roof elements would mean for the roof and also not due to rain gutters arranged on the roof edge would be discharged quickly enough, it is provided according to a further feature of the invention that the into the Openings inserted cover are each provided with a connection for water drainage. The ones in these Rain gutters connected to points or water collecting gutters can do this even in heavy rain Reliable drainage of wastewater.

To be used in the manufacture of the roof or in its application to the supporting structure from the prevailing To be independent of the weather and to completely finish the roof in the shortest possible time, the training is to be designed according to claim 14. No additional fasteners are required and the question of tightness is sufficiently resolved.

According to a further embodiment of the roof, the features of claim 15 are provided. To this Weise is not only solved the problem of roofing in different variations, but also the pyramid surfaces not used for light transmission or for ventilation can be used to generate energy can be used. The energy gained with such a roof is at least used for room heating With contributions.

As an alternative to equipping the space frame cells in this way, according to a further exemplary embodiment the roof can be designed according to claim 16. These are interconnected space framework cells For example, it can be used for petrol stations or traffic area canopies, which have it on arrives that rain or snow is repelled. This version is also suitable for special storage rooms certainly an advantage.

The invention is explained in more detail below with reference to the drawing. It shows

1 is a perspective diagram of a space frame cell under construction,

F i g. 2a and 2b different profile shapes for the side struts of the truss cells that make the connection the flat coverings of the pyramid surfaces make clear,

F i g. 3 a roof section made of square space framework cells,

F i g. 4 shows a cross section through an embodiment of a fully assembled space framework cell,

F i g. 5 shows a detail from FIG. 4 shown in perspective.

F i g. 6 a perspective partial view of a further embodiment of a space framework cell,

7 shows an individual part necessary for the production of a closed roof,

F i g. 8 is a plan view of a node, specifically of the water management system in this Node and

9 shows a scheme of a stepped stepped Roof section.

F i g. 1 illustrates the structure of a space frame cell 1, which has a pyramidal shape rectangular, preferably square plan. It has a base frame 2 with lower straps 3 on U-profiles that are joined together in frame corner points 5. There are holes 4 for Connection with adjacent space frame cells 1 is provided. Extend from the frame corner points 5 inclined struts 6 to the pyramid tip 7, where they are welded together and connected by a connecting element 8 are firmly connected to each other. For static reasons, the struts 6 are opposite the base frame 2 preferably inclined at an angle 11 of approximately 55 °. The connecting element 8 has pre-drilled holes 9. It can also be a detachable

ίο have attached lifting eye 10, which is a simple Raising the space frame cell 1 is permitted. The side surfaces 12 of the pyramid are also used Parts or covers filled in, which will be discussed later and which are fixed to the struts 6 are. To improve the connection of the struts 6 in the area of the pyramid tip 7 can be inside the Pyramid a hat 13 can be used. Of course, a hat 13 with a correspondingly larger dimension can be used also be placed over the four strut ends from the outside and connected to them. The connection element 8 has a cruciform shape. Only indicated upper straps 55 can be screwed onto its individual arms or riveted, so that when joining several space work cells 1 at the frame corner point 5 and a self-supporting spatial roof can be produced via the upper chords 55.

The F i g. 2a and 2b show two profile cross-sections for the struts 6; these can, according to FIG. 2a, consist of two There are parallel angles 14 and 15, which are connected to one another via a web 16 and on In this way, two U-shaped or groove-like receptacles 17 are formed in the longitudinal direction of the profile. If you imagine the Space frame cell 1 according to FIG. 1 with struts 6 according to FIG. 2a, it can be clearly seen that the Side surfaces 12 are easy to attach in the groove-like receptacles 17. In the left half of F i g. 2a, for example, a double-shell viewing element 18 is used, the light permeable panes of which in a preferably elastic sealing frame 19 are held, on the one hand via a in the receptacle 17 pressed-in sealing and retaining strip 20 is kept sealed. The right side of FIG. 2a shows as a side surface 12 a thermally insulated roof element 21, which has an outside sheet metal skin 22 and an inside Has perforated plate 23 for sound insulation. The thermally insulated roof element 21 is also by means of a Retaining and sealing strip 24 clamped in the groove-like receptacle 17.

Another embodiment of a strut 6 has a cross-sectionally rhombus-shaped tubular profile 25 on which a W-shaped retaining profile 26 is attached so that '! VicdcrUiTi AüfnähiTicnuicn for flat EiiideCkuiigeii develop. In the left half of FIG. 2b, for example, a single-shell covering 27 is provided by means of a sealing strip 28 used, which has an inside thermal insulation layer 29, for. B. spray asbestos or Polyurethane, which is also applied to the inside of the tubular profile 25. In the right half of 2b is a simple, single-shell covering 30 without a thermal insulation layer with the aid of a sealing strip 31 clamped

Fi g. 3 indicates a self-supporting roof D , which consists of several joined together space framework cells 1, for example according to FIG. 1, and which could also be expanded. The space frame cells 1 are screwed or riveted to one another at Ut-ii frame corner points 5 with the formation of nodes so that a lower chord plane arises from which the

Struts 6 lead to the pyramid tips 7, where the upper chords 55 are connected and, overall, form a flat upper chord association. This roof D can be completely assembled at the production area of the space frame cells 1 or also at the installation site, for which no special tools are required and can then be placed on the provided support structure with the help of the transport eyelet 10. All elements necessary for the function of a roof could thus already be prefabricated and permanently installed.

4 shows a cross section through a space framework cell 1. The individual space framework cells 1 are attached to their frame 2 via a connecting piece 34. which is enlarged in FIG. 5 is shown, screwed or riveted together. The connector 34 is depending on the selected plan shape of the space frame cells of star-shaped shape and contributes to one homogeneous knot formation in the connection area. In addition to continuous rivets or screws 56 concealed shear bolts can also be arranged in the knot area to support the enlarge the shear surfaces used in the knot area.

Water guide elements 35 are attached above the base frame 2 of each space frame cell 1, which surround the space frame cell 1 like a collar and are attached to the struts 6. These water guide elements 35 have an approximately perpendicular upstanding leg 36, which is aligned in its position approximately parallel to the base frame 2. In the area the pyramid surface, each water guide element 35 has an inclined leg 37. its incline the course of the struts 6 is adapted. The water guiding element 35 is in the area of this leg 37 connected to the struts 6. The leg 37 ends in a clamp edge 38 and bent downwards forms in this area one of the interior of the space frame cell 1 obliquely downwards and outwards leading condensation gutter 39. The lower chord 3 is either upward or downward beveled support edge 40 equipped, which corresponds to the clamp edge 38 in such a way that between Both edges 38, 40, for example, a mat-like insulating element 41 can be inserted. Likewise An additional insulating layer 42 can be inserted in the roof below the water guide elements 35 that lies on the connected base frame 2. On the outward-facing side of the leg 37 a stop bar 43 is provided so that in the groove-like receptacles 17 of the struts 6 from below thermally insulating cover part 44 can be inserted and then placed against the stop bar 43. This stop bar 43 can also be used subsequently to facilitate the insertion of the cover part 44 be welded on. Its task is to prevent the cover part 44 from slipping down. the right half of the space frame cell 1 according to FIG. 4 is in the area of the pyramid surface with a double shell Viewing element 45 closed so that light can enter the covered space from this side is

As indicated by dashed lines, the vertical leg 36 of the adjacent space framework cell comes 1 with the leg 36 shown continuously. For sealing the joint that is being formed a U-shaped cover strip 46 is drawn over both legs 36.

6 shows another embodiment of a three-dimensional framework cell 1, in which the water guiding element 35 is combined to form a collar-shaped structure and is slipped from above over the pyramid formed from the base frame 2 and struts 6 until it comes to rest on the struts 6. From this illustration it can be clearly seen that the legs 36 end with straight edges 48 and that an opening is thus left open in the region of each corner. The this

The edges delimiting the opening are supplemented by molded flanges 47, the purpose of which is explained with reference to FIG. These flanges 47 can be produced by simply flanging the sheet metal edges. It can also be seen here how the condensation collecting channel 39 extends into the interior of the pyramid. This collar made of water guide elements 35 is expediently welded to the Sireben 6 so that it is very stable and can even be walked on. Looking at FIG. 3 and the space frame cell 1 according to FIG. Construction site or during the manufacture of the roof D cover 49, as shown in FIG. 7 shows can be used. Each of these covers 49 has a shape corresponding to the recessed openings and has raised edges 50 and raised angle parts 51 in the region of the corner points.

FIG. 8 is a plan view of such a junction of the water guide elements 35. It shows clearly shows how a cover 49 is inserted into the recessed opening so that a total A closed water supply system is created, the individual ones of which are defined by the water supply elements 35 Channels meet in the area of the cover 49. The flanged flanges 47 and are used for sealing Edges 50, as well as the angle parts 51, 50 soldered to one another, welded, glued or simply to one another beaded so that the inserted cover 49 comes to lie somewhat recessed and the joints are tight. The result is a real water channel system in which the water flows up to the point of intersection flows and there flows off through an indicated drain pipe 52. It will be convenient, not among everyone Cover 49, but only where there are supports to provide a drainage pipe 52. The lid 40 can be simple pressed sheet metal or plastic injection molded parts.

F i g. 9 finally illustrates a further possible embodiment variant of a roof D. in which two sections are connected to one another to form a step. Each section consists of individual spatial frameworks i, which are combined via upper chords 55 and lower chords 3 spatially load-bearing structures. In the connection area of the roof element sections, auxiliary struts 53 are used, which lead to the formation of normal nodes 54. The area of the auxiliary rods 53, which is open per se, is expediently sealed by a desired roof covering in such a way that either a light-permeable front or an arbitrarily closed front is created.

The main advantage of the roof element according to the invention is that the space framework cells Can be manufactured in large-scale production with little technical effort and with little space requirement, for example stacked on top of each other to be stored. They can be combined to form any roof configuration, additional supports or flat foundations are omitted, as each space frame cell

• is self-supporting. Because all the individual parts necessary for the roof's later function are already in production the space frame cell are integrated into it, the construction or assembly goes without essentials Tool in front of you very quickly. Nevertheless, the finished element is then maintenance-free and excellently stripped. Additionally, false ceilings can be added, usually the underside of the However, the roof elements are visually interesting. The selection of each material used to manufacture the Diamond truss cells themselves or for the cover can be used on the respective purpose of the roof. Further

to

important advantages that result from the roof according to the invention are uniform and glare-free Illumination even in large halls with daylight, facade designs without strip lighting, problem-free any expansion and modification of the roof layout; an extension of subsequent canopies is easily possible; circumferential anikas can be easily installed; also cubic building forms can be roofed over without difficulty; a problem-free, fire-resistant shield accordingly the usual building regulations is through the simple formation of a blanket ceiling with light surface parts possible.

For this purpose 4 sheets of drawings

Claims (16)

Patent claims: 1. Self-supporting roof, consisting of prefabricated pyramid-shaped ones placed next to one another Cells and the side surfaces forming the roof membrane, in which the cells butt against each other at their base parts releasably connected and at their tip each over a connecting element on one themselves horizontally extending upper chord grid are attached, characterized in that each Cell as a space frame cell (1) with a pyramid base forming. Frame (2) made of lower chords (3), those in the area of at least two frame corner points (5) like nodes with lower chords (3) at least one adjacent frame (2) are connected, and with from the frame corner points (5) to the pyramid tip (7) diagonally extending struts (6) with groove-like receptacles (17) for exchangeable use of heat, sound and moisture insulating elements, translucent elements or elements serving to generate energy is formed and that on the struts (6) near the frame (2) water guide elements (35) are attached, the one Form a channel running between two adjacent cells, which can be closed with lids (49) Openings in the area above the respective lower chord nodes. 2. Self-supporting roof according to claim 1, characterized in that the frame (2) under mediation star-shaped connecting pieces (34) are screwed or riveted to form nodes. 3. Self-supporting roof according to claim 2, characterized in that additionally in the nodes Concealed shear bolts to the fastening screws (56) or rivets to increase the shear surfaces are provided. 4. Self-supporting roof according to one of claims 1 to 3, characterized in that the Space frame cell (1) is designed as a Schwpiß construction. 5. Self-supporting roof according to one of claims 1 to 4, characterized in that each Space frame cell (1) a polygonal, at least triangular and preferably a square or square lower belt frame (2) and the struts (6) at an angle (11) extend from about 55 ° to the pyramid tip (7). 6. Self-supporting roof according to one of claims 1 to 5, characterized in that the Frame (2) consists of profiles with a C-, I-, T- or L-shaped cross-section. 7. Self-supporting roof according to one of claims 1 to 6, characterized in that the struts (6) consist of profiles with an L-, rhombus-shaped or square hollow cross-section on the outside a W-shaped retaining profile (26) is attached. 8. Self-supporting roof according to one of claims 1 to 7, characterized in that each Water guiding element (35) has a leg (37) running in the incline of the side surface (12), one horizontal floor and one in the vertical projection above the one below Frame edge has legs (36) standing up vertically from the ground and with the inclined Leg (37) engages between the struts (6). 9. Self-supporting roof according to claim 8, characterized characterized in that the upper edge of the inclined leg (37) with the formation of a clip edge (38) is bent downwards. 10. Self-supporting roof according to claim 9, characterized in that between the Clip edges (38) of the water guide elements (35) and on the frame (2) arranged corresponding support edges (40), sound, heat insulation or Cover elements are definable. 11. Self-supporting roof according to claim 9 or 10, characterized in that the back of the clip edges (38) of the inclined leg (37) Slightly sloping outwards from the horizontal as a condensation water collecting channel (39) is. 12. Self-supporting roof according to one of claims 8 to 11, characterized in that on the Edges of each of the abutting legs (36) of the water guide elements (35) of two adjacent space framework cells (1) are U-shaped Cover strip (46) is attached. 13. Self-supporting roof according to one of the claims 1 to 12, characterized in that the cover (49) inserted into the openings with a Connection (52) are provided for water drainage. 14. Self-supporting roof according to one of claims 8 to 13, characterized in that side surface elements (12) with their lower edge overlap the inclined leg (37) and are supported on stops (43) attached to it. 15. Self-supporting roof according to one of claims 1 to 14, characterized in that in the groove-like receptacles (17) of the struts (6) with complete visible elements (18) or roof elements (21) Sealing frame (19) and possibly retaining strips (20, 24) are used. 16. Self-supporting roof according to one of claims 1 to 14, characterized in that in the Groove-like receptacles (17) single-shell coverings (30, 27), for example made of sheet metal, are used and if necessary, are provided on the inside with a thermal insulation and / or fire protection layer (29).