DE19728980A1 - Assembly aid for support elements in roof construction - Google Patents

Abstract

The aid comprises two hanging devices (11,12) which can be anchored to facing edge regions of two neighbouring panel-like bodies (2,3). A wedge element (17) is inserted through one hanging device and into the other, the hanging devices being pipes having rectangular cross sections. The wedge element has a wedge section (18) and a cuboid section (19). The devices are anchored into the panel bodies by means of screws, the panel bodies having threaded sleeves.

Description

The present invention relates to a roof structure one with at least one eaves or foot purlin and / or on a middle purlin and / or on a ridge purlin-bearing basic con structure according to the preamble of claim 1 and a Support and insulation element according to the preamble of the claim 17th

So far, roofs for buildings such. B. Residential buildings by laying so-called roof trusses from load-bearing Beams and rafters in their basic construction manufactured. Between the rafters and / or on the rafters insulation is then inserted or applied. After new rer technology is the insulation as a so-called savings insulation, the lower heat and air flow lassfugen has. The rafters with the inserted or applied Roof insulation forms the basic structure of these roofs tion, which then carries the roof covering.

After completion of this basic construction or the ses sub-trade, depending on the embodiment on top a wooden formwork and from below with a joinery are closed, the roof covering is usually immediately tra according to tradition in the form of a tile covering on longitudinal blue fender, d. H. Counter running in the longitudinal direction of the rafters battens and transverse tile battens applied. Right net the operations made on site, so can be seen that an essential part of this Trades, namely laying the beams or purlins and the application of the rafters, the introduction or application of the heat insulation, laying a water-draining layer,  the so-called under-roof or the under-roof a whole Bring a series of work steps directly to the construction are to be accomplished.

The successful execution of these operations is there always depends on the weather and what needs to be created Roof is weather sensitive during its creation.

The sub-trades first completed, such as e.g. B. are the sub-roof in the form of a film covering through the following sub-trades exposed to the risk of damage.

The lower layers usually require more local work by covering with plasterboard or Embellishment with wooden straps, which are then followed by the Artisans such. B. the plasterer or carpenter are. This naturally leads to a cost and time-consuming process sive roof construction.

The more common use begins on the market of strip or rectangular roof insulation panels or roof insulation elements to create a so-called Mark over-spar insulation layer, but still with Errors. A lack of such, for example, in with roof insulation panels made of styrofoam Deck applied on top and bottom layer can be seen in that the roof insulation panels next to be laid with a butt joint so that from below continuous joints upwards and / or in the ridge direction the entire roof width continuous joints along the butt joints of the insulation boards can occur. This who then, if at all, just glued or kit tet. In the long run, however, this cannot provide sufficient sealing against driving rain or moisture entering from outside activity can be guaranteed. Such joints are also in generally not permanent or only with a significant increase  to seal the wall in a form-elastic manner so that permanent air casual cracks appear in the roof insulation, which is a good one No longer guarantee thermal insulation.

Another, recently on the market roof insulation systems are up to 6 m long, approx. 1.20 m wide strip-shaped roof insulation elements made of polystyrene Chipboard applied on the top and underneath or roof hard fiber decorative panels on the side between I-för arranged rafters. This creates gaps in one partly because of the blunt against the side flanks of the rafters butting edges of the insulation elements and on the other hand as a result which of course when "threading" between the I-shaped ones Rafters of roof trusses hanging from belts on a crane significant unavoidable damage to their longitudinal edges, as well as because of the butt abutting upper or un lower edges. In addition, the insulation elements can still disappear. Finally, the lat is applied tion and the tile covering. The manufacture of an inexpensive This is not a good, heat-insulating roof construction possible. A permanently watertight roof and that permanently prevent the ingress of moisture from outside into the roof is not guaranteed.

The present invention therefore has the object reasons, avoiding the shortcomings discussed above a roof structure according to the preamble of claim 1 to develop such that a weather-insensitive Basic construction is provided, which at for example by means of a construction crane at almost every witte can be relocated quickly.

This task is performed by the in the labeling part of the Claim 1 specified measures solved.

The roof construction according to the invention enables only times a cost-effective, efficient roof construction. The  with conventional roof structures during manufacture the basic construction until shortly before the roof covering and until shortly before the final completion of the inner Surface accumulating varied operations that the construction site with a high risk of errors can be moved to the workshop for the first time and there be brought forward with. By building the reason construction through the use of weather resistance prefabricated support and insulation elements, can for the first time a weather-resistant basic construction to be created. This is advantageously done through a ra the labor-saving laying of the prefabricated Support and insulation elements by means of a construction crane, this Work step is then almost independent of the weather.

The support and insulation elements can be simple chem applied and put on the purlins be, with only one man to drive in and possibly a white another man is needed for fastening. These are clear much less manpower, such as when laying tra traditional roof cone made of rafters and purlins structures are needed.

According to the invention, preferably from the eaves or foot purlin up to the ridge purlin continuous support and Insulating element from a hollow box-like frame with in it insulation provided. A support and dam ment with the neighboring support and insulation element a triangular or hook-shaped exterior edge positively connected, the first supporting and insulation element in the next support and insulation element hangs in. A shape or force is created when hanging coherent, tight connection because of the slope of the Triangle groove the edge-side spring of the following mount the supporting and insulating elements in the groove on the edge mounted support and insulation elements.  

By appropriate preparation of this joint, preferably by painting with a lubricant such as. B. Lubricating soap, this sliding effect can be significantly improved. It is then advantageously not necessary to plan this connection which causes the wedging or tensioning in the production of the hollow box-like frame. It is sufficient, for example, if this joint is produced with a high-speed circular saw in an oblique cut at low thrust for a smooth cutting surface. The complete load-bearing and insulation element already fulfills the structural and structural requirements because the hollow box-like formulation creates a hollow beam that advantageously shows the following structural-physical consistencies:
The mounted on the lower side of the hollow box-shaped frame, facing the roof interior is preferably relatively tight and strong vapor retardant. The subsequent thermal insulation arranged between the legs of the frame in the hollow box can be made from various insulation materials. Insulation materials made of mineral fibers or insulation panels made of cellulose packages are preferred.

Air that may be above the insulation layer layer forms another insulation element. In this area can a narrow wooden plate or wooden strip on the Schen be applied to the frame. There is one above preferably somewhat softer, upper cover plate arranged has a lower vapor diffusion resistance like that lower plate. This is treated water-repellent, so e.g. B. siliconized, soaked or with a water repellent provided the layer. The wooden bar can be made of special load-bearing wood should be chosen, almost like the upper half of a carrier, while the lower half of such imaginary carrier represented by the hard lower shell becomes. This can be indicated if the softer or  more breathable upper layer or upper plate not so has high static load capacity and still larger Spans should be achieved.

The water-repellent treated surface or what Ser repellent coating should at least temporarily soak resist selast. However, it does not take time represent adhesive roof skin. It is above that level now possible, in the simplest form, any quick roofing and also to apply the conventional tile roof. Even the production of flat roofs is possible.

The side bond can be on the joints of the other abutting and interlocking carrying and Insulation elements do not draw water, preferably with one seal arranged in the groove base. As For this purpose, the seal is preferably a fine, sealing, self-expanding cord used. With that the Air density significantly improved.

In this way, it becomes possible for the first time Cover the house completely within a few hours, after all the preparatory work in the factory have taken place.

The roof construction according to the invention advantageously differs, for example, from the following features compared to a conventional rafter construction:
There are no longer individual parts, but there are pre-assembled support and insulation elements from a hollow box-like frame with insulation located therein, the hollow box-like frame is known as a static element and is therefore exactly calculable in advance. The frame can be made up of beams or rafters. However, the side parts or legs of the frame are preferably formed from two or three glued layers. This creates a frame that is particularly resistant to warping. This is in contrast to traditional solid wood rafters, which can twist.

The support and insulation element according to the invention has none Kerven more (notches) with which the rafters on the purlins is combed, but it preferably has attached, horizontally running strip-like cams or wart lines which statically calculated and add accordingly are on a corresponding on the Place the nipple on the nipple or in a corresponding position engaging notches. The on the support and insulation element brought wart strips can also be in one piece on the frame be molded on.

This has the advantage that the support according to the invention and insulation elements with relatively small screws or sheet metal stripes on the purlins or on the goods attached to them Zen strips can be screwed on. The up to 30 cm long rafter nails driven in with the ax are a thing of the past. The wart strips on the one hand on the support and insulation element and on the other the foot, middle or ridge purlin with high quality glue fixed and additionally screwed if necessary. Alternatively notches are provided in the purlins in which the war Snap the zen bars into place. In this way the Roof construction advantageous in a far more precise way like previously fixed.

In addition, roofs without breakthroughs immediately become one consistently water-draining roofing achieved. Instead of The usual brick covering can also be from above appropriate matching metal cladding per be easily provided.  

Has as the outer dimension for the support and insulation element a size of approx. 1.25 m × 6 m with a height of approx 140 to 220 mm proved to be particularly advantageous. This Magnitude is also easy in medium-sized hands works such as B. a carpentry and / or carpentry producible.

The width dimension is of course as well the length dimension is not permanently limited. The latter is aimed preferably according to the house depth. It can therefore also be very deep roofs are made. Roofs with a depth of 6 to 8 m or roofs with a depth of 8 to 14 m like roofs with a depth of 12 to 18 m are also available with the Roof construction according to the invention can be easily implemented. Usually the support and insulation according to the invention bridge at least a depth of about 6 m, what then would correspond to a house depth of about 11 to 12 m are usually required in normal residential construction.

Of course, this will be based on this basic idea other variants may be possible. For example, the protrude hollow box-like frame over the middle purlin, see above that no ridge purlin is needed and instead the ridge-side edges of two abutting support and Insulating elements connected to each other in opposite directions become. Here, for example, a triangular one becomes from below Element or a triangular dam element screwed by can be provided with a rod and hat profile at the top.

The synergistic connection between a box-shaped body that on the one hand has all the functions of the sta tic and on the other hand absorbs the insulation and beyond from a tight fit between those lying next to each other Support and insulation elements due to its formulation he forces, for the first time enables permanent blow water dense roof construction in the long run the un  desired penetration of moisture into the roof from the outside is prevented.

Should be due to carelessness or injury to the Surface moisture in a support and insulation element penetrate, this can be done by adding Drill holes from the roof interior up and down in the affected support and insulation element dried in a controlled manner become.

The support and insulation elements can be used for stiffening probably in their longitudinal direction as well as in their transverse direction between the hollow box-shaped frame with stiffening Middle rungs are provided.

By mutual engagement of the edges adjacent The support and insulation elements create a high bond in the total area that turns the roof area into a rigid plat te can be. This is in terms of the resulting great resistance to wind forces a valuable advantage, that with a conventional rafter roof is not so easy afford is.

The attachment is no longer the same as before Insulation layer and the rafters with a long screw or egg long nail, but over the wart-shaped opening were on the underside of the support and insulation element and on the purlin top. The quality of the roof structure tion can thus be done after laying the support and insulation elements are checked from below, which is a clear Reduction of the risk of injury. It must when laying, no man around on the roof anymore climb, making for the first time even in wet weather dangerous assembly is also made clear can be done faster than before.  

The roof structure according to the invention includes moreover due to the fact that in a kind of series production Realizing production of the support and insulation element considerable cost-saving rationalization advantages. There with 1.25 m wide parts of the roof windows just like Read standing dough easily into the dimensional structure even for more complex configurations Obstacles. In addition, the invention Support and insulation elements in a simplified form, even for large ones Roof overhangs can be used.

In addition to a preferably designed as a sealing cord Butt joint in the groove base to seal two the support and insulation elements can be used to improve the be another seal in the area of the joint the edges of adjacent upper plates become. The side edges can be slanted from above outside to be touched inside so that two together the delimiting edges of upper plates a triangular or form a trapezoidal narrow gap formed by the seal, for example from a self-expanding sealing cord is fully filled. For an improvement of the seal in the The area of the forehead joint can face downwards Edge of the top plate of a support and insulation element from beveled at the bottom and over the lower edge of the Stand out so that they are on the top plate of the support and insulation elements arranged below in the edge be comes to rest richly, this upper plate in the edges area is bevelled accordingly, so that a ste downward water drainage is guaranteed. It can also be used to improve sealing costs one between the purlins and the supporting and insulating elements seal arranged between the wart bars, preferred in turn, a sealing cord can be provided.

Depending on the depth of the box-shaped construction can modern lighting fixtures embedded in the roof area  become or little space-consuming cable routing un be brought up. It is also advantageous that the lei design variants due to the manufacture of the support and insulation elements in the workshop and not on the building site be made much more accurate and elegant can, with diverse other design variants regarding the design of the inside of the support and insulation melements are conceivable.

Since the warts on the underside are at every point on the mount or fasten box-like frame and analog between the individual support and insulation elements have molded single full beams inserted, theirs Since horizontal pliers can hold various Development opportunities given.

Further advantageous developments of the invention are Subject of the subclaims.

The invention is described below based on the description of embodiments with reference to the drawing tion explained in more detail. Show it:

Fig. 1 shows a cross section through a first form of execution of the basic construction of a erfindungsge MAESSEN roof construction,

Fig. 2 is a plan view roof construction according to the invention to the embodiment illustrated in Fig. 1,

Fig. 3 are enlarged schematic illustrations of a roof structure shown in Fig. 1 and 2 in the regions around a ridge purlin, purlin to a foot and a Mittelpfette,

Fig. 4 is an enlarged schematic representation of the side of the composite of two inventive supporting and insulating elements,

Fig. 5 is a broken plan view of a possible embodiment of a supporting and insulating element according to the invention,

Fig. 6 is an enlarged schematic representation of an alternative to that shown in Fig. 3 and 4 embodiment,

Fig. 7 is an enlarged schematic representation of an alternative to the embodiment shown in Fig. 3, and

FIG. 8 is an enlarged schematic illustration of another alternative to the embodiment shown in FIG. 3.

As shown in Fig. 1 in cross section of an embodiment of the basic structure 1 of a roof construction according to the invention 2 , two rows of supporting and insulating elements 4 are arranged one above the other. This is usually the case for roofs with a depth T _D over 12 m. The support and insulation elements 4 are arranged in rows next to each other net, which, however, is not recognizable in section. The supporting and insulating elements 4 are supported in the area of their lower end 6 on the purlin or eaves purlin 8 . Depending on the depth T _{D of} the roof and length L _{TDE of} the supporting and insulating elements, these are additionally supported in the region of their upper end 10 either on the ridge purlin 12 or the central purlin 14 . However, they can also be freely cantilevered in the area of their upper end 10 against the upper end of a support and insulation element 4 arranged on the opposite roof half, the support and insulation elements 4 then usually in the area of their upper half on the middle purlin Support 14 . This is not shown in more detail.

The Grundkon construction 1 created from supporting and insulating elements 4 supports the roof covering 16 , which is conventionally used as a tile covering or otherwise, e.g. B. can be designed as aluminum sheet cover, as can be seen from FIG. 2.

The support and insulation element 4 is, for example, as shown in Fig. 3 or 4, formed as a frame 20 from four Holzbal ken or rafters 22 . These wooden beams 22 can be approximately 30 mm to 60 mm thick and have a height of approximately 140 to 220 mm. However, any other dimension is conceivable, depending on the roof load, wind load and snow load to be mastered in accordance with the requirements of the static calculations. The rafters or legs 22 of the frame 20 can also be constructed from multi-glued layers of wood. Here, strips can also be used, so that in principle any thickness and height is possible. Reasonably, the dimensions will be graded in steps of 10 mm, for example. Apart from this, any other frame construction can also be provided. For weight and manufacturing reasons, aluminum profiles should be a good alternative. At the bottom a plate 24 is attached, for example made of wood. Their surface facing the interior of the roof can be coated, for example, with real wood panels, hard-fiber wood decorative panels or the like, other interior linings 25 that can also be papered. The top is closed, for example, by a particle board 26 which has been treated to be water-repellent, for example with a water-repellent cover layer 27 . The bottom and top can also be covered with waterproof chipboard on both sides. In between is the insulation material 28 , which can be designed as a mineral wool insulation or mineral wool insulation board or the like with good thermal insulation materials. The choice of insulation material can easily be based on the building physics calculations and the wishes of the client.

The plan view shown in FIG. 2 on the roof structure 2 according to the invention shown in FIG. 1 reveals the modular structure. Above a first, lower row 30 of support and insulation elements 4 , at least one further, upper row 32 of support and insulation elements 4 is arranged in the roof type shown. This is usually necessary if roof depths T _D in the range of 12 to 18 m are to be achieved. Roof depths T _D of 6 to 8 m can still be achieved with a series of supporting and insulating elements 4 . With roof depths T _D of 8 to 14 m this is still possible. However, depending on the application, it should be decided with regard to the structural analysis whether the arrangement of two or more rows of support and insulation elements 4 is indicated.

As can be seen from FIG. 2, the respectively adjacent supporting and insulating elements 4 connect seamlessly to one another, so that no water-permeable joints or gaps can arise between them. Due to the partial aufgebro chene shown in FIG. 5, the element in the support and insulating material 28 located Dämmele 4 can be seen.

In Fig. 3 is an enlarged representations of a roof structure 2 shown in FIGS . 1 and 2 in the areas around a ridge purlin 12 , a foot purlin 8 and a middle purlin 14 schematically illustrated. The support and insulation element 4 has on its underside or on its lower planking or on the lower chipboard 24 a first wart strip 34 with which the false and insulation element 4 against the purlin 8 and / or against one of the Corresponding wart strip 36 attached to the purlin supports or purlin 8 snaps into a corresponding notch 37 in the foot. Similarly, the support and insulation element 4 is mounted on at least one other on its underside wart bar 38 against the middle purlin 14 and / or a wart bar 40 attached to the middle purlin or corresponding notch. The support and insulation element 4 is supported in its upper area against the ridge purlin 12 and / or against a wart bar 42 attached to it or a triangular dam in an analogous manner, if necessary directly or by means of a further wart bar 44 attached to the underside. The wart strip 38 or 44 fastened to the upper end of the supporting and insulating element can also be integrally formed or formed on the bar or rafters which form the upper frame section.

In an enlarged schematic representation of the side composite of two supporting and insulating elements 4 according to the invention, the hook-like configuration in the form of triangular depressions or elevations of the outer circumferential edge 46 of the supporting and insulating element 4 can be seen in FIG. 4. A tongue 48 on the edge 46 of a supporting and insulating element 4 engages in a groove 50 in the edge 46 of the neighboring supporting and insulating element 4 . Groove 50 and tongue 48 are designed to correspond to one another and have an inclined sliding surface 52 . This ensures that when two supporting and insulating elements 4 are joined together, they connect to one another in a tightly fitting manner, for example, solely by their own weight. To further increase the tightness of the connection, a sealing cord 54 can be provided in the groove base.

In Fig. 5, a possible embodiment of a support and insulation element 4 according to the invention is shown in more detail in a partially broken plan view. As can already be seen in part from FIG. 1, the supporting and insulating element 4 is formed, for example, as a frame from four wooden beams or rafters 22 , which can be constructed, for example, from layers which have been glued several times. Their strength depends primarily on the loads to be mastered. Other frame construction, such as B. a frame made of aluminum profiles are also conceivable. The underside is closed by a plate 24, for example made of wood, towards the roof interior. The plate 24 is preferably relatively dense and strongly vapor retardant. Their surface facing the roof interior can be coated with interior cladding.

The top forms, for example, a water-repellent treated particle board 26 , the vapor diffusion resistance was less than that of the lower plate 24 . Due to the water-repellent treatment of the surface of the plate 26 or itself, the application of a layer of roofing or tar cardboard to the weather-side surface may be dispensed with.

The insulating material 28 is located in the interior 56 of the supporting and insulating element 4 . Mineral wool insulation or mineral wool insulation boards can be used for this. Other insulation materials can be used just as well. To reinforce the supporting and insulating element, central rungs 58 and 60 can be inserted both in the longitudinal direction and in the transverse direction. The number depends on the desired bracing and the loads to be expected.

As can be seen from FIG. 6, the groove described before, preferably formed as a sealing cord 54 , is used to seal two abutting support and insulation elements 4 . To improve the sealing of the side composite, a further seal 62 can be provided in the region of the abutment of the edges of adjoining upper plates 26 . The side edges 64 can be chamfered obliquely from the top outside downwards inside, so that two adjacent edges 64 of the upper plates 26 form a predetermined triangular or tra pez- or dovetail-shaped narrow gap 66 which is formed by the seal 62 , for example by a self-expanding sealing cord is fully filled.

To improve the seal in the area of the forehead joint, as shown in FIG. 7, the downward-facing edge 68 of the upper plate 26 of a supporting and insulating element 4 can be bevelled from below and beyond the lower edge 70 of the frame 20 stand so that it comes to rest on the upper plate 26 of the support and insulation element 4 arranged below in the edge region 72 . This upper plate is correspondingly beveled in the edge region 72 , so that a constantly downward water drainage is ensured.

Furthermore, as shown in Fig. 8, for cost-saving improvement of the seal between the purlins 8 , 12 and 14 and the supporting and insulating elements 4, a seal 74 arranged between the wart strips 34 , 38 and 42 , preferably again a sealing cord be provided.

Claims (24)

1. Roof structure ( 2 ) with an at least on an eaves or foot purlin ( 8 ) and / or on a central purlin ( 14 ) and / or ridge purlin ( 12 ) mounted, the roof covering supporting basic structure ( 1 ), characterized in that the basic structure ( 1 ) at least from a row ( 30 , 32 ) of juxtaposed and positively or non-positively connected supporting and insulating elements ( 4 ), which are made of box-like frame ( 20 ) is made. 2. Roof structure according to claim 1, characterized in that the supporting and insulating element ( 4 ) on the underside of the box-like frame ( 20 ) attached, the roof interior facing plate ( 24 ). 3. Roof structure according to claim 1 or 2, characterized in that between the legs of the frame ( 20 ) an insulating layer ( 28 ) is applied or introduced. 4. Roof structure according to claim 3, characterized in that the insulating layer ( 28 ) consists of mineral wool or other effective insulating material. 5. Roof structure according to one of claims 1 to 4, characterized in that the box-like frame ( 20 ) has an attached to the top of the frame ( 20 ), facing plate ( 26 ). 6. Roof structure according to claim 5, characterized in that the outwardly facing plate ( 26 ) treated water-repellent, is preferably provided with a water-repellent coating ( 27 ). 7. Roof structure according to one of claims 1 to 6, characterized in that the supporting and insulating element ( 4 ) is stiffened in the longitudinal direction at least by a central rung ( 58 ). 8. Roof structure according to one of claims 1 to 7, characterized in that the supporting and insulating element ( 4 ) in the transverse direction is stiffened little by a central rung ( 60 ) according to static requirements. 9. Roof structure according to one of claims 1 to 8, characterized in that the outer peripheral edge of the box-like frame ( 20 ) of a first supporting and insulating element ( 4 ) has a spring-like projection or a spring ( 48 ) which in a corresponding nutar term recess or groove ( 50 ) engages in the adjacent support and insulation element ( 4 ). 10. Roof structure according to claim 9, characterized in that the groove ( 50 ) or the spring ( 48 ) are triangular. 11. Roof structure according to claim 9 or 10, characterized in that the groove ( 50 ) or the spring ( 48 ) have an inclined sliding surface ( 52 ) so that an interlocking of the groove ( 50 ) and spring ( 48 ) and thus one positive or non-positive connection of adjacent supporting and insulating elements ( 4 ) is guaranteed. 12. Roof structure according to one of claims 9 to 11, characterized in that a seal ( 54 ) is provided in the groove base for additional sealing of the joint of two adjacent supporting and insulating elements ( 4 ). 13. Roof structure according to one of claims 1 to 12, characterized in that a seal ( 62 ) is provided for additional sealing of the joint of two adjacent supporting and insulating elements ( 4 ) between abutting edges ( 64 ) of the upper plates ( 26 ), wherein these edges ( 64 ) are preferably designed such that they form a predetermined triangular or trapezoidal or dovetail-shaped gap ( 66 ) for receiving the seal ( 62 ). 14. Roof structure according to one of claims 1 to 13, characterized in that for the additional sealing of the joint of two adjacent supporting and insulating elements ( 4 ), the lower edge ( 68 ) of a first upper plate ( 26 ) over the edge ( 70 ) of The frame ( 26 ) stands out and is preferably chamfered from the bottom to the outside so that it is chamfered with the upper plate ( 26 ) of the support and insulation element ( 4 ) located underneath in the upper edge area ( 72 ), which is preferably correspon ding is overlapped. 15. Roof structure according to one of claims 1 to 14, characterized in that on the underside of each support and insulation element ( 4 ) at least one wart strip ( 34 ) or strip-shaped cam is attached or integrally formed on the frame ( 20 ) for support the supporting and insulating element ( 4 ) against a corresponding wart ledge ( 36 ) or strip-shaped cam attached to the eaves or foot purlin ( 8 ) or for engagement in a notch ( 37 ) of the corresponding purlin. 16. Roof structure according to one of claims 1 to 15 characterized in that on the underside of each support and insulation element ( 4 ) at least one further War zenleiste ( 38 , 44 ) or strip-shaped cam attached or integrally formed on the frame ( 20 ) is different bearing for wetting of the support and the insulating element (4) against a fixed bar warts entspre sponding to the ridge purlin (12) and / or Mittelpfette (14) (40, 42) or leistenför-shaped cam or for engaging in a notch of the entspre sponding Purlin. 17. Roof structure according to one of claims 1 to 16 since characterized in that from the underside of the box-like frame ( 20 ) ago lighting fixtures can be let into the supporting and insulating element ( 4 ), which are preferably designed flush and before the assembly of the basic structure ( 1 ) are already inserted in the support and insulation element ( 4 ). 18. Roof structure according to one of claims 1 to 17 characterized in that in the box-like frame ( 20 ) of the support and insulation element ( 4 ) line guides can be seen easily, which enables the flush installation of sockets and the like. 19. support and insulation element ( 4 ), characterized by a box-like structure with a frame ( 20 ) and one between the legs of the frame ( 20 ) or brought up insulation layer ( 28 ). 20. support and insulation element ( 4 ) according to claim 19, characterized marked by an on the underside of the box-like frame ( 20 ) attached, the roof interior facing th plate ( 24 ), and / or an attached to the top of the frame ( 20 ) , plate facing outwards ( 26 ). 21. support and insulation element ( 4 ) according to claim 19 or 20, characterized in that it has on its outer umlau fenden edge of the frame ( 20 ) a groove ( 50 ) or spring ( 52 ), so that a first support and Insulating element ( 4 ) can be positively or non-positively connected via its spring ( 48 ) to an adjacent supporting and insulating element ( 4 ) via its corresponding groove ( 50 ). 22. supporting and insulating element ( 4 ) according to claim 21, characterized in that the groove ( 50 ) or the spring ( 48 ) is triangular. 23. supporting and insulating element ( 4 ) according to claim 21 or 22, characterized in that the groove ( 50 ) or the spring ( 48 ) have an inclined sliding surface ( 52 ). 24. supporting and insulating element ( 4 ) according to one of claims 19 to 23, characterized by the characterizing features male at least one of claims 2 to 18.