DE202006008867U1 - Device for fixing solar energy unit on roof has hanger bolt with upper metric thread for nut which presses an upper sealing element aainst contact pressure element which presses lower sealing element against flat metal roofing - Google Patents

Abstract

The fixing device comprises a hanger bolt (1) with upper metric thread (11) and lower non-metric thread (13). A nut (5) fits on the upper thread to press the upper sealing element (4) onto a contact pressure element (3) which then presses the lower sealing element (2) against the flat sheet metal roofing. A ring gap can be left between the screw and contact pressure element into which the underneath of the upper sealing part projects at least in part. Independent claim describes arrangement with through opening in flat sheet metal roofing through which the hanger bolt projects by its lower non-metric thread and is screwed into the supporting roof structure.

Description

The The invention relates to a device for fastening a solar system on a roof with flat sheet metal cover as well as the arrangement of these Device on such a roof.

solar systems be on roofs with flat sheet metal covering often attached without penetration and therefore firmly with the sheet metal covering connected. So it is with roofs standard with standing seam covers, Installing solar systems using so-called standing seam clamps. As solar systems as possible are executed over a large area and whose supporting structures are mostly made of aluminum, can this type of installation due to wind suction forces as well as differences problematic in the material and temperature-related length expansion be. Construction practitioners therefore recommend a direct connection with the Roof construction.

A simple screw connection with the roof construction with flush penetration However, the sheet metal covering has the serious disadvantage that the Pending on the inner edge of the penetration opening, due to temperature-related shifts of the sheet metal covering across from the dormant roof construction for wrinkling and even cracks lead in the sheet metal roofing can.

Out DE 198 42 997 A1 is a "mounting unit and its arrangement for the attachment of additional parts to a roof" known. For this fastening unit, an enlarged penetration opening is provided in the standing seam cover of the roof, which offers a play of movement on all sides relative to the element which penetrates the standing seam covering.

The preferred embodiment this attachment unit contains a hexagonal carrier plate and a cover plate in similar, slightly rounded shape. The cover plate is on the carrier plate to put on and tighten. For this purpose, the support plate two upwardly projecting, short threaded bolts and the cover plate two corresponding through holes. On the feet of the Threaded bolt is provided in each case a truncated cone-like base, in each case a correspondingly tapered hollow shape at the two through holes inside. To the downwardly shaped edge of the cover plate is arranged a sealing molding, which the cover plate opposite the standing seam roof should seal and as a precaution has a separating incision, to dissipate accumulated within the encircling sealing molding water. After all is at the bottom of the carrier plate a flat, hexagonal Anformung provided, probably in about the strength the standing seam cover.

to Installation is to cut out of the standing seam cover in advance a hexagonal penetration opening. Therefor it seems advisable to use a template because the inner edge of the penetration opening along a narrow Area between the outer contour the carrier plate and the edge of the Anformung on the underside of the carrier plate should run. Subsequently becomes the carrier plate with the Anformung preceded on the wooden surface, where it should be noted that the approximation with about the same movement play across from now covered by the carrier plate Inner edge of the penetration opening spaced is. After the correct positioning, the carrier plate with a total of twelve Screws are screwed into the wooden base. After that, the Cover plate together with the sealing part on the support plate placed so that the threaded bolts protrude through the respective through hole. For sealing upwards is still at the two threaded bolts each a sealing ring arranged between the shoulder of the truncated base on the support plate and the bottom of the appropriate mold is inserted on the cover plate and prevent should that from above through the through hole penetrated water between the lid and the support plate for penetrating hole can penetrate. Finally can screwed the cover disc by means of two nuts and so that the sealing molding are pressed onto the standing seam cover.

Of the Production and assembly costs of this fastening unit with their Nearly 20 components to be assembled on the roof will be a disadvantage rated.

Of the Invention is therefore based on the object, a device of specify the aforementioned type for fastening a solar system, the a high sealing quality provides a static, easily detectable connection with the load-bearing Roof construction allows, consists of fewer and simpler components and thus more cost-effective in the production and in particular has a higher quality of assembly.

The object is achieved with the device specified in claim 1. This consists of a hanger bolt with an upper, metric thread and a lower, non-metric thread, and penetrated by the hanger bolt and successively from top to bottom, from a nut, which is located at the top, metric thread, from an upper sealing element, from a pressure element and from a lower sealing element. It is also essential that the hanger bolt and Andrückele ment are tightly connected to each other by means of the upper sealing element, and that the upper and lower sealing element are tightly connected to each other by means of the pressure element, and that the lower sealing element has at least one closed around the hanger bolt circumferential sealing surface on its underside, and finally by means of the nut the upper sealing element can be pressed against the pressure element and the latter against the planar sheet metal covering on the lower sealing element.

aid the device according to the invention can the one supporting structure of the solar system under penetration of the flat sheet metal covering with one, supporting roof construction of the badger. Here comes the hanger bolt an essential meaning too. The hanger bolt can on the one hand through a predetermined in the flat sheet cover penetration opening therethrough with its lower, non-metric thread in the load-bearing roof construction the roof are firmly screwed in below the sheet metal roofing, and on the other hand, above the sheet metal covering at the upper, metric thread of the hanger bolt a component of the supporting structure the solar system are screwed firmly. It is also possible to the upper, metric thread a connecting component for the supporting structure of Tighten solar system in between. It is also essential that the inner edge of the penetration opening towards the hanger bolt always a sufficiently large, preferably all-round sliding game may have, so due to temperature-related linear expansion the flat sheet metal covering these with shifts no harm takes. The hanger bolt can be made in a known manner. So its lower, non-metric thread in particular a Wood thread and its upper, metric thread Ideally one ISO standard thread, preferably in sizes between M8 and M14. The overall length The hanger bolt can vary depending on the application, preferably are however lengths between 150 and 350 mm, where for the non-metric thread has a length between 60 and 120 mm in most cases is sufficient. The hanger bolt can also, preferably at the Head, a drive for a screwing, such. As an open-end wrench or a ratchet nut exhibit. Furthermore Is it possible, that between the upper, metric thread and the lower, non-metric thread Thread provided a cylindrical intermediate section without thread is.

The used information above and below for the other ingredients the device relate to the hanger bolt in its axis. The nut, the upper sealing element, the pressing element and the lower sealing element each have a passage opening on, in which these components are penetrated by the hanger bolt. The nut, which is arranged at the upper, metric thread, is seated here at the top of these components, followed by the bottom upper sealing element, the pressure element and the lower sealing element.

The In particular, mother can run as a hexagon nut and at its bottom or to the upper sealing element out a flange exhibit. When screwing the hanger bolt into the load-bearing roof construction make sure that the hanger bolt is screwed in sufficiently deep, so that to turn down the nut a sufficient thread length after is available below. Turning down the nut can be done by hand.

By doing the upper sealing element on both the hanger bolt and the pressure element tight rests against rainwater or backwater on the hanger bolt along and / or between the hanger bolt and the pressure element after down to the penetration opening can penetrate. The upper sealing element is in this case preferably so executed, that independent whether it is at the top, metric thread or possibly already partially abuts the cylindrical intermediate section, the sealing function guaranteed.

The lower sealing element can with the at least one on its underside closed around the hanger bolt circumferential sealing surface on the flat sheet metal covering are placed tightly around the penetration opening. The outer contour the sealing surface grips the penetration opening around it, so that rainfall in the roof level or backwater can not penetrate to the penetration opening. The sealing surface can do it completely consist of the bottom of the lower sealing element. Preferably however, is an area projecting from the bottom down as sealing surface intended. Furthermore is the sealing surface suitable not only tight on the flat sheet metal cover, but also lubricious to rest. It is possible also several such sealing surfaces to provide adjacent to the underside of the lower sealing element. The upper and lower sealing element may be made of rubber-elastic and light-resistant sealing material consist, preferably of EPDM.

By means of the nut, an axial force can initially be exerted on the upper sealing element, with this on the pressure element and with this in turn on the lower sealing element, so that the at least one sealing surface of the lower sealing element against the sheet metal cover can be pressed with a suitable contact force. The pressure element in this case directs the force exerted by the nut downwards axial force radially outward on the lower seal element, preferably near or exactly above the at least one sealing surface. For this purpose, the pressure element is made of rigid material, in particular made of stainless metal such as stainless steel or aluminum. The fact that the pressing element connects the upper and the lower sealing element, it also prevents rain or backwater can penetrate between the upper sealing element and the lower sealing element to the penetration opening.

Overall seal the upper sealing element, the pressure element and the lower sealing element the penetrating hole outward and also to the hanger bolt against rain and backwater.

The Solar system, which can be fastened with the device on the roof, can be both one with photovoltaic and one with thermal Be solar modules. Such a solar module is common enclosed in a metal frame, by means of which the solar module in turn firmly arranged on the supporting structure of the solar system can be. The support structure can in particular from the industry standard Consist of aluminum profiles. The roof can be used in particular as a pitched roof or also executed in other forms be. So is an attachment to a flat roof with, for example an oblique elevated Solar system conceivable. The components of the load-bearing roof construction can in particular wooden Rafters and purlins or other structurally sufficiently dimensioned components be below the level sheet metal covering. The flat sheet metal roofing may be any metal covering, but in particular one with even, sheet-like cover elements such. B. in a standing seam cover.

The Installation of the device on the roof is as follows: In one First step is at the designated mounting location above a Component of the supporting roof construction, in particular over a Rafters the penetration hole in the flat metal roofing bring. Then the screwing takes place the hanger bolt in the load-bearing roof construction, if necessary under penetration of a formwork and possibly further components roofing or roofing. Before screwing can a corresponding screw hole are predrilled, which is preferable done with a drill, which by means of one on the sheet metal roofing mounted rack in the vertical direction is performed accordingly. The screwing in of the hanger bolt can be done on a suitable, if possible arranged on the head of the hanger bolt screw drive z. B. with a fork wrench or preferably with an electric drill and a corresponding key attachment respectively. The nut, the upper sealing element, the pressure element and the lower sealing element at the latest now, if they are not already partially or completely were pre-assembled, in the correct order on the hanger bolt turned up or attached. The last step is the mother so far turned down and cocked until the lower sealing element with its sealing surface rests on the sheet metal cover with a suitable contact pressure, so that both the sealing and the sliding function is guaranteed. After assembly the device on the roof, the supporting structure of the solar system, optionally with the interposition of the connecting part to the tight, metric thread. Here can over the remaining thread length a height adjustment respectively.

The inventive device particularly captivates by its simplicity, as for the connection with the bearing Roof construction, the sealing of the penetration opening and tightening the solar system exactly one hanger bolt each is essential to the function. The device is therefore one row connected by advantages. It can consist of only five elements which can also be manufactured standard parts or in simple procedures are and above in addition to even fewer components integrated with each other and / or can be pre-assembled in assemblies. The cost of production is therefore only a fraction of previously known solution. Furthermore the assembly is significantly less complicated. So is the connection the device with the supporting structure of the solar system and the Sealing the penetration opening instead of twelve Wood screws and two nuts, as known in the art, just screw in the hanger bolt and tighten a nut. Furthermore the device is also for very different sheet thicknesses best for. Due to the fact that only one hanger bolt covers the sheet metal penetrates, can about it out the penetration opening much smaller and easier, which is especially true at Unevenness in the sheet metal covering, in polluted or weathered Sheet metal covering and with large sliding movements across from the sealing surface is very beneficial. The penetration opening also offers a better ratio between the size of the opening and that made possible Sliding path. Since the device is not attached to the formwork, but this possibly only penetrates and with the supporting roof construction Organically linked, static proof can be simple Done way. After all can the supporting structure of the solar system at the comparatively long metric thread over a big Height-adjusted area become.

In an advantageous embodiment, the upper sealing element, the pressing element and / or the lower sealing element in each case circular in circumference and / or provided with a central, circular passage opening. Thus, the upper sealing element may in particular be a sealing ring which rests with its inner side on the hanger bolt and with its underside on the pressure element and / or in the passage opening of the pressure element. The pressure element is in this case preferably designed as a circular pressure plate with a central circular hole. The lower sealing element can also be designed as a sealing ring or as a sealing disc with a central circular hole. The through openings of the pressure element and the lower sealing element may have the same diameter. It is also conceivable to dimension the passage opening of the lower sealing element larger, in particular in an embodiment as a sealing ring. It is essential that with the aid of the pressing element, the upper and the lower sealing element are sealed together and the at least one sealing surface of the lower sealing element can surround the penetration opening around. The components described in circular form are particularly easy to manufacture and assemble. In addition, the inner and / or outer circumference of the sealing surfaces can be reduced to a minimum in an advantageous manner. Such a lower sealing element may for example have a diameter of 100 mm, whereby other diameters, in particular between 45 and 120 mm are conceivable.

In a preferred embodiment is the at least one sealing surface formed of the lower sealing element as a sealing profile. Different to at a sealing surface, covering the optionally sharp-edged edge of the penetration opening areally, can with a narrow, in particular circular sealing profile, the penetration opening to simple Wrapped around and at a suitable distance. On this way, the sliding of the lower sealing element on the sheet metal covering facilitated. The sealing profile stands in particular from the bottom of the lower sealing element downwards from. It is special of Advantage, a sealing profile with several concentrically spaced Provide sealing lips. This increases the sealing quality, in particular with weathered or dirty sheet metal coverings. The middle one Distance from the innermost sealing surface of the sealing profile to the edge the penetration opening is preferably chosen so that during temperature-induced shifts of sheet metal covering the sharp-edged edge remains sufficiently spaced at all times. The distance corresponds accordingly with the available sliding game between the hanger bolt and the edge of the penetration opening and is for safety's sake, however, larger. For example, at a hanger bolt with 12 mm and a circular penetration opening with 30 mm diameter, the innermost, circular sealing surface a diameter of at least 48 mm.

In a preferred embodiment is provided between the hanger bolt and the pressure element an annular gap, in which the upper sealing element partially protrudes on its underside. The annular gap is outside from the edge of the passage opening and bounded inside by the hanger bolt and can, for example with diameters of 15 or 12 mm, corresponding to 1.5 mm wide. Of the Annular gap can also be made wider, z. B. 2 or 3 mm. In this annular gap can in particular with the axial force of the nut the upper sealing element are partially pressed with its underside. The outer peripheral area However, the upper sealing element can still on pressing element rest. By the partial impressions in the annular gap is prevents the upper sealing element against the Hanger bolt and / or the pressure element move inappropriately with shear load can. In long-term experiments has been found that such a push in or meshing in particular in large and frequent displacements of the sheet metal coverings the sealing quality further increased. The annular gap also has the advantage that in a not exactly Hanger bolt screwed in perpendicular to the sheet metal covering pressing element and the lower sealing element still parallel to the sheet metal roofing can be hung up.

In In another particularly advantageous embodiment, the upper Sealing element in its lower region and / or the one passage opening of the pressing element Rejuvenate in the circumference downwards. In particular, the upper sealing element in its lower region a conical ring portion, the insertion into the Annular gap facilitates and as well by increasing depression forcibly to a tight clamping or pressing of the conical ring section between the hanger bolt and the edge of the through hole of the pressing element leads. It may be particularly advantageous if the conical ring section across from the remaining, upper circumference of the upper sealing element inwards set back in the way is that an axial support shoulder remains present, with the the upper sealing element in addition also at the top of the pressure element fed up. It is alternatively or additionally conceivable, the passage opening in pressing element conical. The ring section on the upper sealing element can also only be cylindrical be educated.

In a further advantageous embodiment, the nut and the upper sealing element and / or the pressing element and the lower sealing element are combined. So it is possible to perform the nut and the upper sealing element, for example, as a screw-seal attachment. Such a sealing attachment may have at least inwardly to the hanger bolt and down to the pressure element corresponding sealing surfaces. In addition, it is possible to provide the pressing element integrated in the lower sealing element. Since the pressure element has a certain flexural rigidity, it can also be used as a support for the lower sealing element. For example, it is conceivable to provide on the outer circumference of a circular pressure plate a sealing ring which engages around the pressure plate at the same time. Preferably, it is also possible to integrate a circular pressure plate in a circular sealing plate. For this purpose, the sealing plate can have a suitable bordering edge at its upper region, so that the pressure plate rests in the sealing plate, in particular by impressing with its underside, and is encompassed by the bordering edge on the outer circumference. For this purpose, an inwardly open, circumferential groove is preferably provided in the bordering edge.

In a further preferred embodiment At the top, metric thread, the connecting part is already screwed tight. By means of the connecting part, the supporting structure of the solar system can still easier to be connected with the hanger bolt. The connecting part may in particular be designed as a plate in which a through hole for the Hanger bolt and opposite one Slot provided for variable attachment of profile beams of the solar system is. The plate can also be pivoted about the axis of the hanger bolt become. The attachment of the plate is preferably carried out with two locknuts.

In a preferred arrangement of the device according to the invention is in the flat sheet covering the penetration opening provided and the hanger bolt through the penetration opening with the lower, non-metric thread in the load-bearing roof construction screwed the roof, with the penetration opening to the hanger bolt offers a sliding game, and wherein by means of the mother the upper Sealing element on the pressure element and this on the lower sealing element against the flat sheet metal cover depressed is. In a further preferred arrangement, this is on the Upper, metric thread the supporting structure of the solar system or the connecting part screwed to the supporting structure the solar system is firmly connected. The corresponding assembly steps to achieve these arrangements are already described above.

In a further preferred arrangement of the device corresponds the size and / or the Shape of the penetration opening with the measure and / or the direction of the temperature-related displacement of the sheet metal covering. The measure and / or the Direction of the temperature-related displacement of the sheet metal covering hangs on the attachment point doing so from the distance to the nearest place from where the sheet metal cover connected to the roof construction or to which an adjacent device according to the invention is attached. At an effective length from Z. B. 10 m and an assumed temperature change of 60 K is the expansion a steel roofing approx. ± 5 mm. At a penetration opening with a diameter of 30 mm and a hanger bolt size M12 remains an all-round sliding play of 9 mm. When screwing in the hanger bolts or during pre-drilling is possibly a Vorverschiebung the Sheet metal covering for assembly time, for example due to strong To consider solar radiation. The hanger bolt can in this case be suitably eccentric be set. Ideally, the assembly is carried out at a medium temperature the sheet metal covering. It is also conceivable, the shape of the penetration opening of the expected direction of the shift, for example with a rectangle. In the simplest case, however, the penetration opening can circular be. Such a penetration opening can with a drill and a corresponding cutting head easy way to be cut out.

In According to a further preferred arrangement, several devices according to the invention are on the roof arranged in rows or raster-like. Since supporting structures of solar plants are usually linear or latticed are formed, such an arrangement is particularly useful.

In a final one Generalization of the inventive idea is possible by using the device not only the supporting structure of a solar system, but also other roof accessories such as kicks, ladders, snow guards, antennas and the like on roofs secure with flat sheet metal cover securely and tightly. there The device can also be used for other types of cover are suitable. In addition, the device is conceivable not only for sheet metal coverings on roofs, but for Metal or plastic covers of any kind with suitable, back To use underground. Furthermore it may be appropriate To replace the hanger bolt with a threaded rod, which is the bearing Roof construction penetrates and inside the roof with a nut is countered. Also, the use of a long cap screw, the with its end to the outside protrudes, is conceivable.

following is an embodiment of Invention explained in more detail with reference to drawings. Show it:

1 a perspective view of a device according to the invention,

2 a sectional view of the device according to 1 in the relaxed state,

3 a sectional view of the device according to 1 in the tensioned state,

4 an exploded perspective view of the device according to 1 together with components of a solar system,

5 a sectional view of an arrangement of the device according to 1 across to a rafter,

6 a sectional view of the arrangement according to 5 , longitudinally through the rafters.

From 1 to 3 apparent device consists of a hanger bolt 1 , a sealing plate 2 , a pressure plate 3 , a sealing ring 4 and a flanged nut 5 , There are also two more flange nuts 6 and 8th and a connection plate 7 optionally provided. To illustrate the operation, the device is in 2 in the relaxed and in 3 shown in the tensioned state.

The hanger bolt 1 forms the central component of the device and has a drive from axially above to below 10 for a screw-in tool, a metric thread 11 , a threadless section 12 as well as a wood thread 13 with a sharp end up. The drive 10 is radially narrower than the metric thread 11 sized so that nuts from above on the thread 11 can be turned.

The sealing plate 2 and the pressure plate 3 are each circular in circumference and centrally with a likewise circular passage opening 14 respectively. 15 Mistake. In addition, the sealing plate 2 and the pressure plate 3 coaxial with each other and approximately at the height of the unspecified in the drawings upper end of the unthreaded portion 12 arranged, and they are at their passages 14 and 15 coaxial with the hanger bolt 1 penetrated.

The sealing plate 2 has on its underside radially on the outside a profiled edge region, which consists of three around the hanger bolt 1 closed circumferential, concentric sealing lips 16 . 17 and 18 consists. The sealing lip 18 in this case forms the outermost edge of the sealing plate 2 and at the same time its downwardly projecting, annular sealing surface. Radially spaced from each other follow the sealing lips 17 and 16 whose sealing surfaces are set back slightly upwards.

At its upper part, the sealing plate 2 radially outside also a circumferential border 19 in which a circular and radially inwardly open undercut in the form of a circumferential groove is provided coaxially.

The pressure plate 3 lies with its underside on the sealing plate 2 on and off at its outer edge from the undercut of the binding edge 19 holding hands. The pressure plate 3 can preferably with hand force in advance in the undercut or in the border 19 be impressed. The pressure plate 3 is thus in the sealing plate 3 integrated and with the help of the border 19 centered in this and secured axially.

The sealing ring 4 is also circular and executed in the untensioned state 2 axially above the pressure plate 3 arranged. The hanger bolt 1 protrudes through the one central annular opening of the sealing ring 4 , wherein the sealing ring 4 with its radial inside close to the non-illustrated transition region from the upper, metric thread 11 on the unthreaded section 12 is applied. The sealing ring 4 has a conical ring section in the lower area 9 on, which tapers towards the bottom and in the untensioned state at the level of the top of the pressure plate 3 ends. The conical ring section 9 is opposite to the upper peripheral portion of the upper sealing element 4 set back inwards, leaving one to the top of the pressure plate 3 directed support shoulder is given with additional sealing function.

Finally, the flange nut 5 above the sealing ring 4 on the metric thread 11 arranged.

In the tensioned state according to 3 is the axial distance between the flange nut 5 and the pressure plate 3 by turning down the flange nut 5 verringt. The sealing ring 4 is compressed in this state in the axial direction and protrudes with its ring portion 9 into the annular gap between the hanger bolt 1 and the through hole 15 the pressure plate 3 into it, leaving it between the unthreaded section 12 and the edge of the through hole 15 is clamped and there is tight on both sides. In addition, the sealing ring lies 4 now with its support shoulder at the top of the pressure plate 3 and thereby increases the sealing quality.

The pressure plate 3 passes the through the flange nut on the sealing ring 4 downwardly applied axial force in the outer edge region of the sealing plate 2 , The pressure plate 3 thus presses the sealing lips 18 . 17 and 16 against a sheet metal cover, not shown in detail in the drawing. This becomes too next to the sealing lip 18 slightly outwardly and / or upwardly deformed, so that subsequently also the sealing lips 17 and 16 are pressed on the sheet metal cover around the penetration opening.

Optional is in the upper section of the metric thread 11 the connection plate 7 arranged. The connection plate 7 is of rectangular basic shape and stands vertically from the hanger bolt 1 off one side. For mounting and attachment to the hanger bolt is in the connection plate 7 a through hole provided by the hanger bolt 1 is penetrated. The connection plate 7 is between the two flange nuts 6 and 8th clamped on both sides. In addition, the connecting plate has 7 in the of the hanger bolt 1 projecting area a slot 21 on. About this slot 21 The support structure of the solar system, in particular a profile support can be screwed tight.

4 again illustrates the structure of the device according to 1 to 3 and shows like a profile beam 29 using the connection plate 7 with the hanger bolt 1 the device can be connected. The profile carrier 29 is here at the slot 21 adjustable screwed with a simple screw. On the profile carrier 29 can be a solar module 30 by means of clamp holder 31 be put on.

5 and 6 show how in a typical arrangement using the device according to 1 the supporting structure of solar systems is mounted on a pitched roof with standing seam cover. On a separate presentation of the sloping roof and the standing seam was omitted. On a rafter 25 the pitched roof is a formwork 26 fastened from several wooden boards, on which in turn a standing seam cover 27 lies flat and can shift due to temperature. At the mounting point is in the standing seam cover 27 a circular penetration opening 28 provided, which has been cut out for example with a hand drill and a suitable cutting attachment in a simple manner. The diameter of the penetration opening 28 takes into account the maximum possible displacement of the standing seam cover 27 at the assembly point. To screw in the hanger bolt 1 To facilitate, in advance and ideally with the same hand drill and a suitable drill through the formwork 26 and in the rafters 25 be pre-drilled. The pre-drilling can be centric to the penetration opening 28 , Especially in cloudy sky and normal temperature, or are set eccentric, so that the current Vorverschiebung is already taken into account. Then the hanger bolt 1 with the tip ahead through the penetration opening 28 and the formwork 26 through with their wood thread 13 in the rafters 25 be screwed. Between the hanger bolt 1 and the edge of the penetration opening 28 exists for the standing seam cover 27 all-round sliding game. The mother 5 is turned so far down and cocked that the sealing plate 2 with his sealing lips 18 . 17 and 16 on the standing seam cover around the penetration opening 28 all around with a suitable contact pressure rests, so that the sealing as well as the sliding function is guaranteed at all times. At the other end of the device is at the connecting part 7 a supporting profile 29 screwed down, in turn, by means of a clamp holder 31 two solar modules 30 wearing.

Claims (11)

Device for fixing a solar system on a roof with flat sheet metal covering, consisting of - a hanger bolt ( 1 ) with an upper, metric thread ( 11 ) and a lower, non-metric thread ( 13 ), as well as from the hanger bolt ( 1 ) penetrated and successively from top to bottom axially, - a mother ( 5 ), the upper, metric thread ( 11 ), - an upper sealing element ( 4 ), - a pressing element ( 3 ) and - a lower sealing element ( 2 ), where - the hanger bolt ( 1 ) and the pressing element ( 3 ) by means of the upper sealing element ( 4 ) are tightly connected to each other, - the upper and the lower sealing element ( 4 . 2 ) by means of the pressing element ( 3 ) are tightly connected to each other, - the lower sealing element ( 2 ) on its underside at least one around the hanger bolt ( 1 ) closed circumferential sealing surface ( 16 . 17 . 18 ), and wherein - by means of the nut ( 5 ) the upper sealing element ( 4 ) on the pressure element ( 3 ) and this on the lower sealing element ( 2 ) is pressed against the flat sheet metal cover. Device according to claim 1, characterized in that upper sealing element ( 4 ), the pressing element ( 3 ) and / or the lower sealing element ( 2 ) in each case in the circumference circular and / or each with a central, circular passage opening ( 14 . 15 ) is provided. Device according to at least one of the preceding claims, characterized in that the at least one sealing surface ( 16 . 17 . 18 ) of the lower sealing element ( 2 ) is designed as a sealing profile. Device according to at least one of the preceding claims, characterized in that zwi the hanger bolt ( 1 ) and the pressing element ( 3 ) an annular gap is provided into which the upper sealing part ( 4 ) partially protrudes on its underside. Device according to the preceding claim, characterized in that the upper sealing element ( 4 ) in its lower region and / or the one passage opening of the pressure element ( 3 ) tapers in the periphery downwards. Device according to at least one of the preceding claims, characterized in that the nut ( 5 ) and the upper sealing element ( 4 ) and / or the pressing element ( 3 ) and the lower sealing element ( 2 ) are integrated. Device according to at least one of the preceding claims, characterized in that at the upper, metric thread ( 11 ) a connecting part ( 7 ) is screwed tight for the solar system. Arrangement of the device according to at least one of the preceding claims, characterized in that - in the flat sheet metal covering ( 27 ) a penetration opening ( 28 ), and - the hanger bolt ( 1 ) through the penetration opening ( 28 ) with the lower, non-metric thread ( 11 ) in the one supporting roof construction ( 25 ) of the roof is screwed in, wherein - the penetration opening ( 28 ) to the hanger bolt ( 1 ) offers a sliding game, and wherein - by means of the nut ( 5 ) the upper sealing element ( 4 ) on the pressure element ( 3 ) and this on the lower sealing element ( 2 ) against the flat sheet metal covering ( 27 ) is pressed. Arrangement according to the preceding claim, characterized in that on the upper, metric thread ( 11 ) a supporting structure ( 29 ) of the solar system or a connecting part ( 7 ) is bolted to the supporting structure ( 29 ) of the solar system is firmly connected. Arrangement according to at least one of claims 8 or 9, characterized in that the size and / or the shape of the penetration opening ( 28 ) with the dimension and / or the direction of the temperature-related displacement of the flat sheet metal covering ( 27 ) corresponds. Arrangement according to at least one of claims 8 to 10, characterized in that on the roof a plurality of devices are provided in rows or raster-like.