DE202009001810U1 - Solar module mounting - Google Patents

Abstract

Solar module mounting with a mounting rail for a solar module, which on both sides at least partially each has a fastening web, and with at least one for attaching the mounting rail to an object serving holding means, characterized in that the holding means (2) as - seen in cross-section - substantially U- shaped holder (1) with a plot (4) and two legs (5, 6) is formed, wherein the legs (5, 6) on their inner sides preferably mutually opposite receiving grooves (7, 8) for the fastening webs (13, 14) in which a first of the receiving grooves (8) has a height (h) which corresponds to the thickness (d) of the associated fastening web (14) for its essentially play-free reception and the other, second receiving groove (7) has a height (h) has, which is greater than the thickness (d) of the associated fastening web (13), that when received fastening web (13) of the holder (1) relative to the support 9) is tiltable, and wherein the distance (a ₁ ) between the groove base (15) of the second receptacle groove (15) can be tilted.

Description

The The invention relates to a solar module mounting with a mounting rail for a Solar module, the two sides at least partially each one Has fastening web, and at least one for fastening the support rail on an object serving holding means.

Solar module mountings for mounting solar modules are widely known in the art. Often be there first on an object, such as on a sloping roof of a Residential house one or more mounting rails attached to which subsequently the solar module itself is attached. The mounting rails serve as a basic framework for or the solar modules and allow easy and flexible installation on the roof. First would However, the mounting rails are fixed on the roof itself. Often have the support rails on both sides at least partially each have a fastening web. Usually, the fastening webs by means of screws and / or by means of rivets, in particular by means of self-drilling screws, on the object or the living roof established.

For the fitter This has the disadvantage that it has the mounting rail, which usually a length from above 6 meters, hold on the roof slope, align and at the same time screw down / rivet. To secure attachment of the solar module or To ensure the mounting rail to the object, several screws or self-tapping screws / tapping screws and / or rivets as holding means along the mounting rail or along the fastening webs provided. Hereby first Corresponding point pierces the mounting webs / the mounting rail Need to become. However, such a fastening of the mounting rail can, for example by weather-related temperature differences to high tension lead in the mounting rail. However, such a fastening of the mounting rail can, for example by weather-related temperature differences to high tension lead in the mounting rail. in the In the worst case, this can be a release the support rail of the subject to result.

It Thus, the object of the invention is a solar module attachment to Attach a solar module to create a simple Assembly as well as high load capacity or safety the solar module mounting ensures.

The object of the invention is solved by the features of independent claim 1. Thus, it is provided that the holding means as - seen in cross-section - is substantially U-shaped holder with a plot and two legs, the legs preferably have on their inner sides opposing grooves for the mounting webs, wherein a first of the grooves a height has, which corresponds to the thickness of the associated fastening web to its substantially backlash-free recording, and the other, second receiving groove has a height which is greater than the thickness of the associated fastening web, that when receiving the mounting web of the holder relative to the support rail is tilted, and wherein the distance between the groove bottom of the second receiving groove and the inside of the opposite leg is greater than the width of the support rail in the region of the fastening webs. It is therefore provided that the mounting rail can be fastened to a U-shaped holder, to which end the fastening webs can be introduced into the first and the second receiving groove. In this case, the first receiving groove allows a substantially play-free recording of the corresponding or associated fastening web of the mounting rail, to which the height of the receiving groove substantially corresponds to the thickness of the fastening web. Ultimately, therefore, the associated fastening web is embraced by the leg of the holder on both sides. The other fastening web of the mounting rail can be tilted in the second receiving groove, for which purpose the height of the second receiving groove is higher than the thickness of the associated fastening web. This means that the holder, while encompassing the corresponding fastening web with the second receiving groove, does not force it into a specific position and / or orientation. Thus, the support rail or the fastening web in the second receiving groove in the height displaced and thus the holder relative to the support rail or the support rail relative to the holder in the second receiving groove is tilted. Finally, the dimensions of the mounting rail and the holder are chosen such that the width of the mounting rail in the region of the fastening webs, ie ultimately the distance between the free ends of the mounting webs to each other, smaller than the distance between the groove bottom of the second receiving groove and the inside of the opposite leg. This has the consequence that when the support rail is displaced laterally with the corresponding fastening web in the second receiving groove to the groove base or moved, the other fastening web spaced from the inside of the opposite leg, so that its free end not with the inside of the leg in Touch comes. As a result, this attachment web is exposed between the legs of the holder, and in particular spaced from the first receiving groove. Thus, the support rail can be easily attached to the holder. All you have to do is use one of the Befes tion webs are laterally or radially inserted into the second receiving groove at least so far that the other fastening web is spaced from the inside of the opposite leg, that it can be tilted until it is aligned with the first receiving groove, finally displaced laterally into the first receiving groove to become. Due to the play-free recording of the fastening web in the first receiving groove, the mounting rail is now locked or fastened to the holder (or the holder on the mounting rail). In particular, the mounting rail is now held with two fastening webs, wherein the fastening web in the second receiving groove but not backlash-free but at least protected from tipping out by an appropriate choice of the height of the second receiving groove. For attachment, the support rail is thus pushed with a fastening web in the second receiving groove, tilted therein and then pushed so far with the other fastening web in the first receiving groove, that the first attachment web at least partially remains in the second receiving groove. To solve the mounting rail of the holder is proceeded accordingly. Whether the mounting rail is fastened to the holder or holder on the mounting rail is, of course, initially of no importance. When mounting the solar module mounting the holding means or the holder can now be attached to the object and then the mounting rail on simp che way to the holder. A complex axial threading of the mounting rail - ie in the direction of its longitudinal extent - is not necessary. In addition, the lateral play of the mounting rail in the holder allows, for example, temperature-induced deformation of the mounting rail without tension in the mounting rail and / or on the holder occur, which could lead to damage to the mounting rail and / or the holder.

Conveniently, is the distance between the groove bottom of the first receiving groove and the Inside of the opposite Thighs smaller than the width of the mounting rail in the region of the fastening webs. This has the consequence that in the lateral displacement of the mounting rail in the first receiving groove the opposite fastening web always at least partially remains in the second receiving groove. is the one holding web thus held in the first receiving groove, the other fastening web remains in the second receiving groove, so a release the support rail is effectively prevented by the holder.

advantageously, corresponds to the contour of the first receiving groove substantially the of the listener Fastening web. As a result, the fastening web is not only free of play in the first receiving groove is receivable, but is defined in this guided or held in a certain position / orientation. Is the mounting rail with the one mounting bar in the first Moving groove so the support rail is through the contour the first receiving groove held in position. This will an afterthought Tilt the mounting rail to the holder or the holder the support rail effectively prevented.

Additionally or alternatively, the second receiving groove preferably has a taper, their height the thickness of the associated Fastening web corresponds to the essentially play-free tilting bearing. It is thus provided that the second receiving groove has an undercut that is characterized by the rejuvenation is formed, the rejuvenation of the associated Fixing web overlaps in stock, so that this through the held second receiving groove, but is tiltable. Appropriately, is the rejuvenation designed in such a way that they are on both sides with the fastening web each forms a contact edge or line to which of the Fixing bridge can be tilted. In other words, defined the rejuvenation a stationary tilting axle for the mounting rail.

Prefers is the distance of the rejuvenation to the groove bottom of the opposite Receiving groove smaller than the width of the mounting rail in the area of Fastening webs. This ensures that the mounting rail, if you with the one attachment bar up to the groove bottom of the the first receiving groove is inserted, by the rejuvenation of the second Recording groove is still held. This is the mounting rail held on both sides substantially free of play on the holder as soon as she is inserted in the first receiving groove after tilting. The beneficial rejuvenation can additionally or provided as an alternative to the above contour of the first receiving groove be. Due to the two-sided essentially backlash-free bearings of the mounting rail is a tilting / blurring of the mounting rail in the assembled state permanently prevented, so for example, even in strong winds Solar module by means of solar module mounting always safe and secure is held on the object. In addition, disturbing rattling noises are prevented.

To a development of the invention, the second receiving groove in Substantially C-shaped, triangular, trapezoidal and / or circular segment formed, wherein the tapered Area always arranged in the entrance area of the second receiving groove is. The undercut always allows tilting of the mounting rail or the corresponding fastening web in the second Receiving groove.

Appropriately, the Aufnahmeu th aligned to each other, so that the first receiving groove and the second receiving groove are arranged at the same height on the inner sides of the legs. Accordingly, the mounting webs of the support rail are arranged in alignment with each other on the support rail.

Especially Preferably, the holder is formed substantially C-shaped. That means, that the first and the second receiving groove on each side by the property of the holder are limited. When mounting the DIN rail has this has the advantage of following the mounting rail on the property tilting, for example, flat can rest. Here, above all, the corresponding fastening web in a simple manner in alignment with the first receiving groove the tilting or tilting arranged / aligned. The mounting rail can thus initially during assembly in the second receiving groove pushed in, then as far as possible down to the property tilted and finally be moved in the first receiving groove to the groove bottom. The C-shaped Training of the holder also allows a simple and inexpensive Production of the holder.

To a development of the invention is provided that the holder at least one passage opening for a Fastening means, in particular a screw or the like, for securing the holder to the object. advantageously, has the holder at its two free ends or in the legs each have a passage opening for a fastener. Wherein the passage openings Naturally spaced from the respective receiving groove are arranged. The holder can thus be the first on the object in a simple manner attached, for example, be screwed.

advantageously, the holder has on at least one side of the passage opening a the passage opening surrounding sealing ridge on. The sealing bar is so sublime as a projection to the surface, at the passage opening passes, formed and surrounds the passage opening fully. When attaching the holder on the object is characterized an effective seal between the holder and the object or ensured, for example, a screw head. Da solar modules usually Used outdoors, this provides protection against unwanted Entry of, for example, rainwater into the solar module mounting. In particular, penetration of moisture into the article, where the holder or the solar module are attached should, prevented.

advantageously, the sealing web is at least partially elastically deformable, so that a high degree of sealing ensured even in the long term is. Often Solar modules are attached to a trapezoidal sheet, which is the water-repellent Continue to ensure the function of, for example, a rooftop should. Just here is the above-described seal by means of Seal of importance because there is a penetration of moisture or water through the trapezoidal sheet prevented becomes. Preferably, the passage opening on both sides of a them surrounding sealing ridge on.

Especially Preferably, at least the sealing web on the object associated side of the holder spaced from the passage opening arranged. The sealing web thus has a larger diameter than the passage opening and surrounds these spaced. As a result, between the passage opening and the sealing ridge formed a free space or hollow space. When mounting the holder this leads in addition, when tightening the holder to the object material of the holder penetrate into the free space and the sealing bar particularly tight can rest on the object. Especially if the item is designed as a trapezoidal sheet, this leads to a special high degree of sealing. The trapezoidal sheet is thereby tightening of the holder deformed in the region of the free space such that it is in the free space penetrates, with a full sealing edge on the Sealing web is created.

advantageously, are several holders arranged on the mounting rail, so that the mounting rail through several holders are held on the object. Preferred are the several holders aligned on the mounting rail the same. That means, that the holders are aligned parallel to each other and respectively one fastening bar in the first receiving slot and the other Attachment web is received in the second receiving groove. To a development of the invention is provided that at least one of the plurality of holders aligned opposite to the mounting rail is, so that this holder is rotated by 180 ° is arranged to the other holders on the mounting rail. Thereby For example, is the mounting bar, in the other holders rests in the second receiving groove, in this holder in the first Receiving groove. As a result, in particular the stability of the solar module attachment elevated.

According to an advantageous development of the invention, the solar module attachment has a holding plate which can be fastened to the mounting rail for the area-wise encompassing of at least one solar module, in particular a frame of the solar module. The retaining plate thus surrounds at least be reichsweise the top of a solar module, so that it is aligned with the mounting rail and held. For this purpose, the holding plate is designed, for example, substantially L-shaped or S-shaped. Also, the retaining plate may be T-shaped, then it is preferably used to attach two adjacent solar modules to the mounting rail, each one side of the retaining plate for holding or partially encompassing one of the solar modules or a frame of the solar modules used.

advantageously, at least one sliding block in / on the mounting rail is longitudinally displaceable arranged. The support rail has for this purpose a groove-shaped recess in the the sliding block along the support rail (longitudinal) is displaceable. Advantageously the retaining plate fastened to the sliding block, in particular screwed. Thus, the position of the solar module or the holding plate on the mounting rail variable by longitudinal displacement of the Nutsteins be determined. Conveniently, the sliding block a thread which serves to screw the retaining plate. Preferably, the sliding block and / or the mounting rail are designed such that they form a rear grip, so the sliding block not be solved radially or laterally from the mounting rail can. The support rail advantageously has a U-shaped cross-sectional profile on, with the sliding block held between the legs of the support rail is. Advantageously, the legs each have one on each side inwardly projecting guide bar or projection on the side of a loosening of the sliding block prevented from the mounting rail. The mounting rail thus has preferred - apart from the fixing bridges - one essentially C-shaped Cross-section on.

Farther it is provided that the holder and / or the mounting rail at least have an axial securing means. In the simplest case points to the Holder an axial stop for the support rail, so that they are not in the direction of their longitudinal extent can be pushed through the holder. The axial stop can, for example as a "Radial" projection on the Property be formed of the holder. In this case, the holder is as an end holder for formed the support rail. It is also conceivable radial projections in the area to provide the grooves. Alternatively or additionally the mounting rail have one or more axial stops in its fastening webs, in the mounted state with, for example, a front side of the holder interact. It is also conceivable, the mounting rail in particular screwed centrally in one or more places on the object.

Finally is provided that the support rail at least substantially made of aluminum and / or the holder at least substantially made of plastic, in particular Polyamide, is made. In the plastic-aluminum combination ensures the Holder in addition an electrical insulation between the trapezoidal sheet and the mounting rail, so that contact corrossion is prevented.

One Attach the solar module to the object with the one described above Solar module mounting is done as follows: First, at least two the holder is parallel and spaced from each other on the object, in particular by screwing, attached. Subsequently, will the mounting rail laterally with one of the mounting webs in the respective second receiving groove of the holder introduced and then so tilts that the other fastening bar is aligned with the first receiving groove. After all is the mounting rail after tilting laterally with the other Fixing web moved into the first receiving groove, so that the mounting rail on both sides with their fastening webs in the respective receiving groove is held. Finally the solar module is attached to the mounting rail.

Become frequent Solar modules on an angle aligned or inclined objects, such as rooftops, attached. In this case, it is appropriate if the two holders are arranged on the inclined object in such a way that each of the second receiving groove having legs above of the first receiving groove having leg is. This will be the Mounting rail by its weight and that of the solar module in the first Holding groove so that the mounting rail does not go by itself from the holder can, since the displacement of the support rail down limiting Groove of the first receiving groove closer to the inside or to the rejuvenation the second receiving groove is as the support rail in the area of her Fixing webs is wide.

at Attaching the solar module on a surveying object, in particular on a trapezoidal sheet metal, the holders are expediently attached to the elevations. Initially, only the attachment of two holders provided on the object, it is advantageous if after attaching the mounting rail to these two holders attaching another holder is carried out on the mounting rail. The first two holders serve thereby the Grobarretierung and in particular the alignment the mounting rail on the object. If the item is a survey Subject or a trapezoidal sheet, so more holders to simple Way later be arranged on the support rail.

advantageously, in particular before the attachment of the solar module, at least another holder in the area between two elevations by radial / lateral Sliding the second receiving groove on one of the fastening webs, tilt and then radial / lateral sliding of the first receiving groove on the other fastening web arrested and finally pushed onto one of the elevations axially along the mounting rail and fastened there, in particular screwed.

Finally will at least one of the other holders is oriented in the opposite direction, so rotated by 180 ° is attached to the mounting rail. That means that at least one of the holders mirror is arranged on the mounting rail, so that the one fastening web in the first receiving groove and the other attachment bridge lies in the other receiving groove, while at the other holders of a fastening web in the second receiving groove and the other fastening web lies in the first receiving groove. Thereby becomes a release the support rail even with a high load of the solar module and / or prevents the mounting rail in a simple manner. Furthermore This is a deformation of the support rail, for example a Temperature-induced deformation, limited in a simple manner.

in the The invention is based on an advantageous embodiment be explained in more detail. Show this

1 an advantageous holder in a perspective view,

2 a mounting rail in a cross-sectional view,

3 the holder off 1 in a side view,

4 a cross section through the holder,

5A to C the gradual attachment of the mounting rail to the holder,

6 two mounting rails fastened on a trapezoidal sheet,

7A to D the stepwise attachment of another holder to the mounting rail,

8th the support rail fastened with several holders to the trapezoidal sheet,

9 a holding plate serving for fastening a solar module to the support rail in an exploded view,

10 the retaining plate in a mounted representation,

11A and B alternative embodiments of the retaining plate and

12 a cross section through the mounted holder.

The 1 shows in a perspective view as - seen in cross-section - substantially U-shaped holder 1 trained holding means 2 a solar module attachment 3 , The holder 1 has a plot 4 as well as two thighs 5 and 6 on both sides of the property 4 on. On their insides, each of the legs has a receiving groove 7 respectively 8th on. The recording grooves 7 and 8th are opposite each other in alignment with each other in the holder 1 educated. Both recording grooves 7 . 8th extend over the entire width of the holder 1 , The recording grooves 7 . 8th serve to accommodate mounting webs of a mounting rail, as for example in the 2 is shown.

The 2 shows a mounting rail 9 the solar module mounting 3 in a cross-sectional view. The mounting rail 9 has a substantially C-shaped cross-sectional profile, with a plot 10 and two thighs 11 , each on its inside a designed as a (radial) projection guide bar 12 exhibit. The property 10 extends on both sides over the legs 11 out into two fixing bars 13 . 14 , The two fastening webs 13 . 14 have the same thickness d and also extend over the entire length of the mounting rail 9 , Ultimately, the mounting rail 9 formed mirror-symmetrically. The recording grooves 7 . 8th So serve to accommodate the mounting webs 13 . 14 the mounting rail 9 , For this purpose, the grooves 7 . 8th as best in the 3 in a plan view of the holder 3 illustrated, at least partially a height h, which is substantially the thickness d of the fastening webs 13 . 14 corresponds to their essentially play-free recording. The contour of the receiving groove 8th corresponds essentially to the contour of the fastening web 14 , The receiving groove 7 on the other hand, the height h only in the entrance area. In the direction of her groove bottom 15 towards the receiving groove widened 7 or increases your height so that it forms an undercut. In the present embodiment, the receiving groove 7 a substantially trapezoidal cross-section, wherein the surface 16 of the property 4 in the receiving groove 7 not like in the receiving groove 8th just continues, but drops by an angle α, so that the height of the plot 4 reduced and that of the receiving groove 7 increased. In other words, the receiving groove 7 a rejuvenation 18 on, with the rejuvenation 18 of course, the narrowest Be rich of the receiving groove 7 forms and correspondingly has the height h. In transition from the plane surface 16 to the sloping is in the present embodiment, a rounding 17 at about the level of the inside of the thigh 6 intended. In the present embodiment, the rounding has an advantageous radius of 20 mm, wherein the angle α is expediently chosen such that one along the sloping surface 16 aligned (imaginary) line on the thigh 6 leads past.

Furthermore, the distance a ₁ between the groove bottom 15 to the inside of the opposite leg 6 larger than the width b of the mounting rail 9 in the area of the fastening webs 13 . 14 ,

Furthermore, the distance a ₂ between the groove bottom 19 the receiving groove 8th and the rejuvenation 18 or the inside of the opposite leg 5 (In the present case, this is no difference) chosen smaller than the width b of the mounting rail 9 in the area of the fastening webs 13 . 14 ,

Further, in the holder 3 two through holes 20 . 21 each in one of the thighs 5 . 6 trained as best in the 4 seen. This shows a section through the holder 3 along the line AA from the 3 , Like from the 4 further apparent, the holder has 3 on its underside a cavity 22 in the form of a recess, which leads to both a saving of material and the manufacture of the holder 3 facilitated. The holder 1 As a result, it has essentially the same material thickness everywhere. Advantageously, the holder 3 essentially of a plastic, in particular of polyamide 6.6 with a glass fiber content of 30 to 40%, in particular of 35%. The holder 1 can be produced, for example, in an injection molding process. The thigh 5 . 6 of the owner 1 have at their top or at their free end, one each the respective passage opening 20 . 21 surrounding sealing bar 23 . 24 on. The sealing bars 23 . 24 are annular and coaxial with the respective passage opening 20 . 21 arranged. Conveniently, the sealing webs 23 . 24 integral with the holder 1 formed and also have a rounded surface. On the function of the sealing webs 23 . 24 will be discussed later.

The following is based on the 5A to C the installation of the solar module mounting 3 with the mounting rail 9 and the holder 1 be explained. First, the holder 1 on an object 25 , here a trapezoidal sheet 26 , attached. These are two preferably self-drilling screws as fasteners 27 in the through holes 20 . 21 of the owner 1 guided and in the object 25 screwed. Subsequently, the mounting rail 9 with the fastening bridge 13 laterally into the receiving groove 7 brought in. Because how to 3 already explained, the distance between the inner sides of the legs 5 and 6 smaller than the width b of the mounting rail 9 in the area of the fastening webs 13 . 14 is, the mounting rail can not easily in the holder 1 be inserted. The advantageous embodiment of the receiving groove 7 allows the tilted or oblique insertion of the mounting rail 9 with the fastening bridge 13 , where first the fastening web 13 into the recessed or widespread area of the receiving groove 7 is inserted. Due to the advantageous choice of the angle α and the above distances, the support rail can be 9 so introduce in a simple way. Wherein, due to the above-mentioned advantageous choice of the angle α for the fitter especially easy the support rail on the inner upper edge of the leg 6 put on and then into the receiving groove 7 can be inserted. The rejuvenation 18 the receiving groove 7 causes a stationary tilting axis for the mounting rail 9 is formed. The mounting rail is so far into the receiving groove 7 pushed in until the fastening bar 14 over the inside of the thigh 6 led out. Subsequently, the mounting rail 9 like in the 5D shown tilted around said tilting axis so that they are on the property 4 or on the surface 16 of the property 4 rests (here by an arrow 29 indicated). Due to the advantageous design of the mounting rail 9 as well as the owner 1 lies after tilting the fastening web 14 in alignment with the receiving groove 8th in the holder 1 , By moving sideways in the direction of an arrow 30 , like in the 5C shown, now the fastening web 14 in the receiving groove 8th to the groove bottom 19 brought in. By the advantageously selected distance a ₂ while the fastening web 13 continue in the receiving groove 7 held, so now the mounting rail 9 on the holder 1 is firmly locked. Due to the choice of the height h and the thickness d is now the mounting rail 9 essentially free of play on the holder 1 held.

The mounting rail 9 So is a particularly simple way to the holder 1 attachable, which itself is easy to attach to an object. This results in a particularly easy-to-handle solar module attachment 3 ,

The 6 shows the inclined trapezoidal sheet 26 with two mounting rails attached to it 9 , Advantageously, for securing a mounting rail 9 first two of the holders 1 spaced and parallel to each other on the object or on the trapezoidal sheet 28 attached. Due to the parallel arrangement are the grooves 7 and 8th each on the same Side, so the mounting rail 9 in a simple way at the same time in both holders laterally as above to the 5A to C described can be used. The arrows 31 indicate the orientation of the holder 1 at, wherein the arrows in each case in the direction of the receiving groove 7 pointing, ie in the direction in which the mounting rail 9 must first be moved laterally during attachment. By previously attaching the two holders 1 can the mounting rail 9 in a simple way on the trapezoidal sheet 26 or be aligned and held on an object. On the mounting rails 9 , like in the 6 shown, then solar modules can be attached. Since these usually have a not insignificant weight, it is advantageous to more holders 1 provided to the solar module mounting 3 to give the necessary stability and strength. In principle, it is of course conceivable before attaching the mounting rail to the holders 1 , like in the 6 shown, more holders 1 provide so that the support rail 9 in all holders 1 used simultaneously as described above. Does the object surveys, such as the trapezoidal sheet 26 , so there is another method for adding additional holders:

The 7A to D show the attachment of another holder 1 on the already on the trapezoidal sheet 26 fixed mounting rail 9 , like in the 6 shown. First, the other holder 1 between two surveys 32 of the trapezoidal sheet 26 positioned. Subsequently, the other holder 1 , like in the 7B shown with the receiving groove 7 on the mounting bridge 13 in the direction of the arrow 34 postponed. Subsequently, the other holder 1 on the mounting rail 9 tilted, as in the figure C by an arrow 35 indicated, and with the receiving groove 8th on the other fastening bar to the groove bottom 19 deferred, so the holder 1 on the mounting rail 9 is locked. Finally, the other holder 1 axially, ie longitudinally along the mounting rail 9 except for one of the adjacent surveys 32 of the trapezoidal sheet 26 pushed and there by means of screws or fasteners 27 attached. In this way, any number of holders (essentially corresponding to the number of surveys) for solar module attachment 3 added and thereby the stability and resilience of solar module mounting 3 increase.

When tightening the screws or fasteners 27 will the screw head (as in 12 shown) on the sealing webs 24 respectively 23 pressed, which deform at least partially elastically and a particularly durable seal between the fasteners 27 and the holder 1 arises. This prevents moisture or rainwater from passing through the trapezoidal sheet 26 penetrates.

The 8th shows in a perspective plan view of an enlarged portion of the support rails 9 from the 6 with a variety of the holders 1 , taking on each survey 32 of the trapezoidal sheet 26 a holder 1 is provided. Advantageously, however, the orientation of the holder 1 as by the arrows 31 indicated selected such that at least the outermost illustrated holder 1 the other way around, so they are aligned rotated by 180 °. This can improve the stability of the solar module attachment 3 be further increased. In particular, this can be a deformation of the support rail, which takes place, for example due to temperature, prevented or limited.

The two first fastened holders 1 , like in the 6 represented, are advantageously aligned such that the support rail 9 already due to the gravitational force in the holders 1 is held. These are the holders 1 , like in the 6 represented, on the oblique or inclined trapezoidal sheet 26 aligned that the arrows 31 upwards or the receiving groove 8th below the receiving groove 7 lies, so that the mounting rail 9 in the mounting rail 14 on the groove bottom 19 rests. The advantageously rounded, the thighs 5 . 6 forming ends of the holder 1 ensure a good drainage of rainwater.

The 9 shows in a perspective exploded view of another advantageous part of the solar module attachment 3 , The 9 shows a holding plate 37 , for the partial embrace of a solar module 38 (shown here only partially) or a frame 39 of the solar module 38 serves. The retaining plate 37 is substantially S-shaped or stepped and has in one step 40 a passage opening 41 on, through which a screw 42 can be performed to tighten the retaining plate.

In the mounting rail 9 is still a nutstone 43 mounted axially displaceable. The guide bars 12 the thigh 11 the mounting rail 9 serve to guide and hold the sliding block 43 , Which on both sides in each case a corresponding recess for receiving the guide webs 12 having. In the present embodiment, the sliding block 43 designed in two parts, so that it can be made particularly simple and inexpensive. Through the leadership of the Nutstein 43 by means of the guide webs 12 is the nutstone 43 always the same on the mounting rail 9 aligned and tilting the Nutstein 43 will be prevented. Furthermore, the sliding block 43 a threaded hole 44 for the screw 42 on.

When mounting the solar module 38 , the present as a photovoltaic module 45 is formed, first, the solar module 38 on the mounting rail 9 placed and pushed in the appropriate position or aligned. Subsequently, the holding plate 37 by means of the screw 42 at the sliding in the corresponding position sliding block 43 attached. Of course, also the holding plate 37 first on the sliding block 43 attached and then moved together with the sliding block so that the retaining plate 37 the frame 39 of the solar module 38 like in the 10 partially encompassed. By tightening the screw 42 Now is the photovoltaic module or solar module 38 attached.

The 11A and 11B each show in a perspective view alternative embodiments of the retaining plate 37 , Become several solar modules 38 adjacent, so next to each other, on the mounting rail 9 attached, it is advantageously in the 11A and 11B selected embodiment of the retaining plate 37 between two adjacent solar modules 38 intended. That in the 11A illustrated holding plate 37 is substantially V-shaped, and at the same time surrounds both adjacent solar modules 38 or its frame 39 , The screw 42 is doing between the two legs of the V-shaped retaining plate 37 intended.

That in the 11B illustrated holding plate 37 on the other hand is T-shaped, the crossbeam the frame 39 the solar modules 38 surrounds and the longitudinal beam between the frame 39 rests and thus also serves as a spacer.

The 12 shows in a cross-sectional view of the mounted holder 1 in a further preferred embodiment. To that in the 4 illustrated embodiment of the holder 1 this is different in the 12 illustrated embodiment in that the holder 1 at its bottom, so at the object 25 associated side another the through hole 20 surrounding sealing bar 45 having. The sealing bar 45 is spaced from the passage opening 20 and arranged coaxially to this, leaving a free space 46 between the bottom of the holder 1 and the object 25 , or the trapezoidal sheet 26 is formed. When mounting the holder 1 this is first on the trapezoidal sheet 26 put on with its underside. Subsequently, as a fastener 27 a screw 47 in the passage opening 20 introduced and in or through the trapezoidal sheet 26 screwed. Once by screwing the holder 1 between the screw head 48 and the trapezoidal sheet 26 is clamped, the trapezoidal sheet begins 26 by further turning the screw 47 in the open space 46 to shift or bend. This results in the sealing web 45 a sealing edge 49 which leads to a particularly high degree of sealing of the seal proposed here. In the present case, the sealing bar 45 through a free space 46 forming recess 50 as well as through the holraum 22 educated. This is the holder 1 with the bottom of its sidewalls 51 as well as with the sealing bar 45 on the still flat trapezoidal sheet before mounting 26 on. Advantageously, each of the passage openings 20 . 21 of the owner 1 a corresponding sealing web 45 assigned at the bottom.

Instead of of a photovoltaic module can of course also a thermal solar module, such as a solar panel or vacuum tube collector, be provided.

Overall, the solar module attachment 3 Thus, a particularly simple and cost-effective way to attach solar modules to an object, such as on a trapezoidal sheet. Whereby by holding the mounting rail 9 by means of the fastening webs 13 . 14 and the recording grooves 7 . 8th of the owner 1 For example, a temperature-induced distortion of the mounting rail 9 is prevented, since in particular a change in length of the support rail is not affected by the advantageous holding means.

Claims (23)

Solar module mounting with a mounting rail for a solar module, which has on both sides at least partially each having a fastening web, as well as with at least one for securing the mounting rail to an object serving holding means, characterized in that the holding means ( 2 ) as seen in cross-section substantially U-shaped holder ( 1 ) with a plot ( 4 ) and two thighs ( 5 . 6 ) is formed, wherein the legs ( 5 . 6 ) on their inner sides preferably opposing grooves ( 7 . 8th ) for the fastening webs ( 13 . 14 ), wherein a first of the receiving grooves ( 8th ) has a height (h) corresponding to the thickness (d) of the associated fastening web ( 14 ) corresponds to its substantially play-free recording and the other, second receiving groove ( 7 ) has a height (h) which is greater than the thickness (d) of the associated fastening web ( 13 ) is that when received fastening web ( 13 ) the holder ( 1 ) opposite the mounting rail ( 9 ) is tiltable, and wherein the distance (a ₁ ) between the groove bottom ( 15 ) of the second receiving groove ( 7 ) and the inside of the opposite leg ( 6 ) greater than the width (b) of the mounting rail ( 9 ) in the region of the fastening webs ( 13 . 14 ). Solar module mounting according to claim 1, characterized in that the distance (a ₂ ) between the groove bottom ( 19 ) of the first receiving groove ( 8th ) and the inside of the opposite leg ( 5 ) is smaller than the width (b) of the mounting rail ( 9 ) in the region of the fastening webs ( 13 . 14 ). Solar module mounting according to one of the preceding claims, characterized in that the contour of the first receiving groove ( 8th ) substantially that of the associated fastening web ( 14 ) corresponds. Solar module mounting according to one of the preceding claims, characterized in that the second receiving groove ( 7 ) a partial rejuvenation ( 18 ), whose height (h) corresponds to the thickness (d) of the associated fastening web to its essentially play-free tilting bearing. Solar module fastening according to one of the preceding claims, characterized in that the distance of the taper ( 18 ) to the groove bottom ( 19 ) of the opposite receiving groove ( 8th ) smaller than the width (b) of the mounting rail ( 9 ) in the region of the fastening webs ( 13 . 14 ). Solar module mounting according to one of the preceding claims, characterized in that the second receiving groove ( 7 ) is substantially C-shaped, triangular, trapezoidal and / or circular segment-shaped. Solar module mounting according to one of the preceding claims, characterized in that the receiving grooves ( 7 . 8th ) are arranged in alignment with each other. Solar module mounting according to one of the preceding claims, characterized in that the holder ( 1 ) is formed substantially C-shaped. Solar module fastening according to one of the preceding claims, characterized in that the holder ( 1 ) at least one passage opening ( 20 . 21 ) for a fastener ( 27 ), in particular a screw or the like, for fastening the holder ( 1 ) on the object ( 25 ) having. Solar module fastening according to one of the preceding claims, characterized in that the holder ( 1 ) on at least one side of the passage opening ( 20 . 21 ) one the passage opening ( 20 . 21 ) surrounding sealing web ( 23 . 24 ; 45 ) having. Solar module fastening according to one of the preceding claims, characterized in that the sealing web ( 23 . 24 ; 45 ) is at least partially elastically deformable. Solar module mounting according to one of the preceding claims, characterized in that at least the sealing web ( 45 ) on the side of the holder associated with the object ( 1 ) spaced from the passage opening ( 20 ) is arranged. Solar module mounting according to one of the preceding claims, characterized in that between the spaced apart from the passage opening ( 20 ) arranged sealing web ( 45 ) and the passage opening ( 20 ) a free space ( 46 ) for receiving a by screwing the holder ( 1 ) on the object ( 25 ) deformed portion of the article ( 25 ) is formed. Solar module mounting according to one of the preceding claims, characterized in that the spaced apart sealing web ( 45 ) one the deformable area of the object ( 25 ) limiting sealing edge ( 49 ). Solar module mounting according to one of the preceding claims, characterized in that a plurality of holders ( 1 ) on the mounting rail ( 9 ) are arranged. Solar module mounting according to one of the preceding claims, characterized in that the plurality of holders ( 1 ) on the mounting rail ( 9 ) are aligned the same. Solar module mounting according to one of the preceding claims, characterized in that at least one of the plurality of holders ( 1 ) on the mounting rail ( 9 ) is oppositely oriented. Solar module mounting according to one of the preceding claims, characterized by a on the mounting rail ( 9 ) fastenable retaining plate ( 37 ) for partially encompassing at least one solar module ( 38 ), in particular a framework ( 39 ) of the solar module ( 38 ). Solar module mounting according to one of the preceding claims, characterized in that at least one sliding block ( 43 ) in / on the mounting rail ( 9 ) is arranged longitudinally displaceable. Solarmmodulbefestigung according to any one of the preceding claims, characterized in that the retaining plate ( 37 ) on the sliding block ( 43 ) fastened, in particular screwed. Solar module mounting according to one of hergehen claims, characterized in that the holder ( 1 ) and / or the mounting rail ( 9 ) have at least one axial securing means. Solar module mounting according to one of the preceding claims, characterized in that the mounting rail ( 9 ) is made at least substantially of aluminum. Solar module fastening according to one of the preceding claims, characterized in that the holder ( 1 ) is made at least substantially of plastic.