DE202006009884U1 - Device for arrangement of photovoltaic modules over bearing surface has first cross-member element and support element whereby PV-module is arranged on cross member element - Google Patents

Abstract

Device has a first cross-member element (40) and a support element (7). A PV-module (1) is arranged on the cross member element and the support element of the first cross-member element is at a distance from the bearing surface (8). The device has a second cross-member element, which is arranged in the range of the photovoltaic module, covered freely over the bearing surface. An independent claim also included for cross-member element.

Description

The The invention relates to a substructure for a photovoltaic system (PV system), in particular a device for arranging photovoltaic modules (PV modules) on a support surface.

Of the Use of photovoltaic modules (PV modules) in production plants Electric energy from sunlight (solar systems) is known and widespread. Here are the PV modules, which usually have a rectangular, flat shape, arranged on surfaces which an unhindered Allow light to enter the PV modules. Preference is given here roofs of buildings used to support the PV modules. To the PV modules on the roofs or other surfaces To fix, devices are known in which the PV modules are mounted on a frame construction, which in turn the roof surface is attached. In the so-called flat roof elevation is usually a module row of vertically aligned modules on a crossbar pair attached. The crossbar pair is again on a column row superimposed and connected to this. Such Stützrei hen can be designed so that different angles of incidence occur. The angle of attack takes into account the angle of incidence of the sun worn, which changes during the year. The crossbar profiles be on the support elements attached, typically two cross member profiles a series of PV modules wear. The support elements become dependent certain boundary conditions, such as the building height, the snow load zones or the module heights, statically calculated. Usually the column distances are adjusted the system statics. conventional approaches consider typically only that the structure as simple as possible - e.g. also by laymen - made can be. Therefore, the required components (carrier and Support) always executed the same, so in a simple way a larger overall device to provide the same items. In addition, aesthetic play Viewpoints matter. A disadvantage of these known devices is that they are common stuck with the mounting surface, on which they are arranged to be bolted. For this are usually Drilling provided. By the penetration of the screws is the mounting surface destroyed or at least impaired. At the holes for the fastening screws must be z.T. complex sealing measures take place, e.g. to prevent the ingress of water. Every hole or screwing is a potential vulnerability. moreover costs are incurred per hole, which accumulate in such a way can that thereby the profitability when setting up a solar system is reduced.

Next the aforementioned devices are so-called gravity fasteners known. In these, support structures are used instead of the holes used, which are weighted, making this a reasonably durable Storage between the PV modules and the support surface ensured becomes. This technique is only suitable for largely flat surfaces. adversely this is also for that the weighting often additional Weights must be used which the roofs or balconies. This can lead to static problems. at This type of connection technology also remains a higher residual risk compared to the firmly anchored solutions, that the plant is exceptional Weather conditions, e.g. by wind, is moved.

Of the Invention is the object of a device of the initially called type to create, which is a safe and cost-effective arrangement of PV modules and overcomes the disadvantages of the prior art.

The The object is achieved by a Apparatus for arranging photovoltaic modules according to claim 1 solved. The device is supported according to the invention on the support surface such that in an area in which a photovoltaic module is arranged, the bearing surface spanned without support becomes. By the arrangement according to the invention can the number of points at which the device according to the invention on the support surface supported, be minimized. As a result, the support surface is spared and it can cost be saved. When dimensioning the number of vertices the static is to be considered. As stated above, have conventional Devices on substructures, which are only on the constructive simple composition or aesthetic Orientation points. The present invention introduces this new criterion. In fact, according to the invention, it is considered that a larger number of supporting elements can be saved when the device is constructed so that Areas of the support surface spanned without further proppant can be. traditionally, is the number of columns or support points on the support surface to the number of PV modules proportional, so too for conventional modular structures a very regular arrangement of the support elements is provided. In this case, the number of support points by the support elements approximately proportional to the number of PV modules used on the device rest.

The present invention overcomes this approach based on the recognition that it is advantageous and possible to save certain support points without adversely affecting the statics of the entire system. So can support elements According to the invention are slightly shifted relative to the PV modules, so as to achieve an optimal distribution of support elements for the entire construction, and thereby save other support elements. According to the invention, for example, also takes into account that the support elements with the bearing surface at one or more coupling points (such as screws on holes etc.) per support element are firmly coupled, and the number of support elements is to optimize a cost function, which is the number of required coupling points considered. Thus, the relationship between the number of PV modules to be set up and the required support elements can also be non-linear. The number of support points or support elements is optimized for a cost function, which takes into account additional parameters, such as the protection of the support surface or the number of holes required for mounting the support elements. In this case, an optimum is achieved, which does not have to correspond to the static minimum of the number of support elements. The protection of the support surface is taken into account with a certain weighting factor in the determination of the number of support elements. In particular, a device according to the invention is modular in design, with certain modules being designed to be supported by support elements, while other modules do not provide support elements. According to the invention, the number of supporting elements may be in an optimized ratio to the output power of the PV system and the number of PV modules. If necessary, the possible weather conditions, such as wind forces, etc. are to be considered separately. According to the invention, it is thus considered particularly advantageous, for example, to install individual rows of PV modules-insofar as these are arranged in rows-without a row of supporting elements assigned to them on the apparatus.

Prefers has the device according to the invention a cross member and a support element, wherein the PV module is disposed on the cross member and the support element the cross member from the lying surface spaced. According to this preferred embodiment these are the support points around defined support elements, which so-called cross member elements assigned which form a frame construction on which the PV modules are arranged. In this embodiment can advantageous certain support elements are saved, as far as the cross member elements configured are that they span the resulting area without support elements can.

Preferably has the device according to the invention for arranging PV modules on a support surface a first cross member and a support element on, wherein a PV module is arranged on the cross member and the support element the first cross member from the support surface spaced. Furthermore the device still has a second cross member, which in a Area in which a photovoltaic module is arranged, the support surface spans freely. The first and second cross member are preferably configured the same, but can with respect to the coupling with the support element differ. The number of support elements each cross member can e.g. in terms of the number of PV modules or the output power of the array to be arranged PV module can be minimized. According to the invention is taken into account, that the connection technology in terms of the number of Further optimizing PV modules, as it is conventional solutions is known. The conventional ones Fastening techniques, if any cross member elements used, not taken into account, that the purpose of the device in terms of the number of PV modules can still be optimized. The support elements are preferred designed as a post, so that the support occupies little space.

According to one preferred embodiment, the support elements are adjustable in length, so that by the length adjustment the support elements a different height the photovoltaic modules over the bearing surface can achieve. By This configuration can also be uneven ground compensate. Furthermore allows a height-adjustable support element the flexible construction of the photovoltaic modules in different Situations, so that also a shadowing, in particular by the Attic of a roof can be avoided.

Especially It is advantageous if the cross member element has a cross-sectional profile has, which is designed such that it is the support element section wise surrounds. Preferably, the cross member element therefor a C profile on. This can already by pushing or Mating the cross member elements with the support elements a stable substructure can be created. In particular, more can connecting measures be reduced. For example, between one end of the support element and the part of the carrier element, on which the support element is coupled, a form-fitting Coupling be provided. Preferably, it is sufficient if the profile of support element is designed so that it is sections in the extent of the scope of the support element open is.

A further preferred embodiment is to provide the cross member elements only a certain maximum or predetermined length. This allows the structure and the Facilitate transport. To complete the cross member later to a complete frame construction, the individual cross member elements (sections) are connected together. For this purpose, a cross member elements connecting piece is particularly preferably provided, which is positively inserted for coupling two cross member elements in the profile of two juxtaposed cross member elements from the shock. This allows two coincident cross member elements to be easily extended in one line. In this way, a stable connection is also ensured.

Preferably is in the device according to the invention a cross member designed and dimensioned to be essentially a series of PV modules, which perpendicular to the longitudinal axis of Crossbeam element runs, aufzulagern. There are a number of PV modules not in the strict sense to understand. The modules can well arranged in two dimensions in boxes next to each other be one side dimension of such a field a greater extent has as the other side dimension, giving the impression of a series or row of modules is created. This will be direct or indirect by means of further support devices or coupling devices supported on the cross member. In As a rule, at least two cross member elements are required to the series of PV modules essentially at the two ends of the To relocate series. The length of the Crossbeam element is essentially slightly longer than the width of a row of PV modules.

Preferably is the cross member further designed to be connected to another with a cross member connecting piece Bridge members To be coupled, so in the field of bearing a number of PV modules, as previously explained, the support surface without the use of another support element to span. This allows a partially free-bearing construction, which is modularly expandable and flexible to the local conditions consider can.

It is further preferred that the inventive device module supports and Angled elements for mounting a PV module on the cross member elements having. The angle elements can have a cross-sectional profile, which is a module support for Coupling encompasses what the advantages already described above in terms of the connection technique causes. The angle elements are preferably designed so that the PV modules arranged at a certain optimum slope for the incidence of light are.

Preferably have the support elements at its second end a support base on. The support base comes with the support surface or mounting surface screwed. this makes possible a simple degradation or other arrangement of the device according to the invention.

The The above object is inventively also of a cross member solved, which designed and dimensioned to be essentially a row of PV modules which are substantially perpendicular to the longitudinal axis of the cross member runs, aufzulagern. The dimensions of the cross member so can essentially the width of a series of PV modules, with one row of PV modules according to the above Explanations is to be understood. Preferably, such a cross member is also configured to connect with a cross member connecting piece to another Bridge members To be coupled, so in the area of Aufagerung the series of PV modules the bearing surface without overstretching the use of another support element. The crossbeam elements connector becomes preferably pushed into the cross member elements to be connected at the joint, around two cross member elements to pair.

It is particularly preferred, and of the embodiment of the inventive elements, such as Bridge members, Support elements, module supports and Winkelemente, favors, the device according to the invention build modular. For this purpose, the aforementioned components as Kit compiled and made of certain advantageous combinations a number of items to an entire substructure composed.

Preferably the device is configured to include a plurality of rows of PV modules, these being perpendicular to the PV modules extending rows of cross member elements be worn, and the support elements for Auflagerung of cross member elements alternately under a first row of PV modules are arranged, and a second to the first row of PV modules adjacent row of PV modules then need to have no support elements.

The technical problem of providing an improved device for supporting PV modules is also solved by a method which, taking into account an optimization of a cost function, saves support elements in order to reduce costs, costs and disadvantages for the existing bearing surfaces. In this case, the method according to the invention takes into account all the steps which are necessary in order to obtain an optimized number of supporting elements for a device according to the invention Provide device. In particular, it is considered in a method according to the invention that rows of PV modules are supported on certain cross member elements, wherein these cross member elements have no support elements and are coupled to other cross member elements, so that they can span the support surface without support elements.

The The present invention will now be described with reference to exemplary embodiments described with reference to the figures. It shows:

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

2 a top view of a device according to the invention,

3 an enlarged side view according to 1 the present invention

4 a cross section of a carrier element according to the invention,

5 a section through the carrier element according to the invention in the region of the bolt joint,

6 a cross section of a PV module Auflagungselements according to the present invention, and

7 the simplified representation of a plan view of an inventive arrangement.

1 shows the device according to the invention in a side view. There are three photovoltaic modules (PV modules) 1 shown. The PV modules 1 form rows, which would reach into the picture plane here. These are each on two angle elements 2 . 3 superimposed. The coupling between the PV modules 1 and the angle elements 2 . 3 is different depending on the manufacturer. The angle element 2 is with a module support 4 coupled. The angle element 3 and the module support 4 lie on a cross member 40 on and are bolted to this example. The cross member 40 in turn will be from the carrier support 7 worn, which on the support surface 8th is arranged. The cross member may be optimally divided into sections or consist of a plurality of cross members, which by means of connecting pieces 41 get connected. This will be discussed in detail later.

2 shows a plan view of a device according to the invention. The PV modules 1 are in parallel rows perpendicular to the cross member elements 40 arranged and stored on this. The cross member elements are supported by support elements 7 , carried. The rows A, B, D and E each have three support elements 7 on. The C series is without support elements 7 executed. The Querträ gerelemente 40 bridge here an area of the support surface, so that there are no support elements 7 required are. As a result, the advantage according to the invention is achieved that support elements can be saved. Accordingly, no holes or the like for the saved support elements o.Ä. required so that effort and costs are saved. Of course, it must be taken into account that the overall statics of the device allows saving the supports. Therefore, according to the invention advantageously only support elements 7 , Saved in the inner region of the device. In the marginal areas, however, predominantly support elements 7 provided, these are also displaced from the edge to the middle or can be omitted in certain cases as well. According to one aspect of the invention, for example, are among the PV modules 1 C row three cross member elements 40 (not shown), with cross member connecting pieces 41 (not shown) to the other cross member elements 40 coupled so as to allow a cantilevered construction for the row C.

3 shows a further, more detailed side view of the device according to the invention. The PV modules consist of a mounting side 103 , a front side 102 on which the light impinges, and an area 101 , which is electrically active. As already regards 1 explained, are the PV modules 1 on the angle elements 2 . 3 on the mounting side 103 superposed, with the angle element 2 a module support 4 having, which together with the angle elements 2 . 3 defined a certain angle of inclination. The connection of the PV modules 1 with the angle elements 2 . 3 and the connections between the angle elements 2 . 3 and the support element 4 as well as the crossbeams 40 can be done by conventional joining techniques, such as screwing, riveting, etc. The cross member 40 is on a support element 7 superimposed and coupled with this. The support element 7 has a support base 70 on. The support base 70 is by means of screws 75 connected to the support surface. The support element 7 is lined with thermal insulation from the inside. Here it is important to avoid the formation of condensate. In particular, the support element 7 connected to the roof waterproofing with suitable materials. Important is the dashed cross member connection part 41 , This is in the two abutting cross member elements 40 inserted and with each of these at the points 45 connected. This causes the cross member elements 40 piece by piece each a further cross member 40 or a similar carrier element can be extended. In addition, this construction allows a modular design, because the cross member elements 40 shorter than for the overall structure required. This is particularly advantageous if a certain area of the bearing surface 8th without the use of support elements 7 should be bridged. Accordingly, cross member elements 40 be configured to support elements 7 to be supported by them. Other cross member elements 40 can be configured without them a possibility for coupling a support element 7 provide. The selection and number of supports found in a structure according to the invention in the selection of the cross member elements 40 Consideration.

4 shows a cross section of a cross member according to the invention 40 , For example, it has a C-profile, as in 4 is shown with an edge 401 with the length P1L2 and two adjoining edges 402 with the length P1L1. The profile points between the edges 403 an opening 404 the width of P1L3. This opening 404 is configured to there the support element 7 to push in and hook up. If the circumference, or at least the width P1L3 of the opening 404 on the cross section of the support element 7 adapted, can already by placing the cross member element 40 on the support element 7 a virtually backlash-free storage in at least one direction can be provided. It can also be provided; that the tip of the support element 7 is configured to pass through a recess of the cross member element 40 to extend. Such a recess is in 4 not shown, but can eg 3 be removed. The connection between the cross member 40 and a support element 7 can by means of a connecting element 71 as it is also done in 3 is shown. For this purpose, the support element 7z .B. have a thread at one end, which through the recess of the cross member element 40 is pushed and screwed by a mother from the other side. According to a further advantageous Ausges taltung the present invention is at the upper end of the support element 7 a plate arranged with a thread in which a bolt is screwed. The cross member elements 40 have no recesses in this case. Instead, by turning the screw in and out, the height or the length of the support elements 7 be set individually. This allows the height of the cross member elements 40 above the support surface 8th be set.

5 shows a cross section through the cross member 40 in the region of the impact between two cross member elements 40 , Inside is the cross member connection part 41 , which in the two abutting cross member elements 40 is inserted. The edges 411 . 412 . 413 the cross member connection part 41 are designed so that they form-fitting from the inside to the edges 401 . 402 . 403 the cross member element 40 issue. Preferably, the cross member 40 and the cross member connecting part 41 both C-profiles, wherein the C-profile of the cross member element 40 is configured so that it is the C-profile of the cross member coupling part 41 includes positively. When the cross member connecting part 41 positively in the cross member 40 is fitted, is created by simply pushing together already a viable and backlash-free connection. The cross member connection part 41 can an opening 407 having a width P1L4. This can for example be smaller than the width P1L3 of the opening 404 the cross member element 40 ,

6 shows in 6 (a) an angular element 2 respectively. 3 (the angular elements 2 and 3 can be almost identical), and below in 6 (b) a support element 7 , 6 (a) shows a section through the angle element 2 which consists of the sections 201 . 202 . 203 . 204 . 205 consists. As well as the cross member 40 and the cross member connecting part 41 has the angle element 2 (as well as the angle element 3 ) advantageously a structure approximated to the C-profile. Between the sections 204 and 205 there is an opening 207 with the width P2L3. The section 203 has a length of P2L1, and the section 202 a length P2L4. The cuts 204 and 205 plus the length P2L3 of the opening have a total length of P2L2. The inclination of the section 201 can be used for the PV module 1 to be stored in an optimal inclination for solar radiation. Also in this elbow according to 6 (a) is an opening according to the invention 207 provided in which, for example, the module support 4 is insertable. In the case of a tailor-made design, a secure connection can also result here according to the invention when merely plugged together. The angle element 3 can be identical or similar to the angle element 2 be executed. 6 (b) shows a support element 7 , which typically has P3L2 and a diameter P3L1. The cross section of the support element 7 can be round, but also rectangular or square. The cross-section, the profile, or even a specific diameter, such as P3L1, of the support member, can on the opening 207 of the angle element 2 be coordinated. This creates the previously described possibility to obtain a secure connection already by mating. The support element 7 has on a second side, for example, a support base 70 on, with which the support element 7 on the support surface 8th is attached. The support base 70 typically has a pedestal for this purpose. At another end of the support element 7 can devices 71 for coupling with cross member elements 40 be provided.

In particular, the support element 7 , even though this is not immediately apparent from the illustration, adjustable in height. The height adjustment can be done, for example, telescopically. Another type of height adjustment can be brought about by the fact that support elements of different lengths are provided. Again, another type of height adjustment, as already described above, is to provide a bolt which is screwed into a thread. By inserting and unscrewing the bolt in the thread, the length of the support element is adjusted. On the bolt is then later the cross member 40 on.

In 7 is an inventive arrangement of PV modules 1 shown how it can be done on a flat roof, for example. The areas 20 . 30 are obstacles that have to be rebuilt with the PV system. The PV modules 1 are in turn on cross member elements 40 as already in 2 shown. The construction according to the invention makes it possible to support elements 7 save. Again 7 can be seen, the support elements can be 7 in the device according to the invention, in particular also independent of the rows of PV modules arrange, as far as they are under the cross member elements 40 are arranged. For certain bearing surfaces, it may be advantageous to displace the support elements from the edge region of the PV modules slightly inwards, resulting in the device according to the invention easily by moving whole cross-member element rows 40 make can. 7 does not differ according to cross member elements 40 and rows of cross member elements, preferably one cross member element per row of PV modules 1 is used and the cross member element by means of cross member connecting pieces 41 are assembled into rows of cross member elements. Note, for example, the maximum spans of the cross member elements 40 - Also, those by means of cross member connection parts 41 connected - for which static considerations are to be used. Based on the above considerations, the optimal arrangement as in 7 look like this.

It is considered to be particularly advantageous to design the components of the device according to the invention so that they interact in the manner described above. Here, modular kits with support elements 7 , Cross member elements 40 , Crossbar Elements Connectors 41 , Angle elements 2 . 3 , Support elements 40 etc. are offered in different quantities. According to the invention, it is considered that support elements 7 are to save, which is why the cross member elements 40 are interpreted statically according to if they are not on a support element 7 are superimposed.

Especially in the modular composition of support and support elements is considered according to the invention, that some support elements no support elements need. In that regard, modules of different composition are used, which the principle of the invention Saving of supporting elements consider.

Claims (13)

Device for arranging photovoltaic modules ( 1 ) over a support surface ( 8th ), characterized in that the device comprises a first cross member ( 40 ) and a support element ( 7 ), wherein a PV module ( 1 ) on the cross member ( 40 ) is arranged and the support element ( 7 ) the first cross member ( 40 ) from the support surface ( 8th ), the device comprising a second cross member ( 40 ), which in a region in which a photovoltaic module ( 1 ), the bearing surface ( 8th ) spans freely. Device according to claim 1, characterized in that the supporting element ( 7 ) is firmly coupled to the support surface at a coupling point, and the number of support elements ( 7 ) is optimized for a cost function that takes into account the number of required coupling points. Device according to one of the preceding claims, characterized in that the supporting element ( 7 ) for adjusting the height of the photovoltaic modules above the support surface ( 1 ) is adjustable in length. Device according to one of the preceding claims, characterized in that the first cross member ( 40 ) has a cross-sectional profile which is designed such that it the support element ( 7 ) surrounds. Device according to one of the preceding claims, characterized by a cross member connecting piece ( 41 ) for coupling two abutting cross member elements ( 40 ). Apparatus according to claim 5, wherein the cross member connecting piece ( 41 ) in the profile of the cross member elements ( 40 ) can be inserted from the joint to the two cross member elements ( 40 ) connect to. Device according to one of the preceding claims, characterized in that the cross member ( 40 ) and dimensioned to substantially a series of PV modules ( 1 ), which perpendicular to the longitudinal axis of the cross member ( 40 ) runs. Device according to one of claims 5 to 7, wherein the cross member is further configured to engage with a cross member connecting piece (10). 41 ) to further cross member elements ( 40 ), so as to be in the area of bearing the row of PV modules ( 1 ) the bearing surface ( 8th ) without the use of another support element ( 7 ) to span. Device according to one of the preceding claims, further characterized by a module support ( 4 ) for supporting and spacing a PV module ( 1 ) of a cross member ( 40 ) and an angle element ( 3 ) for inclined mounting of a PV module ( 1 ), wherein the angle element ( 3 ) have a cross-sectional profile which the module support ( 4 ) engages for coupling. Device according to one of the preceding claims, characterized characterized in that it is modular buildable and supplements. Device according to one of the preceding claims, characterized in that the cross member ( 40 ) has a C-profile as a cross-sectional profile. Cross member ( 40 ), which is designed and dimensioned to a number of PV modules ( 1 ), which are substantially perpendicular to the longitudinal axis of the cross member ( 40 ) runs. Cross member ( 40 ) according to claim 13, wherein the cross member ( 40 ) is further configured to with a cross member connecting piece ( 41 ) to another cross member ( 40 ), so as to be in the area of bearing the row of PV modules ( 1 ) the bearing surface ( 8th ) without the use of another support element ( 7 ) to span.