DE102010007551A1 - Reinforcement steel mesh is provided in combination with multiple photovoltaic modules and multiple fastening units, where fastening units are connected with reinforcement steel mesh in force-fit manner on one side - Google Patents

Abstract

The reinforcement steel mesh is provided in combination with multiple photovoltaic modules (5) and multiple fastening units. The fastening units are connected with the reinforcement steel mesh in a force-fit manner on one side and with the photovoltaic modules on the other side. A grid of different-sized rectangles forms its longitudinal rods and transverse rods. The fastening unit has a cavity for partially receiving a crossing point or a section of the longitudinal- and transverse rods of the reinforcement steel mesh.

Description

The invention relates to a mounting pad for mounting a plurality of photovoltaic modules on top of a flat or uneven roof skin.

At present, two approaches for equipping a flat or pitched roof with a solar collector system are common, as they are based on the 1 and 2 to be discribed. As it is in the 1 shown are concrete blocks 1 placed on the roof, each with a support structure 3 connected on which conventional photovoltaic modules 5 be mounted in glass technology. This approach has the disadvantage that it is difficult and must be taken into account in the statics. Furthermore, the cost of materials is high. In contrast, there is the advantage of high efficiency, since photovoltaic modules can be mounted with one or two glass panes at a favorable angle.

The second procedure provides, on the flat roof a mounting foil 7 to stick and this with a module foil 9 connect to. This design is associated with a low roof load and low material costs, but has the low efficiency of module foils. The assembly is easy and cheap, as the film 7 . 9 only in an up / down direction 11 needs to be designed and connected to the roof skin by gluing or welding.

From the earlier application EP-A-08 018 443 It is also known to the Applicant to provide a backing in the form of a long-extending strip. The bottom of the pad has a substantially planar structure, so that it is well connected to the roof skin. The upper surface of the pad is interrupted by recesses extending parallel to one another transversely to a direction of unwinding / unrolling, so that limited segments form from the recesses. In one part of the segments, a fastening means for the photovoltaic modules is integrated in each case, which are arranged in the up / down direction in a predetermined grid to each other. This document is only for roofs with a flat, smooth roof skin from z. As foil, copper or galvanized sheet suitable because the pad is glued or welded to the roof skin. In addition, it is very large-scale execution, since the load of the photovoltaic modules, as well as snow and wind forces must be absorbed by the pad.

The invention has for its object to provide a substrate for photovoltaic modules, which is used during assembly as an aid in the alignment and adjustment of the individual PV modules, which also serves as a weighting, and which can be produced as a low-cost standard mass component.

This object is achieved by a mild steel mat, which is provided in combination with a plurality of photovoltaic modules and a plurality of fastening means, wherein the fastening means are on the one hand non-positively connected to the mild steel mat and on the other hand positively connected to the photovoltaic modules. Depending on the selected fastener can be used as a steel mesh a commercial galvanized product with a suitable grid of z. B. be taken five cm, or it is adapted to the photovoltaic modules regular or irregular grid dimension taken in each case two longitudinal and transverse bars relatively close to each other and there is a greater distance between these parallel pairs of bars. In this case, the property of the roll-up, as is partially given in the prior art omitted.

In the previously described embodiment of the structural steel mat with two closely juxtaposed longitudinal and transverse bars results in a grid of different sized rectangles. In the case of a two-part fastening means, then at least the part of each fastening means arranged at the bottom is adapted in its dimension to the smallest rectangle such that the fastening means is securely held in the smallest rectangle defined by the longitudinal and transverse rods. This is later again on the basis of 7 shown.

It is advantageous if the fastening means has a cavity for at least partially receiving at least one crossing point and / or a portion of the longitudinal and transverse bars of the structural steel mat. When receiving a crossing point of the cavity consists of two mutually perpendicular grooves whose cross-sections are suitable for receiving the steel wires or rods of the structural steel mat. One of the grooves is usually deeper than the other groove, because in longitudinal steel mats, the longitudinal and transverse bars intersect at different levels. In the alternatively mentioned receiving a portion of the longitudinal or transverse bar, the fastening means is provided on at least one side with an elongated recess for engagement in a portion of the longitudinal or transverse bars.

When using a one-piece fastener in which the longitudinal and / or transverse bar of the structural steel mat is completely in an elongated recess or groove, should at least one of the elongated recesses along one or both edges or alternatively along a more internal line of the lateral, in the direction the bars running flanks of the Cavity limitation be provided with an inward thickening. This measure provides a clip effect for clamping the fastening means in the longitudinal and / or transverse bar. Advantageously, the cavity is accessible from its underside. The fastener is then latched into the structural steel mat from above.

When choosing a two-part fastening means with an upper and a lower part, it is provided that a lower part of the cavity is accessible from the upper side of the lower part. In the lower side of the upper part then a supplement of the cavity is provided to a matched to the node or to the longitudinal or transverse bar shape. The upper and the lower part of the fastener are connected together with Zwischenklemmung a portion of the structural steel mat. The adapted shape may be such that, after joining the upper and lower parts, the cavity forms a closed tube in which the longitudinal or transverse bar is located, or forms intersecting tubes in which there is a nodal point of the structural steel mat. In this case, the cavity formed by the upper and lower part of the fastening means does not have to form a closed circular cross-section. Especially with one node, two mutually perpendicular half-tubes are the better choice.

The underside of the fastening means intended to rest on the roof skin should be flat and provided with rounded edges. The fastener should be dimensioned in its dimensions so that its underside after assembly a few centimeters, z. B. 2 cm to 5 cm, is removed from the structural steel mat. This ensures that the structural steel mat does not get in direct contact with the roof, but is held by the fasteners in the above-mentioned distance above the roof. It is then only the fasteners that support the structural steel mat against the roof. Thus, the pad is also suitable for use on uneven and rough surfaces. This additional feature is especially popular with roofs whose roof skin consists of shingles that form at their overlaps a bump like a step or a step where a gluing or welding is not possible. This is the case, for example, with shingles made of sanded tar paper shingles, which are widespread in the USA, but also on local roofs covered with wooden shingles.

In order to further reduce the risk of damage to the roof skin, the fastening means may be provided on its underside with an elastic material, for example a permanently elastic adhesive or a rubber pad.

In the two-part fastening means, the upper and the lower part must be positively connected to each other during assembly. This can be done with the mounting of the mounting bracket for the PV module, or separately, z. B. by means of one or more latchable plug-in elements. The top of the fastener may already be provided during its manufacture with a component of a clamping connection for the photovoltaic module. Such integral incorporation may in the simplest case be pouring of a threaded bushing provided with an anchor. The fastener produced as a plastic injection molded part firmly encloses the threaded bush, into which the module clamp is screwed later.

Further advantages and embodiments of the invention will become apparent from the description of an embodiment with reference to the figures, all of which are not drawn to scale and in part within one and the same figure no size ratios to each other. Show it:

1 a known mounting of photovoltaic modules on a flat roof;

2 a known installation of a photovoltaic film on a flat roof;

3a a first embodiment of a suitable structural steel mat;

3b a second embodiment of a suitable structural steel mat;

4 a section of a structural steel mat with four different fasteners in supervision;

5 a section along the line VV in 4 ;

5a Top view of the top of a lower fastener part;

6 a section along the line VI-VI of 4 ;

7 a section along the line VII-VII of 4 ;

8th a section along the line VIII-VIII of 4 ; and

9 a fastener with hooks.

In the 3a and 3b is with 15 a Baustahlmatte called at the a variety of fasteners 17 is provided. The structural steel mat 15 is a commercial, galvanized mat made up of crossbars 19 and longitudinal bars 21 composed at their intersections or junctions 23 welded together. The fasteners 17 are arranged at a pitch R1 in the horizontal direction and at a pitch R2 in the vertical direction. The grid R1 can be equal to the grid R2, as it is in the 3b is shown, which is not a requirement. It is advantageous if the longitudinal and transverse bars 21 . 19 are arranged so that at least part of their nodes 23 are adapted to the grid dimensions R1, R2, ie, that R1 and R2 is an integer multiple of the bar-to-bar spacing of the structural steel mat 15 is. This is a prerequisite when attaching the fasteners 17 the nodes 23 should include what makes sense to slipping and twisting the fasteners 17 to prevent. In principle, however, is the mounting of the fastener 17 alone on a transverse or longitudinal bar 19 . 21 possible, but then requires a high clamping force to slipping the fastener 17 along the bar 19 . 21 to prevent.

In the execution of the structural steel mat 15 after 3b arise with the transverse and longitudinal bars 19 . 21 as boundary different sized rectangles, of which the smallest rectangle 25 , in this case a square, should be highlighted, as it is for a separate variant of the fastener 17 is important.

In the 4 is the structural steel mat 15 with four variants of a fastener arranged on or in it 17 ' . 17 '' . 17 ''' . 17 '''' the dimensions of the fastener 17 ' The first variant covers four nodes 23 all in the fastener 17 ' are embedded. The fastener 17 '' The second variant has one to the dimension of the smallest rectangle 25 adjusted middle part in the manner of a square profile in the rectangle 25 lies. The fastener 17 ''' The third variant is for mounting on a single node 23 designed and the fastener 17 '''' The fourth variant is for mounting on a transverse or longitudinal bar 19 . 21 intended.

In the 5 and 6 is ever a sectional view through the fastener 17 ' the first variant shown, along with the location of the in the fastener 17 ' jammed transverse and longitudinal bars 19 . 21 the structural steel mat 15 , The fastener 17 ' has an upper part 17b and a lower part 17a on, the latter under the structural steel mat 15 is pushed. As it is from the 5a it can be seen are in the top of the lower part 17a two transverse grooves 27 one formed by two longitudinal grooves 29 to be crossed. The transverse grooves 27 lie below the longitudinal grooves 29 , The dimensions of the longitudinal and transverse grooves 29 . 27 are sized so that all four nodes 23 the structural steel mat 15 along with their adjacent sections of transverse and longitudinal bars 19 . 21 can be included. It is advantageous if the overhead grooves (in the case shown, the longitudinal grooves 21 ) have a slightly lower height than the diameter of the transverse and longitudinal bars 19 . 21 is. This allows a clamping effect when the upper part 17b of the fastener 17 ' with the lower part 17a is screwed. For this purpose, the lower part 17a with a threaded bush 31 provided, in which one through a hole 33 in the upper part 17b guided screw 35 can be screwed to the two parts 17a . 17b to squeeze together. The threaded bush 31 can be pressed or anchored as shown in a blind bore or as shown by the lower mounting part 17a be executed continuously and then have a flange at the end, which counteracts when pulling out the threaded sleeve. Instead of the threaded bush 31 It is also possible to use one or more click fasteners which have a latching nose which engages in an undercut as soon as a minimum distance is reached when assembling the lower and the upper part 17a . 17b is reached. Such snap closures are widely known.

When using the threaded bush 31 This can be used simultaneously to attach a module clamp 37 in the 5 only symbolically indicated, are used. Otherwise, the upper attachment center part 17b with its own, from the connection with the lower part 17a independent device for fixing the module clamp 37 to provide.

The drawn with an arrow distance A between the bottom cross bar 19 the structural steel mat 15 and the bottom 39 of the lower fastener part 17a should be between 2 and 8 inches, especially between 4 inches and 6 inches, to prevent the steel mesh 15 rests on the roof skin. As stated in the introduction, the figures are not drawn to scale and give within one and the same figure no size relationships to each other again. Thus, the distance A is a multiple of the diameter of the transverse and longitudinal bars 19 . 21 which can be between 3 mm and 8 mm. The diameter of the transverse and longitudinal bars 19 . 21 depends on the of the structural steel mat 15 demanded weighting and the possibilities, the reinforcing steel mat 15 additionally anchored to the roof. The diameter has the same effect on the distance A, since the deflection of the steel mesh mat 15 with thin rods 19 . 21 is higher than with thick bars 19 . 21 ,

In the 7 is a sectional view through the two-piece fastener 17 '' shown in the second variant. The lower part 17a consists essentially of a cuboid part 41 standing on a base plate 43 is attached. The cuboid part 41 and the base plate 43 are manufactured in one piece. The circumference of the cuboid part 41 is at the shape of the smallest rectangle 25 adjusted so that it is twistable in the of the bars 19 . 21 described rectangle 25 is introduced. For easier installation of the upper part 17b of the fastener 17 '' The cuboid may be slightly larger than the smallest rectangle 25 be made when in one or more side walls of the cuboid 41 then depressions 45 are provided, in which the transverse and longitudinal bars 19 . 21 the structural steel mat 15 intervene after installation. The base plate 43 has rounded edges 47 to avoid injury to the roof skin. The dimensions of the base plate 43 are sized so that the sum of all base plates 43 provides a support surface that distributes the weight of the structural steel mats plus the photovoltaic modules so that no unduly high point loads occur.

In the cuboid part 41 is in analogy to the first variant again a blind bore with threaded sleeve 31 provided, in which a screw 35 is rotatable, which is the lower attachment means part 17a with the upper fastener part 17b combines.

In the 8th is a reverted in comparison to the previous figures mild steel mat 15 with top transverse bars 19 and bottom longitudinal bars 21 shown. The fastener 17 ''' shows a third, one-piece variant, in which a single node 23 in the fastener 17 ''' is embedded. In the bottom of the fastener 17 ''' is a transverse groove (seen from below) 27 and an underlying longitudinal groove 29 a shaped. The width of the grooves 27 . 29 corresponds to the diameter of the transverse or longitudinal bars 19 respectively. 21 , except for along the groove direction extending webs 49 which extend at a height above the groove bottom, the diameter of the rods 19 . 21 corresponds or something (about 10% -20% of the rod diameter) is lower. The bridges 49 narrow the groove far, leaving the fastener 17 ''' only under considerable force can the constriction overcome, around the bars 19 . 21 to rest on the groove bottom. The fastener 17 ''' can here, as with all other variants, with a cushion 50 made of elastic material, such. As a rubber or adhesive, be provided. The upholstery 50 on the one hand the compensation of height differences in uneven roofs, as he z. B. occurs in shingle roofs, and on the other hand to further protection of the roof skin.

The 9a to 9d show a fourth variant with a one-piece fastener 17 '''' which at its bottom 39 with a snail-shaped opening 51 is provided, in which a straight piece of the transverse or longitudinal bar 19 . 21 can be latched. The sequence of figures 9a to 9d shows the required rotational movement with which the fastener 17 '''' around the transverse or longitudinal bar 19 . 21 is wound until the end position after the 9d is reached.

LIST OF REFERENCE NUMBERS

1

concrete block

3

support structure

5

photovoltaic module

7

mounting film

9

module sheet

11

Mounting pad

13

roof

15

steel mesh

17, 17 ', 17' ', 17' '', 17 '' ''

fastener

17a, 17b

Lower or upper part of fastener 17

19

cross bar

21

longitudinal bar

23

junction

25

Smallest rectangle

27

transverse groove

29

longitudinal groove

31

threaded sleeve

33

drilling

35

screw

37

module clamp

39

bottom

41

Rectangular part

43

baseplate

45

deepening

47

Rounded edge

49

web

51

Helical opening

A

distance

R1, R2

Pitch

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• EP 08018443 A [0004]

Claims (13)

Mild steel mat ( 15 ), characterized in that in combination with a plurality of photovoltaic modules ( 5 ) and a plurality of fastening means ( 17 ) is provided, wherein the fastening means are on the one hand non-positively connected to the structural steel mat and on the other hand positively connected to the photovoltaic modules. Structural steel mat according to claim 1, characterized in that its longitudinal and transverse bars ( 19 respectively. 21 ) form a grid of different sized rectangles, wherein at least one lower part of each fastener ( 17 ) in its dimension so to the smallest rectangle ( 25 ) is adapted, that the fastening means is held against rotation in the defined by the longitudinal and transverse bars, smallest rectangle. Structural steel mat according to claim 1 or 2, characterized in that the fastening means ( 17 ) a cavity for at least partially receiving at least one crossing point ( 23 ) and / or a portion of the longitudinal and transverse bars ( 19 . 21 ) of the structural steel mat ( 15 ) having. Structural steel mat according to claim 1 or 2, characterized in that the fastening means ( 17 ) on at least one side with an elongated recess ( 45 ) for engagement in a portion of the longitudinal or transverse bars ( 19 . 21 ) is provided. Structural steel mat according to claim 3, characterized in that the cavity consists of two mutually perpendicular grooves ( 27 . 29 ) whose cross section for receiving the rods ( 19 . 21 ) are suitable, wherein one of the grooves is lower than the other groove. Structural steel mat according to claim 4 or 5, characterized in that at least one of the grooves ( 27 . 29 ) or at least one of the elongated recesses ( 45 ) along its edges with an inwardly directed web ( 49 ), which has a clip effect for clamping the fastening means ( 17 ) in the longitudinal and / or transverse bar ( 19 . 21 ). Structural steel mat according to one of claims 3 to 6, characterized in that the fastening means ( 17 '''; 17 '''' ) is one-piece and the cavity ( 27 . 29 ; 51 ) from its underside ( 39 ) is accessible. Structural steel mat according to one of claims 3 to 6, characterized in that the fastening means an upper and a lower part ( 17a . 17b ), that a lower part of the cavity is accessible from the upper side of the lower part, and that in the lower side of the upper part, a supplement of the cavity is provided to a shape adapted to the node or to the longitudinal or transverse bar shape and that the upper - And the lower part with Zwischenklemmung a part of the structural steel mat are connected to each other. Structural steel mat according to one of claims 1 to 5, characterized in that the intended for resting on the roof skin underside ( 39 ) of the fastener ( 17 ) and with rounded edges ( 47 ) is provided. Structural steel mat according to one of claims 1 to 9, characterized in that the fastening means ( 17 ) on its underside ( 39 ) with an elastic material ( 50 ) is provided. Structural steel mat according to claim 10, characterized in that the elastic material ( 50 ) is an adhesive or a rubber pad. Structural steel mat according to one of claims 8 to 11, characterized in that the upper and the lower part ( 17a . 17b ) are connectable by means of a latchable plug-in element. Structural steel mat according to one of claims 1 to 12, characterized in that the upper side of the fastening means ( 17 ) with an integral part of a clamping connection ( 37 ) for the photovoltaic module ( 5 ) is provided.

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