DE202008007838U1 - Inclined arrangement of PV modules on trapezoidal sheet metal roofs - Google Patents

Abstract

oblique arrangement a photovoltaic module on a trapezoidal sheet metal roof, comprising front and Rear holders (10, 11) attached to ribs (2) of a trapezoidal sheet (1) are fixed, and a front and a rear support profile (6, 7) spaced in parallel a photovoltaic module (4) in one Angle α to the Trapezoidal sheet (1) wear, and at least one support (12) on mounting flanges (23) of the rear holder (11) is mounted and the rear support profile (7) bears, characterized in that the front support profile (6) on mounting flanges (22) of the front holder (10) is mounted, wherein the mounting flanges (22) the front holder (10) at an angle α or at an angle α + 90 degrees across from the trapezoidal sheet (1) are employed, and that either the mounting flanges (23) the rear holder (11) at an angle α or at an angle α ± 90 degrees across from the trapezoidal sheet (1) are employed and the support (12) has a parallel offset offers, or the mounting flanges (23) of the rear holder (11) in parallel or...

Description

The The invention relates to an oblique arrangement of Photovoltaic modules on trapezoidal sheet metal roofs.

at flat trapezoidal sheet metal roofs under 10 degrees tilt is a roof-parallel installation of PV modules because of too low yields and because of insufficient Self-cleaning only conditionally suitable. Conventional elevations, which provide a yield-optimized inclination of, for example, 30 degrees however due to its complexity in many cases no longer economical.

In both cases It is known to arrange two support profiles on which the PV module is mounted, and to use as a holder so-called trapezoidal sheet metal clamps, which are mounted on the ribs of the trapezoidal sheet.

task The invention is an oblique arrangement of PV modules on trapezoidal sheet roofs too create with just a few simple components to manufacture and assemble can be realized and still carries the PV module statically optimized.

The solution This task is the oblique arrangement according to claim 1.

The inventive oblique arrangement provides geometrically only a comparatively small plus at inclination, preferably between 5 and 8 degrees. Because the oblique arrangement but mostly with simple standard components and with just a few, simple produced special components can be realized, is the production and assembly costs across from roof-parallel solutions on the one hand profitable and on the other hand much cheaper as conventional Elevations. The oblique arrangement according to the invention therefore fills one previously unused gap between roof-parallel installation and conventional elevations.

following becomes a preferred embodiment the invention with reference to drawings explained in more detail: It shows:

1 a perspective view of an oblique arrangement of a PV module on a trapezoidal sheet roof,

2 a sectional view according to 1 .

3 a detail section in front according to 1 .

4 a detail section behind according to 2 .

5 the front trapezoidal sheet metal clamp according to 1 separately,

6 the rear trapezoidal sheet metal clamp according to 1 separately.

1 and 2 show an oblique arrangement on a trapezoidal sheet 1 a trapezoidal sheet metal roof, not shown, is installed. The trapezoidal sheet 1 As usual, has several parallel spaced ribs 2 with trapezoidal cross section and is not shown in detail for draining rainwater in the drawing, for example, inclined by 4 degrees.

The oblique arrangement carries a PV module 4 that of a frame 5 is enclosed. The PV module 4 is on two parallel spaced and transverse to the ribs 2 extending support profiles 6 and 7 attached. These are four terminals 8th provided the frame 5 of the PV module 4 against the tops of the supporting profiles 6 and 7 tighten. It can also be seen that the support profiles 6 and 7 the frame 5 not on the outside, but for static reasons to support pads with minimal deflection, which are offset by about one-fifth of the frame length inward. Furthermore, the support profile 7 arranged higher than the support profile 6 , where the tops of the supporting profiles 6 and 7 a common inclined support plane for supporting the PV module 4 form. The support plane is opposite the trapezoidal sheet 1 inclined at an angle α of 7 degrees.

For clarity, below will be the lower side of the PV module 4 referred to as the front, so as a result of the supporting profile 6 the front and the supporting profile 7 the back is. The oblique arrangement also includes two front trapezoidal sheet clamps 10 and two rear trapezoidal sheet clamps 11 , where in each case a front and a rear trapezoidal sheet metal clamp 10 and 11 in pairs on one and the same rib 2 are fixed spaced. It can also be seen that the rear support profile 7 over two Z-shaped supports 12 on the two rear trapezoidal clamps 11 is supported.

In the following, only the sectional views will be discussed. It goes without saying that according to 1 the corresponding components along the support profiles 6 and 7 to repeat. It is conceivable, however, the supports 12 to be replaced by a continuous support. Such support can be made in one piece and also act as a windbreak.

As in below 3 and 4 can be seen in detail, sits the front support section 6 directly on the front trapezoidal sheet metal clamp 10 on, whereas the rear support profile 7 via a Z-shaped support 12 on the rear harness sheet clamp 11 is arranged. Taking into account the above-mentioned support points with minimal deflection larger values for the angle α of considerably more than 7 degrees are hardly possible, otherwise either the front edge of the frame 5 on the ribs 2 would rest or between the front trapezoidal sheet metal clamp 10 and the front support profile 6 also a support would be required. Therefore, values between 5 and 8 degrees are preferred for the angle α.

Out 3 and 4 is the oblique arrangement on the front trapezoidal sheet metal clamp 10 and on the rear trapezoidal sheet metal clamp 11 recognizable in detail. The supporting profiles 6 and 7 have the same cross section, which in its basic form is rectangular or approximately square. Essential for the special geometry of the oblique arrangement is that the tops and bottoms of the support profiles 6 and 7 are each parallel to each other. In 3 and 4 is also good to see how the frame 5 by means of the clamps 8th on the tops of the supporting profiles 6 and 7 is tightened. These screw connections are provided, each through a hole in the terminal 8th lead and end at a grooved nut, which in an undercut groove in the top of the support profiles 6 and 7 is used.

Out 3 in combination with 5 It can also be seen that the front trapezoidal sheet metal clamp 10 a flat mounting flange 22 which faces the top of the rib 2 is tilted at the same angle α, as the support level for the PV module 4 , On this mounting flange 22 sits the front support profile 6 with its bottom directly on, so that its top is inclined due to the rectangular cross section also at the desired angle α. It can also be seen that the supporting profile 6 over two screw connections 15 on the mounting flange 22 is attached. The screw connections 15 lead here by two in 5 apparent long holes 27 in the mounting flange 22 and end in an undercut groove 17 placed in the bottom of the supporting profile 6 is integrated.

Out 4 in combination with 6 it can be seen that the rear trapezoidal sheet metal clamp 11 As known from the prior art a flat mounting flange 23 which is parallel to the roof or parallel to the top of the rib 2 is. On the mounting flange 23 is the Z-shaped support 12 over simple screw connections 16 mounted by slotted holes 27 in the mounting flange 23 and by not shown holes in the foot leg 19 the Z-shaped support 12 to lead. Essential to the Z-shaped support 12 is that their head thighs 18 opposite to the foot leg at the same angle α is inclined or employed as the support plane for the PV module 4 , On the salaried head thigh 18 is the rear support profile 7 via a screw connection 17 arranged so that also the top of the rear support profile 7 α is inclined at the desired angle. The height or length of the support 12 results arithmetically essentially from the angle α and the distance of the support profiles 6 and 7 or the distance between the trapezoidal sheet clamps 10 and 11 ,

To illustrate 5 and 6 the trapezoidal sheet metal clamps 10 and 11 separately. Both trapezoidal sheet metal clamps 10 and 11 are made in one piece as a simple sheet metal forming parts and each have a front and a rear portion, which is a trapezoidal clamp 20 respectively. 21 is shaped. In between, a middle section is provided, which serves as a flat mounting flange 22 respectively. 23 is recognizable. The clamps 20 and 21 are open at the bottom and have a trapezoidal contour that matches the outer contour of the rib 2 in a suitable way. This allows the trapezoidal sheet metal clamps 10 and 11 on the trapezoid ribs 2 be put on and preferably only on the lateral cheeks of the rib 2 rest. For fastening the trapezoidal sheet metal clamps 10 and 11 is in the lateral cheeks of the bells 20 and 21 one round hole each 25 provided by the one screw in the rib 2 can be screwed.

The difference between the two trapezoidal sheet metal clamps 10 and 11 is that the mounting flange 23 the rear trapezoidal sheet metal clamp 11 according to 6 roof parallel or parallel to the trapezoidal sheet 1 is executed, whereas the mounting flange 22 the front trapezoidal sheet metal clamp 10 according to 5 in a special way at an angle α relative to the trapezoidal sheet 1 inclined or is employed to the front. So it can be seen that the mounting flange 23 the rear trapezoidal sheet metal clamp 11 in a plane with the upper sides of the clamps 20 and 21 runs. In contrast, the mounting flange increases 22 the front trapezoidal sheet metal clamp 10 starting from the upper side of the front clamp 20 at the angle α and is at its higher edge on a sloping balance piece 26 with the upper side of the rear clamp 21 connected. The sloping compensating piece 26 is more inclined and correspondingly shorter than the mounting flange 22 what particular out 3 is apparent.

Both mounting flanges 22 and 23 is again common that these are the previously mentioned slots 27 which are parallel to the rib 2 are directed and for the screw connections 15 respectively. 16 to the supporting profile 6 or for support 12 are provided. These are the mounting flanges 22 and 23 significantly wider than the ceilings of the ribs 2 executed and the slots 27 side of the rib 2 provided so that sufficient space for the screw connections 15 respectively. 16 and their monta ge is present.

In one not closer illustrated alternative embodiment it is conceivable, the mounting flange on a trapezoidal sheet metal clamp not at an angle α, but by α + To turn 90 degrees. The mounting flange is in this case accordingly steeply from the attachment anchor, leaving a rectangular support profile can be attached to the side. Also the head thigh of the support is in an alternative embodiment pivoted by 90 degrees imaginable. Besides, it is possible, too to set the mounting flange of the rear trapezoidal sheet clamp at an angle α, so that a support need only act as a parallel offset. Especially in this Case can be a support also an L- or U-shaped or also have another suitable cross section.

Claims (10)

Tilt arrangement of a photovoltaic module on a trapezoidal sheet metal roof, comprising front and rear holders ( 10 . 11 ) attached to ribs ( 2 ) of a trapezoidal sheet ( 1 ), and a front and a rear support profile ( 6 . 7 ) spaced in parallel a photovoltaic module ( 4 ) at an angle α with respect to the trapezoidal sheet ( 1 ) and at least one support ( 12 ) mounted on mounting flanges ( 23 ) of the rear holder ( 11 ) and the rear support profile ( 7 ) carries, characterized in that the front support profile ( 6 ) on mounting flanges ( 22 ) of the front holder ( 10 ) is mounted, wherein the mounting flanges ( 22 ) of the front holder ( 10 ) at an angle α or at an angle α + 90 degrees with respect to the trapezoidal sheet ( 1 ) and that either the mounting flanges ( 23 ) of the rear holder ( 11 ) at an angle α or at an angle α ± 90 degrees with respect to the trapezoidal sheet ( 1 ) and the support ( 12 ) provides a parallel offset, or the mounting flanges ( 23 ) of the rear holder ( 11 ) parallel or perpendicular to the trapezoidal sheet ( 1 ) and the support ( 12 ) for the rear support profile ( 7 ) provides an angular adjustment of α or α ± 90 degrees. Device according to claim 1, characterized in that that the angle α between 3 ° and 13 °. Device according to claim 1, characterized in that that the angle α between 5 ° and 8 °. Apparatus according to claim 1, characterized in that the support profiles ( 6 . 7 ) have a rectangular cross-section. Device according to claim 1, characterized in that the front holders ( 10 ) and / or the rear holders each two trapezoidal clamps ( 20 . 21 ), between which a mounted at an angle α or α ± 90 degrees mounting flange ( 23 ) is provided. Apparatus according to claim 1, characterized in that the front support profile ( 6 ) directly on the mounting flanges ( 22 ) of the front holder ( 10 ) is attached. Device according to claim 1, characterized in that the support ( 12 ) an upper attachment portion ( 18 ) and a lower attachment portion ( 19 ), which are employed at an angle α or α ± 90 degrees to each other. Apparatus according to claim 1, characterized in that exactly one support or each rear holder ( 11 ) exactly one support ( 12 ) is provided. Front holder for An arrangement according to one of claims 1 to 8. support for one Arrangement according to claim 7.