DE102013204196A1 - Device for mounting photovoltaic modules on roof surfaces, in particular of lightweight roofs - Google Patents

Abstract

The application relates to a device for mounting photovoltaic modules on roof surfaces, in particular of light roofs, comprising at least one flexible carrier material with photovoltaic modules arranged thereon, at least three fastening devices for clamping the carrier material, the fastening devices being designed such that the carrier material is clamped at a distance from the roof surface , and that the clamping forces acting on the carrier material are designed such that the carrier material is essentially not deformed by the wind forces and / or snow loads that occur.

Description

The invention relates to a device for mounting photovoltaic modules on roofs, especially light roofs.

From the EP 2 020 467 A1 is an awning with solar cells known, the solar cells are arranged in the extended state of the awning on the sun-facing side. When retracted, the awning is folded in such a way that the solar cells are protected from the weather and the wind. The awning is thus retracted only under normal weather conditions in the extended state and during bad weather conditions, such as in winter. Furthermore, the retraction and extension of the awning requires additional drive means, such as an electric motor and a control for extending and retracting the awning depending on the weather conditions. Furthermore, additional storage space is required for the retracted awning.

In the DE 41 42 565 A1 discloses a device for shading surfaces with a clamped roof skin and provided thereon photovoltaic elements, wherein the photovoltaic elements or solar modules are attached to the structure by means of intermediate elements. The intermediate elements can absorb distortions of the structure caused by elongation and initiate external forces acting on the photovoltaic elements or solar modules into the structure. Thus, an intermediate element is arranged between each photovoltaic element and the underlying surface structure, which in particular adversely affects the resulting costs and the total weight of the device.

From the US 5,212,916 is another device for shading places with thereon arranged photovoltaic elements known. The photovoltaic elements are either attached to crossing points of the supporting cable construction or arranged floating on the flexible roof surface. The arrangement of the photovoltaic elements at crossing points of the underlying cable construction limits the number of photovoltaic elements to the number of crossing points. The floating arrangement of the photovoltaic elements has the disadvantage that they can change their position within the arrangement so that the photovoltaic elements concentrate in one place and possibly touch each other. If the path of movement of the photovoltaic elements is limited, only limited external forces acting on the photovoltaic elements can be absorbed by the floating arrangement.

From the GB 2 439 412 A flexible solar modules are known, which can adapt to the underlying structure. A direct mounting of solar panels on roofs, especially with non-continuous surface, is not possible due to the flexibility of the solar panels. The application of the flexible solar elements on a flexible support layer has the disadvantage that the movements of the flexible support layer are transferred to the solar elements, whereby they can be damaged by the ever-changing loads.

The invention is therefore an object of the invention to provide a device for mounting photovoltaic modules on roofs, in particular of lightweight roofs, which is as light as possible, simple and inexpensive and is insensitive to weathering.

The object is achieved by a device for mounting photovoltaic modules on roof surfaces, in particular light roofs, comprising at least one flexible substrate, with photovoltaic modules arranged thereon, at least three fastening devices for clamping the carrier material, wherein the fastening device is formed so that the carrier material of the Roof surface is spanned spaced and the forces acting on the substrate clamping forces are formed so that the substrate is not deformed by the wind forces and / or snow loads occurring substantially.

The device according to the invention has the advantage that it can be mounted in a simple manner on a roof surface, in particular on lightweight roofs, with an interrupted surface, such as a wave-shaped or trapezoidal surface. A design of the construction on snow loads is still not required in the selection of suitable spring forces and paths, as in snow loads, the construction can lower to the roof for the load bearing the roofs are designed.

The number of photovoltaic modules on the carrier material is variable and depends on the size of the photovoltaic modules and the size of the carrier material or the roof surface.

The forces acting on the substrate wind forces and / or snow loads are determined by the location of the device and the climate conditions prevailing there. Structures are known to be designed for wind speeds that only occur or are exceeded every fifty years. On the basis of the load for the structure can also be designed according to the invention device. Preferably, the device according to the invention is designed for at least 90% of these loads.

Be particularly useful, the use of flexible photovoltaic modules has proven, for example, of flexible photovoltaic modules according to the GB 2 439 412 A because they are not only flexible but also very light.

According to a preferred variant of the invention, at least one fastening device comprises a spring element, preferably a disc spring, a rubber hollow spring or a pressure-controlled pneumatic cylinder. By means of the spring element, the fastening devices for mounting the carrier material can be formed so that the carrier material is clamped spaced from the roof surface and that acting on the substrate clamping forces are formed so that the carrier material by the wind forces and / or snow loads substantially not deformed becomes. For example, the characteristics of the spring element can be adapted to the occurring wind forces and / or snow loads at the site.

According to a further variant of the invention, the device comprises at least one damping element between the carrier material and a fastening device. The damping element serves to suppress vibrations that are caused by the wind forces occurring. In particular, the damping element serves to suppress the occurrence of the resonance frequency of the carrier material.

According to a further variant of the invention, the device comprises a plurality of carrier material webs with photovoltaic modules arranged thereon. By using a plurality of substrate sheets, the device of the invention can be easily adapted to the roof surface on which the device is to be mounted.

It is particularly advantageous if a spring element and / or a damping element is arranged between two adjacent carrier material webs. The additional spring element also serves to adapt the device according to the invention to the occurring wind forces and / or snow loads. The additional damping element in turn serves to suppress any vibrations that may occur due to the occurring wind forces.

According to a further variant of the invention, an air passage gap is arranged between at least two adjacent carrier material webs. The air passage gap reduces the wind forces acting on the device. Furthermore, the air passage columns can be designed so that an inspection of the underlying roof surface is made possible.

Conveniently, the device according to the invention has recesses for roof penetrations.

According to a preferred variant of the invention, the photovoltaic modules arranged on the carrier material are flexible. Due to the flexible design of the photovoltaic modules they can be adapted during mounting of the substrate during assembly to the environment. Due to the fact that according to the invention the carrier material is subsequently substantially no longer deformed by the occurring wind forces and / or snow loads, damage is prevented by subsequent deformations of the carrier material, in particular damage due to constant deformation of the carrier material.

Appropriately, the photovoltaic modules are printed directly on the substrate, glued or laminated on this. Alternatively, the photovoltaic modules may be arranged in recesses formed for the photovoltaic modules, preferably with a translucent cover, for example in the form of a foil. Such recesses may also be formed as pockets.

According to a preferred variant of the invention, the carrier material is formed as a membrane, preferably as a flexible, wind-permeable and / or water-permeable membrane. As a result, the loads are further reduced by the external influences of the weather on the device according to the invention.

Conveniently, the membrane has a surface density between 0.3 and 1.5 kg / m ² .

According to a preferred variant of the invention, the support material consists of one of the following materials: glass mesh fabric with polytetrafluoroethylene coating (PTFE), glass fabric with silicone coating, polyester fabric with polyvinyl chloride coating (PVC) or ethylene tetrafluoroethylene films (ETFE).

According to a further variant of the invention, the distance between the carrier material and the roof surface is less than 30 cm, preferably less than 20 cm and more preferably less than 10 cm. The small distance between the carrier material and the roof surface has the advantage that the wind forces acting on the carrier material are reduced, since only a small amount of wind is caused by the small distance between the roof surface and the carrier material. Furthermore, the small distance offers the advantage that when particularly high loads occur, for example due to large quantities of snow, the carrier material can be deformed in the direction of the roof surface when the forces that can be absorbed by the fastening device are exceeded only up to the roof surface.

According to an expedient embodiment of the invention, at least one cable is tensioned between at least two fastening devices, to which the carrier material is attached.

The rope is designed, for example, as a steel cable.

Particularly preferably, the cable is designed as an electrical conductor, so that additional electrical lines for connecting the photovoltaic modules are superfluous.

The invention will be explained in more detail with reference to embodiments illustrated in FIGS. Show it:

1 : a perspective view of a device according to the invention in the mounted state,

2 a second embodiment of the device according to the invention in the mounted state,

3 a further embodiment of the device according to the invention in the assembled state,

4 a fourth embodiment according to the invention in the assembled state, and

5 : a detailed view of a device according to the invention.

1 shows a perspective view of a device according to the invention 1 for mounting photovoltaic modules 2 on roof surfaces 3 , especially of light roofs, in an assembled state. The device according to the invention 1 includes a flexible substrate 4 with photovoltaic modules arranged thereon 2 , In the illustrated embodiment, the device further comprises four fastening devices 5 for mounting the carrier material 4 , The fastening devices 5 are designed so that the carrier material 4 from the roof area 3 spanned spaced. In the illustrated embodiment, the carrier material 4 parallel to the roof surface 3 stretched horizontally. The fastening devices 5 are still designed so that the on the substrate 4 acting clamping forces are designed so that the carrier material 4 is essentially not deformed by the wind forces and / or snow loads occurring.

The device according to the invention has the advantage that on the carrier material 4 arranged photovoltaic modules 2 which are advantageously lightweight flexible photovoltaic modules 2 is, are not deformed by the wind forces and / or snow loads and thus damage the photovoltaic modules 2 be avoided by constantly changing loads. The use of a flexible carrier material 4 in combination with a light and flexible photovoltaic module 2 offers the advantage that the device according to the invention can also be used on lightweight roofs.

The fastening devices 5 comprise a spring element 6 , which is designed for example as a plate spring, rubber hollow spring or pressure-controlled pneumatic cylinder. By means of the spring elements 6 the fastening devices 5 can be applied to the carrier material 4 adjust acting clamping forces according to the invention.

Between the fastening devices 5 and the carrier material 4 are still damping elements 7 arranged to vibrations of the substrate 4 to suppress. Such vibrations are, for example, by the carrier material 4 generated incident winds. In particular, the damping elements serve 7 to suppress the occurrence of a resonance vibration.

According to the embodiment 1 are the photovoltaic modules 2 directly on the carrier material 4 printed.

The carrier material 4 is designed as a membrane and flexible, wind permeable and permeable to water. Thus, the on the substrate 4 acting wind forces and loads due to, for example, heavy rain, reduced.

Conveniently, this membrane has a surface density between 0.3 and 1.5 kg / m ² , to allow mounting on lightweight roofs.

A membrane having the aforementioned features is made of, for example, a PTFE-coated glass mesh fabric, an ETFE film, a silicone-coated glass fabric or a PVC-coated polyester fabric.

In the illustrated embodiment, the device 1 designed so that the distance between substrate 4 and roof area 3 is less than 30 cm.

This in 2 illustrated embodiment of the device according to the invention 1 for mounting photovoltaic modules 2 on roof surfaces 3 , especially of lightweight roofs, is also shown in a mounted state on a roof of a building. In contrast to the embodiment according to 1 includes the device 1 to 2 two flexible carrier webs 8th . 9 connected to a total of six fastening devices 5 are spanned. The fastening devices 5 are formed so that the substrate sheets 8th . 9 from the roof area 3 spanned be spread and that on the substrate webs 8th . 9 acting clamping forces are designed so that the carrier material webs 8th . 9 be substantially not deformed by the wind forces and / or snow loads occurring.

The design after 2 has the advantage that the substrate webs 8th . 9 can be made in standard widths and the device of the invention 1 by using several of these standard carrier webs 8th . 9 can be adapted to the roof area to be covered. As a result, the cost of the device according to the invention 1 significantly reduced.

In the 3 illustrated device 1 according to the invention differs from the embodiments according to 1 and in that the device comprises three carrier material webs 8th . 9 . 10 with photovoltaic modules arranged thereon 2 includes. The number of fastening devices 5 for mounting the substrate webs 8th . 9 . 10 on the roof surface 3 is four pieces per substrate material web 8th . 9 . 10 , Between the adjacent carrier material webs 8th . 9 . 10 are each two spring elements 6 and a damping element 7 arranged. The spring elements 6 serve to provide the clamping forces of the invention, while the damping elements 7 suppress any vibrations caused by wind forces.

Furthermore, between adjacent carrier material webs 8th . 9 10 one air passage gap each 11 arranged to the on the device according to the invention 1 to reduce acting wind forces. Furthermore, the air passage columns 11 so broadly formed that an inspection of the roof area 3 between the substrate webs 8th . 9 . 10 is possible, for example for repair or cleaning work.

In the 4 illustrated inventive device 1 differs from the previous embodiments of the invention according to the 1 to 3 in that the device 1 several pieces of carrier material 12 comprising, which by the fastening devices 5 each individually parallel to the sloping roof surface 3 to be assembled. In the embodiment according to 4 is between two adjacent fasteners 5 a rope 13 curious, on which the carrier material pieces 12 are attached. The rope 13 is designed as a steel cable and also serves as an electrical conductor for connecting the photovoltaic modules 2 on the carrier material pieces 12 ,

5 shows a detailed representation of a device according to the invention 1 for mounting photovoltaic modules 2 on roof surfaces 3 , in particular of lightweight roofs, comprising at least one flexible carrier material 4 with photovoltaic modules arranged thereon 2 and a part of the fastening devices 5 for mounting the carrier material 4 , wherein the fastening devices 5 are formed so that the carrier material 4 from the roof area 3 Spaced apart and that on the substrate 4 acting clamping forces are designed so that the carrier material 4 is essentially not deformed by the wind forces and / or snow loads occurring. According to 5 are between three adjacent fasteners 5 two ropes 13 strained, with the support material 4 by threading the carrier material 4 between the two ropes 13 is attached. Between the pieces of carrier material 12 according to 5 is a spring element 6 and / or damping element 7 arranged.

LIST OF REFERENCE NUMBERS

1

contraption

2

photovoltaic module

3

roof

4

support material

5

fastening device

6

spring element

7

damping element

8th

Substrate sheet

9

Substrate sheet

10

Substrate sheet

11

Air passage gaps

12

Carrier piece

13

rope

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 2020467 A1 [0002]
• DE 4142565 A1 [0003]
• US 5212916 [0004]
• GB 2439412 A [0005, 0011]

Claims (15)

Contraption ( 1 ) for mounting photovoltaic modules ( 2 ) on roof surfaces ( 3 ) especially of lightweight roofs, comprising: at least one flexible support material ( 4 ) with photovoltaic modules ( 2 ), at least three attachment devices ( 5 ) for mounting the carrier material ( 4 ), the fastening devices ( 5 ) are formed so that the carrier material ( 4 ) from the roof area ( 3 ) is spanned spaced, and that on the substrate ( 4 ) acting clamping forces are formed so that the carrier material ( 4 ) is substantially not deformed by the occurring wind forces and / or snow loads. Contraption ( 1 ) according to claim 1, wherein at least one fastening device ( 5 ) a spring element ( 6 ), preferably a disc spring, a rubber hollow spring or a pressure-controlled pneumatic cylinder. Contraption ( 1 ) according to claim 1 or 2, further comprising at least one damping element ( 7 ) between carrier material ( 4 ) and a fastening device ( 5 ). Contraption ( 1 ) according to one of claims 1 to 3, wherein the device ( 1 ) a plurality of flexible carrier material webs ( 8th . 9 . 19 ). Contraption ( 1 ) according to claim 4, wherein between two adjacent carrier material webs ( 8th . 9 . 10 ) a spring element ( 6 ) and / or a damping element ( 7 ) is arranged. Contraption ( 1 ) according to claim 4 or 5, wherein between two adjacent carrier material webs ( 8th . 9 . 10 ) an air passage gap ( 11 ) is arranged. Contraption ( 1 ) according to one of claims 1 to 6, wherein the on the support material ( 4 ) arranged photovoltaic modules ( 2 ) are flexible. Contraption ( 1 ) according to one of claims 1 to 7, wherein the photovoltaic modules ( 2 ) directly onto the carrier material ( 4 ) are printed, glued or laminated thereon, or in for the photovoltaic modules ( 2 ) formed recesses are arranged, preferably with a translucent cover. Contraption ( 1 ) according to one of claims 1 to 8, wherein the carrier material ( 4 ) is designed as a membrane, preferably as a flexible, wind-permeable and / or water-permeable membrane. Contraption ( 1 ) according to claim 9, wherein the membrane has a surface density between 0.3 and 1.5 kg / m ² . Contraption ( 1 ) according to one of claims 1 to 10, wherein the carrier material ( 4 ) is made of one of the following materials: glass mesh fabric with PTFE coating, ETFE film, glass fabric with silicone coating or polyester fabric with PVC coating. Contraption ( 1 ) according to one of claims 1 to 11, wherein the distance between carrier material ( 4 ) and roof area ( 3 ) is smaller than 30 cm, preferably smaller than 20 cm, and more preferably smaller than 10 cm. Contraption ( 1 ) according to one of claims 1 to 12, wherein between at least two fastening devices ( 5 ) at least one rope ( 13 ), on which the carrier material ( 4 ) is attached. Contraption ( 1 ) according to claim 13, wherein the rope ( 13 ) is designed as a steel cable. Contraption ( 1 ) according to claim 13 or 14, wherein the rope ( 13 ) is designed as an electrical conductor.

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