NL1042200B1 - Modular mounting system for placing solar panels on a flat roof surface free of fixed fixing points, by integrating the solar panel as part of the construction, with this a limited amount of ballast required compared to existing systems. - Google Patents

Abstract

Modular mounting system for placing solar panels on a flat roof surface free of fixed fixing points, by integrating the solar panel as part of the construction, with this a limited amount of ballast required compared to existing systems. The invention relates to a mounting system for mounting solar panels on a flat roof surface free of fixing points. The design is modular, which makes it applicable in various situations. By means of the design it is possible to place the panels at heights, with multiple shape variations concerning the photovoltaic field. Pre-existing systems do not use the constructive values of the photovoltaic module. With this design, the panel is a constructive part of the assembly.

Description

Modular mounting system for placing solar panels on a flat roof surface free of fixed fixing points, by integrating the solar panel as part of the construction, with this a limited amount of ballast required compared to existing systems.

The invention relates to a mounting system for mounting solar panels on a flat roof surface free of fixing points. The design is modular, which makes it applicable in various situations. By means of the design it is possible to place the panels at heights, with multiple shape variations concerning the photovoltaic field. Pre-existing systems do not use the constructive values of the photovoltaic module. With this design, the panel is a constructive part of the assembly.

Design in scale model which makes modular construction possible with spring clip attachment. This means that dilatation of material has no influence on the construction. One grounding on the entire structure with which voltage is diverted. Design of the dish with type of material makes its application in shape to a rigid stable construction. Photovoltaic panel is part of the construction. Scale is a ballast holder, support support and incline carrier with the deformation of the Ferro material to the scale. Scaled wind plates connect these scales to each other, with the fixation to photovoltaic module the system connects and the weight of the photovoltaic module becomes part of the ballast plan in the entire construction. Ballast to be added hereby minimizes and the positioning of the ballast in the shell makes the ballast part of the overall construction.

Figure 1 illustrates an embodiment of the mounting system according to the invention, where the features of the shell shape 2 are shown, thus showing how the photovoltaic modules 1 and the ballast 3 form into one and the same construction. With the spring clip 4 constant force is transmitted to the low side of the photovoltaic module 6. The high side of the photovoltaic module 1 is clamped with a clamp bolt connection. This creates a rigid construction with room for expansion under the spring clip. The shell shape 2 is formed from a corrosion-resistant Ferro with a spring steel, also corrosion-resistant, clamp 4 incorporated with which the earthing of the Non-Ferro photovoltaic modules 16 is realized.

Figure 2 illustrates an embodiment of the mounting system according to the invention, wherein the joining of the tray shapes 2 is illustrated.

The scale shapes 2 6 7 are shown in their three embodiments: 2 shows the basic scale, to be placed in the center of four modules each, namely two on the high side of the scale and two on the low side of the scale. 6 shows the initial scale to be placed at the beginning of the photovoltaic module field. Positioned on the low side of the photovoltaic module 1 which is clamped in the spring clip, the shell provides space for ballast placement. 7 shows the end shell to be placed at the end of the photovoltaic module field positioned on the high side of the photovoltaic module which is clamped with a clamp bolt connection, shell provides space for ballast placement and is provided with a standard that brings maximum stability during installation.

Stability of the scales with photovoltaic modules weighted with fixation of the cross connections, so-called shaped rear plates, called windspoilers in the photovoltaic industry. The rear plates in the trays connect these, as a whole, to one structural composition.

Claims (1)

Mounting system for mounting photovoltaic modules on flat roofs without fixed fixation points, comprising: metal shell shape with which the three components namely; mounting system, photovoltaic module and ballast come to a whole, which reduces the roof load to a minimum while achieving maximum wind resistance. Dilatation problems are eliminated by means of the spring clip on the low side of the photovoltaic module. Grounding of the entire structure both mutually and externally with one ground wire from a random position in the mounting structure to earth.