DE202024000036U1 - Mounting body for weatherproof mounting of photovoltaic modules - Google Patents

Abstract

Spacer body, which has an inclination on one side, a connection option with the support structure for photovoltaic modules and a continuous opening on the other side.

Description

The invention relates to mounting bodies, including spacers and cover strips for the weatherproof mounting of photovoltaic modules as an in-roof cover.

Previous systems are only able to install commercially available photovoltaic modules (hereinafter referred to as PV modules) with a rectangular shape and an area of less than 2m ² as an in-roof cover in a weatherproof manner with significant material and labor costs.

There are attempts, among other things, in EP000002234174A2 PV modules must be installed in a rainproof and shingled manner. The system mentioned requires a consistent profile and is aimed at frameless PV modules. A consistent profile involves significant additional installation costs and frameless PV modules form a minority among the PV modules. The situation is similar with EP000002317246A2 . Here, too, a consistent profile is required, which entails significant additional costs and effort. Added to this is EP000002317246A2 that the PV substructure must be located at the edge of the modules so that the rain-repellent profile can lie on it. The structure therefore contradicts the assembly guidelines of the PV module manufacturers, as loads cannot be met due to impermissible assembly positions of the substructure. The consequence would be the loss of guarantee and insurance claims. In EP000002282141A2 It is proposed to run a gutter system underneath the PV modules, which again entails significantly higher costs and installation effort.

The invention is based on the object of expanding the common mounting systems, especially the widespread and cost-effective mounting system which uses profiles with a cross section of 40 mm x 40 mm, so that photovoltaic modules, especially glass-glass photovoltaic modules, can be used as generally as possible can be laid in a weatherproof manner with as little additional financial and technical effort as possible and the installation instructions of the PV manufacturer can be adhered to.

This objective is achieved according to the invention by expanding common mounting systems to include spacers that are placed between the PV modules and the common substructures and cover strips that can be brought into position from the side facing the sun (hereinafter referred to as the top). The spacers are inclined and raised so that the module above them is tilted relative to the roof plane. This module overlaps the module underneath, allowing water to drain away and not enter the space beneath the modules. The overlap is limited to the frame without shading the cells of the other PV modules. The frame width of the individual PV modules is sufficient. The overlap takes place in the direction of rain drainage, with the module closer to the roof ridge overlapping the one underneath. The spacer does not require its own substructure or fastening, but is simply placed on the substructure used and is therefore completely compliant with the manufacturer's assembly instructions. For the final attachment of the PV modules, the respective middle and end clamps of the mounting system are used as usual. In some circumstances, a longer fastening screw for the terminals may be necessary.

The open side spaces between the modules within a row of modules are supplemented with a strip that is positioned from the top of the modules. The strip clamps itself with barbs on the underside of the modules in the gap and thus protects against rain and snow.

The system is open so that air and heat can circulate and no heat build-up develops, especially in summer. There is no need for additional sealant, glue and screws.

In this way, garages, carports, garden houses and terraces can be roofed in a weatherproof manner with PV modules, especially glass-glass modules. Existing roofs can easily be converted with the system. Bar spacing plays a minor role.

Example embodiment

An existing terrace roof should be covered with weatherproof and translucent glass-glass photovoltaic modules. To do this, the upper structure is dismantled down to the savings. A conventional substructure for photovoltaic modules is attached to the savings themselves. Now the photovoltaic modules are laid starting with the top row. For this purpose, the spacers are placed between the photovoltaic module and the substructure. The upper row of modules is inclined so that the frame of the modules below is overlapped. The modules are attached as usual with clamps, but with longer screws. The cover strip with the barbs is pressed into position from above into the space between the modules within the top row. The top row is therefore mounted in a weatherproof manner and the second row follows. The spacers become again between the modules and the substructure and ensure that the frame of the lower row of modules is submerged under the frame of the upper row. It is also important to ensure that the solar cells in the bottom row are neither shaded nor covered. The frame width provides enough scope for this. After the second row of modules have been attached with clamps, the spaces in the second row of modules can be covered with the strip. This is done again by simply installing it from above by pushing the cover strips into the gap from above and hooking themselves into place. The procedure continues in the same way until the terrace roofing has been completed accordingly.

QUOTES INCLUDED IN THE DESCRIPTION

This list of documents listed by the applicant was 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 000002234174 A2 [0003]
• EP 000002317246 A2 [0003]
• EP 000002282141 A2 [0003]

Claims (2)

Spacer body, which has an inclination on one side, a connection option with the support structure for photovoltaic modules and a continuous opening on the other side. Cover strip, which is at least 15 mm wide and has at least one clamping element that is at least 25 mm long.