DE102010021271A1 - Solar module system for use in flat roof of e.g. hall, has stand system comprising horizontally running support tube that is extended through openings, two brackets extending downward from support tube, and base connected with brackets - Google Patents

Abstract

The system has a planar solar module i.e. photovoltaic module (10), and a stand system for arranging the solar module on a surface. The solar module has circular openings that are formed at a distance from each other. The stand system has a horizontally running support tube (20) i.e. stainless steel tube, with a circular cross-section, where the support tube is extended through the openings. Two brackets extend downward from the support tube, and a base is connected with the brackets. The brackets comprise pipes that are connected with one another by a pipe connector (28).

Description

The invention is primarily an innovative mounting structure for solar modules in practical use on flat or sloping roofs of buildings, especially in the commercial sector with a large-area set-up offer.

The purpose of the device and its conception is the rationalization of the technical effort - in so far increasing the popularity of this environmentally friendly measure by reducing the manufacturing costs and the corresponding amortization periods.

According to the circumstances, a timely measure, because the declining government support programs require at least compensation for the currently produced and available economy on the one hand, increasing efficiency, reducing the effort through optimized technology down to the last detail. Ambitious goals and goals that can be realized beyond doubt.

Compared to the relevant prior art, which identifies a variety of different, directed to the same problem solutions, an extremely rational attachment concept - largely based on the fact that only commercially available, cost-effective materials can be used - insofar as no complex special components are required.

An essential distinguishing feature of the prior art is the use of profile tubes with a circular cross-section, for example, stainless steel tubes for all components of the fastening system.

Such pipe and its connectors are "mass-produced" in building technology, especially used dominant in the field of heating and sanitary, accordingly inexpensive and predestined for the intended use.

The rationality based on the technical concept arises from the nature of the attachment principle. Considerable on the one hand, the novel dynamic attachment of individual solar modules on the wind forces can be largely reduced to neutralized, on the other hand, the mounting compound of all individual modules for statically positive effective functional unit.

Conception - principle - technical structure of the fastening technology from pipes optionally guarantees the use of additional (conventional self-sufficient) system technology - in this respect secondary or multiple function with a basic technology.

The proposed fastening system of commercial pipelines is basically for the use of media, eg. As water, manufactured - in this respect, the complete interconnected with each other purpose established pipe network "waterproof".

This cost-neutral advantage can be used for other, relevant environmentally friendly, additional functions -. B. Heat recovery for service water and heat pumps, heating for snowmelt to relieve the static, as a pipe network for thermal solar modules, etc. (further deployment options are defined below).

All in all, a hitherto unavailable, future-oriented "environmental technology" that, on the basis of definitely proven cost-effectiveness, forms the basis for one, in the sense of the matter. Utilization on a broader basis.

DESCRIPTION OF OPERATION

- embodiment -

The solar module ( 1 ) is in the upper third of the frame ( 5 ) each on the right and left with a circular recess ( 6 ) for receiving the horizontal steel tube ( 3.1 ) of the fastening component ( 3 ) - that on the recesses ( 6 ) in diameter tuned horizontal steel tube ( 3.1 ) is used and via connectors ( 3.3 ) in T-shape with the vertical steel tubes ( 3.2 ) - the vertical steel tubes ( 3.2 ) are also connected via T-shaped connectors ( 3.3 ) at right angles to the fastening component ( 3 ) above ground base component ( 2 ) firmly connected ( 2 - 5 ) - to compensate for static wind forces on the raised rear of the solar module ( 1 ) is a dynamic attachment made in the aforementioned form, because the solar module ( 1 ) moves from Ruhr position (tilt approx. 10-30 °) ( 6 ) with corresponding wind force up to the horizontal axis (0 °) ( 6 ).

About the connectors in T-shape ( 3.3 ), the solar modules ( 1 ) right and left of the solar module ( 1 ) ( 2 - 5 ).

The basic components ( 2 ) are each at the ends with connection components ( 8th ) via connectors in T-shape ( 3.3 ) connected with each other. From this, the statics against wind forces can be additionally increased.

The required inclination, approx. 10-30 ° to the south, is produced by the specific length of the vertical steel pipe ( 3.2 ) of the fastening component ( 3 ) - alternatively by means of specifically offset recesses ( 6 ) in the context of the solar module ( 5 ) - as a substitute for the recess ( 6 ) as part of ( 5 ) of the solar module ( 1 ) can this a separate molding ( 7 ) on the frame ( 5 ) are used.

The support of the inclined edge of the solar module ( 1 ) takes place on the floor or the roof surface with appropriate protection (insulating film) against roof damage in the support area - alternatively on specific support moldings ( 10 ) on the frame of the solar module ( 1 ) and a support on the base components ( 2 ) produce.

Alternatively, a second fastening component ( 9 ) are used - in principle identical to the fastening component ( 3 ).

The type of attachment of the individual solar module ( 1 ) is repeated according to the number of solar modules used ( 1 () 1.0 - 9.0 ).

• – das Befestigungssystem besteht aus miteinander verbundenen Komponenten mit Hohlraumkonturen (Stahlrohre) – insoweit ein Systemverbund mit relativ geringem Gewicht. Die verfügbare Statik (Windkräfte) kann maßgeblich erhöht werden mit der Maßnahme Verbindung des Befestigungsverbundes (1.0) mit dem Gebäude (11) an dessen vertikalen Außenseiten (vorteilhaft bei statisch ausgelasteten Dächern),
• – zusätzliche Gewichtsbelastung entsprechend statischer Anforderungen durch Befüllen des Befestigungsverbundsystems (1.0–9.0) mit Wasser.

This results in a very stable system network ( 1.0 / 9.0 ) with benefits for static ratings / measures. The latter are individually adaptable and include:

• - The fastening system consists of interconnected components with cavity contours (steel tubes) - so far as a system composite with relatively low weight. The available statics (wind forces) can be significantly increased with the measure connection of the fastening compound ( 1.0 ) with the building ( 11 ) on its vertical outer sides (advantageous for statically loaded roofs),
• Additional weight load in accordance with static requirements by filling the fastening composite system ( 1.0 - 9.0 ) with water.

The fastening composite system ( 1.0 - 9.0 ) made of pipes is predestined for additional functions of many kinds.

The installation of the components made of steel pipes in practice-proven, so-called press-fitting process, is much more advantageous in terms of time compared to conventional fastening technology. Further information / details emerge from the patent claims. reference numeral Fig. 1.0 Solar modules as a system with fastening system - in plan view - Fig. 2.0 Solar module with mounting components in installation situation - in plan view - Fig. 3.0 Solar module with mounting components in installation situation - in front view - Fig. 4.0 Solar module with mounting components in installation situation - in rear view - Fig. 5.0 Solar module with mounting components in installation situation - in side view - Fig. 6.0 Solar module with mounting components in installation situation - in side view with dynamic range (wind forces) - Fig. 7.0 Solar module with fixing components - in perspective - Fig. 8.0 Solar module with fastening components according to FIG. 2-5 with second fastening component Fig. 9.0 Mounting system in optional arrangement of the mounting components 1 Solar module (electric / thermal) 2 basic component 3 Fastening component (steel pipes) 3.1 Horizontal steel pipe 3.2 Vertical steel pipe 3.3 Connectors in T-shape 4 Pipe fitting as tees (fitting) 5 Frame of solar module 6 Recess in the frame of solar module 7 Molded part with recess 8th connection components 9 2. Fixing component 10 Molding Pad 11 Attachment to vertical building side

Claims (22)

Device designed as a fastening system (principle) for positionally secure attachment of solar modules ( 1 ) on flat or sloping surfaces - preferably on flat or pitched roofs of buildings, in particular on largely flat, large-scale, commercial buildings, characterized in that the fastening components (1.0) of cavity profiles, preferably of metal tubes of circular cross section, for example commercial steel pipes, and is divided into specific individual components, which, connected to one another, produce a system composite (1.0) which contains all the individual solar modules ( 1 ) - as far as a material-reducing, statically extremely effective, system unit (1.0) is available, which is formed from the specific components of the individual functional units - the latter consist of the fastening component ( 3 ) formed by circular recesses ( 6 ) in the context of the solar module ( 1 ) or substitute for this purpose used and matched, connected to the solar module moldings ( 7 ), and preferably on both sides with the between the solar modules ( 1 ) positioned basic components ( 2 ) are fixated positionally secure - such attachment is dimensionally stable preferably dynamic and moves the solar module vertically up to horizontal axis to compensate for statically effective parameters by extreme wind forces (6.0). Device according to claim 1, characterized in that the hollow space profiles - fastening component ( 3 ) and basic component ( 2 ) - are made of commercially available steel tubes, preferably stainless steel tubes (∅) and laid in the so-called press-fitting process (mounted). Device according to claim 1 and 2, characterized in that the basic components ( 2 ) between the solar modules ( 1 ) preferably to the right and left of or between the solar modules ( 1 ) are positioned. Device according to claim 1 to 3, characterized in that the solar modules ( 1 ) are aligned in a north-south axis and laid with shading distance - the preferred inclination (about 10-30 °) in the south over the length of the vertical steel tubes ( 3.2 ) with T-shaped fittings ( 4 ) in the basic component ( 2 ) are manufactured. Device according to claims 1 to 4, characterized in that the fixing component ( 3 ) of tubular steel is preferably in three parts and partially two solar modules ( 1 ) secured via a fastening unit with the base component ( 2 ) can be connected. Device according to claims 1 to 5, characterized in that the fastening component ( 3 ) from the items: 1 horizontal steel pipe (∅) ( 3.1 ) 2 vertical steel tubes (∅) ( 3.2 ) 2 connectors in T-shape ( 3.3 ) - here the "horizontal" steel tube ( 3.1 ) via two circular, matched to the tube diameter, recesses ( 6 ) in the context of the solar module ( 1 ) are guided - thereby the solar module ( 1 ) is movably mounted - the pipe ends via the connectors in T-shape ( 4 ) at right angles with the vertical steel tubes ( 3.2 ) and these with the connectors ( 4 ) in the basic component ( 2 ) are permanently connected. Device according to claim 1 to 6, characterized in that the circular recesses ( 6 ) as part of ( 5 ) of the solar module ( 1 ) for receiving the horizontal steel tube ( 3.1 ) of the fastening component ( 3 ) - preferably in the "upper" third of the solar module ( 1 ) - are arranged in mirror image and the specific distance to the upper end of the solar module ( 1 ) the angle of inclination at a fixed length of the vertical steel tube ( 3.2 ) can be determined. Device according to claim 1 and 7, characterized in that the angle of inclination is equivalent to the fixed position of the circular recesses ( 6 ) as part of ( 5 ) of the solar module ( 1 ) and vertical steel tubes ( 3 2 ) different lengths can be produced. Device according to claim 1 to 8, characterized in that the solar module ( 1 ) two times in the same principle on the basic component ( 2 ) - in this case the additional fastening component ( 9 ) in the lower end of the solar module ( 1 ) with correspondingly shortened, vertical steel tube ( 3.2 ) is positioned (8.0). Device according to claim 1 to 8, characterized in that at the lower end of the solar module ( 1 ) a molded part ( 10 ) made of plastic or steel sheet on the frame ( 5 ) of the solar module ( 1 ), which is a support of the mounting component ( 3 ) dynamically mounted solar module ( 1 ) on the basic component ( 3 ) - as far as ground clearance in the longitudinal axis, parallel to the fastening component, manufactures or alternatively a pipe or round steel is used, which comparatively in principle the fastening component ( 3 ) is positioned. Device according to claim 1 to 10, characterized in that the fastening components ( 2 () 3 ) of the fastening system (1.0) are preferably steel tubes which are interconnected in the so-called press-fitting method and to avoid point loads by the base component ( 2 ) are lined with a film suitable for this purpose - the latter can be formed for optional additional functions with a heat-reflecting surface. Device according to Claims 1 to 11, characterized in that all the basic components ( 2 ) between the solar modules ( 1 ) at the respective end pieces via additional, identical connection components ( 8th ) transverse to the laying direction of the basic components ( 2 ) are connected to one another in a uniform system (1.0) that positively influences the statically relevant criteria. Apparatus according to claim 1 to 12, characterized in that the preferably made of steel pipes on the base components ( 2 ), Fastening components ( 3 ) as well as the connection components ( 8th ) and their fittings ( 4 If the water can be used as an additional weight load against wind forces in a simple form by filling, on the other hand water or water mixture as a medium for additional thermal function (eg water heating for process water or snowmelt, heat recovery, combination with thermal Solar modules, heat dissipation of heat pumps, etc.) can be used in secondary function. Apparatus according to claim 1 to 12, characterized in that the preferably made of steel pipes on the base components ( 2 ), Fastening components ( 3 ) as well as the connection components ( 8th ) and their fittings ( 4 ) pipe system is not carried out watertight, that is, in specific sub-areas - preferably in the horizontal steel tube ( 3.1 ) of the fastening component ( 3 ) - nozzles, For example, holes are provided, can be sprayed in the predeterminable roof areas in the secondary function of water (hot or cold) or water mixture - in different purpose, such. B. Snowmelt / cleaning of the solar modules / cooling of the building due to evaporation / additional fire protection / cooling of the solar modules in the case of low-temperature overheating, etc. Device according to claims 1 to 14, characterized in that the preferred arrangement of the basic components ( 2 ), vertically on / between the narrow sides of the solar modules ( 1 ) can be made equally over their long sides - the basic components ( 2 ) with modified fastening component ( 3 ) also under the solar modules ( 1 ) can be positioned. Device according to claims 1 to 15, characterized in that the dimensions / cross sections of the base component ( 2 ) and fastening component ( 3 ) forming steel pipes to the static requirements of the specific application area (location) can be measured. Device according to claims 1 to 16, characterized in that the fixing component ( 2 ) instead of recesses ( 6 ) as part of ( 5 ) of the solar modules ( 1 ) via a fastening molding ( 7 ) with a cross-section of the fastening component ( 3 ) is provided matched recess and the attachment molding ( 7 ) in predeterminable position via commercially available fastening means on the frame ( 5 ) of the solar module ( 1 ) is positioned. Device according to claim 1 to 17, characterized in that via the connection component ( 8th ) fixed for potentially required additional static requirements fixing the entire fastening compound at any roof position - preferably on the vertical sides of the building can be made ( 11 ). Device according to claims 1 to 18, characterized in that the basic components ( 2 ), Fixing ( 3 ) and connection components ( 8th ) can be made in stainless steel pipes with alternative available pipe qualities or with solid profiles instead of the preferred design. Apparatus according to claims 1 to 19, characterized in that the principle of the fastening system (1.0) designed primarily for roofs of buildings can be used equally for surfaces suitable for this purpose, for example installation at ground level. Apparatus according to claim 1 to 20, characterized in that the principle of the fastening system (1.0) can be used equivalently for solar modules with electrical power as well as for thermal systems. Apparatus according to claim 1 to 21, characterized in that the fastening system (1.0) is part of the water circulation pipe system of thermal solar modules.

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