PV Mover M100
The optimised rise in profits of the photovoltaic technology via tracking of modules has ensured that the tracking systems are well established in the market.
Drive and control engineering of the various models are multifaceted and there are huge differences with respect to quality and price.
As usage of photovoltaics constitutes a huge investment for our customers, flawless operation of the tracking system must be ensured for amortisation; demand for quality and operational-reliability are certainly high from this perspective.
Löseke & Marx guarantees this, on the one hand, by using only high quality material and components and an optimised product development and production, which is subject to strict and perpetual quality checks (DIN EN ISO 9001).
The same has been emphasised by a ten year guarantee on material and processing.
Drive and control engineering of the various models are multifaceted and there are huge differences with respect to quality and price.
As usage of photovoltaics constitutes a huge investment for our customers, flawless operation of the tracking system must be ensured for amortisation; demand for quality and operational-reliability are certainly high from this perspective.
Löseke & Marx guarantees this, on the one hand, by using only high quality material and components and an optimised product development and production, which is subject to strict and perpetual quality checks (DIN EN ISO 9001).
The same has been emphasised by a ten year guarantee on material and processing.
The dual-axis tracking PV Mover M100 facilitates installation of up to 110m² of useable module area.
The layout of the module area can be flexibly adapted to the number and size of the selected module type through the innovative module frame.
In this way, not only is the use of all prevalent modules possible, the module area can also be assembled as per the customer’s requirements.
Depending upon the used module type, output of up to 21 kWp per mover is also possible.
Till date more than 4500 units have been produced and installed by Löseke & Marx globally.
The current level of development is based on the consistent advancement of our product and several years of experience in this field.
The layout of the module area can be flexibly adapted to the number and size of the selected module type through the innovative module frame.
In this way, not only is the use of all prevalent modules possible, the module area can also be assembled as per the customer’s requirements.
Depending upon the used module type, output of up to 21 kWp per mover is also possible.
Till date more than 4500 units have been produced and installed by Löseke & Marx globally.
The current level of development is based on the consistent advancement of our product and several years of experience in this field.
• Yield-optimized adjusting
Our PhotoVoltaicMover follows the progress of the sun process through exact calculation of the coordinates - the only way to optimize yields at our degrees of latitude. The higher expenditure on technology pays off quickly through significantly higher energy output. Current yield measurements of operational systems confirm that - dependent on the geographical location and further basic conditions -a 30% to 42% increase in output is achieved.
• The technology
Solid mechanical engineering and a robust technology are conditions for low-maintenance machines that work for 20 years and more. A special challenge for every machine- and plant manufacturer. With more than years of practical experience under our belt, we can guarantee that our work produces solid constructions. The turning mechanics with a diameter of 2.3 metres carry the weight of the approximately 45m2 of module surface for our StandardMover S45. At the top of the range, the MegaMover M120 on 2.3metres turning mechanics with approx. 120m2 of surface rounds off our PhotoVoltaicMover program. Both model ranges permit a rotation of approx. 260° along the horizon. The inclination of the module surface can be varied from 5° to 70°. Chain-driven, three-phase alternating current gear motors constantly align the module surfaces to the optimal yield position. The module carriers are galvanized, and all other metal parts are coated with a weather-proof special lacquer.
• Product development
Nothing must be left to chance in product development and optimisation, certainly not when one's own standards of quality and accuracy are particularly high.
Besides the comprehensive field trials and experience, advanced simulation techniques are already used for design development.
Thus, in tracking photo-voltaic systems, great attention is always paid to wind resistance of the systems.
By using the latest software, all load cases are presented by external influences in a complex real time simulation.
Besides the comprehensive field trials and experience, advanced simulation techniques are already used for design development.
Thus, in tracking photo-voltaic systems, great attention is always paid to wind resistance of the systems.
By using the latest software, all load cases are presented by external influences in a complex real time simulation.
The PV Mover M100 is optimised with respect to fluid mechanics!
In the simulation, wind speed of up to 130 km/h with set module area survived without any damage to the mechanical components.
In the simulation, wind speed of up to 130 km/h with set module area survived without any damage to the mechanical components.
