Used BURKLE M-LAPV 1520-40 #9029673 for sale
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ID: 9029673
Laminator
Conveyor: working height 900 mm, length 2000 mm, width 1200 mm
Loading / discharge tray: area 1,200 x 1,700 mm, 1 floor, working height
about 900 mm
Max temp resistance: 160°C
Lamination: area 1,200 x 1,700 mm, specific pressure (1 floor) 01-10 N / cm² (floor 2 and 4) to 20 N / cm ²
Operating pressure max: 280 bar, 4 floors, one floor opening width 100 mm, heating medium
thermal oil temp max 180°C thermal oil filling per heating
Freezer approximately 72 L
4 hydraulic cylinders
500 L hydraulic oil
Water as cooling medium for Stage 4, requires water pressure 4 bar
Cooling water consumption max: 10 m³ / h, 18,000 kg
Pneumatics: 6-10 bar requires pressure, quality of air, filtered, condensate-free, non-lubricated, total consumption ca, 160 L / h
Workpiece dimensions: L / W / H 1700 x 1200 x 11 mm
Glass edges ground with C-cut, K-cut, glass plate thickness 3-4 mm, weight max 60 kg.
BURKLE M-LAPV 1520-40 is a highly efficient solar production equipment designed to maximize the production of photovoltaics (PV) cells. It is the ultimate in cutting-edge technology and offers unparalleled performance to produce large quantities of high-efficiency cells in a single pass. The machine's main components are composed of a main scanner, an optical equipment, light guides and linear actuators. The main scanner is a horizontally mounted imaging system that incorporates optical components to generate a precise laser beam that can be finely divided and controlled. This allows for a variety of production options depending on the production requirements. The optical unit of the machine consists of two lenses, one for projection of the laser beam onto the substrate material and a second lens for focusing of the beam. In addition to this, apertures and beam expanders are used to support the production of larger cells. To optimize the light transfer from the laser to the cells, three light guides, each consisting of 10-15 segments, are positioned to transport the light to the edges of the substrate. This guarantees the required power requirements for a single pass and optimized results in laser processing. The linear actuators allow for the flexible processing of different shapes and sizes of cells. This is accomplished by rapid scanning and precision motion of each cell along an assigned linear path. The energy of the laser is modulated accordingly, and the actuators move in a coordinated manner to ensure that each cell is processed according to the desired parameters. M-LAPV 1520-40 is designed for efficient high-volume production of PV cells. Its main components work together in an integrated machine to deliver high-quality results and maximize production capability. The laser beam setup, optical components and linear actuators enable this machine to produce cells in a single pass with high efficiency and precision.
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