ATMAT Jupiter 2000x1000x1000mm

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ATMAT Jupiter – Βιομηχανικός 3D Printer με ωφέλιμη διάσταση 2000x1000x1000mm για εκτυπωση μεγάλων μοντέλων για αρχιτεκτονικά project ή την αυτοκινητοβιομηχανία.

Jupiter

Unlimited space of opportunities

ATMAT Jupiter is one of the largest industrial-class 3D printer in Europe. Working area allows you to create objects up to 2 meters long. The device is equipped with the latest technological solutions in an industry-standard and designed to improve the production process and increase productivity. The machine is used in the industrial, architectural, automotive and aviation sectors.

	Granite working bed with 4-zone heating system An important aspect while designing a working platform was to obtain a stable structure that would guarantee proper adhesion between the working bed and created model. Working platform is equipped with a four-zone heating system, thanks to which the user can be sure that the whole work bed will be heated to the set temperature. Easy to disassemble construction of the bed allows to clean the surface easily, which affects on the correct process of creating prints.
High-performance printing system The printer is equipped with two heads specifically designed for large-scale production. The first head is a high-performance one, uses two extruders that have connected filament mixing tank Thanks to this, we can print at high speed, processing up to 0.5 kg of material per hour. The second head is an auxiliary one and has a single extruder, which is used to produce support structures or models requiring higher accuracy.
	Filament case with dehumidifying containers While designing a large-format 3D printer, it was important to assure the uninterrupted operation, which is the basic principle for long large-format prints. A filament case was created, which can hold 3 spools of filament, each up to 10 kg in weight. This solution guarantees long-term printing and continuous work without the need to replace materials. Additionally, the filaments are located in containers with dehumidifiers to limit the absorption of moisture from the air, which guarantees stability of their properties.
Magnetic drive The head movement in the X and Y axes is performed by a magnetic linear drive with an absolute encoder. This drive guarantees higher speeds, acceleration and more accurate positioning. It has no mechanical parts that can be damaged. The encoder allows continuous reading of the position in which the head is located, so there is no material displacement in the printer and each subsequent layer is always applied in the right place.
	Intelligent machine control systems The printer is equipped with intelligent control systems that allow the user to react quickly to problems that may arise. In case of power failure, the user can resume the printing process, which in case of prints lasting several days guarantees stability and uninterrupted production. The device is also equipped with a sensor of lack of filament flow, preventing sudden interruption of the printout, as well as a sensor for measuring the weight of the filament, allowing to predict the quantity of material needed to print the prepared model. Besides, the device is equipped with automatic nozzle height calibration, semi-automatic bedlevelling, semi-automatic filament exchange and automatic levelling of the XY frame.
Thermally insulated, heated chamber Maintaining a stable environment inside the printer’s working chamber is a key function that impacts on the material used for printing. Thanks to the constant temperature in the printed model there is no processing shrinkage, causing delamination of the layers and adhesion of the model to the bed is improved.
Restart of the printout after a power interruption In case of a power outage, the user can restart the printing process. This functionality guarantees the stability and continuity of a few days’ production processes and also reduces material losses. After the power supply is cut off, the controller saves the current position of the head, so when the current flow is restored, the user can resume printing in the control panel.

Technical specification
	Printing technology	FFF (FDM)
Specification of printers	Working area	X: 2000 Y: 1000 Z: 1000 mm
	Housing	Stable, aluminium sheet construction. Light column and safety switch on the outside of the housing. Separate cabinet for the materials.
	Printing environment	Closed working chamber with temperature control
	Max. chamber temperature	45°C
	Working bed	Automatic table calibration, 4-zone working platform heating system
	Working bed material	Granite
	Maximum bed temperature	100°C
Head	Nozzle diameter	Main printhead: 1mm, 1.5 mm, 2mm, Side printhead: 0.5mm, 1mm, 1.5mm
	Number of heads	2
	Number of extruders	3
	Extruder type	Direct
	Maximum head temperature	340°C
Parameters of printing process	Layer height	0.2 – 1 mm
	Nominal printing speed	200 mm/s
	HQ printing speed	100 mm /s
	Maximum passage speed	500 mm/s
	Positioning accuracy of the X/Y axes	50 µm
	Positioning accuracy of the Z axis	10 µm
	Software	Simplify3D
	File extensions supported by software	.stl, .obj
Print materials	Materials	PLA, PET-G, PA, ABS* Supporting filament: PVA *for printouts with limited geometry
	Material diameter	2.85 mm
	Filament form	Spool
	Supported spool weights	3 x 2.5kg/4.0kg/8.0kg
3D printer operation	Communication	USB 2.0 stick
	Supported formats	.gcode
	Control	HMI with customized interface
	Working environment temperature	10 – 30°C
General data	Power	400V/50Hz
	Max. power consumption	27000 W
	Average power consumption in operation for PLA	2500 W
	External dimensions	3825x2375x2750 mm (width x depth x height)
	Weight	3000kg