Rapid Replication
Autonomous Digital Mass Manufacturing Machine
JENI isn’t… a 3D printer
JENI doesn’t… make prototypes
It’s injection moulding without tooling
JENI automates the production of plastic parts using multiple LCD 3D print and post processing nodes connected by high-speed robotics.
JENI is… digital
All processes fully tracked, recorded and controllable
Instant digital design changes
API for integration into external systems
JENI is… reconfigurable
Add modules to increase production
Change nodes within modules to perform new processes
Run multiple products and multiple resins simultaneously
JENI is… productive
A typical JENI creates 1 tonne of product every day
Makes anything printable
High speed gantry moves at 3 metres per second
JENI is… accurate
24.8µm x 16.8µm resolution
Patented Blow-Peel technology enables both speed and reliability
Low force and low maintenance
JENI is… reliable
Processes designed for 100% OEE
24-hour lights-out operation
No human involvement
JENI is… green
Low Carbon- 86% less CO2e
Bio based resins
Embedded carbon calculation for every part
Rapid Replication
Autonomous Digital Mass Manufacturing Machine
JENI isn’t… a 3D printer
JENI doesn’t… make prototypes
It’s injection moulding without tooling
JENI automates the production of plastic parts using multiple LCD 3D print and post processing nodes connected by high-speed robotics.
JENI is… digital
All processes fully tracked, recorded and controllable
Instant digital design changes
API for integration into external systems
JENI is… reconfigurable
Add modules to increase production
Change nodes within modules to perform new processes
Run multiple products and multiple resins simultaneously
JENI is… productive
A typical JENI creates 1 tonne of product every day
Makes anything printable
High speed gantry moves at 3 metres per second
JENI is… accurate
20-micron resolution
Patented Blow-Peel technology enables both speed and reliability
Low force and low maintenance
JENI is… reliable
Processes designed for 100% OEE
24-hour lights-out operation
No human involvement
JENI is… green
Low Carbon- 86% less CO2e
Bio based resins
Embedded carbon calculation for every part
JENI Benefits
Productivity
A platform of parts every 20 seconds, around 1 tonne per day
Better Properites
Superior strength and chemical resistance
Keine Werkzeuge
Rapid go to market, flexible & low start-up costs
AI-driven Process
Process optimisation and predictive maintenance
Nachhaltigkeit
Live carbon footprint calculation
Integration
Integration into Manufacturing Execution Systems
Scalability
Extend laterally and even vertically
Kosten
Total Cost of Ownership comprises mainly of material costs
Better Products
Design for Additive Manufacturing enabled designs
The JENI Customer Journey
Validating JENI for your business
- We will always be open and honest, initially we will understand your business.
- We evaluate the parts you need; volumes, costs, properties, and the need for supports.
- We apply Design for Additive Manufacturing and match the desired criteria.
- We provide a comprehensive Total Cost of Ownership (TCO) & Life Cyle Assessment of the embedded carbon in your parts.
- If JENI isn’t transformational, we will say.
- We discuss machine configuration in nodes and modules, every aspect from how material arrives in your building to how the parts are used.
Installing JENI in your business
- We have staged Factory Acceptance Test (FAT) and Site Acceptance Test (SAT).
- You will define what you want, our team will be with you until we agree final acceptance, within a week.
- We are your partner in your digital manufacturing journey.
Why is it called JENI?
JENI is named after the spinning jenny invented in 1764 by James Hargreaves in Lancashire, England. It was the first machine of the first industrial revolution. A multi-spindle spinning frame that revolutionised textile production allowing one worker to simultaneously spin multiple threads, increasing yarn output and shifting textile work from homes to factories.
JENI is the first machine of the fourth industrial revolution, providing a paradigm shift in mass manufacturing, as the first fully autonomous, digital alternative to moulding.
Spezifikationen
Wellenlänge
Lichtausgangs-Wellenlänge 405nm
Volumen aufbauen
Konfigurierbar nach Bedarf
Bis zu 90 kg/Stunde
/ 95mm | 3.7” per hour at 100 µm
/180mm | 7.1” per hour at 250 µm (plant based)
Schichtdicke
25-350µm
Pixel-Teilung
24.8µm x 16.8µm
Materialien
Photocentric, Forward AM Ultracur3D®, Dreve, Henkel Loctite
Autofill-System für Harze
Konnektivität
Wi-Fi, Ethernet, USB 3.0
Software
Photocentric Konduktor.
Fernsteuerung API-Verbindung zu anderen Systemen
Leistungsaufnahme
Je nach Konfiguration ein- oder dreiphasig
Abmessungen des Druckers
Konfigurierbar (B)
x 800 (T) x 2440 (H) mm
Jetzt anfragen
Wir verwenden diese Angaben, um Sie über Neuigkeiten und Erkenntnisse Photocentric auf dem Laufenden zu halten. Sie können sich jederzeit wieder abmelden. Weitere Informationen finden Sie in unserer Datenschutzrichtlinie.
>70%
UK Präzisionstechnik ist unser Kernstück
JENI ist stolz darauf, dass über 70 % der Komponenten in Großbritannien entwickelt und montiert werden.
Eine Plattform mit Teilen alle 20 Sekunden
Harz: 3843 HDT60-Harz
Ein Aligner-Modell alle 4,3 Sekunden
Harz: Foto Dent Modell2
144 Teile alle 20 Sekunden
Harz: Ultracur3D® ST 45
Verwandte Ressourcen
IntelliJeni - schnellere, billigere und sauberere Produktion durch Integration von AM und maschinellem Lernen
27. Mai 2025
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Erschließung der nächsten Generation der Fertigung: Photocentric JENI und die Leistungsfähigkeit der digitalen 3D-Druckproduktion
20. März 2025
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Ein Jahr danach: Die Zukunft der Fertigung durch JENI
4. November 2025
>