Resin UV LCD Desktop 3D Printer
Surgical Precision
The XY resolution is 50×50 microns with minimal layer height of only 25 microns.
Consistent Speed
The Printing speed remains high regardless of how much of the workspace is utilized.
Results Repeatability
Over several Printers, industrial construction quality assures continuous dimensional correctness.
Easy Supports Removal
Supports can be exposed to more UV radiation to make them tougher to remove.
Wide Resins Compatibility
All resins that can be cured by light with a wavelength of 405 nm are supported.
Zortrax Inkspire is designed for those applications where excellent precision is critical. When an image has more than 336 pixels per inch, the human eye cannot see individual pixels. Regardless of viewing angle, the pixel density in models 3D Printed on the Inkspire exceeds this threshold.
The inclusion of industrial-grade components in the Inkspire ensures that model surfaces are continuously immaculate across repeated Printing. The Printer is designed to achieve the maximum level of repeatability possible.
Multiple prototype versions can be produced at a low cost in a single Printing session. They can then undergo comparative evaluation fast, saving money by shortening the development cycle.
Traditional resin 3D Printing technologies include SLA and DLP. An SLA Printer operates with consistent precision, but as more of its workspace is used, it slows down. The speed of DLP machines is constant, however the precision diminishes as workspace consumption increases. Zortrax UV LCD always maintains great speed and precision.
SLA
A layer is drawn with laser
DLP
A layer is projected by a digital projector
UV LCD
SA layer is projected on a high-res LCD screen with UV LED backlighting*
The Inkspire scales easily to work in 3D Printing farms with medium to high scale manufacturing capacities. Such farms can produce end-use items or supplement regular production lines.
Dental Care
Resin 3D Printers can manufacture dental impressions, surgical guides, and interim crowns or bridges swiftly and affordably.
Jewelry Design
Models of 3D Printed jewellery can be used as investment casting patterns. They are also beneficial in terms of customer consultation and fitting.
Precision Engineering
Small, finely designed 3D Printed parts can be employed in a variety of precision engineering applications, including electronics design.
Entertainment Industry
Early concept models for feature films and television shows are frequently created using 3D Printing of complicated organic structures.
An sophisticated optical system ensures nearly flawless UV light dispersion across the construction platform. As a result, the Inkspire is one of the quickest resin 3D Printers on the market without sacrificing Print quality.
A photopolymer hardened by UV light is used to create a model layer by layer.
Innovative technology makes it simple to remove support structures.
A 3D Printed model can be utilised in subsequent stages of prototype or supplied as a fully functional product.
Build volume
132 x 74 x 175 mm
Platform calibration
Semi-automatic
Light source
Integrated UV lamp (wavelength 405 nm)
Connectivity
Wi-Fi, Ethernet, USB
Operating system
Android
Processor
Quad Core
Touchscreen
4" IPS 800 x 480
External materials
Applicable
Supported formats
.cws, .zcodex, .sl1, .zip
Software bundle
Z-SUITE
Supported file types
.stl, .obj, .dxf, .3mf, .ply
Supported operating systems
Mac OS Mojave and newer versions / Windows 7 and newer versions
Technology
UV LCD*
Pixel size
50 microns (0.05 mm)
Layer thickness
25, 50, 100 microns
Ambient operation temperature
20-30° C (68-86° F)
Storage temperature
0-35° C (32-95° F)
AC input
110 V 1.4 A 50/60 Hz; 240 V 0.85 A 50/60 Hz
Maximum power consumption
75 W
Support
Mechanically removed - Printed with the same material as the model