EufyMake Rotary Printing Attachment for E1
Engineered for the eufyMake E1, the Rotary UV Printing Attachment enables high-quality cylindrical printing with an auto-leveling system. It supports objects for a variety of dimensions, handles tapered items up to 1 kg, and delivers 1 mm embossed printing—ideal for cups, bottles, and more.
Overview
The eufyMake Rotary Printing Attachment for E1 3D-Texture UV Printer expands the capabilities of the E1 UV printing system by enabling precise printing on cylindrical and tapered objects such as bottles, tumblers, cups, mugs, and similar curved surfaces. Designed specifically for use with the eufyMake E1 3D-Texture UV Printer, this accessory allows creators and businesses to produce customized textured graphics and full-color UV prints on rotating objects with improved alignment and consistency.
Featuring auto-leveling support and compatibility with a wide range of object sizes, the rotary attachment streamlines curved-surface printing while maintaining accurate positioning during operation. Whether creating personalized drinkware, branded merchandise, or decorative products, the attachment provides an efficient way to extend the creative flexibility of the E1 ecosystem.
Core Features
Designed specifically for compatibility with the eufyMake E1 3D-Texture UV Printer.
Supports printing on cylindrical and tapered objects including bottles, tumblers, mugs, and cups.
Auto-leveling functionality helps maintain even alignment during rotary printing.
Compatible with objects measuring from 4.1 to 10 cm in diameter.
Supports print lengths from 7.9 to 24.4 cm for a variety of container sizes.
Handles objects weighing up to 1 kg for stable operation during printing.
Supports tapered objects with angles less than 15°.
Allows embossed texture printing up to 1 mm high.
With integrated support components and auto-leveling functionality, the attachment helps maintain consistent positioning while objects rotate during the printing process. This improves print alignment and helps achieve cleaner graphics across curved surfaces.






















