User Manual
Table Of Contents
- Introduction
- General Safety Information
- 1. Learn More About the Nova3D BENE4
- 2. What’s in the Box
- 3.Main Components
- 4.Nova3D Printing Technology Glossary
- 5.Preparation before use
- 6. Connecting the Printer to a Network
- 7. Firmware Update
- 8. Navigating Through the Menu
- 9. NovaMaker Software
- 10. Starting and Post-Processing
- 11. Available Materials
- 12. Basic Maintenance and Service Work
- 13. Support and Troubleshooting
- 14. Specification
- 15. Recycling
深圳市诺瓦机器人技术有限公司
Shenzhen Nova Robot Technology Co., Ltd.
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Nova3D devices must be stored between 18 and 35° C [64 - 95° F]. The storage space should
be free of moisture and other extreme conditions.
Transport Instructions:
When stacking several devices on a pallet, follow the instructions provided on the
packaging. Once device may weigh more than 10 kg [22 lb]. It is therefore advisable to provide
safe pallet storage but not higher than 1.7 m [5’7’’]. It should be noted that the packages must
not project beyond the outline of the pallet. Packages stacked on the pallet should be then
bound together and wrapped in foil. The pallet prepared as above can be then forwarded to the
shipping company.
Pallet stacking and destacking should be carried out by two people. The package with the
device should be lifted or moved using special handles.
Electromagnetic Compatibility (EMC)
Nova3D printer complies with Part 15 of the FCC rules. Its operation is subject to the
following two conditions: this device may not cause harmful interference, and this device must
accept any interference received, including interference that may cause undesired operation.
The printer generates, uses, and can radiate radio frequency energy and, if not installed and
used in accordance with the following User Manual, may cause harmful interference to radio
communications.
1. Learn More About the Nova3D BENE4
Nova3D BENE4 is a 3D printer which, together with NovaMaker and dedicated materials,
constitutes the whole 3D printing ecosystem. This device makes it possible to turn digital,
three-dimensional projects into reality using the UV LCD technology which relies on curing
liquid photopolymer layer after layer. The UV LCD technology involves projecting an image of
a layer on the transparent underside of the vat with liquid resin and curing the layer using