Basic Info.
Model NO.
NELD-3D730
Upgrading
Online, Free
Input Voltage
AC220V±10%, 50Hz
Maximum Power
2.6kw
Weight
460kg
Xy Movement Speed
1-100mm/S
Z Movement Speed
1-100mm/S
Transport Package
Wooden Box
Specification
large-size
Trademark
NELD
Origin
Xianghe
Product Description
Product Description
Concrete mortar 3D printers take concrete mortar or other additives and extrude them through nozzles which print layer by layer to form concrete entities. This printer is suitable for microscopic evaluation of large structural designs, rapid house building, multi-dimensional architecture, etc. The 3D printer developed by Neld integrates mechanical, automation and informatization all in one equipment, combining with the practical application of research universities, is capable of providing a variety of design solutions for material science research. This product has obtained two utility model patents.
Technical Parameters
1.Print size | 1200×1200×1200(mm) |
2.Exterior dimensions | 2060×1635×2665(mm) |
3.Drive motor | stepper motor |
4.xy speed of motion | 1~100mm/s |
5.z-axis speed of motion | 1~100mm/s |
6.Positioning accuracy | 0.08mm |
7.Print head dimension | 10mm(customization available) |
8.Control cabinet | touch screen integrates with the control cabinet |
- Operating interface: 15-inch touch screen computer
- Print path display: software online display of print path
- Interface language: Chinese and english
- Upgrade method: internet transfer, free updates
- Material feeding method: manual or electric (Stepless variable speed)
- Input voltage:AC220V±10%,50Hz
- Maximum power:0.6kW
- Printer weight:200kg
1. 3D printer Three-dimensional motion frame (1)
2.3D printing smart console (1)
3.3D printing software pre-installation
Details Highlights
Support Customization
10mm print head equipped, customization for required sizes available
Steady and reliable
high sensitivity, highly accurate, positioning accuracy up to 0.08mm
Compact structure, adopting quiet design
Ideal 3D printing product for consumers in need for printing micro-structure in scientific research units