Bambu Lab X1 Combo 3D Printer User Guide
- October 30, 2023
- Bambu Lab
Table of Contents
X1 Combo 3D Printer
User Guide
X1 Combo 3D Printer
Please review the entire guide before operating the printer.
Safety Notice: Do not connect to power until assembly is complete.
Warning:
The AMS supports spools with a width of 50-68mm.
When operating the AMS, we recommend using Bambu Filament, which has been
thoroughly tested to work with the AMS. Please make sure to avoid using soft
materials like TPU or damp PVA, as they can get stuck in the AMS, and please
avoid using cardboard spools as the spool may slip. If you run into any issues
with specific filaments, please let us know so that we can provide better
advice to our community.
Component Introduction
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Accessory Specification
Touch Screen| Spool Holder| 250g Filament (x3)| Spare Hot End| Nozzle Wiping
Pad (x2)
Power Cord| Spare Filament Cutter (x2)| Bambu Bus Cable-6Pin| Allen Key H1.5
Allen Key H2| Unclogging Pin Tool
Spare Sheet for Bambu Cool Plate (x2)| Flexible Build Plate
(Pre-installed on build plate)| Bambu Bus Cable-4Pin| Bambu Scraper| Glue
Stick for Build Plate
AMS & Tool Head Unlock
Take out the accessory box. Use Allen Key H2 to remove the screws as pictured.
Take out the AMS by sliding it out through the top.
*We recommend using the short end of the Allen Key to unlock the screws more easily.
Remove the four screws as the arrows indicate.
Take out the AMS cushioning.
Remove the carboard from the tool head.
Remove the foam from the excess chute.
AMS Assembly
*The cable-6pin can be plugged into either interface.
Spool Holder Assembly
*The spool holder is only necessary when printing with filaments that are
not supported for use with the AMS.
Remove the screw as pictured with an Allen Key H2.| Secure the spool holder with two screws from the accessory box.
Screen Installation
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Pull the Flexible Printed Circuit (FPC) out about 50mm.| Insert the FPC into
the port by pressing the terminal as pictured.| Insert the screen back to the
slot on the
printer, then lock it by pushing it to the left.
Hot Bed Unlock
Remove the three screws with an Allen Key H2 to unlock the hot bed. Connect
the printer to power. Follow the instructions on the screen to complete the
initial calibration.
DO NOT remove the protective foam from beneath the hot bed until after the
initial calibration is complete.
First Print
Apply a thin layer of glue on the build plate.
Place at least one spool of Bambu Filament into the AMS. Turn on the power to
start the printer and the AMS. Insert the filament into the filament inlet.
The filament will be automatically pre-loaded when detected.
*We recommend first printing a single-color model with the supplied Bambu PLA Basic.
Press ” ” – “internal”. Select a file to start the first print.
*We recommend using one of the pre-loaded files as a first test print.
Specification
Item | Specification |
---|---|
X1-Carbon | I X1 |
Printing Technology | Fused Deposition Modeling |
Body | Build Volume(WD•H) |
Chassis | Steel |
Shell | Aluminum & Glass |
Tool Head | Hot End |
Extruder Gears | Hardened Steel |
Nozzle | Hardened Steel |
Max Hot End Temperature | 300°C |
Nozzle Diameter (Included) | 0.4 mm |
Nozzle Diameter (Optional) | 0.2 mm, 0.6 mm, 0.8 mm |
Filament Cutter | Yes |
Filament Diameter | 1.75 mm |
Hot bed | Build Plate |
Build Plate Surface(Included) | Bambu Cool Plate, Bambu Engineering Plate |
Build Plate Surface (Optional) | Bambu High Temperature Plate |
Max Build Plate Temperature | 110°C@220V, 120°C@110V |
Speed | Max Speed of Tool Head |
Max Acceleration of Tool Head | 20 m/s”2 |
Max Hot End Flow | 32 mm”3/s @ABS |
Cooling | Part Cooling Fan |
Hot End Fan | Closed Loop Control |
Control Board Fan | Closed Loop Control |
Chamber Temperature Regulator Fan | Closed Loop Control |
Auxiliary Part Cooling Fan | Closed Loop Control |
Air Filter | Activated Carbon Filter |
Supported Filament | PLA, PETG,TPU,ABS,ASA,PVA,PET |
PA, PC | Ideal |
Carbon/Glass Fiber Reinforced Polymer | Ideal |
Sensors | Bambu Micro Lidar |
Chamber Monitoring Camera | 19209080 Included |
Door Sensor | Yes |
Filament Run Out Sensor | Yes |
Filament Odometry | Optional with AMS |
Power Loss Recover | Yes |
Physical Dimensions | Dimensions |
--- | --- |
Net Weight | 14.13kg |
Electrical Requirements | Voltage |
Max Power | 1000W@220V, 350W@110V |
Electronics | Display |
Connectivity | Wi-Fi, Bambu Bus |
Storage | 4GB EMMC and Micro SD Card Reader |
Control Interface | Touch Screen, APP, PC Application |
Motion Controller | Dual-Core Cortex M4 |
Application Processor | Quad ARM A7 1.2 GHz |
Neural-Network Processing Unit | 2 Tops |
Software | Slicer |
Support third party slicers which export standard G-code such as Superslicer,
Prusaslicer and Cura, but certain advanced features may not be supported.
Slicer Supported OS| MacOS, Windows
Wifi| Frequency Range| 2400MHz-2483.5MHz
Transmitter Power (EIRP)| 5 21.5dBm(FCC)
s 20 dBm (CE/SRRC)
Protocol| 802.11b/g/n
Laser (Class 2)| Wavelength| 405nm, 808nm
Maximum Output of Laser Radiation| <1 mW
Bambu Studio
Bambu Handy
Please visit Bambu Lab Wiki to learn more setup and maintenance tutorials.
https://wiki.bambulab.com/en/home
If you need support, please try either of the two approaches:
Approach 1: Creta a support ticket on Official Website
Approach 2: Create a support ticket on Bambu Handy App
Enjoy!
www.bambulab.com
References
- Bambu Lab | Unleash Your Creativity with Bambu Lab 3D Printers - Bambu Lab
- Software - Bambu Lab
- Home | Bambu Lab Wiki