Bambu Lab X1 3D Printer User Guide
- May 15, 2024
- Bambu Lab
Table of Contents
Eambu Lab K18K 1-Larbun
30 printer
Quick Start
Please review the entire
guide before operating the printer.
- Safety Notice: Do not connect to power until assembly is complete.
X1 3D Printer
Bambu Studio & Bambu Handy https://bambulab.com/download
Component Introduction
Accessory Specification
Tool Head Unlock
Remove the carboard from the tool head. Roove the foam from the excess chute.
Cut the zip tie securing the toolhead.
Spool Holder Assembly
Remove the screw as pictured with an Allen Key H2.
Secure the spool holder with two screws from the accessory box.
We recommend using the short end of the Allen Key to unlock the screws more
easily.
Hot Bed Unlock & Screen Installation
Remove the three screws with an Allen Key H2 to unlock the hot bed.
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.
Printer Binding
- Download the Bambu Handy App. Register and log in to your Bambu Lab account.
- Connect the printer to power. Follow the instructions on the screen until getting to the page shown on the right side.https://www.bambulab.com/download
- Use Bambu Handy to scan the QR code on the screen, and bind your printer with your Bambu Lab account.
- Follow the instructions on the screen to complete the initial calibration.
It is normal to have vibration and noise during the calibration process.
DO NOT remove the protective foam from beneath the hot bed until after the initial calibration is complete.
First Print
Insert the filament into the PTFE Tube. Keep pushing the filament until it can not move forward. We recommend using the supplied Bambu PLA Basie for your first test print.
Press , and heat the nozzle to the recommended temperature for the filament. Press “Extruder” ” several times until the filament comes out from the nozzle and cannot be pulled out from the PTFE tube manually . Apply a thin layer of glue on the build plate.
Press “ ” – “internal”. Select a file to start the first print.
*We recommend using one of the pre-loaded files as a first test print.
Bambu Studio
Download Bambu Studio: http://bambulab.com/download
Log in to Bambu Studio with your Bambu Lab account,
which is the same for the Bambu Online store.
Create or open a project. 
Slice the model, select your printer and send the model to print.
We recommend performing bed leveling before each print and performing flow
calibration after changing filament. 
During printing, you can remotely monitor your print, or
pause/stop printing on the “Device” interface.
The live view can be seen only if a camera is mounted.
Specification
| Item | Specification |
|---|---|
| X1-Carbon | I ri |
| Pinging Technology | Fused Deposition Modeling |
| Body | Build Volume(W*D’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/s42 |
| 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 | 1920’1080 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 I 13.18kg |
| 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, APR PC Application |
| Motion Controller | Dual-Core Cortex M4 |
| Application Processor | Quad ARM Al 1.2 GHz |
| Neural-Network Processing Unit | 2 Tops |
| Software | Slicer |
Support third party slicers which export standard G-code such as Super
slicer, Prusa Slicer and Cura, but certain advanced features may not be
supported.
Slicer Supported OS| MacOS, Windows
Wifi| Frequency Range| 2400MHz-2483.5MHz
Transmitter Power (EIRP)| s 21.5dBm(FCC)
s 20 dBm (CE/SRRC)
Protocol| 802.11 b/g/n
Laser
(Either)| Laser
(CLASS 1)| Wavelength| 850nm, 850nm
Maximun Output of Laser Radiation| <0.778mW
Laser
(CLASS 2)| Wavelength| 405nm, 808nm
Maximun Output of Laser Radiation| <1mW
Customer Support
Please visit the Bambu Lab Wiki for more setup and maintenance tutorials.
https://wiki.bambulab.com/en/home
If you need support, please try either of the two approaches:
Approach 1: Create a support ticket on the Official Website 
Approach 2: Create a support
ticket on the Bambu Handy App
Enjoy!
www.bambulab.com