Tumaker Bigfoot pellet Manuel utilisateur
BIGFOOT pellet
User manual
Índex
Printer Specications ................................... 2
Main parts of the printer................................ 3
Elements included in the printer.................... 3
Installation and set up ................................... 4
Quick guide ................................................... 6
Adjust the Pellet extrusion.............................7
Semi-Automatic Calibration..........................8
Head cleaning ............................................... 9
Simplify 3D Printing Software.......................10
Simplify 3D loading proles..........................10
Security.........................................................11
Basic recomendations..................................11
Warranty......................................................12
2
printer specifications
Printing Volume: 480x440x500 mm
Printer Size: 750x760x810 mm
Package Size: 870x890x1140 mm
Printer Weight: 82 kg
Package Weight: 140 kg
Materials: Materials in pellet format.
Recomended size:Circular with 3-5mm diameter
Printing Speed: Depends on parameters
Energy Smart Management
Power Rating: 950W
Noise Level: 44 dB (closed door, 40dB)
Layer Resolution: 10μm
Maximum Layer Height:
1,2 nozzle: 0,9mm
0,8 nozzle: 0.6mm
0,6 nozzle: 0,48mm
0,4 nozzle: 0,3mm
Heated Bed: 45º - 150º
Build Plate Leveling:
· Semi-Automatic
· Manual
Non Operating Temperature: 5º-45ºC
Heatbed heat up time at 20º: 40ºC - 0’30” / 60ºC -
1’00” / 80ºC - 1’45” / 100ºC - 3’00”
Nozzle Diameter: 0.4 - 0.6 - 0.8 - 1.2 mm
Nozzle Temperature: 45ºC - 350ºC
Two temperature control points
Display: 5” color touch screen
Control devices: PC, tablet, Smartphone.
Control mode: Web
Connected to the Internet
Conetivity: USB, Wi
Simplify3D Professional Software
1 Year Limited Warranty
480x440x350 mm
750x760x660 mm
870x890x990 mm
75 kg
120 kg
480x440x200 mm
750x760x510 mm
870x890x840 mm
68 kg
100 kg
3
Main parts of the printer
ACabezal o Hotend
2
6
4
3
5
Make sure the following items have been delivered to you with the printer.
If not, please contact us.
Elements includeD in the printer
MICRO USB
CABLE
Main parts of the
printer
Hotend
Nozzle
Layer fan
Frontal fan
Hopper
1
2
3
4
5
6
Display
HOTEND
It moves in the X and Y axes by melting the lament of material
and depositing it on the platform or heated bed. It has a nozzle
that heats up to the required temperature according to the
corresponding printing material.
EXTRUDER
Supplies impression material to the head by extruding the
lament. The printer has two extruders to more adequately
drag large lament coils.
PLATFORM OR HEATED BED
The printing happens on the surface of the platform; this one
moves along the Z axis. Depending on the printing material, it
must be heated to a different temperature.
The distance between the platform and the nozzle has to be
perfectly calibrated for optimum printing.
A
B
C
4
DISPLAY
The light indicator will stay on while the printer is on.
Pantalla
Connect your device to the network of the printer
•WiSSID: INDART3D_XXXXXX
•Password: indart3d
•Acces IP: 192.168.1.114
Access the web interface through the access IP in your browser
OPTIONAL: Connect the printer to the local network
If you want to put the printer on the network and access it from any device on the same network, follow the next step.
Go to Console, type and send: M587 S ”Name of your wi” P ”password of your wi”
If you know a free IP on your network, you can add the following commands after the password, leaving a space:
Ixxx.xxx.x.xxx otherwise the router will assign a random IP.
Installation and set up
DISPLAY
WIRING
To start with the installation and set up, connect the
power cable to the slot on the back of the printer and
plug it into the power socket. Switch on the printer by
pressing the button.
SWITCH POWER SUPPLY
5
Access the Macros / Others / Connect to the NET section and run it. Next, on the printer screen you will see the assigned IP.
If you already have your IP, access from it, go to System and open the cong.g le
ATENTION changing parameters not indicated in this le may imply the malfunction of the machine
In the Network section replace: M552 S2 for M552 S1.
Click Save
Press YES to restart the board
I have the IP
• You can now access the printer from any device connected to this network
• If you have not entered the IP by command in the console, it is recommended to do so, so that the router does not change it:
M587 S ”Wi name ” P ” Password” I192.168.X.XXX
• If you have not obtained the IP or have any other problem, do not hesitate to consult at: https://indart3d.com/indart3d-en/support/
6
quick guide
Load Filament
The 3D printing of pellets is characterized by being a type of manufacturing dierent from the printing process with lament spools.
• First, introduce the pellets into the hopper manually.
• The pellets will begin to fall through the hopper and will melt inside the extruder.
• The molten material will be ejected from the nozzle and will begin to adhere to the build platform.
Level the Build Plate
• Heat the base to the temperature you want to print at
• Make sure you have a clean tip
• Execute the calibration process found in the Macros “Calibration” section and follow the steps
• Use the knurled nuts on the base to t the Nozzle to the Build Base
• If it was your rst calibration you may have to repeat this process
• During printing, ne-tune using Z Babystepping until proper adhesion is achieved
Load G-Code / Print
• In Jobs select: UPLOAD FILE (S) TO G-CODE and upload your “.gcode” le
• With the left button click on the le you want to print
• With the right button select more options
• You can create folders to organize your les by clicking
7
In cong.g you can change the ow rate, the temperature of the two measurement points and the bed
Adjus the Pellet extrusion
Open the material cong.g
New Material
Once created, copy the cong.g from a previous material and edit the necessary parameters
In le manager / Macros / Extrusion calibration / Select the model you want to print.
Modify the ow until you have an optimal result.
8
Semi-Automatic Leveling
• To perform the semiautomatic calibration, go to Machine Control / Dashboard / Compensation and Calibration / Real Bed
Compensation (G32)
True Bed Compensation (G32)
• Heat the base to the printing temperature that you intend to use
• Adjust the height of the nozzle from the base to the desired height
• Use only the panel shown on the screen
• You can use a gauge or a sheet if you want
Level the Build Plate
• Make sure you have a clean tip
• Execute the calibration process found in the Macros “Calibration” section and follow the steps
• Use the knurled nuts on the base to t the Nozzle to the Build Base
• If it was your rst calibration you may have to repeat this process
• If you already have your base level you can skip this step
semi-automatic calibration
Height Map
• Once the Height Compensation is done in the Height Map you will see something similar to this
9
head cleaning
260º: Use ABS or materials with a similar melting temperature
range for materials over 260º. Start extruding until no trace
of the previously used material remains. Once this point is
reached, progressively lower the temperature to 250º.
260º: Use polypropylene for materials less than 260º. Start
extruding until no trace of the previously used material remains.
Once at this point, progressively lower the temperature to 210º.
Print Bed Setting
• During printing, ne-tune using Z Babysteping until proper adhesion is achieved
Advanced
• If you want to modify the number of points to be polled, you can make the changes from System / Cong.g
• Go to ; Probe Z and change the P parameter of the following command
M557 X15:215 Y15:195P3:3
• You can also download or edit your heihtmap.csv le to correct any point or to save different height maps created
Load Compression Map
• If you have restarted the printer, you must load the Height Map again, to do this, execute Load Height Compensation Map
saved in the SD card (G29 S1)
10
If you have any questions about the use of the Voladora
do not hesitate to write us to the following email:
https://indart3d.com/indart3d-en/support/
Indart 3D’s 3D printing stations include the Simplify3D™
professional manufacturing suite, a software with all the
advanced and optimized characteristics to create the
most complex objects in the highest quality. It includes
a powerful simulator to make you more productive,
visualizing the result of the printing strategy you’re
working on before you start manufacturing.
You will be able to repair the imported designs in Simplify3D
itself and you will love the intelligent support option.
Spectacular functionality with which the software will
create the right support for the most complex parts.
If you have any questions about the use of the software,
please consult the following page:
www.simplify3d.com/support/
Simplify 3D printing sOFTWARE
Simplify 3D loading profiles
Open Simplify3d
Click on Import
In Tools go to Firmware Conguration
Select the .frm le
Click save In File go to Import FFF prole
Table des matières
Autres manuels Tumaker Imprimante 3D
