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3d printer filament feeder free download. 3D Printer Filament Automatic Dispenser for Arduino - #1 Design and Hardware |
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Tags Anet A6 : Feeder improvement for flexible filamen Text anet , anet a6 , feeder , filament feeder , flexible , flexible filament , ninjaflex , ninjaflex tpe , ninja flex ,.
Tags FFCP filament feeder improved. Text 3d printer parts , ffcp , ffcpro , filament feeder , filament guide , flashforge , spacer ,. Text bondtech , extruder , marlin 20 , mmu , mmu2 emulation , multicolor , multi filament , skr 13 , smuff , 3d printer accessories ,. Text creality ender 3 , ender 3 , filament guide ,.
Tags Drybox filament feeder with filter PC4-M6. Text drybox , feeder , filament , filament drybox , filament feeder , filament guide , storage box ,. Tags Dual Drive Clap Extruder. Text extruder , feeder , bowden , dual extrusion , dual drive , filament feeder ,. Tags Ender 3 tensionable extruder arm. Text cr , cr10 , creality cr , creality ender 3 , ender , ender3 , ender 3 , extruder , feeder , filament feeder ,. Text arduino , bondtech , bowden , dual drive , dual extruder , dual extrusion , extruder , extrusion , feeder , filament feeder ,.
Tags Leapfrog Xeed filament feeder modification. Text leapfrog xeed , xeed ,. Tags Dry Box Filament Dispenser. Text dehumidifier , desiccant , dispenser , drybox , dry box , feeder , filament , filament feeder , filament holder , filament spool , filament spool holder , flexible , hub , silica gel , spool , spool holder , spool hub , storage box , universal ,.
Text box , filament , diy , dry ,. Tags Flex filament extruder upgrade for stock Tevo Tar Text bowden extruder , extruder , flexible , flexible filament , tevo tarantula ,. Text bkeeber ,. Tags Cr10s Pro Feeder Mod.
Text crs pro , cr10s , cr10s pro , creality , feeder , filament , filament feeder , filament guide , filementguide , filement holder ,. Tags Ender 3 extruder mount V1. Text bowden , creality , ender 3 , ender 3 pro , ender 3 v2 , extruder , fix , limit switch , tube ,.
Tags Filament feeder - Ender3-V2. Text ender3v2 , ender 3 , feeder , filament , filament feeder , filament guide , filament spool holder , roller ,. Text damper , feeder , filament feeder , sound damper , ultimaker , ultimaker original , ultimaker upgrade ,. Start Notification Service for new "filament feeder" 3D Models. Arduino board communicates with the board via the SPI protocol using just only two pins or three if you stack two different TLE shields on the same Arduino. Every command you send to the shield is processed autonomously by the IC without consuming MPU resources.
Another remarkable feature of the Infineon board is the possibility to control up to six brushed motors with three programmable PWM channels. This means that Arduino can setup one or more motors, start then continue working on other tasks. This shield revealed perfectly to support up to six different filament rolls at the same time that is just one of the main goals of this project. As shown in the image above this project is not extremely complex to assemble starting from the kit; HX do his job very well a well working Arduino library is available on GitHub sending to Arduino the load cell readings.
By the other side the TLELE shield with its own library too, thanks to the Infineon developers manages all the motor part. By a hardware point of view, there was no difference at all but I should say that the higher processor speed and more available memory of the XMC made the difference in the general performances: the systems - that works perfectly with Arduino - show better responsiveness and performances when running on the Infineon board.
After doing some experiments in several directions I saw it was possible to control the entire system - monitoring and automatic feeding - with a single sensor; with some experience managing data in the right way a load cell able to dynamically measure the filament spool weight variations can provide all the information we need.
I used an inexpensive load cell in the range Kg less than 4 Euro sold together with a small breakout board of the HX AD Amplifier , an IC adapt to manage the load cells sensors. Spool rotation is obtained by a couple of demultiplied gears moved by a rpm brushed motor. The motor is a McLennan instrument DC geared motor with a rated current of 50 mA and a max no-load current of 20 mA see the attached datasheet.
The spool driver is the base where the filament spool rotates free. The weight sensor is the mid support of the two-layers base so the system is able to detect the weight variations in the various conditions. To avoid as much as possible the friction during rotation I have used four bearings while on the bottom part of the base the HX breakout board is fixed with a couple of screws.
The mechanic design needed two different prototypes. Before seeing in depth the steps I followed there is a short foreword we should say about 3D printing and mechanic design. When we need 3D printing to build - no matter how complex - moving parts and in general mechanical elements we should always consider that there will be some forces, static of dynamics, that will be applied to the prototype while it is working.
Knowing what are the kind of forces applied to our 3D printed structure it is essential to decide important parameters:. But the first step that can dramatically change the quality and robustness of the resulting 3D printed piece is the CAD design. Designing single objects like cases, puppets, gadgets CAD choices is not influencing too much the final result but when we have many moving parts I consider a must designing compound objects for at least two reasons:. The two images above shows all the parts to be printed from the first prototype design.
You can see the two green pulley used to manage the movement; the first idea was using a toothed belt for the transmission but when the prototype was built the solution revealed almost bad.
The gallery below illustrated several rendering of the mechanic design before I started 3D printing the parts. After 3D printing then assembling the first prototype the tooth belt transmission was not working well. The tension of the belt required a more robust support than the structure I designed. The rest of the parts instead was working perfectly. As the complete structure was built with different parts it was sufficient to replace the two tooth pulleys with a couple of gears; I had to reprint only these two replacements and the issue was solved.
The video below shows the final solution and the making of refining and assembling the first prototype. You don't have permission to edit metadata of this video. It is vitally important to reduce Filament roller friction to the minimum.
My Solidoodle 2 system has…. As me I have the filament in an optimal position. But weight calculation - also in this case - is more stable if filament is pulled and the weight sensor is more stable. In other cases motor is fundamental, as when you can't place filament in the right position but you should place - for example, as I have done in my tests - beside the printer or other uncommon but useful places depending on your work area.
I even soak my Ball Bearings in Synthetic engine Oil, to further reduce the friction. Register Log In. Site Search Log In Register.
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3d printer filament feeder free download.Feeder Tube
Text 3d printer parts , ffcp , ffcpro , filament feeder , filament guide , flashforge , spacer ,. Text bondtech , extruder , marlin 20 , mmu , mmu2 emulation , multicolor , multi filament , skr 13 , smuff , 3d printer accessories ,.
Text creality ender 3 , ender 3 , filament guide ,. Tags Drybox filament feeder with filter PC4-M6. Text drybox , feeder , filament , filament drybox , filament feeder , filament guide , storage box ,. Tags Dual Drive Clap Extruder. Text extruder , feeder , bowden , dual extrusion , dual drive , filament feeder ,. Tags Ender 3 tensionable extruder arm. Text cr , cr10 , creality cr , creality ender 3 , ender , ender3 , ender 3 , extruder , feeder , filament feeder ,.
Text arduino , bondtech , bowden , dual drive , dual extruder , dual extrusion , extruder , extrusion , feeder , filament feeder ,. Tags Leapfrog Xeed filament feeder modification. Text leapfrog xeed , xeed ,. Tags Dry Box Filament Dispenser. Text dehumidifier , desiccant , dispenser , drybox , dry box , feeder , filament , filament feeder , filament holder , filament spool , filament spool holder , flexible , hub , silica gel , spool , spool holder , spool hub , storage box , universal ,.
Text box , filament , diy , dry ,. Tags Flex filament extruder upgrade for stock Tevo Tar Text bowden extruder , extruder , flexible , flexible filament , tevo tarantula ,.
Text bkeeber ,. Tags Cr10s Pro Feeder Mod. Text crs pro , cr10s , cr10s pro , creality , feeder , filament , filament feeder , filament guide , filementguide , filement holder ,. Tags Ender 3 extruder mount V1. Text bowden , creality , ender 3 , ender 3 pro , ender 3 v2 , extruder , fix , limit switch , tube ,.
Tags Filament feeder - Ender3-V2. Text ender3v2 , ender 3 , feeder , filament , filament feeder , filament guide , filament spool holder , roller ,.
Text damper , feeder , filament feeder , sound damper , ultimaker , ultimaker original , ultimaker upgrade ,. Start Notification Service for new "filament feeder" 3D Models.
Most popular filament feeder 3D Models. Tags Feeder for Ultimaker and not only. Text feeder , filament feeder , mk7 , mk7 extruder , ultimaker ,. Making the right choice in the 3D design means saving a lot of prototyping and production time, a considerable quantity of filament and creating an adaptable structure. To say this in one word: 3D parametric model. An adaptable design means also a model reusable building; the same structure can be reused with a different kind of motor, different bearings etc.
Thanks to a modular design it was possible approaching a solution for this project after a first prototype with a different and not reliable motion transmission solution. One of the limits I have experienced with other motor control shields for Arduino but not only is that they use the features of the same micro controller i.
To stay on the same topic of this project many 3D printer controllers based on Arduino clones experience this kind of limits. Having the possibility to put my hands on the TLELE Arduino shield for road testing, the most evident advantage of the IC the board is based on is just its completeness.
Arduino board communicates with the board via the SPI protocol using just only two pins or three if you stack two different TLE shields on the same Arduino. Every command you send to the shield is processed autonomously by the IC without consuming MPU resources. Another remarkable feature of the Infineon board is the possibility to control up to six brushed motors with three programmable PWM channels.
This means that Arduino can setup one or more motors, start then continue working on other tasks. This shield revealed perfectly to support up to six different filament rolls at the same time that is just one of the main goals of this project. As shown in the image above this project is not extremely complex to assemble starting from the kit; HX do his job very well a well working Arduino library is available on GitHub sending to Arduino the load cell readings.
By the other side the TLELE shield with its own library too, thanks to the Infineon developers manages all the motor part. By a hardware point of view, there was no difference at all but I should say that the higher processor speed and more available memory of the XMC made the difference in the general performances: the systems - that works perfectly with Arduino - show better responsiveness and performances when running on the Infineon board.
After doing some experiments in several directions I saw it was possible to control the entire system - monitoring and automatic feeding - with a single sensor; with some experience managing data in the right way a load cell able to dynamically measure the filament spool weight variations can provide all the information we need.
I used an inexpensive load cell in the range Kg less than 4 Euro sold together with a small breakout board of the HX AD Amplifier , an IC adapt to manage the load cells sensors. Spool rotation is obtained by a couple of demultiplied gears moved by a rpm brushed motor. The motor is a McLennan instrument DC geared motor with a rated current of 50 mA and a max no-load current of 20 mA see the attached datasheet.
The spool driver is the base where the filament spool rotates free. The weight sensor is the mid support of the two-layers base so the system is able to detect the weight variations in the various conditions.
To avoid as much as possible the friction during rotation I have used four bearings while on the bottom part of the base the HX breakout board is fixed with a couple of screws. The mechanic design needed two different prototypes. Before seeing in depth the steps I followed there is a short foreword we should say about 3D printing and mechanic design. When we need 3D printing to build - no matter how complex - moving parts and in general mechanical elements we should always consider that there will be some forces, static of dynamics, that will be applied to the prototype while it is working.
Knowing what are the kind of forces applied to our 3D printed structure it is essential to decide important parameters:. But the first step that can dramatically change the quality and robustness of the resulting 3D printed piece is the CAD design. Designing single objects like cases, puppets, gadgets CAD choices is not influencing too much the final result but when we have many moving parts I consider a must designing compound objects for at least two reasons:.
The two images above shows all the parts to be printed from the first prototype design. You can see the two green pulley used to manage the movement; the first idea was using a toothed belt for the transmission but when the prototype was built the solution revealed almost bad.
The gallery below illustrated several rendering of the mechanic design before I started 3D printing the parts. After 3D printing then assembling the first prototype the tooth belt transmission was not working well. The tension of the belt required a more robust support than the structure I designed. The rest of the parts instead was working perfectly. As the complete structure was built with different parts it was sufficient to replace the two tooth pulleys with a couple of gears; I had to reprint only these two replacements and the issue was solved.
The video below shows the final solution and the making of refining and assembling the first prototype. You don't have permission to edit metadata of this video. It is vitally important to reduce Filament roller friction to the minimum. My Solidoodle 2 system has…. As me I have the filament in an optimal position.
