Wanaho i3/Maker Select/Coccon Creat Titan Extruder mounting plate version 2

thingiverse

I thought everything was all good when I first designed my original Titan mounting plate, but user 'Achoo01' pointed out something that really threw me off while designing the first mounting plate. I completely forgot to allow proper access to the Titan's idler tensioner which is pretty much impossible to access on the first version of the mounting plate. The major change between the V1 mounting plate and the V2 mounting plate came from the mind of 'Achoo01' who said that instead of having the Titan facing sideways like it did on the V1, it should be facing forward which will allow access to the Titan's idler tensioner. Like the V1, it takes M4 button head screws to screw in the bearing blocks, and you'll also need the 3rd-rail Z tower brace created by user delukart or else the Titan will crash into the top bar of your 3D printer. Also included is a Y axis gap fixer (named y_a_g_f.stl) that you'll need to fix the 17.5mm Y axis offset created by this Titan setup. That's pretty much all I have for you all, have a great day, hope you enjoy this, and happy printing. Titan mounting plate version 1: http://www.thingiverse.com/thing:1687197 3rd-rail Z tower brace: http://www.thingiverse.com/thing:1454073 18Ncm NEMA 17 Pancake Motor: http://www.omc-stepperonline.com/nema-17-bipolar-step-motor-29v-07a-18ncm255ozin-17hs100704s-p-260.html Print Settings: Printer: Wanhao Duplicator i3/Maker Select/Cocoon Create Rafts: No Supports: Yes Infill: Anything above 50% Notes: Make sure to use a strong plastic such as PETG or ABS. How I Designed This User 'Achoo01' was really helpful and gave me some pointers, so I came up with this. Custom Section INSTRUCTIONS Things you'll need ● The Titan mounting plate V2 ● E3D Titan Extruder ● E3D V6 hotend ● 18Ncm NEMA 17 stepper motor ● The 3rd rail tower brace mod made by user delukart ● 10 M4 button head hex screws 12mm long ● Drag chain with female and male connectors Attach drag chain to mounting plate with stock M3 flat head screw. Plug everything into their appropriate plug-ins (the thermistor is the thermistor plugin, the hotend wire is in the hotend plugin if you did step 8, the heatbreak fan is plugged in, and the NEMA 17 pancake is plugged in as well). Once that's done make sure the hotend and extruder works properly. Take your current e-steps per mm value (on the Wanhao i3/Maker Select/Cocoon Create it's 96) and multiply it by 3.58 to get the new e-steps per mm value (if you have it to 96 it's 350.84). Full credit goes to Ultimaker forum user Marcel2016 for calculating the Titan extruder multiplier, if you're there thank you my friend (link to the forum post: https://ultimaker.com/en/community/21029-e3d-titan-extruder-firmware-settings ) 14: Level bed. Print off calibration tests. Congratulations you've completely converted your Wanaho i3/Maker Select/Cocoon Create to a Titan extruder.