Collapsable Golf Putter - collapsible
Boost
81
104
33
Print Profile(2)
0.2mm layer, 3 walls, 15% infill
Designer
9.5 h
2 plates
0.2mm layer, 3 walls, 15% infill
Designer
7.6 h
2 plates
Boost
81
104
33
3
323
282
Released
Description
Collapsable Golf Putter
with interchangeable threaded head
extendable stick replaceable in case of breakage
soon other head models
you can find the hole and ball here:
https://makerworld.com/en/models/184879
Comment & Rating (33)
All
anyone have issues on the threads?
The designer has replied
1
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Hi, the model has reached 350 downloads and so far no one has complained about the threads.
Did you use the print profiles as they are in the model?
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Replying to @AsKeNaR
just an FYI, i am also having issues with the threats in these parts.
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Replying to @AsKeNaR
I wasn't complaining, just asking. I used the provided profile.
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Print Profile
0.2mm layer, 3 walls, 15% infill
Very good
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Print Profile
0.2mm layer, 3 walls, 15% infill
Strength Issue:looked really cool but broke quickly
The designer has replied
1
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Same problem, broke too easily but it looks very cool
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Replying to @t_revely
We are talking about a 3D printed and collapsible golf club, certainly in PETG it will be more resistant than in PLA, the printing profiles are designed to have the right compromise between resistance and printing speed, resistance can be increased by decreasing the height of the layers, furthermore the project is designed so that if a part breaks it can be replaced by printing only the broken part, each piece is a single STL that can be downloaded and printed individually.
Probably even between different brands of filament there can be differences in print resistance.
I hope you can print the broken piece and continue to enjoy it.
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We are talking about a 3D printed and collapsible golf club, certainly in PETG it will be more resistant than in PLA, the printing profiles are designed to have the right compromise between resistance and printing speed, resistance can be increased by decreasing the height of the layers, furthermore the project is designed so that if a part breaks it can be replaced by printing only the broken part, each piece is a single STL that can be downloaded and printed individually.
Probably even between different brands of filament there can be differences in print resistance.
I hope you can print the broken piece and continue to enjoy it.
0
Reply
Print Profile
0.2mm layer, 3 walls, 15% infill
0
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Its awesome! Just finished printing mine. I'll be making more for my kids! Now, I'm left handed, any way you can make a left handed putter head?
The designer has replied
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hello and thanks for the compliments, I hadn't thought of this possibility, I will update the project shortly with the left-handed version. You can probably mirror the project directly from the slicer but I need to check how the threads would look.
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Print Profile
0.2mm layer, 3 walls, 15% infill
My boss is going to love this!
The designer has replied
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I hope he gave you a pay raise.
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Print Profile
0.2mm layer, 3 walls, 15% infill
Printed great
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I mean if Bryson can do it at the Masters, it has to work at home too, right? RIGHT?!?!
No, it does not. BUT! this is an awesome design and i plan to break it out on the course frequently to use with my sphero golfball robot, perfect pairing!
I used the same filament for the head and shaft and the threading is perfect. However the petg shaft has a lot of wobble so i'm printing a PLA+ version of the shaft, will update if threading is an issue there. If it is i may print the head again with the same PLA+ but increase infill for weight.
I have been thinking of ways to fill in the shaft for stiffness but so far heat shrink (on the outside) is all i've come up with... takes away from the collapsing part but there isn't a better way to print a long thin rod that i've seen anyways.
I can break out a collapsing putter on the course but if it sucks/breaks then its just funny but if its a decent putter maybe some of my friends will finally get printers.
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Print Profile
0.2mm layer, 3 walls, 15% infill
Model itself its wonderful, i think that the string problem can be partially solved printing the club head and the colapsable stick as two separated plates
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Print Profile
0.2mm layer, 3 walls, 15% infill
Printed this for one of my managers as a gift
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License
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