Fork Conveyor

Your favorite basketball and soccer balls will be like tightrope walkers with this awesome Fork Conveyor GBC module from Sawyer. Once elevated by a lifting arm and after a ride on a rotating track equipped with forks, they will end up their journey in between two strained strings which will bring them to the nearest exit. You’ll love to reproduce this creative and amazing module thanks to building instructions provided by Planet GBC. Let’s hope we won’t fall from the ropes!

Original design by: sawyer
Number of parts: 643
Original Blog Article (English): here
Complexity for building:
Price for Building: €€, affordable

WATCH THIS LEGO GBC MODULE IN ACTION

Fork Conveyor, on sawyer YouTube channel

 
Advertisement

BUILD THE LEGO MARBLE RUN MACHINE FORK CONVEYOR

GET THE BRICKS YOU NEED TO BUILD FORK CONVEYOR

ADVERTISEMENT – THEY ARE WAITING FOR YOU ON PLANET GBC SHOP

THIS LEGO MODULE IN PICTURES

BUY SOME MORE ACCESSORIES FOR YOUR LEGO MARBLE MACHINE

Buy your GBC balls without breaking the bank !!
Quercetti marbles - 100 balls refill
GBC-compatible balls
Best Price6.90 EUR
Buy NOW
►► Display All Available Deals from our Partners for this Product
Buy cheap motor to run your Lego GBC !!
M-Motor - compatible LEGO Power Functions
GBC-compatible motors
Best Price3.46 EUR
- 30% discount
4.94 EUR
Buy NOW
Buy cheap USB-Rechargeable Battery Box, with speed adapter, to run your Lego GBC !!
USB-rechargeable battery box - compatible LEGO Power Functions
GBC-compatible battery
Best Price15.48 EUR
- 30% discount
22.12 EUR
Buy NOW

YOU LIKE THIS POST ? YOU WILL ALSO LIKE

YOU LOVE THIS POST ?

Share this Planet GBC article on your favorite social media!

3 comments

  1. I found your GBC through Rebrickable. On page 27-1 of the instructions here, it calls for 2 2961’s which I don’t see in the parts inventory listed there.

  2. I am a new AFOL from germany. I need this balls. Can you help me??
    Best regard.
    Richard

Leave a Reply

Your email address will not be published. Required fields are marked *

six − 1 =