Building Instructions -

• Ubuntu

These are building instructions for a LEGO Mindstorms EV3 demonstration model. In the tutorial, we are using it to demonstrate the working and relations of LEGO Gears.

It kind of looks like an Inuit. But it surely walks like one. Most of the time Inuit walk with special boots that allows them to walk on deep snow without getting stuck. This robot walks in the same way. It has large feet and it moves one after the other. 

Instructions for building remote control. It uses the rotation sensor to determine the steering and touch sensor for handling the movement. Find building instructions for a suitable chassis here. 

Together the controller and the car look like this:

These are 3D Building instructions for the Oil Platform. You can build them from Bag 2

Oh no, the delivery is running late! Don't worry, this warehouse robot made to hold and drag objects is here to help! It uses two medium motors to move around and one for a grabber. The grabber, which is at the front of the robot, consists of two double angular lift-arms that are each connected to a gear.

This module is made as a grabber that uses a cool mechanism to catch things vertically. It is powered by a medium motor. The grabber is used in Earl Bot - Grabbing and Clearing LEGO Mindstorms Robot without wheels.

These are instructions on how to build the:

• Elevator
• Test building

for the FIRST LEGO League 2019-2020 City Shaper Challenge.

You can find more building instructions and tips and tricks about the competition on this page.

This attachment accomplishes the Into Orbit Extraction mission from the FIRST LEGO League Into Orbit 2017-2018 competitions. The based of the robot is the SUV Competition Box Robot from LEGO Mindstorms EV3.

The program for this attachment is at https://www.fllcasts.com/programs/2hpdg9-fll-2018-attachment-to-accomplish-the-into-orbit-extraction-05-robot-game-missions-program.

This is the attachment of Team "Nightbeast", with which they solve M01 and M02 from FLL Into Orbit Challenge

These are buliding instructions for the FTC robot and collecting attachments with it. We are doing small modifications of the push bot.

Building instructions for the most simple grabber using just one Large EV3 LEGO motor. It has one static lever and one active lever.

Building instructions for the LEGO Mindstorms attachment using Rubber Bands

This attachment is part of a second version of attachments for accomplishing the M07, M08 and M15 where we have to push and collect in the FIRST LEGO League 2022-2023 competition. It is for the Kriket Box Robot and we are doing this second version to make sure there are enough examples of how to use the Kriket box robot.

The interesting part about this attachment is how it connects to the robot. The Kriket has two brown axles that are connected to the motors via a gear mechanism. The attachment is attached to these brown axles which transfer the motor movement to the attachment.

Building instructions for the Wind Turbine mission model for the FIRST LEGO League 2022 competition. Find the parts in Bag 7

This is a small VEX IQ truck that have one and only one reason to exist. The reason is to teach students to drive by practising diving with it.There is nothing that makes the Little Truckie happier than driving.

The programs for controling Truckie are at:

Truckie - "Easy" To Drive VEX IQ Program for Modkit. Left stick steers. Right stick moves

Truckie - "Hard" To Drive VEX IQ Program for Modkit. One stick for move and steer

The is the whole step-by-step process of connecting the motors with the Raspberry PI with the driver and the batteries. No scheme needed. Everything is already here. In the course, the motors are part of the car and the batteries are in the batteries holder, but with this scheme, you could see the whole process.

The first of a series of attachments that we add to a World Robotics Olympiad LEGO Mindstorms Robot. The attachment is an example for collecting ping-balls. The robot and the attachment are in the same construction. The attachment is a base for a container that could be extended.

We've separated the BigDaddy robot into a few smaller modules. This teaches modularity and gives you the option to reuse some of the modules and to look at specific modules.

This is the robot that we use to demonstrate a solution for competition. This is a Post season solution. We never release any solutions during the season as this will have a negative impact on the competition. But after the competition we try to make a review and to see how we could have accomplish it. Our goal is to be better for next year.

This robot is quite powerful. The attachment mechanism on the front is one of a kind as it can do several things with a single motor: it can lift, it can unlock, it can grab. All of this thanks to the unique mechanism of gears