Second quick pinless attachment
Another example for a quick pinless attachment build with LEGO Mindstorms EV3 robots.
- #231
- 07 Dec 2014
- 1
Another example for a quick pinless attachment build with LEGO Mindstorms EV3 robots.
A similar LEGO attachment the previous once, but this one is with a different gear ratio. Again using a frame, two axles and two gears you can change the direction of the motion.
This is another LEGO Mindstorms grabber, but this time it has 4 fingers! They are moved simultaneously by a medium motor. The grabber was taken from Cron - LEGO Mindstorms EV3 Crane.
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
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:
Building instructions for the One Attachment. Built from LEGO Mindstorms EV3 parts and with an Ultrasonic sensor we've used this attachment to accomplish most of the missions at FIRST LEGO League 2013.
SIngle robot attachment, many points.
Probably the simples trick for pinless attachments that we've found. It is a construction build in just three steps. Simple as that. But it has a lot of potential to teach you how to use pinless attachments. Pinless attachments are very useful during FIRST LEGO League and World Robot Olympiad competitions.
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.
This is the first type of an active geared attachment. "Active" means that is is power by a motor. "Geared" means that it use gears. "Reusable" means that you can easily extend the attachment with additional parts - eg - you can reuse it. It shows a basic principle of how power is transferred between different axles that have different orientation in space- like when one of the axles is horizontal and the other is vertical. It's built with LEGO Education SPIKE Prime parts and could be used in competitions in robotics like FIRST LEGO League/World Robotics Olympiad and others. It's designed for Luly, small LEGO Education SPIKE Prime competition robot with 3D building instructions. Check the courses in which this attachment is used for more information and tutorials on how to use it.
Containers mission models reworked from a LEGO Mindstorms EV3 version available at 778-containers-mission-models-fllcasts-off-season-challenge-2019 to a LEGO Education SPIKE Prime version available in this material. In 3D building instructions for you to construct them.
This is a robot, designed to easily lift a cup, while still holding it upright. The robot uses one motor attached to the brick to lift the cup to any angle you want. The cup we have added is purely cosmetic, but with a few adjustments, you can make it lift real cups. Be careful around liquids though!
These are instructions on how to build the:
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.
Do you have a friend for a sleepover? This might be the perfect robot for you! It is a football gate, guarded by Fint, the goalkeeper robot. You can control him, by using the remote controller, that consists of two Touch Sensors. Take turns making penalty shots and have a blast with this awesome robot!
What we recommend:
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 LEGO Mindstorms attachment using Rubber Bands
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.
These are 3D Building instructions for the Oil Platform. You can build them from Bag 2
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.