
VEX IQ Robot Base 3
Simple VEX IQ competition base with a lot of space for attachments and gravity center in the backside of the robot.
- #313
- 11 Jul 2017
Simple VEX IQ competition base with a lot of space for attachments and gravity center in the backside of the robot.
This are the building instructions for a mechanism, collecting cubes. It is designed as an attachment for VEX Robot Base 5 and can be used to solve the VEX IQ Challenge High rise 2014-2015.
Building instructions for Tower Trunk. The trunk is designed to store cubes and then drop them on a desired spot. It can be used alongside Cube Collector 2 as an attachment for VEX Robot Base 1.
It's a VEX IQ robot base with all VEX IQ Sensors. The robot has 1 x Gyro, 1 x Ultrasonic, 1x Color Sensor, 2 x Toch Sensors, 1 x Touch Led Sensor.
It's the third version of the VEX IQ Easy Bot with rotated Robot Brain and castor wheel.
It's the second version of the Robot Base 4, but with rotated inside motor.
Building instructions for a VEX IQ attachment for throwing balls with rubber bands.
VEX IQ version of an Easy Bot. It's simple and appropriate for classes of students.
This are building instructions for a second mechanism for collecting cubes. This mechanism is designed for VEX Robot Base 1 and can be used for solving VEX IQ Challenge Highrise 2014-2015.
Vex IQ robot base which could be used with different attachments. The gravity center of this robot is in the backside and it has a lot of space in front for attachments.
It's the second version of VEX IQ Easy Bot. It's simple as the first one, but the motors are rotated.
Attachment for lifting object, especially hex balls if you have them from the Crossover competition.
A very simple base of the robot that could be used for adding attachments.
In this tutorial we go through the VEX IQ Challenge. Most of the challenges are related with manipulating objects. The most common object used in competitions are balls. That is why we take a look at a simple mechanism that can be used for throwing a ball.
The length of the lever has a certain effect when hitting the ball. In this tutorial, I would like to discuss what it's the effect.
The topic of this tutorial is the purpose of a system of gears when throwing a ball.
How do you synchronise the two levers to move with the same speed, but in opposite directions?