Here It Goes Again

Casey and I stayed afterschool today to practise with the robot and our new arm as we have a practise tournament on Saturday, November 3. This is one of our runs, timed at a two-minute period. After repeated practise we got our best to be 12 rings placed on the middle rack, and developed a strategy to get the most rings in the least amount of time.

Not another brick in the wall

Today, we were visited afterschool by Western High School's FTC rookie team. We showed them our set-up and gave them valuable knowledge about designs and coding. Our team really hit it off with their group and we exchanged contact information in order to provide further assistance to our hopefully future competitors. 

Armageddon

The arm is now finished and ready for testing. This arm needs to be able to grab rings from the first level and deposit them onto the second level of the rack, all while maintaining balance and structural integrity. The arm can move up and down and the grabber on the end can rotate, giving us the degrees of movement we need in order to place the rings.

Growth Spurt

We removed the previously short aluminium channel and replaced it with a longer channel that can reach the middle level of the rack. In order to do this, we had to remove our cross support and brain mount, meaning we'll have to find a new location for them. Additionally, we will have to add an additional motor to the channel that will enable the grabber to rotate to grab and release rings.

Burn Out

While practising today, our arm got caught on a rack and one of our servos burned out. Now we need to either replace the gears or the servo. While this is an easy fix, it serves as a reminder that parts are fragile and that our build needs to not only accomplish the task but prevent the parts from being damaged or over exerted.

Trust me, I'm a Doctor

Slight modification to our grabber to improve grip, we attached surgical hose to the Lego pieces to improve friction. This prevents the rings from slipping out of the grabber, making it easier for us to move the rings to the rack and score points.

One does not simply... oh wait

This is our Tel-op running Sonic, we still need to write an autonomous program for the IR beacon and elevate the arm for higher rows. In the mean time, however, we have a working arm that can quickly and easily place rings on the bottom row of the rack.
Another benefit of this test was that we discovered we could remove the rings from the grabber by simply tilting it, removing the need for our other ring flipper and making the transfer of rings from rack to rack that much simpler.

Arms Race

Today our working design is due; it must be coded and be able to pick up a ring. Our grabber design is finished, so now its just a race against the clock to get an arm working so that our grabber can actually reach the rings.