Hi, I’m Parker

I have always been curious about the world around me and how things work. I hope you enjoy looking at the projects I’ve completed. If you would like to get in touch, contact me at parkerlofstrom1021 [at] gmail.com.

Experience
  • BitSpace Maker Lab – maker from 2015 – 2021
  • Pumping Station Maker Space – current maker
  • Loyola Academy – Clavius Scholars Honors Program
  • Loyola Academy – Architecture Club
  • Loyola Academy – Sailing Team
  • Loyola Academy – Peer Tutor
  • Loyola Academy – Student Ambassador
  • Loyola Academy – Theater Prop Design and Construction Team / Annie performance 2021
  • Illinois Junior Academy of Science 2019 – Top Board Winner, Regionals; Concept Schools Award Recipient; Gold medal, State competition

  • Haunted House – design, props, construction, production, live event management – 2014 – 2019 (2020 canceled due to COVID)
  • Go-Kart (2 models) – design, engineering, construction
  • Fire-breathing Dragon – design, chemistry, production
  • Apps/Software – Fusion 360, Inkscape, Illustrator, NoLimits2
  • Tools/Skillsets – Prusa 3D printer, ShopBot CNC, universal and BOSS laser cutters, wood shop, electronics, cold metals

IBox Roller Coaster

Overview

The roller coaster, Torque XLC, was the longest project I have ever completed. From early design stages to final product, this project took around eight months. This ride features an air compressed launch, airtime bunny hill, and a zero-gravity spike. Everything was first designed and rendered in Fusion 360, which allowed for me to see what it would look like completed. The pieces were then cut using a CNC router, resulting in a precise construction. These pieces were then assembled into their various sections and PVC pipe was fitted to the track profile by heating it with a heat gun. The launch was the most challenging part because of all the moving parts. I chose an air compressed launch because of the quick acceleration they can provide. I designed the launch mechanisms by hand, not knowing if it would work. At peak operating pressure, this system is able to generate over 1000 pounds of force within a fraction of a second. This allows for the car to be accelerated to over twenty miles an hour in under half a second. More schematics and details about this launch can be found below. 

For a more detailed explanation of the ride mechanics, please check out my recent blog post about it.

Why I made this

 

  • Built

    Spring/Summer 2023

  • Category

    Engineering, physics

  • Apps/Tools used

    Fusion 360, Inkscape, ShopBot CNC, woodworking tools