Difference between revisions of "Velociti"

From RoboJackets Wiki
Jump to navigation Jump to search
(Velociti V1.0)
(Design Summary)
Line 98: Line 98:
  
 
* Weapon
 
* Weapon
** somtin about weapon shape
+
** 3/8" steel weapon shaped like an integral with the intent to shrink the surface area of the weapon's point of impact
** somtin about pulley system
+
** Holes later added to reduce its weight from ~14.5 oz to ~12.5 oz
 +
** Weapon Pulley mounted directly above weapon and bolted to the weapon, with two bearings allowing the weapon assembly to spin around the fixed shoulder bolt axle
 +
** HDPE tower of washers and HDPE guards later added to ensure the weapon and motor pulleys remained aligned and to prevent the belt from slipping
  
 
* Chasis
 
* Chasis
 
** Relatively standard puzzle fit chassis for a horizontal spinner
 
** Relatively standard puzzle fit chassis for a horizontal spinner
*** Consists of an aluminum top plate, bottom plate, 2 side plates, and a non load HDPE bearing back plate
+
*** Consists of an aluminum top plate, bottom plate, 2 side plates, and a non-loadbearing HDPE backplate
 
** Main difference being the addition of extensions on the top and bottom plates to attach and guide wheel armor
 
** Main difference being the addition of extensions on the top and bottom plates to attach and guide wheel armor
 
***  
 
***  
Line 109: Line 111:
 
* Drive
 
* Drive
 
** As with most horizontal spinners, the drive mechanism involves only 2 drive motors and the robot leans on its front
 
** As with most horizontal spinners, the drive mechanism involves only 2 drive motors and the robot leans on its front
*** In our case we used a cap nut at the end of our weapon's shoulder bolt to provide a smoother point of contact to lean on
+
*** In our case, we used a cap nut at the end of our weapon's shoulder bolt to provide a smoother point of contact to lean on
  
 
==== Positives ====
 
==== Positives ====

Revision as of 19:55, 25 February 2022

Velociti
[[]]
Year of Creation 2021-2022
Versions
Current Version 1.0
Update Year 2021-2022
Wins/Losses 0/3
Information and Statistics
Weight Class BeetleWeight
Weapon Class Horizontal Spinner
Combined Wins/Losses 0/3
Weapon Speed ? RPM

Velociti is a robot.

Competitions

Motorama 2022

  • Results: 0-3
    • Bracket Style: Double Elimination
      • [(https://youtu.be/vdd1TYPd-1U) Loss vs Melon Bot]
        • After clutching up the safety inspection, the bracket was reshuffled and Velociti went from having a by round to having the first match
        • For a thrilling start to Motorama 2022, Velociti's first opponent was a D2 kit bot wedge
        • After a few hits, the weapon refused to spin up, and wedge vs wedge combat began
        • Despite taking 2 wheels off Melon Bot and landing a pin, Melon Bot was granted a judge decision victory despite the lack of damage to any part of Velociti
        • It is uncertain as to if the weapon motor issue was due to an electrical problem or driver error
      • [(https://youtu.be/U4rhVIlsDw0) Loss vs Starchild]
        • Velociti's next opponent was a large wheeled bot with a controllable arm and a small sawblade at the end
        • Starchild's weapon immediately gave up, likely as a result of intimidation, and Velociti landed a few hits before the belt slipped upwards
        • For the next minute and a half Velociti continuously headbutted Starchild while being slapped by their noodle of an arm
        • Once again, despite taking no discernable damage whatsoever, Velociti lost due to judge decision
    • Grudge Matches
      • [(Video Link) Loss vs Mechanical Advantage]
        • To satiate Velociti's hunger for combat, a random grudge match proposal was accepted against a drum spinner
        • In a shocking turn of events, Velociti's left wheel was unable to spin, likely as a result of the hub being tightened too close to the chasis
        • Once the match began Velociti decided to psyche out the opponent with an advanced tactical maneuver and did an immediate 180
        • A brief moment of contact with the opponent's drum resulted in the instant removal of the back plate, left wheel armor, right wheel armor, and LiPo Battery
    • Robojacket Rumble
      • [(Video Link) Blood sacrifice to Chonkii]
        • As a grand finale, all of the 3lb robots were placed in a cage match against Chonkii and Crab King
        • 1 hit from Crab King and 2 more from Chonkii rendered Velociti completely disemboweled

Version

Velociti V1.0

Created by: Jacques Wang, Austin Graves, Evan Strakes, Divyam Kumar, Bryce Parsons, Hanran Wu, and Brian Yang

Drive Motors Something
Drive Motor Controllers Something
Weapon Motor Something
Weapon Motor Controllers Something
Receiver Something
Remote Control Something
Battery The black ones

Design Summary

  • Weapon
    • 3/8" steel weapon shaped like an integral with the intent to shrink the surface area of the weapon's point of impact
    • Holes later added to reduce its weight from ~14.5 oz to ~12.5 oz
    • Weapon Pulley mounted directly above weapon and bolted to the weapon, with two bearings allowing the weapon assembly to spin around the fixed shoulder bolt axle
    • HDPE tower of washers and HDPE guards later added to ensure the weapon and motor pulleys remained aligned and to prevent the belt from slipping
  • Chasis
    • Relatively standard puzzle fit chassis for a horizontal spinner
      • Consists of an aluminum top plate, bottom plate, 2 side plates, and a non-loadbearing HDPE backplate
    • Main difference being the addition of extensions on the top and bottom plates to attach and guide wheel armor
  • Drive
    • As with most horizontal spinners, the drive mechanism involves only 2 drive motors and the robot leans on its front
      • In our case, we used a cap nut at the end of our weapon's shoulder bolt to provide a smoother point of contact to lean on

Positives

  • The bot operated normally; electronics never prevented the bot from working
  • Very powerful weapon motor (too much to handle). Operated mainly at 30% spin-up
  • Bot could successfully operate on both sides
  • Weapon belt only slipped off weapon pulley. Belts commonly slip off motor pulley
  • Interior space was adequate for electronics
  • Tensioning slots on bottom plate allowed for easy tensioning adjustments
  • Relatively easy to open and perform maintenance

Issues

  • Initial design very overweight: Compromises needed to be made for weight Savings
    • Removed Components:
      • Side Amor Plating: With the removal of Side Armor, tabs became easy targets
      • Crossbars on Top & Bottom Plates
    • Weakened Components:
      • Weapon
  • Belt slips upwards
    • *Attempted to remedy this by adding blockers above and below the pulley and adding additional spacers below the weapon for better pulley alignment
  • Poor Matchups:
    • Vertical Weapons i.e. Hammer Bots
    • Low weapons i.e. Low Beaters or Wedges
  • Wheels got stuck on the chassis due to friction
    • (a) Hub was too close to chassis
    • (b) Hub was on a slant
  • Frequent short-circuiting and other electronics issues
  • Defenses weak all over

Changes to make

  • Make sure holes align in side plates and bottom plate
  • Have better defenses overall:
    • Thicker plates while ensuring the area where the motor connects to the wheel is thin enough
    • Thicker armor
    • Thicker screws
  • Make deeper pockets in the side plates to bring wheels out further from the robot
  • Align pulleys better, make sure pulleys are smooth and deep enough to hold belts
  • Can save weight if needed by losing mass on weapon, specifically reducing the radius
  • Only need 3-4 bolts on weapon
  • Design around switch

Gallery

Notes:

Naming Inspiration: sounded kinda cool