Difference between revisions of "DEWBOT XVI Climber"

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(Leadscrew Drive)
(Leadscrew Drive)
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Leadscrews are driven by a single NEO motor mounted on a custom shifting gearbox.  Gear reduction ratios are 1:1 (for rapid extension under low load) and 4:1 (for lifting the robot).  Gear shifting is pneumatically actuated (¾" x ½" stroke) utilizing a 4-tooth Andymark dog. The gearbox has an encoder mounted on the output shaft.
 
Leadscrews are driven by a single NEO motor mounted on a custom shifting gearbox.  Gear reduction ratios are 1:1 (for rapid extension under low load) and 4:1 (for lifting the robot).  Gear shifting is pneumatically actuated (¾" x ½" stroke) utilizing a 4-tooth Andymark dog. The gearbox has an encoder mounted on the output shaft.
  
[[image:DB16_Climber-5|350px|right|thumb|Climber with partial extension and right longitudinal 1½" square tube made transparentThe gearbox has two output shafts each with a 28t HTD5 pulley; one for the right side extension and the other for the left side.  The two output shafts rotate in the same direction, allowing normal right-hand leadscrews to be used for both extensions.  Power is transmitted from these to 28t HTD5 pulleys on each of the leadscrews using 9mm wide belts: 205t on the left; 52t on the right.  The leadscrews can be driven by hand using the 205t belt.
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[[image:DB16_Climber-5|350px|right|thumb|Climber with partial extension and right longitudinal 1½" square tube made transparent]]The gearbox has two output shafts each with a 28t HTD5 pulley; one for the right side extension and the other for the left side.  The two output shafts rotate in the same direction, allowing normal right-hand leadscrews to be used for both extensions.  Power is transmitted from these to 28t HTD5 pulleys on each of the leadscrews using 9mm wide belts: 205t on the left; 52t on the right.  The leadscrews can be driven by hand using the 205t belt.
  
 
A 3/8" shaft extends from the gearbox between the two output shafts, rotating in the opposite direction.  This shaft allows a hand drill to be used to drive the leadscrews without robot power.
 
A 3/8" shaft extends from the gearbox between the two output shafts, rotating in the opposite direction.  This shaft allows a hand drill to be used to drive the leadscrews without robot power.

Revision as of 19:09, 25 February 2020

Deux hanging from practice field switch
Climbing on the Switch is a critical end-game objective. A hanging robot at match end earns 25 points, with 15 additional points if the switch is horizontal (within 8°). In qualification matches, alliances scoring 65 points at the switch receives a Ranking Point. Hanging means fully supported by the switch (not touching the ground). This makes hanging a must-do; something that the robot can accomplish quickly and reliably.

Hanging requirements:

  • Needs to be easy for drive team
  • Must be capable of hanging in switch center
  • Must be capable of hanging on raised area of switch
  • Robot must remain up when disabled
  • Robot needs to be easily removed from switch after match by two students
  • Robot must be removed from field and returned to pit without needing power
  • One motor may be used
  • Climber must remain entirely below 28" height prior to deployment

When the Shooter Arm was under consideration, it was intended that the Climber would be incorporated into this system. With the Arm abandoned, the Climber became a stand-alone mechanism.

General Description

Climber
The Climber makes up a rectangular frame with the longitudinal elements made of 1½" x 1/16" 6061 Al square tubing and the transverse elements connecting these made from 1¾" x 1/8" 6061 Al U-Channel. The longitudinal elements contain extendable hooks driven synchronously via leadscrews. The rear U-Channel is highly relieved and incorporates the leadscrew drive. This rear U-Channel also terminates in ½" shaft for bearing mount, allowing the entire structure to rotate. The Climber deploys via this rotation, driven by a pair of 1¼" x 12" stroke pneumatic cylinders.

Extensions are composed of 1" OD x 0.028" wall x 28-5/8" long 4130 steel tubes with printed square linear bearings outside and bronze leadscrew nuts inside at the rear and ¼" 6061 Al hooks at the front.

Leadscrews have the significant advantage of not backdriving under load without power. At the same time, they are easily driven by hand in order to facilitate easy and safe removal of the robot from the switch after a match.

Leadscrew Drive

Leadscrews are driven by a single NEO motor mounted on a custom shifting gearbox. Gear reduction ratios are 1:1 (for rapid extension under low load) and 4:1 (for lifting the robot). Gear shifting is pneumatically actuated (¾" x ½" stroke) utilizing a 4-tooth Andymark dog. The gearbox has an encoder mounted on the output shaft.

File:DB16 Climber-5
Climber with partial extension and right longitudinal 1½" square tube made transparent
The gearbox has two output shafts each with a 28t HTD5 pulley; one for the right side extension and the other for the left side. The two output shafts rotate in the same direction, allowing normal right-hand leadscrews to be used for both extensions. Power is transmitted from these to 28t HTD5 pulleys on each of the leadscrews using 9mm wide belts: 205t on the left; 52t on the right. The leadscrews can be driven by hand using the 205t belt.

A 3/8" shaft extends from the gearbox between the two output shafts, rotating in the opposite direction. This shaft allows a hand drill to be used to drive the leadscrews without robot power.

Leadscrews are 3/8"-10 2-start 4140 steel leadscrews with right-hand thread (McMaster-Carr 98940A012), each 30.5" long. Leadscrews have 3/32" keyways milled to engage the HTD5 drive pulleys. Leadscrew Nuts are matching round 932 bronze nuts (McMaster-Carr 1343K121) which are turned down from the original 1.344" OD to fit into the extension tube; also drilled and tapped 4x each for 6/32 screws.

DEWBOT's climber deploys pneumatically and extends a pair of hooks via leadscrews. A shifting gearbox allows fast extension together with the power needed to lift the robot off the playing field. By using leadscrews, backdriving after game's end is avoided.