Difference between revisions of "DEWBOT XI Intake System"

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(Intake Arms)
(Intake Arms)
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==Intake Arms==
 
==Intake Arms==
[[image:DB11_detail-1.jpg|410px|right|thumb|Final 2-level wheels w/ Hobby wheels at bottom and tennis balls top]]Intake Arms are 1" x 2" x 1/8" wall rectangular 6061 Al tubing.  Axle bearing holes are drilled along the centerline of the 2" face 14.96" apart: 1.125" holes at the pivot point for 1/2" flanged bearings; 7/8" holes at the wheel end for 3/8" flanged bearings.  Bearings are installed with the flanges on the rectangular tube interior.  Each axle possesses a 22T Al HTD5 flanged pulley (inside the rectangular tube).  An 870mm HTD5 belt (also inside the rectangular tube) connects the two pulleys and transfers power from the pivot axle to the wheel axle.
+
[[image:DB11_detail-1.jpg|410px|right|thumb|Final 2-level wheels w/ Hobby wheels at bottom and tennis balls top]]Intake Arms are 1" x 2" x 1/8" wall rectangular 6061 Al tubing.  Axle bearing holes are drilled along the centerline of the 2" face 14.96" apart: 1.125" holes at the pivot point for 1/2" flanged bearings; 7/8" holes at the wheel end for 3/8" flanged bearings.  Bearings are installed with the flanges on the rectangular tube interior.  Each axle possesses a keyed 22T Al HTD5 flanged pulley (inside the rectangular tube).  An 870mm HTD5 belt (also inside the rectangular tube) connects the two pulleys and transfers power from the pivot axle to the wheel axle.
  
The 1/2" keyed 7075 Al Pivot axle provides both a pivot point for intake arm articulation and provides the drive power for intake wheel rotation.  At the axle's top, it is hard coupled to the driveshaft of a BaneBot P60 64:1 gearbox (driven by an AndyMark 9015 motor).  The BaneBot gearbox is rigidly mounted to the robot's chassis.
+
The 1/2" keyed 7075 Al Pivot axle provides both a pivot point for intake arm articulation and provides the drive power for intake wheel rotation.  At the axle's top, it is hard coupled to the driveshaft of a BaneBot P60 64:1 gearbox (driven by an AndyMark 9015 motor).  The BaneBot gearbox is rigidly mounted to the robot's chassis.  The pivot axle's bottom end is supported by a 1/2" flanged bearing mounted in the robot floor (flange side down).  The bottom terminus of the pivot axle is bored and tapped to accept a 10-32 screw; a screw and oversized washer prevents the axle from disengaging from the bearing in the robot floor.
  
 
==Robot Floor==
 
==Robot Floor==

Revision as of 12:26, 13 June 2015

original intake design
Like DEWBOT X's Roller Frame, this simple yet versatile system performed multiple roles in competition, including:

Functions

  • Pulling/guiding RCs into the robot lift
    detail - left intake arm
  • Stabilizing RCs for transport once acquired
  • Pulling/guiding totes into the robot
  • Aligning totes on the floor to lift position
  • Preventing first Human Player Station tote from landing its side
  • Aligning first Human Player Station tote to lift position
  • Aiding correct alignment of subsequent totes loaded from the human player station
  • Correcting any subsequent tote misalignments which may occur
  • Stabilizing the tote/RC stack during transport and scoring

Design

The system is comprised of the following components:

  1. A pair of Intake Arms with Intake Wheels
  2. A robot floor shaped to align totes drawn into the robot for lifting
  3. A pair of fiberglass rods anchored to the robot floor and passing through holes in the lift positioned to prevent totes from sliding too far back for correct lift alignment

Intake Arms

Final 2-level wheels w/ Hobby wheels at bottom and tennis balls top
Intake Arms are 1" x 2" x 1/8" wall rectangular 6061 Al tubing. Axle bearing holes are drilled along the centerline of the 2" face 14.96" apart: 1.125" holes at the pivot point for 1/2" flanged bearings; 7/8" holes at the wheel end for 3/8" flanged bearings. Bearings are installed with the flanges on the rectangular tube interior. Each axle possesses a keyed 22T Al HTD5 flanged pulley (inside the rectangular tube). An 870mm HTD5 belt (also inside the rectangular tube) connects the two pulleys and transfers power from the pivot axle to the wheel axle.

The 1/2" keyed 7075 Al Pivot axle provides both a pivot point for intake arm articulation and provides the drive power for intake wheel rotation. At the axle's top, it is hard coupled to the driveshaft of a BaneBot P60 64:1 gearbox (driven by an AndyMark 9015 motor). The BaneBot gearbox is rigidly mounted to the robot's chassis. The pivot axle's bottom end is supported by a 1/2" flanged bearing mounted in the robot floor (flange side down). The bottom terminus of the pivot axle is bored and tapped to accept a 10-32 screw; a screw and oversized washer prevents the axle from disengaging from the bearing in the robot floor.

Robot Floor

Fiberglass Rods

Bottom view showing floor (tinted magenta) with arms closed
Bottom view showing floor (tinted magenta) with arms open