2019:Robot Design Details: Difference between revisions

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Overall design decisions, notes, specifications, and integration items here! Integration Task List (NEEDS LINK HERE)
Overall design decisions, notes, specifications, and integration items here! Integration Task List (NEEDS LINK HERE)


<div class="mw-parser-output">&nbsp;
= Overall Robot Dimensional Restraints =
= Overall Robot Dimensional Restraints =


''Last updated: NEVER''
''Last updated: 1/9/2019''


{| border="1" cellpadding="1" cellspacing="1" style="width: 500px;"
|-
! scope="row" | &nbsp;
! scope="col" | Length
! scope="col" | Width
! scope="col" | Perimeter
|-
! scope="row" | Robot Boundary
| 34"
| 24"
| 116"
|}


----
== Drive Base Materials ==
1"x3"x1/8" 6061 Aluminum Angle Stock
1"x3"x1/8" 6061 Aluminum Channel Stock
</div>


= Actuators =
= Actuators =

Revision as of 17:46, 9 January 2019

Overall design decisions, notes, specifications, and integration items here! Integration Task List (NEEDS LINK HERE)

 

Overall Robot Dimensional Restraints

Last updated: 1/9/2019

  Length Width Perimeter
Robot Boundary 34" 24" 116"

Drive Base Materials

1"x3"x1/8" 6061 Aluminum Angle Stock

1"x3"x1/8" 6061 Aluminum Channel Stock

Actuators

THE FOLLOWING TABLES ARE COPIES OF 2018's TABLES AND HAVE BEEN LEFT FOR ILLUSTRATION ONLY - DO NOT USE FOR 2019! Please delete the above note and replace content of the tables below with 2019-relevant information once available.

Motors (2018 COPY REMOVE THIS NOTE WHEN UPDATED FOR 2019!)

Mechanism Action Minimum Breaker Size Motor Model # Quantity Notes
Intake Grabs the cube and puts it in the hand  30A 775 Pro 2 - one left, one right 15"1 gear ratio - 5:1 and 3:1 in versa planetary gearbox
Arm Pivots arm to robot/front back  30A 775 pro 1 50:1 gear ratio:  5:1, 5:1 in versa planetary, 18T timing pulley on motor, 36T timing pulley  on axle.  If belt fails, wil chane to 15T sprocket on motor, 32T sprocket on axle.
Hand holds the cube as it moves around the robot and deploys the cube  30A 775 pro 1 Starting ration will be16:1 - (2) 4:1 in the versa panetary gearbox.
Lift/Ramp

Lifts the ramp/platform with another team's robots on top

 30A 775 pro 4, 2 per lift 2 Lift systems (jacks) per ramp, 1 motor on each
Drive Base Moves the robot  40A CIM 6 (dropped to 4) Gear ratio 14:64

Pneumatics (2018 COPY REMOVE THIS NOTE WHEN UPDATED FOR 2019!)

Mechanism Action - Say what extend and retract do! Cylinder Extend Powered? Extend Exhaust to Atmosphere? Retract Powered? Retract Exhaust to Atmosphere? Working Pressure Estimated Firings per Match
(Sum of all powered directions!)
Notes
Intake Extend = raise intake into robot
Retract = lower intake to retrieve cubes
Bimba M-044-DP. Magnetic 3/4" bore 4" stroke, pivot mount Yes Yes Yes Yes 60 PSI  40

Assumes a defensive game (retract to prevent damage)

RB1 on order

RB2 on shelf

Arm Brake

Extend (spring loaded extension) = disengage brake

Retract = Engage brake

Bimba 041-D. 3/4" bore 1" stroke No Yes Yes Yes 60 PSI

 40

(Review comment: Would expect this to be greater than # of intake firings even under severe defense due to uncertainty of how to use cube and putting in "up" position for any substantial movement)

2 cubes auto, 8 cubes vault, 8-10 cubes switch @ 2 x per cube 

Rb1 & RB2 on shelf

Hand on Arm Retract = "close" hand, tighten on cube
Extend = "open" hand, loosen grip on cube
Bimba 042-D. 3/4" bore 2" stroke No Yes Yes Yes  ?? PSI - 60 may be too high

20

(Review comment: Thought the plan was this does not fire at all and acts as an "air spring"?)

 

2 cubes auto, 8 cubes vault, 8-10 cubes switch 

RB1 & RB2 on shelf

Lifts/Ramps

(One cylinder per platform/ramp but they are plumbed together on same solenoid)

Hold/Release ramp system. Extend = hold ramps up

Retract = release ramps to ground level

 

Bimba 061.5-DXDE  7/8" bore, 1.5" stroke

Double acting, double ended

 Yes Yes Yes Yes 60 PSI

1

 

 

Starts match under pressure

Modifying mounting to use 3/4" bore, 2" stroke double acting on hand.  Will cut off 1/4" pf threaded end and grind down remaining threads. 

RB1 & RB2 on shelf.

 

Consider we may not need to start match under pressure - all loads lateral.  

Sensor Chart (2018 COPY REMOVE THIS NOTE WHEN UPDATED FOR 2019!)

Mechanism Sensor Type Function Attachment Point Notes
Intake Magnetic reed switches (2) on pivot cylinder Senses when cylinder has completed up and down motion On cylinder  
Arm Potentiometer Absolute rotation position of arm. On actual pivot/shaft.  
Arm Limit Switch Tripped at end of travel/at hard stop on front of robot Left side A-frame top front   
Arm  Limit Switch Tripped at end of travel/at hard stop on back of robot Left side A-frame top back   
Hand on Arm Retro-reflective beam sensor Sense cube all the way into hand Mounting is important! Must look "sideways" at the cube where it hits the backstop.  
Ramp Integrated Versa Planetary Encoder Sense travel and speed of lead screw on lift jacks
One phase
4 total, 1 on each jack - Sensor should be at output stage of each gearbox  
Ramp To be Determined Sense when ramp jacks are fully reset (not used during match) 4 total, 1 on each jack - ADD MOUNTING DETAILS ONCE SENSOR IS KNOWN  
Drive Shaft encoders Travel of robot drive base. One phase On center (traction) wheel shaft.  
Whole robot Gyro Sense rotation Must be center of rotation of robot away from excessive vibration sources  
Whole robot Camera

Visual feedback for lining up with exchange?

MS LifeCam HD USB camera

 On the back left corner of the robot in the area set aside in cad  


Archive

2018 Robot Design Details

2017 Robot Design Details

2016 Robot Design Details

2015 Robot Design Details

2014 Robot Design Details

2013 Robot Design Details

2012 Robot Design Details

2011 Robot Design Details

2010 Robot Design Details

2009 Robot Design Details