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Andy Baker
Mech. Engineering Mentor: 45 (1998-present)
President and Co-owner: AndyMark, Inc.
2003 Championship Woodie Flowers Award
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� Articulating Arms
� Telescoping Lifts
� Grippers
� Latches
� Turrets
� Ball Handling Systems
� Shooters
� Winches
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Shoulder
Elbow
Wrist
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Example: Lifting at different angles
� Torque = Force x Distance
� Same force, different angle, less torque
10 lbs
10 lbs
< D D
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� Power = Torque/ Time
OR
� Power = Torque x Rotational Velocity
� Power (FIRST definition) – how fast you can move something
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� Same torque w/ Twice the Power results in Twice the Speed
� Power = Torque/ Time
125 Watts, 100 RPM
250 Watts, 200 RPM
10 lbs 10 lbs
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� Lightweight Materials: tubes, thin wall sheet
� Design-in sensors for feedback & control � limit switches and potentiometers
� Linkages help control long arms
� KISS � Less parts… to build or break � Easier to operate � More robust
� Use off-the-shelf items
� Counterbalance � Spring, weight, pneumatic, etc.
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•Pin loadings can be very high •Watch for buckling in lower member •Counterbalance if you can •Keep CG aft •Limited rotation •Keeps gripper in known location
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� Extension Lift � Motion achieved by stacked members sliding on each
other
� Scissor Lift � Motion achieved by “unfolding” crossed members
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� Drive cables up AND down, or add a cable recoil device
� Segments must move freely � Cable lengths must be adjustable � Minimize slop and free-play � Maximize segment overlap
� 20% minimum � more for bottom, less for top
� Stiffness and strength are needed � Heavy system, overlapping parts � Minimize weight, especially at the top
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Continuous Cascade
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� Cable Goes Same Speed for Up and Down
� Intermediate Sections sometimes Jam
� Low Cable Tension
� More complex cable routing
� The final stage moves up first and down last
Slider (Stage3)
Stage2
Stage1
Base
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� Even More complex cable routing
� Cleaner and protected cables
Slider (Stage3)
Stage2
Stage1
Base
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� Up-going and Down-going Cables Have Different Speeds
� Different Cable Speeds Can be Handled with Different Drum Diameters or Multiple Pulleys
� Intermediate Sections Don’t Jam
� Much More Tension on the lower stage cables � Needs lower gearing to deal
with higher forces
Slider (Stage3)
Stage2
Stage1
Base
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� Advantages � Minimum retracted height -
can go under field barriers
� Disadvantages � Tends to be heavy to be stable
enough
� Doesn’t deal well with side loads
� Must be built very precisely
� Stability decreases as height increases
� Loads very high to raise at beginning of travel
� I recommend you stay away from this!
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FeatureFeature ArmArm LiftLift Reach over objectReach over object YesYes NoNo
Fall overFall over, , get upget up YesYes, , if strong enoughif strong enough NoNo
Go under barriersGo under barriers YesYes, , fold downfold down MaybeMaybe, , limits lift heightlimits lift height
Center of gravity Center of gravity ((CgCg)) Not centralizedNot centralized Centralized massCentralized mass
Small space operationSmall space operation NoNo, , needs swing roomneeds swing room YesYes
How highHow high?? More articulationsMore articulations, , more more height height ((difficultdifficult))
More lift sectionsMore lift sections, , more more height height ((easiereasier))
ComplexityComplexity ModerateModerate HighHigh
Powerful liftPowerful lift ModerateModerate HighHigh
CombinationCombination Insert Insert 11--stage lift at stage lift at bottom of armbottom of arm
��
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� Ratchet Device - completely lock in one direction in discrete increments - such as used in many winches
� Clutch Bearing - completely lock in one direction
� Brake pads - simple device that squeezes on a rotating device to stop motion - can lock in both directions � Disc brakes - like those on your car
� Gear brakes - applied to lowest torque gear in gearbox
� Dynamic Breaking in electrical components let go when power is lost
� Any gearbox that cannot be back-driven alone is probably very inefficient
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� Summary � All motors can lift the same amount (assuming 100%
power transfer efficiencies) - they just do it at different rates
� No power transfer mechanisms are 100% efficient � Inefficiencies (friction losses, binding, etc.)
� Design in a Safety Factor (2x, 4x)
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Gripper (FIRST definition): � Device that grabs a game object
� How to grip
� How to hang on
� Speed
� Control
254254 in in 20082008
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� Pneumatic linkage grip � 1 axis � 2 axis
� Motorized grip
� Roller grip
� Hoop grip
� Pneumatic grip
768768 in in 20082008
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� Pneumatic Cylinder extends & retracts linkage to open and close gripper
� Easy to manufacture
� Easy to control
� Quick grab
� Limited grip force
� Requires pneumatic system
Recommended
968968 in in 20042004
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� Pneumatic Cylinder, pulling 3 fingers for a 2-axis grip
Recommended
6060 in in 20042004
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� Slow
� More complex (gearing)
� Heavier
� Tunable force
� No pneumatics
4949 in in 20012001
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� Allows for misalignment when grabbing
� Won’t let go
� Extends object as releasing
� Simple mechanism
� Have a “full in” sensor
� Slow
Recommended
4545 inin
20082008
148148 in in 20072007
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� Slow
� Needs aligned
� Can’t hold on well
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� Needs vacuum generator
� Uses various cups to grab
� Slow
� Not secure
� Not easy to control
� Simple
� Problematic
Not recommended
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� High friction is needed � over 1.0 mu
� Rubber, neoprene, silicone, sandpaper
� … but don’t damage game object
� Force: Highest at grip point
� Force = multiple x object weight (2-4x)
� Use linkages and toggles for mechanical advantage
� Extra axis of grip = More control
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� Quickness covers mistakes
� Quick to grab
� Drop & re-grab
� Fast
� Pneumatic gripper
� Not fast
� Roller, motor gripper, vacuum
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� Get object fast
� Hang on
� Let go quickly
� Make this easy to control � Limit switches
� Auto-functions
� Ease of operation
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� Hooking and latching devices used to grab goals, bars, and other non-scoring objects
� Spring latches
� Hooks / spears
� Speed & Control
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� Pneumatic latch, solidly grabs pipe
� 2001 game
� No “smart mechanism”
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� Spring-loaded latch
� Motorized release
� Smart Mechanism
� 2003
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� Spring-loaded latch
� Pneumatic release
� Smart mechanism
� 2002
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� Don’t depend on operator to latch, use a smart mechanism � Spring loaded (preferred) � Sensor met and automatic command given
� Have a secure latch
� Use an operated mechanism to let go
� Be able to let go quickly � Pneumatic lever � Motorized winch, pulling a string
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� Tubular (recommended)
� Lazy Susan (not for high loads)
� Know when it is needed
� 2004: One Goal = good
� 2005: Nine Goals = not
� Bearing structure must be solid
� Rotation can be slow
� Design-in sensor feedback
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Accumulator: rotational device that collects objects � Horizontal tubes: gathers balls from floor or platforms
� Vertical tubes: pushes balls between vertical goal pipes
� Wheels: best for big objects
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� Conveyor - device for moving multiple objects, typically within your robot
� Continuous Belts � Best to use 2 running at same speed to avoid jamming
� Individual Rollers � Best for sticky balls that will usually jam on belts and
each other
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Why do balls jam on belts? � Sticky and rub against each other as
they try to rotate along the conveyor Solution #1 � Use individual rollers � Adds weight and complexity Solution #2 � Use pairs of belts � Increases size and complexity Solution #3 - Use a slippery material for the non-moving
surface (Teflon sheet works great)
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� More control is better � Avoid gravity feeds – these WILL jam
� Try to reduce “random” movements
� Not all Balls are created equal � Balls tend to change shape
� Building adaptive/ flexible systems
� Speed vs. Volume � Optimize for the game and strategy
� The more capacity, the better