motion transmission systems
DESCRIPTION
Motion Transmission Systems. Motion Transmission. A) Definition: Relaying the same type of motion from one part of an object to another ( rotational to rotational, translational to translational ) Motion transmission systems contain: A driver component that initiates the motion - PowerPoint PPT PresentationTRANSCRIPT
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Motion Transmission Systems
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Motion Transmission
• A) Definition:• Relaying the same type of motion from one part of
an object to another (rotational to rotational, translational to translational)
– Motion transmission systems contain:– A driver component that initiates the motion– At least a driven component that receive the motion and
transfers it Might contain Intermediate components between the
driver and driven components
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Motion TransmissionB) Types of motion transmission systems
1. Gear Train
2. Chain and Sprocket
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Motion TransmissionB) Types of motion transmission systems
3. Worm and Worm Gear
4. Friction Gear Systems
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Motion Transmission
B) Types of motion transmission systems5. Belt and Pulley System
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Motion Transmission
B) Types of motion transmission systems1. Gear Trains2. Chain and Sprocket3. Worm and Worm Gear4. Friction Gear System5. Belt and Pulley
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Motion Transmission
1. Gear trains• Contains at least two gears
that meet and mesh together
Direction of components
Alternates from one gear to another
Reversibility Yes
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Motion TransmissionWhen building a gear train, you
must consider:
1. The Gear teeth(they must be evenly spaced, the same size and have the same direction)
2. The Gear types(straight gears vs. bevel gears)
3. The Gear size higher number of teeth = slower rotation
larger diameter = slower rotation
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Gear Types• Straight Gear (a.k.a Spur
Gear)
• Gears are right next to each other (at 180 degree angle)
• Bevel Gear
• Gears meet at 90 degree angle
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Motion TransmissionWhen building a gear train, you
must consider:
1. The Gear teeth(they must be evenly spaced, the same size and have the same direction)
2. The Gear types(straight gears vs. bevel gears)
3. The Gear size higher number of teeth = slower rotation
larger diameter = slower rotation
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Motion Transmission
2. Chain and sprocket• Connects components that are far
away from one another.• The gears (sprockets) do not
mesh together; they are connected with a chain
Direction of components
The sprockets inside the chain will turn in the same direction.
Reversibility Yes
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Motion TransmissionWhen building a chain and sprocket,
you must consider that:
1. The teeth on the sprocket are identical
2. The chain links must mesh easily with the sprocket’s teeth
3. The system requires constant lubrification
4. The smaller the sprocket the faster it turns
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Motion Transmission
3. Worm and worm gear– Consists of one endless
screw and at least a gear– It is not reversible
When building a worm and screw gear, you must ensure that:
1. The gear teeth match the worm’s grooves
2. The driver must be the worm
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Motion Transmission4. Friction gear systems
– Similar to gear trains yet less efficient because the friction gears can slip.
– The teeth on gear trains “lock” the gears in place to prevent slipping; there is no such thing in Friction gear systems
– The larger the gear the slower the rotation
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Motion Transmission
5. Belt and pulley system– When building a belt and pulley
system, you must ensure:
1. Pulleys must contain a groove where the belt can fit
2. The belt must adhere (stick) to the pulleys
3. The smaller the pulley the faster it turns
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Speed Change
In Motion Transmission Systems
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Speed Change
1. Worm and worm gear• For each turn of the worm,
the gear moves by one tooth.
• The greater the number of teeth the slower the speed.
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Speed Change2. Remaining systems• The speed varies with the
number of teeth (or the diameter of the gears)
– If motion is transmitted to a smaller gear, the speed is increased
– If motion is transmitted to a larger gear, speed is decreased
– If motion is transmitted to a gear of equal size, there is no speed change
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Speed Change• To find out the exact speed of the driven gear we
must find the speed ratio: Speed ratio = diameter (or # of teeth) of the driver gear
diameter (or # of teeth) of the driven gear
• What does this mean exactly?• If I have a driver gear with 20 teeth and a driven gear with 10
teeth. The speed ratio is 2. – This means that the driven gear is turning twice (2 x) as fast of
the driver gear.
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Calculate the speed ratio, when A is the driver and B is the driven
A) A- 14 cmB- 2 cm
B) A- 2 cmB- 8 cm
C) A- 10 cmB- 10 cm
D) A- 20 cmB- 15 cmC- 10 cm
BA
C BA
B
A B
A
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Motion Transformation systems
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Motion Transformation
A) Definition• Relaying a motion from one part to another while
altering the nature of the motion (e.g. rotation to translation or translation to rotation)
B) Types of motion Transformation systems1. Rack and pinion2. Screw Gear systems3. Cam and follower4. Slider–Crank mechanism
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Motion Transformation• 1. Rack and Pinion
– Contains a rack (straight bar with teeth) and a pinion (gear)
While building a rack and pinion you must ensure that:1. The teeth on the rack and on the
pinion must be identical2. The system requires frequent
lubrification3. The greater the number of teeth on
the pinion the slower the rotation
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Rack and Pinion uses• Steering wheels for cars
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Motion Transformation• 2. Screw gear systems (2 Types)
– Contains a screw and a nut
– Type 1: the screw is the driver• Transforms rotational motion into
translational motion (e.g. jack to lift the car)
– Type 2: the nut is the driver• Transforms rotational motion into
translational motion (e.g. wrench)
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Screw Gear Systems uses
• Type one: Car Jack
The Screw is turned, which allows for translational motion of the jack to rise
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Screw Gear Systems uses
• Type Two: Wrench
• It’s the nut that does the initial rotational movement
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Motion Transformation3) Cam and Follower
– Rotational motion changed to translation motion
When building a cam and follower, you must ensure that:1. The follower must be guided in its
translational motion2. The shape of the cam determines how
the follower will move3. A device such as a return spring is
usually necessary to keep the follower in continual contact with the cam.
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Cam and Follower Uses
• Toys
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Cam and Follower Uses• Water Powered Mill• The water falling down the wheel creates rotational motion, this
wheel is connected to an bar, which is connected to a cam and follower. The follower has a stamping-battery at the end which pounds on the ore
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Motion Transmission
• 4. Slider-crank mechanism– This is the mechanisms
used in pistons
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Slider-Crank Uses
• Trains-wheels
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Slider-Crank Uses
• Internal Combustion Engines-Cars