Impact Slider Motion Mechanism
Model No.: ISM-6B001

Powered by an AC inductive motor with a toggle ON/ OFF switch
Overload protection
The rotary input is converted to linear motion for output
all connection beams are joined by dry bearings
Colored components make students easily understand how the input motion is converted the output motion
Dimensions: 10 ^1/4 "x 7" x 8 ^1/2 " (260 x 180 x 215 mm)

Toggle Mechanism
Model No.:TM-6B002

The input is a linear motion in X-direction.
Two pairs of connection beams move angularly and convert the x-direction input to y-direction output
All connection beams are joined by dry bearings
Colored components make students easily understand how the input motion is converted the output motion
Dimensions: 11 ^3/4 " x 8" x 4" (300 x 200x 100 mm)

Disc CAM Mechanism
Model No.: DCAM-6B003

Two engaged gears convert the input rotation to the rotation of the disc CAM
The connection beam is pined at its middle and has two roller bearings at both ends, contacting the Disc CAM and the output beam
The output beam is supported by two stainless blocks
Colored components make students easily understand how the input motion is converted the output motion
Dimensions: 10 ^1/4 " x 8 ^1/2 " x 5 ^1/4" (260 x 220 x 135 mm)

Cylindrical CAM Motion Mechanism
Model No.: CCAM-6B004

Powered by an AC inductive motor with a toggle ON/ OFF switch
Overload protection
PVC cylinder with an enclosed curve slot along the surface
The motor drives the cylinder
A fixed length connection beam is affixed on the output beam and the other end of the connection beam has a roller guided by the curved slot of the cylinder
The output beam is supported by two stainless blocks
Colored components make students easily understand how the input motion is converted the output motion
Dimensions: 13 ^1/2 " x 8" x 4 ^3/4 " (340 x 200 x 120 mm)

Bevel Gear Motion Mechanism
Model No.: BGM-6B005

Powered by an AC inductive motor with a toggle ON/ OFF switch
Overload protection
A bevel gear (M2 x 18T) is affixed at the end of motor shaft engaging two other bevel gears which are driven to rotate clockwise and counter-clockwise
Colored components make students easily understand how the input motion is converted the output motion
Dimensions: 9 ^1/2" x 7" x 4 ^1/4" (240 x 180 x 106 mm)

Geneva Mechanism
Model No.: GM-6B006

A blue shaft connector affixed to the input end takes the rotary input
A blue PVC component consists of two disks, 6" and 4" in diameter
There are 4 slots on the green metal wheel driven by the blue PVC wheel
The blue wheel rotates continuously but the green wheel rotates in step
The blue wheel rotates one turn will make the green wheel rotate 1/4 turn
Both blue and green wheels are supported by roller bearings
Colored components make students easily understand how the input motion is converted the output motion
Dimensions: 11" x 4 ^1/4" x 5 ^1/4" (280 x 110 x 165 mm)

Worm Shaft & Worm Gear Mechanism
Model No.: WSWG-6B007

Gear ratio of Worm Shaft to Worm Gear is 10 :1
Rotary input, rotary output
Both shaft and gear are supported by roller bearings
Colored components make students easily understand how the input motion is converted the output motion
Dimensions: 6 ^1/4 "x 5 ^1/2 "x 5 ^1/2 " (160 x 140 x 140 mm)

Planetary Gear Motion Mechanism
Model No.: PGM-6B008

Powered by an AC inductive motor with a toggle ON/ OFF switch
Overload protection
The Sun gear (green, M1x32T) is driven directly by the motor
3-gear planetary gear set (blue, 34T) is driven by the Sun gear and rotates along the outer gear (yellow)
The 3- gear planetary gear set is affixed at a triangle plate with a shaft at its center to provide rotary output
Colored components make students easily understand how the input motion is converted the output motion
Dimensions: 10" x 8 ^7/8" x 6" (250 x 200 x 150 mm)

Scotch Yoke Mechanism
Model No.: SYM-6B009

The rotary input drives the red connection beam to rotate
The rotation of the red connection beam drives the blue connection beam with 4" (100 mm) opening
The output end has a pendulum and the other side is linked to the vertical stainless bar
The green beam moves like a lever movement as the standless bar moves up and down
Colored components make students easily understand how the input motion is converted the output motion
Dimensions: 10" x 7" x 12 ^1/2 "(250 x 180 x 320 mm)

Application 1: Cylinderical CAM Motion Mechanism and Toggle Mechanism

Application 2: Bevel Gear Motion Mechanism, Disk CAM Mechanism, and Geneva Mechanism

Application 3: Planetary Gear Motion Mechanism and Scotch Yoke Mechanism