View LEGO instructions for Rescue Helicopter set number to help you build these LEGO sets. Set , released in , is the best helicopter ever released in the Technic line in my opinion. It’s big and it’s functional. This set is similar to a Sikorsky HH- Find great deals for Lego Technic Whirlwind Rescue (). Shop with confidence on eBay!.
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Ldraw file courtesy of Benjamin Wendl. Rotating main and tail rotor, ratcheting winch on deployable boom, retractable landing gear, working two axis cyclic.
Lego Technic Whirlwind Rescue () | eBay
Click the image to download the LDraw file of this model. Model by Eric Albrecht.
Rotors The rotors’ rotation is driven by an input crank on the left side. This crank drives a set of 14 tooth bevel gears giving the main rotor a ratio of 1: The crank axle also drives a set or gears made up of a 24 tooth crown mating with two stacked 14 tooth bevel gears one of the rare places this pairing is made which passes torque along the length of the boom to the tail through 3 universal joints.
Here another set of 14 tooth bevel gears drives the 4 blade tail rotor.
A pair of simulated turbine engines are nestled beneath the main rotor head. Click for an animation of the rotors in motion. Cyclic Pitch A number leo new parts made a simulated cyclic system possible. Real helicopter cyclic works by changing the pitch of individual blades as they rotate using a swashplate. For example, the leading and trailing blades may be at 10 degrees of pitch, while the port and starboard blades are at 5 and 15 degrees respectively.
This model pivots the entire rotor head instead. If a real helicopter did this it would risk striking the rotor against the frame. The rotor axle drives a spherical ball gear. The ball joints also keep the swashplate from rotating.
Inside the swashplate is a four blade rotor part. Because of the shape of the gear, the rotor can pivot on two axes while still rotating. The control of the cyclic is from a pego at the pilot’s position.
There is one flex cable and sleeve for each leyo. Fore-aft motion of the stick pushes and pulls the cable using a ball joint. The flex cable runs up to a link which lifts the swashplate using a suspension control arm! Lateral motion of the stick rotates an axle which runs aft.
At the end of the axle is a ball joint which connects to another flex cable.
This flex cable attaches to a ball joint on the side of 886 swashplate. Click for an animation of the cyclic in motion. Landing Gear The 3 point landing gear retracts using another crank on the port side. The crank turns a worm gear which mates with a 24 tooth spur gear. The spur gear drives an axle which runs both forward and aft.
Pego nose gear retracts forward via a set of 14 tooth bevel gears. The main gear pivots forward via a 24 tooth crown and spur gear.
LEGO Technic Rettungshubschrauber (8856)
The final gear ratio is Each gear pivots a little over 90 degrees. In both the extended and retracted positions the gear rests against a hard stop. Click for an animation of the landing gear in motion. Rescue Winch A pair of cranks on the starboard side operate the rescue winch on the port side. The first crank turns a worm gear which drives a 16 tooth spur gear.
LEGO Technic Rettungshubschrauber () | eBay
The next axle pivots a lift arm which deploys the winch boom. The second lgo attaches to a 16 tooth spur gear used as a ratchet plate. A set of 14 tooth bevel gears drive the second axle which works as a cable drum. The cable runs out to the winch and attaches to a metal hook. Click for an animation of the winch boom deploying. Click for an animation of the cable in motion.