15 Items ItemName: Lego Control Center, ItemType: Set, ItemNo: , Buy and sell LEGO parts, Set complete (but without pen) with instructions and box. Set number: ; Name: Control Centre; Also known as: Technic Control Centre; Set type: Normal; Theme group: Technical; Theme: Technic; Subtheme. Set # TECHNIC Control Center. Theme: LEGO Need building instructions? Submit instruction page . Please visit
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The whole carriage arm slides on, and is supported by, tiles on the main carriage.
Instructions For LEGO 8094 Universal Set with computer control
Motorized Carriage The carriage is motorized to translate on two axes. It has outriggers pictured in light bluea slewing platform pictured in greenand a lifting boom pictured in yellow and jib pictured in purple. The Y axis motor has an 8 tooth spur gear on the output shaft second computer image and drives a 24 tooth spur gear.
insttructions The drawing method using the plotter is similar to the popular toy ” Etch A Sketch “. Click for an animation of the crane slewing. The red buttons in the center control programming. The weight has an axle slot at one end. Then a worm gear drives a 24 tooth crown.
Instructions for 8094-1 – Technic Control Center
This motorized mobile crane has a host of fascinating functions. Click to download the LDraw file of this model. Control Center The Control Center is the heart of this set. A pair of 14 tooth bevel gears then mesh with a 24 tooth crown. Final reduction is about Since the wires pass up through the turntable they will become twisted if it rotates too far. Finally come an 8, a 24, and a 40 tooth spur gear. A base plate is used to hold all of the assemblies in the correct position relative to each instructoons.
Click for an animation of the outriggers deploying. The motors can be used independently to create horizontal or vertical lines, or together to create diagonal lines. Pen and Paper The Technic pen is supported at the end of the carriage arm and clamped by threaded axles.
The pulley then drives a 24 tooth crown gear through a worm gear, resulting in a reduction of about The jib can elgo be driven one direction; you can’t go backwards.
Final reduction is The remote control system has no means to lift the pen, so the plot is typically one continuous series of lines as shown in the example image. The Control Center has 3 color coded power outputs, each capable of driving a 9V motor. The 40 tooth gear has a link attached to one of the off-center pin holes.
The first blue axle then drives a 24 tooth crown through a worm gear, preventing backdriving of the system.
Next comes a belt drive through a pair of pulleys to prevent the motor from stalling. Each motor drives a pulley via a belt. The multiple lifting functions are achieved with a single motor mounted in the superstucture through a pendular gear which can be seen in red in the computer images. The motor for this function is located in the base.
The weight drives a pair of 8 tooth spur gears. Revolution of the gear causes lebo osciallation of the jib up and down. The weight can be rotated to lift the pen from the paper via the gear system.
Instructions for – Technic Control Center |
Click for an animation of the jib lifting. When you are done recording the program, you push Stop and it is stored to memory, even if the unit is switched off. Insyructions pen passes all the way through the assembly to the paper. Model by Benjamin Wendl. You can see this clearly in the animation. Finally, an 8 tooth pinion drives the outer ring gear of the turntable which has 56 teeth.
Motorized Lifting Jib The jib can be raised and lowered using the upper motor, but only by driving the motor in a single direction. The lifting of the arm uses the very same gear system. Motorized Slewing Superstructure The entire superstructure slews on ihstructions of the new turntables which is able to support the unbalanced weight without falling apart.
This axle then drives a set of 8 and 24 tooth spur gears followed by a set of 16 tooth spur gears. There is obviously some limit to the amount of memory on the system so it can only record a certain number of inputs, however, I have never found ijstructions limit.
As the outriggers reach their most outboard position, the attached liftarms become almost vertical, supporting the weight of the crane without backdriving. Both functions are controlled by a single motor mounted in the back of the arm and used as a counterweight. Based on the motor’s loaded rotation rate of rpm, the rotation rate of the arm is about 1. This robotic arm performs the task of lifting 1×2 beams from a chute and sorting them into color coded bins.
When the end effector closes on something, either itself or an item it is grasping, the last blue axle becomes effectively locked. Motorized Lifting Boom The boom can be raised and lowered using the upper motor, but only by driving the motor in a single direction. A baseplate is used as a platform.