Hi everyone! This is my newest big technic creation, a remote controlled ship to shore crane! Hope you like it! :)
About this creation
The crane is 66 cm high and 107 cm long, it has 8 whels, 4 motors and it contains 34 13L liftarms and 42 15L liftarms. It has four functions. It can go near the water, catch and release the container, rise and lower it and take it between the shore and the ship.
I made a video about the crane. The temperature was +1°C, the batteries were weak, so the mechanism of the compressor couldn’t work well, the crane couldn’t catch the container. We had to found out something instead of the original screenplay, and this is the result, a real HD disaster movie in Holywood style! :) (The video is faster, than the real speed.)
If you don’t belive, that the crane can catch the container, or you are simply curious about the real speed of the functions, look at this video, too:
There are some pictures here, they show the whole crane and the harbour.
Now I write a little about the boring technical detailes and the operation of the functions.
1. Going near the water
This motion is the task of the L motor. It uses the worm gears to bring the driving to the four legs. Then the axles go down in the middle of the legs, after they turn paralel with the ground. In the lowest part of the legs you can see shock absorbers. The axle drives a 16 toothed rear, and the absorbers push it to the wheels. If you use a hole on a liftarm for the gear, the driving is too tight, or the gear doesn’t touch the wheels. The force, what the absorbers use to push the gear, is perfect.
2. Ship to shore, shore to ship
There is a car on the top of the crane. It has two rows of tan 20 toothed gears on its top. And on the whole lengths of the crane there are two axles with a lot of grey 16 tootled gears. The car can be wherever, one or two grey gears touches the tan gears. The car is driven by two strings. The round bricks above the battery boxes are coiling up one string, while coiling down the other.
The weight of the two battery boxes is necessary. If the container catcher is above the water with a container, the arm of the force is very big, so the crane loses its balance.
3. Catch the container
The catcher uses a compressor and an autovalve, they are driven by one of the long axles. If the catcher is down, the two pneumatic tubes create a circle. You can see it on one of the pictures, which shows the whole crane. If the crane rises a container, the circle becomes an ellipse. The tubes don’t cause problem with this method.
It’s easy to catch the container and put it onto the trailer or the ship because of the shape of the catcher and the slopes.
4. Rising and lowering
This picture shows the bottom of the car. On the right side there is the autovalve and in the middle there are the two reels.
The cabin of the operator:
It took two months to built the crane. I enjoyed it very much, because it was full of challenges. There were a lot of problems with the mechanisms, but I could solve all of them. I like this creation very much and playing with it is fantastic, I hope you like it, too.
Wow, what a fantastic construction. You have really done a great job of realizing this container port. The sheer size alone, does that you have to make your own Legoland park. The crane mechanism is indeed a major piece of engineering. Nice and entertaining video presentation.
Absolutely fantastic, both in terms of looks and in terms of features! The presentation in the video is great, too -- I love the newspaper headlines. I like your solutions for transmitting power to the car on top of the crane and for driving the wheels at the base of the crane. This is probably the best LEGO harbor crane I've ever seen.