Bomber

For ages I have struggled to figure out an effective way of dropping missiles. Loose mounts dropped them inconsistently, hard mounts were hard to deploy, but one day, I finally came up with an idea (with inspiration from my daddy)

So the bomber was born. A relatively normal design not very different from any other aircraft I’ve designed, this plane was differentiated by its unique weaponry.

As for its normal traits, this plane has 4 machine guns in its wings and a curved, bulbous nose. An orange windscreen shields a robot who is the main pilot. Covering could not be designed for the pilot so the bomber relies on fighter guards and agility to survive. 

A view of the underside of the plane. Two extra machine guns are mounted at the back for dogfights and the weapon delivery system is between them. 

It can be detached for maintenance and reloading. From here, the mini-missiles can be seen- a special design just for this model.  

The system is quite self-explanatory but to further clarify, after one missile has been released, the next one is pushed back up by the circular section of the drum and subsequently drops within, starting the next cycle. 

For reloading, a special slot is included there. Maximum capacity is 4 missiles. Fins help to promote stability and also look cool at the same time. 

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ArrowHead

 

Introducing… ArrowHead, the fastest craft I’ve ever built. 

The design was mainly based on a search-and-rescue theory. Simply put, this plane speeds in, drops the loading bay and zooms off with its target. Its speed comes from not needing to generate lift using wings, the entire plane is suspended with a charm instead. 

Engines at the back of the plane provide thrust. 

The entire thing is relatively heavily armored, with plates and armor that cover the whole passenger section : a success in terms of technical building. The entire plane still looks sleek albeit the passenger section because of the curved plates laid in. 

A view of the passenger section. The knob to turn the cargo loading bay down is visible from here. The entire floor section drops down to accommodate passengers easily. This way, the craft can snatch up targets quickly. 

The cargo bay is lowered with a simple winch mechanism which is normally kept in place by a lock. It can be removed easily. 

The interior is spacious enough to store 2 LEGO minifigures without excessive headgear. Slight walls on the bottom can be lowered to form a ramp. 

The panels on the side can be hinged slightly for changes. 

And lastly, a quick video of the mechanism. 

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Flood Rescue Vehicle

When I received news about the recent floods in Malaysia, I decided that there was only one thing to do: build a Flood Rescue Vehicle. 

The design itself was quite simple. There were stories about boats not being able to cross into shallow waters; trucks and cars were similarly swamped by floodwaters. There was only one vehicle that could cross both; the Salamander. 

A Salamander is actually an amphibious vehicle with tracks mounted on a boat body. Here, I used wheels for speed (also didn't have enough tracks) and size. 

There are two sections; the search and rescue section; and the flood victim section. Read on to find out more!

Gadgets on the front section are listed as follows:

Front: 

1. The white cone is a distance microphone to detect small noises and calls for help; can save those who are too tired to scream. 

2. Two banks of sensors are located on each side to detect debris and other things. 

Middle:

1. A big speaker (grey) to give warnings, messages, and assurances. 

Back:

1. A revolving tower with two kinds of lights to find and rescue flood victims in the dark. 

The back section, otherwise known as the flood victim section, consists of:

Rightmost:

1. The elevator system (more explanations following)

Middle:

1. An electric fire to prevent chills or hypothermia. 

2. Benches for flood victims to sit (maximum capacity 4) 

Leftmost:

Top: Bottles of freshwater, sealed and airtight to prevent any kind of contamination

Middle: Storage for valuable items, or currently a medical kit

Bottom: Food is in the circular boxes, whereas the square box holds thermal blankets if the fire heat is not enough. 

The vehicle body is hinged to get around corners.  

There are stories of people stuck on the second floor/roof having to jump down into the boat, possibly destabilizing it. Furthermore, old or weak people cannot make this journey and are forced to stay behind. My design includes an elevator function to solve this problem. 

A video showing the elevator in motion. A relatively simple design featuring a rubber-band pulley with a guide rail to ensure maximum stability solves any climbing problems. 

Engines on the side of the boat; they combine jets with propellers for maximum propulsion/horsepower.

Multiple sensors on the bottom of the Salamander, they provide data on ground instability, incoming debris, waves, and other important things. 

I hope this design is able to save many people who are in danger out there. 

Thank you for reading my blog. 

 

Hexabyte

For some while, I have been quite obsessed with spinning tops. My old models were symmetrical tops that spun well but had problems spinning for long. Surprisingly, the best design was the most unbalanced design. Introducing… Hexabyte! 

The initial design came from my father but I improved and changed it slightly. My additions included slopes to make it more aerodynamic, stabilizer fins to push the top against the ground, and a huge amount of weight concentrated on one side of the top. 

The weight was surprisingly distributed in such a way that it looked like a face! 

The theory of its uncommonly long spin was the weight. It wasn’t balanced. The idea was that the imbalance would cause it to swing from side to side, but with a rough surface, it would be able to stay longer than other tops. 

The result was a top that “scratched and scrabbled” against the rough surface, and the imbalance kept it spinning for a total of 30 seconds!

A video of its performance. Surprisingly I could only get 21 seconds max, previously the record was 25. 

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The Phoenix

Today, the building challenge was to build an animal. I was rather conflicted by this topic and toyed with several ideas for a while. But after looking at the accessories box and having assessed the huge amount of golden blades that I possessed, I decided to build a phoenix. 

The original idea was to arrange the golden blades in such a way that they looked like wings. A phoenix was decided on because it was the only bird that had wings that could be golden. After some tinkering around, the design emerged. 

After the wings, the head emerged. Inspiration was taken from Aaron Newman and slowly, the rest of the bird emerged in hues of brilliant gold and yellow. I'm generally quite happy with this model because I normally don't have much aptitude for building animals. 

Ironically, the simple design of the rear was the one that took the most time. I was running out of golden blades and couldn't create the signature, voluminous tail of a phoenix. This design was chosen for its simplicity, or maybe just because it used the least amount of golden blades.

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The phoenix can be split into three sections; the head, body, and wings. The three sections are mostly connected by SNOT pieces and other methods. This removability helps me to make minute changes to selective parts of the phoenix without destroying the rest of the bird. 

The head design is something to note. Part of the neck section is actually a NEXO Knights shield that I chose simply because of its color. This shield went on to become the core of the phoenix, anchoring all three sections together. 

The phoenix features 5 points of articulation; as shown above:

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Observatory

During an afternoon when I had nothing to do, I decided to build something technical with lots of gears using LEGO. And what could be more technical than a proper observatory that could be angled to look at different constellations? 

One side of the observatory displays the set of gears that I used; it looks simple and satisfying. This section of the observatory is simply used to angle the radio dish up and down and the gears at the side merely serve the purpose of slowing down the motion. 

The observatory's other side is covered by a plate that shields most of the machinery from wind and rain. The plating on the back of the observatory is placed at an entirely different angle; it is achieved by using SNOT bricks that are connected to the white section. 

The plate at the front and the entire back section can be removed for maintenance purposes. The front plate slots into the Technic axle that protrudes out of the front, whereas the backplate clips on a Technic-Lego connector at the back. 

The observatory's interior consists of all the machinery that is required. Here, I'm using a modified differential gearbox with a bevel gear connected to the middle differential gear to add extra motion. This way, I can achieve two different outputs around a central axle. 

A video of the motion.

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Crimson Lightning

 During one of my building challenges with my dad, I was tasked to build an emblem. Instead of going with a standard pattern arranged on a plate, I decided to use a different way. Hence, Crimson Lightning was created. 

The entire model is built without studs facing forward, instead, it combines different angles to get the lightning shape correct. I'm quite happy with this because it uses slopes and curved parts to achieve the wraparound grey background for the lightning. 

After removing a key connector, the entire model can be split into three parts. From this partly disassembled image, you can see the studs facing in all directions. 

Back view. I had to use all different kinds of pieces because of space problems. Still, the back looks quite unique and can be used too!

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