Recién salido de Australia, CopterPack es uno de los dispositivos personales más nuevos que permite a su conductor tomar vuelo. Mientras que los jetpacks tuvieron su momento álgido en los años ochenta, el CopterPack vuelve a imaginar cómo los humanos pueden volar usando un dispositivo personal. Echemos un vistazo más profundo a cómo se ve y funciona este helicóptero personal estilo mochila.
Un diseño reinventado
Compuesto por dos rotores, el CopterPack es un dispositivo que se usa como mochila y se parece un poco a un dron humano. La compañía australiana del mismo nombre diseñó el CopterPack de manera muy diferente a otros modelos en el pasado. Sin embargo, hay elementos potencialmente peligrosos en este diseño.
Por ejemplo, los rotores, aunque enrollados de forma protectora a lo largo de los bordes, están abiertos en la parte superior e inferior. Si bien esto no representa una gran amenaza mientras el piloto usa el CopterPack correctamente, podría volverse peligroso en caso de accidente u otra circunstancia imprevista, especialmente cuando operan y giran a altas velocidades.
Cómo vuela el CopterPack
El CopterPack está hecho con un diseño de panal de fibra de carbono liviano. Los rotores a ambos lados del piloto les permiten volar de un lado a otro sobre un eje central. El diseño de los rotores permite que el piloto tenga un control significativo sobre cómo vuelan.
Además de lo que CopterPack afirma que es una experiencia de vuelo intuitiva, hay una función de piloto automático que permite al pasajero autonivelarse automáticamente. La fibra de carbono utilizada para construir el CopterPack también se utiliza en otros aviones y naves espaciales debido a su bajo peso y durabilidad.
Bateria cargada
Si bien los fabricantes no brindan muchos detalles sobre la construcción o los materiales utilizados para la batería, es seguro asumir que es de tamaño pequeño. Esto se hace evidente por el tamaño total del CopterPack. Se sabe que los paquetes de baterías de litio, como el que se usa en el CopterPack, tienen poca densidad de energía.
Debido a esto, es probable que los pilotos no puedan pasar mucho tiempo en el aire. Su peso, junto con la potencia necesaria para impulsar el giro de alta velocidad de los rotores, requiere una gran cantidad de energía para funcionar durante una cantidad de tiempo más considerable.
los rotores
La potencia y la estabilidad del CopterPack son generadas por sus dos grandes rotores. Cada uno de los dos rotores del CopterPack alcanza unos tres pies de diámetro. Se supone que cada uno de estos se conecta a la unidad a través de tubos de fibra de carbono. Para permitir que el piloto dirija, los rotores son dirigidos por dos controles manuales en dos reposabrazos que se conectan al paquete. Para lograr el control y la estabilidad, el piloto puede confiar en la capacidad del CopterPack para girar sus rotores y vectorizar el empuje.
Pensamientos finales
El CopterPack parece estar construido con un diseño y materiales de calidad, y el vuelo en sí es muy impresionante. Lo actualizaremos a medida que obtengamos más información de CopterPack.
Coming straight out of Australia, CopterPack is one of the newest personal gadgets that allows its rider to take flight. While jetpacks had their hot moment in the eighties, the CopterPack reimagines how humans can fly using a personal device. Let’s take a deeper look into how this backpack-style personal copter looks and functions.
A reimagined design
Composed of two rotors, the CopterPack is a device that is worn as a backpack and looks somewhat like a human drone. The Australian company of the same name designed the CopterPack much differently from other models in the past. However, there are potentially hazardous elements in this design.
For example, the rotors, while protectively coiled along the edges, are open on the top and bottom. Although this does not pose much of a threat while the pilot is using the CopterPack correctly, it could become dangerous in the event of an accident or other unforeseen circumstance – especially as they operate and spin at high speeds.
How the CopterPack flies
The CopterPack is made with a lightweight, carbon fiber honeycomb design. Rotors on either side of the pilot allow them to fly back and forth on a central axle. The design of the rotors allows the pilot to have a significant amount of control over how they fly.
In addition to what CopterPack claims is an intuitive flight experience, there is an auto-pilot feature that allows the rider to self-level automatically. The carbon fiber used to construct the CopterPack is also used in other aircraft and spacecraft because of its low weight and durability.
Battery powered
While the manufacturers do not provide much detail on the construction or materials used for the battery, it is safe to assume that it is small in size. This is made apparent by the overall size of the CopterPack. Lithium battery packs, like the one used on the CopterPack, are known to have poor energy density.
Because of this, pilots likely won’t be able to spend much time in the air. Their weight, coupled with the power needed to propel the high-speed spin of the rotors, requires a great deal of energy to operate for a more substantial amount of time.
The rotors
The power and stability of the CopterPack are generated by its two large rotors. Each of the two rotors on the CopterPack reaches about three feet in diameter. It is assumed that each of these connects to the unit through carbon fiber tubes. To allow the pilot to steer, the rotors are directed by two hand controls on two armrests that connect to the pack. To achieve control and stability, the pilot can rely on the CopterPack’s ability to twist its rotors and vector the thrust.
Final thoughts
The CopterPack looks to be constructed with quality design and materials, and the flight itself is very impressive. We will update you as and when we get more information from CopterPack.
Startup
A startup or start-up is a company or project undertaken by an entrepreneur to seek, develop, and validate a scalable business model. While entrepreneurship refers to all new businesses, including self-employment and businesses that never intend to become registered, startups refer to new businesses that intend to grow large beyond the solo founder. At the beginning, startups face high uncertainty and have high rates of failure, but a minority of them do go on to be successful and influential. Some startups become unicorns; that is privately held startup companies valued at over US$1 billion.
Actions
Startups typically begin by a founder (solo-founder) or co-founders who have a way to solve a problem. The founder of a startup will begin market validation by problem interview, solution interview, and building a minimum viable product (MVP), i.e. a prototype, to develop and validate their business models. The startup process can take a long period of time (by some estimates, three years or longer), and hence sustaining effort is required. Over the long term, sustaining effort is especially challenging because of the high failure rates and uncertain outcomes. Having a business plan in place outlines what to do and how to plan and achieve an idea in the future. Typically, these plans outline the first 3 to 5 years of your business strategy.
Design principles
Models behind startups presenting as ventures are usually associated with design science. Design science uses design principles considered to be a coherent set of normative ideas and propositions to design and construct the company's backbone. For example, one of the initial design principles is "affordable loss".
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