- Видео 24
- Просмотров 13 040
AIRcraft COnceptual DEsign
Добавлен 11 дек 2013
I have spent some time programming a 3D modeling system via Visual Scripting using Grasshopper under Rhinoceros7. This plugin was named by me Air.CO.DE. and allows to draw the whole skin saving a lot of time.
It is possible to change the profile of any wing surface at any time during the design phase as everything has been made parametric.
The code allows you to export the geometric and weight data of the aircraft and interfacing with matlab for other study.
Subscribe to the channel to follow the updates.
It is possible to change the profile of any wing surface at any time during the design phase as everything has been made parametric.
The code allows you to export the geometric and weight data of the aircraft and interfacing with matlab for other study.
Subscribe to the channel to follow the updates.
Vettori accelerazione - Acceleration vectors acting on a glider.
Acceleration vectors acting on a glider.
A study in Grasshopper 3D.
A study in Grasshopper 3D.
Просмотров: 38
Видео
3D modeling - wings - Pioneer P300 Alpi Aviation
Просмотров 8821 день назад
3D modeling - wings - Pioneer P300 Alpi Aviation In this video I show the two components of the AirCoDe #plugins developed by Luca Filippone in C# for modeling wing surfaces. Modeling with this tool becomes child's play.
Libelle H301 fullsize
Просмотров 19911 месяцев назад
In this video, the Libelle Sailplane drawn with AirCoDe Plugin for Rhinoceros/GH. Email me for your new aircraft.
AirCoDe: Aeronautical plugin for Rhinoceros7 and Grasshopper 1.0
Просмотров 391Год назад
With this Plugin for Rhino it is possible to draw airfoils and trapezoidal wings. Drag the root airfoil and tip airfoil component onto the canvas, et voilà. Drag the Wing component, connect it to the airfoils and the wing will be drawn automatically. If you are an aeronautical expert you can download your airfoils from airfoiltools.com/, put them in a folder that will be read by the component. ...
3D Propeller Design
Просмотров 6 тыс.2 года назад
In this video you can see a Grasshopper definition for propeller design.
Angoli di Eulero e assetto di un velivolo.
Просмотров 2812 года назад
Una implementazione in Grasshopper degli angoli di Eulero.
DXF automatically.
Просмотров 3493 года назад
How can AIR.CO.DE. automatically generates a new aircraft and DXF file by changing, for example, the air profile.
AIR.CO.DE. summary
Просмотров 2453 года назад
In a single video I show the capabilities of the GH definition. You can see how easy it is to change the shape and / or structure parameters and automatically generate the new aircraft.
How to get a 3D plane in seconds.
Просмотров 1023 года назад
Shall we change the model? Shall we squeeze the tail and advance the canopy? Shall we change the arrow? The surfaces and the structure is quickly done.
Totally parametric holes in the ordinates and ribs (structure is in RC SCALE).
Просмотров 3963 года назад
Aeronautical design with Grasshopper in Rhino7. The aircraft are designed in 1/1 scale but the structure is in RC SCALE
It changes airfoil and rendering with Air.Co.De. definition
Просмотров 1593 года назад
In this video I show you how it's simple change wings configuration and optain a new surface in curvature continuity.
Parametric aircraft design with Grasshopper.
Просмотров 3554 года назад
Parametric aircraft design with Grasshopper.
Which aerofoil shape is this?
hello again is there any tutorials on how to make this happen?
magnifique😍😍😍😍
Bello.
Grazie 😊
Amazing! One option for improving the design flow is to select attack angles not via user input but by evaluating lift and drag force curves. If Grasshopper supports Python you can pull those curves from SplineCloud
Definitely, but time is lacking. Thank you.
amazing... first time seeing how grasshopper can be applied on this field, thank you
Oh yes. 😁
What is the name of the program?
This is a visual script in Grasshopper.
Theory from Betz? Goldstein? Glauert? Theodoresen? Larrabee? …???
The theory of the finite element of the blade, that of Xrotor. The code is limited to drawing and switching between: Xrotor < --- > Aircode/Design
@@lucafilippone Something is not correct. The chord at the blade root is too large. The circulation goes to zero at the root - the finite chord need only meet structural size requirements while alpha attenuates toward cl=0 at the root. You’re chopping off too much trailing edge which should not be there in the first place.
Ci tengo sottolineare che il video vuole mostrare come io sia riuscito, con Rhino7, a disegnare eliche in pochi minuti e con un controllo totale dei principali parametri. Se tu mi dessi questi parametri, ottenuti in qualche modo, potrei disegnarti l'elica in pochi minuti, oppure, potrei giungere alla convergenza tra requisiti e analisi reiterando modifiche e analisi. I applicazione disegna in pochi secondi, mentre Xrotor calcola in pochi secondi, (configurarlo è più lungo), e così la valutazione è rapida. Non volevo dire che l'elica è perfetta.
@@aircraftconceptualdesign3458 So sorry. I do not read Italian.
@@DavidJGall Io non conosco l'inglese. 😁🤗
Is that a model you're building? Selling?
. It is a model used for the thesis and can be built of wood. I created an application that allows you to quickly obtain surfaces and structure for model airplanes. It is a model used for the thesis and can be built of wood. I created an application that allows you to quickly obtain surfaces and structure for model airplanes.
@@lucafilippone Is that application available somewhere?
@@NicksStuff This is my application that is not for sale. But I'd like to develop it and put it online to allow everyone design their own plane. Upon request I provide the 3D file. See portanza.wixsite.com/aircode
Which software is this?
see www.aircraftconceptualdesign.eu/
@@aircraftconceptualdesign3458 Ok, thanks.
complimenti interessante e solo estetico oppure e possibile calcolare spesso ri fattori di carico e affini?
Grazie Antonio. Il tool passa i parametri geometrici a matlab con cui effettuo uno studio di prestazioni e stabilità.
Complimenti Luca! bella soddisfazione ;)