فایل، مدل و نقشه 3 بعدی پهپاد بال ثابت عمود پرواز با قابلیت حمل 18 کیلوگرم بار - Infill Optimized Supply Container for VTOL Drone

دانلودفایل، مدل و نقشه 3 بعدی پهپاد بال ثابت عمود پرواز - Infill Optimized Supply Container for VTOL Drone

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  • نوع محصول: فایل
  • نام محصول: فایل، مدل و نقشه 3 بعدی پهپاد بال ثابت عمود پرواز...
  • گروه اصلی: هوافضا پهپاد
  • زیر گروه: هوافضا پهپادها پهپاد بال ثابت عمود پرواز پهپادهای امدادگر پهپاد هلال احمر پهپادهای باربر
فروشنده فروشنده: آدیناچیستا - ADINACHISTA
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Designed on Solid Edge and rendered using Keyshot. This is a simple yet highly effective supply container with rubber grip type cushion on all four sides to prevent damage to the container. The container is attached to a parachute to allow smooth landing. Simplistic design yet innovation in the Fused Deposition method leads to a unique and effective container with a long life.

محصولات مرتبط

نوع محصول
فایل
نام محصول
فایل، مدل و نقشه 3 بعدی پهپاد بال ثابت عمود پرواز - Infill Optimized Supply Container for VTOL Drone
گروه اصلی
هوافضا
پهپاد
زیر گروه
هوافضا
پهپادها
پهپاد بال ثابت عمود پرواز
پهپادهای امدادگر
پهپاد هلال احمر
پهپادهای باربر
نرم افزار های مورد نیاز
WinRAR
STL, Other
STEP / IGES
Rendering
Solid Edge
فرمت فایل
RAR
PDF
JPG
GIF
MP4
PAR
ASM
CFG
LOG
STL
STP
حجم فایل
125 مگابایت - فشرده شده 71.2 مگابایت
توضیحات
نمونه فایل، مدل و نقشه 3 بعدی پهپاد بال ثابت عمود پرواز - Infill Optimized Supply Container for VTOL Drone
Designed on Solid Edge and rendered using Keyshot. This is a simple yet highly effective supply container with rubber grip type cushion on all four sides to prevent damage to the container. The container is attached to a parachute to allow smooth landing. Simplistic design yet innovation in the Fused Deposition method leads to a unique and effective container with a long life.
I have also uploaded a scaled up version of the container which will be able to easily carry 30 to 40 pounds.
Innovation
A) We have used variable infill percentage in our design to optimize and strengthen our container. We couldn't show this through CAD but we have print the side touching the ground with a high infill of 80 percent and we will gradually lower it to 20 as we go up. This will ensure two things
1) The landing side since heavier will always remain down in a stable equilibrium. So even when winds blow and try to topple it. It comes back to its original position
2) It will ensure a strong shock absorbent bottom layer and this is important as it comes in contact with the ground.
(TO OBSERVE THE INFILL OPTIMIZATION CHECK THE MP4 FILE UPLOADED. IT CONSISTS OF A VIDEO SHOWING HOW THE INFILL INCREASES AS THE LAYERS INCREASE. AT THE END OF THE VIDEO THE OPTION THROUGH WHICH THIS IS POSSIBLE IS HIGHLIGHTED. IT IS DONE ON CURA SOFTWARE.)
B) Interference fit screw which will hold the lid firmly. It can only be pulled out by putting your fingernails in the slot and pulling
C) No compartments inside the container. This is done to ensure more space to pack stuff. Large space means the density of the supply inside is around 800 kg/m3 (if we carry max 40 lbs) This leads to an overall density of less than 1000 kg/m3 (Density of water)
D) Large space ensures that the supply will always float on water. Along with being airtight (due to design of the lid, which covers the top and a little
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آدیناچیستا

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