After the we finished the sketch and extruded it inward in-order to put holes in the drone. Then we hand drew the slots you can see in the images above. After doing so, we clicked the project geometry button in inventor and clicked on all previous lines which appear when they are hovered over which allowed us to see the original sketch of the drone. We first right clicked on top of the original drone which we had extruded in steps prior. This step is optional for the drone, however we included it in order to reduce heat and decrease air resistance by allowing air to flow through them when moving upward. The circles drawn on sketch, above have a diameter of 0.35 inches.(They will make the holes for the motors later).The dimensions of our drone are 4" by 4", due to the constraints of our 3D printer.Draw drone (by hand, as long as all the side are symmetrical the drone should be fine, within reasonable limits).The diameter of the circles are 0.35 inches. The holes where the motors are going to be on the outline were made as circles on the base sketch in Auto-desk Inventor. We made the outline of this drone 4" by 4" while the entire thing is hand drawn the design could be copied in order to achieve the same results. To create the mini drone, you must first create the outline of the body that you need to build off of later. We hope you enjoy, and that this will help you if you want to make a drone of your own. This is how we did it, but if you are making your own, you can make adjustments as you feel needed. Including our first main part, which is the 3D printed base for the drone. Step 1: Materialsįirst off, we created this whole thing by hand. We hope you enjoy our instructable and take it into careful consideration. We did something that many people in STEM didn't think we would be capable of doing, so in that sense we had what we would consider, a success. We feel proud of the creation we present before you now and aside from that we had a lot of fun and would love to do it again next year. The best we have as of now is it slightly taking off, about an inch or two off the ground. We kept trying and it still would not work and while we couldn't catch the drone flying. We brought it to school and we tried to make it fly again and, much like the many times failed it wouldn't fly again. It was the first time we got it to fly, and sadly we did not get it on video. One day Chase was fiddling with the drone one day, not thinking it would fly because we had to fix a propeller and actually got it to fly. We had to figure it out by doing around 15/20 different tests. The drone just would not take off no matter what we did. We created the base by hand using our knowledge from Engineering class, which made us proud of ourselves and our Engineering teacher. Also I would like to add that we came up with the whole design of the drone base. To solve these issues we had to use many STEM qualities including: science to figure out the physics behind drones which allow them to fly, technology to 3D print the drones as well as altering parts to make it work, engineering to design the drone, and mathematics to determine the correct measurements to get the drone to fit in the 3D printer and balance it correctly. We had many problems along the way that needed to be solved such as correcting the weight of the drone to keep it balanced in air, solving several wiring issues we've had, and getting the motor to fit in correctly. This is the coolest things we've done all year! We worked really hard on it and ended up having 5 different 3D printed bases for the drone. We have decided to do a mini drone for the Best Award because it would be fun, creative, and something we've never done before. Enhanced Stability & Maneuverability Technologyĩ.Hi, we are Michael Grebeck and Chase Leach of the Wilkes-Barre Area STEM Academy. Seamless Real Time WiFi Video Streamingĩ. Then share your HD videos and photos straight from your device, without having to upload the data from an external source.ģ. Experience your flight on a new level with VR capabilities and stunning FPV aerial views. TDR Viewer is the official App to pilot TDR Yellow Jacket and Robin WiFi Drones (with more on the way!) Giving you total directional and navigational control of your drone straight from your smart device. Pilot your drone and record HD video/photos with your smartphone or tablet.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |