Awesome model. Have you tried making a web version of it? I know Verge3D guys working with NASA and exporting this rover from 3ds Max and Blender. Would be cool to see the same with Solidworks.
What version of Solidworks did you use? Are there places on the net from where the dimensions of the Mars rover parts can be taken. I am especially interested in the rocker-bogie system including the differential mechanism. Later EDIT: Finally I found on the net the entire "Curiosity Rover 3D Printed Model" ZIP archive. I installed a plugin in SketchUp that can import STL files and in "Import STL Options" I selected "Merge Coplanar Faces". I was able to measure the dimensions of all rover parts with the maximum precision available. No need to make guesses.
2016.Got a pdf titled this //Detailed_Curiosity_Model_Large_-_Build_Instruction// from the internet(forgot the link).It has some basic details of the rover with all views design but no dimension. The dimension was then calculated roughly using picture scaling technique. Rest of the things were achieved by trial and error approach.
@@SolidworksFunPraveenSingh Thank you for your answer. I found the pdf file. It is called "Curiosity Rover 3D Printed Model". I also found all the STL files used for 3D printing the robot.
How you made that video?? In which software you made this video? And i also want to design could help me to get the drawing of parts ?? Or any type of help to design?? Please reply
Software Used: Solidworks (for Part Design,Assembly,Animation). Got Reference from Images & Animation from Internet & NASA Website. The Dimensions are not true scale. i just guessed the dimension to create this Model.
using the photos available on Internet and A Sample Blueprint pdf from NASA website. Designed Each Essential Parts,assembled them and then Performed Motion Study using: Gravity,Motor,Solid Contacts.
25 Parts (in the model Shown in video). Since i designed this for Aiming the Motion Study only.Thus,i designed most of the parts (which has to be static during motion study) in a single part file only So as to reduce the Number of Mates in Assembly.Only Movable parts are designed separately and assembled.
You're only testing over solid ground...How you going to get unstuck in sand? What about a wide track under the belly that can be deployed to ground with scissors framework....or can be used over large rock...
I used to work at JPL as a mechanical engineer and I only now fully understand the roll of the differential bar. Thank you for the illustration!
Ohh wow, that's nice. I am very glad to see comment from someone who actually worked on NASA JPL. Thank you so much.
Hi, Do you have a full video teaching how to draw all the components and apply the motion?
Awesome job.
Would you please make a full video how do you make the motion analysis.
can you share your dimensions or drafting sheets of this rover it would be much help
Sir, Can you share full design tutorial for this model, btw design is amazing
Awesome model. Have you tried making a web version of it? I know Verge3D guys working with NASA and exporting this rover from 3ds Max and Blender. Would be cool to see the same with Solidworks.
Excellent folks!
Congratulations!
Can you elaborate on this motion study specifically and also along with a tracked version
What version of Solidworks did you use? Are there places on the net from where the dimensions of the Mars rover parts can be taken. I am especially interested in the rocker-bogie system including the differential mechanism.
Later EDIT: Finally I found on the net the entire "Curiosity Rover 3D Printed Model" ZIP archive. I installed a plugin in SketchUp that can import STL files and in "Import STL Options" I selected "Merge Coplanar Faces". I was able to measure the dimensions of all rover parts with the maximum precision available. No need to make guesses.
2016.Got a pdf titled this //Detailed_Curiosity_Model_Large_-_Build_Instruction// from the internet(forgot the link).It has some basic details of the rover with all views design but no dimension. The dimension was then calculated roughly using picture scaling technique. Rest of the things were achieved by trial and error approach.
@@SolidworksFunPraveenSingh Thank you for your answer. I found the pdf file. It is called "Curiosity Rover
3D Printed Model". I also found all the STL files used for 3D printing the robot.
Hi Robert, I’ll try to make the Rover for my final CAD project, could you share with me the dimensions of the parts please?
@@danielsalinaslopez3541 Do you have your files ?
Sir, Can u create a video of rocker bogie suspension of the rover.
How you made that video?? In which software you made this video? And i also want to design could help me to get the drawing of parts ?? Or any type of help to design?? Please reply
Software Used: Solidworks (for Part Design,Assembly,Animation).
Got Reference from Images & Animation from Internet & NASA Website. The Dimensions are not true scale. i just guessed the dimension to create this Model.
would you pls make an video for designing and motion analysis for rover . since by seeing this video iam bit curious to make this rover
awesome presentation
Thanks a lot
Can you upload full video?
Pls pls plssss 🙏🙏 make this ones fully tutorial
Full video please
Donde te puedo contactar amigo, para unas preguntas sobre el diseño del Rover??
So cool
Thanks 😊😊
Welcome
Show how you designed the robot and how you do motion study
using the photos available on Internet and A Sample Blueprint pdf from NASA website. Designed Each Essential Parts,assembled them and then Performed Motion Study using: Gravity,Motor,Solid Contacts.
@@SolidworksFunPraveenSingh Is there a video where you can teach how you did it??
How many pieces does it have?
25 Parts (in the model Shown in video).
Since i designed this for Aiming the Motion Study only.Thus,i designed most of the parts (which has to be static during motion study) in a single part file only So as to reduce the Number of Mates in Assembly.Only Movable parts are designed separately and assembled.
Nice
Thanks bhai
How to download this file
Bro give full Video link
You're only testing over solid ground...How you going to get unstuck in sand? What about a wide track under the belly that can be deployed to ground with scissors framework....or can be used over large rock...
Actually, this is just a model and I am testing it only in solidworks.
Thanks
thanks for watching