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 Sorry for the profanity but how about mentioning the "C" word? Commercials? - Pavan Dave [more] |
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| Sorry for the profanity but how about mentioning the "C" word? Commercials? - Pavan Dave [more] |
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#1
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Re: Sheet Metal
2815 did this in a way in 2011--we used flat aluminum riveted to square tubing acquired from Lowe's. We had plenty of other issues, but nothing with that frame. I could easily see a team pursuing this strategy if the limits of their equipment meant smaller pieces were an option.
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#2
31-10-2011, 21:55
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Re: Sheet Metal
Hybrid is the way to go. I like looking at 228 as one of the really good examples of hybrid sheet/tube done well.
http://team228.org/media/pictures/ As thickness goes, 0.125" will generally do all your fixturing/bracketing needs. What resources do you have? Also, have you thought of bringing in sponsoring resources? |
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#3
31-10-2011, 23:06
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Re: Sheet Metal
If you have the design know-how and a sponsor with a laser cutter and press brake, then by all means, sheet metal is an awesome way to go. However, it does take someone who is skilled in sheet metal design to come up with all the proper bends and flanges to get it all to come out strong.
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#4
31-10-2011, 23:58
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Re: Sheet Metal
Sorry that I was not clear. We are trying to secure sponsors, but this is our first year that our team is really taking off. We really only have a drill press and mill available to us. In leu of that, I was talking about doing something more like what Billfred suggested. Is it worth it to use sheet metal, even with our limited resources, and inability to make flanges.
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#5
01-11-2011, 01:37
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Re: Sheet Metal
Here's one way to do sheet metal without a brake. http://2008.huntingtonrobotics.org/t...monocoque.html
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#6
01-11-2011, 08:08
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Re: Sheet Metal
Thank you so much everybody. After doing more research, I have found what I want to do is build a full chassis out of square tube, connected with gussets and rivets, and with a supplement of sheet metal for it's cleaner, more adaptable uses. Has any other team done something like this?
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#7
01-11-2011, 08:33
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Re: Sheet Metal
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#8
01-11-2011, 09:35
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Re: Sheet Metal
A hybrid design is an excellent option, you will notice that most teams who build with sheetmetal still use "traditional" round or square tube parts. One idea that you might want to look into is the idea of nesting your drivetrain inside of a larger extruded aluminum tube. This can be seen on teams 177, 816, as well as the "Rock Box" from the 221 Robotics guys.
Other options include designing with standard C-Channel. 1/8" material thickness is common for sheetmetal and a relatively safe bet, some teams use thinner as well such as 0.090". In terms of alloys: Aluminum 5052 is great for bending and is what most of the teams that use sheetmetal use. For extrustions or flat plates/gussets 6061 is common and fine. Again with all designs, always design within you teams capabilities... Expand your resources and then expand your design. Last edited by jwfoss : 01-11-2011 at 14:10. |
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#9
01-11-2011, 12:54
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Re: Sheet Metal
Our robot has several sheet aluminum covers/guards on it. I bent up several of them in an evening with a vise, hammer, and sheet metal brake. Aluminum is nice if you have few tools becuase it can be bent by hand somewhat. If you're going to use fasteners aluminum is good but for welding, iron is so much easer.
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#10
01-11-2011, 12:57
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Re: Sheet Metal
Here's a nice tip that I have found out, .125 does not like to bend .090 likes to bend. So if you are planning to bend go .090 but if not go .125. We have a break and it did not like the 1/8th inch alum. we tried to bend the other day, it bent but not very well the .090 bends very well from what we have seen.
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#11
01-11-2011, 13:21
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Re: Sheet Metal
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#12
01-11-2011, 13:59
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Re: Sheet Metal
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#13
01-11-2011, 17:05
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Re: Sheet Metal
With a dedicated sheet metal sponsor your team would have the ability to make low cost, lightweight, strong, easy to maintain drive train and manipulators. The big trick is getting the students to learn how to CAD up a drive train design and have a manufacturing engineer go through it with them to explain how to build it, how to make it lightweight, stiff and cost effective. The students have ideas sometimes good sometimes bad and it is the learning process while designing a drive train that is invaluable. With the proper instruction the 3D model of the design is used to program the laser cutter. the CAM engineer unflattens the model and createds the G code for the laser.
Learning about all the materials that are available to use while building robots is always fun. The kids learn when to use polycarb or pvc, or steel vs alum for high strength. Team 971 has been building sheet metal robots and has been highly successful with their designs. Take a look at their website and check out their design photos. The use of .090 5052 H32 alum and building all the parts from one thickness allows the robot drivetrain to be made in a few hours. The robot comes off a laser cutting machine in one big nest of parts. Here is a video of the teams design and prototype phase: http://www.youtube.com/watch?v=IJEYgFIryrU http://www.youtube.com/watch?v=1W96qYYQ5mo Last edited by roystur44 : 01-11-2011 at 17:08. |
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