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This and the next picture should look familiar ... the Tender Wheels started out the same way. I used a big chunk of 12L14, some builders use 303 Stainless or Cast Iron. Since I have the G Code I can always change material if needed. |
Using my new lathe auto cross feed is really nice! Still have to fit my tool post, but so far this is working fine. |
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| This is a copy of page 1 (of 15) of the final version, however, I decided that the spot drill depth needed to be increased .05" and RPMs of the reamer slowed down a bit. The final version has 750 lines written ... without the use of a CAM program, I did use a lot of Copy and Paste commands. |
The control panel of the Haas CNC, very nice layout. I used 7 tools: spot drill, 2 reamers and 2 drills, two end mills (a Ball HSS and a 1/8" coated carbide. I decided to use the ball end mill because it looked very nice to have a 1/16" radius around the hub, counter weight and the top of the spokes. |
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These disk are nearly ready for the CNC, but later on I re-machined them so that their thickness would be much closer together. As it turned out all were 0.443" +- 0.002". Individually they were all within 0.001" on the edges and center. |
My first programs were written just to make the center hub and the outline of the counter weight and tread. As you can see I started with a 1/2" thick wood ... much safer. The cutout on the left (actually my 4th), there is something wrong with the lower portion of the hub. It turned out that my "I' and "J" components of the G02 code were wrong. The center one is correct. The 3rd has the 1/8" cutout for the spokes ... well ... it seems that I have wayward arc! |
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Finally I'm ready for the next step ... machinable wax. Notice that I'm using soft jaws to hold the disk. That's so all centering is only done once. It was easy to make ... just a aluminum jaws with a cut out for the disk. |
Now the real stuff. My 1st attempt ... broke 2 end mills. After reviewing the program I realized I was removing too much material at one time when cutting the pockets out. |
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Done ... in about 20 minutes for each disk. Since I was using two different types of end mills, the speeds and feeds for each one was very different. 1/8" HSS 2 flute ball: 4000 RPMs; feed 5"/min. 1/8" 4 flute Carbide: 7600 RPMs; feed 20"/min |
Finished product ... one of the 6 (actually 7 counting the damaged one ). I could have increased the feed, but since I was successful at 20"/min I didn't want to push it. After all this is not production! My next step is to place the disks on an arbor and machine the tread, flange and then the 1/16" recessed area. Then round the spokes ... just a little. |
| Update 1/06/10 | |||
| Some progress has been made on the drivers, since most of the machining are similar the the Tender Wheels I won't show the details. The main tasks accomplished: Machining the rest of the wheels, Axles, Eccentrics, Crankpins and Side Rod Pin. | |||
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| This photo should look familiar ... the same basic machining sequence as I did for the Tender Wheels. The arbor is turned down for a tight axle fit and is not removed. Here I'm using a small thread tool for outlining the groove. | One of the Eccentrics ... just about ready to part it off. I used SS303 for rust control and it's easy to machine. | ||
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| This piece is the beginning of the Side Rod Pin. An .018" wide groove is made for an E-ring. Once this is done the rest of the pin can be machined without worrying about bending the pin. I was very pleased with the final part. See photo on right. | Shown above are most of the wheel parts. A slight yellow look is due to all the oil on them. Still have to clean up the wheels using a Dremel tool to round the spokes and remove the machining marks. Then they should be ready for the quartering procedure. | ||
| The next update will be about the quartering procedure ... should be fun! | |||