Good to see you brushed up on your insert searching skills! Had a big chuckle, at least you didn't hit your knuckles trying to catch it :) I got tired of inevitable indexing brain farts, you might want to look up 'Arduino rotary table for dummies'. Was one of best things I've done for the workshop. Love your content. Keep it up!
Turned out nice.👍 That friction drive was quite popular, or at least not unknown, in years gone by. I seem to recall there was an after market motorising kit for push bikes and im sure i have seen one used on something else and British too. Although it wont harm sticking one bit in the freezer you only have a few tens of degrees compared to hundreds using heat, so if you are in a hurry save on the cold bit and just heat.
yeah. true, the factory i worked in never chilled the core component and they always heated the stainless rings to bronze/brown achieving 64thou interference fit. i was a bit belt and braces with this.
Thank you for sharing :) I've made a timing pulley for an old sewing machine just the same as you! Funny how thing works, I've just figureit out the best way of doing it whitou having ascess to much machinery!
Hi,Paul. Turned out very nicely. I also take the precautionary measure of placing the male component in the freezer before heating the outer when attempting any shrunk on work. The simplest and most convenient solution to the indexing 'brainfart' is to build yourself a digital indexer attachment for the dividing table. Have you seen the World Of Ward kits to build your own motorised indexer? Any number of indices you fancy all at the touch of a few buttons.
When I watched your 'presented problem' I tried to figure out how you were going to go about it, sprocket like on the outside, spline on the inside. Hmmmm, another job for a shaper. Using your vertical mill (or lathe) as the shaper wannabee. Your solution was so much more eloquent. Good job!
Hi. Thank you for you comments, when I looked at the Cog (as I call it), I rated it as a poor example of a belt dive gear. The time spent drilling would, I suspect, have taken equally as long as it would have taken while slotting, but being a none meshing component the drilling option was for me, the best solution. regards
Hi, thanks. Ive got a surprise project on at the moment and every time I try to get on with it, I get more work to do. At the end of my last video you will see the bearings I’m going to use on that project...
Very well done sir. 2nd video to watch this morning, and is that an Enco column mill?? I had a 1980,, and wished I hadn't sold, but the replacement Ru-Fu31 had power X and 3 stage DRO with VFD and will do til a knee mill takes it's place. Any way, the moped and use viewer's thx you for sharing,,(@@)! Best over the Holidays from Bears Rod Shop, Tx.
Good job. But what a dreadful design to drive a tyre ! It must be very hard on it. Stainless steel is nice material to work with, but those stringy pieces of swarf are dangerous, hot and razor sharp.
No kidding after 50 years of lathe use I finally got bitten, first trip to casualty since I stopped wearing short trousers and all down to stringy stainless swarf.
@Sheila Walker i normally have no problem and in fact like turning stainless, all except 304, hatefull stuff. I might give you a run for your money on the speed front.😉
stainless steel is indeed a material to be marvelled at, yet hated. In the past I’ve machined tons of the stuff. For stainless i find that to make best progress is to stick to the extremes. i have used a new generation ceramic button tool at 0.1mm doc, 0.1mm feed at 900meters pm it is dangerous as hell but the finish is good. Or the other extreme is a special triangular positive rake insert at 2.5mm doc, 0.53mm feed at 38 meters pm. the only other requirement that is needed on both counts is an abundance of power and torque, but mostly maximum rigidity. Both methods remove large quantities of steel, the former gives off a blade of white hot string 2 meters long and a strategically placed swarf bin means no cleaning out at the end of a shift, the latter makes a horrendous noise and the machine needs several clean outs of mostly 2.5mm hot square chips. I’m not even going to mention finishing cuts.
I have to admit a job well done Sir. Bet the gentleman who gets this driver wheel will be very happy.
Hi, he certainly was...
They say that you can not teach an old dog new tricks but you surely did that today, fantastic job, Thanks.
Hi, its probably more like, one old dog sharing another old dogs tricks.
Wonderful work. A pleasure to watch.
Hi, thanks Dudley
Wow what a great result, your process was much simpler than than I would likely have attempted. Great job, thank you for sharing.
Hi, you’re welcome glad its been useful.
Regards
Beautiful restoration work proud of you sir👍👍👍👍🇬🇧🇬🇧
Thank you.
Great job and I love the phrase "jiggery pokery" you just don't hear that enough these days!
leaflee Hi, glad you enjoyed, thanks for watching..
Excellent job! Looks factory.
Hi, the bloke I repaired this for hasn’t stopped fondling it… Thanks for watching.
Very usefull video and super well edited, Pleasure to watch.
Manuel thanks!!
Hi Jorge, Thanks for watching.
Great result, and good technique! Well done, Paul!
Thank you
Hi Paul. Nice work. I came here from "Buzzing" magazine. Enjoyed your article on the repair of this drive roller.
Hi, I'm glad you enjoyed it, Ive done a few articles for other groups too.
brilliant way replicating an old replacement part.....good job sir..
thank you very much for your very kind comments.
Very enjoyable, thank you again
Hi, thank you.
Superb job, and well presented. :)
HI, thank you thanks for watching.. :-)
Very nice and working well it really awesome 😎
Hi, thanks, glad you enjoyed.
It would be nice if you could make a video of a tour of the workshop.
Hi, I’m not sure, because I will have to clean it up first.. :-D
At least display the main machines without photographing the tables or the floor.
Have you seen my web page? I've published photos on there, the workshop is 4m x 11m, the pictures show you the rest. thesheddweller.com
Nice work!
Hi, Thank you.
Good to see you brushed up on your insert searching skills! Had a big chuckle, at least you didn't hit your knuckles trying to catch it :)
I got tired of inevitable indexing brain farts, you might want to look up 'Arduino rotary table for dummies'. Was one of best things I've done for the workshop. Love your content. Keep it up!
Hi, i’m trying to keep away from electronics as much as possible. Besides, I like things i can touch, electrics I can’t touch.
excellent repair, thanks for sharing enjoyed the video
Glad you enjoyed it
I'm well impressed, great save
cheers, thanks for that.
nice work, the owner of the part will love it
I believe he hasn’t stopped fondling it since he got it back.
Amazing work sir! Thank you for sharing.
you’re very welcome, thank you.
Perfection as usual.
And you make look easy.
Well done.
Thanks, cheers
Turned out nice.👍
That friction drive was quite popular, or at least not unknown, in years gone by. I seem to recall there was an after market motorising kit for push bikes and im sure i have seen one used on something else and British too.
Although it wont harm sticking one bit in the freezer you only have a few tens of degrees compared to hundreds using heat, so if you are in a hurry save on the cold bit and just heat.
yeah. true, the factory i worked in never chilled the core component and they always heated the stainless rings to bronze/brown achieving 64thou interference fit. i was a bit belt and braces with this.
Good job
Hi, thank you, thanks for watching.
Damn fine job Mr. Cheers.
Thanks glad you enjoyed the video. cheers
Nearly at 10,000 subscribers ! Amazing content as ever,thoroughly enjoyed watching it.
Hi, thank you for your comments.
Hello Paul,
Very nice work... clearly good thought was made before starting of the order of operation.
Take care.
Paul,,
thanks for your comments cheers. i do have more projects on the way.
Excellent.
Hi, thanks
Thank you for sharing :) I've made a timing pulley for an old sewing machine just the same as you! Funny how thing works, I've just figureit out the best way of doing it whitou having ascess to much machinery!
Hi, thats great. Make a video, it’ll be a welcome edition to the vast array of videos on TH-cam. Regards
Hi,Paul. Turned out very nicely. I also take the precautionary measure of placing the male component in the freezer before heating the outer when attempting any shrunk on work. The simplest and most convenient solution to the indexing 'brainfart' is to build yourself a digital indexer attachment for the dividing table. Have you seen the World Of Ward kits to build your own motorised indexer? Any number of indices you fancy all at the touch of a few buttons.
Hi i’ll take a look at that
Is that all you got from my reply..?(
That was a pleasure to watch
hi, thanks for watching
Génial. Merci.
Amazing piece of work.
Thank you.
Please explain the method decision over using the shaper?
Hi, my reason is simple, it was easier to hold and the mill was not likely to ruin everything if the drill broke. regards
Wonderful!!!
Hi, glad you enjoyed the video.
@@Thesheddweller thankyou for making great videos, I'm looking forward to your next project.
@@johnbumster3950 Hi, Ive got lots to do. so I’m sure i’ll be coming up with something
Beautiful job keep up the good work
hi, thanks for your feed back
When I watched your 'presented problem' I tried to figure out how you were going to go about it, sprocket like on the outside, spline on the inside. Hmmmm, another job for a shaper. Using your vertical mill (or lathe) as the shaper wannabee. Your solution was so much more eloquent. Good job!
Hi. Thank you for you comments, when I looked at the Cog (as I call it), I rated it as a poor example of a belt dive gear. The time spent drilling would, I suspect, have taken equally as long as it would have taken while slotting, but being a none meshing component the drilling option was for me, the best solution. regards
Congratulations on 10,000 subscribers !
Hi thanks.
Thank you for posting such great content. Not only am I learning a lot but your helping to keep me sane during this lockdown 😂
Hi, my own sanity has hit the buffers a few times this past year…:-D
Nice! Thanks for sharing.
hi, you’re welcome. thanks
Good for another 70 years of service!
at least i won't get the job of repairing it.
nice job
Thank you! Cheers!
Great job, enjoyed the video. Congratulations on soon to be 10k subs, cheers!
Hi, thanks. Ive got a surprise project on at the moment and every time I try to get on with it, I get more work to do. At the end of my last video you will see the bearings I’m going to use on that project...
That was a great idea, great job sir and as far as dropping things, do it all the time 😂 like a oil plug in a nice boiling hot pan of motor oil🤤
Hi, I remember doing that once as well. :-D
Totally missed where you cut the grooves for the drive teeth. Confusing.
Hi. they were done durring the drilling ,.. on the Milling machine, then put in the lathje and gradually exposed. regards
👍
Hi, thanks for watching.
Very well done sir. 2nd video to watch this morning, and is that an Enco column mill?? I had a 1980,, and wished I hadn't sold, but the replacement Ru-Fu31 had power X and 3 stage DRO with VFD and will do til a knee mill takes it's place. Any way, the moped and use viewer's thx you for sharing,,(@@)! Best over the Holidays from Bears Rod Shop, Tx.
Hi, the mill here in blighty is called a Warco GH major.
Perfeito!!!
Obrigado..
Good job. But what a dreadful design to drive a tyre ! It must be very hard on it. Stainless steel is nice material to work with, but those stringy pieces of swarf are dangerous, hot and razor sharp.
No kidding after 50 years of lathe use I finally got bitten, first trip to casualty since I stopped wearing short trousers and all down to stringy stainless swarf.
@@chrisstephens6673 I've seen it in cnc lathes, stringy stainless steel swarf completely binding the tool, especially boring bars.
@Sheila Walker i normally have no problem and in fact like turning stainless, all except 304, hatefull stuff.
I might give you a run for your money on the speed front.😉
stainless steel is indeed a material to be marvelled at, yet hated. In the past I’ve machined tons of the stuff. For stainless i find that to make best progress is to stick to the extremes. i have used a new generation ceramic button tool at 0.1mm doc, 0.1mm feed at 900meters pm it is dangerous as hell but the finish is good. Or the other extreme is a special triangular positive rake insert at 2.5mm doc, 0.53mm feed at 38 meters pm. the only other requirement that is needed on both counts is an abundance of power and torque, but mostly maximum rigidity. Both methods remove large quantities of steel, the former gives off a blade of white hot string 2 meters long and a strategically placed swarf bin means no cleaning out at the end of a shift, the latter makes a horrendous noise and the machine needs several clean outs of mostly 2.5mm hot square chips. I’m not even going to mention finishing cuts.