bouch
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- Dec 16, 2013
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I took a slight diversion from the project Im working on to build a helpful little tool for my shop. Years ago, I made a tailstock mounted die holder, which held both 13/16 and 1 round dies, and had a knurled body as well as handles. The tool is about 1 ¼ diameter and 3 ¼ long, and slides on a shaft made from an old taper-shank drill, mounted in the tailstock. I bought the plans for a couple bucks at Cabin Fever probably 15 years ago, and its proven to be a very useful little tool
Lately, when Ive gone to the hardware store, the only dies I could get off-the-shelf were hex dies. Ive been using a kludge to get these hex dies threaded on straight, but after making about 30 studs for my current project, I decided I just couldnt kludge things any more. (I probably should have bit the bullet BEFORE making those studs, but )
There are 2 different sized hex dies that Ive found to be commonly available, 5/8 across the flats, and 1 across the flats. Like the round dies, this new die holder would be able to hold both.
First thing was to take the hex die holders which I had and hack them up into inserts I could then put into a body. I cut off the handles, mounted it in the lathe, and turned it round. Easier to see than describe. Heres the before and after for 5/8 hex dies. (I bought a small metric and an imperial kit, so I had two handles)
And heres both the inserts. Theyre both an unknown-grade cast aluminum.
I used the one I made years ago as a model, and made some quick drawings. Now that I knew the diameters of the inserts, I knew how big to bore the holes they would be inserted into. I had a 6 length of 1 5/8 steel, and I found that I could use that and still have enough meat around the 1 hex die insert to hold it securely, so that's what I chose as the major dimension. But I thought that that diameter for the full tool would be a bit excessive, so I made the knurled body the same diameter as the one I already had.
I was thinking that I could press these inserts in, and based on the diameter, I wanted about .001 interference between the two. Well, I failed with that, made both ends too loose (I could press them in by hand). So I superglued both inserts in, and then drilled and tapped a 6-32 screw through the body and the insert to guarantee it wouldnt spin, even under heavy loads.
At this point, youre probably wondering what these things actually look like
Heres the 5/8 hex end. Note the set screw used to hold the die in place, so it wont fall out when handling the tool.
Heres the 1 hex end.
If you look, you can see that a) I didnt bother to remove the paint from the inside of the donor handle and b) you can see the filed-off end of the aforementioned 6-32 screw.
And heres a view of the side of the body, showing the knurls and the holes for the handles.
Heres a family photo showing both die holders, the two handles, and the taper-shank shaft.
In this photo, if you look closely, youll also notice that I didnt bother to fill in the threaded hole in the donor handle where there was a thumbscrew to hold the die in place. Kinda lazy, but since it doesnt affect the function, It doesnt really bother me. If it starts to, I may drill and tap and then thread in another screw to fill the hole.
And finally, the tool in the tailstock.
Quick little project, probably took about 4-5 hours of work, and it will be very useful. I also have a small 7x12 hobby lathe, so I need to make a couple of smaller handles, as the ones I have now are too long and they strike the lathe bed. (but thats also why the body is knurled, so you can grip it with the handles off) But thatll be quick work.
If you want additional info, drop me a note.
Lately, when Ive gone to the hardware store, the only dies I could get off-the-shelf were hex dies. Ive been using a kludge to get these hex dies threaded on straight, but after making about 30 studs for my current project, I decided I just couldnt kludge things any more. (I probably should have bit the bullet BEFORE making those studs, but )
There are 2 different sized hex dies that Ive found to be commonly available, 5/8 across the flats, and 1 across the flats. Like the round dies, this new die holder would be able to hold both.
First thing was to take the hex die holders which I had and hack them up into inserts I could then put into a body. I cut off the handles, mounted it in the lathe, and turned it round. Easier to see than describe. Heres the before and after for 5/8 hex dies. (I bought a small metric and an imperial kit, so I had two handles)
And heres both the inserts. Theyre both an unknown-grade cast aluminum.
I used the one I made years ago as a model, and made some quick drawings. Now that I knew the diameters of the inserts, I knew how big to bore the holes they would be inserted into. I had a 6 length of 1 5/8 steel, and I found that I could use that and still have enough meat around the 1 hex die insert to hold it securely, so that's what I chose as the major dimension. But I thought that that diameter for the full tool would be a bit excessive, so I made the knurled body the same diameter as the one I already had.
I was thinking that I could press these inserts in, and based on the diameter, I wanted about .001 interference between the two. Well, I failed with that, made both ends too loose (I could press them in by hand). So I superglued both inserts in, and then drilled and tapped a 6-32 screw through the body and the insert to guarantee it wouldnt spin, even under heavy loads.
At this point, youre probably wondering what these things actually look like
Heres the 5/8 hex end. Note the set screw used to hold the die in place, so it wont fall out when handling the tool.
Heres the 1 hex end.
If you look, you can see that a) I didnt bother to remove the paint from the inside of the donor handle and b) you can see the filed-off end of the aforementioned 6-32 screw.
And heres a view of the side of the body, showing the knurls and the holes for the handles.
Heres a family photo showing both die holders, the two handles, and the taper-shank shaft.
In this photo, if you look closely, youll also notice that I didnt bother to fill in the threaded hole in the donor handle where there was a thumbscrew to hold the die in place. Kinda lazy, but since it doesnt affect the function, It doesnt really bother me. If it starts to, I may drill and tap and then thread in another screw to fill the hole.
And finally, the tool in the tailstock.
Quick little project, probably took about 4-5 hours of work, and it will be very useful. I also have a small 7x12 hobby lathe, so I need to make a couple of smaller handles, as the ones I have now are too long and they strike the lathe bed. (but thats also why the body is knurled, so you can grip it with the handles off) But thatll be quick work.
If you want additional info, drop me a note.
