BaronJ
Grumpy Old Git.
Hi Guys,
As I mentioned I have done a drawing for this tool. There is nothing particular about the materials or the dimensions, however a certain amount of precision is required. In particular the squareness of the bar in relation to the spindle. Other than this I used material that I had on hand.
A length of 1 inch square black bar, which I think came from a scraped iron gate. It just happened to be 205mm (8.125") long and a short length of 15mm BMS. At least that is what I think it is. It actually was salvaged from an old printer. In any case just use what ever is convenient.
The black bar was put on parallels in the mill vice and skimmed to give me a flat reference face then turned over 180 degrees and skimmed on the other side. Using an edge finder I located the end and center line of the bar. Then found and dimpled the three holes shown with a centre drill. I then moved to the drill press and drilled the two outermost holes and reamed to 8mm.
The half inch hole in the middle was done on the lathe.
First I fitted the faceplate and checked for being true. For this I used a .0005 dial gauge on a magnetic base stood on the lathe bed. Surprisingly since this had spent the last 30 years or so in a box in a cupboard and I had to clean the horrible grease that was put on it to preserve it, off. The needle barely budged.
Anyway I put a centre into the tail stock and located the middle dimple to hold the bar against the face plate then clamped it lightly. Using a wobbler and my dial gauge made sure that I had it properly centered. Tightened the clamps and re-checked. It was at this point I realised I hadn't checked to see if the work would rotate without hitting anything. Phew ! It only just clears on my Myford. I must make a note that the faceplate is 7 inches in diameter and 8.5 inches will just touch the lathe bed.
At this point it is important to note which side of the bar touches the faceplate. This is the reference face.
The centre hole is drilled using a centre drill first then 5mm, 6mm so on up to 12mm. At this point I resorted to the boring bar and a half inch plug gauge.
Since I had already turned the 0.5" spigot on the spindle I made the hole a good push fit. Since I am going to use Locktight and cross pin the spigot it doesn't need to be an interference fit.
Back to the milling machine and a 4" x .045" slitting saw to cut the slots through the ends of the bar. The slot is 24mm deep. I then using the edge finder and a short length of 8mm silver steel rod, centered and cross drilled 3.2mm holes, tapped 4mm and counter bored for M4 x .75" cap screws.
Whilst I was turning the spindle I also drilled and reamed a 6mm hole about 15mm deep in the end. This is to hold a small pointed piece. But more about this later.
PDF Drawing attached.
View attachment Mill Tramming Tool.01.pdf
As I mentioned I have done a drawing for this tool. There is nothing particular about the materials or the dimensions, however a certain amount of precision is required. In particular the squareness of the bar in relation to the spindle. Other than this I used material that I had on hand.
A length of 1 inch square black bar, which I think came from a scraped iron gate. It just happened to be 205mm (8.125") long and a short length of 15mm BMS. At least that is what I think it is. It actually was salvaged from an old printer. In any case just use what ever is convenient.
The black bar was put on parallels in the mill vice and skimmed to give me a flat reference face then turned over 180 degrees and skimmed on the other side. Using an edge finder I located the end and center line of the bar. Then found and dimpled the three holes shown with a centre drill. I then moved to the drill press and drilled the two outermost holes and reamed to 8mm.
The half inch hole in the middle was done on the lathe.
First I fitted the faceplate and checked for being true. For this I used a .0005 dial gauge on a magnetic base stood on the lathe bed. Surprisingly since this had spent the last 30 years or so in a box in a cupboard and I had to clean the horrible grease that was put on it to preserve it, off. The needle barely budged.
Anyway I put a centre into the tail stock and located the middle dimple to hold the bar against the face plate then clamped it lightly. Using a wobbler and my dial gauge made sure that I had it properly centered. Tightened the clamps and re-checked. It was at this point I realised I hadn't checked to see if the work would rotate without hitting anything. Phew ! It only just clears on my Myford. I must make a note that the faceplate is 7 inches in diameter and 8.5 inches will just touch the lathe bed.
At this point it is important to note which side of the bar touches the faceplate. This is the reference face.
The centre hole is drilled using a centre drill first then 5mm, 6mm so on up to 12mm. At this point I resorted to the boring bar and a half inch plug gauge.
Since I had already turned the 0.5" spigot on the spindle I made the hole a good push fit. Since I am going to use Locktight and cross pin the spigot it doesn't need to be an interference fit.
Back to the milling machine and a 4" x .045" slitting saw to cut the slots through the ends of the bar. The slot is 24mm deep. I then using the edge finder and a short length of 8mm silver steel rod, centered and cross drilled 3.2mm holes, tapped 4mm and counter bored for M4 x .75" cap screws.
Whilst I was turning the spindle I also drilled and reamed a 6mm hole about 15mm deep in the end. This is to hold a small pointed piece. But more about this later.
PDF Drawing attached.
View attachment Mill Tramming Tool.01.pdf
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