Tweet
Recently, there has been a great deal of discussion about engine block stamp pad numbers/characters and part of the latest discussion had to do with the size of the characters. These small figures are difficult to measure accurately and it would be easy to miss the actual size by 1/32" or more. One of the contributing factors would be the depth of the characters. The deeper the character, the greater the dimension from top to bottom. I'll explain later.
There's an easy way to get a much more accurate dimension for each character. Here's an example. If you tried to measure the thickness of a piece of paper with a ruler, it would be impossible to do. If, however, you measured the thickness of 1000 pieces of paper, then divided the total by 1000, that would automatically divide any error by 1000 and you would come up with a nearly accurate dimension for each piece. We can do this with engine stamp numbers too. We'll come back to this in a minute but first an explanation of how the characters are spaced in their fixture.
Each individual character in an engine stamp tool is on a steel slug that fits into the holder. Each slug is exactly as wide as the character is tall. So, if we're using 1/4" tall characters, the slug in the holder would also be exactly 1/4" wide. So, the C/L of one character to the C/L of the next character in the holder would be exactly 1/4", right? Now, lets suppose we're using characters that were one inch tall. (easier math) The entire package of slugs would be seven inches from end to end. If we knew the exact width of each character, and we do, we would be able to calculate the entire length of the package of characters in a row. (not the same as the dim for the slugs)
We know that each of our character is exactly half as wide as it is tall so a one inch tall character would be 1/2" wide. If we add the total width of the five center characters to the dimension to the edge of the end characters, we will have an accurate total for the length of the numbers stamped into the block. (hopefully, the pic in the next post will clarify some of this)
This would be the same exact thing as our paper measurement above. Instead of trying to accurately measure just one character, we are measuring a group, and from that dimension, we can come up with a total height for each character. (see, I told you the paper was important)
Also, of importance, is the fact that most restamps that are not done with a proper stamp holder are almost always incorrect as far as length of the entire package. Once you determine the proper character size and calculate this total length, a tool can be made to quickly measure this package length. I'll post a scan of the ones I used at the Bloomington Event in the early 80's.
The first thing needed is the length of the number packages from a known original block. Or, it can be done backwards, using the accepted character sizes from the judging sheets or JG. Using the method I posted, you should then be able to calculate the correct dimensions for the characters. I know the numbers and sizes for calculations are correct as GM bought ALL of their stamp tools from the same source. Hope this makes sense to all. I feel a little like Bullwinkle trying to explain to Rocky why the earth revolves. I'm not good at explaining things properly. The scans should help. Please post your results.
Hanson
There's an easy way to get a much more accurate dimension for each character. Here's an example. If you tried to measure the thickness of a piece of paper with a ruler, it would be impossible to do. If, however, you measured the thickness of 1000 pieces of paper, then divided the total by 1000, that would automatically divide any error by 1000 and you would come up with a nearly accurate dimension for each piece. We can do this with engine stamp numbers too. We'll come back to this in a minute but first an explanation of how the characters are spaced in their fixture.
Each individual character in an engine stamp tool is on a steel slug that fits into the holder. Each slug is exactly as wide as the character is tall. So, if we're using 1/4" tall characters, the slug in the holder would also be exactly 1/4" wide. So, the C/L of one character to the C/L of the next character in the holder would be exactly 1/4", right? Now, lets suppose we're using characters that were one inch tall. (easier math) The entire package of slugs would be seven inches from end to end. If we knew the exact width of each character, and we do, we would be able to calculate the entire length of the package of characters in a row. (not the same as the dim for the slugs)
We know that each of our character is exactly half as wide as it is tall so a one inch tall character would be 1/2" wide. If we add the total width of the five center characters to the dimension to the edge of the end characters, we will have an accurate total for the length of the numbers stamped into the block. (hopefully, the pic in the next post will clarify some of this)
This would be the same exact thing as our paper measurement above. Instead of trying to accurately measure just one character, we are measuring a group, and from that dimension, we can come up with a total height for each character. (see, I told you the paper was important)
Also, of importance, is the fact that most restamps that are not done with a proper stamp holder are almost always incorrect as far as length of the entire package. Once you determine the proper character size and calculate this total length, a tool can be made to quickly measure this package length. I'll post a scan of the ones I used at the Bloomington Event in the early 80's.
The first thing needed is the length of the number packages from a known original block. Or, it can be done backwards, using the accepted character sizes from the judging sheets or JG. Using the method I posted, you should then be able to calculate the correct dimensions for the characters. I know the numbers and sizes for calculations are correct as GM bought ALL of their stamp tools from the same source. Hope this makes sense to all. I feel a little like Bullwinkle trying to explain to Rocky why the earth revolves. I'm not good at explaining things properly. The scans should help. Please post your results.
Hanson
Comment