hello and welcome from the Philippines that’s awesome thank you for watching. Thank you for the nice comment. And thank you for taking time to comment. It is much appreciated. Ray
I thought your explanation of squaring a block was great! It will help me next time I do it. One thing that would be really helpful is, as in your video, why did the end result come out .007" out? Dull cutter, vice not square, etc. Theoretically it should be perfect. Thanks for the great video!
So much easier to clamp on the last .100 and walk a endmill around the 4 sides, deck the top flip the part and deck to height. 2 operations and done instead of 6 operations.
If you’re squaring on a CNC machine that is absolutely the easiest way to do it To do it that way on a standard Bridgeport would take too long and might not be the safest option for a person who’s just starting his machine and career Thank you for taking the time to comment. It was much appreciated. Having other people’s point of view is extremely important.
Love the old heavy-duty mill and vice. That will get it done. I have never seen a square checking indicator gauge like yours and I have been machining for 40 years give are take? Cool intrument. Thanks.
You had me at "hello", until you used the dial indicator to check how much out of square the surfaces were. I'm not a machinist by trade, more self taught, but it appeared you took the squaring device and rocked it against the surfaces. Maybe it was hard to tell from my angle, but I didn't see how you were using it. When you took the device with the indicator, I thought you were going to place the indicator ball on the face and slide the device along the granite to check how much the indicator dial would vary. Would this be an incorrect way of utilizing your squaring device?
Hello m Garcia Thank you for taking the time to comment The device that I used to check Square is called a Squareness comparator That particular one I have been working on for more than a year making prototypes I’m almost to the point where I’m Finished just one or two more versions My goal is to be able to have a squareness comparator that is extremely inexpensive and easy enough for everyone to make There will be videos of this coming up within the next few months Ideally it will consist of about 6 to 10 3-D printed parts costing approximately $10 to print and two pieces of drill rod and a few set screws Files will be posted and free for everyone to use This procedure can also be achieved by using a surface gauge More videos are coming so please continue to watch and comment Thank you Ray
Ernie Henshaw The video makes it look like I actually machine this part but this was a students project it was probably a small chip Underside five when he machine side six
Hi Tony The way the video shot it looks like I’m the one who’s machining the block But it’s actually one of my students I should’ve gone back and show how to correct the mistake that was made Sounds like a good sequel Ray
@@shopandmath actually good point no I didn't I am I went to a different machine today and I got a way better result I think that machines out of alignment because there's a certain student there that just likes to beat the heck out of it
That dang Princess Auto hammer threw the whole project off lol
Great video!
I had forgotten about that I was going to delete out that small blooper
Thank you for taking the time to comment it’s much appreciated
Ray
Nice explanation Thank you for sharing,, watching from Philippines
hello and welcome from the Philippines that’s awesome thank you for watching. Thank you for the nice comment. And thank you for taking time to comment. It is much appreciated.
Ray
I thought your explanation of squaring a block was great! It will help me next time I do it. One thing that would be really helpful is, as in your video, why did the end result come out .007" out? Dull cutter, vice not square, etc. Theoretically it should be perfect. Thanks for the great video!
You the best bro . Thank you
So much easier to clamp on the last .100 and walk a endmill around the 4 sides, deck the top flip the part and deck to height. 2 operations and done instead of 6 operations.
If you’re squaring on a CNC machine that is absolutely the easiest way to do it
To do it that way on a standard Bridgeport would take too long and might not be the safest option for a person who’s just starting his machine and career
Thank you for taking the time to comment. It was much appreciated. Having other people’s point of view is extremely important.
Good explanation man
Thank you for the nice comment and thank you for taking the time to comment much appreciated
Ray
@@raysfixgold 😂
Love the old heavy-duty mill and vice. That will get it done. I have never seen a square checking indicator gauge like yours and I have been machining for 40 years give are take? Cool intrument. Thanks.
there is a video cumming for the SQ Gauge soon
Where did you get the squareness comparator? Great content.
I made it
its 3d printed
will have a video coming soon
@@shopandmath Awesome thank you!
sometimes i will use an alen or hex key instead of a shaft
You had me at "hello", until you used the dial indicator to check how much out of square the surfaces were. I'm not a machinist by trade, more self taught, but it appeared you took the squaring device and rocked it against the surfaces. Maybe it was hard to tell from my angle, but I didn't see how you were using it. When you took the device with the indicator, I thought you were going to place the indicator ball on the face and slide the device along the granite to check how much the indicator dial would vary. Would this be an incorrect way of utilizing your squaring device?
Hello m Garcia
Thank you for taking the time to comment
The device that I used to check Square is called a Squareness comparator
That particular one I have been working on for more than a year making prototypes I’m almost to the point where I’m Finished just one or two more versions
My goal is to be able to have a squareness comparator that is extremely inexpensive and easy enough for everyone to make
There will be videos of this coming up within the next few months
Ideally it will consist of about 6 to 10 3-D printed parts costing approximately $10 to print and two pieces of drill rod and a few set screws
Files will be posted and free for everyone to use
This procedure can also be achieved by using a surface gauge
More videos are coming so please continue to watch and comment
Thank you
Ray
What went wrong?.
the hammer head came off
@@shopandmath I meant with the part spec's
Ernie Henshaw
The video makes it look like I actually machine this part but this was a students project it was probably a small chip Underside five when he machine side six
That piece did not look cold rolled.
Why didn’t you show how to correct or make it square?
Hi Tony
The way the video shot it looks like I’m the one who’s machining the block
But it’s actually one of my students
I should’ve gone back and show how to correct the mistake that was made
Sounds like a good sequel
Ray
im working on my first nims project , i trammed the head and the vise but cant square my peice for the life of me
are you locking the table?
@@shopandmath actually good point no I didn't I am I went to a different machine today and I got a way better result I think that machines out of alignment because there's a certain student there that just likes to beat the heck out of it