wormydog1724
Member
Stay with me here, this is going to take some explaining.
So I recently stumbled across a post on a far away forum about finding an optic's mechanical zero, where the crosshairs are in the middle of the optic, using a Mirror. Why would I want to find the mechanical zero before mounting and zeroing the rifle? I don't know, just thought it was cool.
Basically it goes like this:
Set mirror on flat surface
Stand optic on objective and look down into the optic
You should see two crosshairs, one is the true crosshair and one is the mechanical zero of the optic
Make elevation and windage adjustments until both crosshairs are identical
Scope is now at mechanical zero
I hope that makes sense, it did for me but I really understood it when I tried it.
The other method is to bottom out the adjustment, count the clicks to the other bottomed out position, then divide by 2. That works and has been used forever, takes awhile and requires me to able to count, which I have trouble with anything over 10. So the mirror method was quicker and easier for me.
I just got a Trijicon 4-16x50 Accupower used and I tried this method to set it back to zero. It was easy and quick.
Then it got me to wondering about using the mirror to perform a tracking/box test. This reticle is a MilSquare reticle.
So I set up the optic on the mirror as before, at it's mechanical zero
Then I did one full turn on each adjustment knob (50 clicks, .1 mil per click) and looked at the crosshairs, the two crosshairs were right on the 5 mils hash. PERFECT
Then I did two full turns back the other way, again they were right on the 5 mil hash marks on the opposite direction.
Then I did a full turn back to zero and sure enough, the crosshairs were back inline and thus back at zero.
I did this several times, all directions. I did notice that if I did two full turns, 100 clicks, 10 mils, that it was just slightly off. My long range shooter friend said even the best scopes can be as much as 3% off which isn't noticeable until large adjustments are made. I have no idea if mine was 3% or more or less, I could just tell it wasn't exactly on the 10 mil square.
Does all of that make sense?
Basically use a mirror to find mechanical zero, do a box test.
Obviously the box test would only work with a mildot or similar type reticle. A plain duplex reticle wouldn't work because there's no reference points on the reticle.
I'm not sure how useful or practical this is because it's just referencing off the optic itself, but I will say I have a disgustingly cheap airsoft type scope that is mildot and it didn't track for crap. It's just on my .22LR upper.
Thoughts? Opinions? Waste of time?
So I recently stumbled across a post on a far away forum about finding an optic's mechanical zero, where the crosshairs are in the middle of the optic, using a Mirror. Why would I want to find the mechanical zero before mounting and zeroing the rifle? I don't know, just thought it was cool.
Basically it goes like this:
Set mirror on flat surface
Stand optic on objective and look down into the optic
You should see two crosshairs, one is the true crosshair and one is the mechanical zero of the optic
Make elevation and windage adjustments until both crosshairs are identical
Scope is now at mechanical zero
I hope that makes sense, it did for me but I really understood it when I tried it.
The other method is to bottom out the adjustment, count the clicks to the other bottomed out position, then divide by 2. That works and has been used forever, takes awhile and requires me to able to count, which I have trouble with anything over 10. So the mirror method was quicker and easier for me.
I just got a Trijicon 4-16x50 Accupower used and I tried this method to set it back to zero. It was easy and quick.
Then it got me to wondering about using the mirror to perform a tracking/box test. This reticle is a MilSquare reticle.
So I set up the optic on the mirror as before, at it's mechanical zero
Then I did one full turn on each adjustment knob (50 clicks, .1 mil per click) and looked at the crosshairs, the two crosshairs were right on the 5 mils hash. PERFECT
Then I did two full turns back the other way, again they were right on the 5 mil hash marks on the opposite direction.
Then I did a full turn back to zero and sure enough, the crosshairs were back inline and thus back at zero.
I did this several times, all directions. I did notice that if I did two full turns, 100 clicks, 10 mils, that it was just slightly off. My long range shooter friend said even the best scopes can be as much as 3% off which isn't noticeable until large adjustments are made. I have no idea if mine was 3% or more or less, I could just tell it wasn't exactly on the 10 mil square.
Does all of that make sense?
Basically use a mirror to find mechanical zero, do a box test.
Obviously the box test would only work with a mildot or similar type reticle. A plain duplex reticle wouldn't work because there's no reference points on the reticle.
I'm not sure how useful or practical this is because it's just referencing off the optic itself, but I will say I have a disgustingly cheap airsoft type scope that is mildot and it didn't track for crap. It's just on my .22LR upper.
Thoughts? Opinions? Waste of time?
