機械計數(shù)計數(shù)器2.0

***This is my second attempt on creating a mechanical tally counter. Maybe not the most ergonomic counter in the world, but it's quite satisfying to use. It also solved a lot of issues v1.0 suffered from.
This veion should be easier to print because it only uses non-printable parts (almost) everyone has available at home. To find the 1.0 veion, follow this link:
READ BEFORE PRINTING!
Fit of all, this is a non-commercial print, this mea you are not allowed to sell files or prints of this model. Not that I neccearily would have anything agait it, but it would be nice not to find this for sale on etsy...
ALSO IMPORTANT!
This project will have some (accessable) non-printable parts, This is because I've noticed PLA springs work fine because of its stiffness, but they break quickly due to fatigue.
PRINT SETTINGS
Print all components in the default orientation to minimize support and maximize part strength.
All components are designed to be printed in PLA. It isn't required, but if you print eg. the pi in ABS or PETG, the counter might not work as intended due to the difference in material properties.
Support materals are only required on:
Front_Casing
Back_Casing
Second_Digit_Dial
Ratchet_Lever

"Fit_Digit_Dial" and "Second_Digit_Dial" are desined to be layered with two different filament colo, it isn't required but it makes the digits "pop" a lot more. The same goes for the "Front_Casing", see the pictures for an example of this.
I wouldn't use rafts due to the fact that it can mess up the tolerances, which will/can make the mechanism "sticky".
Brims can be used to help the gear teeth and casing corne from warping. A warped part in this case could have the same "sticky" effect. The same goes for parts with massive "elephant's foot". I use Brims on everything except the two pi and ratchet lever, just make sure to remove the brim thoroughly.
BOM
PRINTED PARTS
1x Lock_Ring.stl1x Crank_Lock_Pin1x Ratchet_Lever1x Back_Casing.stl1x Mounting_Plate1x Second_Digit_Gear1x Second_Digit_Dial1x Dial_Gear1x Ratchet_Wheel1x Fit_Digit_Dial1x Crank1x(I'd print spares on this one) Ratchet_Pin_11x Front_Casing2x (optional) Screw_Cap
NON-PRINTED PARTS
2x The springs of two pe (the ones in the tip of the pen). Perferably from two identical pe. Check the assembly chapter for a clarity.2x (highly recommended) m3 screws (the length that should work are 12 - 20mm long)2x (highly recommended) m3 nuts(optional) Super glue.
ASSEMBLY
Fit of all, It's important that you make a test assembly of the entire project before gluing anything in place. The dials are easy to misalign if you're not careful enough. Assembling it once before gluing will help you to correct any mistakes.
All pictures on the assembly are shown in the Post-printing section.
Mounting plate assembly
Make sure the fit digit isn't placed at an angle. The base of the number should be parallell to the bottom edge, it doesn't matter what number the digit is. (picture 1) (tip: you can use the front casing to make sure the fit digit is aligned correctly.)
The two dots on the "Second_Digit_Dial" and "Second_Digit_Gear" should align. The second digit dial will be able to move freely, but you should be able to align the digits as shown in the picture. (picture 1).
The "Ratchet_Wheel" are mounted from behind (picture 2).
Note the orientation of the "Dial_Gear". 4 of the 8 teeth are offset somewhat and the gap created should face the "Mounting_Plate" (picture 2).
Ratchet assembly
Assemble all pieces as shown in the picture. (picture 3)
Note the orientation of the "Ratchet_Lever".
The springs are "Hooked" into place at both ends.

If your ratchet lever gets stuck on it's way back to neutral, you can adjust the springs by hooking them further in on the spring. Just remember that the neutral position should be in between the two end-stops. You could also use stronger springs from other pe, if your springs still doesn't work as intended. (picture 4)
Final assembly
Press m3-nuts in the slots as shown in the picture, the flat side of the nuts should face outward. (picture 5)
Hook one of the sides of the casing as shown in the picture (Note that the picture only shows the two casing halves), and close. (picture 6)
Finish the project by screwing the casing together with two m3 screws, 12-18mm long. (picture 7)
If you don't want to use screws, you could skip this step and cover up the holes with the "Screw_Cover". I haven't tried yet, but they should have a nice press fit (let me know otherwise).
Glue
It isn't really neccecary to glue anything, I like to keep it un- glued since it's easier to change broken components. The "Ratchet_Pin" for example will likely break because of the brittle nature of PLA and the repeated fatigue, that's why I made the casing easy to open and close (And printed more ratchet pi :P).
The dials on the mounting plate assembly could need some glue to hold together nicely. again, it doesn't actually need any glue, but if you like to live dangerously, go for it!
FEEDBACK!
I do appriciate any feedback you may have. I've only printed this on my printer with the springs that I have available, so if you have printed this project, feel free to post a "make" and let me know how it turned out. I currently can't print the "pi" in anything but PLA, so if anyone could print them in a less brittle material, I'd really love to know if it works and if the durability increased!
The same goes for the assembly itructio, if there is something that you found unclear, I'd really like to know what, so I can make it clearer.