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    Telescope Eyepiece, 45mm Reverse Kellner, 2" diameter

    This project was inspired by Jerry Oltion's article in the September 2020 issue of Sky & Telescope, p. 74.

    This is an eyepiece for an astronomical telescope made from a lens set available from Surplus Shed (surplusshed.com): L3713 Reverse Kellner, 45mm fl

    This set consists of two lenses (eye, field).

    This is a remix of the 45mm 1.25" eyepiece in this set of four: https://www.thingiverse.com/thing:4597001

    This eyepiece consists of the following parts:

    1) 2" barrel with a 1.5mm pitch internal thread,
    2) Retainer with a matching external thread,
    3) Two lens spacers, one each for the eye lens and field lens.
    4) Flexible eye guard.

    I made this from ABS except for the flexible eye guard. ABS is more durable, lighter, and has a less glossy finish than PLA. The eye guard is printed from black TPU

    The vertical resolution of the print is important to get acceptable quality on the threads. I printed mine at 0.12mm vertical resolution and a speed of 20mm/s. You can print all the parts without supports, but some files need to be flipped 180º when slicing.

    I have compared this eyepieces with commercial eyepieces from Meade. The 3D printed eyepiece compares very favorably. There's a little distortion at the edges, and some chromatic aberration. A view of the moon shows color fringes, whereas the Meade eyepieces are color-free. Contrast is as good or better than the Meade lenses, and I notice no internal reflections.

    Print Settings
    Printer brand:
    Anet

    Printer:
    A8

    Rafts:
    No
    Supports:
    No
    Resolution:
    0.12mm

    Infill:
    20%

    Filament brand:
    Inland

    Filament color:
    Black

    Filament material:
    ABS & TPU

    Notes:
    Make all parts from ABS except for the flexible eye guards, which are TPU. Take care in assembling the lenses; they must be properly oriented and in the correct order. Surplus Shed provides an info sheet with the lenses, but doesn't give a lot of specifics about possible designs. They specify that the lenses "should be as close as possible without actually touching." My design has a nominal spacing of 0.48mm, which seems to work well. The clearance between the lenses and the spacers is 0.3mm. This seems to work well to keep the lenses in place but allows them to slip easily into the spacers. The vertical resolution of the print is important to get acceptable quality on the threads. I printed mine at 0.12mm vertical resolution and a speed of 20mm/s. You can print all the parts without supports, but both housings (internal & external threads) need to be flipped 180º when slicing.