72 AUSTRALIAN SKY & TELESCOPE July 2019
ASTRONOMER’S WORKBENCH by Jerry OltionA 3D-printed binoscope
No workshop? No problem.
WHEN ROBERT ASUMENDI looked
through a binocular telescope, he
realisedseveralthingsat once:- Binocular vision is vastly more
comfortable and pleasurable than
monovision. (So much so that Hans
Lippershey had to build a binocular
before the patent office would even
consider his patent application for
thetelescopein1608.) - Binocular vision helps to compensate
forRobert’ssevereastigmatism. - Despite wanting a binocular
scope, he also wanted grab-and-go
portability, wide fields and enough
aperture to provide satisfying views
of deep sky objects.
Robert searched for a scope that would
satisfy all his requirements but came
up empty. “There’s no commercial
ALL IMAGES COURTESY OF THE AUTHOR UNLESS OTHERWISE NOTEDscope that delivers all those things,” he
reports. “So I made it.”
Robert faced two simple challenges:
He had never built a telescope before,
and he didn’t have any workshop space.
He did, however, have a couple decades
of experience with computers. “So
my computer became my workshop,”
he says. “I designed everything in a
parametric computer-aided-design
(CAD) program.”
And because we’re now living in
the 21st century, 3D-printing the
parts became a natural outcome of the
design process. That enabled Robert
to test aspects of his design without
building the entire thing at once. He
could examine a real physical object,
modify its parameters in the computer,
and print another to see how it worked.
He didn’t have a 3D printer at first, so
he jobbed out his designs to an online
printing service. That worked nicely,
but he quickly realised he wanted a 3D
printerofhisown.Besideseliminating
shippingcosts,it madeunit-testingof
smallcomponentsmorepracticaland
eanbledhimtooptimisesettingsfor
eachpart,whichmadeforfantastic,
repeatableresults.
Hestartedwiththefocusers.He
wantedtouse2-incheyepieces,buthe
couldn’tfindanycommercialfocusers
thatwouldputthedrawtubesclose
enoughtogetherformostpeople’s
interpupillarydistance(thespacing
betweeneyes).Hesettledona modified
Crayforddesignthatenablesthe
drawtubestonearlycontacteachother.
Andoncehe’dstarteddesigning,he
justkeptgoing.Couldhe3D-printa
filterwheel?Couldhe3D-printthe
secondarymounts?Couldhedesign
channelsinthosesecondarymountstorunwiresfordewsensorsandheaters?
Hecould,anddid.It wasan
iterativeprocess,eachstepbuilding
ontheprevious,bothintellectually
andphysically.Robertsays,“The
resultingpartswouldhavebeen
extremelydifficult,costlyorheavy
tomachine.Theuniquehoneycomb
structureof3Dprintsletsyoudesign
lightweight,sturdycomponentsthat
justwouldn’tworkinothermaterials.
And,ofcourse,witha binoscopeyou
needtwoofeverything,andseveralof
thecomponentsaremirrored.With
3Dprinting,youjustusethemirrortRobert Asumendi’s ‘Drifter’ binocular scope
is a marvel of design and execution.pTop: The eyepiece adapter fits solidly into
the focuser thanks to neodymium magnets
embedded in each part. Bottom: The 3D
printer generates an eyepiece adapter. This
piece took about 20 minutes to print and cost
about $2.30 in materials.