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Orion SKYQUEST XX14I User Manual

Page 22

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completely unthread from the ends of the spider vanes. Also,
when making this adjustment, be careful not to stress the spi-
der vanes or they could bend.

adjusting the Secondary Mirror’s rotational

Position
The secondary mirror should face the focuser squarely. If the
mirror appears to be rotated away from the focuser, the mir-
ror’s rotational position will need to be adjusted. Again, this
adjustment will rarely, if ever, need to be done.
Grip the sides of the secondary mirror holder with your fingers.
Then, using a Phillips screwdriver, loosen the center screw in
the secondary mirror holder about a quarter of a turn only
(counterclockwise). That should be enough to free up the sec-
ondary mirror to rotate slightly in either direction. Look into the
collimation cap and rotate the mirror slightly in each direction
to get an idea of how it affects the view of the secondary mir-
ror. Now rotate the mirror as needed so that it precisely faces
the focuser. Hold the mirror holder stationary in that position
while turning the center screw clockwise until it is just tight
(do not over-tighten). Sometimes the mirror may rotate slightly
when tightening the screw, so keep at it until the mirror faces
the focuser squarely and is secured in place.

adjusting the Secondary Mirror’s Tilt
Finally, the tilt of the secondary mirror may occasionally
require adjustment. If the entire primary mirror reflection is not
visible in the secondary mirror when using the collimation cap,
as in

Figure 35c, you will need to adjust the tilt of the second-

ary mirror. Using a 2mm hex key, first loosen one of the three
alignment set screws by, say, one full turn, and then tighten
the other two to take up the slack. Do not loosen the center
screw during this process. The goal is to center the primary
mirror reflection in the secondary mirror, as in

Figure 35d.

When it is centered, you’re done adjusting the secondary mir-
ror. Don’t worry that the reflection of the secondary mirror (the
dark circle with the four spider vanes adjoining it) is off-center,
since that adjustment is made when aligning the primary mir-
ror in the next step.

aligning the Primary Mirror
The final collimation adjustment is made to the primary mir-
ror. It will need adjustment if, as in

Figure 35d, the secondary

mirror is centered under the focuser and the reflection of the
primary mirror is centered in the secondary mirror, but the
reflection of the secondary mirror (dark circle containing the
light reflective surface and center black “dot” of the collimation
cap) is off-center.
The tilt of the primary mirror is adjusted with three spring-
loaded collimation knobs on the back end of the optical tube
(bottom of the primary mirror cell); these are the wide knobs
(Figure 40). The three smaller knobs lock the mirror’s position
in place; these small knobs must be loosened before any col-
limation adjustments can be made to the primary mirror.
To start, turn the small knobs that lock the primary mirror in
place counterclockwise a few turns each.

Now, turn one of the wide collimation knobs a half turn or so
in either direction and see if the secondary mirror reflection
moves closer to the center of the primary. That is, does the
“dot” of the collimation cap appear to move closer to the ring
on the center of the primary mirror? If it does, great, keep
going until you get it as close as you can. If it doesn’t, try turn-
ing the collimation knob in the opposite direction. If turning
the one collimation knob does not seem to bring the dot clos-
er to the ring, try using one of the other collimation knobs. It
will take some trial-and-error using all three collimation knobs
to properly align the primary mirror. Over time you will get the
feel for which collimation knobs to turn to move the image in
a given direction.
When you have the dot centered as much as possible in the
ring, your primary mirror is collimated. Now lightly tighten the
three thin locking knobs to secure the primary mirror in place.
The view through the collimation cap should now resemble
Figure 35e. A simple star test will indicate how well the tele-
scope optics are collimated.

Star-Testing the Telescope
When it is dark, point the telescope at a bright star and accu-
rately center it in the eyepiece’s field of view. Slowly de-focus
the image with the focusing knob. If the telescope is correct-
ly collimated, the expanding disk should be a perfect circle
(Figure 41). If the image is unsymmetrical, the scope is out
of collimation. The dark shadow cast by the secondary mirror
should appear in the very center of the out-of-focus circle, like
the hole in a donut. If the “hole” appears off-center, the tele-
scope is out of collimation.
If you try the star test and the bright star you have selected is
not accurately centered in the eyepiece, the optics will always
appear out of collimation, even though they may be perfectly
aligned. It is critical to keep the star centered, so over time you
will need to make slight corrections to the telescope’s position
in order to account for the sky’s apparent motion. Polaris (the

Figure 40.

The tilt of the primary mirror is adjusted by turning

one or more of the three large collimation knobs.

Large collimation knob (x3)

Mirror
lock knob
(x3)