Orion 52071 User Manual

instruction Manual  
®
orion BinoViewer  
#52071  
binoviewer so the center of each eyepiece glass is directly in  
front of each of your pupils.This is done by grasping both sides  
of the binoviewer and bending them together or apart. When  
the image from each eyepiece becomes a single merged  
image, the interpupillary distance is set for your eyes.You may  
also rotate the entire unit in the focuser so your neck is at a  
comfortable angle.  
Focusing  
Now you are ready to focus. First focus with your telescope  
focuser. If the image looks a little soft, you can adjust the focus  
of each eye individually with the helical focusers at the base of  
each eyepiece holder. Cover your right eye and focus the left  
eyepiece holder by rotating it until the image appears clearest.  
Then cover your left eye and do the same for the right eyepiece  
holder. The binoviewer is now focused.  
If you rack the focuser all the way inward, and still can’t achieve  
focus, the included 2X barlow lens threaded onto the front of  
the binoviewer's barrel will usually solve this problem. This will  
likely occur in Newtonian reflectors and some refractors, but  
rarely in Cassegrain telescope designs.  
Congratulations on your purchase of a quality Orion  
BinoViewer. The binoviewer provides superior contrast and  
detail for planetary, lunar, and even solar vistas. If you are try-  
ing to tease out extra features on Saturn or the craters on the  
Moon, the binoviewer will deliver the view in 3D-like majesty  
unavailable with monocular vision. Planets will appear less like  
flat discs, and more like floating spheres. The lunar landscape  
will look like it is flying underneath the window of your space-  
craft. All this in greater viewing comfort, since you won’t have  
to strain to close one eye.  
image orientation  
As the light travels through the binoviewer, the image will be  
rotated 180°. If you observe a mountain scene through the  
binoviewer, the sky will be on the bottom of the image, and  
the mountains will float on top. However, this image rotation is  
hardly noticeable when viewing the night sky.  
The binoviewer will work on any telescope with approximately  
4" of inward focus travel. If your telescope has less focus travel,  
you can use the included 2x barlow lens with the binoviewer;  
this combination only requires approximately 1.5” inward focus  
travel.  
use of the 2x Barlow lens  
As an extra bonus, the Orion binoviewer comes standard with  
a high-quality 2x barlow lens.This lens threads onto the front of  
the binoviewer’s chrome barrel, and doubles the magnification  
of any eyepieces used in the binoviewer. As noted previously, it  
also reduces the amount of inward focus travel required for the  
binoviewer to reach focus in a telescope.  
How to use the BinoViewer  
First, take the binoviewer out of its case and remove the cover  
caps. The eyepiece holder uses a single thumbscrew and a  
compression ring to ensure the eyepieces are centered in the  
eyepiece holder.This is important to achieve a sharper, merged  
image, especially at high magnifications. The eyepieces must  
be identical to get a clear image. After inserting the eyepieces,  
secure the thumbscrew and bring the binoviewer to the focuser  
of your telescope.  
Keep in mind, however, that when the barlow lens is employed,  
the field of view and image brightness will be reduced. This is  
fine for viewing objects such as planets, as they are small yet  
quite bright. On the other hand, some deep sky objects, such  
as nebulae, can be dim and wide, so using the barlow lens  
might not yield the best view.  
using Filters  
connection to the telescope  
Your binoviewer’s chrome barrel is threaded for Orion 1.25"  
filters. Simply thread the filter onto the barrel and re-focus.  
The binoviewer’s excellent lunar and planetary views can be  
further enhanced by color filters such as light blue, yellow, or  
red, and the classic Moon filter to block excessive glare. Since  
the binoviewer works best for brighter objects, a light pollution  
filter may only work on the brightest deep space objects. A  
broadband filter, such as the Orion SkyGlow, may improve the  
contrast and eliminate distracting haze from city lights.  
Before inserting the binoviewer into the focuser, make sure  
any adapters or diagonals in the drawtube are secure. The  
binoviewer weighs much more than an average eyepiece,  
therefore all connections must be extra secure to support it.  
Place the binoviewer’s chrome barrel into your star diago-  
nal (if using a refractor or Cassegrain) or focuser (if using a  
Newtonian) and secure it with the thumbscrew. Now, adjust  
the interpupillary distance of the two eyepieces. Adjust the  
IN 276 Rev. D 03/10  

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