Meade Telescope 60AZ A User Manual

Instruction Manual  
Telestar 60AZ-A  
60mm (2.4”) Altazimuth Refracting Telescope  
© 2004  
 
TABLE OF CONTENTS  
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5  
Standard Equipment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5  
Unpacking and Assembly . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5  
Altazimuth Mount Movements and Lock . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5  
Viewfinder Focusing and Alignment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6  
Using the Telescope . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6  
Calculating Power . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7  
Maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8  
A Few Words About Power . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8  
Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8  
Optional Accessories . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8  
– 3 –  
 
22  
21  
14  
1
24  
2
3
5
4
18  
10  
6
13  
15 23  
16  
17  
7
11  
12  
26  
8
9
3
C
A
8
B
24  
12  
19  
20  
2
25  
Figure 1:Telestar 60AZ-A Altazimuth Refracting Telescope  
Inset A: Accessory Tray Mounting Bolt Hole; Inset B:Tripod Leg; Inset C: Viewfinder Assembly  
1. Eyepiece  
14. Objective lens cell  
2. Viewfinder  
15. Focuser drawtube and thumbscrews  
16. Altitude rod slow motion fine adjustment control  
17. Altitude rod coarse adjustment knob control  
18. Altazimuth mount  
19. Adjustable sliding center leg extension  
20. Tripod leg lock thumbscrew (see inset B)  
21. Dew shield/lens shade  
3. Viewfinder collimation screws  
4. Optical tube assembly  
5. Vertical lock knobs  
6. Horizontal lock knob  
7. Tripod legs  
8. Leg brace supports  
9. Leg brace  
22. Front lens cap  
10. Mount base attachment  
11. Tripod attachment bolts and wing nuts  
23. Focusing knob  
24. Viewfinder bracket (see inset C)  
12. Accessory tray mounting bolt hole (see inset A) 25. Viewfinder bracket mounting thumbscrews  
13. Diagonal mirror  
26. Accessory tray  
– 4 –  
 
INTRODUCTION  
Before you begin, we urge you to take a few minutes to completely read this manual so that you can  
get the best use of the equipment.This manual details the set-up, operation, specifications and optional  
accessories of the Telestar 60-AZ-A altazimuth refracting telescope. Designed for both astronomical  
and terrestrial observing, the Telestar 60-AZ-A will be your companion in exploring a universe of  
celestial and earthly objects.  
STANDARD EQUIPMENT (Refer to Fig. 1)  
Complete optical tube assembly (objective lens diameter = 60mm; focal length = 700mm)  
Full-length, fully adjustable, aluminum tripod and accessory tray.  
MA25mm (28X), MH9mm eyepieces (1.25" O.D. “Outside Diameter”)  
2x Barlow Lens (1.25" O.D.)  
Diagonal mirror (1.25" O.D.)  
5 x 24mm viewfinder with bracket  
Altazimuth mount with micro-altitude control  
Hardware package: A. 3 bolts (2" long) with wing nuts and washers  
B. 3 screws (1/2" long) with nuts  
Note: All other necessary hardware provided in place.  
UNPACKING AND ASSEMBLY  
You will need a Phillips-head screwdriver to assemble the tripod.  
1. Remove and identify the telescope’s components, using the listing above.  
2. Attach the 3 aluminum tripod legs (7, Fig. 1) to the base of the altazimuth mount (10, Fig. 1) with  
the 3 leg brace supports (8, Fig. 1) facing inward. Line up the holes of the tripod legs (11, Fig. 1)  
with the holes on the mount base attachment and thread the three included bolts through the holes.  
Thread the wing nuts over the bolts and hand-tighten to a firm feel. Stand the telescope upright  
and spread the tripod legs evenly apart so that the accessory tray can be positioned for attachment  
to the leg braces.  
3. To attach the leg braces to the tripod, line up the holes in the leg braces (9, Fig. 1) with the holes  
in the leg brace supports (8, Fig. 1) and slide the the included 1/2” screws through the holes.  
Thread the included nuts over the end of the bolts and hand-tighten to a firm feel.  
4. To attach the accessory tray (26, Fig. 1) to the leg braces (9, Fig. 1), place the round accessory  
tray over the over mounting bolt hole (12, Fig. 1). Thread the attachment knob into the mounting  
hole on top of the tray and turning the knob clockwise. Tighten to a firm feel, but do not  
overtighten—you need to remove the tray if you wish to collapse the tripod. To remove the tray, just  
rotate the knob counterclockwise and remove the knob. You can then lift and remove the tray.  
5. Extend the sliding center portion of the adjustable height tripod leg (19, Fig. 1) to the desired length  
for all 3 legs. Lock the tripod legs by tightening the leg lock thumbscrew (20, Fig. 1) to a firm feel.  
See Inset B.  
D
C
6. Remove the two vertical lock knobs (D, Fig. 2) from the optical tube  
assembly.  
7. Place the optical tube between the forks of the azimuth mount (A,  
Fig. 2), oriented as shown in Fig. 2.  
8. Slide the altitude rod (B, Fig. 2) into the hole in the altitude coarse  
adjustment control assembly (C, Fig. 2). Tighten to a firm feel.  
B
A
9. Thread a vertical lock knob (D, Fig. 2) through each of the holes in  
the forks of the azimuth mount (A, Fig. 2) and tighten to a firm feel.  
Fig. 2 Mounting the optical  
tube assembly: (A) azimuth  
mount; (B) altitude rod;  
(C) altitude coarse adjustment  
control; (D) vertical lock knob.  
10. Attach the viewfinder bracket (2, Fig. 1) to the telescope using the  
2 thumbscrews provided (25, Fig. 1). The thumbscrews fit through  
the 2 holes located at the base of the viewfinder bracket and  
thread into the main tube (see Fig. 1, Inset C).  
– 5 –  
 
11. Insert the diagonal mirror (13, Fig. 1) into the focuser drawtube (15, Fig. 1) and the MA 25mm  
eyepiece (1, Fig. 1) into the diagonal mirror. Tighten the respective thumbscrews to a firm feel.  
12. The telescope is now completely assembled. To move the telescope and point it from one object  
to another, first slightly loosen one of the chrome-lock (star-shaped) knobs (5, Fig. 1) which serve  
as a vertical lock, then loosen the azimuth (horizontal) lock (6, Fig. 1). Also, slightly loosen the  
altitude coarse adjustment lock knob (17, Fig. 1). Loosening these locks allows the telescope to be  
moved freely (vertically or horizontally) in any direction so that the telescope can be positioned to  
center a terrestrial or celestial object in the telescopic field. Once an object is found, the altitude  
lock knob (17, Fig. 1) can be tightened and the altitude slow-motion fine-adjustment control knob  
(16, Fig. 1) can then be used to make very smooth and accurate tracking in the vertical axis.  
VIEWFINDER FOCUSING AND ALIGNMENT  
The 5 x 24mm viewfinder (2, Fig. 1) is a low-power, wide-field sighting device that, once aligned, will  
allow you to point the telescope with greater precision. Note: When you look through the viewfinder,  
you will see a crosshair with images that will be upside-down; this is normal.  
To work properly, the viewfinder must first be aligned to the telescope’s main optical tube. To align the  
viewfinder, follow these steps:  
1. Remove the lens cap (22, Fig. 1) of the optical tube assembly. Insert the 25mm wide-field eyepiece  
into the diagonal mirror (13, Fig. 1). Point the optical tube assembly (4, Fig. 1) at a distant land  
object (e.g. a distant telephone pole). Make sure the detail of the distant object you have chosen  
is in sharp focus. Focusing is accomplished by turning the focusing knob (23, Fig. 1) until the  
sharpest possible image is attained.  
2. Center the viewfinder (2, Fig. 1) in both the front and rear rings using the collimation screws (3,  
Fig. 1). Next, looking through the viewfinder, adjust the collimation screws on the rear ring until the  
object centered in the telescope’s main tube is likewise positioned in the center of the viewfinder’s  
crosshairs. Now it is possible to quickly sight an object in the wide-field viewfinder first, then find  
that object approximately centered in the narrower field of the 25mm eyepiece of the telescope.  
3. If the viewfinder’s infinity image is not in sharp focus, the knurled end of the eyepiece can be turned  
to fine tune the focus. Be sure to hold the viewfinder firmly between your fingers when making this  
adjustment.  
USING THE TELESCOPE  
With the telescope assembled, you are ready to begin observations.  
1. First, pick out an easy-to-find object. Observing land objects during the daytime is a good way to  
become accustomed to the operation of the telescope. At night, try observing the Moon at first (if  
it is visible) or a bright star.  
NEVER POINT THE TELESCOPE DIRECTLY AT OR NEAR THE SUN AT ANY TIME!  
OBSERVINGTHE SUN, EVEN FORTHE SMALLEST FRACTION OF A SECOND,WILL  
RESULT IN INSTANT AND IRREVERSIBLE EYE DAMAGE, AS WELL AS PHYSICAL  
DAMAGE TO THE TELESCOPE ITSELF.  
2. To center an object in the main telescope, first use the aligned viewfinder to find the object you  
wish to observe. If necessary, slightly loosen the vertical lock (5, Fig. 1) and the altitude rod lock  
knob (17, Fig. 1) to re-position the telescope so that the desired object can be centered in the  
viewfinder. When the object is centered in the viewfinder, it should then, also, be somewhere in the  
main telescope’s field of view. Next, using the 25mm eyepiece, center the object in the main  
telescope’s field of view, and sharply focus the image by turning the focus knob (23, Fig. 1).  
The wide-field MA25mm eyepiece included as standard equipment is the best eyepiece to use for  
the initial finding and centering of an object. The low-power MA25mm eyepiece presents a bright,  
wide field of view, ideal for terrestrial and general astronomical observing of star fields, clusters of  
stars, nebulae, and galaxies. For lunar and planetary viewing, switch to a higher power eyepiece  
such as the MA9mm—if you have good viewing conditions. If the image starts to become fuzzy as  
magnification is increased, back down to a lower power; The atmosphere is not steady enough to  
support higher powers. Note: Changing eyepieces changes power.  
– 6 –  
 
3. If you are observing an astronomical object (the Moon, a planet, star, etc.) you will notice that the  
object will begin to move slowly through the telescopic field of view. This movement is caused by  
the rotation of the Earth and makes an object appear to be moving in the telescope’s field of view.  
To keep astronomical objects centered in the field, simply move the telescope on one or both of its  
axes (vertical and/or horizontal) as appropriate. At higher powers, astronomical objects will seem  
to move through the field of view of the eyepiece more rapidly.  
Observing Tip: Place the object to be viewed at the edge of the field and, without touching the  
telescope, watch it drift through the field to the other side before repositioning the telescope so that  
the object to be viewed is again placed at the edge of the field, ready to be further observed.  
4. Avoid touching the eyepiece while observing through the telescope. Vibrations resulting from such  
contact will cause the image to move. Avoid observing sites where vibrations may introduce image  
movement. Viewing from the upper floors of a building may also introduce image movement.  
5. Allow a few minutes for your eyes to become “dark adapted” prior to attempting any serious  
observations. Use a red-filtered flashlight to protect your night vision when reading star maps, or  
inspecting components of the telescope. Tip: You can make your own red filtered flashlight by  
taping red cellophane over a flashlight lens.  
6. Avoid setting up the telescope inside a room and observing through an opened or closed window  
pane. Images may appear blurred or distorted due to temperature differences between inside and  
outside air. Also, it is a good idea to allow your telescope to reach the ambient (surrounding)  
outside temperature before starting an observing session.  
7. Planets and other objects viewed low on the horizon often lack sharpness—the same object, when  
observed higher in the sky, will appear sharper and have greater contrast. Turbulent air in the  
atmosphere can cause images to “shimmer” in the eyepiece. Try reducing power (change your  
eyepiece) until the image steadies. Keep in mind that a bright, clear, but smaller image is more  
interesting than a larger, dimmer, fuzzy one.  
8. Astronomical software or a good star atlas will assist you in locating many interesting celestial  
objects. These objects include:  
The Moon, covered with craters, mountain ranges, and fault lines. The Moon is best observed  
during its crescent or half phase when Sunlight strikes the Moon’s surface at an angle. It casts  
shadows and adds a sense of depth to the view. No shadows are seen during a full Moon,  
causing the bright Moon to appear flat and uninteresting.  
Cloud belts across the surface of the planet Jupiter.  
The 4 major moons of Jupiter, changing position each night.  
Saturn and its famous ring system.  
Deep-Space: Nebulae, galaxies, multiple star systems, star clusters—hundreds of such  
objects are visible through your Telestar telescope. If possible, observe under a dark sky, away  
from city lights—you will be able to observe more deep-space objects through your Telestar  
telescope.  
Terrestrial objects: Your Telestar telescope may also be used for high-resolution land viewing.  
Important Note: Using the diagonal mirror results in an image which is reversed left-for-right,  
but which is correctly oriented up-and-down.  
Terrestrial observations should almost always be made using the 25mm low-power eyepiece  
for bright, sharp images. Observing horizontally through the Earth's atmosphere distorts  
images in higher-power eyepieces (such as 9mm).  
CALCULATING POWER  
The power (magnification) at which a telescope is operating is calculated by dividing the focal length  
of the telescope by the focal length of the eyepiece. The focal length of the 60-AZ-A telescope is  
identified on the focuser label as being 700mm (F = 700mm).The focal length of the eyepiece is usually  
identified on the top of the eyepiece barrel.  
– 7 –  
 
For example, if you are using a 25mm eyepiece, the resulting power will be:  
Power = 700mm ÷ 25mm = 28X.  
For example, if you are using a 9mm eyepiece, the resulting power will be:  
Power = 700mm ÷ 9mm = 78X.  
The purpose of a Barlow lens is to increase the magnification possible with a given eyepiece. The 2x  
Barlow supplied with this telescope will double the normal eyepiece power. For example, the 25mm  
(28X) eyepiece, when used in conjunction with the 2x Barlow lens, yields 56X. The 9mm (78X)  
eyepiece yields 156X when used with the 2x Barlow lens.  
To use the 2x Barlow lens, insert the 2x Barlow lens into the diagonal mirror (13, Fig. 1) followed by  
the 25mm eyepiece (1, Fig. 1). Refocus until the image is sharp.  
POWER AND EYEPIECES  
The useful higher magnification with any 60mm diameter telescope is in the range of 80 to 120 power.  
The general rule to follow with any telescope, regarding power: Only use as much magnification as a  
steady, well-defined image supports. The stability of the air varies and is one reason why having  
various eyepieces is desirable. Higher powers are no guaranty of better images; in fact, the opposite is  
often true.  
MAINTENANCE  
As with any quality optical instrument, lens surfaces should be cleaned as infrequently as possible. A  
little dust on the surface of the objective lens (14, Fig. 1) causes negligible degradation of image quality  
and should not be considered reason to clean the lens. When lens cleaning does become necessary,  
use a camel hair brush or compressed air to gently remove dust. Wipe only with a soft, clean cloth,  
applying as little pressure as possible to avoid scratching glass surfaces. Note: Gently pull off and  
remove the the dew shield/lens shade (21, Fig. 1) to access the objective lens (14, Fig. 1).  
SPECIFICATIONS  
Objective (main) lens focal length . . . . . . . . . . .700mm  
Objective lens diameter . . . . . . . . . . . . . . . . . . .60mm (2.4")  
Focal ratio . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .f/11.7  
Mounting type . . . . . . . . . . . . . . . . . . . . . . . . . . .Altazimuth  
OPTIONAL ACCESSORIES  
#928 45° Erecting Prism (1.25 O.D.): Correctly orients the telescopic image during terrestrial  
observing and yields an image position at a 45° angle to the main telescope tube, resulting in a more  
comfortable observing position in most cases.  
Additional Eyepieces (1.25" barrel diameter): For higher or lower magnifications with the telescopes  
that accommodate 1.25" eyepieces, Meade 3-element Modified Achromatic eyepieces, available in a  
wide variety of sizes, provide a high level of image resolution and color correction at an economical  
price. Also, at slightly higher prices, Meade 4-element Series 3000 Plössl eyepieces yield wider fields  
of view with excellent edge-of-field corrections and are available in a range of focal lengths including  
5, 6.7, 9.5, 16, 25, and 40mm.  
70052 04/04  
 

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