Nikon L-ke Talimatlar Kılavuzu - Sayfa 10

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which will give proper eye-to-lens distance.

For those wear

eyeglasses,

eyecup should be screwed in.

Coarse Focusing

The coarse adjustment may be eased or tightened by means of the

adjusting ring:

If the revolution of the coarse focusing knob is too loose, turn the ad-

justing ring counterclockwise. Too much tightness may be adjusted by the

clockwise turning.

Never twist the focusing knobs for this adjustment as in the traditional

microscope whose focusing knobs, coarse and fine, are located separate

(not coaxial).

Focusing may be performed as follows:

First, raise the

microscope stage until the distance between the specimen

and the

objective becomes less longer than the working distance of the objective

to be used (see table on p. 8), then looking through the eyepiece, lower

the stage until the specimen to be examined is plainly visible.

4X, lOX, 20X, 40X and lOOX objectives are parfocal , and are approxi-

mately in focus when revolved into position one after another, the use

of the fine focusing knob only being required for critical focusing.

Preset Device

The right-hand focusing knob has a preset lever on its drum (Fig. 16).

When the lever is fastened by turning clockwise (as indicated by the arrow

engraved besides) until it stops, the coarse focusing knobs cannot be turned

in the direction to drive the stage closer to the objective. This presetting is

— 1 7 - -

utilized

for quick

refocusing

after the stage has been lowered

and outfocused for changing

the specimen or applying im-

mersion oil. The preset device,

when fastened, prevents at the

same time the danger of damag-

ingthe objective front and slide

glass.

Fine Focusing

Manipulation of the fine focus-

ing knob is necessary:

a. To obtain the sharpest image.

b. To transfer the focus from

center to a corner of the

viewfield.

c. To focus upon the different layers of a thick specimen.

d. To correct a slight blurring which may take place when shifting the

slide.

e. Tomeasure the thickness of object under examination.

The

microscope is so designed that one revolution of the fine focusing

knob raises or lowers the microscope stage 0.2mm.

This permits direct

reading on the right-hand knob scale up to 0.002mm (2«). The whole

range of fine movement is 38mm; the same as of coarse focusing.

Oil Immersion

When using lOOX objective,

the application of immersion oil in the

minute space (0.1mm) between the objective top and the cover glass is

necessary to attain the specified numerical aperture. For critical work the

immersion oil is to be filled between the top lens of the condenser and

the slide as well as between the objective and the cover glass.

Oil im-

mersion observation is performed as follows: First, using lOX or 40X ob-

jective (dry system), bring the specimen in focus and in the center of the

viewfield.

Set the preset lever by turning clockwise.

Lower the micro-

scope stage and revolve the nosepiece revolver to lOOX objective.

After

applying a drop of immersion oil onto the cover glass, raise the stage up

to the preset limit.

Then, focus up by looking through the eyepiece and

raising carefully the stage by manipulating the fine focusing knob. The

oil immersion lOOX objective is designed to attain its critical focusing by

about 1/3 forward rotation of the fine focusing knob, that is, bringing

the stage about 0.08mm closer to the objective from the parfocal position.

Air bubbles in the immersion oil, which may sometimes intervene the

microscope image and are visible when looking into the microscope

tube without the eyepiece, can be removed by repeating slight movement

of the nosepiece revolver,

by adding a certain quantity of immersion oil

or by means of a needle.

Remaining stiffened oil may often impair the image.

Therefore, im-