التحقق من دقة الأرقام الدالة على المسافة .. كتاب آلة التصوير

Check the accuracy of the numbers indicating the distance

The reason for the lack of sharpness of the image may be due to a mechanical defect that has nothing to do with optical defects in the lenses. Therefore, the camera must be tested to verify that the numbers indicating the distance exactly match reality. This test is conducted according to the following steps:

The camera is installed on a stand and a plate is placed in front of it with clear lines, numbers or letters (let it be white numbers on a black surface or black numbers on a white surface).

Then we measure the distance with a completely accurate scale, let the distance be one meter, for example, then imaging is done after adjusting the lens by means of the numbers indicating the distances.

This process is repeated at several different distances, and each time the distance between the plate and the lens is measured accurately, then the lens is set to the number indicating the new distance. The grains, in addition to the necessity of taking into account the correct exposure estimate, so that the images do not suffer from other errors that are not related to the distance numbers. The reason for this defect is due to the reasons that are listed below:

1- That the lens is inaccurately installed or has a defect resulting from colliding with another object. In fact, it is rare for the defect to be from the lens itself unless it is of a primitive type or has been struck by another object or grief. use it or an inexperienced person tried to dismantle it. this with . Note that the lenses of cameras pass through very accurate tests.

2- That the lens is not completely fixed to the camera, and this error often occurs in cameras that are replaced with their original lenses with other interchangeable lenses.

3- The error may be due to the absence of the sensitive film or plate at the specified level at the distance of the focal length of the lens, which is | Frosted glass is usually used in blown cameras.

4- If the lens is in a reflex camera, the error may occur as a result of a difference between the length of the rays passing through the upper lens to the frosted glass at the top of the machine and the length of the rays passing between the lower lens and the sensitive film.

5- The defect in the reflex camera may be due to the movement of the mirror that reflects the rays from the vision lens to the frosted glass above it.

6- The defect may result from misuse of the coupled range finder, which affects its mirrors or the glass prism in it.

Lens Coating

The lens in all target cameras (except for the primitive types of box cameras) consists of several pieces of glass (between concave and convex) polished to a high degree, and between them there are voids of air. And since there is a part of the incident rays that are reflected on each of the surfaces of these pieces of glass, as this is one of the characteristics of the light rays when they pass from one medium to another (from air to the lens glass or vice versa, from the lens glass to the air, for example) (Fig. 59) And since the lenses that are used in cameras consist of more than one piece of glass, which results in the loss of a large part of the incident rays, so modern lenses are coated with a thin light blue layer of a material whose refractive index is slightly less than the refractive index of glass, such as magnesium fluoride Usually Magnesium fluoride, and one of the properties of this substance is to reduce the percentage of rays reflected from the surface of the glass. Coating lenses with this material is not limited to merely preventing the loss of this light energy, but rather this coating is also intended to prevent damages that result from these reflected rays, as if these rays were left alone, many internal reflections would occur on the shiny surfaces of the pieces that make up the lens. As a result, these rays finally reach the surface of the sensitive film, forming a light haze on it.

It is possible to calculate the amount of rays that are lost on the surface of any of the glass pieces that make up the lens if we know the refractive indexes of the two mediums through which the rays pass, namely glass and air, according to the following equations (1):

If we assume that the index of refraction of glass = 1.5 and that the index of refraction of air = 1 .

If we assume that the index of refraction of the paint layer = 1.25, the percentage of missing rays can be calculated according to the following equation (noting that the rays will be reflected on the two surfaces of the paint layer, i.e. the upper surface facing air and the lower surface facing glass).

This result supports what we have already mentioned about the decrease in the percentage of lost rays if the lenses are coated with a layer of magnesium fluoride. It is easy to scratch or remove the magnesium fluoride layer by repeatedly “scrubbing” the lens under the pretext of cleaning it. Therefore, it was wrong to scrub the lens vigorously. Rather, it is always better to clean it from dust (with a very soft brush) or with a rubber blower.