SU64691A1 - Vizir to geodetic, navigation, etc. goniometric tools - Google Patents

Description

Geodeaic, navigational, and other goniometric instruments equipped with diopters or targets allow the sun to be directly zoned only at a small angular height. Sometimes this also applies to angle instruments with telescopes. Such are, for example, levels with a horizontal circle or with a compass and optical direction finders.

For sighting such instruments of the Sun at considerable heights, sometimes, for example, in sea compass direction finders, a sun mirror is used, which is rotatable around an axis, parallel to the plane of the mirror and perpendicular to the collimation plane of the device.

The subject of the invention is a viewfinder for the same purpose, easily attached to all goniometric instruments, in which field of view a cylindrical surface is installed reflecting the rays of the Sun, the Moon, etc., entering the viewer. This surface can also be made as a ribbed surface. spherical cylindrical surfaces with parallel axes. A polished surface with a number of parallel scratches can be used as such a ribbed surface. In addition, in general, it is possible to use a slightly rounded horizontal edge as part of the instrument as a reflecting cylindrical surface of the viewfinder.

As the reflective cylindrical surface can be used the surface of the cylinder. The working surface of the cylinder is polished and placed between the observer's eye and the Sun, strengthening it so that it forms perpendicular to the collimation plane of the instrument. The cylinder can be made of transparent or opaque glass, plastic or metal. In particular, even glossy wire can serve as a cylindrical cylinder and, which is simpler, the direction finder, rounded and polished as a part (at least 1/8 of a very small diameter cylinder), can serve as the upper edge of the prism of a magnifying glass.

Neboor: - to a closed eye, accommodated to infinity, or

an eye armed with a telescope focused on infinity, the reflection of the sun and the surface of a cylinder is presented as a light band bounded by arcs of circles described on the celestial sphere around the point to which the axis of the cylinder is directed and passing through the edges of the sun. this point and the most distant from it. The sight is produced in the middle or both edges of this strip.

The cylinder can be placed either directly in front of the eye, or between targets or, finally, between an objective target and the Sun, and in the case of a telescope, in front of its lens. The length of the light band when observing the reflection of the Sun in a cylindrical glass with the naked eye is approximately equal to the angle at which the pupil of the eye is visible from the cylinder.

Instead of the surface of the cylinder, there can be used a ribbed plate with a number of cylindrical surfaces arranged with parallel axes. A scarred plate can be made by applying to a flat polished surface, for example, the unsealed parts in the instrument, a row and straight parallel scratches. Such a plate, like a reflective cylinder, scatters sunlight in all possible directions, forming the same angle with the direction of the scars as the rays of the sun falling on it. The angular length of the light band, visible through a ribbed plate illuminated by the Sun, is determined by the head angle in which the plate itself is visible in the direction perpendicular to the scars.

The design of the viewfinder has several advantages over the known ones:

a) Fixing a cylinder to a goniometric tool is much easier than fixing a solar mirror, even if you attach a cylinder: ;;.: nsir. with healing screws.

b) The cylinder is attached to the target tightly. Therefore, its position relative to the momentum remains unchanged. At the same time, a mirror is necessary: to fasten around the horizontal axis according to the height of the sun.

B) The taper of the cylinder can be brought to an almost negligible value during its manufacture. For example, for a sea compass direction finder, it suffices to set the angle between the formation and the axis and less than 2-3. This angle gives an error similar to the non-parallelism of the solar mirror to its axis of rotation. The latter is more difficult to do until it is small or, at least, constant. Ribbed scars act, ka; 4} extremely narrow differently oriented mirrors parallel to one straight line. Therefore, in the case of a ribbed plate, an error, similar to the error from the inclination of the solar mirror to its axis of rotation, is completely absent.

d) With a sufficiently narrow slit of the eye target and with a sufficiently thin cylindrical use of dark glass to protect the eye becomes redundant.

FIG. I and 2 of the drawing shows the approximate location and mounting of the reflective cylinder on the target direction finder; marine compass in two projections; FIG. 3-part, Fig. 4 and 5 is a diagram of the optical action of the reflective cylinder.

FIG. 1 and 2 are marked: / -the target; 2 - a target with a target; 5-prism loop; 4 - reflective cylinder; other possible positions of the reflective cylinder; L and 6 adjustment screws, on which the cylinder is lying; / and 5 lock nuts; 9 and 10 - blind screws, on which the cylinder lies on the other end, // and 12 springs, pressing the cylinder to the spherical heads of screws 5, 6, 9 and 10, 13 - a rounded upper edge

magnifying lens, acting like a reflecting cylinder in position 4. In FIG. 3 shows the section of this part of the prism, enlarged many times.

FIG. 4 and 5, a 7-vertical sectional view of the schematic eye accommodated at infinity is marked; 15 is a sectional view of a cylinder with a horizontal axis; oo-infinity point; I is the angular length of the bright line AB, which represents an infinitely distant point, the I-second node point of the eye.

Subject invention

- 1. to geodesic, navigation, etc., angular instruments for sighting the bright lights, provided with a cylindrical reflecting surface, characterized in that, in order to eliminate the need for a rotatable sun mirror, direct the sun to the horizontal: 1 talted viewfinder specified the cylindrical surface is set in front of his field of vision.

2. The form of the sighting device according to claim 1, characterized in that a scarred surface consisting of several arranged cylindrical surfaces with parallel axes is used as the cylindrical surface.

3. The form for the execution of the sight in accordance with claim 2, that is, that the polished surface is used as a ribbed surface and provided with a number of parallel scratches.

4. The form for making the sighting device according to claim 1, characterized in that a slightly rounded horizontal edge of any part of the device is used as a cylinder.

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