SU188707A1 - - Google Patents

Description

The known optical reading systems of double imaging, which contain a lens and an ocular part with a beam-splitting and dividing the field of view of the system into two parts with mirror layers at an angle of 45 ° to the optical axis, do not allow an increase in the accuracy of reading of optical systems.

The proposed optical system differs from the known ones in that it is equipped with two rectangular prisms, on the hypotenuse face of one of which there is a roof with an edge perpendicular to the hypotenuse face of the second rectangular prism and parallel to the mirror layer. In addition, the planes of the main sections of prisms are aligned with the plane passing through the optical axis of the system perpendicular to the beam-splitting and mirror layers deposited on the perpendicular gynetouse faces of two rectangular prisms located on the optical axis of the system, on opposite sides of the positive lens glued together in the form of cubes with two similar rectangular prisms.

The drawing is a diagram of the described system.

Cubes 3 to 4 are made in the form of two rectangular prisms glued together by ginotensin faces, and one of the hypotenuse faces of cube 3 is coated with a beam-splitting layer 9, and half of one of the hypotenuse faces of cube 4 is a mirror layer 10. The edge of the mirror layer passes through the middle of the hypotenuse faces perpendicular to the main section of the prism. On hypotenuse edge

rectangular prism 7 is covered with a roof, the edge 11 of which is parallel to the mirror layer. The edge of the mirror layer lies in the planes of the images formed by the lens, and coincides with the focal plane of the ocular.

The presence of a positive lens in one of the branches of the double-image optical system provides a constant difference in magnification in two parts of the field of view, divided by the edge of the mirror coating. The difference in magnifications is chosen in such a way that, for example, the ten divisions of the pupils observed in the lower part of the field of view are equal to the nine divisions of the same pupils,

observed in the upper part of the zero view. Scale divisions in the lower part of the field of view are used as a nonius for counting the fractions of a division.

for example, in autocollimators and in readout microscopes.

In the commercially available autocollimator AKT-250 with a focal length of the lens equal to 250 mm to get accurate; A lens compensator with a split price of 2 is used in the readout. An autocollimator with the same focal length of the lens in which the proposed dual-image optical reading system is applied is mono. It provides higher read accuracy without the use of any additional reading devices. In the autocollimator there will be only one scale, whereas in the AKT-250 autocollimator there are two scales and one autocollimation grid. If the scale division price is O, G mm, then the autocollimation division price is 20. With a difference}% personal in two parts of the field of view, equal to 5% vernier, you can count Vao part of the division, i.e. 1. In addition , when working with an autocollimator, in which the proposed reading system is used, the operation of combining the autocollimation image with scale divisions is completely excluded.

Subject invention

A dual-image optical reading system comprising a lens and an ocular part with a beam-splitting and dividing the field of view of the system into two parts with mirror layers at an angle of 45 ° to the optical axis, which is equipped with two rectangular prisms, on the hypotenuse face of one of which there is a roof with an edge perpendicular to the hypotenuse face of the second rectangular prism and parallel to the mirror layer, and the planes of the main sections of prisms are aligned with the plane of the system passing through the optical axis of the system perpendicular to the beam-splitting and mirror layers applied to the hypotenuse faces perpendicular to each other, two located on the optical axis of the system on opposite sides of the positive lens of rectangular prisms, glued together in the form of cubes with two of the same square prisms.

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