SU610045A1 - Light slitting autocollimator unit - Google Patents

Description

one

The invention relates to optomechanical devices, in particular to auto-optimae.

There are known light-driving devices for autocollimators, which use both a visual and a photoelectric registration of a light signal, containing a light source, a beam-splitting prism with a concave mirror mounted on its catheter face, Parallel Optical

autocollimator axes, and mesh

The construction of a known beam-splitting node does not allow for the present spatial separation of the left (fixed) reading index

and its autocollimation image, especially when the intended angles are smaller than the resolution limit of the optical system of the autocoplimator, when the indicated index and its image are superimposed on each other.

This makes it impossible to use the known light-splitting unit with high-precision measurement by phase photoelectric systems.

registrations in which it is necessary to monitor two electric channels of the reference and measuring light signals supplied to the radiation receivers each belonging to its own electric channel,

The object of the invention is to provide a permanent spatial separation of the zero reference index and its autocollimated image.

This goal is achieved due to the fact that the reflecting surface of the concave mirror is made as an ellipsoid surface section, the cross section of which with the main section of the prism intersects the grid plane along its major axis, and the prism splitting face that combines a zero, one-dimensional index with one of the ellipse focuses is inclined catheter face at an angle different from 45 °.

Claims (1)

.In FIG. 1 shows the schemes of the described node and its installation in the autocollimator; in fig. 2 - section aa of FIG. 1; in fig. 3 - the position of the zero and reference indices in the grid plane. The light-receiving unit contains a source of singing, by which is meant the illuminated aperture of the diaphragm I, (), as given in the focus of the lens 2 of the automatic distributor, the light-receiving prism 3, on the cathetized face 4 of which the inclined mirror 5, and the grid 6 are removed. in the form of a section of the surface of an ellipsoid, whose cross section with the main section of the prism 3 crosses the plane of the grid 6 along its major axis, the beam splitting face. 7 of the prism 3 is inclined to its catheter face 4 by an angle different from 45, so that the luminous flux it deflects from reflections from the mirror 5 forms an image of the center of source 1, corresponding to a zero oTC4eTHON-fy (non-moving) index 8 aligned with one from the focal points of the mirror 5, the plane of the 6 sei must be optically coupled to the luminous facet) 7 with the focal plane of objective 2 and, since the paclon angle of this face differs from 45, when the autocoplimator simultaneously works in two coordinates, the grid plane will take a position The one in FIG. 1 with a dotted line Part of the light flux that has passed face 7, after reflection from object 9, forms in the plane of grid 6 an autocollimation image 1O coinciding with the second focus of mirror 5 and corresponding to zero deviation of object 9, i.e. autocollimation image of zero reading index 8. Thus, the zero (fixed) index and its autoplimaion image turn out to be spatially distributed in the grid plane G. The light O-currents forming the above images are modulated by the modulator 11 in the form of transparent and opaque pouches at the photoreceivers 12 and 13. The electrical signals taken from them, shifted in phase by an amount corresponding to the displacement of the autocollimpion image 10, arrive at the inputs of the phase-iris device 14, Formula of the Invention The autocollimator of the autocollimator, containing a light source, a radiation-attenuating prism with a concave mirror mounted on its catheter face parallel to the optical axis of the autocollar atop, and a grid characterized in that, for the purpose of constant spatial separation) of the zero reference index and its autocollection image of the reflecting surface of the mirror is made as an ellipsoid surface surface section, the cross section of which with the main section intersects the grid plane along its major axis, and the Prism splitting face, which coincides with the zero reference index with one from ellipsoid foci, it is inclined towards the facet of the face on an angle that differs from 45 ° C. Sources of information taken into account during the examination: 1, Copyright Certificate CCCI No. 46О521, cl. G-O2 B 27/30, 1974, fpu2 .1