SU1219917A1 - Method of inspecting shape of concave optical surfaces - Google Patents

Abstract

The invention relates to a measurement technique and can be used to control elements of lighting equipment. The invention extends the class of controlled surfaces. Due to the return of the beam reflected by the test surface, to the point of its fall, it becomes possible to control surfaces that do not have axial symmetry. The product is mounted on the installation and alignment device so that the optical axis of the reflector is parallel to the light beam of the radiation source. The diaphragm forms a narrow beam of rays that is directed to the controlled area of the product, reflected from it, falls on a flat mirror connected by a gt, goniometer containing a scale. The position of the flat mirror is changed so that the reflected beam from it returns to the point of its falling on the product. On the scale of the protractor, the value of the polar angle is counted and the angular aberration of the object is calculated. 1 il. (Ls

Description

The invention relates to measuring- (Telecom technology and can be used to control elements of lighting equipment.

The aim of the invention is to expand the class of controlled surfaces.

 The drawing shows a schematic diagram of the device implementing the method.

The device comprises a source 1 of a parallel beam of radiation, for example a laser, a diaphragm 2, a protractor 3 connected with a flat mirror 4, and a device 5 for mounting and adjusting the test article 6,

The proposed method was carried out as follows.

The monitored article 6 is mounted on the fixture 5 for mounting and aligning the monitored article so that the optical axis of the reflector is parallel to the light beam of the radiation source 1. A parallel light beam from a radiation source falls on aperture 2, which forms a narrow beam of rays, and is directed to the controlled area of article 6, away from it, falls on a flat mirror 4 associated with a goniometer 3 containing a scale for reading angles. The position of the flat mirror is changed in such a way that the reflected light from it returns to the point of its incidence on the test surface. On the scale of the protractor, the value of the polar angle is measured (f c,. By moving the radiation source along the X coordinate, the field is measured. The angle cpj, j is measured for different points of the areas under control

ti. The corner aberration of a zone is determined by the difference

and p Riem 3

where Cfp is the calculated polar angle

the controlled point of the zone, the measured polar angle

controlled point zone. Due to the return of the beam reflected by the contoured surface to the point of its fall, it is possible to control surfaces that do not have axial symmetry.

Claims (1)

Invention Formula The method of controlling the shape of the concave optical surfaces, which consists in that a parallel beam of radiation is directed onto the test surface parallel to its optical axis, is set in the path of the reflected surface a flat mirror beam, change the position of the flat mirror in space, measure the magnitude of this change, and compare the measured value with the calculated one and determine the deviation of the surface shape from the given one, which is different from the position of the flat mirror change by tilting it relative to the axis of symmetry of the test surface to a position at which the intersection points with the test surface of the axis of the beam reflected by a flat mirror and the original about sovpadayutu beam and measuring the angle of inclination of the flat mirror. v VNIIPI Order 1315/50 Circulation 670 Subscription Branch PPP Patent, Uzhgorod, Projecto st., 4