SU1589059A1 - Apparatus for adjusting the axis of radiator of optical unit relative to surfaces of the base - Google Patents

Abstract

The invention relates to a measurement technique and can be used for the alignment of optical device assemblies. The purpose of the invention is to improve the accuracy of the adjustment. The adjustable optical unit 3 is mounted on the stand 2 so that the target plane coincides with the aperture plane 5. Movements of the optical elements of the adjustable optical unit 3 ensure that the focus point of the emitter of the optical unit 3 coincides with the center of the opening 6 of the aperture 5. When the beam position is offset relative to the optical axis, a change in the signal on the indicator 14 is observed while rotating the diaphragm 5. Changing the diameter of the diaphragm 9 until a change in the signal on the photodetector 10 occurs; light spot from the optical axis of the device. The beams of rays that pass through the opening 6 pass through the second diaphragm 11 and fall onto the coordinate-sensitive receiver 12. Changing the direction of the beam leads to a shift of the light spot on the photosensitive platform of the coordinate-sensitive receiver 12 and a change in the signal on the indicator 14. 1 or .

Description

The invention relates to measuring technique and can be used to align the axes of optical instruments relative to base surfaces.

The purpose of the invention is to improve the accuracy of alignment.

The device comprises a base 1, a stand 2 mounted thereon for mounting an aligned optical assembly 3 with a radiator on it, a platform 4, a first diaphragm 5 made in the form of a round hole and a slit sequentially mounted on the optical axis of the radiator. 7, one axis of the slit is perpendicular to the optical axis of the emitter, a translucent mirror 8 mounted at an angle to the axis of the emitter and with the possibility of output from it, the second · diaphragm 9 - iris, photodetector block 10, third diaphragm 11, coordinate-sensitive photodetector 12, block 13 processing, the input of which is connected to a coordinate-sensitive photodetector 12, an indicator 14, the input of which is connected to the outputs of the photodetector unit and processing unit 13.

The device operates as follows.

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A platform 4 is mounted on the base with a diaphragm 5 fixed on it, a mirror 8, an iris diaphragm 9, a photodetector 10, an aperture 11, a coordinate-sensitive photodetector 12, a processing unit 13 and an indicator 14, and an optical assembly 3 in the form of lenses is mounted on the stand 2 , prisms, mirrors, with emitter. The beam of rays from the emitter is directed through the diaphragm 5 to the photodetector unit 10, from which the signal enters the indicator 14, which does not change when the diaphragm 5 rotates if the radiation spot in the plane of the diaphragm 5 is symmetrical about the center of the circular hole 6 and changes when the diaphragm rotates 5 if the spot is offset from the center of the hole 6 and its dimensions exceed the diameter of the hole 6.

The direction of the axis of the emitter relative to the base surfaces is monitored on the indicator 14, the signal to which is transmitted through the processing unit 13 from the coordinate-sensitive receiver 12. By turning and displacing the parts of the optical unit, a position is achieved in which, when the diaphragm 5 is rotated, the signal on the indicator 14 from the photodetector unit 10 is constant and the signal on the indicator 14 from the coordinate-sensitive photodetector 12 indicates that the coordinate of the center of the spot in the plane of the receiver 1.2 coincides with the center of this for ISRC. When adjusting, the diameter of the diaphragm 11 is chosen so that the radiation passing through the slit 7 of the diaphragm 5 does not fall on the coordinate-sensitive receiver 12. The energy of the radiation beam is measured by the photodetector unit 10, and the coordinate of the spot energy center is measured by the coordinate-sensitive photodetector 12.

Claims (1)

Claim Device for aligning the axis of the radiator. the optical node relative to the base surfaces of the base, containing a stand under the optical node, mounted on the base, a coordinate-sensitive receiver connected to the indicator through a processing unit, which is designed to improve accuracy, In addition, the first diaphragm in the form of a round hole and a rectangular slit, the axis of which is installed perpendicular to the axis of the radiator and can be rotated relative to it, is additionally introduced in series with the radiator, and in during the reflected beam from it - the second diaphragm in the form of an iris diaphragm and photodetector unit, and during the transmitted beam in front of the coordinate-sensitive receiver - the third circular aperture, with the output of the photodetector unit connected to the indicator input, and the semi-transparent mirror is installed with output capability.