SU1695162A1 - Focometer - Google Patents

Abstract

The invention relates to optical instrument making, more specifically to optical measurements, and is intended to measure the focal lengths of optical elements. The purpose of the invention is to simplify the design. The collimator lens 3 forms a wide beam of parallel rays, from which a slit of the screen 15 cuts a narrow beam of rays deflected by a pentaprism 6 onto the controlled lens 10. When the pentaprism 6 is moved perpendicular to the optical axis of the part being monitored, the beam of rays behind the part being tested will deflect and consistently its center will be aligned with the section of the photodetector 11-14. When the beam coincides with the section of the photodetector in the information processing unit, the readout from the displacement amount sensor is memorized. At a known distance between the planes of installation of the photodetectors, the focal distance of the test piece is determined, 1 sludge.

Description

The invention relates to optical instrumentation, in particular to the field of optical measurements, and is intended to measure the focal lengths of optical elements,

The purpose of the invention is to simplify the design.

The drawing shows the proposed device.

The focometer consists of a light source 1, a condenser 2, a collimator consisting of a lens 3 and a slit aperture 4 mounted in its front focal plane, an opaque screen 5 with a narrow slit, a pantaprism 6 mounted on a table 7 and moving along the optical axis of the collimator using electric motor 8 through the sensor 9 of the displacement value. Behind the controlled lens 10 there are four coordinate-sensitive photodetectors 11-14 installed in pairs in two mutually parallel planes at a predetermined distance from each other, the information processing unit 15, the display unit 16 and the digital printing unit 17.

The slit of the collimator 4, the slit of the opaque screen 5 and the dividing lines of the photodetectors 11-14 are parallel to each other and perpendicular to the direction of movement of the table 7. The distance between the installation planes of the photodetectors is rigidly fixed and equal to L, the distance between the photodetectors 11 and 12 is Υι, and between the photodetectors 13 and 14 - Υ2. The displacement sensor is connected to the input of the information processing unit 15. Photodetectors are connected at the second input of the information processing unit.

Fokometr works as follows.

The light source 1 using a capacitor 2 illuminates the slit 4 of the collimator. The lens of the collimator 3 forms a wide beam of parallel rays, from which a slit of the screen 5 cuts out a narrow beam of parallel rays, which pentaprism 6 deviates 90 ° towards the controlled part 10. When the pentaprism moves, the narrow beam of rays will scan along the controlled part, and after passing through the latter, gather in her back focus. At some point in time, at a certain position of the pentaprism, the center of the narrow beam of rays will coincide with the dividing line of the photodetector 11. At this moment, the information from the sensor 9 of the displacement value is stored in the information processing unit 15. With further movement of the pentaprism, the center of the beam will be sequentially aligned with the dividing lines of the photodetectors 13, 14, 12, and in the information processing unit 15, the readings from the sensor 9 of the displacement value will be stored. Thus, in block 15, four readings from the sensor 9 will be remembered. The difference between the readings from the photodetectors 11 and 12 will be Υ), and the difference between the readings from the photodetectors 13 and 14 will be Υ2.

Information processing unit according to the results of measuring the segments Υι and Υ2 according to the shape Υι ¹ Y2 'the focal length of the controlled part. The measurement result can be displayed on a digital display unit 16 display or tape digital printing device 17.

The purpose of the invention is achieved by performing a collimator lens with a small entrance pupil diameter.

Claims (1)

Claim A focometer containing a radiation source, a condenser, a collimator made in the form of a lens in the front focal plane of which a slit diaphragm is arranged in series in front of the monitored lens, and a measuring unit installed behind the monitored lens, consisting of a photodetector and an information processing unit, characterized in that , in order to simplify the design, between the collimator and the controlled lens, an opaque screen with a slit and a pentaprism, installed with the possibility of room along the optical axis of the collimator and perpendicular to the optical axis of the controlled lens, and the photodetector unit is made in the form of four coordinate-sensitive photodetectors installed in pairs at a given distance between each other in two planes perpendicular to the optical axis of the controlled lens.