SU1060948A1 - Device for checking cylinder lens - Google Patents

Abstract

DEVICE FOR CONTROL OF CYLINDRICAL LENSES, containing a light source, a condenser, a lens, a separating prism-cube installed near the focal plane of the lens, a transparent mar sous-stroke applied on a dark crawl and located between the separating prism and the condenser in the focal plane lens, characterized in that, in order to improve the accuracy and automation of the process, it is equipped with a front prism and a disk with a peripheral hole, between which is located a macular lens, the edge of the right angle of the prism-roof intersects the optical axis of the lens and is perpendicular to it, the disk has an axis of rotation, the same; the center of the peripheral hole on the disc optically couples with the center of the leg of the prism-roof edge, the sensor of the PULSE pulses, the modulating disk with the excitation element of the sensor of the reference pulses and two holes of the slit installed in the focal plane of the lens and having an axis of rotation offset from the optical axis of the lens, two arcuate radiation detectors mounted behind the holes of the modulator of the disk, two logic blocks, information inputs of which connected to the outputs of the respective radiation receivers, and the first equals inputs to the output of the sensor (L reference pulses, information processing unit, informational inputs of which are connected to the output of logic blocks, the recorder connected to the output of the information processing unit, S the angle of rotation of the disk with the peripheral hole, the rotational drive of the modulating disk and the control unit, the outputs of which are connected to a: the second control inputs of the logic blocks, the control input of the block ii, a control input of recorder, with a drive angle of rotation disk 4 with a peripheral opening and a driven rotation 00 kpdego modulating disk.

Description

The invention relates to a measuring technique and can be used for monitoring non-parallelism of the Forming cylindrical surfaces and the wedge angle of cylindrical lenses. Devices are known for monitoring the parameters of cylindrical lenses, based on a mechanical measuring method using indicators l. A disadvantage of the known devices is the low measurement accuracy. Closest to the present invention is a device for controlling ol of cylindrical lenses containing a source of light, a condenser, a lens, a separating prism mounted near the focal plane of the lens, a transparent mark-dash applied on a dark field and located between the four prism and condenser in the focal plane of the lens 2J. A disadvantage of the known device is the low measurement accuracy. This is because the autocollimating image from the second edge of the lens is obtained by viewing through the thickness of the v. glass lenses and errors in manufacturing. In addition, the measurement process in the remote device is manual and very laborious. The purpose of the invention is to improve the accuracy and automation of the measurement process. The goal is achieved by the fact that the device for controlling cylindrical lenses, containing a light source, a condenser, a lens, a separating prism-cube, installed near the focal plane of the lens, a transparent mark-bar, applied on a dark field and located between the separating prism and the condenser in a fox The lens features a front prism mounted in front of the lens and a disk with a peripheral hole, between which there is a measurable cylindrical lens, and the edge of the right angle of the prism roof. eresekaet lens optical axis and perpendicular thereto, the disk has; rotation, coinciding with the optical axis of the lens, and the center of the peripheral hole on the disk is optically with the center of the catheter face of the prism-crSh1Sh, sensor of reference pulses, mounted on the dial with excitation sensor element of the reference pulses and two holes-slits the focal plane of the lens and having an axis of rotation offset from the optical axis of the lens, two arcuate radiation receivers installed behind the holes of the modulating disk, two blocks of light. informational inputs of which are from tt. . The first control inputs are connected to the outputs of the respective radiation receivers with the output of the sensor of the reference pulses, the information processing unit, the information inputs of which are connected to the outputs of the logic blocks, the recorder, turned on. the output of the information processing unit, the rotation angle drive of the disk with the peripheral hole, the rotational drive of the modular disk and the control unit, the outputs of which are connected with the second control inputs to the logic blocks, the control input of the information processing unit; the control input of the recorder, with a drive of the angle of rotation of the disk with a peripheral hole and with a drive of rotation of the modulating disk. The drawing shows a block diagram of a device for controlling cylindrical lenses. The device contains a source of 1 light, a condenser 2, a mark-stroke 3, a separating prism-cube 4, a lens 5, a disk 6 with a peripheral one. hole, drive 7 of disk 6, prism-roof 8, modulating disk 9, drive 10 of the modulating disk 9, sensor 11 reference pulses, two arc-shaped receivers 12.1, 12.2 of radiation, two blocks 13.1, 13.2 of logic, whose information inputs are connected to the outputs of the corresponding receivers radiation, information processing unit 14, the inputs of which are connected to the outputs of logic blocks 13.1 and 13.2, recorder 15 and control unit 16, on the disk 9 there are holes-gaps 17 and exciting element 18 of the reference pulse sensor 11. The device works as follows. Radiation from the light source 1 through the condenser 2 illuminates the marcus 3, located in the focal plane of the lens 5, is reflected from the beam-splitting face of the prism-cube 4, passes the lens 5, the peripheral opening of the disk 6 located so that its axis of rotation, coincides with the optical axis of the lens, reflects from the side facets of the prism-roof 8, from the cylindrical surface of the irradiating lens 19 and, passing in the reverse course elements 8, 7, 5 and 4, forms an autocollimation image of the mark-stroke 3 in the focal plane of the objective 5 (in the plane of and modulating disk 9}. autocollimation izobrs1zhenie -controlled from the front face of the lens 19 is formed, when the disk 6 takes a diametrically opposite position (as compared with that shown in figure}, i.e. btverstie disk 6 is disposed in not

Claims (1)

DEVICE FOR CONTROL OF CYLINDRICAL LENSES, containing a light source, a condenser, a lens, a dividing prism-cube installed near the focal plane of the lens, a transparent mark-stroke applied on a dark field and located between the dividing prism and con ·, a sensor in the focal plane of the lens, different in order to increase the accuracy and automation of the measurement process, it is equipped with a prism-roof and a disk with a peripheral hole mounted in front of the lens, between which the measured qi a single lens, the edge of the right angle of the prism-roof intersects the optical axis of the lens and is perpendicular to it, the disk has a rotation axis that coincides with the optical axis of the lens, and the center of the peripheral hole on the disk is optically coupled to the center of the prism-roof side of the prism, the reference pulse sensor, a modulating disk with an exciting element of the reference pulse sensor and two slit holes mounted in the focal plane of the lens and having a rotational axis offset from the optical axis of the lens by two arched radiation detectors installed behind the slit openings of the modulating disk, two logic units whose information inputs are connected to the outputs of the respective radiation receivers, and the first equalizing inputs are connected to the output of the reference pulse sensor, an information processing unit whose information inputs are connected to the outputs logic blocks, a recorder connected to the output of the information processing unit, a drive with a disk rotation angle with a peripheral hole, a modulating disk rotation drive and a control unit , The outputs of which are connected with second control inputs of the logic blocks, the control input of the information processing unit, the control input of recorder, with a drive disc rotation angle with a peripheral opening and a modulating disk rotation drive.