SU1606308A2 - Technological rotor for assembly of lenses - Google Patents

Abstract

The invention relates to instrumentation, allows to increase productivity and quality by fixing the lenses on the assembly position. After mounting the frame 25 with the lenses 26, 27 into the collet 16, the quill 5 is lowered and presses the lenses 26, 27 to each other. In this case, the relative position of the lenses 26, 27 is controlled by the control mechanism. Then, using the actuator 21, the shutter 20 is shifted and the ultraviolet radiation from the source 24 gains access to the collet 16. Due to this, the adhesive applied to the contact surface of the lens 27 is polymerized. After that, the valve 20 is closed, the quill 5 rises up and the assembled product is removed from the collet 16. 1 Il.

Description

N, 1

I G I-X / NH-n-r-r -i-.i, I

J)

g

The invention relates to process equipment and can be used in instrument making.

The aim of the invention is to increase productivity and quality by fixing the lenses on the assembly position.

The drawing shows the proposed device.

The technological rotor includes a housing 1, a working head 2, a clamping device 3 and a fixing mechanism 4. The working head 2 is made in the form of a spring-loaded hollow quill 5 with a 6 axial displacement drive and is equipped with a control mechanism in the form of an objective 7, a horizontal dividing element 8, a transmission cathode ray tube (CRT) 9, a video monitoring device 10, an objective 11 and a laser 12. Drive unit. 6 can be provided with a handle 13 or a motor 14. Base device 3 is made in the form of a spring-loaded punch 15 and a hollow collet 16 with a lodgement 17 in which a force sensor is placed in the form of a piezoelectric element 18. electrically connected to the control unit 19. The locking mechanism includes a mirror flap 20 with a drive 21 and a time relay 22, a condenser 23, and a source of ultraviolet light 24.

The technological rotor works as follows.

The operator moves the punch 15 down and sets in the opened collet 16 a rim 25 with a lens 26 and a lens 27 with a nano

A layer of photopolymerizing glue on its contact surface. Then the punch 15 is returned to the upper position, squeezing the collet 16. The quill 5 is lowered by the actuator 6, pressing the lenses 26 and 27 against each other. The clamping force of the quill 5 is controlled by the operator or force sensor 18. The coincidence of the optical axes of the lenses

26 and 27 is checked by the control mechanism. Upon reaching the required value of the clamping force of the quill 5, the operator or control unit 19 switches on the time relay 22. At his command, the actuator 21 moves the shutter 20 to the left, providing radiation access from the source 24 to the collet 16. Due to this, the glue polymerizes, fixing the lenses 26 and

27 between myself. Upon completion of the polymerization, the glue of the relay 22 gives the command to close the valve 20. Then the quill 5 rises, and the assembled product is removed from the collet 16.

Claims (1)

The invention of the technological rotor for the assembly of an ins. No. 1521548, characterized in that, in order to increase productivity and quality, the rotor is additionally equipped with a lens fixation mechanism made in the form of a motorized mirror shutter coaxially with the collet, a condenser and a source of ultraviolet radiation, and the mechanism is located under the collet which is hollow and the drive is electrically connected to a time relay.