SU1065154A1 - Apparatus for working spherical optical components - Google Patents

Abstract

A DEVICE FOR PROCESSING SPHERICAL OPTICAL PARTS, containing a tool spindle installed in a housing, an article spindle with a pneumatic actuator and a load. 27 an adjustable stop mounted on the housing with the ability to interact with the pinhole of the product spindle, and a damping mechanism associated with the product spindle by means of a two-arm lever, characterized in that, in order to simplify adjustment to the size of the workpiece, it is provided with an additional two-arm lever, one arm of which is connected with an adjustable stop, and the other with the case of the damping mechanism, the latter case being installed in the device case with the possibility of axial movement. S (L O5 ate W

Description

The invention relates to the optical-mechanical industry, in particular to the processing of spherical optical surfaces with a ring diamond tool.

A device is known for processing spherical optical surfaces with a diamond ring tool, which comprises a tool spindle, a product spindle with a feed air drive and a load, an adjustable stop mounted on the body to interact with the spindle kick, and a damping mechanism associated with the product spindle by means of a two-shouldered lever [11. A disadvantage of the known design is the difficulty of setting up the machine for the size of the processed sphere, due to the fact that the position emphasis is not agreed with the beginning of the working feed.

The purpose of the invention is to simplify the adjustment to the size of the workpiece.

This goal is achieved in that a device for processing spherical optical parts, comprising a tool spindle installed in the housing, a product spindle with a pneumatic feed drive and a load, an adjustable stop mounted on the housing with the ability to interact with the product spindle kick, and a damping mechanism associated with the product spindle by means of a two-shouldered lever, it is equipped with an additional lever, one shoulder of which is connected with an adjustable emphasis, and the other with the body of the damping mechanism, and the latter is mounted in a housing device for axial displacement.

The drawing shows a kinematic diagram of the device.

The device comprises a spindle 1 with a tool 2. Spindle 1 has adjusting movements in three planes to obtain a given spherical surface of the workpiece 3. The spindle 4 of the product is connected to an electric motor

5. The pin 6 is placed in the housing 7. The pin 6 is connected by a lever 8 to the load 9 and the pneumatic actuator 10. The pin 6 has a supporting surface 11. An adjustable stop 12 with a handle 13 is installed in the case 7. The device is equipped with a two-arm lever

14. One shoulder of this lever with a roller 15 is located between the abutment 12 and the supporting surface I.

The second shoulder interacts with the rod 16 of the hydraulic damping mechanism 17. The latter is installed in the guides 18 and contains a housing 19, a piston 20, a spring 21. Above the rod 16 is installed ⁵ flax slide 22, through a screw pair 23 connected to the flywheel 24. The nut of the screw pair is fixed in movable housing 19 of the damper mechanism 17.

The housing 19 with a two-arm lever 25 is pivotally connected to an adjustable stop 12. The throttle 26 is connected to the handle 27. The indicator 28 is connected to the shoulder of the lever 14.

The device operates as follows.

The spindle 1 of the tool 2 and the spindle 15 4 of the product 3 are rotated. When moving the spindle 1 in three planes, the spherical surface of the product 3 is adjusted to a predetermined radius of curvature R.

₂ θ When the pneumatic actuator 10 is turned on while the piston is moving down, the load 9 moves the pin 6 upward until the supporting surface 11 of the pin 6 comes into contact with the roller 15 of the lever 14.

Moving the slider 22 with the flywheel

24 pre-set the gap and between the roller 15 and the stop 12 corresponding to the size of the working feed. While the shoulder of the lever 14 is in contact with the rod 16 and the slider 22 under the action of the spring 21.

When the pneumatic actuator 10 is repeatedly turned on and the handle 13 is rotated, the final frame h value corresponding to the thickness of the product 3 is set. Moreover, the value a between the roller 15 of the lever 14 and the stop 12 remains unchanged as a result of the movement of the damper body 19. When the handle 27 of the damper inductor 26 is rotated, feed rate. The movement of the pintles is visually observed by indicator 28.

before Then the processing of the product 3 by tool 2.

When the pneumatic actuator 10 is turned on under the influence of the load 9, the spindle is fed in quickly until the supporting surface 11 of the pin 6 comes into contact with the 45 roller 15 of the lever 14. When the damper 17 acts through the lever 14 on the pin 6, the working feed takes place.

The proposed device can significantly simplify the process of setting up the device to provide a given ⁵⁰ height of the workpiece.

Claims (1)

DEVICE FOR PROCESSING SPHERICAL OPTICAL DETAILS, comprising a tool spindle installed in the housing, a product spindle with a pneumatic feed drive and a load, an adjustable stop mounted on the housing to interact with the product spindle kick, and a damping mechanism connected to the product spindle by a two-shoulder lever that, in order to simplify the adjustment to the size of the workpiece, it is equipped with an additional two-arm lever, one shoulder of which is connected with an adjustable stop, and the other is with the housing of the damping mechanism, the housing of the latter being mounted in the device housing with the possibility of axial movement.