SU1011356A1 - Method and apparatus for working the surfaces of optical parts - Google Patents

Description

2. A device for surface treatment of optical parts, an enclosing housing, an independent separator with jacks for preparation and rotational drives of instruments with the loading mechanism of the latter, while the driving element of one of the instruments is designed as a groove designed for contact with the surface c. one of the tools, and another of the drives is installed with the possibility of interacting with the spindle of another tool, characterized in that, in order to increase productivity, it is provided with a holder designed, l accommodate the tool spindle, and the cam mounted on it, the loading mechanism and the driving element are in the form of an elastic cylinder with a groove

asymmetrical profile on the outer surface and the body is made in the form of a ring with stops, while the holder is mounted coaxially to the cylinder with the possibility of elastic vibrations, and the tool spindle is mounted coaxially to the workpiece slot with the ability to interact with its end face with the body, and the cam with the body stop The rotational drive of the tool spindle is made in the form of a tooth cone gear, one of the gear wheels of which is rigidly connected to the cylinder and mounted coaxially with it, and the other is placed on the tool Mr. Spindle.

3, the apparatus according to claim 2, characterized in that it is provided with additional tool spindles with cams.

The invention relates to the processing technology of optical parts and washing sets to be used in instrument making in the manufacture of optical lenses.

There is a method of surface treatment of optical parts, in which the workpiece is placed in a separator between two tools mounted rotatably, implemented by a device for carrying out this method, comprising a housing carrying a separator with sockets for 3aroTOBky and rotation drives of tools with loading mechanisms of the latter, while leading the drive element of one of the tools is made in the form of a gutter intended for contact with the surface of one of the tools and the other of the drives Set up to interact with the spindle of another tool

The processing capacity using a known method and device is limited by the fact that the rotation of one of the tools is set relative to an axis close to its axis of symmetry.

The purpose of the invention is to increase processing performance.

The goal is achieved by the method of processing optical parts, in which the workpiece is placed in a separator between two tools installed rotatably, the symmetry axes of the instruments are arranged coaxially with the axis of the workpiece, one of the instruments is reported additional rotation around the axis perpendicular to the axis of symmetry of the instrument, and the other tool is rotated at a periodically 5 variable speed.

An apparatus for carrying out the above method, comprising a housing carrying a separator with workpieces for the workpieces and rotation drives of the tool with the loading mechanism of the latter, with the driving element

. the drive from one of the tools is designed as a gutter, designed for contact with the surface

C of one of the tools, and the other of the drives is installed with the possibility of interaction with the spindle of the other tool, equipped with a holder,. designed to accommodate the tool spindle, and the cam mounted on it, the loading mechanism and the driving element of the drive are made in the form of an elastic cylinder with a groove of an asymmetrical profile on the outer surface, and the casing is complete in the form of a ring with stops, while the yoke is installed coaxially to the cylinder with the possibility of elastic vibrations, and the tool spindle is mounted coaxially to the workpiece nest with the ability to interact with its end face with the body, and the cam with the stop | the rotation of the tool spindle is made in the form of a gear conical

5 gears, one of the gears

which is rigidly connected to the cylinder and is installed coaxially with it, and the other is placed on the tool spindle.

In addition, it is equipped with additional tool spindles with cams.

FIG. 1 shows a device, along a sectional view, FIG. 2, a section A-A in FIG. 1, in FIG. 3 is a section BB in FIG.

The device comprises a body 1, made in the form of a ring with stops 2f carrying a separator 3 with slots under the workpiece 4, which is placed between two tools 5 and b mounted on the axis of the socket. Under the workpiece 4. The explosive element driving one of the tools 5 as which can be used ball, made in the form of an elastic balloon 7 with the groove of an asymmetrical profile in contact with the tool 5.

 The cylinder 7 is mounted on a hollow shaft 8, through which compressed air is supplied. Due to its elasticity as a result of filling with compressed air, the balloon 7 presses the tool 5 and the workpiece 4 to the tool b mounted on the spindle 8 carrying the cam 10. The spindle 9 is housed in the holder 11 oscillating about the axis under the action of the cam 10 and the spring 12. cylinder 1, The axial force arising during processing is transmitted to the body 1 by the spindle face. The tool drive is made in the form of a gear bevel gear, the gear wheel 13 of which is rigidly seated on the shaft 8, and the gear wheel 14 is fixed on the spindle 9. The rotation of the tools 5 and b is set from the electric motor 15 through the gear wheels 16 and 17.

The device works as follows.

The workpiece 4 is placed in the slots

o separator 3 between the zoom tools 5 and b, which rotate from the electric motor 15 through the gears 16, 17, the cylinder 7 and the gears 13 and 14. The symmetry axes of the instruments 5 and b are arranged coaxially with the axis of the workpiece 4, the flange 7 is filled with compressed air By creating this, it is necessary to process it. Tool 5 with the help of ditching asymmetric profile points-.

9 by 7, an additional rotation is set around the axis, perpendicular to the axis of symmetry of the tool 5, and the tool 6 is rotated at a periodically varying speed. The change in speed occurs due to the contacting of the cam 10 sitting on the spindle 9 with the emphasis of the housing 1, which causes the casing 11 to oscillate.

Considered method and device

0 for its implementation in comparison with the prototype, they allow to obtain higher performance when processing optical components of the lens type.

Claims (3)

(57) 1. The method of surface treatment of optical parts, in which the workpiece is placed in a separator between two tools mounted for rotation, characterized in that, in order to improve processing performance, the symmetry axis of the tools are aligned with the workpiece axis, and one additional rotation about an axis perpendicular to the symmetry axis of the instrument is reported from the tools, and the other tool is rotated with a periodically changing speed. 2. A device for processing surfaces of optical parts, containing a housing, a separator with sockets for workpieces, and rotary drives of tools with a loading mechanism for the latter, while the drive drive element of one of the tools is made in the form of a groove intended for contact with surface c. . of one of the tools, and the other of the drives is installed with the possibility of interaction with the spindle of another tool, characterized in that, in order to increase productivity, it is equipped with a clip designed to accommodate the tool spindle and a cam mounted on it, a loading mechanism and a drive drive element made in the form of an elastic cylinder with an asymmetric profile groove on the outer surface ι and the body is made in the form of a ring with stops, while the holder is mounted coaxially with the cylinder with the possibility elastic vibrations, and the tool spindle is mounted coaxially to the socket under the workpiece with the possibility of interaction with its end face, with the body, and the cam with the body stop, and the drive rotation of the tool spindle is made in the form of a bevel gear, one of the gears of which is rigidly connected to the cylinder and mounted coaxially him, and the other is placed on the tool spindle. 3. The device according to p. 2, characterized in that it is equipped with additional tool spindles with cams.