SU975346A1 - Apparatus for working optical parts with aspheric surfaces - Google Patents

Description

(St) DEVICE FOR PROCESSING OF OPTICAL DETAILS WITH ASTHERIC POINT.

Claims (1)

The invention relates to a machine tool industry and can be used in the optomechanical industry when processing parts with aspherical surfaces. A device for treating optical parts with aspherical surfaces is known, which comprises a base with a rotary table mounted on it with an actuator for positioning the part and a tool head associated with the mechanism of its movement. 13. This device, due to the large number of kinematic connections, is complex and complicated, and is distinguished by a relatively low precision of the processed optical components and by a sufficiently high processing performance, as well as considerable difficulties in setting up a mechanical gear. new program. The aim of the invention is to improve the accuracy and productivity of processing. The goal is achieved. the fact that the mechanism for moving the head is made in the form of a traverse connected to the drive, carrying the head and pivotally connected to sliders connected to a source of compressed gas and located on guide lines, one ends of which are hinged to the base, while others are connected to tilt angle correctors, while the device is equipped with linear-grounding sensors mounted on the Table, sliders and correctors, and a control unit whose outputs are connected to table drives, a head movement mechanism ki and correctors, and inputs - to said linear sensors, movement. FIG. 1 schematically shows the proposed device; in Fig. 2, view A on fi. 1. On base 1, a pre-bolt 2 stbl 2 is installed. A head with a working tool C is fixed on a scanning traverse 5 which is pivotally connected to the gas swaths 6 and with their help rests on rails 7 The latter are articulated with tilt angle correctors 8, made, for example, in the form of piezoelectric linear motors, and hinged to base 1. Traverse 5, gas slides 6, guides 7 and correctors 8 of tilt angle form the head movement mechanism 9, in which traverse 5 w arnirno connected with the actuator 10 ,. made, for example, in the form of a linear electromagnetic motor and mounted on the base. The turntable 2, slides 6, and tilt angle correctors 8 are equipped with linear transducers 11, and the head with working tool k is equipped with tool wear sensor 12 to increase machining accuracy. On base 1, a control unit 13 is installed. The machining head 14 is mounted on a turntable. To hold the scanning crosshead 5 in the plane of movement, it is removed by a stabilizer 15, which surrounds it with gas shoes 1b hinged on base 1. Compressed gas source 17 is mounted on base 1 and by means of gas pipelines 18 it is connected to gas punches 6 and gas shoes 16. The turntable 2 has a longitudinal-cross feed and vertical displacement with simultaneous rotation around the axis 00 from the drive. The information inputs of the control unit J 3 are connected to the linear displacement sensors 11 and to the tool, nta sensors 12. The control outputs of the control block 13 are connected to the control windings of the drives 3 and 10 and the tilt angle adjusters. The operation of the device is based on the conversion of the forward movement of the gas sliders 6 along the guides 7 to the j-vectorial movement of the head with the working tool H, at the crosshead 5 installed in the Upperbase, pivotally fastened at the ends with the gas sliders 6. In the initial position, the control unit 13 is laid machining program and modes of operation, calculated for a given part profile. 8 in accordance with a predetermined program, a command is issued to angle offsets 8, which tilt the guides 7 by an angle cL, which determines the trajectory of the head with the working tool 4 (for example, with a disk tool). Modes of operation of the mechanism for moving the head (amplitude and frequency of reciprocating motion) and rotary table 2 (speed of vertical linear movement at zero speed of rotation of the plane of the table or speed of vertical linear movement and angular speed of rotation of the plane of the table) are selected, the working mode of the working tool (angle rotation speed or linear velocity). After setting the modes in accordance with the program, the workpiece 1 is fixed on the turntable 2 and the device is put into operation. When processing, for example, a lens; The turntable 2 rotates it around an axis, and the head with the working tool 4 moves along its convex (or concave) generatrix. At positive values of the angle оС, the trajectory of the head is concave, and for negative values, it is convex. As the allowance is removed from the lens, the turntable 2 raises the workpiece 14 (lens) up. Upon reaching the specified dimensions and the required surface roughness from the control unit 13 (or manually) a command is issued to stop the device. If necessary, for example, processing the planar surfaces of the workpiece H, the turntable 2 does not rotate, but performs only vertical and longitudinal-cross feed. The proposed device can provide processing of optical parts with high-precision aspherical and planar surfaces of convex, concave and non-monotonic with equations, second and high order surfaces with radii of curvature from several meters to infinity. The proposed device, in comparison with the known, has the ability of precision machining of parts with curvilinear, including aspherical, surfaces due to the use of a simpler design mechanism for moving the head with a working tool, the ability of precision machining of parts with curvilinear surfaces, whose axial sections described by equations of higher order (higher than the second), as well as planoid surfaces (with a radius of curvature of the surface equal to infinity), surfaces due to the programmed task during the processing of tilt angles by guides using controlled correctors. In addition | The processing performance of curvilinear surfaces is increased due to measurements by linear displacement sensors in the processing process. Claims An apparatus for processing optical components with aspherical surfaces. comprising a base with an actuator mounted thereon, a rotary table for positioning the part and a tool head associated with the mechanism for moving it, characterized in that, in order to improve the accuracy and productivity of the processing, the mechanism for moving the head is designed as a traverse driven drive the head and shariirno connected with sliders associated with a source of compressed gas and located on the guides, one ends of which are hinged on the base, ai others through hinges They are equipped with tilt angle correctors, while the device is equipped with linear motion sensors mounted on the table, sliders and correctors, and a control unit whose outputs are connected to table drives, head movement mechanisms and correctors, and inputs to said linear sensors. Sources of information taken into account during the examination 1. USSR Author's Certificate No., cl. B 2 B 13/00, .1959. dida Fig2