Probe-shaped electrorheological polishing tool

A polishing tool, electrorheological technology, applied in the direction of manufacturing tools, surface polishing machine tools, grinding/polishing equipment, etc., can solve the problems of difficult tool design, difficult electrorheological effect, low safety, etc., to improve the microscopic quality Effect

Inactive Publication Date: 2009-08-05
BEIJING INSTITUTE OF TECHNOLOGYGY
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] The purpose of the present invention is to design a point-contact deterministic polishing tool integrating negative and positive electrodes, so as to solve the problems of difficult tool design, low safety, and difficult realization of controllable electrorheological effects in electrorheological polishing technology. To solve the problem, provide a special tool with compact structure, high integration, miniaturized working area, and deterministic polishing

Method used

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  • Probe-shaped electrorheological polishing tool
  • Probe-shaped electrorheological polishing tool
  • Probe-shaped electrorheological polishing tool

Examples

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Embodiment

[0021] A probe-shaped electrorheological polishing tool of the present invention such as figure 1 and figure 2 As shown, the motor 1 is installed on the overall bracket 2 through positioning slots and nuts; the central shaft 3 is connected to the motor 1 through a coupling 4, and the central shaft 3 is connected to the ground as the cathode; the three support rods 5 are evenly spaced according to the equilateral triangle Distributed and fixed with the overall bracket 2 through threads; the three terminal posts 6 are evenly distributed according to the plane equilateral triangle, respectively corresponding to the positions of the through holes at the lower ends of the three support rods 5 and connected with the taper sleeve 7 through the through holes; the center of the taper sleeve 7 is opened The through hole is connected to the anode of the power supply through the terminal 6; the central shaft 3 passes through the central through hole of the taper sleeve 7 and forms a prob...

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Abstract

The invention relates to an electrorheological effect-based probe-type electrorheological fluid-assisted polishing tool. A motor drives a center shaft to rotate through a coupler; the center shaft passes through a central through of a taper sleeve and vertically forms a probe type convex end downward; and the taper sleeve is positioned by three wiring terminals arranged in a equilateral triangle shape through three supporting rods to ensure the coaxiality with the center shaft. The center shaft is earthed to serve as a cathode, the taper sleeve is connected with a power supply anode through a wiring terminal, the center shaft and the taper sleeve form a ring electrode, the electrode clearance is kept at 0.3 millimeter, and an insulating sleeve is arranged between the electrodes. In the processing process, an electric field of 2,000 to 5,000 V / mm is applied to electrorheological fluid; a loose abrasive material capable of polishing is carried by the electrorheological fluid to gather at the probe type convex end of the center shaft to form a ring chain structure under the special Winslow effect of electrorheological fluid, namely, an effect of obvious viscosity increase under the action of the electric field; and the loose abrasive material removes the surface material of workpieces through the relative motion of the workpieces. The tool is suitable for polishing minor-caliber optical special curved surfaces.

Description

technical field [0001] The invention relates to a probe type polishing tool based on electrorheological effect. The utility model belongs to the field of optical surface processing tools. Background technique [0002] In modern optical systems, optical curved surface components such as aspheric surfaces are used to correct aberrations and improve image quality, which can greatly simplify the design of optical systems and structures. Compared with the large-aperture or even super-large-aperture aspheric elements (above 800 mm) used in large-scale space remote sensing or ground observation instruments, it meets the needs of miniaturization and high integration technologies such as optical digital communication equipment, modern lighting and imaging systems The high-quality and rapid optical processing of small-caliber to micro-caliber optical curved surface components (caliber only 10 mm to 0.8 mm) required by progress is a type of advanced optical manufacturing technology th...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B24B31/112
Inventor 程颢波任力强冯云鹏王涌天
Owner BEIJING INSTITUTE OF TECHNOLOGYGY
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