Machining device based on non-Newtonian fluid shear thickening mechanism polishing method

A non-Newtonian fluid, thickening mechanism technology, used in surface polishing machine tools, metal processing equipment, grinding/polishing equipment, etc., can solve the problems of high cost, poor quality control of workpiece edge polishing, poor polishing effect, etc. The effect of strong processing ability, control of processing dwell time and positive pressure, and cost reduction

Active Publication Date: 2013-10-02
ZHEJIANG UNIV OF TECH
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Problems solved by technology

[0005] Aiming at the problems of poor polishing effect, high cost, and poor polishing quality control on the edge of the workpiece in the current polishing device, the present invention proposes a polishing device with wide application range, strong processing ability, high efficiency, low cost, simple device structure and control, and high efficiency. Environmentally friendly processing device based on non-Newtonian fluid shear thickening mechanism polishing method

Method used

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  • Machining device based on non-Newtonian fluid shear thickening mechanism polishing method
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  • Machining device based on non-Newtonian fluid shear thickening mechanism polishing method

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Embodiment Construction

[0023] Further illustrate the present invention below in conjunction with accompanying drawing

[0024] Referring to the attached picture:

[0025] The processing device based on the non-Newtonian fluid shear thickening mechanism polishing method according to the present invention includes a workbench 1, a polishing tool system 2, an abrasive liquid circulation device 3, and a computer control module 4. The polishing tool 2 is installed on the On the gantry 11 on the above-mentioned workbench 1, the inlet of the described abrasive liquid circulation device 3 communicates with the abrasive material return port 12 provided on the above-mentioned workbench 1, and the described workbench 1, polishing tool 2, abrasive The liquid circulation device 3 is respectively connected with the computer control module 4 .

[0026] The workbench 1 has workpiece fixtures for clamping workpieces of various sizes, and has a plurality of degrees of freedom. Under the control of the computer control...

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Abstract

A machining device based on a non-Newtonian fluid shear thickening mechanism polishing method comprises a workbench, a polishing tool system, an abrasive fluid circulation device and a computer control module, wherein the polishing tool system is installed on a portal frame of the workbench, an inlet of the abrasive fluid circulation device is communicated with an abrasive backflow opening in the workbench, and the workbench, the polishing tool system and the abrasive fluid circulation device are respectively connected with the computer control module. The machining device has the advantages that the application range is wide, the size of machined workpieces is not limited, the structure of the device is simple, the device is controlled easily, a computer controls the operation track of the device, the polishing process of non-Newtonian fluid abrasive fluid and the surfaces of the workpieces can be controlled effectively, a non-Newtonian fluid abrasive fluid circulation system is adopted, and the functions of removing abrasive dust, purifying, recycling, transporting and storing the abrasive fluid, and adjusting performance are achieved.

Description

technical field [0001] The invention relates to a processing device based on a non-Newtonian fluid shear thickening mechanism polishing method. Background technique [0002] Various surface-shaped parts are widely used in astronomy, aviation, auto parts, molds and other fields. For example, in the field of astronomical observation, the use of aspheric optical parts can correct various aberrations, improve the identification ability of observation equipment and simplify the structure of equipment; complex curved mirrors can effectively reduce the number of reflections and power loss, and improve the accuracy and stability of equipment. characteristics; with the increasingly complex product shape design and the improvement of precision requirements, more and more complex curved surface shapes are used in molds and auto parts; a large number of mold cavities use complex free-form surfaces; in the field of aviation and navigation, turbofan Parts such as engines, turbine engine ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B24B29/02B24B57/02
Inventor 吕冰海李敏吴喆邓乾发董晨晨孙磊袁巨龙
Owner ZHEJIANG UNIV OF TECH
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