Track planning method of turning curved surface zone having equal scallop-height into cutter processing

A technology of equal residual height and machining trajectory, which is applied in the direction of electrical program control and digital control, can solve problems such as the problem of joint tool marks, and achieve the effects of ensuring processing quality, high-precision and efficient machining, and reducing joint tool marks

Active Publication Date: 2018-01-09
DALIAN UNIV OF TECH
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Problems solved by technology

However, this method only considers the machining trajectory planning of each machining area, and does not discuss the problem of connecting tool marks at the border of adjacent machining areas, which has certain limitations

Method used

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  • Track planning method of turning curved surface zone having equal scallop-height into cutter processing
  • Track planning method of turning curved surface zone having equal scallop-height into cutter processing
  • Track planning method of turning curved surface zone having equal scallop-height into cutter processing

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Embodiment Construction

[0093] The specific implementation manner of the present invention will be described in detail in conjunction with the technical scheme and the accompanying drawings.

[0094] When the curved surface is divided into different cutting tools, the initial planning of the machining path is carried out separately for each processing area, resulting in obvious tool marks at the border of adjacent processing areas, which seriously affects the quality of surface processing. In response to this situation, in order to reduce the tool marks at the boundary of adjacent processing areas, a method for planning the machining trajectory of curved surfaces with equal residual heights and variable tool machining paths was invented. The overall process is shown in the attached figure 1 shown.

[0095] Taking different milling cutters milling the saddle surface as an example, with the help of UG software and MATLAB software, the implementation process of the present invention is described in deta...

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Abstract

The invention discloses a track planning method of turning curved surface zone having equal scallop-height into a cutter processing, which belongs to the technical field of highly-precise and highly-efficient milling and processing of complicated curved surface parts. The track planning method of turning curved surface zone having equal scallop-height into a cutter processing comprises the steps of conducting zone partitioning on the curved surface based on the geometric features and processing requirement of the curved surface; determining the boundary of adjacent processing zones; conductingthe initial plan of equal scallop-height processing track on different processing zones. Through analyzing the geometric features of boundary, the geodesic radius of curvature and the cutter space along the space direction can be calculated, and the cutter contact point and cutter position point corresponding to any points on the boundary of adjacent processing zones can be resolved. The cutter position points form the cutter point boundary through interpolation and fitting. The invention is advantageous in that planning can be conducted with the cutter position point being the constraint, and it can be guaranteed that the cutter position point falls in the cutter position point boundary and on the boundary; the cutter position point can be adjusted, so that the error brought by planningcan be homogenized; the method is suitable for turning the complicated curved surface into cutter processing, and gear mark can be reduced, and processing quality can be improved.

Description

technical field [0001] The invention belongs to the technical field of high-precision and high-efficiency milling processing of complex curved surface parts, and relates to a method for planning a machining trajectory of a curved surface with equal residual heights and variable cutting tools. Background technique [0002] Complex surface parts are widely used in various fields such as aerospace, automobiles, ships, etc. Nowadays, complex surface modeling technology has gradually matured, but how to realize high-precision and efficient machining of complex surface parts is still a research hotspot and difficulty. As the surface structure becomes more and more complex, the general processing method using uniform process parameters for global processing is less applicable, especially for complex surface parts with local geometrical abrupt changes. In order to meet the processing accuracy requirements of local geometrically rapidly changing complex surfaces, improve processing e...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G05B19/19
Inventor 马建伟赵孝轩贾振元秦逢泽张宁
Owner DALIAN UNIV OF TECH
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