Processing method of high-precision thin-walled copper parts

A processing method and high-precision technology, applied in the field of processing high-precision thin-walled copper parts, can solve the problems of increased processing difficulty, easy deformation, and easy heating of copper parts, and achieve convenient processing methods, good clamping performance, and processing efficiency high effect

Active Publication Date: 2022-05-24
武汉重工铸锻有限责任公司
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Difficulties in processing thin-walled copper parts: (1) The wall of copper parts is thin, and it is easy to deform when clamping; (2) Copper parts are easily heated when heated, resulting in thermal deformation
The above two deformations lead to the cylindricity of the inner hole of the thin-walled copper parts cannot be guaranteed. With the increase of the length of the copper part, the diameter of the inner hole increases, and the processing difficulty will increase exponentially.

Method used

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  • Processing method of high-precision thin-walled copper parts
  • Processing method of high-precision thin-walled copper parts
  • Processing method of high-precision thin-walled copper parts

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Embodiment Construction

[0028] The present invention will be further described in detail below with reference to the accompanying drawings and specific embodiments.

[0029] like figure 1 The shown high-precision thin-walled copper parts processing and positioning tooling includes a coupling sleeve 4, a coupling bolt 5, and a spring washer 6; the inner hole 41 of the coupling sleeve 4 is matched with the outer circle of the process chuck 3 of the copper part, and the gap is 0.1~ 0.2mm. The end face of the coupling sleeve 4 is evenly provided with a plurality of bolt holes 42 along the circumferential direction. The bolt holes 42 correspond to the threaded holes on the end face of the process chuck 3 one by one. Threaded holes are connected. In addition, a stress groove 2 is provided on the outer circumferential surface of the process chuck 3, and the stress groove has a depth of 8-12 mm and a width of 8-12 mm, which is used to release the processing stress.

[0030] The processing method of high-p...

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Abstract

The invention discloses a processing method of high-precision thin-walled copper parts. The copper parts are installed on a special processing positioning tool and installed on a deep hole drilling and boring machine - a boring head is installed and a wooden key is installed on the boring head, and then semi-finish boring The hole-boring head is retracted, the sharp knife is disassembled, and the boring head is returned to the boring head after the light knife row is finished. The special processing and positioning tooling has good clamping performance, and at the same time provides sufficient clamping force to ensure that there will be no displacement between the workpiece and the tooling. The processing method is convenient and reliable, can effectively reduce the deformation caused by clamping, metal cutting heat and cutting internal stress in the process of processing the inner hole of thin-walled copper parts, and eliminate processing errors at the same time, and has high processing efficiency and stable quality; the processing method of the present invention It can process the inner hole of thin-walled copper parts with a length of more than 3m and an inner hole diameter of more than φ600, and copper parts whose inner hole cylindricity can reach 0.05mm.

Description

technical field [0001] The invention belongs to the technical field of processing inner holes of copper pieces, in particular to a processing method for high-precision thin-walled copper pieces. Background technique [0002] In marine shafting, thin-walled copper parts are very common. They are hot-fitted to bearing positions such as propeller shafts and stern shafts. Therefore, the dimensional tolerances and geometrical tolerances of inner holes are required to be high. Generally, the following methods are used for processing: 1. Using a lathe to process the inner hole, 2. On a CNC boring and milling machine, the requirements are met by boring. [0003] The above two methods are suitable for shorter holes. With the development of our shipbuilding industry, the diameter and length of thin-walled copper parts are getting larger and larger. Lathes and boring and milling machines are limited by the length of turning tool bars and boring bars, which cannot be processed. . We c...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B23P15/00
CPCB23P15/00
Inventor 罗雪松杨汉平桂志刚尹解元刘丹张津培汪超焦壮
Owner 武汉重工铸锻有限责任公司
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