Segment-by-segment forming method for large curved surface adopting discrete die

A discrete mold and mold surface technology, applied in the field of metal plastic processing, can solve problems such as technical difficulties, high production costs of large three-dimensional curved surface parts, and high manufacturing costs

Inactive Publication Date: 2016-02-24
JILIN UNIV
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Problems solved by technology

Mold forming has good quality and high precision, and is an effective method for processing curved surface parts. However, the size of the curved surface processed by the traditional integral forming method cannot exceed the forming area of ​​the mold. Therefore, large-scale curved surface parts require large molds and large table processing equipment. Due to the high cost of large-scale mold manu

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  • Segment-by-segment forming method for large curved surface adopting discrete die
  • Segment-by-segment forming method for large curved surface adopting discrete die
  • Segment-by-segment forming method for large curved surface adopting discrete die

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specific Embodiment approach

[0059] The segment-by-section forming method for large curved surfaces involved in the present invention uses a set of discrete upper mold 1 and lower mold 2 with adjustable profiles as forming tools, such as figure 1 As shown, the discrete upper mold 1 and the lower mold 2 are composed of m columns and n rows of basic units 8 arranged regularly. The height of each basic unit can be adjusted, and its top is a spherical cap. The profile surface 9 of the upper mold 1 is formed by the envelope surface of the basic body unit 8 of the upper mold, the profile surface 10 of the lower mold 2 is formed by the envelope surface of the basic body unit 8 of the lower mold, and the profile surface 9 of the discrete mold is The curved surface shape of the upper mold surface 10 is controlled by the height of each basic unit 8 .

[0060] refer to figure 2 and image 3 , the large sheet material 3 is sequentially divided into N forming sections, and each section is subjected to counter-press...

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Abstract

The invention provides a segment-by-segment forming method for a large curved surface adopting a discrete die. A large 3D curved-surface part is difficult in forming, and in a conventional integral stamping forming method, a large die is needed, large or extra-large table facet machining equipment is required, and therefore, the production cost of large 3D curved-surface parts is extremely high. According to the invention, a set of discrete profile adjustable die is adopted, a to-be-formed large curved surface is sequentially divided into a plurality of segments with size equal to that of the forming area of the die; during forming of each segment, the discrete die is divided into an effective forming area and a forming transition area; and by reasonably designing the profile shape of the die of the forming transition area, deformation of joint part of adjacent forming segments are in uniform transition, so as to avoid production of forming defects, and the large curved-surface part is finally obtained after segment-by-segment forming. The method disclosed by the invention only needs one set of discrete die, and with small equipment, large-size parts can be formed, and quick machining of large curved-surface parts with low cost can be achieved.

Description

technical field [0001] The invention belongs to the field of metal plastic processing, and relates to a sheet material forming method, which is suitable for fast and low-cost processing of large three-dimensional curved surface parts. Background technique [0002] At present, there is an increasing demand for large three-dimensional curved surface parts in the manufacturing fields of ships, airplanes, high-speed trains, chemical containers, etc., as well as in modern architectural structures and urban sculptures. Mold forming has good quality and high precision, and is an effective method for processing curved surface parts. However, the size of the curved surface processed by the traditional integral forming method cannot exceed the forming area of ​​the mold. Therefore, large-scale curved surface parts require large molds and large table processing equipment. Due to the high cost of large-scale mold manufacturing, the high cost of large-scale equipment, and the high produc...

Claims

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Application Information

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IPC IPC(8): B21D22/02B21D37/10
Inventor 蔡中义常若寒梁晓波刘纯国李明哲
Owner JILIN UNIV
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