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Numeric control bending core mould of thin-wall tube with large diameter

A thin-walled, large-diameter technology, applied in the field of machining, can solve the problems of excessive contact, increase the degree of thinning of the wall thickness of the pipe, and the inability to achieve deformation coordination, so as to reduce the degree of thinning and the possibility of reducing the possibility. Effect

Inactive Publication Date: 2010-06-30
CHENGDU AIRCRAFT INDUSTRY GROUP
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Problems solved by technology

The disadvantage of this structure is that due to the characteristics of the symmetrical structure, the range of interference between the core head and the core head during rotation is relatively large. The deformation of the bending radius is coordinated; at the same time, because the symmetrical core structure is prone to excessive contact with the outer arc surface of the pipe, the degree of wall thickness reduction of the pipe is increased
In the invention patent application document with the application number 200710018458.X, a design of a mandrel for flexible pipe bending is disclosed. Although the mandrel of this design can increase the degree of rotation of the mandrel during the pipe bending process, the invention still uses Symmetrical core head, so it is not applicable to the CNC bending process of aluminum alloy large-diameter thin-walled tubes

Method used

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  • Numeric control bending core mould of thin-wall tube with large diameter
  • Numeric control bending core mould of thin-wall tube with large diameter
  • Numeric control bending core mould of thin-wall tube with large diameter

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Embodiment Construction

[0033] exist figure 1 , figure 2 In , the difference between the shape and structure of the eccentric core and the symmetrical core is expressed, where O is the center of the core, k is the thickness of the core, and h is the eccentric distance.

[0034] exist figure 2 In this embodiment, the eccentric core head 2 is adopted for aluminum alloy pipes with a wall thickness of 1 mm and diameters D of 50 mm, 70 mm, 80 mm and 100 mm respectively, that is, the center of the ball of the eccentric core head 2 is not located in the core body. The geometric center of the core head, the eccentric degree of the eccentric core head 2 is the ratio of the eccentric distance of the eccentric core head 2 to the thickness of the eccentric core head 2, that is, under the same thickness of the eccentric core head 2, the smaller the eccentric distance of the eccentric core head, the smaller the eccentric core head The greater the degree of eccentricity of the head.

[0035] exist Figure 5 ,...

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Abstract

The invention discloses a numeric control bending core mould of a thin-wall tube with the large diameter, which comprises a core mould core rod (1), eccentric core heads (2), an intra-core head connecting member (3) and a spring (4). The numeric control bending core mould of the thin walled tube with the large diameter is characterized in that the core mould core rod (1) is connected with the eccentric core heads (2) and the eccentric core heads (2) by using a ball-and-socket structure, and the spring (4) clamps the intra-core head connecting member (3) on the eccentric core heads (2), and ball centers of the eccentric core heads (2) are in the position of the core head body instead of a geometric centre of the core head. By using the core mould, the numeric control bending core mould is adapted to bending deformation of tubing in various bending radiuses, has a significance for high-quality stable formation of the thin walled tube with the large diameter in the small bending radius, and can reduce the crinkling probability and the thin reduction degree of the tubing and improve bending quality of a conduit under a condition of no increasing flattened degree.

Description

technical field [0001] The invention relates to the field of mechanical processing, in particular to a numerically controlled bending mandrel for an aluminum alloy large-diameter thin-walled tube and a design method for the eccentric mandrel. Background technique [0002] With the increase of the diameter of the aluminum alloy tube and the decrease of the bending radius, the wrinkling of the aluminum alloy large-diameter thin-walled tube will become more and more likely to occur during CNC bending. At present, the industry often adopts the method of reducing the contact gap between the pipe and the mold to reduce the possibility of pipe wrinkling, but this will increase the degree of thinning and flattening of the pipe. In the CNC bending process of aluminum alloy large-diameter thin-walled tubes, the parameters of the mandrel will have an important impact on the wrinkling, thinning and flattening of the tubes. Traditional thin-walled pipe CNC bending mandrel head structure...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B21D9/03
Inventor 李光俊刘跃文
Owner CHENGDU AIRCRAFT INDUSTRY GROUP
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