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Copper rotor non-core-puling vacuum die casting mould

A vacuum die-casting and copper rotor technology, applied in the field of die-casting molds, can solve the problems of rotors that cannot be corrected, affect customer use, and insufficient pressure, and achieve the effects of avoiding product eccentricity, reducing the difficulty of vacuum seal design, and reducing the mold assembly area

Active Publication Date: 2018-11-30
云南铜业压铸科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The force is concentrated at the installation position. When the length of the rotor core is long, such as when the length of the middle spindle rotor reaches more than 200m, due to the static mold locking on the parting surface, the pressure on the tail of the upper half block is insufficient, and the mold bulges. The molding force is greater than the pressure of the oil cylinder acting on the tail of the upper half block, which causes the upper half block to be tilted at the far end, which is inclined to the horizontal plane of the die-casting machine, causing the part of the rotor core close to the parting surface to deflect downward, and close to the moving part. The mold part is biased upwards, the center of the produced rotor is not at the same level, the concentricity is poor, which affects the use of customers, and in serious cases, the rotor cannot be corrected and scrapped

Method used

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  • Copper rotor non-core-puling vacuum die casting mould
  • Copper rotor non-core-puling vacuum die casting mould

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Embodiment Construction

[0043] A copper rotor core-free vacuum die-casting mold, comprising a movable template 1, a movable mold pressing plate 6 installed on the movable template, a static template 21 designed corresponding to the movable template 1, and a movable mold insert installed on the movable template 1 5. Connect the upper half block 16 and the lower half block 27 installed on the moving template 1 with the movable template 1, the static mold insert 25 and the pressure chamber 28 installed on the static template 21, the upper half block 16 The copper rotor iron core 15 with dummy shaft 26 is placed in the middle of the lower half block 27, the upper half block 16 and the lower half block 27 are wedge-shaped structures, and the upper half block 16 and the lower half block 27 are connected with the movable template 1 A trapezoidal chute 33,34 is respectively designed at the connection (such as figure 2 shown), the upper wedge-shaped block 14 and the lower wedge-shaped block 2 are respectivel...

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Abstract

The invention discloses a copper rotor non-core-puling vacuum die casting mould which can be used for producing a long iron core copper rotor. According to the mould, a movable template and a core-pulling slide block are machined integrally, and a core-pulling slide block structure is eliminated; through the wedged structure design and rational tolerance design, the problem that the long iron corecopper rotor is eccentric is solved effectively; meanwhile, a casting cavity is used as a first vacuum-pumping system, and a mould space outside the casting cavity is used as a second vacuum-pumpingsystem; gas leaking from a fit clearance, an ejection system and the casting cavity is pumped out, so that the vacuum degree of the casting cavity is achieved effectively; the copper rotor after die casting has high concentricity, and the vacuum die casting process production of such copper rotors is achieved.

Description

technical field [0001] The invention relates to a copper rotor core-free vacuum die-casting die, which belongs to the field of die-casting dies. Background technique [0002] Copper's excellent electrical conductivity, excellent thermal conductivity, and high-pressure casting have the advantages of short molding cycle, high production efficiency, and environmental friendliness, making cast copper rotors widely used in high-efficiency motors with the implementation of motor energy efficiency policies. However, due to the high melting point of copper (the melting point of copper is 1083.4°C), the pouring temperature of die casting copper rotor is higher, resulting in a much higher mold temperature than aluminum die casting, especially for long iron core rotors, which use a large amount of copper, above 10kg , At the moment of injection, the mold temperature can reach more than 800°C in an instant. As a result, during the development of vacuum technology, it was found that conv...

Claims

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Application Information

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IPC IPC(8): B22D17/22B22D17/14
CPCB22D17/14B22D17/22
Inventor 杨红梅梁栋步毅杨旭陈杰王光斌浦周猛杨华忠付志华邓陈兴李继云冯俊峰刘大强晏得才吴文斌蔺高锋沈良弼宋昆杨鏐燚李辉卯明辉赵紧李健李金玉沈浩秦文红乐浩泽李永亮李玉龙郭泽兵李元棚吴荣兴赵宇航张明江李泽玲陆月明者正文杨学磊普春平永建东李嘉霖符光龙张堃管自涛李英访王必仕
Owner 云南铜业压铸科技有限公司
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