• Title/Summary/Keyword: 금형 냉각시스템

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Design of Cooling System of Over-molding Mold for Socket Component of Automobile Wiper (자동차 와이퍼 소켓 부품 제작용 오버몰딩 금형의 냉각 시스템 설계)

  • Lee, Dong-Gi;Park, Min-Woo;Ahn, Dong-Gyu
    • Transactions of the Korean Society of Mechanical Engineers A
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    • v.35 no.12
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    • pp.1635-1640
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    • 2011
  • The objective of this study is to design of a cooling system of the over-molding mold for a socket component of an automobile wiper by performing numerical analyses. Hot spots in which the temperature distributions are higher than those of other region, were estimated by an initial over-molding analysis for the initial design of the mold. On the basis of the initial over-molding analysis, two types of cooling system designs with a linear cooling channel and a volumetric heat sink, were considered to improve the cooling characteristics of hot spots. To obtain an appropriate cooling system design, the effects of the diameter and the position of the linear cooling channels on the cooling characteristics and the product qualities were quantitatively examined. In addition, the effects of the design of the volumetric heat sink on the cooling characteristics and deformation distributions in the molded product were investigated. The results of the over-molding analysis of the two types of cooling systems showed that the multi-sliced over-molding mold with a volumetric heat sink can improve both the product quality and the cooling characteristics of the mold.

수직 평판 위에서 과소팽창 제트의 충돌

  • 이택상;신완순;이정민;박종호;김윤곤
    • Proceedings of the Korean Society of Propulsion Engineers Conference
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    • 1999.04a
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    • pp.17-17
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    • 1999
  • 충돌제트는 산업, 항공우주, 군사 분야 등 공학적으로 많은 분야에서 응용되고 있다. 산업분야에서 충돌제트는 설치가 간단하고 형태가 단순하면서도 열 및 물질 전달효과가 상당히 크기 때문에 고효율의 열전달 효과를 얻을 수 있다는 점에서 광범위하게 응용된다. 예를 들면 물체 표면의 부분냉각은 고온 금형의 급속 냉각, 가스터빈 깃의 냉각, 전자부품의 냉각 등에 이용되며 부분 가열에서는 제철, 제지 및 유리공업, 금형의 풀림 등에 폭 넓게 적용된다. 항공우주, 군사분야에서는 수직/단거리 이·착륙기(V/STOL)의 발진, 미사일 발사시스템, 다단 로켓의 분리, 우주공간에서의 도킹, 화염 편향기 등에 적용이 되며 대부분 평판이나 특수한 판의 형상에 과소 팽창제트가 충돌할 때 발생하는 현상에 대한 것이다.

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Reduction of Grain Growth for Al6061 Alloy by the Die Cooling System in Hot Extrusion Process (Al6061 합금의 열간 압출공정에서 금형 냉각시스템에 의한 압출재의 결정립 성장 제어)

  • Ko, Dae-Hoon;Lee, Sang-Ho;Ko, Dae-Cheol;Kim, Ho-Kwan;Kim, Byung-Min
    • Transactions of the Korean Society of Mechanical Engineers A
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    • v.33 no.7
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    • pp.673-680
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    • 2009
  • In this study, die cooling system using the nitrogen gas has been applied to hot aluminum extrusion process for refining grains and reducing of grain growth. Computational fluid dynamics(CFD) has been carried out to evaluate die cooling effect by nitrogen gas, and the results of CFD have been used to FE-simulation for the prediction of the extrudate temperature in hot extrusion process. Experimental hot extrusion has been performed to observe microstructure and to measure temperature of extrudate. The results of FE-Simulation have been good agreement with those of experiment. Finally, process condition of hot extrusion can be established to reduce grain growth of Al6061 through the experiment.

Influence affected on the curvature radius of jar by circuit of cooling temperature and temperature control (냉온회로 및 제어가 JAR곡율반경에 미치는 영향)

  • Shin, Nam-Ho;Choi, Seok-Jong
    • Journal of the Korea Academia-Industrial cooperation Society
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    • v.8 no.6
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    • pp.1313-1318
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    • 2007
  • When the mold is cooled suddenly to reduce the time for forming work and improve the quality of jar50ml which is different highly at rib thickness by a series of various curvature radii, the poor quality of void, flow and deformation happens. The structure of spiral cooling circuit at cavity and core can control the temperature of inner and outer side sufficiently. And the system can control cooling and heating automatically. These things are applied to Jar mold. and so, the best quality and the effect of productivity improvement can be obtained.

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공기공급 시스템에 적용되는 Vortex Tube의 에너지 분리특성에 관한 연구( I ) -저온출구 orifice의 직경변화에 의한 영향-

  • 추홍록;상희선;김순재
    • Proceedings of the Korean Institute of Industrial Safety Conference
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    • 1998.05a
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    • pp.13-18
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    • 1998
  • vortex tube는 간단한 구조의 관을 이용하여 어떠한 화학작용이나 연소작용 없이 압축유체를 저온 및 고온부분으로 분리하는 에너지 분리장치이다. 금속학자 Georges Joseph Ranque에 의해 vortex tube의 에너지분리 현상이 발견된 후 vortex tube는 공작기계에 의한 금속가공에 있어서 가공물의 열변형을 막기 위한 국소냉각, 금형제품의 급속냉각 또는 냉각복(air cooling jacket)에 사용하거나 공기공급식 호흡보호구의 공기공급시스템에 많이 활용되고 있다. vortex tube를 이용한 냉각복 및 호흡보호구는 소형, 경량으로서 근로자의 직접적인 조작이 간단하고, 열기가 신체에 직접적으로 닿지 않아 안전하고, 냉각효율이 높을 뿐만 아니라 매우 경제적이어서 그 이용률이 점차 확대될 전망이다. (중략)

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High Casting Technology for Aluminium Alloy Die Casting (I) (알루미늄합금 다이캐스트 주조기술 고도화(I);주조방안 선정 기술)

  • Kim, Eok-Soo;Lee, Kwang-Hak
    • Journal of Korea Foundry Society
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    • v.18 no.3
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    • pp.211-221
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    • 1998
  • 주조방안이란 주형(금형)에 공동부를 어떻게 설계하고 공동부의 어떤 위치에 어떻게 탕도, 탕구 등을 설계할 것인지, 또 over-flow 및 air-vent는 어떻게 설계하여 가스뽑기 및 용탕을 공동부에 원활히 충진시켜 완전한 제품을 얻을 수 있을까에 대한 제반적인 주조방법의 계획이다. 즉, 용탕을 공동부에 충진시키는 시스템이며, 주조상에 발생하는 제문제 및 주조제품의 품질에 가장 큰 영향을 미치는 요소 중의 하나이다. 따라서 만약 주조방안 시스템이 부적절하여 불량률이 높은 경우에는 대폭적인 금형수정이나 경우에 따라서는 불가피하게 금형을 신작해야 하는 큰 문제도 야기될 수 있다. 또한 기본적인 품질문제로 탕회, 탕경, 크랙 등의 외관불량과 기동 등의 내부결함, 내압불량등도 유발될 수 있다. 그러나 이러한 불량대책으로 쉽게 주조방안을 수정하는 것은 주조 시스템 자체가 변해버리기 때문에 피해야 하며 다른 대책을 선행하여 해결할 수 없었을 때 최종적으로 신중히 검토 후 주조방안을 수정하는 것이 바람직하다. 따라서, 본고에서는 Al합금 다이캐스트 주조기술에 있어 주조품질을 결정하는 중요한 요소인 주조방안의 효과적인 설계를 위한 주조기 선정, 금형분할면 선정, 탕구계의 설계와 탕구선정, over-flow 및 air-vent설계, 수축여유 및 금형냉각방안 선정기술에 대한 기본적 방안을 제시하고 실제 주조방안의 대표적인 사례를 소개하고자 한다.

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Development of Rapid Cooling System using Peltier Device (펠티에 소자를 이용한 급속 냉각시스템의 개발)

  • Jang, M.K.;Lee, G.H.;Noh, K.C.;Jeong, Y.D.
    • Journal of Power System Engineering
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    • v.13 no.4
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    • pp.38-42
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    • 2009
  • The Injection molding is used more than 70% of total production in plastic products. The injection molding process has 4 processes such as filling, packing, cooling and ejecting. now then, cooling process spends the most of times in Injection molding cycle time. Therefore, it is important to control the mold temperature in producing plastic products. The cooling system and time affect the product's quality and productivity. Especially, cooling time has about 60% of total injection cycle time. Therefore, we can improve a productivity by shortening cooling time. In this study, the rapid cooling system was developed and performed a efficiency test. This system could refrigerate coolant to $1^{\circ}C$ and had to need 10 minutes for normal operating.

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A Simulation-based Optimization of Design Parameters for Cooling System of Injection Mold by using ANOVA with Orthogonal Array (직교배열과 분산분석법을 이용한 사출금형 냉각시스템 파라미터의 시뮬레이션 최적설계)

  • Park, Jong-Cheon;Shin, Seung-Min
    • Journal of the Korean Society of Manufacturing Process Engineers
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    • v.11 no.5
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    • pp.121-128
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    • 2012
  • The optimization of cooling system parameters for designing injection mold is very important to acquire the highest part quality. In this paper, the integration of computer simulations of injection molding and Analysis of Variance(ANOVA) with orthogonal array was used as a design tool to optimize the cooling system parameters aimed at minimizing the part warpage. The design optimizer was applied to find the optimum levels of cooling system parameters for a dustpan. This optimization resulted in more uniform temperature distribution over the part and significant reduction of a part warpage, showing the capability of present method as an effective design tool. The whole optimization process was performed systematically in a proper number of cooling simulations. The design optimizer can be utilized effectively in the industry practice for designing mold cooling system with less cost and time.

Development of Rapid Cooling System for Injection Mold (사출금형의 급속냉각시스템 개발)

  • Moon, Young-Bae;Choi, Youn-Sik;Jeong, Yeong-Deug
    • Design & Manufacturing
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    • v.8 no.1
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    • pp.31-34
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    • 2014
  • The Injection molding is used more than 70% of total production in plastic products. The injection molding process has 4 processes such as filling, packing, cooling and ejecting. It spends most of times in the cooling process. Therefore, it is important to control the mold temperature in producing plastic products. The cooling system and time affect the product's quality and productivity. Especially, cooling time has about 60% of total injection cycle time. Therefore, we can improve a productivity by shortening cooling time. In this study, the rapid cooling system was developed and performed a efficiency test. This system could refrigerate coolant to $1^{\circ}C$ and had to need 10 minutes for normal operating. However, if response time of temperature controller and sensor will be increased, the performance of this system will increase.

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