http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.
변환된 중국어를 복사하여 사용하시면 됩니다.
분해모델과 구멍 메움 알고리즘을 이용한 냉장고 내부 용적의 자동 계산
박래성(Raesung Park),Jianhui Fu,정융호(Yoongho Jung),박민근(Mingeun Park) (사)한국CDE학회 2017 한국CDE학회 논문집 Vol.22 No.1
Internal capacity of a refrigerator is an important indicator for design and purchasing criteria. The components facing the internal space may have holes or gaps between parts. In traditional way, design engineers manually remodeled the parts to fill the holes and the gaps for enclosed boundary of the internal space. Then they calculated internal volume by subtracting the assembly of parts from its enclosing volume. However, filling holes and gaps is not an automated process requiring a plenty of labor and time. In this research, we have developed a voxel-based method to estimate the internal volume of a refrigerator automatically. It starts transforming all components facing the interior space into voxels and fills all holes and gaps automatically by the developed hole-filling algorithm to form a completely closed boundary of the assembly. Then, it identifies the boundary voxels that are facing to the internal voxels with any part of the component. After getting the intersection points between the boundary voxels and the surfaces of components, it generates the boundary surface of triangular facets with the intersection points. Finally, it estimates the internal volume by adding volume of each tetrahedron composed of a triangle of boundary surface and an arbitrary point.
Jianhui Fu,박래성(Raesung Park),박민근(Mingeun Park),정융호(Yoongho Jung) (사)한국CDE학회 2016 한국 CAD/CAM 학회 학술발표회 논문집 Vol.2016 No.동계
Refrigerator has been used across the various fields in society as a device for keeping cold foods or medications. As the refrigeration technology advances, important issue such as enlargement has been arised. It is therefore important that the design having a maximum internal space volume in a limited space are very important. The internal space of refrigerator is consisted of a component such as a door and the inner case. The volume calculation of that is performed by a Boolean operation function of the 3D CAD software. However, many pre-processing operations by the user, such as hole filling and construction closed space by filling in the gaps between parts take a lot of time. In this research, we developed a decomposition modelbased automatic volume calculation program of refrigerator internal space satisfying the interior volume measurement standard. Though we have developed the program by applying to refrigerator assembly, application of the program can be extended to the assembly made up of many parts.
섬유 복합재 소재의 두께에 따른 강성 해석 정합성 향상 연구
이인제(InJea Lee),박래성(RaeSung Park),장미옥(MiOk Jang),이교민(GyoMin Lee),강인성(InSung Kang),엄정민(JungMin Eom) 한국자동차공학회 2020 한국자동차공학회 학술대회 및 전시회 Vol.2020 No.11
Automotive parts that require rigidity, such as door-modules, FEM carriers and bumpers has been applied with conventional metal materials, but they have been replaced with fiber-reinforced composites to reduce weight. Currently, automotive parts are being developed and applied with low weight parts through thickness thinnering as a weight light trend to improve fuel economy. However, as the thickness decreases, the stiffness decreased, so an analysis technique of materials is required to supplement the stiffness. In this study, the actual deformation that occurs when a load is applied to a specimen injection-molded of PP-GF20 material is measured, and the simulation results are compared with the consistency. In order to increase this consistency, it was possible to increase the consistency from about 60% to more than 80% by adjusting the elasticity of the material input in the structural analysis, and it was found that the elasticity of the material should be applied differently to analysis depending on the thickness of the molded product.
이인제(InJea Lee),김민수(MinSu Park),박래성(RaeSung Park),김영범(YoungBum Kim),강인성(In-Sung Kang),엄정민(JungMin Eom) 한국자동차공학회 2019 한국자동차공학회 부문종합 학술대회 Vol.2019 No.5
The door Module is a structural steel part that is mounted inside a car door and assembled with a window guide rail, door latch and speaker. Steel have been used in the past, but they are being replaced by glass fiber reinforced plastics(GFRP). Due to the demand for lightweight, low density materials gave been developed through thinning thickness of panels and reducing of glass fibers. However, if the thickness is thinner and the fiber content is reduced, the stiffness of the panel is lowered. Therefore, the design and simulation technique for compensating the rigidity of the panel is required. In this study, the actual deformation amount of a door module panel injection molded with PP-GF20 material was measured and the simulation results and the accuracy were compared. By adjusting the flexural modulus of the PP-GF20 material, the accuracy could be increased from about 50% to 85%. It was found that the flexural modulus of the material should be measured in accordance with the molding design characteristics of the actual door panel.