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    • 8. 发明授权
    • Spacer grid for nuclear reactor fuel assemblies
    • 用于核反应堆燃料组件的间隔电网
    • US07769125B2
    • 2010-08-03
    • US10773733
    • 2004-02-05
    • Kyung-Ho YoonHeung-Seok KangHyung-Kyu KimKee-Nam SongYeon-Ho JungTae-Hyun ChunDong-Seok OhWang-Kee In
    • Kyung-Ho YoonHeung-Seok KangHyung-Kyu KimKee-Nam SongYeon-Ho JungTae-Hyun ChunDong-Seok OhWang-Kee In
    • G21C3/356
    • G21C3/322G21C3/352G21C3/3563G21Y2002/201G21Y2002/206G21Y2002/303G21Y2002/304G21Y2004/30G21Y2004/302Y02E30/32Y02E30/38
    • A spacer grid used for placing and supporting fuel rods in nuclear reactor fuel assemblies is disclosed. The spacer grid of this invention has a plurality of inner strips intersecting each other to form a plurality of guide tube cells and a plurality of fuel rod cells, with a plurality of mixing blades projecting upward from the inner strips at intersections of the inner strips. The spacer grid further includes a plurality of perimeter strips to encircle the intersecting inner strips. Each of the perimeter strips is fabricated with a plurality of unit intermediate strips and a plurality of unit corner strips, with a grid spring provided on each of the unit strips. The grid spring includes a vertical opening formed at a central area of each of the unit strips, a vertical support part extending vertically between the central portions of top and bottom edges of the vertical opening, and a fuel rod support part provided at a central portion of the vertical support part while being bent to have an outward rounded cross-section. The vertical support part is bent at two steps, and the fuel rod support part is bent to be in equiangular contact with each of the fuel rods, thus accomplishing a uniform contact pressure distribution when the fuel rod support part is in contact with each of the fuel rods.
    • 公开了一种用于将燃料棒放置和支撑在核反应堆燃料组件中的间隔栅格。 本发明的隔离栅格具有多个彼此相交的内条,以形成多个导管单元和多个燃料棒单元,多个混合叶片在内条的相交处从内条向上突出。 间隔网格还包括多个周边条,以包围相交的内条。 每个周边条带都具有多个单位中间带和多个单位角条,其中每个单位条带上均设有格栅弹簧。 格栅弹簧包括形成在每个单元条的中心区域处的垂直开口,在垂直开口的顶部和底部边缘的中心部分之间垂直延伸的垂直支撑部分,以及设置在中心部分的燃料棒支撑部分 的垂直支撑部分,同时弯曲成具有向外的圆形横截面。 垂直支撑部弯曲两步,燃料棒支撑部弯曲成与各燃料棒等角接触,从而当燃料棒支撑部与每个燃料棒接触时实现均匀的接触压力分布 燃料棒。
    • 9. 发明申请
    • Spacer grid for nuclear reactor fuel assemblies
    • 用于核反应堆燃料组件的间隔电网
    • US20050105677A1
    • 2005-05-19
    • US10773733
    • 2004-02-05
    • Kyung-Ho YoonHeung-Seok KangHyung-Kyu KimKee-Nam SongYeon-Ho JungTae-Hyun ChunDong-Seok OhWang-Kee In
    • Kyung-Ho YoonHeung-Seok KangHyung-Kyu KimKee-Nam SongYeon-Ho JungTae-Hyun ChunDong-Seok OhWang-Kee In
    • G21C3/34
    • G21C3/322G21C3/352G21C3/3563G21Y2002/201G21Y2002/206G21Y2002/303G21Y2002/304G21Y2004/30G21Y2004/302Y02E30/32Y02E30/38
    • A spacer grid used for placing and supporting fuel rods in nuclear reactor fuel assemblies is disclosed. The spacer grid of this invention has a plurality of inner strips intersecting each other to form a plurality of guide tube cells and a plurality of fuel rod cells, with a plurality of mixing blades projecting upward from the inner strips at intersections of the inner strips. The spacer grid further includes a plurality of perimeter strips to encircle the intersecting inner strips. Each of the perimeter strips is fabricated with a plurality of unit intermediate strips and a plurality of unit corner strips, with a grid spring provided on each of the unit strips. The grid spring includes a vertical opening formed at a central area of each of the unit strips, a vertical support part extending vertically between the central portions of top and bottom edges of the vertical opening, and a fuel rod support part provided at a central portion of the vertical support part while being bent to have an outward rounded cross-section. The vertical support part is bent at two steps, and the fuel rod support part is bent to be in equiangular contact with each of the fuel rods, thus accomplishing a uniform contact pressure distribution when the fuel rod support part is in contact with each of the fuel rods.
    • 公开了一种用于将燃料棒放置和支撑在核反应堆燃料组件中的间隔栅格。 本发明的隔离栅格具有多个彼此相交的内条,以形成多个导管单元和多个燃料棒单元,多个混合叶片在内条的相交处从内条向上突出。 间隔网格还包括多个周边条,以包围相交的内条。 每个周边条带都具有多个单位中间带和多个单位角条,其中每个单位条带上均设有格栅弹簧。 格栅弹簧包括形成在每个单元条的中心区域处的垂直开口,在垂直开口的顶部和底部边缘的中心部分之间垂直延伸的垂直支撑部分,以及设置在中心部分的燃料棒支撑部分 的垂直支撑部分,同时弯曲成具有向外的圆形横截面。 垂直支撑部弯曲两步,燃料棒支撑部弯曲成与各燃料棒等角接触,从而当燃料棒支撑部与每个燃料棒接触时实现均匀的接触压力分布 燃料棒。
    • 10. 发明授权
    • Duct-type spacer grid with swirl flow vanes for nuclear fuel assemblies
    • 具有用于核燃料组件的旋流流动叶片的管道型间隔栅格
    • US06393087B1
    • 2002-05-21
    • US09439713
    • 1999-11-12
    • Dong-Seok OhTae-Hyun ChunWang-Kee InKee-Nam SongHyung-Kyu KimHeung-Seok KangKyung-Ho YoonYoun-Ho Jung
    • Dong-Seok OhTae-Hyun ChunWang-Kee InKee-Nam SongHyung-Kyu KimHeung-Seok KangKyung-Ho YoonYoun-Ho Jung
    • G21C334
    • G21C3/322G21C3/344G21C3/3566G21Y2002/201G21Y2002/303G21Y2004/30Y02E30/38
    • A duct-type spacer grid for nuclear fuel assemblies is disclosed. In this spacer grid, a plurality of duct-shaped grid elements, individually having an octagonal cell, are closely arranged in parallel and are welded together, thus forming a matrix structure. The grid elements do not pass across the center of the subchannel of the assembly, thus effectively reducing pressure loss. Each of the grid elements is formed as an independent cell, and so they effectively resist against a lateral impact. A plurality of integral type swirl flow vanes, having different heights or same height, axially extend from the top of the grid to be positioned within each subchannel. The swirl flow vanes are bent outwardly, and so they do not contact the fuel rods during an insertion of the fuel rods into the cells. In the spacer grid, the fuel rods are supported within the cells by line contact springs without using any dimple. The spacer grid thus uniformly distributes its spring force on the fuel rods and almost completely prevents damage of the fuel rods due to fretting wear.
    • 公开了一种用于核燃料组件的导管型间隔栅格。 在这种间隔栅格中,多个具有八边形单元格的管状栅格元件被平行地紧密排列并且被焊接在一起,从而形成矩阵结构。 网格元件不会穿过组件的子通道的中心,从而有效地减少压力损失。 每个栅格元件形成为独立的单元,因此它们有效抵抗横向冲击。 具有不同高度或相同高度的多个整体式涡流流动叶片从网格的顶部轴向延伸以定位在每个子通道内。 涡流流动叶片向外弯曲,因此在将燃料棒插入单元中时它们不接触燃料棒。 在间隔网格中,燃料棒通过线接触弹簧支撑在电池内,而不使用任何凹坑。 间隔栅格因此将其弹簧力均匀地分布在燃料棒上,并几乎完全防止由于微动磨损导致燃料棒的损坏。