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    • 1. 发明申请
    • CENTRIFUGALLY ROLLING GRANULATING DEVICE AND METHOD OF TREATING POWDER AND GRANULAR MATERIAL USING THE DEVICE
    • 离心轧制颗粒装置和使用该装置处理粉末和颗粒材料的方法
    • WO00074834A1
    • 2000-12-14
    • PCT/JP2000/003645
    • 2000-06-05
    • B01J2/14C04B41/52F27D1/00F27D1/16
    • C04B41/009B01J2/14C04B41/52F27D1/0009F27D1/1652C04B41/4539C04B41/5031C04B41/5035C04B41/4527C04B41/5029C04B41/522C04B14/4625C04B30/02C04B14/4631
    • A centrifugally rolling granulating and coating device (1), comprising a fixed wall (7) of which horizontal section part (7a) in contact with powder and granular material (2) is formed in circular shape and a rotating disk (5) which is installed inside the fixed wall (7) at a distance (12) and rotated horizontally by a motor (13), wherein an air feeding device (21) to feed dry air (22) to the upper surface of the rotating disk (5) is installed on the rotating disk (5), the air feeding device (21) comprises a cylindrical straight pipe part (25) and a conical air inlet port (23) and installed movably vertically in a centrifugal flow chamber (6) and, during a granulating process, the air feeding device (21) stops feeding the dry air (23), waits at an upper position (H), lowers to a lower position (L) after the granulating treating has been completed, and feeds the dry air (22) onto the rotating disk (5) to dry the granule, whereby spherical particles small in grain size, small in grain size distribution width, and high in sphericity can be produced efficiently in a single device.
    • 一种离心轧制造粒和涂布装置(1),包括固定壁(7),其中与粉末和颗粒材料(2)接触的水平部分(7a)形成为圆形,并且旋转盘(5)是 安装在所述固定壁(7)的内部距离(12)并由电动机(13)水平旋转,其中,将干燥空气(22)供给到所述旋转盘(5)的上表面的空气供给装置(21) 安装在旋转盘(5)上,空气供给装置(21)包括圆柱形直管部分(25)和锥形空气入口(23),并且可垂直地安装在离心流动室(6)中,并且在 制粒过程中,空气供给装置(21)停止供给干燥空气(23),在造粒处理完成后在上部位置(H)下降到下部位置(L),并且供给干燥空气 (22)到旋转盘(5)上以干燥颗粒,由此颗粒尺寸小的颗粒si的球形颗粒小 ze分布宽度和球形度高可以在单个装置中有效地生产。
    • 4. 发明申请
    • 溶射補修装置、及びコークス炉の溶射補修方法
    • 火焰喷雾修复设备和火焰喷雾修复方法
    • WO2009147983A1
    • 2009-12-10
    • PCT/JP2009/059694
    • 2009-05-27
    • 新日本製鐵株式会社黒崎播磨株式会社筒井 康志笠井 清人松延 健一森本 康弘
    • 筒井 康志笠井 清人松延 健一森本 康弘
    • C10B29/06
    • C10B29/06F27D1/1652
    •  コークス炉の炭化室壁レンガを溶射によって補修する溶射補修装置であって、溶射粉末を噴射する粉末噴射口と、この粉末噴射口の周囲に配された複数の火炎放射口とを有する第1のバーナ及び第2のバーナを備える。前記第1のバーナの前記各火炎放射口それぞれの火炎放射軸線同士が交差する第1の交差位置が、この第1のバーナの前記粉末噴射口の粉末噴射軸線上にある。前記第2のバーナの前記各火炎放射口それぞれの火炎放射軸線同士が交差する第2の交差位置が、この第2のバーナの前記粉末噴射口の粉末噴射軸線上にある。前記第1のバーナの前記粉末噴射口から前記第1の交差位置までの距離は、前記第2のバーナの前記粉末噴射口から前記第2の交差位置までの距離よりも長い。
    • 火焰喷涂维修设备,用于通过喷涂修复焦化炉的碳化室的墙砖,包括第一燃烧器和第二燃烧器,每个燃烧器和第二燃烧器具有用于喷射粉末的粉末喷射喷嘴,以及布置在粉末喷嘴周围的多个火焰喷射器喷嘴 。 第一燃烧器的各个火焰喷射嘴的火焰的投掷轴线彼此相交的第一交点位于第一燃烧器的粉末喷射喷嘴的粉末喷射线上。 第二燃烧器的各个火焰喷射器喷嘴的火焰的投掷轴线彼此相交的第二交点位于第二燃烧器的粉末喷射喷嘴的动力注入管线上。 从第一燃烧器的粉末喷射喷嘴到第一互连的距离比从第二燃烧器的粉末喷射喷嘴到第二互连的距离长。
    • 9. 发明申请
    • METHOD AND MULTI-NOZZLE TUYERE FOR GUNITING OF METALLURGICAL PLANT
    • 冶金工业用多孔喷枪的方法和喷嘴
    • WO87007913A1
    • 1987-12-30
    • PCT/SU1986000061
    • 1987-12-30
    • C21C5/44F27D1/16
    • C21C5/443F27D1/1652F27D1/1673F27D2001/1657
    • The method is intended for guniting of a metallurgical plant the walls (13) and the bottom (14) of which are lined with a refractory material. The method consists in directing one portion of oxygen, in the form of a jet, to the zone of the bottom (14) to obtain carbon monoxide, and another portion of oxygen, together with a refractory powder, to the lining to be restored, a powder-like fuel being continuously fed together with the jet of oxygen which is directed to the zone of the bottom (14). The method is implemented with the help of a multi-nozzle tuyere (1) comprising a cooled casing (2) with pipelines for supplying the refractory material, the fuel and the oxygen, said pipelines being mounted coaxially inside it, and also comprising nozzles (7, 9, 6 and 8) respectively for feeding the refractory material, the fuel and the oxygen, some (6 and 7) of the nozzles being mounted on the side wall of the tuyere (1) and serving to feed, respectively, the oxygen and the refractory material to the lining area to be restored, and the other (8 and 9) nozzles being mounted on the butt-end side of the tuyere (1) and serving to feed the oxygen and the fuel to the zone of the bottom (14) of the metallurgical plant. The total surface area of the cross-sections of the nozzles (6) for feeding the oxygen to the lining area to be restored essentially is equal to the total surface area of the cross-sections of the nozzles (8) for feeding the oxygen to the zone of the bottom (14) of the metallurgical plant.