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公开(公告)号:US08671877B2
公开(公告)日:2014-03-18
申请号:US13512947
申请日:2010-12-02
Applicant: Koji Hasegawa , Takuya Nagato , Koh Matsui
Inventor: Koji Hasegawa , Takuya Nagato , Koh Matsui
CPC classification number: A61J3/005 , A23G3/26 , A23P20/15 , B01J2/006 , B01J2/14 , B05B12/084 , B05B13/0257
Abstract: A measuring unit 13 is provided inside a rotary drum 11. The measuring unit 13 is provided with a light transmitting member 13a and an optical sensor 13b that are provided at the central region on the inner wall of the other end portion 11b. When particles are subjected to a coating treatment, information as to the properties (such as the coating thickness, the moisture, the coating performance, and the impurity) of the particles of a particle layer A being brought into contact with the surface of the light transmitting member 13a is measured on a real-time basis by the NIR sensor 13b via the light transmitting member 13a. The data is processed by the processing unit of the NRI spectroscopic analyzer to thereby perform monitoring. By appropriately adjusting the coating operation conditions (such as the supplied air volume, the supplied air temperature, the spraying condition, and the rotation speed of the rotary drum 1) by feedback control or a manual operation according to the result, it becomes possible to perform the coating treatment of high quality.
Abstract translation: 测量单元13设置在旋转鼓11的内部。测量单元13设置有设置在另一端部11b的内壁上的中心区域的透光构件13a和光学传感器13b。 当对颗粒进行涂布处理时,与颗粒表面接触的颗粒层A的颗粒的性质(例如涂层厚度,水分,涂布性能和杂质)的信息 透射构件13a经由透光构件13a由NIR传感器13b实时地测量。 数据由NRI光谱分析仪的处理单元处理,从而进行监视。 通过根据结果通过反馈控制或手动操作来适当地调整涂布操作条件(诸如所提供的空气量,供应的空气温度,喷射条件和旋转鼓1的旋转速度),可以 执行高品质的涂层处理。
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公开(公告)号:US20120234239A1
公开(公告)日:2012-09-20
申请号:US13512947
申请日:2010-12-02
Applicant: Koji Hasegawa , Takuya Nagato , Koh Matsui
Inventor: Koji Hasegawa , Takuya Nagato , Koh Matsui
IPC: B05C11/00
CPC classification number: A61J3/005 , A23G3/26 , A23P20/15 , B01J2/006 , B01J2/14 , B05B12/084 , B05B13/0257
Abstract: A measuring unit 13 is provided inside a rotary drum 11. The measuring unit 13 is provided with a light transmitting member 13a and an optical sensor 13b that are provided at the central region on the inner wall of the other end portion 11b. When particles are subjected to a coating treatment, information as to the properties (such as the coating thickness, the moisture, the coating performance, and the impurity) of the particles of a particle layer A being brought into contact with the surface of the light transmitting member 13a is measured on a real-time basis by the NIR sensor 13b via the light transmitting member 13a. The data is processed by the processing unit of the NRI spectroscopic analyzer to thereby perform monitoring. By appropriately adjusting the coating operation conditions (such as the supplied air volume, the supplied air temperature, the spraying condition, and the rotation speed of the rotary drum 1) by feedback control or a manual operation according to the result, it becomes possible to perform the coating treatment of high quality.
Abstract translation: 测量单元13设置在旋转鼓11的内部。测量单元13设置有设置在另一端部11b的内壁上的中心区域的透光构件13a和光学传感器13b。 当对颗粒进行涂布处理时,与颗粒表面接触的颗粒层A的颗粒的性质(例如涂层厚度,水分,涂布性能和杂质)的信息 透射构件13a经由透光构件13a由NIR传感器13b实时地测量。 数据由NRI光谱分析仪的处理单元处理,从而进行监视。 通过根据结果通过反馈控制或手动操作来适当地调整涂布操作条件(诸如所提供的空气量,供应的空气温度,喷射条件和旋转鼓1的旋转速度),可以 执行高品质的涂层处理。
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公开(公告)号:US07297314B2
公开(公告)日:2007-11-20
申请号:US10526248
申请日:2003-07-30
Applicant: Susumu Natsuyama , Nobuyuki Watanabe , Kazuyoshi Otaki , Kenji Nagatsuma , Takuya Nagato , Yoshiyuki Kanoh , Ran Tabata , Makoto Kobayashi
Inventor: Susumu Natsuyama , Nobuyuki Watanabe , Kazuyoshi Otaki , Kenji Nagatsuma , Takuya Nagato , Yoshiyuki Kanoh , Ran Tabata , Makoto Kobayashi
CPC classification number: B01J2/006 , B01J2/16 , B01J8/006 , B01J8/1818 , B01J8/1854 , B01J8/1863 , B01J8/38 , B01J8/382 , B01J8/386
Abstract: A fluidized bed apparatus has a rotary rotor 4 arranged at the bottom center thereof, a disintegrator mechanism 5 arranged above the rotary rotor 4, and a cylindrical draft tube 6 installed above the disintegrator mechanism 5. A fluidizing gas jetted from a gas dispersion plate 3 causes powder particles P in a processing container 1 to form a fluidized bed in which they circulate so as to ascend through the gap between the outer periphery of the rotary rotor 4 and the bottom inner wall of the processing container 1, the space between the disintegrator mechanism 5 and the inner wall of the processing container 1, and the space between the outer periphery of the draft tube 6 and the inner wall of the processing container 1, and descend through the inner portion of the draft tube 6.
Abstract translation: 流化床装置具有设置在其底部中心的旋转转子4,设置在旋转转子4上方的分解器机构5和安装在分解器机构5上方的圆筒形引流管6。 从气体分散板3喷射的流化气体使处理容器1中的粉末颗粒P形成流化床,其中它们循环,从而通过旋转转子4的外周和内部的内壁之间的间隙上升 处理容器1,破碎机构5与处理容器1的内壁之间的空间以及引流管6的外周与处理容器1的内壁之间的空间,并通过内部 的引流管6。
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公开(公告)号:US20060104871A1
公开(公告)日:2006-05-18
申请号:US10526248
申请日:2003-07-30
Applicant: Susumu Natsuyama , Nobuyuki Watanabe , Kazuyoshi Otaki , Kenji Nagatsuma , Takuya Nagato , Yoshiyuki Kanoh , Ran Tabata , Makoto Kobayashi
Inventor: Susumu Natsuyama , Nobuyuki Watanabe , Kazuyoshi Otaki , Kenji Nagatsuma , Takuya Nagato , Yoshiyuki Kanoh , Ran Tabata , Makoto Kobayashi
CPC classification number: B01J2/006 , B01J2/16 , B01J8/006 , B01J8/1818 , B01J8/1854 , B01J8/1863 , B01J8/38 , B01J8/382 , B01J8/386
Abstract: A fluidized bed apparatus has a rotary rotor 4 arranged at the bottom center thereof, a disintegrator mechanism 5 arranged above the rotary rotor 4, and a cylindrical draft tube 6 installed above the disintegrator mechanism 5. A fluidizing gas jetted from a gas dispersion plate 3 causes powder particles P in a processing container 1 to form a fluidized bed in which they circulate so as to ascend through the gap between the outer periphery of the rotary rotor 4 and the bottom inner wall of the processing container 1, the space between the disintegrator mechanism 5 and the inner wall of the processing container 1, and the space between the outer periphery of the draft tube 6 and the inner wall of the processing container 1, and descend through the inner portion of the draft tube 6.
Abstract translation: 流化床装置具有设置在其底部中心的旋转转子4,设置在旋转转子4上方的分解器机构5和安装在分解器机构5上方的圆筒形引流管6。 从气体分散板3喷射的流化气体使处理容器1中的粉末颗粒P形成流化床,其中它们循环,从而通过旋转转子4的外周和内部的内壁之间的间隙上升 处理容器1,破碎机构5与处理容器1的内壁之间的空间以及引流管6的外周与处理容器1的内壁之间的空间,并通过内部 的引流管6。
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