专利快速检索-快速检索全球专利，免费商用专利数据库-IPRDB

1. 发明授权

US5818581A Elemental analysis method and apparatus 失效
标题翻译：元素分析方法和装置
公开(公告)号：US5818581A
公开(公告)日：1998-10-06
申请号：US774837
申请日：1996-12-27
申请人： Satoru Kurosawa , Yoshikazu Ishii , Kiyoshi Horii
发明人： Satoru Kurosawa , Yoshikazu Ishii , Kiyoshi Horii
IPC分类号： G01N21/73 , H01J49/10 , H05H1/30
CPC分类号： G01N21/73 , H01J49/105 , H05H1/30
摘要： In an elemental analysis method of analyzing a sample as an analysis target using atoms generated upon dissociation of the sample, a plasma is generated using a gas serving as a plasma source to be supplied in a torch having a conical cylinder thereof. A sample flow obtained by evaporating the sample using the gas as a carrier gas or a sample flow containing a component of the sample is supplied to the plasma. The sample flow or the plasma containing the sample flow is changed into a spiral flow, and the component of the sample is dissociated. The sample is analyzed in accordance with the state of an atom generated by dissociation of the component of the sample. An elemental analysis apparatus is also disclosed.
摘要翻译：在使用在样品解离时产生的原子作为分析对象的元素分析方法中，使用用作等离子体源的气体产生等离子体，供给到具有锥形圆筒的割炬中。将使用作为载气的气体的样品或含有试样的成分的样品流蒸发的样品流供给到等离子体。将样品流或含有样品流的等离子体变为螺旋流，并将样品的组分解离。根据样品成分的离解产生的原子的状态对样品进行分析。还公开了一种元素分析装置。

2. 发明授权

US06883734B1 Method and device for stabilizing slit fluid jet 失效
标题翻译：用于稳定狭缝流体射流的方法和装置
公开(公告)号：US06883734B1
公开(公告)日：2005-04-26
申请号：US10031597
申请日：2000-04-27
申请人： Kiyoshi Horii , Akitake Hashitate
发明人： Kiyoshi Horii , Akitake Hashitate
IPC分类号： F24F9/00 , F24F13/06 , F24F13/072 , B05B1/00 , B05B1/04 , B05B1/14 , F23D14/68
CPC分类号： F24F13/06 , F24F9/00 , F24F13/072 , F24F2221/28
摘要： A fluid film is formed stably over a long distance from a nozzle without breaking a slit fluid jet by allowing fluid flow out from a slit to form a slit fluid jet. A crossed flow is superimposed causing a flip-flop phenomenon upon the slit fluid jet. Energy of a fluctuation velocity component of the slit fluid jet is absorbed into a vibration component of a flip-flop crossed flow so as to form a stable fluid film.
摘要翻译：通过允许流体从狭缝流出以形成狭缝流体射流，从喷嘴长距离地稳定地形成流体膜而不破坏狭缝流体射流。叠加的交叉流引起狭缝流体喷射时的触发器现象。狭缝流体射流的波动速度分量的能量被吸收到触发器交叉流的振动分量中，以形成稳定的流体膜。

3. 发明授权

US5188868A Method for coating surfaces of a powdered material by directing coating material into Coanda spiral flow of powdered material 失效
标题翻译：通过将涂料材料涂覆在粉末材料的螺旋状流中涂覆粉末表面的方法
公开(公告)号：US5188868A
公开(公告)日：1993-02-23
申请号：US579323
申请日：1990-09-10
申请人： Kiyoshi Horii , Hiroaki Sawazaki
发明人： Kiyoshi Horii , Hiroaki Sawazaki
IPC分类号： B01J2/00
CPC分类号： B01J2/006 , Y10S239/07 , Y10T137/2087
摘要： A method for coating surfaces of a powdered material includes forming a Coanda flow of a Coanda spiral flow of a powdered material by flowing the powdered material through a Coanda spiral flow forming passage or a Coanda flow forming passage by introducing a pressurized gas into the flow forming passage through a Coanda slit therearound, supplying the thus formed Coanda flow or Coanda spiral flow of powdered material into a further Coanda spiral flow forming passage, and atomizing a liquid coating material with a liquid gas and then directing the atomized liquid coating material into the Coanda flow or Coanda spiral flow of powdered material through a Coanda slit in the further Coanda spiral flow forming passage.

4. 发明授权

US5118226A Method for passing a cable, a wire or an optical fiber through a passage 失效
标题翻译：通过电缆，电线或光纤通过电缆的方法
公开(公告)号：US5118226A
公开(公告)日：1992-06-02
申请号：US579322
申请日：1990-09-10
申请人： Kiyoshi Horii , Kakuji Osumi
发明人： Kiyoshi Horii , Kakuji Osumi
IPC分类号： B65G53/58 , B65H51/16 , F15D1/00 , G02B6/44
CPC分类号： B65H51/16 , B65G53/58 , F15D1/0015 , G02B6/4485
摘要： In a method of passing a wire, cable, optical fiber or the like through a passage, a coanda spiral flow unit is connected to the passage, a pressure release port is provided along the length from the coanda spiral flow unit to the end of the passage, compressed gas is supplied from a portable-type compressed gas supply through a coanda slit of said coanda spiral flow unit, a conductor or a guide is inserted through an end introducing port of said coanda spiral flow unit and passed through the passage. Smooth passing operations can be conducted at high speeds, even through a long and thin passage with many bends.

5. 发明授权

US06663325B1 Transport system for spherical objects and method of using the transport system 失效
标题翻译：球形物体运输系统及运输系统的使用方法
公开(公告)号：US06663325B1
公开(公告)日：2003-12-16
申请号：US09585251
申请日：2000-05-31
申请人： Shuho Kai , Takashi Kanatake , Tashirou Arai , Kiyoshi Horii
发明人： Shuho Kai , Takashi Kanatake , Tashirou Arai , Kiyoshi Horii
IPC分类号： B65G5300
CPC分类号： H01L21/67721 , H01L21/6776
摘要： A transport system for a spherical object. The transport system has a supply of a first fluid and a passageway for communication of a spherical object in a path between an inlet and an outlet. At least part of the passageway is bounded by a first tube having a first annular wall with at least one opening through the first annular wall. The first tube guides flow of a spherical object in the first fluid from the inlet towards the outlet. The transport system further includes a source of vacuum in communication with the passageway through the at least one opening through the first annular wall. The source of vacuum produces a low pressure region which causes the first fluid in the passageway to be drawn from the passageway through the at least one opening through the first annular wall. The transport system further includes a supply of a second fluid which is in communication with a spherical object moving between the inlet and the outlet.
摘要翻译：球形物体的运输系统。输送系统具有第一流体和用于在入口和出口之间的路径中连通球形物体的通道。通道的至少一部分由具有第一环形壁的第一管限定，第一环具有穿过第一环形壁的至少一个开口。第一管引导第一流体中的球形物体从入口朝向出口的流动。运输系统还包括通过穿过第一环形壁的至少一个开口的通道连通的真空源。真空源产生低压区域，其导致通道中的第一流体从通道穿过穿过第一环形壁的至少一个开口拉出。输送系统还包括与在入口和出口之间移动的球形物体连通的第二流体的供应。

6. 发明授权

US5246207A Wire installation device 失效
标题翻译：电线安装装置
公开(公告)号：US5246207A
公开(公告)日：1993-09-21
申请号：US898403
申请日：1992-06-15
申请人： Kiyoshi Horii , Kakuji Ohsumi
发明人： Kiyoshi Horii , Kakuji Ohsumi
IPC分类号： G02B6/46 , B65H51/16 , G02B6/44 , H02G1/08
CPC分类号： G02B6/4464 , H02G1/086
摘要： A Coanda spiral flow unit wire installation device having a tube passage connecting port, an inlet for a conducting wire or an induction wire, and a Coanda slit for the supply of compressed fluid to generate Coanda spiral flow in the direction of the tube passage, a compressed fluid control device which comprises a hand grip with a fluid supply passage and a compressed fluid supply valve unit provided in the hand grip. The unit is small-sized and light-weight and can be hand held so as to permit easier and more efficient wire installation in limited space situations.
摘要翻译：一种具有管通道连接口，导线或感应线的入口的柯恩达螺旋流单元线安装装置和用于供应压缩流体以在管通道的方向上产生柯恩达螺旋流的柯恩达狭缝，压缩流体控制装置，其包括具有流体供给通道的手柄和设置在手柄中的压缩流体供给阀单元。该装置体积小，重量轻，可以手持，以便在有限的空间情况下更容易和更有效地进行电线安装。

7. 发明授权

US4969481A Method for transferring short fibers 失效
标题翻译：短纤维转移方法
公开(公告)号：US4969481A
公开(公告)日：1990-11-13
申请号：US298979
申请日：1989-01-19
申请人： Kiyoshi Horii
发明人： Kiyoshi Horii
IPC分类号： B65G53/04 , B65G53/14 , B65G53/42 , B65G53/58 , G02B6/44
CPC分类号： B65G53/14 , B65G53/42 , G02B6/4485 , Y10T137/0391 , Y10T137/2115 , Y10T137/2196
摘要： The present invention provides a method for transferring agglomerative short fibers such as natural fibers, ceramic fibers or metals, by means of a Coanda spiral flow produced by feeding a pressurized fluid. In this fluid-transfer, short fibers can be smoothly transferred with an orientation while causing swelling and dissociation of agglomerates thereof. The defects inevitable in the conventional transfer under turbulent flow conditions such as adherence of fibers to the inner wall of the pipe, agglomeration and breakage of whiskers are completely solved. High-speed oriented-transfer at a speed of several to 100 m/second is possible by means of the Coanda spiral flow.

8. 发明授权

US4684296A Method and apparatus for the generation and utilization of a spiral gas stream in a pipeline 失效
标题翻译：用于在管道中产生和利用螺旋气流的方法和装置
公开(公告)号：US4684296A
公开(公告)日：1987-08-04
申请号：US924185
申请日：1986-10-24
申请人： Kiyoshi Horii , Toshiaki Murata
发明人： Kiyoshi Horii , Toshiaki Murata
IPC分类号： B65G53/42
CPC分类号： B65G53/42 , Y10T137/0318 , Y10T137/2087
摘要： Uniform flow of gas flowing in a cylinder having inner diameter larger than that of a pipeline is introduced through a funnelform reducer into the inlet of the pipeline, where uniform flow of gas turned to a spiral gas stream by bringing to the mean gas stream velocity faster than 20 meter per second there. When solid particles are introduced into the spiral gas strem zone, they are transported to the outlet of the pipeline. A compressed gas layer is formed along the inside wall of the pipeline by the spiral motion of gas stream, and the layer prevents the direct contact of the solid particles to the inside wall of the pipeline which causes the erosion of the pipeline. As the center part of the cross section of the pipeline becomes very low pressure, especially along the axis of the pipeline, solid particles containing or accompanying volatile matters are desiccated or concentrated as a result of the evaporation of volatile matters while being transported in the pipeline. When grinding powder (abrasive) is transported by the spiral gas stream and spattered on an object, the surface of the object is ground without consumption of much energy.
摘要翻译：在内径大于管道的气缸中流动的气体的均匀流动通过漏斗形减压器被引入到管道的入口中，其中均匀的气体通过使平均气流速度转向螺旋气流，速度更快每秒超过20米。当固体颗粒被引入到螺旋气体区域中时，它们被输送到管道的出口。通过气流的螺旋运动沿着管道的内壁形成压缩气体层，并且该层防止固体颗粒直接接触管道的内壁，导致管道的侵蚀。由于管道的横截面的中心部分变得非常低的压力，特别是沿着管道的轴线，由于在管道中运输时挥发物质的蒸发，含有或伴随挥发物质的固体颗粒被干燥或浓缩。当研磨粉末（磨料）通过螺旋形气流输送并溅射在物体上时，物体的表面被研磨而不消耗太多的能量。

9. 发明授权

US5172890A Installation device 失效
标题翻译：安装设备
公开(公告)号：US5172890A
公开(公告)日：1992-12-22
申请号：US745240
申请日：1991-08-14
申请人： Kiyoshi Horii , Kakuji Ohsumi
发明人： Kiyoshi Horii , Kakuji Ohsumi
IPC分类号： G02B6/44 , H02G1/08
CPC分类号： H02G1/086 , G02B6/4464 , G02B6/4485
摘要： In a Coanda spiral flow unit installation device, a Coanda flow supply device for the supply of a conducting wire or an induction wire is provided at the suction and induction port through which the conducting wire or the induction wire is induced.A feeding device is desposed on the outer side thereof.This device permits more stable installation at high speed and high efficiency. It is possible to install a thin optical fiber over a long distance.

10. 发明授权

US4762148A Apparatus and method for the generation and utilization of a spiral gas stream in a pipeline 失效
标题翻译：在管道中产生和利用螺旋气流的装置和方法
公开(公告)号：US4762148A
公开(公告)日：1988-08-09
申请号：US45187
申请日：1987-05-01
申请人： Tomohiro Marui , Masaaki Takarada , Yoshiaki Shimura , Minoru Mita , Kiyoshi Horii
发明人： Tomohiro Marui , Masaaki Takarada , Yoshiaki Shimura , Minoru Mita , Kiyoshi Horii
IPC分类号： B65G53/52 , B65G53/58 , F15D1/00 , F15C1/16 , F16L55/10
CPC分类号： F15D1/0015 , B65G53/526 , B65G53/58 , Y10S423/09 , Y10T137/2087
摘要： A spiral gas stream is generated in a pipeline when a uniform flow of gas flowing in a cylinder having inner diameter larger than that of the pipeline is introduced through a funnelform reducer into the inlet of the pipeline and bringing the mean gas stream velocity in the pipeline faster than 20 meter per second. The uniform flow of gas is formed in the cylinder easily when outside low pressure gas is fed into the cylinder through a feed gas inlet pipe installed diagonally at the side of the cylinder apart from the bottom plate so as to make the flow line of the feed gas to cross the axis of the cylinder and inclined toward the bottom plate. When solid particles are introduced into the spiral gas stream zone, they are transported to the outlet of the pipeline. As the compressed gas layer is formed along the inside wall of the pipeline by the spiral motion of gas stream, solid particles don't contact directly with the inside wall of the pipeline and don't hurt it. As the center part of the cross section of the pipeline becomes very low pressure, especially along the axis of the pipeline, solid particles containing or accompanying volatile matters are desiccated or concentrated as a result of the evaporation of volatile matters while being transported in the pipeline. Solid particles deposited on the bottom of water can be dredged and dehydrated by the spiral gas stream transportation system. When solid particles transported by spiral gas stream in two or more pipelines are arranged to collide with mutually, pulverized fine solid particles are recovered. A chemical reaction which can not or hardly to proceed at normal temperature and pressure is promoted in a spiral gas stream zone.
摘要翻译：当在具有大于管道内径的内径的气缸中流动的气体的均匀流动通过漏斗形减速器引入到管道的入口并使平均气流速度在管线中时，在管道中产生螺旋气流速度超过20米/秒。当外部低压气体通过沿着与底板分离的圆柱体侧对角地设置的进料气体入口管被供给到气缸中时，容易形成气体的均匀流动，以使进料的流动线气体穿过气缸的轴线并向底板倾斜。当固体颗粒被引入螺旋气流区时，它们被运送到管道的出口。由于通过气流的螺旋运动沿着管道的内壁形成压缩气体层，固体颗粒不直接与管道的内壁接触，并且不会伤害它。由于管道的横截面的中心部分变得非常低的压力，特别是沿着管道的轴线，由于在管道中运输时挥发物质的蒸发，含有或伴随挥发物质的固体颗粒被干燥或浓缩。沉积在水底部的固体颗粒可以通过螺旋气流输送系统进行疏浚和脱水。当通过螺旋气流在两条或更多条管道中输送的固体颗粒被布置为相互碰撞时，回收粉碎的细固体颗粒。在常压和高温下不能或几乎不能进行的化学反应在螺旋气流区促进。

你已经成功收藏专利！

检索式保存成功!

IPRDB

热门服务

关于我们

友情链接

联系方式