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    • 1. 发明专利
    • Tracheal intubation training device
    • TRACHEAL INTUBATION培训设备
    • JP2008064824A
    • 2008-03-21
    • JP2006239817
    • 2006-09-05
    • Kyoto Kagaku:KkUniv Waseda学校法人早稲田大学株式会社京都科学
    • TAKANISHI ATSUONOH YOHANNAGAHIRO KOJIKATAYAMA TAMOTSU
    • G09B23/30
    • PROBLEM TO BE SOLVED: To evaluate tracheal intubation technique considering various points to remember in tracheal intubation procedure.
      SOLUTION: The tracheal intubation training device 10 is constituted of a model 14 having the external form simulating the upper part of a human body, and an evaluation means 15 evaluating the technique of tracheal intubation performed to the model 14. The model 14 includes: simulated respiratory tracts 32 and 43 simulating the respiratory tract of a living body; pressure sensors 46, 57, 62, and 66 capable of measuring the pressing force when a tracheal intubation instrument 12 touches simulated parts 34, 36, 37, 39, and 64 exposed in the simulated respiratory tracts; a position detecting sensor 69 capable of detecting whether the tracheal intubation instrument 12 exists in a prescribed area of the simulated respiratory tracts 32 and 43; an esophagus part 44 simulating the esophagus of a living body; and a position detecting sensor 76 capable of detecting whether the tracheal intubation instrument 12 exists in the esophagus part 44. The evaluation means 15 evaluates the tracheal intubation technique according to the measured value of each sensor.
      COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:评估气管插管技术,考虑气管插管程序中记住的各种要点。 气管插管训练装置10由具有模拟人体上部的外部形状的模型14以及对模型14进行气管插管技术评价的评价单元15构成。模型14 包括:模拟呼吸道32和43模拟生物体的呼吸道; 压力传感器46,57,62和66能够测量当气管插管器械12接触模拟呼吸道中暴露的模拟部分34,36,37,39和64时的按压力; 能够检测气管插管器械12是否存在于模拟呼吸道32和43的规定区域中的位置检测传感器69; 模拟生物体食道的食道部分44; 以及能够检测气管插管器械12是否存在于食道部44中的位置检测传感器76.评价单元15根据各传感器的测定值来评价气管插管技术。 版权所有(C)2008,JPO&INPIT
    • 2. 发明专利
    • Tracheal intubation training apparatus
    • TRACHEAL INTUBATION培训设备
    • JP2009217082A
    • 2009-09-24
    • JP2008061956
    • 2008-03-12
    • Kyoto Kagaku:KkUniv Waseda学校法人早稲田大学株式会社京都科学
    • TAKANISHI ATSUONOH YOHANSOLIS JORGEISHII HIROYUKIOGURA MASARUNAGAHIRO KOJISEGAWA MASANAOSHIMOMURA TERUHIROKATAYAMA TAMOTSUHATA KAZUYUKI
    • G09B23/32
    • G09B23/32
    • PROBLEM TO BE SOLVED: To provide an apparatus that evaluates tracheal intubation technique in consideration of various points of concern related to a tracheal intubation procedure.
      SOLUTION: The tracheal intubation training apparatus 10 includes a model 14 having an outer shape imitating the upper half of the human body, and an evaluation means 15 for evaluating the technique of tracheal intubation on the model 14. The model 14 includes: pressure sensors 46, 57, 62 and 66 for measuring a pressing force when a tracheal intubation instrument 12 comes in contact with regions 31, 32, 34, 36, 41 and 63 imitating the respiratory tract of the living body from the mouth; position detection sensors 69 and 76 for detecting whether or not the tracheal intubation instrument 12 is present in a predetermined area of the trachea part 63 and an esophagus part 64; and angle sensors 79 to 81 for detecting the attitude of a head/face part 28A, a neck/breast part 28B and the lower jaw part 31. The evaluation means 15 calculates an evaluation value Z of tracheal intubation technique according to values measured by the sensors.
      COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:提供一种评估气管插管技术的装置,以考虑与气管插管程序相关的各种关注点。 气管插管训练装置10包括具有模仿人体上半部的外形的模型14和用于评价模型14上的气管插管技术的评价装置15.模型14包括: 压力传感器46,57,62和66,用于当气管插管器械12与模仿生物体的呼吸道的区域31,32,33接触时测量按压力; 位置检测传感器69和76,用于检测气管插管器12是否存在于气管部分63和食道部分64的预定区域中; 以及角度传感器79〜81,用于检测头部/面部部分28A,颈部/胸部28B和下颚部31的姿势。评价装置15根据由该部件28A测量的值计算气管插管技术的评价值Z 传感器。 版权所有(C)2009,JPO&INPIT
    • 3. 发明专利
    • Optical force sensor
    • 光力传感器
    • JP2009236799A
    • 2009-10-15
    • JP2008085233
    • 2008-03-28
    • Kyoto Kagaku:KkUniv Waseda学校法人早稲田大学株式会社京都科学
    • TAKANISHI ATSUONOH YOHANSOLIS JORGEISHII HIROYUKISEGAWA MASANAOSHIMOMURA TERUHIROKATAYAMA TAMOTSUHATA KAZUYUKI
    • G01L1/24
    • PROBLEM TO BE SOLVED: To provide an optical force sensor for maintaining accuracy of measurement without changing the sensor characteristic even when external forces of the same magnitude and direction is applied to different places.
      SOLUTION: This optical force sensor 10 includes a storage object 12 in which a light emitting element 28 and a light receiving element 29 are stored, and a lid body 13 that is mounted to the storage object 12 and forms optical space 30 containing the light emitting element 28 and a light receiving element 29 between it and the storage object 12. When the external forces are applied to the storage object 12 and the lid body 13, the magnitude of the external forces can be detected based on variation of the amount of received light of the light receiving element 29 accompanying shape change of the optical space 30. Here, the lid body 13 is engaged with the storage object 12 so that it can relatively move in a certain direction of changing the shape of the optical space 30 when the external forces are applied.
      COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:即使当相同幅度和方向的外力施加到不同的地方时,提供用于保持测量精度而不改变传感器特性的光学力传感器。 解决方案:该光力传感器10包括存储有发光元件28和光接收元件29的存储对象12,以及安装在存储对象12上并形成光学空间30的盖体13,该盖体13包含 发光元件28和在其之间的光接收元件29与存储对象12之间。当外力施加到存储对象12和盖体13时,可以基于外部力的变化来检测外力的大小 伴随光学空间30的形状变化的光接收元件29的接收光量。这里,盖体13与存储对象12接合,使得其可以在改变光学空间的形状的某个方向上相对移动 30时施加外力。 版权所有(C)2010,JPO&INPIT
    • 4. 发明专利
    • Position-detecting device, program thereof, monitoring system, and device for training person to insert tube into trachea
    • 位置检测装置,其程序,监控系统和用于培训人员插入管道的装置
    • JP2010085687A
    • 2010-04-15
    • JP2008254328
    • 2008-09-30
    • Kyoto Kagaku:KkWaseda Univ学校法人早稲田大学株式会社京都科学
    • TAKANISHI ATSUOKIKUTA GONOH YOHANSOLIS JORGEISHII HIROYUKISHIMOMURA TERUHIROSEGAWA MASANAOSATO KEIKATAYAMA TAMOTSUHATA KAZUYUKI
    • G09B9/00G09B23/30
    • PROBLEM TO BE SOLVED: To visually recognize an area, which can not directly be seen by sight, with simple composition and without using an image pickup device.
      SOLUTION: A device 10 for training a person to insert a tube into the trachea includes: a force sensor 47 which measures pressing force with which the blade 25 of a pharynx mirror 18 presses a tongue 36 when contacting the tongue; a position-detecting device 15 which finds the position of the tongue surface 36A from the measured value measured by the force sensor 47; and an image-generating device 16 which visually presents the shape of the tongue 36 on the basis of the position of the tongue surface 36A. The position-detecting device 15 is provided with; a storage means 53 which preliminarily stores arithmetical expressions which represent positional relations between the intensity of external force working on imaginary structures 56 and respective object points S on the tongue surface 36A, assuming that the imaginary structures 56 are arranged on the tongue 36; and a computing means 54 which substitutes the measured values measured by the force sensor 47 for the arithmetical expressions to find the positions of the respective object points S. The image-generating device 16 connects the positions of the respective object points S on prescribed coordinates to generate an image expressing the shape of the tongue 36.
      COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:通过简单的构图和不使用图像拾取装置来目视识别不能直接看到的区域。 解决方案:用于训练人将管插入气管的装置10包括:力传感器47,其测量在与舌头接触时,咽镜18的刀片25按压舌片36的压力; 位置检测装置15,其根据由力传感器47测得的测量值求出舌面36A的位置; 以及基于舌片表面36A的位置来视觉呈现舌片36的形状的图像产生装置16。 位置检测装置15设置有: 假设假想结构56布置在舌片36上,预先存储表示在假想结构56上加工的外力的强度与舌片表面36A上的各个物体点S之间的位置关系的算术表达式的存储装置53; 以及计算装置54,其将由力传感器47测量的测量值代入算术表达式以找出各个物点S的位置。图像生成装置16将各规定坐标上的各个物点S的位置连接到 生成表示舌头形状的图像。(C)2010,JPO&INPIT
    • 6. 发明专利
    • Model for practicing puncture and method for practicing puncture
    • 用于实施冲压的模型和实施方法
    • JP2010049071A
    • 2010-03-04
    • JP2008213913
    • 2008-08-22
    • Kyoto Kagaku:Kk株式会社京都科学
    • KATAYAMA TAMOTSUNAKAE YUSUKEYAMAUCHI HIROYUKI
    • G09B23/28
    • PROBLEM TO BE SOLVED: To provide a model for practicing puncture and a method for practicing puncture for detecting a simulated blood vessel buried in the model by using an ultrasonic diagnostic device, and to constantly fill the simulated blood vessel with a liquid by atmospheric pressure.
      SOLUTION: The model for practicing puncture is formed of a material having ultrasonic permeability and flexibility similar to that of human tissue. The simulated blood vessel buried in the model is gently sloped and both of its ends are opened to the side wall of the model. When the model is immersed in a container storing liquid, the simulated blood vessel is filled with the liquid.
      COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供一种练习穿刺的模型和一种用于通过使用超声波诊断装置来检测模型中埋藏的模拟血管来进行穿刺的方法,并且通过以下方式不断地用液体填充模拟血管 气压。

      解决方案:练习穿刺的模型由具有类似于人体组织的超声波渗透性和柔性的材料形成。 埋在模型中的模拟血管缓缓倾斜,其两端都打开到模型的侧壁。 当模型浸入储存液体的容器中时,模拟血管中充满液体。 版权所有(C)2010,JPO&INPIT

    • 8. 发明专利
    • Model for puncture practice
    • 打孔实践模型
    • JP2014044260A
    • 2014-03-13
    • JP2012185672
    • 2012-08-24
    • Kyoto Kagaku:Kk株式会社京都科学
    • KATAYAMA TAMOTSUYAMANE MUNEAKI
    • G09B23/28
    • PROBLEM TO BE SOLVED: To provide a model for puncture practice in which liquid is not leaked between simulated human body tissues and simulated blood vessels even when being punctured using an inexpensive material.SOLUTION: A model for puncture practice includes a simulated human body tissue which is made of hydrogel, and a simulated blood vessel which is made of a resin pipe and embedded in the simulated human body tissue. On the resin pipe surface, an adhesive layer to which porous powder is fixed is formed. The hydrogel and the resin pipe in which the adhesive layer is formed are connected through the porous powder.
    • 要解决的问题:提供一种用于穿刺实践的模型,其中即使在使用便宜的材料进行穿刺时,模拟人体组织和模拟血管之间的液体也不会泄漏。解决方案:穿刺实践的模型包括模拟的人体组织 由水凝胶制成,并且由树脂管制成并嵌入模拟人体组织中的模拟血管。 在树脂管表面上形成固定有多孔质粉末的粘接层。 形成粘合剂层的水凝胶和树脂管通过多孔粉末连接。