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    • 1. 发明专利
    • Painting operation training device
    • 绘画操作培训设备
    • JP2010134258A
    • 2010-06-17
    • JP2008311068
    • 2008-12-05
    • Kanto Auto Works Ltd関東自動車工業株式会社
    • AKAMA TAKASHI
    • G09B19/24B05B15/00G09B9/00
    • PROBLEM TO BE SOLVED: To provide a training device enabling a user to learn how to move a handgun with a proper distance between an object to be painted and the handgun and along the locus of painting without spraying paint.
      SOLUTION: The painting operation training device (a hand gun) 1 includes: a hand gun body 2; a grip 3 provided projectingly downward on the undersurface near the rear end of the hand gun body 2; a trigger 4 pivotally supported in front of the grip 3 on the hand gun body 2; three laser beam-introducing optical fiber cables introduced from the lower position of the grip 3 and arranged in the grip 3 and in the hand gun body 2 while being away from each other; a plurality of probes 6a, 6b, and 6c provided to the tip of the laser beam-introducing optical fiber cables respectively and arranged on the tip of the handgun body 2 while being away from each other; a light-shielding device 7 arranged in the grip 3 and capable of turning on/off the optical path of each laser beam-introducing optical fiber cable; a hose 8 to supply water; and an air hose to atomize water.
      COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供一种训练装置,使得用户能够学习如何在要涂漆的对象和手枪之间以及沿喷漆场所移动手枪,而不喷涂油漆。

      解决方案:涂装操作训练装置(手枪)1包括:手枪主体2; 在手枪主体2的后端附近的下表面上突出地设置的手柄3; 枢转地支撑在手枪主体2上的把手3的前方的触发器4; 从手柄3的下部位置引入的三根激光束导入光纤电缆,并且彼此远离配置在手柄3和手枪主体2中; 多个探针6a,6b和6c分别设置在激光束引入光纤电缆的末端,并配置在手枪主体2的前端,同时彼此远离; 布置在把手3中并且能够接通/关闭每个激光导入光缆的光路的遮光装置7; 软管8供水; 和一个空气软管来雾化水。 版权所有(C)2010,JPO&INPIT

    • 2. 发明专利
    • Dust visualization device for coating booth
    • 用于喷涂的灰尘可视化装置
    • JP2009174901A
    • 2009-08-06
    • JP2008011437
    • 2008-01-22
    • Kanto Auto Works Ltd関東自動車工業株式会社
    • AKAMA TAKASHI
    • G01N15/06B05B5/08B05C11/00
    • PROBLEM TO BE SOLVED: To provide a dust visualization device for a coating booth capable of visualizing coating particles, or the like, suspended in the coating booth by veiling formation by multiple reflection between mirrors.
      SOLUTION: In this dust visualization device for the coating booth for visualizing suspended coating particles in the coating booth, wherein a conveyance route for a truck for loading an object to be coated is laid and a coating device is installed on the side; a pair of lengthwise-shaped mirrors 9, 9a facing in parallel are arranged on the truck running along the conveyance route, and a light source 10 equipped with a laser oscillator; a diffusion lens 12 arranged on the front for diffusing incident light longitudinally; and a lengthwise-shaped Fresnel lens 13 for converting outgoing light into parallel sheet light which is wide in the longitudinal direction is provided on an end domain so that the sheet light enters either of the mirrors 9, 9a at an oblique angle, in the longitudinal direction of the mirrors 9, 9a relative to the orthogonal direction of the mirrors 9, 9a, and the angle is set so that a veiling without gaps is formed by multiple reflection in the alternate oblique direction of the mirrors 9, 9a.
      COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:提供一种能够通过在反射镜之间的多次反射进行掩蔽形成而悬挂在涂装室中的可涂覆颗粒等的涂装室的粉尘可视化装置。 解决方案:在用于可视化涂装室中的悬浮涂料颗粒的涂布室的该粉尘可视化装置中,其中铺设用于装载被涂物体的卡车的输送路径,并且在侧面安装涂布装置; 沿着输送路径行驶的卡车上设置一对纵向面镜9,9a,并配置有配备有激光振荡器的光源10, 布置在前面用于漫射入射光纵向的漫射透镜12; 并且在端部区域上设置有用于将出射光转换为平行的片状光的长度方向的菲涅尔透镜13,使得片状光以纵向倾斜地进入任一个反射镜9,9a,纵向 反射镜9,9a相对于反射镜9,9a的正交方向的方向和角度被设定为使得通过反射镜9,9a的交替倾斜方向上的多次反射形成没有间隙的卷边。 版权所有(C)2009,JPO&INPIT
    • 3. 发明专利
    • Coating efficiency evaluation method and apparatus
    • 涂层效率评估方法与装置
    • JP2005144314A
    • 2005-06-09
    • JP2003384777
    • 2003-11-14
    • Kanto Auto Works Ltd関東自動車工業株式会社
    • AKAMA TAKASHI
    • G01B11/28B05B15/00B05D3/00
    • PROBLEM TO BE SOLVED: To provide a coating efficiency evaluation method for evaluating spreading efficiency while coating.
      SOLUTION: The coating range of a door panel 1a being a coating face, is irradiated with light from a light source 15 emitting surface-like irradiation light 15a along the irradiation direction. A coating face line irradiated with the tip of the face-like light 15a, and positioned in a coating material diffusion range around a coating material jetting pattern region, and a light irradiation region along with the coating face line are imaged with a CCD camera 17. Image signal level of image signals of an imaged screen is determined whether it exceeds a given image signal level or not. The coating efficiency is evaluated by the area of a high luminance distribution region where image signals exceeding the prescribed image signal level is distributed along the image of the coating face line.
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:提供涂覆效率评估方法,用于评价涂布时的铺展效率。 解决方案:照射来自沿照射方向发射表面状照射光15a的光源15的光照射作为涂层面的门板1a的涂布范围。 用CCD照相机17对由面状光15a的前端照射并且涂布材料喷射图案区域周围的涂布材料扩散范围和光照射区域的涂布面线进行成像 确定成像屏幕的图像信号的图像信号电平是否超过给定的图像信号电平。 通过沿着涂层面线的图像分布图像信号超过规定图像信号电平的高亮度分布区域的面积来评价涂布效率。 版权所有(C)2005,JPO&NCIPI
    • 4. 发明专利
    • Training device for use in coating work
    • 培训装置用于涂装工作
    • JP2011078897A
    • 2011-04-21
    • JP2009232404
    • 2009-10-06
    • Kanto Auto Works Ltd関東自動車工業株式会社
    • AKAMA TAKASHI
    • B05B15/08B05C21/00
    • PROBLEM TO BE SOLVED: To enable a worker to be accustomed to a moving speed of a hand gun even outside a coating booth.
      SOLUTION: There is disclosed a training device 1 for use in a coating work, which includes for example, a tube 2 disposed along the locus of an article to be coated, and for example, a handgun 3 disposed on the coating machine side. A luminous body 4 is movably stored in the tube 2, in a manner movable with a fluid 6 such as water. A light receiver 5 is attached to the handgun 3 to receive light from the luminous body 4. The tube 2 is made from a transparent or translucent tube. A pump for feeding and sucking the fluid 6 is connected to one end of the tube 2, and a bag that slidingly extends/contracts according to feeding or sucking the fluid 6 is connected to the other end thereof.
      COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:使工人能够习惯于甚至在涂装室外的手枪移动速度。 解决方案:公开了一种用于涂布工作的训练装置1,其包括例如沿着待涂覆物品的轨迹设置的管2,以及例如设置在涂布机上的手枪3 侧。 发光体4以与流体6(例如水)一起移动的方式可移动地存储在管2中。 光接收器5附接到手枪3以接收来自发光体4的光。管2由透明或半透明的管制成。 用于供给和吸入流体6的泵连接到管2的一端,并且根据进给或吸入流体6滑动地延伸/收缩的袋连接到其另一端。 版权所有(C)2011,JPO&INPIT
    • 5. 发明专利
    • Automatic coater having coating deposition efficiency measuring unit
    • 具有涂层沉积效率测量单元的自动涂层
    • JP2009106911A
    • 2009-05-21
    • JP2007284738
    • 2007-11-01
    • Kanto Auto Works Ltd関東自動車工業株式会社
    • AKAMA TAKASHI
    • B05B12/08
    • PROBLEM TO BE SOLVED: To solve problems that a conventional measuring method of coating deposition efficiency requires the extremely large number of days or many working steps such as the pasting of aluminum foil per one car body and the practical coating efficiency is not judged before the coating work carried out on the car body.
      SOLUTION: An automatic coater has a coating deposition efficiency measuring unit provided with a particle analysis means 2 capable of measuring parameters such as the number of the particles P, the particle diameter, the particle speed and the like of a coating material 3 passing through a fixed area of the surface of the material B to be coated and the vicinity thereof and a control means for controlling the coating condition to maintain the high coating deposition efficiency from the measured parameters.
      COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:为了解决常规的涂布沉积效率的测量方法需要非常多的天数或许多工作步骤的问题,例如每个车体的铝箔的粘贴和实际的涂覆效率不被判断 之前在车身上进行涂装工作。 解决方案:自动涂布机具有涂布沉积效率测量单元,该测量单元设置有能够测量涂层材料3的颗粒数P,粒径,粒子速度等参数的粒子分析装置2 通过待涂覆材料B的表面的固定区域及其附近,以及控制装置,用于根据测量的参数控制涂覆条件以保持高涂层沉积效率。 版权所有(C)2009,JPO&INPIT
    • 6. 发明专利
    • Device for making dust adhering to workpiece surface visible
    • 用于制造工件表面可见的装置
    • JP2008261736A
    • 2008-10-30
    • JP2007104887
    • 2007-04-12
    • Kanto Auto Works Ltd関東自動車工業株式会社
    • AKAMA TAKASHI
    • G01N21/84G01B11/30
    • PROBLEM TO BE SOLVED: To provide a device for further clearly making dust adhering to the surface of automobile body visible, in a process of removing the dust from the automobile body before an applying process.
      SOLUTION: This device comprises a slit light generating means 2 capable of generating slit light, a reflector 3 for reflecting the slit light radiated by the slit light generating means 2 and radiating it to a workpiece W, and a reflector vibrating means 4 capable of vibrating the reflector so as to radiate the slit light radiated by the slit light generating means 2 onto the workpiece W in a period of 33 Hz. The slit light radiated onto the workpiece W generates scattered light with dust, and makes it visible.
      COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:提供一种用于在施加过程之前从车体去除灰尘的过程中进一步清楚地附着在汽车车体表面上的灰尘的装置。 解决方案:该装置包括能够产生狭缝光的狭缝光发生装置2,用于反射由狭缝光发生装置2辐射的狭缝光并将其辐射到工件W的反射器3和反射器振动装置4 能够使反射器振动,以将由狭缝光发生装置2照射的狭缝光以33Hz的时间辐射到工件W上。 辐射到工件W上的狭缝光产生具有灰尘的散射光,并使其可见。 版权所有(C)2009,JPO&INPIT
    • 7. 发明专利
    • Charge distribution measuring method for coating particles
    • 用于涂覆颗粒的电荷分配测量方法
    • JP2007216189A
    • 2007-08-30
    • JP2006042405
    • 2006-02-20
    • Kanto Auto Works LtdShin Nippon Air Technol Co Ltd新日本空調株式会社関東自動車工業株式会社
    • AKAMA TAKASHIOKAMOTO RYUTA
    • B05D1/04G01R29/24
    • PROBLEM TO BE SOLVED: To provide a charge distribution measuring method for coating particles capable of measuring the charge distribution of coating particles not uniform in particle diameter and charged with a high voltage between a bell of an electrostatic coater and a coating object. SOLUTION: For the purpose of measuring the charge distribution of the coating particles sprayed from the bell inside a coating booth in which booth air is produced and charged under a high voltage, the particle size distribution of the particles in the lateral cross-section of a spray pattern is measured from sideward by a laser type particle distribution measuring device 30 in the state of placing the coating object test plate 21 on a coating object position opposite to the bell 11 of the electrostatic coater. The particles having the particle sizes are multiplied by the coating particle density to obtain the mass distribution data of the coating particles. The mass of the coating applied on the coating test plate 21 per unit time and the current flowing between the coating test plate 21 and a reference potential of a high voltage are measured. The specific charge of the coating particle is calculated on the basis of the mass and current measured as describe above. The charge distribution data is prepared by multiplying the mass distribution data by the specific charge. COPYRIGHT: (C)2007,JPO&INPIT
    • 解决方案:提供一种用于涂布能够测量粒径不均匀并在静电涂布机的钟罩和被涂物体之间施加高电压的涂层颗粒的电荷分布的粒子的电荷分布测量方法。

      解决方案:为了测量从高压下产生和充电的涂装室内的钟罩喷出的涂料颗粒的电荷分布,其横向横截面中的颗粒的粒度分布, 在将涂布对象测试板21放置在与静电涂布机的钟形11相对的涂布对象位置的状态下,通过激光型粒子分布测量装置30从侧向测量截面。 将具有颗粒尺寸的颗粒乘以涂层颗粒密度以获得涂层颗粒的质量分布数据。 测量每单位时间涂覆在涂层测试板21上的涂层质量,并测量在涂层测试板21和高电压的参考电位之间流动的电流。 根据如上所述测量的质量和电流计算涂层颗粒的比电荷。 通过将质量分布数据乘以特定电荷来准备电荷分布数据。 版权所有(C)2007,JPO&INPIT