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    • 1. 发明专利
    • Manufacturing method for vehicle body side part structure and vehicle body side part structure
    • 车身部件结构与车身部件结构的制造方法
    • JP2014193712A
    • 2014-10-09
    • JP2014029206
    • 2014-02-19
    • Toa Kogyo Kk東亜工業株式会社
    • YAJIMA MASAKIKANAI KOJI
    • B62D25/04
    • B62D25/04B21D22/208B21D35/007B62D29/007Y10T29/49622
    • PROBLEM TO BE SOLVED: To provide a manufacturing method for a vehicle body side part structure in which degree-of-freedom of spot weld portions can be increased.SOLUTION: Steel materials 1a, 1b, 1c are cut into a predetermined planar shape by use of presses 2a, 2b, 2c thereby forming an upper member 3a, a reinforcement member 3b and a lower member 3c. A carbon content of the steel material 1c is so set as to be smaller than that of the steel materials 1a, 1b. Next, the upper member 3a, the reinforcement member 3b and the lower member 3c are integrated. The reinforcement member 3b is laminated on the upper member 3a. Further, the upper member 3a and the lower member 3c are partially laminated. Then, the laminated portions of the upper member 3a and the reinforcement member 3b, and the laminated portions 6 of the upper member 3a and the lower member 3c are respectively spot-weld thereby joining the members to each other to form a blank. Thereafter, the spot-weld blank is heated to a temperature higher than a transformation point, and the blank is hot press-molded by one press 4.
    • 要解决的问题:提供一种能够提高点焊部的自由度的车身侧部结构的制造方法。解决方案:钢材1a,1b,1c通过使用被切割成预定的平面形状 的压力机2a,2b,2c,从而形成上部构件3a,加强构件3b和下部构件3c。 钢材1c的碳含量设定为小于钢材1a,1b的碳含量。 接下来,上部构件3a,加强构件3b和下部构件3c一体化。 加强构件3b层压在上部构件3a上。 此外,上部构件3a和下部构件3c被部分层压。 然后,上部构件3a和加强构件3b的层叠部分以及上部构件3a和下部构件3c的层叠部分6分别点焊,从而将构件彼此接合以形成空白。 此后,将点焊坯料加热到高于相变点的温度,并且通过一次压制4将该坯料热压成型。
    • 2. 发明专利
    • Work-piece transportation machine for furnace
    • FERNACE工厂运输机
    • JP2014077571A
    • 2014-05-01
    • JP2012224198
    • 2012-10-09
    • Toa Kogyo Kk東亜工業株式会社
    • HAYASHI KOJISHIMIZU TAICHI
    • F27B9/38C21D1/00F27B9/06
    • PROBLEM TO BE SOLVED: To provide a work-piece transportation machine for a furnace, capable of chucking a work-piece, such as a steel plate, and transporting it to a predetermined position in a furnace to be heated to a high temperature equal to or more than the austenitizing temperature.SOLUTION: A work-piece transportation machine 20 for a furnace includes a frame 22 mounted on a base 21 movably in the vertical direction (Z direction) and the horizontal direction (X direction), and is configured to use a rack-and-pinion mechanism mounted on the frame 22 to open and close first work-piece chuck plates 36a, 36b and second work-piece chuck plates 36c, 36d.
    • 要解决的问题:提供一种用于炉的工件运输机械,其能够夹持诸如钢板的工件,并将其运送到炉中的预定位置以加热至等于 或大于奥氏体化温度。解决方案:一种用于炉子的工件运输机器20包括安装在基座21上的框架22​​,该基座21在垂直方向(Z方向)和水平方向(X方向)上可移动地配置, 使用安装在框架22上的齿条和齿轮机构来打开和关闭第一工件卡盘板36a,36b和第二工件卡盘板36c,36d。
    • 3. 发明专利
    • Both sides painting method for porous plate
    • 多孔板的两面绘画方法
    • JP2013223836A
    • 2013-10-31
    • JP2012097241
    • 2012-04-23
    • Toa Kogyo Kk東亜工業株式会社
    • NAGAZOE NAOMICHI
    • B05D3/02
    • PROBLEM TO BE SOLVED: To rationalize a both sides painting process for a porous plate having concaves and convexes in/on the surface.SOLUTION: A porous plate 1 is pre-heated by being carried into a pre-heating furnace by being put on a carrier roller 2 with its surface 2 being upward. Next, the porous plate 1 taken out from the pre-heating furnace is carried into a painting machine and spray painting is carried out on its surface. Next, the porous plate 1 is heated and dried by conveying the porous plate 1 on which the surface painting is executed into a drying furnace. Afterward, the porous plate 1 is upturned on the carrier roller 4, and the back surface of the upturned porous plate 1 is painted by using the painting roller 5. After painting this back surface, the porous plate 1 is cooled by applying an air blow to the porous plate 1 by conveying it into an air cooling apparatus provided with an air blower.
    • 要解决的问题:为了使在表面上/表面具有凹凸的多孔板的两面涂漆工艺合理化。解决方案:多孔板1通过被放入预热炉中而被预热 承载辊2的表面2向上。 接着,将从预热炉取出的多孔板1载置在喷涂机中,在其表面进行喷涂。 接下来,通过将执行表面喷涂的多孔板1输送到干燥炉中来加热和干燥多孔板1。 之后,多孔板1在承载辊4上向上翻转,并且通过使用涂漆辊5涂覆上翻的多孔板1的后表面。在对该后表面进行涂漆之后,通过施加吹气来冷却多孔板1 通过将其输送到设置有鼓风机的空气冷却装置中来连接到多孔板1。
    • 5. 发明专利
    • Method of laser welding metal plated plate
    • 激光焊接金属板的方法
    • JP2010094701A
    • 2010-04-30
    • JP2008266687
    • 2008-10-15
    • Toa Kogyo Kk東亜工業株式会社
    • OKU YOSHIHIROSHIMIZU TAICHIKAWAMATA KENICHI
    • B23K26/20B23K26/32B23K103/04B23K103/16
    • PROBLEM TO BE SOLVED: To provide a method of laser welding a metal plated plate, in which successful welding is surely attained without any melting defect such as blowholes. SOLUTION: A lower plate 11 and an upper plate 12 are superposed on each other. First laser beam 18a is moved along first to third straight paths K1-K3 on a superposed section and zinc present in a superposed surface of the lower plate 11 and the upper plate 12 corresponding to a wide application area 19a of the first laser beam 18a is evaporated and allowed to escape outside. Then, the second laser beam 18b having the energy density higher than that of the first laser beam 18a and having an application area 19b narrower than that of the first laser beam is applied while being moved along the second straight path K2. Welding and bonding are completed by melting steel plate portions of the lower plate 11 and the upper plate 12 corresponding to the narrow application area 19b. COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供一种激光焊接金属镀板的方法,其中可靠地获得成功的焊接而没有诸如气孔的任何熔融缺陷。

      解决方案:下板11和上板12彼此叠置。 第一激光束18a在重叠部分上沿着第一至第三直线路径K1-K3移动,并且存在于下板11的叠置表面中的锌和对应于第一激光束18a的宽施加区域19a的上板12是 蒸发并允许逃出外面。 然后,在沿着第二直线路径K2移动的同时施加能量密度高于第一激光束18a的能量密度并且具有比第一激光束窄的应用区域19b的第二激光束18b。 通过熔化对应于窄应用区域19b的下板11和上板12的钢板部分来完成焊接和接合。 版权所有(C)2010,JPO&INPIT

    • 6. 发明专利
    • Method for producing porous corner plate
    • 生产多孔角板的方法
    • JP2009227518A
    • 2009-10-08
    • JP2008075271
    • 2008-03-24
    • Toa Kogyo Kk東亜工業株式会社
    • NAGAZOE NAOMICHI
    • C04B41/62
    • PROBLEM TO BE SOLVED: To provide a method for efficiently producing ALC (Autoclaved Light-Weight Concrete) corner plates which is suitable for integrated production.
      SOLUTION: At first, a rugged pattern 11 is formed on the surface of an ALC square bar 10. This rugged pattern is the one for giving the feeling of beauty in the appearance of ALC corner plates 12a, 12b. Next, the surface of the ALC square bar 10 with the rugged pattern 11 formed is subjected to coating treatment (stage S1). After the coating treatment, for drying a coating material applied to the ALC square bar 10, drying treatment is performed (stage S2). And, in many cases, the ALC plate 10 is overheated before the coating. In such case, cooling treatment is performed after the drying treatment (stage S3). After that, the two ALC corner plates 12a, 12b with cross-sectional L shape are cut out from the ALC square bar 10 (stage S4).
      COPYRIGHT: (C)2010,JPO&INPIT
    • 解决的问题:提供一种适用于一体化生产的ALC(高压灭菌轻混凝土)角板的有效生产方法。 解决方案:首先,在ALC方棒10的表面上形成凹凸图案11.该凹凸图案是用于在ALC角板12a,12b的外观上给人美感的那种。 接下来,对形成有凹凸图案的ALC方棒10的表面进行涂布处理(阶段S1)。 在涂布处理之后,为了干燥施加到ALC方棒10上的涂料,进行干燥处理(阶段S2)。 而且,在许多情况下,ALC板10在涂层之前过热。 在这种情况下,在干燥处理后进行冷却处理(阶段S3)。 之后,从ALC方棒10切出具有横截面L形的两个ALC角板12a,12b(阶段S4)。 版权所有(C)2010,JPO&INPIT
    • 7. 发明专利
    • Rotating fixture mechanism
    • 旋转固定机构
    • JP2008000849A
    • 2008-01-10
    • JP2006172969
    • 2006-06-22
    • Toa Kogyo Kk東亜工業株式会社
    • NISHIKATA HIROSHI
    • B23P19/00
    • PROBLEM TO BE SOLVED: To reduce cost of a rotating fixture mechanism set on a working assembling line of a car body panel, etc.
      SOLUTION: A rotating operation pin 23 is mounted on a working device 22 mounted on an arm 21 of a working robot 20, for example, a welding device. A rotation control plate 9 is rotated by using the rotating operation pin 23 by inserting the rotating operation pin 23 into a through-hole provided on the rotation control plate 9. Consequently, a rotating member 5 rotates around a central shaft 4 as its center and moves a workpiece positioning fixture 8c provided on an outer periphery of the rotating member 5 to a workpiece working position. Thereafter, the working robot 20 carries out working of welding, etc. on a workpiece 7a by using the working device 22 by extending the arm 21.
      COPYRIGHT: (C)2008,JPO&INPIT
    • 解决方案:降低设置在车体面板等的工作组装线上的旋转夹具机构的成本。解决方案:旋转操作销23安装在安装在车身板上的工作装置22上 作业机器人20的臂21,例如焊接装置。 通过将旋转操作销23插入设置在旋转控制板9上的通孔中,通过使用旋转操作销23旋转旋转控制板9.因此,旋转构件5围绕作为其中心的中心轴4旋转, 将设置在旋转构件5的外周上的工件定位固定件8c移动到工件工作位置。 此后,工作机器人20通过使臂21延伸通过使用工作装置22来对工件7a进行焊接等的工作。(C)2008,JPO&INPIT
    • 8. 发明专利
    • Accumulated air analyzer
    • 累积空气分析仪
    • JP2007188402A
    • 2007-07-26
    • JP2006007358
    • 2006-01-16
    • Fuji Heavy Ind LtdToa Kogyo Kk富士重工業株式会社東亜工業株式会社
    • KOMORIYA TORUSHODA MASAMIOKU YOSHIHIROIZAWA TAKASHI
    • G06F17/50B05C3/02
    • Y02T10/82
    • PROBLEM TO BE SOLVED: To provide an analyzer which can easily find out a measure for preventing occurrence of accumulated air in a painted work by analyzing the occurrence of the accumulated air regarding the painted work and calculating a volume of accumulated air bubbles and an area of a boundary face of the accumulated air bubbles and a liquid paint.
      SOLUTION: The accumulated air analyzer is provided with: an input means for inputting shape data corresponding to the painted work to be immerse-painted and data of a property value of the liquid paint and that of air bubble particles; and an arithmetic means which divides image data of the painted work input by the input means and a space in a prescribed range surrounding the painted work into two or more elements, which calculates the behavior of the air bubble particles based on the data input by the input means, and which calculates the volume of the accumulated air bubbles and an area of a boundary face of the accumulated air bubbles and the liquid paint based on air bubble particles determined to be accumulated in the air bubble particles.
      COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提供一种能够容易地找出用于通过分析关于涂漆工作的累积空气的发生并计算累积气泡的体积而防止在涂漆工作中发生累积空气的措施的分析器,以及 积聚气泡的边界面的区域和液体涂料。

      解决方案:累积空气分析仪设置有:用于输入与要浸渍的涂漆工件相对应的形状数据的输入装置和液体涂料的属性值以及气泡颗粒的属性值的数据; 以及算术装置,其将由输入装置输入的绘画作品的图像数据和围绕绘画作品的规定范围中的空间分成两个或更多个元素,其基于由所输入的数据输入的数据来计算气泡粒子的行为 输入装置,其基于被确定为积聚在气泡粒子中的气泡粒子计算积聚的气泡的体积和积聚的气泡和液体涂料的边界面的面积。 版权所有(C)2007,JPO&INPIT

    • 9. 发明专利
    • METHOD FOR MEASURING SWINGING AMOUNT
    • JP2007002312A
    • 2007-01-11
    • JP2005185053
    • 2005-06-24
    • FUJI HEAVY IND LTDTOA KOGYO KK
    • KOMORIYA TORUSHODA MASAMIOKU YOSHIHIROIZAWA TAKASHI
    • C25D13/06
    • PROBLEM TO BE SOLVED: To decrease the cost of a method for measuring a swinging amount of an object to be dipped in a dipping treatment. SOLUTION: In the method for measuring the swinging amount, the swinging amount of an the object 4 to be coated in an electrodeposition coating line 1 is measured. At first, an internal space A is formed by a tip part 71 and side parts 72 elongating from the tip part 71 toward the lower part, and further, a measuring member 7 at which an opening part 74 capable of releasing air present in the internal space A to the outside is formed at the side part 72 or the bottom part 73 is fitted to the object 4 to be coated. Next, as the object 4 to be coated fitted with the measuring member 7 is conveyed by a conveyer 6, the object 4 to be coated is dipped into an electrodeposition coating liquid 3 stored in an electrodeposition liquid tank 2, and electrodeposition coating is applied to the object 4 to be coated. Finally, regarding the object 4 to be coated which has been subjected to the electrodeposition coating, based on the position of the grain boundary L2 between the region subjected to the electrodeposition coating and the region not subjected to the electrodeposition coating in the internal space A of the measuring member 7, the swinging amount of the object 4 to be coated in the conveying stage is measured. COPYRIGHT: (C)2007,JPO&INPIT
    • 10. 发明专利
    • Method of coating porous plate
    • 涂多孔板的方法
    • JP2005349248A
    • 2005-12-22
    • JP2004169644
    • 2004-06-08
    • Toa Kogyo Kk東亜工業株式会社
    • NAGAZOE NAOMICHI
    • B05D1/28B05D7/00C04B41/63
    • PROBLEM TO BE SOLVED: To provide a method of coating porous plates capable of suppressing, to the most, a coating unevenness of the rear surface and deterioration of the waterproofness of a porous plate.
      SOLUTION: In the method, an ALC (autoclaved lightweight aerated concrete) plate 10 of which the front surface is formed of concave parts 10a and convex parts 10b and the rear surface is formed of a plane, and a support plate 20 of which the both surfaces are formed of planes, are prepared. Then, the ALC plate 10 is placed on the support plate 20 so that the front surface of the ALC plate 10 comes into contact with the main surface of the support plate 20. Then, the ALC plate 10 placed on the support plate 20 is inserted to between a coating roller 31 and a transporting roller 33 together with the support plate 20 at the same time, so that the rear surface of the ALC plate 10 comes into contact with the coating roller 31 and that the main surface (plane) of the support plate 20 comes into contact with the transporting roller 33. Then, the ALC plate 10 and the support plate 20 are moved by the rotation of the transporting roller 33, and also, the rear surface of the ALC plate 10 in contact with the coating roller 31 is coated.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:提供一种能够最大程度地抑制背面的涂布不均匀性和多孔板的防水性劣化的多孔板的涂布方法。 解决方案:在该方法中,前表面由凹部10a和凸部10b形成的ALC(高压灭菌轻质加气混凝土)板10和后表面由平面构成,支撑板20 这两个表面由平面形成。 然后,将ALC板10放置在支撑板20上,使得ALC板10的前表面与支撑板20的主表面接触。然后插入放置在支撑板20上的ALC板10 同时与支撑板20一起在涂布辊31和输送辊33之间,使得ALC板10的后表面与涂布辊31接触,并且将主表面(平面) 支撑板20与传送辊33接触。然后,ALC板10和支撑板20通过传送辊33的旋转以及与涂层接触的ALC板10的后表面移动 辊31被涂覆。 版权所有(C)2006,JPO&NCIPI