公开(公告)号：US08652394B2

公开(公告)日：2014-02-18

申请号：US13318196

申请日：2009-06-17

Applicant: Takuzou Sano ,  Noboru Takada

Inventor： Takuzou Sano ,  Noboru Takada

IPC: B29C51/10

CPC classification number: B29D30/2607 ,  B29C33/02 ,  B29D30/0601 ,  B29D30/0654 ,  B29D30/0681 ,  B29D30/08 ,  B29D30/10 ,  B29D30/246 ,  B29D2030/0647 ,  B29D2030/0655 ,  B29D2030/0682 ,  B60C1/0008 ,  B60C5/14 ,  B60C2005/145

Abstract: A cylindrical-shaped body is formed by mounting a carcass to the outer peripheral side of a film formed of a thermoplastic resin or a thermoplastic resin elastomer composition, a primary molded body is formed by fitting bead rings on opposite width direction ends of the cylindrical-shaped body, and the primary molded body is sucked on the inner peripheral surface of a transfer and holding mold. After a rigid inner mold is inserted into the body, suction is stopped and the body is transferred to the outer peripheral surface of the inner mold. Then, another tire member is stacked on the outer peripheral surface to mold a green tire. The tire, from which the inner mold was removed, is mounted inside a curing mold which is heated. The film is inflated and heated to vulcanize the tire, and bonded to the inner peripheral tire surface to form an inner layer.

Abstract translation: 通过将胎体安装到由热塑性树脂或热塑性树脂弹性体组合物形成的膜的外周侧而形成圆筒状的主体，通过在圆筒状的相对宽度方向的端部嵌入胎圈环而形成一次成型体， 并且一次成型体被吸入转印保持模具的内周面。 在将刚性内模插入到主体中之后，停止抽吸并将主体转移到内模的外周表面。 然后，在外周面上堆叠另一个轮胎部件，以模制生胎。 将内模除去的轮胎安装在被加热的固化模具的内部。 将膜充气并加热以硫化轮胎，并且将其粘合到内周轮胎表面以形成内层。

公开(公告)号：US20140023739A1

公开(公告)日：2014-01-23

申请号：US14009636

申请日：2012-04-10

Applicant: Noboru Takada

Inventor： Noboru Takada

IPC: B29C35/02 ,  B29C33/38

CPC classification number: B29C35/02 ,  B22C9/02 ,  B29C33/10 ,  B29C33/3842 ,  B29D30/0606 ,  B29D2030/0617 ,  B29L2030/00

Abstract: A vulcanizing mold manufacturing method, and a tire vulcanizing mold are disclosed. Tubular bodies each formed by oppositely arranging the inner peripheral surfaces of both end portions of a plate-shaped body are each arranged so that the gap between both opposite end portions thereof is narrowed and that the tips of both end portions come in contact with the surface of the plaster mold, by inserting and fitting both opposite end portions into a fitting portion of a plate-shaped metal fitting protruding from the surface of the plaster mold. Molten metal is poured over the surface of the plaster mold to embed the tubular body in a mold while exposing the tips of both opposite end portions at the tire molding surface of the mold. The metal fitting is removed from the mold, so that a mold having a small gap between both opposite end portions is manufactured.

Abstract translation: 公开了硫化模具制造方法和轮胎硫化模具。 通过相对配置板状体的两端部的内周面而形成的管状体各自配置成使其两端部之间的间隙变窄，并且两端部的前端与表面接触 通过将两个相对端部插入并嵌合到从石膏模具的表面突出的板状金属配件的装配部分中。 将熔融金属倒在石膏模具的表面上以将管状体嵌入模具中，同时使模具的轮胎成型表面处的两个相对端部的末端露出。 将金属配件从模具中取出，从而制造两个相对端部之间具有小间隙的模具。

公开(公告)号：US20130009344A1

公开(公告)日：2013-01-10

申请号：US13634646

申请日：2011-03-02

Applicant: Takuzo Sano ,  Noboru Takada

Inventor： Takuzo Sano ,  Noboru Takada

IPC: B29D30/08

CPC classification number: B29D30/10 ,  B29D30/0661 ,  B29D30/0681 ,  B29D2030/062 ,  B29D2030/0655 ,  B29D2030/0659 ,  B29D2030/0682 ,  B29L2030/00

Abstract: A primary formed body is formed by fitting bead rings to outside end portions of a cylindrical body having a film and a carcass material disposed on an outer peripheral side of the film. A green tire is formed on a rigid inner mold by causing a center portion of the primary formed body to bulge toward an outer peripheral side, and holding the center portion by suction on the inner peripheral surface of the transferring/holding mold having a similar shape to the outer peripheral surface of the rigid inner mold, and suspending the suction with the transferring/holding mold, and transferring the primary formed body to an outer peripheral surface of a bladder. The bladder has a uniform thickness and an outer peripheral surface in a neutral state similar to a profile of an inner peripheral surface of a tire to be produced. The green tire is vulcanized.

Abstract translation: 初级成形体通过将胎圈环安装在具有膜的圆筒体的外端部和设置在膜的外周侧的胎体材料形成。 通过使初级成形体的中心部朝向外周侧凸出而在刚性内模上形成生胎，并且通过抽吸将中心部保持在具有相似形状的转移保持模具的内周面上 到刚性内模的外周表面，并且用转移/保持模具悬挂吸力，并将初级成形体转移到囊的外周表面。 气囊具有均匀的厚度和与待制造的轮胎的内周面的轮廓相似的中性状态的外周面。 生轮胎硫化。

公开(公告)号：US20120299217A1

公开(公告)日：2012-11-29

申请号：US13423706

申请日：2012-03-19

Applicant: Atsushi Tanno ,  Noboru Takada ,  Yuji Sato ,  Jun Matsuda ,  Yuji Kodama ,  Susumu Imamiya

Inventor： Atsushi Tanno ,  Noboru Takada ,  Yuji Sato ,  Jun Matsuda ,  Yuji Kodama ,  Susumu Imamiya

IPC: B29D30/06

CPC classification number: B29D30/0681 ,  B29D2030/0683

Abstract: A green tire of a pneumatic tire, including a cylindrical annular structure, an unvulcanized rubber layer, which will become a tread portion, provided along a circumferential direction of the annular structure on an outer side of the annular structure, and a carcass portion including fibers covered with rubber, provided on at least both sides in the width direction of a cylindrical structure including the annular structure and the unvulcanized rubber layer, is disposed in a vulcanization mold. The vulcanization mold is split into the side plates and the sector at a position on the inner side in the width direction of the annular structure. Next, the bladder inside the green tire is pressurized after closing the side plates and prior to closing the sector. Then the sector is closed and vulcanization is started.

Abstract translation: 在环状结构的外侧沿着环状结构体的圆周方向设置有包括圆筒形环状结构的成为胎面部的未硫化橡胶层的充气轮胎的生胎，以及包含纤维 在包括环形结构和未硫化橡胶层的圆柱形结构的宽度方向的至少两侧上设置有橡胶，设置在硫化模具中。 硫化模具在环状结构的宽度方向的内侧的位置分割成侧板和扇形部。 接下来，在关闭侧板之后并且在关闭扇区之前，生胎内的气囊被加压。 然后关闭扇区并开始硫化。

公开(公告)号：US08273282B2

公开(公告)日：2012-09-25

申请号：US13159033

申请日：2011-06-13

Applicant: Takuzou Sano ,  Noboru Takada

Inventor： Takuzou Sano ,  Noboru Takada

IPC: B29C43/02

CPC classification number: B29D30/0629 ,  B29D2030/063

Abstract: Provided are a bisected mold for tire molding that enables manufacturing of high-performance tires and that at a mold clamping, avoids a tire from being pinched to thereby attain a yield enhancement; and a process for manufacturing a tire. Inside a container bisected into upper and lower parts in the state of mold opening, there are disposed a mold for tire molding and, along upper and lower side plates, an unvulcanized tire. After performing vulcanization molding of the unvulcanized tire while changing from this state to a state of mold clamping of sectors and segments split into a plurality of pieces in a circumferential direction of the unvulcanized tire through a driving device and a slide unit means, only the sectors are subjected to mold opening by use of a driving means while maintaining the state of mold clamping of the mold for tire molding and the segments by the driving device and the slide unit means, and subsequently taking the vulcanization-molded tire.

Abstract translation: 本发明提供一种轮胎成形用的二等分模具，其能够制造高性能轮胎，并且在模具夹紧下，避免了被挤压的轮胎，从而达到提高产量; 以及轮胎的制造工序。 在开模状态下分成上下部分的容器中，设置有用于轮胎成型的模具，并且沿上下侧板形成未硫化轮胎。 在从该状态向未硫化轮胎进行硫化成形之后，通过驱动装置和滑动单元装置，在未硫化轮胎的圆周方向上分割为多个的部分和部分的模具夹紧状态下， 通过驱动装置进行开模，同时保持用于轮胎成型的模具的模具夹紧状态，以及通过驱动装置和滑动单元装置的段，然后取出硫化成型的轮胎。

公开(公告)号：US20120092550A1

公开(公告)日：2012-04-19

申请号：US13266523

申请日：2010-02-17

Applicant: Yoshihito Urashima ,  Jyouji Wada ,  Noboru Takada ,  Kazushige Tamura ,  Tamotsu Uchida ,  Keiichi Tamura ,  Yoshikatsu Henmi

Inventor： Yoshihito Urashima ,  Jyouji Wada ,  Noboru Takada ,  Kazushige Tamura ,  Tamotsu Uchida ,  Keiichi Tamura ,  Yoshikatsu Henmi

IPC: H04N5/225 ,  B23P11/00

CPC classification number: H04N5/2253 ,  G03B17/568 ,  Y10T29/49002

Abstract: A camera device (1) includes an image sensor (5) which is assembled into a case (2), a first perspective-control component (6) including a convex partial spherical surface (15) for performing perspective control, and a second perspective-control component (7) including a concave partial spherical surface (21) having a radius of curvature and a center of curvature which are equal to those of the convex partial spherical surface. Before completion of the assembly of the image sensor (5) into the case (2), the second perspective-control component (7) is mounted on the first perspective-control component (6) attached to a back side of the image sensor (5), and perspective control is performed with the convex partial spherical surface (15) and the concave partial spherical surface (21) in surface contact with each other. The first perspective-control component (6) and the second perspective-control component (7) are secured to each other via an adhesive after completion of the perspective control. Provided is a camera device enabling work for adjusting an inclination of an image plane relative to an optical axis (perspective control) to be solely performed in advance when assembling an image sensor into a case and having a high degree of flexibility in the order for the perspective control work.

Abstract translation: 相机装置（1）包括组装到壳体（2）中的图像传感器（5），包括用于进行透视控制的凸形部分球面（15）的第一透视控制部件（6）和第二透视 - 控制部件（7），其包括具有与凸部分球面相同的曲率半径和曲率中心的凹部分球面（21）。 在完成将图像传感器（5）组装到壳体（2）中之前，第二透视控制部件（7）安装在安装在图像传感器的背面的第一透视控制部件（6）上 5），并且使凸部分球面（15）和凹部分球面（21）彼此表面接触进行透视控制。 在透视控制完成之后，第一透视控制部件（6）和第二透视控制部件（7）经由粘合剂彼此固定。 本发明提供一种相机装置，其能够在将图像传感器组装到壳体中并且具有高度灵活性的情况下，预先单独执行相对于光轴（透视控制）来调整图像平面的倾斜度（透视控制） 透视控制工作。

公开(公告)号：US08034204B2

公开(公告)日：2011-10-11

申请号：US12161641

申请日：2007-03-22

Applicant: Noboru Takada

Inventor： Noboru Takada

IPC: B29D30/10 ,  B29D30/12

CPC classification number: B29D30/10 ,  B29D30/0016 ,  B29D2030/0022 ,  B29D2030/105 ,  Y10T29/49819

Abstract: Provided are a method and a device for efficiently separating and automatically removing a tire-building rigid core from the inside of the tire. After a core holding mechanism and upper and lower support plates are removed from a rigid core body that is disposed in the tire and composed of two types of segment groups, the tire is transferred onto a predetermined position on a support table, and positioned and fixed. Then, a first core separation/removal mechanism having been on standby below the center of the tire on the support table is raised to support the center of the inner wall surface of one type of the segment groups and horizontally pull the one type of the segment groups to the center side of the tire until it is separated from the inner surface of the tire. The separated segment group is lowered to the standby position below the center of the support table and is left on standby. Next, in the same way as above, the other type of the segment groups is separated from the inner surface of the tire and moved to a standby position by a second core separation/removal mechanism having been on standby at another standby position.

Abstract translation: 提供了一种用于从轮胎内部有效地分离和自动去除轮胎成型刚性芯的方法和装置。 在芯体保持机构和上下支撑板从设置在轮胎中并由两种类型组组成的刚性芯体移除之后，轮胎被转移到支撑台上的预定位置上并定位和固定 。 然后，升起在支撑台上的轮胎中心以下待机的第一芯分离/移除机构，以支撑一种类型的组组的内壁表面的中心，并水平拉动一种类型的片段 组合到轮胎的中心侧，直到其从轮胎的内表面分离。 分离的段组降低到支撑台中心下方的待机位置，并处于待机状态。 接下来，以与上述相同的方式，另一种类型的段组从轮胎的内表面分离，并通过在另一待机位置待机的第二芯分离/移除机构移动到待机位置。

公开(公告)号：US20100230033A1

公开(公告)日：2010-09-16

申请号：US12161641

申请日：2007-03-22

Applicant: Noboru Takada

Inventor： Noboru Takada

IPC: B29D30/12

CPC classification number: B29D30/10 ,  B29D30/0016 ,  B29D2030/0022 ,  B29D2030/105 ,  Y10T29/49819

Abstract: Provided are a method and a device for efficiently separating and automatically removing a tire-building rigid core from the inside of the tire. After a core holding mechanism and upper and lower support plates are removed from a rigid core body that is disposed in the tire and composed of two types of segment groups, the tire is transferred onto a predetermined position on a support table, and positioned and fixed. Then, a first core separation/removal mechanism having been on standby below the center of the tire on the support table is raised to support the center of the inner wall surface of one type of the segment groups and horizontally pull the one type of the segment groups to the center side of the tire until it is separated from the inner surface of the tire. The separated segment group is lowered to the standby position below the center of the support table and is left on standby. Next, in the same way as above, the other type of the segment groups is separated from the inner surface of the tire and moved to a standby position by a second core separation/removal mechanism having been on standby at another standby position.

Abstract translation: 提供了一种用于从轮胎内部有效地分离和自动去除轮胎成型刚性芯的方法和装置。 在芯体保持机构和上下支撑板从设置在轮胎中并由两种类型组组成的刚性芯体移除之后，轮胎被转移到支撑台上的预定位置上并定位和固定 。 然后，升起在支撑台上的轮胎中心以下待机的第一芯分离/移除机构，以支撑一种类型的组组的内壁表面的中心，并水平拉动一种类型的片段 组合到轮胎的中心侧，直到其从轮胎的内表面分离。 分离的段组降低到支撑台中心下方的待机位置，并处于待机状态。 接下来，以与上述相同的方式，另一种类型的段组从轮胎的内表面分离，并通过在另一待机位置待机的第二芯分离/移除机构移动到待机位置。

公开(公告)号：US20060144110A1

公开(公告)日：2006-07-06

申请号：US10561609

申请日：2004-07-13

Applicant: Takuzo Sano ,  Noboru Takada

Inventor： Takuzo Sano ,  Noboru Takada

IPC: B21D22/14

CPC classification number: B21D22/16 ,  B60B21/12

Abstract: A forming device having a rotating frame (1) and a forming blade (2) movable in the axial and radial directions of the rotating frame. One side-edge portion of a tubular blank (B) is fixed to a predetermined position of the rotating frame (1), and the other side-edge portion is movably set on the rotating frame. While the rotating frame (1) is rotated, the forming blade (2) is pressed to the inner diameter side or the outer diameter side of a peripheral wall of the tubular blank (B). The forming blade is reciprocated from the fixed side-edge portion radially outward or inward and moved toward the movable side-edge portion. Thus, a tubular formed body in which at least a ridge portion or a recess portion continuing in circumferential direction is shaped in the peripheral wall is formed.

Abstract translation: 一种具有旋转框架（1）和可在旋转框架的轴向和径向方向上移动的成形刀片（2）的成形装置。 管状坯料（B）的一个侧边部分固定在旋转框架（1）的预定位置，另一个侧边缘部分可移动地设置在旋转框架上。 当旋转框架（1）旋转时，成形刀片（2）被压向管状坯料（B）的周壁的内径侧或外径侧。 成形刀片从径向向外或向内的固定侧边缘部分往复运动，并朝着可动侧缘部移动。 因此，形成有在圆周方向上至少形成有沿圆周方向延续的脊部或凹部的管状成形体。

公开(公告)号：US07050093B1

公开(公告)日：2006-05-23

申请号：US09323397

申请日：1999-06-01

Applicant: Jyoji Wada ,  Yoshifumi Yano ,  Noboru Takada ,  Kazushige Tamura

Inventor： Jyoji Wada ,  Yoshifumi Yano ,  Noboru Takada ,  Kazushige Tamura

IPC: H04N5/232 ,  G09G5/08

CPC classification number: H04N5/232

Abstract: A pivoting unit pivots a video camera at a pivoting speed. The video camera includes a zoom mechanism and a zoom amount signal generation circuit for generating a zoom amount signal. A pivoting speed command signal generating circuit responsive to an operation generates a pivoting speed command signal and a speed controlling circuit controls the pivoting speed in accordance with the zoom amount signal and the pivoting speed command signal. Controlling is made such that the pivoting speed is relatively decreased from the pivoting speed command signal when the zoom amount signal indicates a telephoto side and is relatively increased from the pivoting speed command signal when the zoom signal indicates a wide-angle. A joystick generating the pivoting speed command signal includes two coil springs for generating a reaction force which is made stronger when the operation angle of thereof exceeds a reference. The pivoting speed is also accelerated when the operation angle exceeds the reference.

Abstract translation: 枢转单元以枢转速度枢转摄像机。 摄像机包括变焦机构和用于产生变焦量信号的变焦量信号产生电路。 响应于操作的枢转速度指令信号发生电路产生枢转速度指令信号，速度控制电路根据变焦量信号和转动速度指令信号来控制转动速度。 进行控制，使得当变焦量信号指示远摄侧时，从枢转速度指令信号来的转动速度相对减小，并且当变焦信号表示广角时相对于枢转速度指令信号相对增加。 产生枢转速度指令信号的操纵杆包括两个螺旋弹簧，用于产生当其操作角超过基准时变得更强的反作用力。 当操作角度超过参考值时，转动速度也会加快。