公开(公告)号：US20050224159A1

公开(公告)日：2005-10-13

申请号：US11143638

申请日：2005-06-03

Applicant: Nobuyuki Suda ,  Takashi Senbokuya ,  Kenji Ogawa

Inventor： Nobuyuki Suda ,  Takashi Senbokuya ,  Kenji Ogawa

IPC: B26D1/00 ,  B26D7/27 ,  B26D7/32 ,  B29C47/02 ,  B29C47/14 ,  B29D30/38 ,  B29D30/42 ,  B29D30/46 ,  B60C9/02

CPC classification number: B29D30/46 ,  B26D3/003 ,  B26D7/27 ,  B26D7/32 ,  B29C47/0021 ,  B29C47/025 ,  B29C47/14 ,  B29C65/7802 ,  B29C66/112 ,  B29C66/116 ,  B29C66/1162 ,  B29C66/1282 ,  B29C66/12841 ,  B29C66/14 ,  B29C66/4326 ,  B29C66/435 ,  B29C66/49 ,  B29C66/71 ,  B29C66/72141 ,  B29D30/38 ,  B29D30/42 ,  B29D2030/0682 ,  B29D2030/1685 ,  B29D2030/423 ,  B29D2030/428 ,  B29K2021/00 ,  B29L2030/004 ,  B60C9/02 ,  Y10T156/1075 ,  Y10T156/13

Abstract: A tire structural member manufacturing method forms a tire structural member from a narrow continuous strip by small, inexpensive equipment capable of being directly combined with a tire structural member forming machine, and a tire structural member manufacturing system carries out the tire structural member manufacturing method. The tire structural member manufacturing methods consists of a small number of steps and can be carried out by an efficient, simple, inexpensive tire structural member manufacturing system. The tire structural member manufacturing method forms a tire structural member by the steps of continuously forming a continuous strip of a width including that of a joint lap, cutting the continuous strip into successive cut strips of a length substantially equal to the section width of a tire, and successively laying and joining a predetermined number of the cut strips. The tire structural member manufacturing method forms a tire structural member also by the steps of continuously feeding a continuous strip to a strip-laying head, laying the continuous strip on a strip support while the strip-laying head is moved over the strip support for a forward stroke, cutting the continuous strip in a cut strip of a predetermined length when the strip-laying head reaches a position near the terminal of its forward stroke, changing the position of the strip-laying head by moving the strip-laying head and the strip support relative to each other, laying the continuous strip on the strip support while the strip-laying head is moved for a backward stroke, and repeating those steps overlap cut strips.

Abstract translation: 轮胎结构构件制造方法通过能够与轮胎构件成形机直接组合的小型廉价的设备从窄连续带形成轮胎结构构件，并且轮胎结构构件制造系统执行轮胎结构构件制造方法。 轮胎结构件制造方法由少量的步骤组成，并且可以通过有效，简单，便宜的轮胎结构构件制造系统来执行。 轮胎结构构件制造方法通过连续形成包括接头搭接的宽度的连续条带的步骤形成轮胎结构构件，将连续条切割成长度基本上等于轮胎的截面宽度的连续切割条 并且连续地铺设和接合预定数量的切割条。 轮胎结构构件制造方法还通过以下步骤形成轮胎结构构件，即将连续带连续地供给到铺放头，将带状铺设头移动到带状支撑件上以将连续条铺放在带状支撑件上， 前进行程，当带状铺设头到达其向前行程的端子附近的位置时，将预定长度的切割条切割成连续的条带，通过移动铺放头来改变铺放头的位置， 带状支撑件相对于彼此，将带状支撑件上的连续带材放置在带状铺设头部用于向后冲程的同时，并且重复这些步骤与切割条重叠。

公开(公告)号：US06616783B2

公开(公告)日：2003-09-09

申请号：US09827938

申请日：2001-04-09

Applicant: Takashi Senbokuya ,  Nobuyuki Suda

Inventor： Takashi Senbokuya ,  Nobuyuki Suda

IPC: B29D3008

CPC classification number: B29D30/305 ,  B29C47/00 ,  B29C47/0019 ,  B29C47/027 ,  B29C47/165 ,  B29C66/1122 ,  B29C66/1282 ,  B29C66/1284 ,  B29C66/1286 ,  B29C66/14 ,  B29C66/4326 ,  B29C66/49 ,  B29C66/71 ,  B29C66/72141 ,  B29C66/723 ,  B29D30/0681 ,  B29D30/20 ,  B29D30/42 ,  B29D2030/0682 ,  B29D2030/381 ,  B29D2030/423 ,  B29L2030/004 ,  Y10S156/906 ,  Y10T156/1075 ,  B29K2021/00

Abstract: A tire carcass is produced by a method in which a narrow carcass ply member including a plurality of cords coated by, and embedded in a rubber material is extruded from an extruder, and an inner liner member is simultaneously extruded from the extruder integrally with the carcass ply member. A narrow band-shaped laminated body is thereby efficiently formed, in which the inner liner member is integral with the carcass ply member.

Abstract translation: 轮胎胎体通过以下方法制造，其中包括由挤出机挤出并包埋在橡胶材料中的多根帘线的窄胎体帘布层构件，并且内衬衬件同时从挤出机与胎体整体挤出 层成员。 由此有效地形成窄带状层叠体，其中，内衬件与胎体帘布层构件成一体。

公开(公告)号：US07575652B2

公开(公告)日：2009-08-18

申请号：US11143638

申请日：2005-06-03

Applicant: Nobuyuki Suda ,  Takashi Senbokuya ,  Kenji Ogawa

Inventor： Nobuyuki Suda ,  Takashi Senbokuya ,  Kenji Ogawa

IPC: B29C65/78 ,  B29D30/30 ,  B29D30/38

CPC classification number: B29D30/46 ,  B26D3/003 ,  B26D7/27 ,  B26D7/32 ,  B29C47/0021 ,  B29C47/025 ,  B29C47/14 ,  B29C65/7802 ,  B29C66/112 ,  B29C66/116 ,  B29C66/1162 ,  B29C66/1282 ,  B29C66/12841 ,  B29C66/14 ,  B29C66/4326 ,  B29C66/435 ,  B29C66/49 ,  B29C66/71 ,  B29C66/72141 ,  B29D30/38 ,  B29D30/42 ,  B29D2030/0682 ,  B29D2030/1685 ,  B29D2030/423 ,  B29D2030/428 ,  B29K2021/00 ,  B29L2030/004 ,  B60C9/02 ,  Y10T156/1075 ,  Y10T156/13

Abstract: A tire structural member manufacturing method forms a tire structural member from a narrow continuous strip by small, inexpensive equipment capable of being directly combined with a tire structural member forming machine, and a tire structural member manufacturing system carries out the tire structural member manufacturing method. The tire structural member manufacturing methods consists of a small number of steps and can be carried out by an efficient, simple, inexpensive tire structural member manufacturing system. The tire structural member manufacturing method forms a tire structural member by the steps of continuously forming a continuous strip of a width including that of a joint lap, cutting the continuous strip into successive cut strips of a length substantially equal to the section width of a tire, and successively laying and joining a predetermined number of the cut strips. The tire structural member manufacturing method forms a tire structural member also by the steps of continuously feeding a continuous strip to a strip-laying head, laying the continuous strip on a strip support while the strip-laying head is moved over the strip support for a forward stroke, cutting the continuous strip in a cut strip of a predetermined length when the strip-laying head reaches a position near the terminal of its forward stroke, changing the position of the strip-laying head by moving the strip-laying head and the strip support relative to each other, laying the continuous strip on the strip support while the strip-laying head is moved for a backward stroke, and repeating those steps overlap cut strips.

Abstract translation: 轮胎结构构件制造方法通过能够与轮胎构件成形机直接组合的小型廉价的设备从窄连续带形成轮胎结构构件，并且轮胎结构构件制造系统执行轮胎结构构件制造方法。 轮胎结构件制造方法由少量的步骤组成，并且可以通过有效，简单，便宜的轮胎结构构件制造系统来执行。 轮胎结构构件制造方法通过连续形成包括接头搭接的宽度的连续条带的步骤形成轮胎结构构件，将连续条切割成长度基本上等于轮胎的截面宽度的连续切割条 并且连续地铺设和接合预定数量的切割条。 轮胎结构构件制造方法还通过以下步骤形成轮胎结构构件：通过将连续带连续地供给到铺放头，在将带状铺放头移动到带状支撑件上时将连续条铺放在带状支撑件上的步骤 前进行程，当带状铺设头到达其向前行程的端子附近的位置时，将预定长度的切割条切割成连续的条带，通过移动铺放头来改变铺放头的位置， 带状支撑件相对于彼此，将带状支撑件上的连续带材放置在带状铺设头部用于向后冲程的同时，并且重复这些步骤与切割条重叠。

公开(公告)号：US08027101B2

公开(公告)日：2011-09-27

申请号：US12777612

申请日：2010-05-11

Applicant: Nobuyuki Suda ,  Yukichi Hanayama ,  Masamichi Hijino

Inventor： Nobuyuki Suda ,  Yukichi Hanayama ,  Masamichi Hijino

IPC: G02B7/02

CPC classification number: G02B23/243 ,  A61B1/00096 ,  A61B1/00101 ,  A61B1/0011 ,  A61B1/07 ,  G02B7/008 ,  G02B7/02

Abstract: The present invention relates to an optical element fixing component having a hollow portion which includes an optical element. The optical element fixing component is made from a non-crystalline alloy, and a ratio of a linear expansion coefficient of the optical element fixing component toward a linear expansion coefficient of the optical element is 1.5 or less.

Abstract translation: 本发明涉及具有包括光学元件的中空部分的光学元件固定部件。 光学元件固定部件由非晶合金制成，光学元件固定部件的线膨胀系数与光学元件的线膨胀系数的比率为1.5以下。

公开(公告)号：US07431786B2

公开(公告)日：2008-10-07

申请号：US10517867

申请日：2003-06-13

Applicant: Nobuyuki Suda

Inventor： Nobuyuki Suda

IPC: B29D30/30

CPC classification number: B29D30/305 ,  B29C65/7802 ,  B29C66/1122 ,  B29C66/4326 ,  B29C66/49 ,  B29C66/72141 ,  B29C66/81457 ,  B29C66/8324 ,  B29D30/46 ,  B29D2030/3085 ,  B29L2030/004 ,  Y10T156/1075

Abstract: In an apparatus for affixing a tire component member, a capacity of a driving means for a traveling head is decreased, and start end positions of affixing the tire component member are aligned in a peripheral direction of a drum and a widthwise overlap amount between the tire component members is made constant as is expected, and also a cycle time is shortened, in which the apparatus comprises a traveling head 2 moving forward and rearward in an axial direction of a drum 1, a clamp means 9 pushing a front end portion of the tire component member 3 protruded ahead from the traveling head 2 onto the peripheral face of the drum, a cutting means 12 arranged at one end side of the drum apart from the clamp means 9, guide rolls 5 arranged on the traveling head 2 and specifying a widthwise position of the tire component member 3, and a chuck means pulling the tire component member 3 to the clamp means 9.

Abstract translation: 在用于固定轮胎构件的装置中，用于行驶头的驱动装置的容量减小，并且固定轮胎构件的起始端位置在滚筒的圆周方向上对准，并且轮胎 构成部件按预期变得恒定，并且还缩短了周期时间，其中该装置包括在滚筒1的轴向方向上前后移动的行进头2，夹紧装置9推动滚筒1的前端部分 轮胎构件3从行进头2向前突出到滚筒的周面上;切割装置12，布置在滚筒的与夹紧装置9分开的一端侧;布置在行进头2上的导辊5， 轮胎构件3的横向位置，以及将轮胎构件3拉向夹紧装置9的卡盘装置。

公开(公告)号：US20070261578A1

公开(公告)日：2007-11-15

申请号：US10591643

申请日：2005-03-02

Applicant: Nobuyuki Suda

Inventor： Nobuyuki Suda

IPC: B41F27/06

CPC classification number: B29D30/24 ,  B29D2030/241

Abstract: A method for producing a transfer drum simply, rapidly, at low cost and with high accuracy. A pair of end plates are coaxially arranged at a predetermined distance and in parallel with each other. A plurality of aluminum profiled members are bridged between the end plates and their end portions are fixedly securing to the end plates, respectively. A drum of a cylindrical shape as a whole is thereby produced, wherein arcuate outer surfaces of the profiled members are continuous with each other, through mutual abutting surfaces therebetween.

Abstract translation: 一种简单，快速，低成本，高精度地生产转印鼓的方法。 一对端板以预定距离同轴布置并且彼此平行。 多个铝型材构件桥接在端板之间，并且它们的端部分别固定地固定到端板上。 由此，制造出圆筒形状的整体滚筒，其中成型构件的弓形外表面通过彼此相互邻接的表面彼此连续。

公开(公告)号：US20070084540A1

公开(公告)日：2007-04-19

申请号：US10578510

申请日：2004-11-01

Applicant: Nobuyuki Suda

Inventor： Nobuyuki Suda

IPC: B29B17/00 ,  B29C73/00 ,  B60C11/00

CPC classification number: B26F1/08 ,  B26F1/24 ,  Y10T83/4812 ,  Y10T83/9314

Abstract: A piercing device (1) includes an outer tube (2) rotatably supported on one (X1) of shafts, which are eccentrically arranged relative to each other, so that it can be driven for rotation. Piercing needles (33) are arranged on the other shaft (X2) in the outer tube (2). The piercing needles (33) are spaced from each other in a circumferential direction, and projecting radially outwards, and being independently rotatable. Each piercing needle is adapted to be extended and retracted relative to an outer surface of the outer tube, via a through hole (5) formed in the outer tube (2). A needle restraining member (6) is rotatably supported on the other shaft (X2), for transmitting torque to the piercing needles (33) when driven for rotation. The piercing needles (33) are rotatably supported on the other shaft (X2) via the needle support members (36a-36f), respectively. The piercing needles (33) and further piercing needles (33) which are rotatable integrally with the piercing needles (33) are fixedly connected to the needle support members (36a-36f) in axial juxtaposition with each other. The disclosed structure protects the piercing needles from unreasonable force, and prevents undesirable enlargement of pinholes and deformation of the rubber sheet. Further, even when the piercing needles are advanced into the rubber sheet and retraced therefrom, enlargement of the pinholes formed in the rubber sheet can be prevented. Moreover, an increased number of piercing needles can be arranged in axial juxtaposition with each other.

Abstract translation: 穿刺装置（1）包括可旋转地支撑在一个（X 1）轴上的外管，该外管相对于彼此偏心地布置，使得其可被驱动旋转。 穿刺针（33）布置在外管（2）中的另一个轴（X 2）上。 穿刺针（33）在圆周方向上彼此间隔开，并且径向向外突出并且可独立地旋转。 每个穿刺针适于经由形成在外管（2）中的通孔（5）相对于外管的外表面延伸和缩回。 针限制构件（6）可旋转地支撑在另一轴（X 2）上，用于当被驱动旋转时将扭矩传递到穿刺针（33）。 穿刺针（33）分别经由针支撑构件（36a-36f）可旋转地支撑在另一轴（X 2）上。 与穿刺针（33）整体旋转的穿刺针（33）和另外的穿刺针（33）彼此轴向并置固定地连接到针支撑构件（36a-36f）。 所公开的结构保护穿刺针免于不合理的力，并且防止针孔的不期望的扩大和橡胶片的变形。 此外，即使当穿刺针前进到橡胶片中并且从中回缩时，也可以防止橡胶片中形成的针孔的扩大。 此外，穿刺针数量的增加可以彼此轴向并置布置。

公开(公告)号：US20060138700A1

公开(公告)日：2006-06-29

申请号：US10541918

申请日：2004-01-09

Applicant: Nobuyuki Suda

Inventor： Nobuyuki Suda

IPC: B29C47/00

CPC classification number: B29D30/06 ,  B29C48/07 ,  B29C48/12 ,  B29C48/13 ,  B29C48/30 ,  B29C48/35 ,  B29C59/007 ,  B29C59/04 ,  B29D30/0681 ,  B29D2030/0682 ,  B29K2021/00

Abstract: A sheet of a rubber material is rolled by a pair of rotating rolling rollers 12 and 13 opposed to each other to form a sheet 1. Sheets 1 are superposed and laminated to form a structural component of a tire. At least the rolling roller 12 is provided with an annular protrusion 20 and annular grooves 21 for shaping the sheet 1. Fine ridges 12a (31a) are formed in the surfaces of the annular protrusion 20 and the annular grooves 21. When the rolling rollers 12 and 13 are rotated to form the sheet 1, furrows and fine grooves 2 for releasing air are formed simultaneously in the surface of the sheet 1. The sheet 1 provided with the furrows and the fine grooves can be formed by a reduced number of manufacturing steps, while the fine grooves with the same shape can be formed.

Abstract translation: 橡胶材料片由相互相对的一对旋转辊12,13卷成，形成片材1。 片材1叠合并层压以形成轮胎的结构部件。 至少滚动滚筒12设置有环形凸起20和用于成形薄片1的环形凹槽21。 在环形突起20和环形槽21的表面上形成有细脊12a（31a）。 当滚动辊12和13旋转以形成片材1时，在片材1的表面中同时形成用于释放空气的沟槽和细槽2。 具有沟槽和细槽的片材1可以通过减少制造步骤的数量来形成，而可以形成具有相同形状的细槽。

公开(公告)号：US4955127A

公开(公告)日：1990-09-11

申请号：US360915

申请日：1989-04-06

Applicant: Nobuyuki Suda ,  Akihiko Fujimoto ,  Ryuji Suzuki

Inventor： Nobuyuki Suda ,  Akihiko Fujimoto ,  Ryuji Suzuki

IPC: B23Q3/157

CPC classification number: B23Q3/15706 ,  B23Q3/15534 ,  Y10T29/5107 ,  Y10T483/179

Abstract: An automatic tool exchanging device for a machine tool, comprising a stopper block (5, 5') attached to a magazine supporting member (2) supporting a magazine (1) at the lower end thereof and capable of swinging to the front and rear, and pulled by an elastic member (8) having one end connected to the upper end of the magazine supporting member (2). Upon arrival of the magazine (1) at a standby position from a tool exchanging position, a stopper (4, 4', 11) is engaged with the stopper block (5, 5') to prevent vibration of the magazine (1). A desired tool among various tools stored in the turret magazine is selected automatically and automatically exchanged for a tool on the machine tool.

公开(公告)号：US08522856B2

公开(公告)日：2013-09-03

申请号：US13227998

申请日：2011-09-08

Applicant: Nobuyuki Suda ,  Seiji Isogawa ,  Yukichi Hanayama ,  Takeo Suzuki ,  Noriko Negishi

Inventor： Nobuyuki Suda ,  Seiji Isogawa ,  Yukichi Hanayama ,  Takeo Suzuki ,  Hiroaki Negishi

IPC: B22D19/00 ,  B29D11/00

CPC classification number: B22D19/04 ,  B22D25/00 ,  C22C1/002 ,  C22C45/10 ,  G02B7/02

Abstract: A method of manufacturing an optical component that is provided with an optical element, and an optical element holding component that holds an outer circumferential portion of the optical element includes: placing the optical element on an interior side of a metal die that molds the optical element holding component, and in which an incident side protective component that protects an optical surface on an incident side of the optical element is placed against this optical surface on the incident side, and placing an emission side protective component that protects an optical surface on an emission side of the optical element against this optical surface on the emission side; and filling the interior of the metal die with a molten metal material so that the optical element holding component which is formed from an amorphous alloy is injection molded integrally with the optical element.

Abstract translation: 一种制造设置有光学元件的光学部件的方法和保持光学元件的外周部分的光学元件保持部件包括：将光学元件放置在金属模具的内部，该金属模具将模制该光学元件 保持部件，并且其中保护光学元件的入射侧的光学表面的入射侧保护部件抵靠入射侧的该光学表面放置，并且将保护光学表面的发射侧保护部件放置在发光 一侧的光学元件抵靠该发射侧的该光学表面; 并用熔融金属材料填充金属模具的内部，使得由非晶态合金形成的光学元件保持部件与光学元件一体地注射成型。