| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 41 | Method of applying a film to an endless moving handrail having a layer with a barrier coating | US12267128 | 2008-11-07 | US08206528B2 | 2012-06-26 | Naseer Mohammed Qureshi |
| A method of applying a film to an endless moving handrail comprises the steps of adhering a first film layer, having sufficient resilience to accommodate strains occurring on the surfaces of the endless moving handrail and including a barrier coating on at least one of top and bottom surfaces of the first layer, to a top surface of an endless moving handrail, and adhering a substantially transparent film layer over the first film layer. | ||||||
| 42 | Press felt and method for its production | US12415342 | 2009-03-31 | US08123911B2 | 2012-02-28 | Uwe Köckritz; Matthias Schmitt |
| The invention relates to a felt belt, especially a press felt for a paper—, cardboard or tissue machine, with a basic structure that is formed by (a) a longitudinal reinforcement module extending on the width and length of the felt belt, including (1) a laid longitudinal thread structure on the width and the length of the felt belt which is formed by at least one longitudinal thread extending essentially in longitudinal direction of the belt, and (2) one carrying layer which is bonded with the laid longitudinal thread structure and extends on the width and the length of the felt belt, as well as (b) one cross reinforcement module which has the same length and width as the felt belt which is located on and bonded with the longitudinal reinforcement module which is formed by a plurality of cross reinforcement module segments, each of which extend on the width of the felt belt, and only on part of the length of the felt belt and which are arranged in tandem in longitudinal direction of the felt belt and which together complete the length of the felt belt, whereby each cross reinforcement segment includes a group of first threads and a group of second threads, whereby the first and the second threads cross each other at thread crossing points and together form a textile surface structure. | ||||||
| 43 | ARTICLES AND METHODS OF MAKING THE SAME | US12742494 | 2008-11-10 | US20100260991A1 | 2010-10-14 | Muthu Subramanian; Jinder Jow; Stephen Y. Cheng; Thiam Aik Lim |
| The invention provides an article comprising a first layer and a second layer, and wherein the first layer is formed from a first composition comprising an ethylene/α-olefin/diene interpolymer, an isoprene rubber (synthetic), a natural rubber, a butadiene rubber, a styrene butadiene rubber, a chloroprene rubber, a nitrile rubber, a hydrogenated nitrile rubber, a chlorinated polyethylene, a chlorosulfonated polyethylene, an ethylene/propylene rubber, an ethylene/diene copolymer, a fluoro rubber, a polyurethane, a silicone rubber, or a combination thereof; and wherein the second layer is formed from a second composition comprising a butyl rubber, a halobutyl rubber, polyvinylidene chloride, a brominated polymer derived from a copolymer of isobutylene and p-methyl styrene, a nitrile rubber, a chloroprene rubber, a chlorosulfonated polyethylene, a chlorinated polyethylene, a polyurethane, a fluoro rubber, or a combination thereof. | ||||||
| 44 | METHOD FOR PRODUCING A TRANSPORT/DRIVE BELT | US12744129 | 2007-11-21 | US20100243130A1 | 2010-09-30 | Dieter Hoffmann; Thomas Kaemper |
| A method for forming a longitudinal edge region of a transport/drive belt having at least two layers of a thermoplastic material and at least one layer of a woven fabric web includes positioning a mat at one longitudinal edge of the transport/drive belt. The method further includes transferring heat and pressure to the transport/drive belt so as to melt and merge at least a region of the at least two layers of thermoplastic material without adding any additional material, solidifying the at least two layers of thermoplastic material, and removing the mat. | ||||||
| 45 | Method of manufacturing laminated seamless belt and laminated seamless belt | US11600720 | 2006-11-17 | US07713458B2 | 2010-05-11 | Masakazu Tanaka; Takayuki Hattori |
| A laminated seamless belt having at least a base layer and an outer layer. The base layer contains a polyester thermoplastic elastomer as its main component. The base layer has a volume resistivity set to not less than 1.0×106(Ω·cm) nor more than 1.0×1011(Ω·cm). A volume resistivity of the outer layer is set to not less than 1.0×1011(Ω·cm) and not less than 10 times as large as that of the base layer. The base layer and the outer layer are formed by laminated extrusion. | ||||||
| 46 | Endless belt and method for manufacturing same | US11702592 | 2007-02-06 | US20070181250A1 | 2007-08-09 | Kazuaki Ikeda |
| There are provided an endless belt having a structure containing at least three layers, a middle layer being disposed between the outermost layer and a bottom layer, and the middle layer being composed of a material having a thermal decomposition temperature lower than the deposition temperature of each of the outermost layer and the bottom layer, and provided a method for manufacturing the endless belt. There are provided an endless belt having high surface resistivity, an excellent toner releasing property, an excellent non-contaminated property, stable volume resistivity, excellent adhesion between a surface layer and an elastic layer, and the like without the occurrence of disadvantageous bleeding of a contaminant, and a method for manufacturing the endless belt. | ||||||
| 47 | Method of manufacturing laminated seamless belt and laminated seamless belt | US11600720 | 2006-11-17 | US20070062635A1 | 2007-03-22 | Masakazu Tanaka; Takayuki Hattori |
| A laminated seamless belt having at least a base layer and an outer layer. The base layer contains a polyester thermoplastic elastomer as its main component. The base layer has a volume resistivity set to not less than 1.0×106(Ω·cm) nor more than 1.0×1011(Ω·cm). A volume resistivity of the outer layer is set to not less than 1.0×1011(Ω·cm) and not less than 10 times as large as that of the base layer. The base layer and the outer layer are formed by laminated extrusion. | ||||||
| 48 | Composite flywheel rim having commingled layers with macroscopically uniform patterns of fiber arrangement and methods for manufacturing same | US11527365 | 2006-09-25 | US20070014980A1 | 2007-01-18 | Ward Spears |
| A composite-based rim includes multiple fiber-based, commingled layers wherein the strength and/or stiffness increases from the innermost to the outermost layer of the rim, but wherein the radial stress and strain generated in the rim decreases from the innermost to the outermost layer. At least some layers have a mixture of carbon fiber tows and glass fiber tows. The ratio of carbon fiber tows to glass fiber tows in each layer is constant, and the distribution of carbon fiber tows is macroscopically uniform in each layer. | ||||||
| 49 | Method of manufacturing laminated seamless belt and laminated seamless belt | US10945997 | 2004-09-22 | US07144621B2 | 2006-12-05 | Masakazu Tanaka; Takayuki Hattori |
| A laminated seamless belt having at least a base layer and an outer layer. The base layer contains a polyester thermoplastic elastomer as its main component. The base layer has a volume resistivity set to not less than 1.0×106(Ω·cm) nor more than 1.0×1011(Ω·cm). A volume resistivity of the outer layer is set to not less than 1.0×1011(Ω·cm) and not less than 10 times as large as that of the base layer. The base layer and the outer layer are formed by laminated extrusion. | ||||||
| 50 | 클로저 및 로케이팅 특징을 가진 포장 가능한 보호 슬리브 및 그 제작 방법과 용도 | KR1020167005012 | 2014-07-25 | KR1020160037209A | 2016-04-05 | 말로이,캐시,엠.; 페랑,장; 윈터스,데니,이.; 가오,티엔치 |
| 내부에포함되는적어도하나의길쭉한부재(12) 보호를제공하기위한포장가능한보호슬리브(10) 및제작방법과그 용도를제공한다. 슬리브(10)는대향하는모서리들(16, 18) 및대향하는단부들(22, 24)에의해경계되는대향하는내부및 외부면들을갖는가요성직물의벽(14)을포함한다. 대향하는모서리들(16, 18)은일반적으로대향하는단부들(22, 24)의사이에서로평행하게연장한다. 한쌍의접착제층들(22, 24)은내부면(30)에접착되고, 각각의접착제층들(26, 28)은서로이격된다. 접착제층들(26, 28)은대향하는모서리들(16, 18)에인접하여대향하는단부들(22, 24) 사이로연장한다. 또한, 박리지(36)는후속제거및 슬리브의용도를위한한 쌍의접착제층들(26, 28)에해제가능한방식으로부착된다. | ||||||
| 51 | 적층형 중간전사벨트 및 이의 제조방법 | KR1020140034064 | 2014-03-24 | KR1020150110118A | 2015-10-02 | 이춘임; 한송이; 김상균; 백성훈 |
| 본발명은칼라화상형성장치를갖춘전자사진복사기, 프린터, 팩시밀리, 복합기또는디지털인쇄기등에적용되는중간전사벨트에관한것으로서, 폴리이미드에대하여카본나노튜브를포함하여이루어지는외층및 폴리이미드에대하여카본블랙을포함하여이루어지는내층이적층되어 2층이상의구조를이루는적층형중간전사벨트및 그제조방법을제공한다. 본발명에따르면중간전사벨트의외주면표면의저항을높이고내주면의저항을낮게함으로써환경변화에의한전기저항스트레스에서도우수한인쇄품질을유지할수 있다. | ||||||
| 52 | 제지 프레스 펠트 | KR1019890700971 | 1988-09-20 | KR1019960000726B1 | 1996-01-12 | 로버트더블유레지; 윌리암오호킹쥬니어 |
| 내용 없음. | ||||||
| 53 | TRANSMISSION BELT | US15791914 | 2017-10-24 | US20180045273A1 | 2018-02-15 | Shogo Kobayashi; Taiki Tsuchiya; Teppei Nakayama; Shigeki Okuno; Hiroyuki Tachibana |
| Disclosed is a power transmission belt having a belt body made of rubber, and a cord embedded in the belt body so as to form a helical pattern having a pitch in a belt width direction. The cord is coated with an adhesion layer formed by an adhesion treatment and containing a rubber component, and the adhesion layer is in contact with a rubber composition containing cellulose-based fine fibers. | ||||||
| 54 | MEMBER FOR AN IMAGE FORMING APPARATUS | US15417323 | 2017-01-27 | US20170227892A1 | 2017-08-10 | Hidetoshi FUJII; Akira IZUTANI; Ryoh MIYAKOSHI |
| Member for an image forming apparatus having an outer layer that includes polyethylene glycol and a polyether ester amide having therein a structural unit of polyethylene glycol. Method. Image forming apparatus. | ||||||
| 55 | TIRE WITH SPLICED MULTILAYERED FILM INNERLINER | US14687970 | 2015-04-16 | US20160303907A1 | 2016-10-20 | Byoung Jo Lee; Philip Alan Dunker; John Fleming Brainerd, II |
| The present invention relates to a pneumatic tire having a multilayered film innerliner with rubber reinforced spliced overlapping ends. | ||||||
| 56 | Transmission Belt | US14781078 | 2014-03-27 | US20160298725A1 | 2016-10-13 | Hisato Ishiguro; Keiji Takano; Yoshihiro Miura |
| The present invention relates to a power transmission belt containing a tension member extending in a belt lengthwise direction, an adhesion rubber layer in contact with at least a part of the tension member, a compression rubber layer formed on one surface of the adhesion rubber layer, and a tension rubber layer formed on other surface of the adhesion rubber layer, in which the compression rubber layer is formed of a vulcanized rubber composition containing a rubber component, a polyolefin resin and a reinforcing material, the rubber component contains a chloroprene rubber, and the reinforcing material contains a short fiber. | ||||||
| 57 | In-line shear resistant nonwoven textiles comprised of selectively slit and embossed film | US14408844 | 2013-06-18 | US09358752B2 | 2016-06-07 | Allan R. Manninen |
| A nonwoven industrial textile for conveying in an industrial process, seaming elements and methods of manufacture. The textile comprises at least first and second layers of film. Each layer comprises protrusions separated by land areas and each defining an aperture for a flow path through the layer. For at least one of the layers, the protrusions comprise a first set having first and second ends integral with contiguous land areas, and at least a second set of protrusions each comprising a first end integral with a contiguous land area and an opposing second end having a configuration selected from a detached free end; and a weakened end portion integral with but detachable from a contiguous land area in response to strain. The construction allows for relative movement of the layers during travel over machine components such as rolls, reducing internal strain and risk of delamination. | ||||||
| 58 | Robotic capsule endoscope for minimally invasive surgical procedures, micro-patterned treads for friction enhancement of a robotic capsule endoscope in a biological environment, and process for fabrication of micro-treads | US13692743 | 2012-12-03 | US09339169B2 | 2016-05-17 | Mark Edwin Rentschler; Levin John Sliker; Benjamin Spencer Terry; Madalyn Diane Kern; Jonathan Schoen |
| Micro-patterned treads for endoscopes are disclosed. In an embodiment, the treads include a micro-patterned surface and a roller engaging surface. Micro-patterned tread bearing robotic capsule endoscopes are disclosed. In one embodiment, the endoscope includes a housing, a motor, a geared drive, rollers, and at least one micro-patterned tread. Methods of fabricating closed loop treads are disclosed. In an embodiment, a method includes forming a solid layer of PDMS on one side of double-sided tape and wrapping a micro-patterned PDMS strip together with the other side of the double-sided tape. In another embodiment, a method includes forming a timing belt PDMS strip on one side of double-sided tape and a micro-patterned PDMS strip together with the other side of the double-sided tape. | ||||||
| 59 | Method for producing a transport/drive belt | US12744129 | 2007-11-21 | US08657978B2 | 2014-02-25 | Dieter Hoffmann; Thomas Kaemper |
| A method for forming a longitudinal edge region of a transport/drive belt having at least two layers of a thermoplastic material and at least one layer of a woven fabric web includes positioning a mat at one longitudinal edge of the transport/drive belt. The method further includes transferring heat and pressure to the transport/drive belt so as to melt and merge at least a region of the at least two layers of thermoplastic material without adding any additional material, solidifying the at least two layers of thermoplastic material, and removing the mat. | ||||||
| 60 | Articles and methods of making the same | US12742494 | 2008-11-10 | US08652624B2 | 2014-02-18 | Muthu Subramanian; Jinder Jow; Stephen Y. Cheng; Thiam Aik Lim |
| The invention provides an article comprising a first layer and a second layer, and wherein the first layer is formed from a first composition comprising an ethylene/α-olefin/diene interpolymer, an isoprene rubber (synthetic), a natural rubber, a butadiene rubber, a styrene butadiene rubber, a chloroprene rubber, a nitrile rubber, a hydrogenated nitrile rubber, a chlorinated polyethylene, a chlorosulfonated polyethylene, an ethylene/propylene rubber, an ethylene/diene copolymer, a fluoro rubber, a polyurethane, a silicone rubber, or a combination thereof; and wherein the second layer is formed from a second composition comprising a butyl rubber, a halobutyl rubber, polyvinylidene chloride, a brominated polymer derived from a copolymer of isobutylene and p-methyl styrene, a nitrile rubber, a chloroprene rubber, a chlorosulfonated polyethylene, a chlorinated polyethylene, a polyurethane, a fluoro rubber, or a combination thereof. | ||||||
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