序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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1 | 制造环形增强带的设备和方法 | CN201280067297.2 | 2012-12-14 | CN104053539B | 2016-12-21 | L·帕施; J·G·诺克斯 |
用于制造环形带的系统、方法和设备,所述带具有型面层、完全嵌设的螺旋卷绕的线绳层以及顶层。所述设备具有可旋转的心轴(2),该心轴具有与带型面(1)互补的型面,两个或一个接合辊与所述心轴相邻以保持型面层在心轴的一部分上的有力地卷绕接合;线绳施加件,该线绳施加件可以包括被加热的刀片(5),该刀片在型面中犁出一凹槽,线绳被放置在该凹槽并且被融合到该凹槽。层压件将顶层施加在增强的骨架上。缓冲辊(14)的系统操作型面层或者骨架的松散部分以对其进行引导。 | ||||||
2 | 制造环形增强带的设备和方法 | CN201280067297.2 | 2012-12-14 | CN104053539A | 2014-09-17 | L·帕施; J·G·诺克斯 |
用于制造环形带的系统、方法和设备,所述带具有型面层、完全嵌设的螺旋卷绕的线绳层以及顶层。所述设备具有可旋转的心轴(2),该心轴具有与带型面(1)互补的型面,两个或一个接合辊与所述心轴相邻以保持型面层在心轴的一部分上的有力地卷绕接合;线绳施加件,该线绳施加件可以包括被加热的刀片(5),该刀片在型面中犁出一凹槽,线绳被放置在该凹槽并且被融合到该凹槽。层压件将顶层施加在增强的骨架上。缓冲辊(14)的系统操作型面层或者骨架的松散部分以对其进行引导。 | ||||||
3 | Driving belts | EP79301894.6 | 1979-09-14 | EP0025464B1 | 1984-06-27 | Greenwood, John |
4 | Driving belts | EP79301894.6 | 1979-09-14 | EP0025464A1 | 1981-03-25 | Greenwood, John |
A driving belt (1) formed from detachable, flexible, elongate links (3) arranged in a staggered, overlapping relationship. Each link (3) is provided with a stud (39, 41, 43) which is rotatable relative to the link and has a head (39, 41, 43) which is shaped to pass through perforations (35, 37) in other links (3) when the head is orientated correctly relative to the perforations but not otherwise. The arrangement allows simple assembly and disassembly of the belt without any lateral distortion of the material of the links. |
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5 | 無端の補強ベルトを製造するための装置及び方法 | JP2014547527 | 2012-12-14 | JP5945606B2 | 2016-07-05 | パッシュ,ランバート; ノックス,ジョン グリーム |
6 | 無端の補強ベルトを製造するための装置及び方法 | JP2014547527 | 2012-12-14 | JP2015507555A | 2015-03-12 | パッシュ,ランバート; グリーム ノックス,ジョン |
プロファイル層、完全に埋め込まれ、らせん状に巻かれたコード層及び上部層を有する無端ベルトを製造するためのシステム、方法及び装置。この装置は、ベルトプロファイル(1)に相補的なプロファイルを有する回転マンドレル(2)を有し、2又は1の係合ロールは、その一部にプロファイル層の強制的な包まれた係合を維持するためにマンドレルに隣接し、コードアプリケータは、コードが敷設されてそこに融合されたプロファイル層に溝をつける加熱されたブレード(5)を含んでもよい。積層装置は補強されたカーカス上に上部層を貼着する。バッファ・ロール(14)のシステムは、それをガイドするプロファイル層又はカーカスの緩んだ部分を動かす。 | ||||||
7 | Method and device for stretching endless metal | JP11461280 | 1980-08-20 | JPS5630041A | 1981-03-26 | BAN DERU ZANDE KORUNERISU PETO |
8 | Hybrid tape for robotic transmission | EP12167312.3 | 2012-05-09 | EP2527683B1 | 2018-03-21 | Schank, Troy C. |
The hybrid tape (103; 601) includes an outer member (115; 605) that is formed with a material having desirable tensile qualities, such that the outer member is tailored to exhibit superior fatigue performance in tension induced from bending. The hybrid tape further includes an inner member (113; 603) that is formed with a material having desirable compression qualities, such that the inner member is tailored to exhibit superior fatigue performance in compression induced from bending. The hybrid tape is configured such that the bend neutral axis (117) is located between the inner material and the outer material, thereby insuring the outer material only experiences tension in bending while the inner material only experiences compression in bending. | ||||||
9 | APPARATUS AND METHOD FOR MAKING ENDLESS REINFORCED BELTS | EP12809522.1 | 2012-12-14 | EP2790903B1 | 2017-03-08 | PASCH, Lambert; KNOX, John, Graeme |
10 | A method and apparatus for stretching an endless metal band | EP80200682.5 | 1980-07-14 | EP0024362A1 | 1981-03-04 | Van der Zande, Cornelis Petrus |
To stretch and endless metal band (7), said band (7) can be placed about an expensible template having a substantially cylindrical circumferential surface (2). Said circumferential surface (2) can be moved radially outward. However such surface will be discontinuous, i.e. has one or more interruptions, to allow the outward movement. To achieve a uniform stretch of the endless metal band, there is placed a resilient deformable ring (6) between said template and said endless band (7). |
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11 | APPARATUS AND METHOD FOR MAKING ENDLESS REINFORCED BELTS | EP12809522.1 | 2012-12-14 | EP2790903A1 | 2014-10-22 | PASCH, Lambert; KNOX, John, Graeme |
A system, method and apparatus for making endless belts having a profile layer, a fully embedded, helically wound, cord layer, and a top layer. The apparatus has a rotatable mandrel (2) with a profile complementary to the belt profile (1), two or one engagement rolls adjacent the mandrel to maintain forced, wrapped engagement of the profile layer on a portion thereof; a cord applicator which may include a heated blade (5) that plows a groove in the profile layer into which the cord is laid and fused thereto. A laminator applies the top layer onto the reinforced carcass. A system of buffer rolls (14) handles the loose portion of the profile layer or carcass guiding it. | ||||||
12 | Hybrid tape for robotic transmission | EP12167312.3 | 2012-05-09 | EP2527683A1 | 2012-11-28 | Schank, Troy C. |
The hybrid tape (103; 601) includes an outer member (115; 605) that is formed with a material having desirable tensile qualities, such that the outer member is tailored to exhibit superior fatigue performance in tension induced from bending. The hybrid tape further includes an inner member (113; 603) that is formed with a material having desirable compression qualities, such that the inner member is tailored to exhibit superior fatigue performance in compression induced from bending. The hybrid tape is configured such that the bend neutral axis (117) is located between the inner material and the outer material, thereby insuring the outer material only experiences tension in bending while the inner material only experiences compression in bending. |
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13 | A method and apparatus for stretching an endless metal band | EP80200682.5 | 1980-07-14 | EP0024362B1 | 1983-10-05 | Van der Zande, Cornelis Petrus |
14 | Apparatus and method for making endless reinforced belts | US13715989 | 2012-12-14 | US09169896B2 | 2015-10-27 | Lambert Pasch; John Graeme Knox |
A system, method and apparatus for making endless belts having a profile layer, a fully embedded, helically wound, cord layer, and a top layer. The apparatus has a rotatable mandrel with a profile complementary to the belt profile, two or one engagement rolls adjacent the mandrel to maintain forced, wrapped engagement of the profile layer on a portion thereof; a cord applicator which may include a heated blade that plows a groove in the profile layer into which the cord is laid and fused thereto. A laminator applies the top layer onto the reinforced carcass. A system of buffer rolls handles the loose portion of the profile layer or carcass guiding it. | ||||||
15 | Energy harvesting system for a vehicle | US12947914 | 2010-11-17 | US08793993B2 | 2014-08-05 | Paul W. Alexander; Alan L. Browne; Nancy L. Johnson; Nilesh D. Mankame; Xiujie Gao; Geoffrey P. McKnight; Andrew C. Keefe; Christopher P. Henry |
An energy harvesting system includes a heat engine and a component configured to be driven by operation of the heat engine. The heat engine includes a first member, a second member, a shape memory alloy material, and a tensioner. The second member is spaced from the first member. The shape memory alloy material operatively interconnects the first member and the second member. The shape memory alloy material is configured to selectively change crystallographic phase from martensite to austenite and thereby contract in response to exposure to a first temperature. The shape memory alloy material is also configured to selectively change crystallographic phase from austenite to martensite and thereby expand in response to exposure to a second temperature. The tensioner is configured to apply tension to the shape memory alloy material as the shape memory alloy material selectively expands and contracts such that the shape memory alloy material is taut. | ||||||
16 | APPARATUS AND METHOD FOR MAKING ENDLESS REINFORCED BELTS | US13715989 | 2012-12-14 | US20130153123A1 | 2013-06-20 | Lambert PASCH; John Graeme KNOX |
A system, method and apparatus for making endless belts having a profile layer, a fully embedded, helically wound, cord layer, and a top layer. The apparatus has a rotatable mandrel with a profile complementary to the belt profile, two or one engagement rolls adjacent the mandrel to maintain forced, wrapped engagement of the profile layer on a portion thereof; a cord applicator which may include a heated blade that plows a groove in the profile layer into which the cord is laid and fused thereto. A laminator applies the top layer onto the reinforced carcass. A system of buffer rolls handles the loose portion of the profile layer or carcass guiding it. | ||||||
17 | ENERGY HARVESTING SYSTEM FOR A VEHICLE | US12947860 | 2010-11-17 | US20110165981A1 | 2011-07-07 | Paul W. Alexander; Alan L. Browne; Nancy L. Johnson; Nilesh D. Mankame; Xiujie Gao; Geoffrey P. McKnight; Andrew C. Keefe; Peter Maxwell Sarosi; Christopher P. Henry; Patrick B. Usoro |
An energy harvesting system includes a heat engine and a component. The heat engine includes a belt, a first member, and a second member. The belt includes a strip of material and at least one wire at least partially embedded longitudinally in the strip of material. The wire includes a shape memory alloy material. A localized region of the at least one wire is configured to change crystallographic phase between martensite and austenite and either contract or expand longitudinally in response to exposure to a first temperature or a second temperature such that the strip of material corresponding to the localized region also contracts or expands. The first member is operatively connected to the belt and moves with the belt in response to the expansion or contraction of the belt. The component is operatively connected to the first member such that movement of the first member drives the component. | ||||||
18 | ENERGY HARVESTING SYSTEM FOR A VEHICLE | US12947914 | 2010-11-17 | US20110120115A1 | 2011-05-26 | Paul W. Alexander; Alan L. Browne; Nancy L. Johnson; Nilesh D. Mankame; Xiujie Gao; Geoffrey P. McKnight; Andrew C. Keefe; Christopher P. Henry |
An energy harvesting system includes a heat engine and a component configured to be driven by operation of the heat engine. The heat engine includes a first member, a second member, a shape memory alloy material, and a tensioner. The second member is spaced from the first member. The shape memory alloy material operatively interconnects the first member and the second member. The shape memory alloy material is configured to selectively change crystallographic phase from martensite to austenite and thereby contract in response to exposure to a first temperature. The shape memory alloy material is also configured to selectively change crystallographic phase from austenite to martensite and thereby expand in response to exposure to a second temperature. The tensioner is configured to apply tension to the shape memory alloy material as the shape memory alloy material selectively expands and contracts such that the shape memory alloy material is taut. | ||||||
19 | Emergency drive belt and method for making the same | US018683 | 1979-03-08 | US4258582A | 1981-03-31 | Gerald C. Hollaway, Jr. |
An emergency drive belt and a method of forming the same are provided, wherein such method comprises the steps of winding a ribbon of a cured elastomeric material having a bonding medium on at least one side thereof around at least two spaced apart pulleys and continuing such winding until the belt is built up to a desired thickness. | ||||||
20 | Belt composed of longitudinal separated bands | US32100328 | 1928-11-21 | US1790145A | 1931-01-27 | AUGUSTINE HARMEL LAURE |