子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 皮带和标记的方法 | CN03815653.9 | 2003-07-03 | CN1692238A | 2005-11-02 | D·R·塞德拉切克 |
| 一个皮带和一个皮带的标记方法。一个聚乙烯材料层(30)接合或固化至一个皮带(100)。此材料层可以由皮带的带体(10)光学地识别。此材料层刻蚀以暴露皮带的带体的一部分,以便对比此层与皮带的带体。一个第二聚乙烯材料层(40)可以涂覆为邻接第一层。第二层可以由第一层光学地识别。第一或第二层是使用切割,磨削或激光刻蚀的,以便暴露相邻层的一部分,或皮带的带体的一部分,从而提供皮带的一个永久标记的方法。 | ||||||
| 2 | 传送带以及用来指示传送带使用期限已到的指示装置 | CN03817704.8 | 2003-08-22 | CN1671978A | 2005-09-21 | 市场博之 |
| 一种传送带(10),其具有接触面(18a),在皮带(10)绕在皮带轮上时,该接触面与皮带轮接触。异物(25)嵌在皮带(10)中接触面(18a)的附近。当皮带(10)绕皮带轮旋转时,接触面(18a)会被皮带轮磨损,这样异物(25)会暴露在接触面(18a)上。该异物(25)与皮带轮接触从而产生报警声。由此,皮带(10)的用户就能确定皮带(10)的磨损情况以及皮带(10)和皮带轮之间传送力的下降情况。 | ||||||
| 3 | 高强度V型传动带 | CN201510046645.3 | 2015-01-30 | CN104632999A | 2015-05-20 | 黄根友 |
| 本发明公开了一种高强度V型传动带,包括:传动带本体,所述传动带本体内部从上往下依次设有第一排加强线芯组、第二排加强线芯组和第三排加强线芯组,所述第一排加强线芯组包括五根加强线芯,五根加强线芯排列在一个水平面上形成第一线芯面,所述第二排加强线芯组包括四根加强线芯,四根加强线芯排列在一个面上形成第二线芯面,所述第三排加强线芯组包括三根加强线芯,三根加强线芯排列在一个面上形成第三线芯面,所述第一线芯面、第二线芯面和第三线芯面之间相互平行。通过上述方式,本发明结构简单合理,具有较高的抗拉强度,使用寿命长。 | ||||||
| 4 | 传送带以及用来指示传送带使用期限已到的指示装置 | CN03817704.8 | 2003-08-22 | CN1320291C | 2007-06-06 | 市场博之 |
| 一种传送带(10),其具有接触面(18a),在皮带(10)绕在皮带轮上时,该接触面与皮带轮接触。异物(25)嵌在皮带(10)中接触面(18a)的附近。当皮带(10)绕皮带轮旋转时,接触面(18a)会被皮带轮磨损,这样异物(25)会暴露在接触面(18a)上。该异物(25)与皮带轮接触从而产生报警声。由此,皮带(10)的用户就能确定皮带(10)的磨损情况以及皮带(10)和皮带轮之间传送力的下降情况。 | ||||||
| 5 | 一种传动带包布 | CN201710103425.9 | 2017-02-24 | CN106930111A | 2017-07-07 | 梅法洪 |
| 本发明涉及传动带技术领域,具体涉及一种传动带包布,所述包布采用包含有聚氨酯的复合材料或聚氨酯进行处理。该包布的质量得到提高,应用于传动带后,制备成的传动带耐磨性较好,长期使用不易磨损损坏,提高了传动带的使用寿命。 | ||||||
| 6 | V型传动带 | CN201510046602.5 | 2015-01-30 | CN104632998A | 2015-05-20 | 黄根友 |
| 本发明公开了一种V型传动带,包括:传动带本体,所述传动带本体包括一底面和两个对称的侧面,所述底面上具有多个底面外凸块,所述侧面上具有多个侧面外凸块,所述传动带本体的内部具有多根抗拉线芯,所述多根抗拉线芯呈三角形分布,所述传动带本体的顶面上具有耐割布料层。通过上述方式,本发明结构简单合理,与带轮接触面比较粗糙,不易打滑。 | ||||||
| 7 | 皮带和标记的方法 | CN03815653.9 | 2003-07-03 | CN1316179C | 2007-05-16 | D·R·塞德拉切克 |
| 一个皮带和一个皮带的标记方法。一个聚乙烯材料层(30)接合或固化至一个皮带(100)。此材料层可以由皮带的带体(10)光学地识别。此材料层刻蚀以暴露皮带的带体的一部分,以便对比此层与皮带的带体。一个第二聚乙烯材料层(40)可以涂覆为邻接第一层。第二层可以由第一层光学地识别。第一或第二层是使用切割,磨削或激光刻蚀的,以便暴露相邻层的一部分,或皮带的带体的一部分,从而提供皮带的一个永久标记的方法。 | ||||||
| 8 | Transmission belt | EP88104997.7 | 1988-03-28 | EP0285072B1 | 1991-01-09 | Tadolini, Marco |
| 9 | ENDLESS POWER TRANSMISSION V-BELT CONSTRUCTION. | EP83901127 | 1983-02-09 | EP0100361A4 | 1984-04-24 | MIRANTI JOSEPH P JR; FOLEY MARK P; HOLLOWAY GERALD C; OLIVER LARRY R; STANDLEY PAUL M; LEWIS JAMES A |
| The belt construction is formed mainly of polymeric material, and has rounded top and bottom teeth respectively extending along the length of the top and bottom surfaces of the belt construction, the belt construction comprising a tension section (29) having the top surface (30), a compression section (31) having the bottom surface (32), and a load-carrying section (33) disposed intermediate the tension section and the compression section. The bottom to top tooth pitch ratio (45 to 44) of the belt construction (28) is approximately 1.40, and the bottom to top tooth depth ratio (47 to 46) thereof is approximately 1.77, while the belt thickness (42) to flex thickness (43) ratio thereof is approximately 3.98. | ||||||
| 10 | BELT WEAR INDICATION | US14852640 | 2015-09-14 | US20170074386A1 | 2017-03-16 | Nicole M. Gassman; Lourens M. Jacobs; Allan N. Schott |
| In accordance with an example embodiment, a continuous belt may include an outer surface having a first edge spaced apart from a second edge defining a belt width, and a first wear indication positioned on the outer surface near the first edge and having a first width, the first width is less than the belt width, and the first width represents the amount of allowable wear of the continuous belt. | ||||||
| 11 | Multiple band continuously variable transmission | US698596 | 1996-08-16 | US5685793A | 1997-11-11 | Terry Michael Van Blaricom |
| An Improvement in a multiple band continuously variable transmission that provides equal speed ratios for each band throughout a range of overall transmission speed ratios through the use of radially contoured pulley sheaves, | ||||||
| 12 | Advanced rust remover | US319137 | 1994-10-06 | US5527211A | 1996-06-18 | Thomas Galgana |
| This is a method of removing contaminants from an engine pulley by removably attaching an abrasive strip to a belt which is positioned in a pulley groove, for example. The abrasive of the strip faces the pulley. Running the engine causing the abrasive strip to abrade away any dirt, rust or other contaminant on the pulley. | ||||||
| 13 | Adjustable drive belt | US742407 | 1985-06-07 | US4642081A | 1987-02-10 | Robert J. Balomenos |
| A flexible drive belt for coupling at least two pulleys such as those found on a motor vehicle engine. The belt is manually installable without adjusting the distance between the pulleys and is particularly useful for temporary or emergency installation in place of a broken drive belt. The belt includes first and second ends which are fastened together to form an endless drive belt. The first end of the belt is provided with a series of openings which accept a corresponding number of projections which extend perpendicular to an intermediate surface of the second belt end. Both the first and second belt ends are provided with intermediate surfaces such that when joined a smooth inner surface is formed. For a permanent installation, locking pins may be disposed within throughbores extending through the sides of the projections such that the projections are prevented from unmating with the openings of the first end. The overall length of the belt may be varied by shortening the ends of the belt to shorten the belt or by varying the placement of the projections with respect to the openings to lengthen the belt. | ||||||
| 14 | Endless power transmission V-belt constructions | US654830 | 1984-09-26 | US4559029A | 1985-12-17 | Joseph P. Miranti, Jr.; Mark P. Foley; Gerald C. Hollaway; Larry R. Oliver; Paul M. Standley; James A. Lewis |
| An endless power transmission V-belt construction and method of making the same are provided, the belt construction being formed mainly of polymeric material and having rounded top and bottom teeth respectively extending along the length of the top and bottom surfaces of the belt construction, the belt construction comprising a tension section having the top surface, a compression section having the bottom surface, and a load-carrying section disposed intermediate the tension section and the compression section. The bottom to top tooth pitch ratio of the belt construction, the bottom to top tooth depth ratio thereof, and the belt thickness to flex thickness ratio thereof may be varied in specific instances to optimize performance in specific uses. | ||||||
| 15 | Multi-ribbed power transmission belt and method of making said belt | US528055 | 1974-11-29 | US3948113A | 1976-04-06 | Delyn M. Stork |
| A belt of integral unitary construction for transmitting power at low tensions and the method of making the belt. The belt includes a continuous body having top and bottom surfaces which are equally spaced apart across the width and throughout the continuous length thereof. The body comprises a neutral axis section extending throughout the length of the belt with a tension section on one side thereof extending toward the top surface of the belt and a compression section on the other side thereof. The tension section extends transversely across the entire width of the belt and at least one groove is provided in the compression section extending from the bottom surface through the compression and neutral axis sections into a portion of the tension section to form a plurality of power transmitting ribs extending longitudinally of the belt to provide a tension section, compression section, and neutral axis in each individual rib. The invention is particularly useful with multi-grooved pulleys in a heavy-duty drive. | ||||||
| 16 | Trapezium power transmission belt | US35957573 | 1973-05-11 | US3857295A | 1974-12-31 | HALL D; CONFER L; LEWIS J |
| An endless power transmission belt adapted to be operated in a running plane and when viewed in cross section such belt has a pair of oppositely arranged sides wherein one of the sides extends at a greater angle than the other side relative to the running plane, and the belt has a top wall extending between the top edges of the sides and a bottom wall extending between the bottom edges of such sides with at least one of the walls being arranged at an acute angle beneath a plane arranged perpendicular to the running plane and the sides and walls defining a shape which resists and retards the tendency of the belt to distort when running in associated sheaves wherein each has a wide angle sheave side which engages said other side of said belt.
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| 17 | Power transmission belts | US3651626D | 1970-11-20 | US3651626A | 1972-03-28 | LOCATI NORMAN CARL |
| A flexible reinforced power transmission belt having rigid connectors molded into the cutter belt at spaced intervals. A cutter element is pivotally connected to the protruding end of each connector. A compressed resilient pad between the belt and cutter element urges the cutter element in an extended position but is deformed in response to abnormal impact to permit pivoting of the cutter elements.
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| 18 | Transmission belt | US3523461D | 1968-05-06 | US3523461A | 1970-08-11 | NEMECEK PAUL E; HENDERSON DEWEY D |
| 19 | Power transmission belt | US56577566 | 1966-07-18 | US3404577A | 1968-10-08 | ZAHN EDWARD JOSEPH |
| 20 | Belts and other glass fiber-elastomeric structures and method of manufacture | US58277066 | 1966-07-14 | US3371548A | 1968-03-05 | ALFRED MARZOCCHI |
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