1 |
用于制造循环的驱动带的方法 |
CN201710261718.X |
2017-04-20 |
CN107415292A |
2017-12-01 |
F·米歇尔; S·舒尔特; F·米库斯 |
本发明涉及一种用于制造环形的、在运行方向上循环的驱动带的方法,所述驱动带具有由第一材料构成的径向外部的覆盖层(9,109,214,314)、带有沿着运行方向取向的拉线(10,110,215,315)的拉线层和由第二材料构成的下部结构(17,117,217,317),所述第二材料是弹性体,所述下部结构构造用于与驱动装置的匹配的盘接触,其中,首先将拉线(10,110,215,315)施加到第一材料上,并且接着将由第二材料构成的下部结构(17,117,217,317)在注射成型模具(11,111,203,303)中成型和交联,驱动带卷(18,118,218,318)简化的制造可以通过如下方式实现,第一材料通过注射成型施加到芯(1,101,210,307)上,接着将拉线(10,110,215,315)卷绕到所述第一材料上,并且所形成的拉线层通过注射成型腔(16,216,316)包围,将第二材料注射到注射成型腔中并且第二材料在所述注射成型腔中交联。 |
2 |
车辆动力传送带 |
CN97196824.1 |
1997-09-19 |
CN1228104A |
1999-09-08 |
E·P·居尔戴恩; P·S·拉威萨卡 |
基于乙烯,α-烯烃,乙烯基降冰片烯弹性聚合物的机动车刹车片和动力传送带由于刹车部件复合物比乙烯,α-烯烃,二烯烃单体复合物(其中的二烯烃单体是乙烯基降冰片烯以外的二烯烃)具有更低的粘度,更快和更充分的固化而能被更有效地制造。此外,与比如乙烯,α-烯烃,非共轭的二烯烃弹性体(其中的二烯烃是乙烯基降冰片烯以外的二烯烃)、聚氯丙烯,或丁二烯橡胶相比,基于乙烯,α-烯烃,乙烯基降冰片烯弹性聚合物的刹车部件和动力传送带具有改进的耐高温性能和很好的热老化特性。 |
3 |
Vehicle for the power transmission belt |
JP51493898 |
1997-09-19 |
JP2001500910A |
2001-01-23 |
ジョーダン、エリック・ポール; ラヴィシャンカー、ペリアガラム・スリニヴァサン |
(57)【要約】 エチレン、α−オレフィン、ビニルノルボルネンのエラストマー性ポリマーを用いる自動車ブレーキ部品及び動力伝導ベルトは、ブレーキ部品配合物が、エチレン、α−オレフィン、ジエンモノマー(ジエンモノマーはビニルノルボルネン以外である。)配合物に比べて低い粘性、早く完全な硬化を有するため、より効率よく製造される。 さらに、エチレン、α−オレフィン、ビニルノルボルネンのエラストマー性ポリマーを用いるブレーキ部品及び動力伝導ベルトは、例えばエチレン、α−オレフィン、非共役ジエンエラストマー(ジエンはビニルノルボルネン以外である。)のポリクロロプレン又はブタジエンスチレンゴムと比較して、改良された耐高温性及び耐熱老化性を有する。 |
4 |
ポリウレタン製伝動ベルト及びベルト成形用材料 |
JP2015546342 |
2014-09-29 |
JPWO2015068496A1 |
2017-03-09 |
誠行 藤岡 |
耐久性に優れるポリウレタン製伝動ベルト、及びこの伝動ベルトを製造するためのベルト成形用材料を提供することを課題とする。解決手段として、下記化学式(1)で表される、1,2−シクロヘキサンジカルボン酸ジイソノニルエステルを含有するポリウレタン製伝動ベルトを提供する。【化1】 |
5 |
Monolithic belt using ethylene -α- olefin copolymer |
JP2003507440 |
2002-06-11 |
JP2004530772A |
2004-10-07 |
ヴィリー・トッゲンブルガー; ユルク・フォークト |
この発明は、重量平均分子量Mwの数平均分子量Mnに対する比が5.0:1〜1.5:1の範囲であるコポリマーを含む熱可塑性材料によって形成されるモノリシック・ベルト(即ち、挿入された材料を有していないベルト)、特にモノリシックなコンベヤー・ベルト及びドライブ・ベルトに関する。 そのようなベルトは、著しく低い材料コストを有する一方で、向上したクリープ耐性有している。 コポリマーは、特に、メタロセン・シングルサイト触媒を用いて製造することができる。 |
6 |
POLYURETHANE TRANSMISSION BELT AND BELT-MOLDING MATERIAL |
US15033883 |
2014-09-29 |
US20160264756A1 |
2016-09-15 |
Shigeyuki FUJIOKA |
An object is to provide a polyurethane transmission belt offering excellent durability, as well as a belt-molding material for manufacturing such transmission belt. As a solution, a polyurethane transmission belt is provided that contains 1,2-cyclohexane dicarboxylic acid diisononyl ester expressed by Chemical Formula (1) below. |
7 |
Figure-eight shaped drive belt |
US350382 |
1999-07-08 |
US6165087A |
2000-12-26 |
Pat A. Iammatteo; Jonathan Petzold |
A figure-eight shaped drive belt for use within a pulley system, including a drive belt having a preformed figure-eight configuration. The figure-eight configuration includes a first circular-shaped loop and a second circular-shaped loop, such that the first and second circular-shaped loops are each integrally connected at two curved center sections to form an endless drive belt having the figure-eight shaped configuration. The figure-eight shaped drive belt is made from a non-expandable plastic resin material selected from the group consisting of polyurethane, polyolefins, styrenic, polyesther and other thermoplastic resins. Alternatively, the invention also relates to elliptical and oval shaped drive belts for similar uses. |
8 |
Polymeric-coated fabric layer and product utilizing the layer |
US718626 |
1985-04-01 |
US4575469A |
1986-03-11 |
Delmar D. Long; John F. Anderson, Jr. |
A polymeric-coated fabric layer, product using the layer, method and apparatus for making such layer and a method of making a belt construction comprising a polymeric belt body having a surface and a polymeric-coated fabric layer having an outer surface secured to the surface of the belt body are provided, the method of making a belt construction comprising the steps of providing a fabric layer having opposed sides, securing a main layer of polymeric material to one of the sides of the fabric layer, forming the main layer of polymeric material to have the outer surface facing away from the one side of the fabric layer, disposing the outer surface of the fabric layer against the surface of the belt body to provide an assembly thereof, bonding the outer surface of the layer to the surface of the belt body by a heat curing operation on the assembly, securing a gauge building layer of fibers to the one side of the fabric layer with another layer of polymeric material that is disposed on the one side before the layer of fibers is disposed thereon whereby the gauge building layer of fibers has a plurality of voids therein, and then filling the voids of the gauge building layer of fibers with the polymeric material of the main layer in a liquid form thereof to form the main layer. |
9 |
Polymeric-coated fabric layer, and method for making the same |
US482365 |
1983-04-05 |
US4520038A |
1985-05-28 |
Delmar D. Long; John F. Anderson, Jr. |
A polymeric-coated fabric layer, product using the layer, method and apparatus for making such layer and a method of making a belt construction comprising a polymeric belt body having a surface and a polymeric-coated fabric layer having an outer surface secured to the surface of the belt body are provided, the method of making a belt construction comprising the steps of providing a fabric layer having opposed sides, securing a main layer of polymeric material to one of the sides of the fabric layer, forming the main layer of polymeric material to have the outer surface facing away from the one side of the fabric layer, disposing the outer surface of the fabric layer against the surface of the belt body to provide an assembly thereof, bonding the outer surface of the layer to the surface of the belt body by a heat curing operation on the assembly, securing a gauge building layer of fibers to the one side of the fabric layer with another layer of polymeric material that is disposed on the one side before the layer of fibers is disposed thereon whereby the gauge building layer of fibers has a plurality of voids therein, and then filling the voids of the gauge building layer of fibers with the polymeric material of the main layer in a liquid form thereof to form the main layer. |
10 |
Glycol and polypentaerythritol composition |
US22465351 |
1951-05-04 |
US2682477A |
1954-06-29 |
BRONSTEIN JESSE B |
|
11 |
Rubber composition for power transmission belts |
US09700104 |
2000-11-08 |
US06669591B1 |
2003-12-30 |
Paul Norman Brinkman; Thomas George Burrowes |
This invention relates to power transmission belts and to a rubber composition for use therein. The composition contains from 90 to 10 phr alkylated chlorosulfonated polyethylene and 10 to 90 phr ethylene vinyl acetate. |
12 |
Reaction injection moldable (RIM) thermoset polyimide elastomers |
US681741 |
1991-04-08 |
US5194567A |
1993-03-16 |
Charles M. Lewis |
A prepolymer of the formula ##STR1## where LG is a linking group, and copolymers thereof; polymers prepared therefrom, and a reaction injection molding process employing the same. |
13 |
Polymeric-coated fabric layer, product utilizing the layer and method of
making the same |
US692264 |
1985-01-17 |
US4661399A |
1987-04-28 |
John F. Anderson, Jr.; Delmar D. Long |
A polymeric-coated fabric layer, product utilizing the layer and a method of making such layer are provided, the layer being adapted to be secured to a surface of a polymeric belt body of a polymeric belt construction and comprising a fabric layer having opposed sides, and first and second layers of polymeric material respectively secured to the sides of the fabric layer and respectively and substantially simultaneously impregnating into the sides of the fabric layer, the first layer of polymeric material having an outer surface facing away from the fabric layer so as to be adapted to be secured to the surface of the polymeric belt body by a heat curing operation on the belt body and the polymeric-coated fabric layer in the assembled relation thereof, the first polymeric layer comprising a foamed polymeric layer and the second polymeric layer comprising a non-foamed polymeric layer whereby the outer surface of the foamed polymeric layer is adapted to readily conform to the surface of the belt body to improve the bond therebetween during the heat curing operation thereof when the surfaces are brought into contact with each other for such subsequent securement therebetween. |
14 |
Polymeric-coated fabric layer, product utilizing the layer and method
and apparatus for making the same |
US692158 |
1985-01-17 |
US4621005A |
1986-11-04 |
Delmar D. Long; John F. Anderson, Jr. |
A polymeric-coated fabric layer, product using the layer, method and apparatus for making such layer and a method of making a belt construction comprising a polymeric belt body having a surface and a polymeric-coated fabric layer having an outer surface secured to the surface of the belt body are provided, the method of making a belt construction comprising the steps of providing a fabric layer having opposed sides, securing a main layer of polymeric material to one of the sides of the fabric layer, forming the main layer of polymeric material to have the outer surface facing away from the one side of the fabric layer, disposing the outer surface of the fabric layer against the surface of the belt body to provide an assembly thereof, bonding the outer surface of the layer to the surface of the belt body by a heat curing operation on the assembly, securing a gauge building layer of fibers to the one side of the fabric layer with another layer of polymeric material that is disposed on the one side before the layer of fibers is disposed thereon whereby the gauge building layer of fibers has a plurality of voids therein, and then filling the voids of the gauge building layer of fibers with the polymeric material of the main layer in a liquid form thereof to form the main layer. |
15 |
Production of v-type transmission belts |
US38346773 |
1973-07-30 |
US3889546A |
1975-06-17 |
HOUDRET CHARLES; MARCHAND JACQUES |
A V-type belt whose service life is considerably improved by the use in the base thereof of a rubbery mixture containing a polyolefin having a high molecular weight, said mixture having been brought at least once, either before or at the time of the vulcanization, to a temperature higher than the melting temperature of the polyolefin.
|
16 |
Endless power transmission belt and method of making same |
US31405872 |
1972-12-11 |
US3847029A |
1974-11-12 |
RAY R |
An endless power transmission belt and method of making same is provided wherein the belt has a body made substantially of a thermoplastic elastomer and the body has a heat-fused area at a location along its endless path which has physical properties which are substantially equal to the physical properties of the remainder of the body.
|
17 |
Drive belt |
US3792621D |
1972-10-11 |
US3792621A |
1974-02-19 |
SMITH T |
A drive belt is formed of a generally continuous filament of polyurethane material extending repeatedly around the length of the belt to form a multiplicity of strands. The circumferential strands are integrally interconnected along the contiguously adjacent surfaces of the individual strands to form a generally unitary belt construction.
|
18 |
V-belt and method of manufacture |
US28193563 |
1963-05-21 |
US3290954A |
1966-12-13 |
HUBER WALTER E |
|
19 |
Sewing machine v-belts and method for producing same |
US35898664 |
1964-04-13 |
US3242750A |
1966-03-29 |
GRAFT ROBERT W |
|
20 |
JPS60500971A - |
JP50207284 |
1984-04-03 |
JPS60500971A |
1985-06-27 |
|
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