- F16G1/02: .由皮革制成(F16G1/28优先;其制造入C14B9/00){由几部分组成的入F16G1/22}
- F16G1/04: .由纤维材料制成,如织物,涂或不涂橡胶(F16G1/28优先;其制造入D03D){由几部分组成的入F16G1/22}
- F16G1/06: .由橡胶制成(F16G1/28优先;由塑料或塑料性态的材料制造带入B29D29/00){由几部分组成的入F16G1/22}
- F16G1/14: .由塑料制成(F16G1/28优先;塑料或塑性状态的材料制造带入B29D29/00){由几部分组成的入F16G1/22}
- F16G1/18: .由线材制成(其制造入B21F43/00){由几部分组成的入F16G1/22}
- F16G1/20: .由单金属带制成(其制造入B21D53/14)
- F16G1/21: .由叠加层组成,如交错折叠
- F16G1/22: .由几个零件组成
- F16G1/28: .带有特殊形状的接触面,如带齿形的
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 141 | VORRICHTUNG ZUM HERSTELLEN VON TUBENKÖRPERN | EP12706493.9 | 2012-02-01 | EP2688737A1 | 2014-01-29 | WEBER, René |
| The invention relates to a device for producing tubular structures for packaging tubes, comprising an elongate mandrel (3) extending axially, around which a substrate web can be subjected to a forming process to produce a tubular moulding (4), where, within the mandrel (3), there are a plurality of gas-outlet apertures (15) to which compressed gas can be applied to produce a gas cushion, in particular an air cushion, between the mandrel (3) and the tubular moulding (4), and where there are welding means for welding the tubular moulding, and where, with the aid of means (19) arranged radially adjacent to the mandrel (3) and capable of providing a combination of pressure-application and conveying, the tubular moulding (4) can be forced radially inwards in a direction towards a mandrel surface (16) which belongs to the mandrel (3) and which is convexly curved in a circumferential direction, and the tubular moulding (4) can be transported in a direction of the longitudinal direction of the mandrel (3) by virtue of a frictional effect between the means and the tubular moulding (4). The invention provides that the curved mandrel surface, at least sectionally, has been formed by the microporous and/or nanoporous material which has the gas-outlet apertures in the form of pores. | ||||||
| 142 | BELT AND METHOD OF MARKING | EP03763387.2 | 2003-07-03 | EP1552185B1 | 2012-04-25 | SEDLACEK, Douglas, R. |
| A belt and method of marking a belt. A layer (30) of polyethylene material is joined or cured to a belt (100). The layer is optically distinguishable from a belt body (10). The layer is etched to expose a portion of the belt body in order to contrast the layer with the belt body. A second layer (40) of polyethylene material may be applied adjacent to the first layer. The second layer is optically distinguishable from the first layer. The first or second layer is etched using cutting, grinding or laser light in order to expose portions of the adjacent layer, or of the belt body, thus providing a method of permanently marking the belt. | ||||||
| 143 | Vorrichtung zur Kraft- und/oder Bewegungsübertragung mittels Synchrongetriebe | EP03005330.0 | 2003-03-11 | EP1344959B1 | 2007-02-21 | Schechinger, Bernd |
| 144 | VORRICHTUNG ZUR KRAFT- UND BEWEGUNGS BERTRAGUNG | EP04803151.2 | 2004-11-16 | EP1721088A1 | 2006-11-15 | Schechinger, Bernd |
| Disclosed is a force and movement transmitting device comprising at least one toothed belt and at least one pulley. The belt is provided with first conductive and/or receptive sections while the pulley is provided with second conductive and/or receptive sections for transmitting electrical signals or transferring a fluid medium. The first and second conductive and/or receptive sections are disposed so as to enter in contact with each other and allow the electrical signals or the fluid medium to be fed into the belt via the pulley or the electrical signals to be tapped or the fluid medium to be discharged from the belt via the pulley when the belt runs across the pulley. | ||||||
| 145 | BELT AND METHOD OF MARKING | EP03763387.2 | 2003-07-03 | EP1552185A1 | 2005-07-13 | SEDLACEK, Douglas, R. |
| A belt and method of marking a belt. A layer (30) of polyethylene material is joined or cured to a belt (100). The layer is optically distinguishable from a belt body (10). The layer is etched to expose a portion of the belt body in order to contrast the layer with the belt body. A second layer (40) of polyethylene material may be applied adjacent to the first layer. The second layer is optically distinguishable from the first layer. The first or second layer is etched using cutting, grinding or laser light in order to expose portions of the adjacent layer, or of the belt body, thus providing a method of permanently marking the belt. | ||||||
| 146 | Fördergurt mit eingebetteten Leiterschleifen | EP97100581.4 | 1997-01-16 | EP0785155B1 | 2003-04-16 | Alles, Rainer, Dr.-Ing.; Schulze, Siegfried; Scheuermann, Frank |
| 147 | Trägheitsarmes Kraftübertragungselement | EP96107360.8 | 1996-05-09 | EP0806590A1 | 1997-11-12 | Walczak, A., Dipl.-Ing. |
Ein trägheitsarmes Kraftübertragungselement zur Übertragung einer von einem Antriebselement (20) ausgehenden Antriebsbewegung auf ein angetriebenes Element (22) vermittels einer Schraubenfeder (10) ist dadurch gekennzeichnet, daß im Inneren der Windungen (12) der Schraubenfeder (10) ein Zugseil (14) angeordnet ist, das an mindestens zwei Anlenkpunkteb (16) an der Schraubenfeder (10) befestigbar ist. |
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| 148 | Courroies antistatiques | EP96402712.2 | 1996-12-12 | EP0780594A1 | 1997-06-25 | Alex, Patrick; Jamamoto, Jun |
L'invention concerne des courroies en polymère thermoplastique (A) et comprenant une quantité suffisante d'un polymère (B) pour les rendre antistatiques, ledit polymère (B) comprenant des blocs polyéthylène glycol. On utilise avantageusement des polymères (A) à blocs polyamide-6 (PA-6) ou polyamide-12 (PA-12) et blocs polytétraméthylène glycol et des polymères (B) à blocs PA-6 ou PA-12 et blocs polyéthylène glycol. |
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| 149 | Endless belt deviation preventing unit and belt processing apparatus employing the same unit | EP91310950.0 | 1991-11-27 | EP0488688B1 | 1997-01-08 | Fukuda, Misao; Hayami, Yoshihiro; Ueda, Toshihiro; Iwaki, Shoichi |
| 150 | Garage door operator with plastic drive belt | EP91303123.3 | 1991-04-09 | EP0455358B1 | 1995-04-26 | Dombrowski, Kenneth J.; Ergun, Joseph |
| 151 | Endless belt deviation preventing unit and belt processing apparatus employing the same unit | EP91310950.0 | 1991-11-27 | EP0488688A3 | 1994-06-15 | Fukuda, Misao; Hayami, Yoshihiro; Ueda, Toshihiro; Iwaki, Shoichi |
An apparatus for limiting deviation of an endless belt/belt sleeve from a desired rotational path. The apparatus has first and second rollers (14,16) each having a rotational axis and cooperatively supporting an endless belt/belt sleeve (22) trained therearound for rotational movement in a predetermined path. A first member (110) is mounted on one of the first and second rollers for movement axially relative to the one of the first and second rollers. A blocking structure (114) defines a shoulder (118) for engagement with an edge of an endless belt/belt sleeve (22) trained around the first and second rollers (14,16) to limit movement of an endless belt (22) trained around the first and second rollers (14,16) in a first axial direction relative to the one of the first and second rollers (14,16). |
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| 152 | Endless belt deviation preventing unit and belt processing apparatus employing the same unit | EP91310950.0 | 1991-11-27 | EP0488688A2 | 1992-06-03 | Fukuda, Misao; Hayami, Yoshihiro; Ueda, Toshihiro; Iwaki, Shoichi |
An apparatus for limiting deviation of an endless belt/belt sleeve from a desired rotational path. The apparatus has first and second rollers (14,16) each having a rotational axis and cooperatively supporting an endless belt/belt sleeve (22) trained therearound for rotational movement in a predetermined path. A first member (110) is mounted on one of the first and second rollers for movement axially relative to the one of the first and second rollers. A blocking structure (114) defines a shoulder (118) for engagement with an edge of an endless belt/belt sleeve (22) trained around the first and second rollers (14,16) to limit movement of an endless belt (22) trained around the first and second rollers (14,16) in a first axial direction relative to the one of the first and second rollers (14,16). |
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| 153 | Drive belts for a linear cable drive mechanism | EP86306977 | 1986-09-10 | EP0215636A3 | 1988-10-19 | Bishop, Bernard F.; Diener, Walter C.; Gaubatz, Tommy L.; Stiefel, Michael S. |
Drive belts (16,36) are disclosed for a linear motion drive system in which a plurality of the drive belts are helically disposed and rotated about a driven element (14,34) to advance the driven element along its axis without rotation. The belts include a pair of spaced legs (32,42) which resiliently abut legs of adjacent belts to space the belts equally about the periphery of the driven element, and to facilitate use with changes in diameter of the driven element. |
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| 154 | Driving belt | EP87104491 | 1987-03-26 | EP0240861A3 | 1988-06-08 | Habegger, Fernand; Polt, Niklaus; Groebli, Kurt |
| 155 | 摩擦伝動ベルト | JP2014186613 | 2014-09-12 | JP6342760B2 | 2018-06-13 | 金 成振; 川原 英昭; ▲高▼橋 長 |
| 156 | 摩擦伝動ベルト | JP2017522559 | 2017-01-05 | JP6306266B2 | 2018-04-04 | 大久保 貴幸; ▲高▼橋 伸治; 川原 英昭 |
| 157 | 繊維機械用ベルト | JP2015165839 | 2015-08-25 | JP2017043854A | 2017-03-02 | 中井 直道; 東 利光 |
| 【課題】ベルト走行中に発生する走行音を低減できる繊維機械用ベルトを提供する。 【解決手段】繊維機械用ベルトに用いられる芯体帆布は、経糸が複数の緯糸と交差し、前記経糸と前記緯糸が交差する組織点の集合体19がベルトの長手方向Lの一方へ規則的にずれて斜文線17が形成される綾織組織を基本とする織物で構成され、前記斜文線17は、前記集合体19の一部が所定の間隔で前記一方と反対の他方へずれて形成されていることを特徴とする。 【選択図】図2 |
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| 158 | Antistatic transfer belt used in the production of nonwovens | JP2007529971 | 2005-08-18 | JP2008511766A | 2008-04-17 | ゼネラート・ジャン; デバイセ・パスカル |
| 不織ウェブ(12)、構造体または製品を製造するための装置において、望ましい空気浸透性を維持しながら静電気を除去するために、導電性材料(22)を含んでいる移送ベルト(18)を組み入れた不織布製造工程を使用すること。 | ||||||
| 159 | Belt, and marking method | JP2004520059 | 2003-07-03 | JP2005529301A | 2005-09-29 | アール. セドラセック,ダグラス |
| ベルトおよび、ベルトのマーキング方法。 ポリエチレン物質の層(30)は、ベルト(100)に対して接合、または加硫される。 層は、ベルト本体(10)から光学的に区別可能である。 層をベルト本体に対して際立たせるように、層はエッチングされ、ベルト本体の一部を露出する。 ポリエチレン物質の第2の層(40)が、第1の層に隣接して接合されても良い。 第2の層は、第1の層から光学的に区別可能である。 第1または第2の層は、ベルト本体や隣接する層の一部分を露出するために、カッティング、グラインディング、またはレーザー光により、エッチングされ、かくしてベルトに永久的にマーキングする方法を提供する。 | ||||||
| 160 | Antistatic belt | JP35979596 | 1996-12-24 | JP2963668B2 | 1999-10-18 | PATORITSUKU ARETSUKUSU; YAMAMOTO JUN |
