| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 61 | Segmental belting | US55421966 | 1966-05-31 | US3368417A | 1968-02-13 | JOHN JENKINS PETER |
| 62 | Power transmitting belt | US21855227 | 1927-09-09 | US1915571A | 1933-06-27 | LEONCE GARDERE PIERRE |
| 63 | Belting | US67928423 | 1923-12-08 | US1631580A | 1927-06-07 | CAVANAUGH WILLIAM M |
| 64 | Chain, belt, and the like | US67179623 | 1923-10-30 | US1564711A | 1925-12-08 | FRANKS PERL ALBERT HENRY; HEMMINGS CARTER RICHARD |
| 65 | 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. | ||||||
| 66 | VORRICHTUNG ZUM FORMEN VON AUS EINEM MASSENSTRANG GEFERTIGTEN WAREN | EP08708181.6 | 2008-01-25 | EP2134189B1 | 2017-03-29 | HORNSCHUCH, Stephan; FUCHS, Joachim |
| 67 | KEILRIPPENRIEMEN UND VERFAHREN ZU DESSEN HERSTELLUNG | EP12772229.6 | 2012-10-04 | EP2764277B1 | 2015-07-01 | LOTZ, Florian; KOPMANN, Dennis |
| 68 | Driving belt for fixed ratio transmission | EP98308372.6 | 1998-10-14 | EP0911541B1 | 2003-01-22 | Mott, Philip J. |
| 69 | A WINDOW OPERATOR | EP95907152.3 | 1995-01-19 | EP0740736B1 | 2000-05-17 | HARVEY, John; FUGE, Andrew George; FIFIELD, Jon Leonard |
| A mechanism for angularly moving a panel or closure element such as a window. The mechanism includes a housing (10) which incorporates a guide (19) in which is slidingly located an elongate multi-link connector (11). One end (17) of the connector (11) is extendable from the housing (10) and is able to be coupled to the panel or closure element by a coupling (12). A handle (13) mounted with the cover (15) of the housing (10) can be rotated to move the connector (11) relative to the guide (19). The connector (11) is formed from a plurality of links (16) maintained in an interengaging relationship by an elongate flexible joining element (30) extending therethrough. The connector includes a plurality of drive dogs (35) for engagement with a toothed gear coupled to the handle (13) so that drive from the handle (13) can be imparted to the connector (11). | ||||||
| 70 | A WINDOW OPERATOR | EP95907152 | 1995-01-19 | EP0740736A4 | 1997-05-02 | HARVEY JOHN; FUGE ANDREW GEORGE; FIFIELD JON LEONARD |
| A mechanism for angularly moving a panel or closure element such as a window. The mechanism includes a housing (10) which incorporates a guide (19) in which is slidingly located an elongate multi-link connector (11). One end (17) of the connector (11) is extendable from the housing (10) and is able to be coupled to the panel or closure element by a coupling (12). A handle (13) mounted with the cover (15) of the housing (10) can be rotated to move the connector (11) relative to the guide (19). The connector (11) is formed from a plurality of links (16) maintained in an interengaging relationship by an elongate flexible joining element (30) extending therethrough. The connector includes a plurality of drive dogs (35) for engagement with a toothed gear coupled to the handle (13) so that drive from the handle (13) can be imparted to the connector (11). | ||||||
| 71 | A WINDOW OPERATOR | EP95907152.0 | 1995-01-19 | EP0740736A1 | 1996-11-06 | HARVEY, John; FUGE, Andrew George; FIFIELD, Jon Leonard |
| A mechanism for angularly moving a panel or closure element such as a window. The mechanism includes a housing (10) which incorporates a guide (19) in which is slidingly located an elongate multi-link connector (11). One end (17) of the connector (11) is extendable from the housing (10) and is able to be coupled to the panel or closure element by a coupling (12). A handle (13) mounted with the cover (15) of the housing (10) can be rotated to move the connector (11) relative to the guide (19). The connector (11) is formed from a plurality of links (16) maintained in an interengaging relationship by an elongate flexible joining element (30) extending therethrough. The connector includes a plurality of drive dogs (35) for engagement with a toothed gear coupled to the handle (13) so that drive from the handle (13) can be imparted to the connector (11). | ||||||
| 72 | Riemen | EP94109672.9 | 1994-06-22 | EP0631067B1 | 1996-09-18 | Basse, Hartwig |
| 73 | Zuggurt mit einvulkanisierten Stahlseilarmierungen | EP80106954.3 | 1980-11-11 | EP0051692B1 | 1984-08-22 | Kneifel, Heinz |
| 74 | CONTROL DEVICE FOR BELT-TYPE CONTINUOUSLY VARIABLE TRANSMISSION | EP13880529.6 | 2013-11-28 | EP2980454A1 | 2016-02-03 | AOKI, Daisuke; KOBAYASHI, Takahiro; TAKAHASHI, Seiichiro; SUZUKI, Yuta |
A control device for a belt-type continuously variable transmission CVT includes an engine 1, a belt-type continuously-variable transmitting mechanism 4; a forward/reverse switching mechanism 3 including a forward clutch 31 and a reverse brake 32; and a hydraulic control circuit 71 configured to control a pulley hydraulic pressure and engagement-element pressures for the forward clutch 31 and the reverse brake 32. The control device includes a selection control means for outputting a pulley hydraulic command to obtain an idle-time clamping pressure which is higher than an idle-time minimum pressure (idle-time MIN-pressure) calculated from an input torque, to the hydraulic control circuit 71, when the engine 1 is in operation during a selection of N-range. A position of an element clearance generated in the belt can be maintained even if drag torque is inputted. |
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| 75 | KEILRIPPENRIEMEN UND VERFAHREN ZU DESSEN HERSTELLUNG | EP12772229.6 | 2012-10-04 | EP2764277A1 | 2014-08-13 | LOTZ, Florian; KOPMANN, Dennis |
| The invention relates to a v-ribbed belt (10) manufactured in a molding or grinding process, comprising a plurality of ribs (1) for engaging a multi-groove belt pulley (4), which in different areas of the structure thereof can comprise different elastomer materials. In two rib segments (8, 9), the v-ribbed belt has differing elastomer materials that are exposed toward the flank (6) of the rib (1), wherein the upper rib segments (8) oriented toward the belt pulley are made of an elastomer material that essentially is not electrically conductive. The lower rib segments (9) are made of an electrically conductive elastomer material. The height ratio a/(a+b) of the height (a) of the lower rib segments (9) to the overall height (a+b) of the rib (1), as measured at the material boundary (12) located at the rib flank (6), is at least 6 per cent, or the absolute height (a) of the lower rib segments (9) is at least 0.12 mm. The invention further relates to a method for producing a v-ribbed belt according to the invention. | ||||||
| 76 | VORRICHTUNG ZUM FORMEN VON AUS EINEM MASSENSTRANG GEFERTIGTEN WAREN | EP08708181.6 | 2008-01-25 | EP2134189A2 | 2009-12-23 | HORNSCHUCH, Stephan; FUCHS, Joachim |
| The invention relates to a device for shaping goods (4), especially candy-type sweets, that have been produced from a strand of material (4). Said device comprises an inner separation ring (2) having a plurality of mold halves (2b) and a plurality of separation ribs (2a), and an outer separation ring (3) having a plurality of mold halves (3a) and a plurality of separation ribs (31a), the separation ribs (2a, 31a), during rotation of the separation rings (2, 3), approaching each other and finally contacting each other to cut off chunks of material from the strand of material (4). The device also comprises pairs of embossing dies having respective first embossing dies (9) and respective second embossing dies (10), the first embossing die (9) being arranged on a first side of the separation rings (2, 3) and the second embossing die (10) being arranged on a second side opposite the first side of the separation rings (2, 3), a cam control device (11, 13) to determine a position of the embossing dies (9, 10) in the axial direction relative to the separation rings (2, 3). The outer separation ring (3) is flexible and is in contact with the inner separation ring (2) during an embossing phase of the goods (5) to emboss the goods between the inner separation ring (2) and the outer separation ring (3) by means of the embossing dies (9, 10). | ||||||
| 77 | Driving belt for fixed ratio transmission | EP98308372.6 | 1998-10-14 | EP0911541A3 | 2000-05-17 | Mott, Philip J. |
A power transmission system for transmitting power between a plurality of toothed sprockets mounted on rotating members. The system includes a chain (100) comprising a plurality of transverse elements (110,120) arranged in an endless loop and maintained in a stack by a plurality of endless carriers (102) received in slots (104) in each transverse element. Power is transmitted along the chain by contact between the principal faces of the transverse elements. The transverse elements include a plurality of load bearing elements (112) which are configured to engage the teeth of the sprockets and provide power transmission therewith. |
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| 78 | Driving belt for fixed ratio transmission | EP98308372.6 | 1998-10-14 | EP0911541A2 | 1999-04-28 | Mott, Philip J. |
A power transmission system for transmitting power between a plurality of toothed sprockets mounted on rotating members. The system includes a chain comprising a plurality of transverse elements arranged in an endless loop and maintained in a stack by a plurality of endless carriers received in slots in each transverse element. Power is transmitted along the chain by contact between the principal faces of the transverse elements. The transverse elements include a plurality of load bearing elements which are configured to engage the teeth of the sprockets and provide power transmission therewith. |
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| 79 | Riemen | EP94109672.9 | 1994-06-22 | EP0631067A1 | 1994-12-28 | Basse, Hartwig |
Bekannt sind Riemen (10), die einen Grundkörper (11) mit einer glatten Mantelfläche (12) aufweisen, auf der eine Profilierung angeordnet ist. Erfindungsgemäß ist die Profilierung durch einen die Mantelfläche (12) des Grundkörpers (11) umgebenden Hüllkörper (13) gebildet. Hierdurch kann der Riemen (10) hohe Antriebs- und Förderkräfte übertragen. Der Riemen (10) ist deshalb besonders als Treib- oder Transportriemen geeignet. |
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| 80 | Power transmission belt | EP85300304.4 | 1985-01-17 | EP0188854A1 | 1986-07-30 | Takano, Hiroshi; Takagi, Shinichi; Wada, Kiyokazu; Konishi, Sadaichi; Kanaoka, Tomizou |
A power transmission belt for transmitting high loads having an elastomeric looped flat belt portion (11) having a longitudinally extending tensile cord (12) and detining an inner surface, and a plurality of longitudinally extending spaced blocks (15) mounted to the inner surface (13) of the flat belt portion. Each block is formed of a core (22) and a fabric (21) wrapped around the core. In one embodiment, the block is secured to the flat belt portion by bolts (17) extending therethrough. The fabric of the blocks may be treated with different materials, such as rubber, synthetic resins, and the like. The core may be formed of an elastomeric material. The flat belt portion may be provided with one or more layers of fabric. |
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