| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 21 | Conveyor | US09473842 | 1999-12-28 | US06330940B1 | 2001-12-18 | Mario Spatafora |
| A conveyor for transferring products has a belt looped about two pulleys; a first and a second conveying branch extending between the pulleys in a given direction; and an actuating device for activating the pulleys and defined by gear trains to impart to the pulleys a concordant reciprocating motion in the aforementioned direction according to a first law of motion; the belt being fed about the pulleys according to a second law of motion; and the first and second law of motion being so determined that the first branch is operated intermittently, and the second branch is operated continuously and uniformly. | ||||||
| 22 | Flat turret transporting mechanism | US767966 | 1977-02-11 | US4143503A | 1979-03-13 | Andrew W. Anderson; Paul R. Rolando |
| The apparatus for transporting an article includes a conveyor and a means for driving the conveyor synchronously and intermittently at least two driving positions along a path having a plurality of work stations. The apparatus will intermittently move the article from one work station to another with the conveyor being substantially completely driven without any drive function being associated therewith. A further feature of the invention includes the vertical adjustment of the transporting mechanism with respect to a moving package to be wrapped in conjunction with a wrapping machine. Another feature is directed to the specific sprocket construction used in a closed loop means. The flat turret transporting mechanism includes a plurality of pockets for receiving packages to be wrapped between an input and an output work station. | ||||||
| 23 | Stepwise drive mechanism | US602361 | 1975-08-06 | US4054202A | 1977-10-18 | Jean-Claude Henri Hautemont |
| In a stepwise drive mechanism of the type comprising a pair of endless coying members, such as for example metal chains, which are formed of a magnetic or magnetizable material, with gripping elements mounted thereon and in which the conveying members are located parallel to one another with the gripping elements fixed temporarily to a plastic film in which receptacles are formed and traverse a machine for processing food and/or pharmaceutical products having different work stations positioned at intervals whose length is a multiple of the feed steps of the drive mechanism, a drive is provided for synchronously driving the conveying members. This drive includes drive wheels respectively located in contact with a corresponding conveying member or chain along a predetermined arc and a drive arrangement for intermittently rotating the drive wheels through an elementary angular displacement which corresponds to a feed step of the conveying members. The conveying members are applied, along a predetermined arc, to their associated drive wheels over at least a contact surface area located on the peripheral portion of their associated drive wheels. A magnetic arrangement is provided in the driving wheel for producing a system of magnetic forces whose directions are substantially perpendicular to the contact surface area and whose resultant intensity is sufficient to prevent relative movement of the driving wheel and its associated conveying member. The contact surface area is annular and rotates about the axis of rotation of the drive wheel, with the drive wheel. The magnets in the drive wheels attract and hold the conveying members or chains to the contact surface of the driving wheels along the predetermined arc under the action of the magnetic pull which they produce. | ||||||
| 24 | Device for intermittently receiving and continuously delivering objects | US620325 | 1975-10-07 | US4019624A | 1977-04-26 | Jean Torres |
| An endless chain passing about a constantly rotating driving wheel and a chain-tensioning driven wheel carries alternately-disposed first and second rollers, with object-driving fingers on the first rollers. Along the upper run of the chain is a fixed ramp having a lower rolling track for the first rollers and an upper rolling track for the second rollers whereby the chain is accordion-folded at a location corresponding to a zone on a table for intermittently receiving objects to be delivered between the fingers. After the fixed ramp is a vertically-reciprocating mobile ramp which produces an intermittent stopping of the fingers in said zone, while allowing the objects taken-up to leave the table with the chain unfolded and hence with a regular pitch and at constant speed. | ||||||
| 25 | FRICTION DRIVE DEVICE FOR A CONVEYOR AND METHOD FOR DRIVING | EP04775552.5 | 2004-10-14 | EP1678059A1 | 2006-07-12 | Lindvall, Tommy |
| The invention relates to a drive device for intermittent driving of a conveyor (1) that partly surrounds a drum (3) rotatable around a centre axis (0). The drive device comprises drive member (5, 6) and motion transmission member (3, 7, 8, 9). According to the invention, the drive member is (5, 6) arranged to execute a reciprocating motion. The motion transmission member (3, 7, 8, 9), in the motion of the drive member (5, 6) in a first direction, is arranged to impart the drum (3) a rotary motion in a first rotary direction and impart the conveyor a motion. Further, the motion transmission member (3, 7, 8, 9), in the motion of the drive member (5, 6) in a second direction, is arranged to impart the drum (3) a rotary motion in a second rotary direction in such a way that the conveyor (1) is at rest. The invention also relates to a corresponding method. | ||||||
| 26 | Conveyor device and method for transporting and/or sorting, especially food | EP03021263.3 | 2003-09-19 | EP1516833A1 | 2005-03-23 | Salvoni, Paolo |
The present invention relates to a conveyor device (1), particularly for transporting and/or sorting food or other transport goods, comprising a first part (2) and a second part (3), the first part (2) comprising a first conveying means (20) and the second part (3) comprising a second conveying means (30), the conveying means (20,30) being arranged at least partially in parallel, the conveyor device (1) further comprising a driving means, whereas the first part (2) comprises tensing means (23,24), the tensing means being provided such that the first conveying means (20) is driven while being tensed and the tensing means (23,24) being further provided such that the first conveying means (20) is not driven while not being tensed. |
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| 27 | Device for intermittently moving an output shaft | EP82200203.6 | 1982-02-19 | EP0059504A1 | 1982-09-08 | van Essen, Henk |
A device for activating the one or the other of two movement transfer devices (3, 5, 6, 14-25; 4,10-13), both driving the same output shaft (1), at least one of said movement transfer devices having a cam disc (14, 15) to create a desired velocity function, control means (39-43) controlled by said output shaft (1) being present to activate or disable the connection between a command member (32-34) and means (38, 9, 38', 12) for controlling clutches (5, 10) in said movement transfer devices and a step regulating means (29-31) connected to said output shaft (1). |
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| 28 | Dispositif de transport funiculaire à double câble, bouclé sur lui-même et à variation de vitesse | EP80420055.8 | 1980-05-08 | EP0018932A1 | 1980-11-12 | Aulagner, Michel; Jour, Jean-Paul |
L'invention concerne un dispositif de transport à cinématique de type funiculaire. Une suite de mobiles Bi, toujors solidaires d'un lien variateur de vitesse 8, du type des chaînes à maillons de longueur variable, circule le long d'un trajet bouclé sur lui-même. Dans les zones de grande vitesse A'A, les mobiles sont de plus solidaires d'un lien tracteur 5 bouclé sur lui-méme. Les zones de variation de vitesse et de station 9 sont dépourvues de lien tracteur. Application : Réduction des efforts dans les organes "variateurs de vitesse". En particulier, diminution et régulation de la tension dans le lien variateur. |
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| 29 | ANCHOR CHAIN GUIDE MECHANISM FOR LADLE CONVEYANCE | EP10853696 | 2010-08-10 | EP2586729A4 | 2017-02-01 | TANIMURA KYOICHI; KAMAMOTO JUNPEI; SAGAWA MASANORI; NANASAWA TAKASHI |
| 30 | ANCHOR CHAIN GUIDE MECHANISM FOR LADLE CONVEYANCE | EP10853696.2 | 2010-08-10 | EP2586729A1 | 2013-05-01 | TANIMURA,Kyoichi; KAMAMOTO,Junpei; SAGAWA,Masanori; NANASAWA,Takashi |
There is provided a guide mechanism of an anchor chain for conveying ladles, which can prevent an anchor chain from being twisted or sagged and can transmit motive power to the anchor chain reliably and efficiently. A linear anchor chain guide 30 is provided in a motive power transmission region where the motive power is transmitted from a conveyer chain 21 to the anchor chain 10, and the anchor chain 10 is introduced and guided to the anchor chain guide 30. The guide side parts 32 in the left and right guide half members 31, 31 constituting the anchor chain guide 30 can limit a leftward or rightward movement of the anchor chain 10. The guide upper parts 33 can limit an upward movement of the anchor chain 10. A downward stopper 13 placed at the upper end of each vertical unit ring 11 of the anchor chain 10 cannot pass downwardly through the clearance 34 set between the guide upper parts 33, 33 of the left and right guide half members31, 31, so a downward movement of the anchor chain 10 can be limited. In the motive power transmission region, a conveyer chain guide 40 is also provided for preventing the conveyer chain 21 from floating and the like. |
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| 31 | FRICTION DRIVE DEVICE FOR A CONVEYOR AND METHOD FOR DRIVING | EP04775552.5 | 2004-10-14 | EP1678059B9 | 2007-10-24 | Lindvall, Tommy |
| The invention relates to a drive device for intermittent driving of a conveyor (1) that partly surrounds a drum (3) rotatable around a centre axis (0). The drive device comprises drive member (5, 6) and motion transmission member (3, 7, 8, 9). According to the invention, the drive member is (5, 6) arranged to execute a reciprocating motion. The motion transmission member (3, 7, 8, 9), in the motion of the drive member (5, 6) in a first direction, is arranged to impart the drum (3) a rotary motion in a first rotary direction and impart the conveyor a motion. Further, the motion transmission member (3, 7, 8, 9), in the motion of the drive member (5, 6) in a second direction, is arranged to impart the drum (3) a rotary motion in a second rotary direction in such a way that the conveyor (1) is at rest. The invention also relates to a corresponding method. | ||||||
| 32 | Conveyor | EP99125944.1 | 1999-12-27 | EP1020378A1 | 2000-07-19 | Spatafora, Mario |
A conveyor (1) for transferring products has a belt (2) looped about two pulleys (3, 5); a first (7) and a second (8) conveying branch extending between the pulleys (3, 5) in a given direction (D); and an actuating device (12) for activating the pulleys (3, 5) and defined by gear trains (17, 18) to impart to the pulleys (3, 5) a concordant reciprocating motion in the aforementioned direction (D) according to a first law of motion (LM1); the belt (2) being fed about the pulleys (3, 5) according to a second law of motion (LM2); and the first and second law of motion (LM1, LM2) being so determined that the first branch (7) is operated intermittently, and the second branch (8) is operated continuously and uniformly. |
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| 33 | Transporteur sans fin à vitesses localement différentes et application aux trottoirs roulants | EP79401008.2 | 1979-12-12 | EP0014298B1 | 1983-10-05 | Cesbron Lavau, René |
| 34 | Railway Vehicle and Funicular Apparatus | US15509003 | 2015-09-04 | US20180093679A1 | 2018-04-05 | Guillaume Cottard |
| A funicular intended particularly for transporting heavy loads between an upstream station (10) and a downstream station (12), comprises a railway track (14) connecting the upstream station (10) to the downstream station (12) and a vehicle (16) running on the track (14) and drawn by at least one towing cable (30). The vehicle comprises a chassis (50) defining a median longitudinal vertical plane that rests on at least one pendulum running gear, comprising two independent lateral pendulum devices (60) situated on either side of the median longitudinal vertical plane, wherein each lateral pendulum device (60) comprises a secondary pendulum (62) articulated in relation to the chassis (50) around a horizontal secondary pivot axis and two primary pendulums, each articulated in relation to the secondary pendulum (62) around a horizontal primary pivot axis, wherein the primary pivot axes of the two primary pendulums are spaced apart from one another longitudinally on either side of the secondary pivot axis, wherein each primary pendulum is associated with at least two support rollers designed to run on the railway track (14), each rotating around a rotation axis parallel to the primary pivot axis of the associated primary pendulum and situated longitudinally on either side of the primary pivot axis of the associated primary pendulum. | ||||||
| 35 | Slat conveyor | US15009396 | 2016-01-28 | US09796531B2 | 2017-10-24 | Masahiro Ishibashi; Takaharu Suzuki |
| A slat conveyor has a plurality of slat bodies supported between a pair of left and right driving endless turning bodies by concentric horizontal support shafts and has a pair of front and rear guide rollers supported to a guide rail laid on each of upper and lower horizontal path sections. A U-turn guiding mechanism at both ends includes the guide rollers, a slat body posture controlling rotating body, and a drive mechanism for the rotating body. The rotating body has the same turning radius as that of the horizontal support shaft on a U-turn path section, and includes an engaging portion for positioning and turning the guide rollers. The drive mechanism drives the rotating body such that the engaging portion is turned in the same direction and at the same speed as the turning speed of the horizontal support shaft on the U-turn path section. | ||||||
| 36 | Product collection apparatus | US13628879 | 2012-09-27 | US08991590B2 | 2015-03-31 | Takayuki Sato; Kiyoto Shinohara |
| A product collection apparatus which provides a product conveyed by a conveyance belt to a rotary table to collect the product includes a conveyance belt to be rotated; a rotary table supported rotatably, linkage unit which links a driving force input unit for conveyance belt which receives driving force to rotate the conveyance belt and a driving force input unit for rotary table which receives driving force to rotate the rotary table, and an actuator which transfers the driving force to the conveyance belt and the rotary table through the linkage unit. | ||||||
| 37 | PRODUCT COLLECTION APPARATUS | US13628879 | 2012-09-27 | US20130098738A1 | 2013-04-25 | Takayuki SATO; Kiyoto Shinohara |
| A product collection apparatus which provides a product conveyed by a conveyance belt to a rotary table to collect the product includes a conveyance belt to be rotated; a rotary table supported rotatably, linkage unit which links a driving force input unit for conveyance belt which receives driving force to rotate the conveyance belt and a driving force input unit for rotary table which receives driving force to rotate the rotary table, and an actuator which transfers the driving force to the conveyance belt and the rotary table through the linkage unit. | ||||||
| 38 | Intermittent linear movement control device | US11284027 | 2005-11-22 | US20070137392A1 | 2007-06-21 | Chau-Tsung Chen |
| An intermittent linear movement control device includes: movement elements flexibly connected to one another and each having a sliding groove at a lower surface thereof; each sliding groove has an upper portion thereof as an arcuate sliding groove and two sides thereof as gap-like dissected half-length sliding grooves, with the dissected half-length sliding grooves in communication with the arcuate sliding groove, and the dissected half-length sliding grooves of respective movement elements joined with each other for forming a full-length sliding groove; and a small pulley flexibly connected in one of the sliding grooves and capable of performing eccentric rotations by forces received; wherein, the plurality of movement elements horizontally and linearly moves forward when the small pulley moves in the full-length sliding grooves, and remains at halt when the small pulley moves in idle in the arcuate sliding grooves. | ||||||
| 39 | Feeder for chip components | US09678096 | 2000-10-04 | US06705819B1 | 2004-03-16 | Akira Nemoto; Shigeki Takahashi; Nihei Kaishita; Mitsuhiro Namura |
| A feeder for chip components is provided wherein the chip components can be supplied with high stability even in high-speed operation by operating a conveying member at a lower speed than that of a chip mounter and operating the conveying member even when the chip mounter is stopped. The chip components on a belt are supplied in one direction by lowering a feed lever according to the input load from a chip mounter so as to drive the belt connected to the feed lever via a transmission mechanism intermittently in one direction. urging means is provided for urging the feed lever in the returning direction by storing the input load of the chip mounter as energy while an eddy current damper is provided for delaying the returning operation of the feed lever relative to the returning operation of the chip mounter. When the chip mounter operates downwardly, the feed lever is moved downwardly by linking to the chip mounter while the conveyor belt is maintained in a stationary state. When the chip mounter operates upwardly, the feed lever is moved upwardly so as to be delayed relative to the chip mounter by the eddy current damper while the belt is driven at a low speed. | ||||||
| 40 | Tortilla stack indexer | US09648836 | 2000-08-25 | US06634483B1 | 2003-10-21 | Jose L. Longoria |
| A tortilla stack indexer (10) having an exit conveyor (12) which has a exit conveyor motor (12A) engagably attached thereto. At least two transverse conveyors are in a side-by-side parallel configuration at a perpendicular position to the exit conveyor (12) positioned at a rear distal end adjacent thereto. Each of the at least two transverse conveyors includes a transverse conveyor roller positioned at front end. A stacker conveyor positioned adjacent to the front end of the at least two transverse conveyors having a stacker conveyor roller positioned at rear end. A drive interrupter is engagably positioned between the transverse conveyor roller and the stacker conveyor roller. An electric eye securely mounted under the least two transverse conveyors controls the drive interrupter to prevent collisions of stacks of tortillas on the exit conveyor. | ||||||
