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 |
|---|---|---|---|---|---|---|
| 161 | FRONT AND/OR SIDE MOUNT MOTOR | US15475553 | 2017-03-31 | US20170283177A1 | 2017-10-05 | Kamran Ramezani |
| A conveyor system comprising: (a) one or more frames; (b) one or more controllers; (c) one or more motors located within a motor housing; and (d) a plurality or rollers; wherein the motor housing includes one or more internal pockets that receive the motor and the one or more controllers, and the controller is in contact with one or more walls of the motor housing; and wherein the motor housing is directly connected to the frame so that at least one of the one or more walls in contact with the controller are in direct contact with the one or more frames. | ||||||
| 162 | Continuous Conveyor for Transporting Heavy Bulk Materials or Unit Loads | US15285580 | 2016-10-05 | US20170022013A1 | 2017-01-26 | Sepp Lachenmaier |
| A continuous conveyor such as, for example, a conveyor belt for transporting heavy bulk materials or unit loads comprises an endless tractive transport mechanism that revolves between a driving roller and a return roller. The driving roller is driven by a permanently excited multi-pole synchronous motor that delivers a very high torque at a comparatively slow nominal speed. The synchronous motor can drive the driving roller directly or alternatively via a single-stage step-down gear with low reduction factor. The drive is characterized by a mass moment of inertia that is up to 10-times lower than in conventional drive systems. In this way, the risk of damaging or even tearing the belt during disruptions is substantially reduced such that the operational reliability significantly increases. | ||||||
| 163 | CONVEYOR FOR CONTAINERS | US15038178 | 2014-10-31 | US20160280465A1 | 2016-09-29 | Martin Backhaus; Berthold Paroth |
| A multi-track conveyor for transporting containers includes two transport elements adjacent to one another to form a common transport surface on which the containers stand upright on their container bases. Each transport element has a dedicated electric drive motor. The drive motors are external-rotor motors with an internal stator connected in a torsion-resistant manner to a machine frame and with an external rotor, which forms an offset drive driving the respective transport element. The drive motors of at least two transport elements are coaxial with their motor axles oriented perpendicular to the transport direction. The stators of which are connected via a common support in a rotation-resistant manner to the machine frame. | ||||||
| 164 | DRUM MOTORS HAVING A POLYMER BODY SHELL | US15071286 | 2016-03-16 | US20160272433A1 | 2016-09-22 | Brian Scott Schiltz |
| Drum motors for driving a conveyor belt are disclosed. In some embodiments, the drum motors include a shell having a polymer body such as wax-filled cast nylon. | ||||||
| 165 | Conveyor module docking system for a reverse vending machine | US14435008 | 2013-10-30 | US09399555B2 | 2016-07-26 | Brynjar Aarseth Fonnelop; Geir Saether |
| A conveyor module for a reverse vending machine, which is mountable to a docking unit, and includes at least one conveyor belt; a housing for supporting the at least one conveyor belt, and a force receiving element for receiving a driving power for driving the at least one conveyor belt, which force receiving element is accessible from outside of the conveyor module through an opening in the housing. Further, a docking unit for a conveyor module of a reverse vending machine includes a housing, and a force feed element for outputting a driving power to the conveyor module, which force feed element is accessible from outside of the docking unit through an opening in the housing. | ||||||
| 166 | DRIVE FOR A TRANSPORT DEVICE, SET OF DRIVES AND METHOD FOR DRIVING A TRANSPORT DEVICE | US14765752 | 2014-02-03 | US20160046448A1 | 2016-02-18 | Franz Lautenschlager; Hartmut Davidson; Johann Hüttner; Martin Seger; Reiner Kahl; Johannes Vierheilig |
| A drive for a transport device, such as a conveyor belt, the drive including an external rotor motor having a stator and a rotor, and a gear unit having a shaft and an input drive gear. A set of drives in which external rotor motors of different sizes, including stators of identical diameter and different heights with corresponding rotors, and/or gear units having different speed-increasing stages or speed-reducing stages, are provided. Also, a method for driving a transport device using the drive. | ||||||
| 167 | Conveying device with a planar conveying element | US14235222 | 2012-07-19 | US09169072B2 | 2015-10-27 | Jurgen Wehner |
| A conveying device with a revolving, extensively extended conveying member having an upper run section and a lower run section, wherein the conveying member is deflected in two head-end regions that lie opposite one another. The conveying device includes a drive device arranged in a head-end region and having an electric drive motor and a drive shaft coupled thereto. The drive motor includes a motor shaft that leads away from the motor at both sides and that is connected to drive shafts arranged on both sides. The motor shaft and the drive shafts are arranged coaxially, and the drive device is arranged within the conveying device between side limitation devices, the upper run section, and the lower run section and, in the conveying direction is arranged between the two head-ends of the conveying member. | ||||||
| 168 | Motor drive of a gearless belt conveyor drive system | US13896106 | 2013-05-16 | US08960418B2 | 2015-02-24 | Boris Rathmann; Ulf Richter |
| A motor drive for a gearless belt conveyor drive system, which includes a motor base frame, a torque arm mounted on the motor base frame or a conveyor baseplate, a rotationally symmetrical stator of a synchronous motor being fixedly held by the torque arm and a rotationally symmetrical rotor casing containing permanent magnet elements of the rotor of the synchronous motor. The rotor casing is directly mountable on a front end of a cylindrical belt conveyor pulley so that the permanent magnet elements of the rotor rotate around the stator and so that the symmetry axis of the rotor casing and the symmetry axis of the stator are aligned with each other and with a longitudinal axis of the belt conveyor pulley. | ||||||
| 169 | GEAR MOTOR | US14057420 | 2013-10-18 | US20140183997A1 | 2014-07-03 | Mitsuhiro TAMURA; Hiroki AWASHIMA; Hidetaka YAMASHITA |
| A gear motor is provided with a motor, a decelerator, an output shaft of the decelerator coupled to a driven shaft of a driven machine, and a torque arm for preventing rotation of the gear motor around the driven shaft. One end of the torque arm is fixed to the gear motor and the other end is fixed to an installation seat. The torque arm is provided with a damper mechanism. | ||||||
| 170 | MOTOR DRIVE OF A GEARLESS BELT CONVEYOR DRIVE SYSTEM | US13896106 | 2013-05-16 | US20130306443A1 | 2013-11-21 | Boris RATHMANN; Ulf RICHTER |
| A motor drive for a gearless belt conveyor drive system, which includes a motor base frame, a torque arm mounted on the motor base frame or a conveyor baseplate, a rotationally symmetrical stator of a synchronous motor being fixedly held by the torque arm and a rotationally symmetrical rotor casing containing permanent magnet elements of the rotor of the synchronous motor. The rotor casing is directly mountable on a front end of a cylindrical belt conveyor pulley so that the permanent magnet elements of the rotor rotate around the stator and so that the symmetry axis of the rotor casing and the symmetry axis of the stator are aligned with each other and with a longitudinal axis of the belt conveyor pulley. | ||||||
| 171 | DRIVE APPARATUS | US13477689 | 2012-05-22 | US20120298483A1 | 2012-11-29 | Günther Weber |
| The invention relates to a drive apparatus having a coaxial shaft arrangement which includes a plurality of drive shafts which are arranged coaxially to one another at least regionally and whose respective axes of rotation lie on a common rotational drive axis; and an electric drive motor which includes a rotor arrangement which includes a plurality of rotors arranged coaxially to one another at least regionally and/or behind one another, with the axis of rotation of each rotor lying on the common rotational drive axis and forming one of the drive shafts or being connected to one of the drive shafts, wherein the drive motor is controllable such that the rotors can be driven independently of one another. | ||||||
| 172 | Container track for container transport | US12162453 | 2007-01-19 | US08074787B2 | 2011-12-13 | Silvio Grilli |
| The invention relates to a method for the transport of containers, wherein at least one container is driven along on rotating drive units (12) on a transport system, the transport system being built over a long distance such that remote delivery of containers may at least be achieved on a regional scale and a transport system for transporting containers comprising a rectangular frame (1,3), several rotatable drive units (12), fixed to the frame (1,3) perpendicular to the frame (1,3) and parallel to each other, each comprising at least one drive wheel (10) on which a container can be supported and driven, wherein the transport device runs over a long distance such that the remote delivery of containers may at least be achieved on a regional scale. | ||||||
| 173 | Modular conveyor system and method | US12567960 | 2009-09-28 | US08011498B2 | 2011-09-06 | Roger Blaine Trivette |
| A low profile, portable, modular conveyor system is provided. The conveyor system includes three main components: a drive end, having a motor and gearboxes used to drive a pair of drive wheels, a center section, and an idle section comprising a stationary component attached to the center section and a pivoting component allowing the distal portion of the idle end to pivot in a transverse direction. The conveyor system includes means for hydraulically or mechanically adjusting the tension and tracking of the conveyor belt. The drive end may be removed from the conveyor system in a transverse direction relative to the longitudinal direction of the conveyor system. | ||||||
| 174 | Product conveyor with load-carrying platforms | US10567440 | 2004-08-03 | US07588140B2 | 2009-09-15 | Jacobus Marie van den Goor; Hermannus Josephus Arnoldus Bodewes |
| A device for conveying products along an endless conveying path, which device includes a frame, an elongated flexible conveying element supported by the frame, which includes links that are pivotable relative to each other about vertical pivots, load-carrying platforms each having a supporting surface at the upper side, which supporting surfaces jointly form a substantially closed, common supporting surface for the products, which load-carrying platforms are connected to the conveying element via supports and whose supporting surfaces adjoin each other at curved forward and rearward edges thereof, and a drive for driving the conveying element. The drive includes a driving element and the conveying element includes an element driven by the driving element. The driven element forms part of the links of the conveying element. | ||||||
| 175 | Sanitary conveyor center drive assembly | US11426454 | 2006-06-26 | US07383944B2 | 2008-06-10 | Scott M. Hall; Craig J. Bude |
| A conveyor assembly has a continuous conveyor belt driven between a pair of spaced side frame members by a center drive assembly having a pair of spaced side plates connected to the side frame members. A drive roller arrangement is driven by a drive motor arrangement coupled to the drive roller arrangement to move the conveyor belt. A freely rotatable guide roller arrangement is slidably mounted between the side frame members and the side plates between an operating position in which the conveyor belt passes around the guide roller assembly before engaging the drive roller arrangement, and a cleaning position in which the guide roller arrangement is slidably removable away from the side frame members and the side plates and out of engagement with the conveyor belt. The guard structure is retained in the operating position by elongated retaining pins that are pushed into a frictional engagement with the side plates, the guide roller arrangement and the guard structure, and removed to the cleaning position by pulling the retaining pins out of the frictional engagement. Each of the guard structures includes a roller adjustment device that can be selectively operated to adjust the orientation of the guide roller assembly between the spaced side frame members of the conveyor assembly. | ||||||
| 176 | Conveyor drive system and motor built-in reducer therefor | US10321715 | 2002-12-18 | US06817467B2 | 2004-11-16 | Hiroshi Watanabe; Kiyoji Minegishi; Jun Tamenaga |
| A compact conveyor drive system which prevents resonance-induced noise and vibration caused by a polygonal motion observed in transmission gearing. The conveyor belt of the conveyor is driven through a chain trained over a driven sprocket mounted to the shaft of a drum and a drive sprocket on the side of a motor. The drive system is a motor built-in reducer, and a simple planetary roller mechanism is employed for the reducer. This enables the diameter of the sprockets to be made smaller. The motor generates lower vibration, while providing sufficient torque. | ||||||
| 177 | Towing system for sorting machines | US10410353 | 2003-04-10 | US20030217909A1 | 2003-11-27 | Attilio Soldavini; Renato Tacchi |
| A device for towing a train of carriages of a sorting machine includes a pair of wheels driven by respective motors, which wheels engage a blade arranged below the carriages. Each towing wheel is movable toward and away from the blade relative to its respective motor, whereby the inertia of the member that has to be moved in response to a misalignment of the blade is low. | ||||||
| 178 | Pallet conveyor apparatus | US10016554 | 2001-11-01 | US20020040840A1 | 2002-04-11 | Raffaele Becherucci; Gianfranco Stratico |
| A pallet conveyor apparatus for moving pallets, which carry components of a dynamo-electric machine, along and between routes of a manufacturing line is provided. The pallet conveyor apparatus includes a plurality of pallets, at least one substantially horizontal rail structure, at least one loop-shaped conveyor belt, and a drive for causing the conveyor belt to move along an upper track of the rail structure. The conveyor apparatus may be driven with a drive cartridge that fits within the rail structure. A pallet for use with the apparatus has a platform and a seat portion. The platform has an upper surface that supports the component. The seat portion has a substantially inverted nullUnull shape. The seat portion of the rail structure has a central surface and two opposing surfaces. The dimensions of the seat portion and the rail structure are such that when the seat portion fits over the rail structure a pallet will be prevented from falling off the rail structure. | ||||||
| 179 | Driving apparatus for a compact belt conveyer | US689151 | 1996-07-30 | US5871085A | 1999-02-16 | Shigeru Yagi |
| The belt driving device of the present invention has left and right frames (5, 15) which upper ends are connected by a slide bed (16), an endless belt (20) being latched by a head pulley (21) which is disposed on a head end of frames (5, 15) and a tail pulley (21) disposed on a tail end thereof, and an actuator unit (12) of the belt detachably mounted on the frame under side. A drive pulley (30) is disposed in the actuator unit (12) and is supported by a frame body with a rubber spring so as to contact with an outer surface on the return side belt and inner pulleys (23, 24) are disposed on the frame under side at the actuator unit attaching position so as to contact with the return side belt inner surface. The drive pulley (30) is always pressed and energized to the inner pulley side by the rubber spring and the belt supported between the inner pulley and the drive pulley (30) is friction actuated by pressing the drive pulley from the belt outside. The take-up device can be eliminated from the device by pressing the drive pulley to the belt side. | ||||||
| 180 | Compact drive unit for an overhead conveyor system | US949023 | 1992-09-22 | US5335781A | 1994-08-09 | Kozo Miyagawa; Gregory A. Clark |
| The instant invention provides a compact sprocket type drive unit which can be manufactured from reduced number of parts. The invention further provides a method by which multiple drive units for a single conveyor or synchronization between separate conveyors can be achieved without the necessity of costly electrical and mechanical control devices. Because the present invention provides automatically synchronized multiple conveyors, the transfer of work from one conveyor to another can be achieved with vast savings in cost of conveyor design, manufacturing, and installation. | ||||||
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