| 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 | And arthur c | US1728680D | US1728680A | 1929-09-17 | ||
| 162 | Conveyer | US31199419 | 1919-07-19 | US1381328A | 1921-06-14 | MORRISSEY PATRICK W |
| 163 | Drive for conveyers. | US1912692693 | 1912-04-23 | US1032850A | 1912-07-16 | MOUNT WILLIAM D |
| 164 | Grain-auger mechanism. | US1907352120 | 1907-01-14 | US874475A | 1907-12-24 | YOST HENRY P |
| 165 | stuckel | US626108D | US626108A | 1899-05-30 | ||
| 166 | CANTILEVERED SCREW ASSEMBLY WITH SPEED REDUCER AND PIVOTING TORQUE ARM | US15637811 | 2017-06-29 | US20190002205A1 | 2019-01-03 | Mark E. Koenig |
| A cantilevered screw assembly comprising a speed reducer to facilitate rotation of a screw. The speed reducer may be connected to a torque arm that is adapted to control or limit undesired movement (e.g., wobbling, orbital movement, etc.) of the screw during operation. In effect, one exemplary embodiment of a speed reducer may essentially float on a pivoting torque arm (and the shaft of the screw) such that the torque arm is adapted to limit undesired movement of the speed reducer and screw. As a result, an exemplary embodiment may eliminate the need for alternative drive systems or other means to control undesired movement of the screw. An exemplary embodiment may be particularly useful for light or infrequent duty or other small-scale applications to reduce the likelihood of a breakage of a screw or another portion of a cantilevered screw assembly (e.g., the bearing(s) or bearing assembly, the gears, etc.). | ||||||
| 167 | Bin Sweep Auger Unplugging System | US15959759 | 2018-04-23 | US20180244478A1 | 2018-08-30 | Claire M. Rauser; Jory T. Skalsky |
| A bin sweep auger unplugging system for unplugging a central unloading sump in a storage bin. The bin sweep auger unplugging system generally includes an auger having a driven shaft with auger fighting, a drive unit having a drive shaft, and a clutch connected between the drive shaft and the driven shaft. The clutch selectively transfers the rotation of the drive shaft to the driven shaft of the auger. The drive shaft includes a clump breakup component that breaks up the clump of granular material above the unloading sump when the drive shaft is rotated. The clutch is disengaged when breaking up a clump of granular material to prevent the rotation of the auger. | ||||||
| 168 | PRESSURE SEALED HIGH TEMPERATURE ELEVATING CONVEYOR | US15927685 | 2018-03-21 | US20180208400A1 | 2018-07-26 | Richard S. McIntosh; William N. Skelly; Jack Gilchrist |
| A pressure sealed elevating conveyor for non-ambient temperatures having a pressure sealed shroud allowing lifting of a material while in a pressure sealed environment. In some embodiments, the pressure sealed elevating conveyor has structural details that allow the pressure sealed elevating conveyor to be used at very high or very low temperatures. | ||||||
| 169 | Cycloidal wheel drive | US14911699 | 2014-08-13 | US10023406B2 | 2018-07-17 | James A. Klubertanz; Wallace Buege; Bradley Ballweg; Dennis Zolp |
| A wheel assembly and a bin sweep system. The system may include a sweep auger for moving granules, and a wheel assembly including a rim and a tire disposed on the rim, the rim defining an interior radially inward of an inner circumference of the rim, and a cycloidal drive disposed in the interior of the rim. The cycloidal drive may include an input shaft, a drive gear having first gearing features and being eccentrically mounted on the input shaft, a stationary drive plate, and second gearing features coupled to the rim, the first gearing features engaging the second gearing features to drive the rim and wheel at a reduced speed relative to the input shaft. | ||||||
| 170 | Bin sweep and motor coupling assembly | US14737110 | 2015-06-11 | US09975711B2 | 2018-05-22 | Chris Nelson |
| A drive coupling assembly includes a housing having a first wall, a second wall, a first end and a second end. A first aperture extends through the second wall adjacent to the first end and a second aperture extending through the second wall adjacent to the second end. The first aperture receives a motor drive shaft and the second aperture receives a sweep drive shaft. Each of the first and second apertures has one of a pair of sprocket hubs aligned therewith. A pair of drive hubs each has an opening extending therethrough and each opening engages one of the motor or sweep drive shafts. The drive hubs have a plurality of pins thereon extending into corresponding slots in the sprocket hubs. A continuous belt engages the sprocket hubs. The slots each have a length allowing limited rotation of the sprocket hubs with respect to the drive hubs. | ||||||
| 171 | SELF-PROPELLED, MULTIPLE-USE TRANSFER DEVICE WITH FEED SPREADER | US15523779 | 2014-12-03 | US20180054959A1 | 2018-03-01 | Devocir Antônio LIRA |
| “SELF-PROPELLED, MULTI-PURPOSE TRANSFER DEVICE”, as described in the report and in the attached illustrations, is an equipment used in general agriculture and livestock activities to transfer products to another suitable equipment or place, containing the additional function of spreading products in the soil, therefore called self-propelled. The equipment presents as a differential the fact that it brings together multiple functions such as the possibility of transferring and spreading products in the field or in other applications, such as in sandpits. | ||||||
| 172 | Cantilevered screw assembly | US15132479 | 2016-04-19 | US09815636B2 | 2017-11-14 | Mark E. Koenig; Larry E. Koenig |
| A cantilevered screw assembly comprising an improved anchor system. In an exemplary embodiment, a support wall may be formed of a single casting with at least a portion of a bearing housing. An exemplary embodiment of a cantilevered screw assembly may also comprise at least one solid oil bearing to facilitate rotation of the screw. | ||||||
| 173 | Auger transfer conveyor | US15178915 | 2016-06-10 | US09643787B1 | 2017-05-09 | Jonathan Robert Carteri; Chance Peutert |
| An auger transfer conveyor apparatus for granular material has a conveyor body defined by side walls, a front wall, and a floor comprising a substantially horizontally oriented front floor section and an upward and rearward sloping rear floor section. A plurality of substantially parallel auger assemblies are provided, each with a substantially horizontal auger section extending along the front floor section, an inclined auger section extending along the sloping rear floor section to a transfer discharge at a top edge of the rear floor section, and a flexible joint connecting the horizontal auger section to the inclined auger section. The auger assemblies are open such that during operation granular material moves from the front wall toward the transfer discharge above and between the auger assemblies, and an auger drive is operative to rotate the auger assemblies. | ||||||
| 174 | Drive apparatus | US14493698 | 2014-09-23 | US09199798B2 | 2015-12-01 | Masahiko Mizuno |
| The first gear is fixed to a conveyance screw. The second gear is arranged in tandem with the first gear. The third gear meshes with the first gear and the second gear. The first support member supports the first gear to enable movement in one radial direction. The second support member supports the second gear to disable movement in the radial direction. The number of teeth of the first gear and that of the second gear are different. In the first gear, a first cam unit is formed. In the second gear, a second cam unit is formed. The both cam units converts a circumferential relative displacement, generated along with rotation of the third gear, between the first and second gears is converted into a displacement in the one direction of the first gear, in a predetermined period in accordance with the number of rotations of the third gear. | ||||||
| 175 | Rescue auger | US14483519 | 2014-09-11 | US09139372B2 | 2015-09-22 | John Ziebell |
| A rescue auger has a transport tube that is approximately five feet long with a spout having an angled portion that is disposed on top of the transport tube to direct grain out from the transport tube. An auger is located within the transport tube to direct grain up and out towards the spout when rotated. An electric drill is used to operate the rescue auger by attaching the drill to a triangle shank on an exposed portion of the auger shank. An intake guard surrounds a lower portion of the transport tube and has a diameter a little larger than the diameter of the transport tube. A handle is located on a portion of the spout and allows a user to position and hold the rescue auger during use. The rescue auger is used in conjunction with a rescue tube which is first placed around the trapped victim. | ||||||
| 176 | Agricultural conveyor with carriage roller attachment | US13845259 | 2013-03-18 | US09096385B2 | 2015-08-04 | Terry Douglas Houssian; Bradley Metro Zazula |
| In an agricultural conveyor, an auger housing is formed of modular tube sections and an inline drive assembly for driving rotation of the auger member relative to the auger housing which is connected in series between the modular tube sections. The auger housing is supported on an adjustable carriage frame for transport. The auger housing is supported on a portion of the carriage frame by a roller assembly having rollers engaging diametrically opposed top and bottom sides of the auger housing for rolling movement along the auger housing. The connection between at least one adjacent pair of modular tube sections is arranged to allow the roller assembly to roll across the connection along the length of the assembled auger housing. | ||||||
| 177 | Conveying device for heterogeneous, sensitive foods that cannot be pumped and have a low liquid content | US14128148 | 2012-07-04 | US09073700B2 | 2015-07-07 | Eric Kerschbaumer |
| For the conveying device for heterogeneous, sensitive foods that cannot be pumped and have a low liquid content, e.g., Asian noodle or rice dishes, a screw conveyor, which is designed as a hollow worm, is rotated by means of a drive motor. The drive motor is connected to the screw conveyor by a bearing flange and a connecting bolt. The screw conveyor is partially hollow and has radial spikes. | ||||||
| 178 | Combine harvester grain bulk tank unloading system | US13418499 | 2012-03-13 | US09033643B1 | 2015-05-19 | Ronald J. Kile |
| A combine harvester grain bulk tank and grain unloading system includes opposed bulk tank augers and an unloading auger formed in a grain bulk tank of a combine harvester. The bulk tank augers are for receiving and conveying grain through the bulk tank to the unloading auger, and the unloading auger is for receiving grain from the bulk tank augers and conveying grain to a grain unloading spout for grain unloading. A primary drive gear is coupled to the unloading auger and to an input, a secondary drive gear is drivingly coupled to the bulk tank augers, and a clutch is coupled between the primary drive gear and the secondary drive gear, which is movable between an engaged position for transferring power from the input to the unloading auger and to the bulk tank augers, and a disengaged position for isolating the bulk tank augers from the primary drive gear. | ||||||
| 179 | DRIVE APPARATUS | US14493698 | 2014-09-23 | US20150096868A1 | 2015-04-09 | Masahiko MIZUNO |
| The first gear is fixed to a conveyance screw. The second gear is arranged in tandem with the first gear. The third gear meshes with the first gear and the second gear. The first support member supports the first gear to enable movement in one radial direction. The second support member supports the second gear to disable movement in the radial direction. The number of teeth of the first gear and that of the second gear are different. In the first gear, a first cam unit is formed. In the second gear, a second cam unit is formed. The both cam units converts a circumferential relative displacement, generated along with rotation of the third gear, between the first and second gears is converted into a displacement in the one direction of the first gear, in a predetermined period in accordance with the number of rotations of the third gear. | ||||||
| 180 | CONVEYOR SCREW FOR A MATERIAL CONVEYOR SYSTEM OF A CONSTRUCTION MACHINE | US14186354 | 2014-02-21 | US20140238826A1 | 2014-08-28 | Arthur BRAUN |
| The disclosure relates to a conveyor screw for a material conveyor system of a construction machine. The conveyor screw comprises a conveyor section which is configured to convey bulk material, and a driving section which is designed to receive a driving torque or a driving force and to transmit it to the conveyor section. The disclosure is characterized in that the conveyor section and the driving section are connected to each other by friction welding. | ||||||
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