| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 181 | Article transfer device, and packaging device and weighing device equipped therewith | US12160832 | 2007-06-05 | US07861498B2 | 2011-01-04 | Yukio Sugioka; Shinichi Fujita; Tadashi Matsugi; Masahiro Hasegawa |
| When the articles dropping from above are received inside a hopper, at least a bottom portion of the hopper is allowed to move downwardly with the bottom portion of the hopper being closed. Therefore, the collision speed between the articles and the bottom portion of the hopper is reduced. In addition, by opening the bottom portion of the hopper while moving the bottom portion downwardly, the downward initial speed is added to the articles to be discharged. | ||||||
| 182 | ARTICLE TRANSFER DEVICE, AND PACKAGING DEVICE AND WEIGHING DEVICE EQUIPPED THEREWITH | US12160832 | 2007-06-05 | US20100223886A1 | 2010-09-09 | Yukio Sugioka; Shinichi Fujita; Tadashi Matsugi; Masahiro Hasegawa |
| When the articles dropping from above are received inside a hopper, at least a bottom portion of the hopper is allowed to move downwardly with the bottom portion of the hopper being closed. Therefore, the collision speed between the articles and the bottom portion of the hopper is reduced. In addition, by opening the bottom portion of the hopper while moving the bottom portion downwardly, the downward initial speed is added to the articles to be discharged. | ||||||
| 183 | Device to load a sintering boat with nuclear fuel pellets and loading method using said device | US12084013 | 2006-10-20 | US07779615B2 | 2010-08-24 | Jean-Luc Pandraud; Herve Sanchis |
| Device to load a sintering boat with nuclear fuel pellets, comprising a loading chute (2) delimiting a travel pathway (4) for the pellets, the loading chute comprising an upper end (8) intended to receive pellets and a lower end (12) intended to lie close to a sintering boat, said loading chute (2) comprising gates (18, 20, 22) forming an obstacle in the pathway of the pellets so as to fractionate said pathway, said gates (18, 20, 22) able to be actuated alternately, and the lower end (12) of the loading chute being movable so that it can be drawn close to and away from a bottom part of the sintering boat.A further subject-matter of the present invention is a method to load a sintering boat with nuclear fuel pellets, using a device according to the present invention. | ||||||
| 184 | Vertical conveyor in a commissioning system for vertically conveying goods that are to be transported | US11815816 | 2006-02-11 | US07748519B2 | 2010-07-06 | Karl Freudelsperger |
| A vertical conveyor (1) is provided in a commissioning system for vertically conveying piece good-type conveying materials of a commissioning order from an upper transfer point (2) to a lower transfer point (3) of the commissioning system. The conveyor includes a vertically oriented receiving device which supports the conveying materials and is open towards the bottom. The receiving device is provided through which conveying material that has been accommodated in the open state falls down into a closest bottom vertically oriented receiving device and/or onto the lower transfer point (3). The receiving device is embodied in the form of a tray or shell between the transfer points (2, 3). The shell can be opened on the bottom side and encompasses two vertical tilting walls (9, 9′) that face each other and can be opened on the bottom side or two horizontal slides (25, 25′) which face each other and can be opened on the bottom side as an opening mouth. The two pivotable vertical tilting walls (9, 9′), whose swivel pins can be vertically adjusted in vertical guide rails (12, 13), or the two horizontal slides (25, 25′) are laterally guided in horizontal guide rails (11 or 26) in the area of the opening mouth of the tray (4, 4′) located on the bottom side. | ||||||
| 185 | Method and apparatus for loading catalyst | US11377798 | 2006-03-16 | US07712490B2 | 2010-05-11 | Stephen Brennom |
| Methods and apparatus prevent breakage of a catalyst particle and evenly fill the catalyst into tubes to an optimum density. A loading tool comprises a plurality of damper members extending from a centerline of the tube in at least one radial direction but in every case, having a diameter smaller than the inner diameter of the tube. For example, in one embodiment the damper members are shaped in a “Z”-like formation with each having a different rotational orientation than the adjacent one above or below it. The Z formations can be horizontally arranged along a central member or can be formed vertically in a unitary fashion from a single, stiffened member. In another embodiment, the dampers are formed into spiral or helical shapes that increase or decrease in diameter along the length of the tube. | ||||||
| 186 | APPARATUSES AND METHODS FOR BULK DISPENSING | US12605061 | 2009-10-23 | US20100108711A1 | 2010-05-06 | Gary W. Wietgrefe |
| Apparatuses and methods relating to hoppers and the dispensing of bulk therefrom are provided. The hopper can include hopper walls that form a product storage receptacle. The hopper can also include a hopper door that includes a frame and a slide gate disposed within the frame. The slide gate is retractable between an open position and a closed position. A set of fingers projects from the slide gate to dislodge material proximate to the hopper door. Further, a port can be provided through at least one of the fingers of the set of fingers with the port configured to inject a fluid into the hopper. | ||||||
| 187 | Device to Load a Sintering Boat with Nuclear Fuel Pellets and Loading Method Using Said Device | US12084013 | 2006-10-20 | US20090142177A1 | 2009-06-04 | Jean-Luc Pandraud; Herve Sanchis |
| Device to load a sintering boat with nuclear fuel pellets, comprising a loading chute (2) delimiting a travel pathway (4) for the pellets, the loading chute comprising an upper end (8) intended to receive pellets and a lower end (12) intended to lie close to a sintering boat, said loading chute (2) comprising gates (18, 20, 22) forming an obstacle in the pathway of the pellets so as to fractionate said pathway, said gates (18, 20, 22) able to be actuated alternately, and the lower end (12) of the loading chute being movable so that it can be drawn close to and away from a bottom part of the sintering boat.A further subject-matter of the present invention is a method to load a sintering boat with nuclear fuel pellets, using a device according to the present invention. | ||||||
| 188 | METHOD FOR TRANSPORTING A PARTICULATE MATERIAL AND A TRANSPORTATION DEVICE FOR A PARTICULATE MATERIAL | US11995662 | 2006-07-13 | US20090050446A1 | 2009-02-26 | Mike Cliff; Rainer Klumpp; Klaus Schuhmacher |
| In a first aspect the invention relates to a method for transporting a particulate material from a container, down a chute (2) to a subsequent process step, in order to overcome a vertical distance. Furthermore, the method comprises the steps of, providing a head (11) in the chute (2), which head is movable in the axial direction of the chute, moving the head (11) to the upper part of the chute (2), charging said particulate material onto the top of the head (2), lowering the head (11) to the lower part of the chute (2), and opening a passage (26) through the head (11) to the subsequent process step in order to let the particulate material there through. The invention also relates to a transportation device for carrying out said method. | ||||||
| 189 | PROCESS AND CENTRAL BELT AUTOMATIC UNIT FOR FILLING AN ORDER CONTAINER IN A COMMISSIONING SYSTEM | US12278466 | 2007-02-13 | US20090026017A1 | 2009-01-29 | Karl Freudelsperger |
| A method and a central-belt machine are provided for filling an order container. The central-belt machine includes two central belt provided with articles along a virtual window of an order, and the articles being discharged to the order container at a filling point at the front longitudinal end (V) of the central belt. The two central belts (1, 2) of the central-belt machine, are arranged vertically one above the other, to fill the order container (3), for an order, by at least one interposed vertical conveyor (4) at a single filling point (P) of the lower central belt (2). | ||||||
| 190 | TRANSPORT SYSTEM FOR FRUIT AND LIKE OBJECTS | US12055209 | 2008-03-25 | US20080279640A1 | 2008-11-13 | Vincent E. Bryan, JR.; Alex E. Kunzler; Joseph A. Penaranda; Jeffrey A. Cleveringa; Randy Allard; Daniel Baker; Vincent E. Bryan, III |
| A device for transporting articles is disclosed. In the illustrated and described embodiment of the invention, the articles are fruit such as apples, and the articles can be transported from a picking location on a fruit tree to a collection bin or other site. The device includes a tube member adapted to receive and transport the articles, and a plurality of deformable baffles at spaced-apart locations within the tube. Each baffle defines an aperture which permits the article to engage and deform the baffle and aperture so as to move through the aperture and down the tube. The article is urged through the tube by a pressure differential created across the article. In the described and illustrated embodiment of the invention, this pressure differential is a pneumatic pressure differential. | ||||||
| 191 | Vertical Conveyor in a Commissioning System for Vertically Conveying Goods that are to be Transported | US11815816 | 2006-02-11 | US20080257686A1 | 2008-10-23 | Karl Freudelsperger |
| A vertical conveyor (1) is provided in a commissioning system for vertically conveying piece good-type conveying materials of a commissioning order from an upper transfer point (2) to a lower transfer point (3) of the commissioning system. The conveyor includes a vertically oriented receiving device which supports the conveying materials and is open towards the bottom. The receiving device is provided through which conveying material that has been accommodated in the open state falls down into a closest bottom vertically oriented receiving device and/or onto the lower transfer point (3). The receiving device is embodied in the form of a tray or shell between the transfer points (2, 3). The shell can be opened on the bottom side and encompasses two vertical tilting walls (9, 9′) that face each other and can be opened on the bottom side or two horizontal slides (25, 25′) which face each other and can be opened on the bottom side as an opening mouth. The two pivotable vertical tilting walls (9, 9′), whose swivel pins can be vertically adjusted in vertical guide rails (12, 13), or the two horizontal slides (25, 25′) are laterally guided in horizontal guide rails (11 or 26) in the area of the opening mouth of the tray (4, 4′) located on the bottom side. | ||||||
| 192 | Method and apparatus for loading catalyst | US10554065 | 2004-04-21 | US20070084519A1 | 2007-04-19 | Stephen Brennom |
| Methods and apparatus are disclosed for filling solid particles into a vertical tube by conveying the particles downwardly into the tube along a loading tool that softens the fall of the particles and provides even filling of the tube. The loading tool includes a center member and a plurality of damper members that can be adapted in particular cases to the actual type of particles and the tube diameter. The damper members can be stiff or flexible since they do not occupy a substantial portion of the cross section of the tube at any particular axial location. In operation, the center member can be jerked during the filling operation while simultaneously being lifted up gradually as the tube fills or it can be sequentially lifted. The damper members reduce the falling velocity of the particles and divert the particles from falling in straight downward paths. This avoids bridge formation and breakage of the particles during filling. | ||||||
| 193 | Method for filling a vertical tube with catalyst particles | US10568613 | 2004-08-17 | US20060233631A1 | 2006-10-19 | Volker Diehl; Steffen Rissel; Silke Berndt; Mark Duda; Knut Eger; Markus Holzle; Veron Nsunda |
| A method of charging a vertical tube having an internal diameter of 50 mm or less with catalyst particles, which comprises introducing a filling aid into the vertical tube, where the filling aid comprises a flexible elongated body and the ratio of the cross section of the flexible elongated body to the cross section of the tube is from 0.003 to 0.08, and introducing the catalyst particles into the tube. | ||||||
| 194 | Apparatus for transferring flowable material | US10506850 | 2003-03-06 | US07077261B2 | 2006-07-18 | Charles Lee |
| The invention related to apparatus for transferring flowable particulate material such as dry tablets, for example pharmaceutical tablets, from one station to another. The apparatus comprises a carrier for the tablets, and means externally of the carrier for moving the carrier between stations, the arrangement being such that the carrier and the means are not connected mechanically for movement of the carrier. | ||||||
| 195 | Method, apparatus and system for delivering dry bulk free-flowing material into a container | US10063758 | 2002-05-10 | US06691852B1 | 2004-02-17 | Karl W. Nolin |
| A system and method for changing a flow rate and direction of dry bulk material supplied from an elevated source via an angled spout to an adjustable spout end having an oversized input sleeve with internal baffles therein. | ||||||
| 196 | Self cleaning cushion box for spouting, which transfers products by gravity from one position to a second position | US09972149 | 2001-10-05 | US06471100B1 | 2002-10-29 | Clayton S. Ellsworth |
| A cushion box for adjustably cushioning particulate material in a spouting arrangement includes a hollow tubular housing with an outlet opening disposed below an inlet opening, and a movable baffle disposed in the housing. | ||||||
| 197 | Silo for storing and controlled supply of empty light containers, and method for using such silo | US09762883 | 2001-04-06 | US06457610B1 | 2002-10-01 | Jaime Marti-Sala |
| A silo bin is adapted for receiving lightweight articles such as empty bottles. The floor of each chamber has a selectively operable shutter or aperture allowing the lightweight articles to be released into the next lowest bin such that the articles are not crushed by their own weight. The height of each chamber is predetermined so that the lightweight articles will not be damaged when piled in a heap in each chamber. A conveyor may be provided beneath the silo bin for carrying away discharged containers. | ||||||
| 198 | Apparatus and method for loading agricultural material | US09005652 | 1998-01-12 | US06186730B1 | 2001-02-13 | Justin Place |
| There is provided an apparatus and method for reduced impact loading of impact sensitive materials, such as agricultural seed material, into a bin from above. The loading apparatus includes a door selectively movable between a lower position and an upper position. A guide mounts the door at the bin and provides a predetermined path between the lower and upper positions for the door. A drive is used to selectively vary the position of the door along the path in response to accumulation of material loaded from above. The door is first moved to the lower position for initial loading. A material dispenser having a discharge end is extended through an access opening in the bin at the door for initial loading of material therein. As material accumulates in the bin during loading, the discharge end is selectively raised in the access opening to maintain it within a predetermined distance range above such material. The door is also selectively raised to varying positions above the lower position to cover the access opening as material accumulates in the bin. | ||||||
| 199 | Device for transferring a bar from a supporting surface into the guiding channel of a bar feeder | US124748 | 1998-07-29 | US6012893A | 2000-01-11 | Andrea Drei; Enrico Nenni |
| A device for transferring a bar from an inclined supporting surface into the guiding channel of a bar feeder, comprising multiple elements which are articulated below the supporting surface, each element being composed of a bar abutment and follower lever, which is actuated so as to oscillate between a position in which it abuts against the bar arriving from the chute and a position for depositing the bar in the guiding channel, and of a bar supporting lever, which is operatively associated with the abutment lever and forms, together with the lever, a slot for receiving the bar which arrives from the supporting surface; the supporting lever is operatively associated with the abutment lever so that it oscillates in a manner in which it surpasses the abutment lever during rotation from the bar receiving position to the position for depositing the bar in the guiding channel. | ||||||
| 200 | Parts distribution apparatus | US258558 | 1999-02-26 | US5971690A | 1999-10-26 | George Steven Whitten |
| A parts distribution apparatus having a funnel hopper to receive parts dropped from above and a flexible distribution chute to deliver parts through a discharge opening into a storage hopper, where said distribution chute is rotated to vary the discharge location, with the distribution chute being pulled across the top surface of the pile of parts deposited within the storage hopper so that the discharge opening remains on the top surface regardless of the height of the top surface within the storage hopper. | ||||||
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