序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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181 | Conveying and storage systems | US756050 | 1991-09-06 | US5253745A | 1993-10-19 | Hugo van den Bergh; John Hayes |
A product-carrying tray 1 has longitudinally slotted end members 3 for sliding engagement on guide rails in a conveyor installation or storage unit. Transverse edges 2 of the tray are provided with coupling members 5 for interengagement with other like units also accommodated on the guide rails. In the illustrated embodiment, the coupling members 5 are defined by interengaging hook structures consisting of projecting portions 7 and laterally extending end portions 6. The tray of the invention is especially suited to accommodating food products within a storage or treatment chamber. The tray may however also serve as a product-carrying element in a conveyor installation. Apart from the hook-type interconnection illustrated, a multiplicity of other interconnecting arrangements may be provided, including, inter alia, alternative mechanical structures and magnetic coupling. | ||||||
182 | Overlapping flat surface transport carrier conveyor | US618984 | 1990-11-28 | US5064054A | 1991-11-12 | Kurt H. Hoppmann; Philip S. Anderson |
An endless conveyor for moving material from a first position to a second position comprises a guide which includes a first and second track spaced apart a predetermined distance for defining a path of travel. A plurality of substantially flat surface transport carriers are positioned in a side-by-side relationship. Each substantially flat surface transport carrier includes a first end disposed adjacent to a first track and a second end disposed adjacent to a second track. A drive member engages and pushes each individual substantially flat surface transport carrier and imparts movement thereto along the path of travel defined by the guide. | ||||||
183 | Device for adjusting a set of workpiece mounts in defined working positions | US174607 | 1988-03-29 | US4802565A | 1989-02-07 | Bernd Berberich; Holger Reinhold |
This invention concerns a device for continuous adjustment of a set of workpiece mounts from a number of such mounts in defined work positions whereby the workpiece mounts are arranged with a certain spacing on an endless conveyor device that moves in rotation by increments such that the spacing corresponds to the length of one increment of movement of the conveyor device. Through additional simple adjustment means, the effect is acheived that the set of workpiece mounts in the working position can be adjusted to spacing that differ from the length of one increment of conveyor movement. Then the ork positions thus set are always maintained again in revolution of the endless conveyor device. | ||||||
184 | Plant for sorting items, with self driven carriages | US738769 | 1985-05-29 | US4712965A | 1987-12-15 | Francesco Canziani |
A conveyor system or plant has linked carriages including at least one driver carriage which has a motor unit for moving the linked carriages along a rail path. The rail path has a pair of side rails on which freely-rotatable wheels of the carriages run and a central rail upon which the motor unit of the drive carriage acts. Power for the motor unit is taken, through sliding contacts, from feed rods along the path. | ||||||
185 | Sterilizing system for filled and sealed articles | US413254 | 1982-08-31 | US4525978A | 1985-07-02 | Masao Hayase; Yozo Araki |
An improved sterilizing system for filled and sealed articles which are treated by way of the steps of filling a content into packing means and sealing the filled articles in a filling and sealing station, loading a tray with the filled and sealed articles, building up a tray stack including a predetermined number of loaded trays stacked thereon, sterilizing the tray stacks in a sterilizer and then conveying them to a packing station, wherein the improvement consists in an arrangement of a combination of a tray stack building station for building up a tray stack including a predetermined number of empty trays recovered after the filled and sealed articles are released toward the packing station, a tray stack holding conveyor for holding a plurality of tray stacks built up in said tray stack building station and a tray extracting station in which the empty trays are extracted from the tray stack conveyed from said tray stack holding conveyor one by one and then they are delivered toward the filling and sealing station. The sterilizing system further includes a tray stack holding conveyor having an ample holding capacity, said tray stack holding conveyor being located downstream of the sterilizer. The sterilizing system may be provided with an additional line of conveyance system including a sterilizer which is arranged in parallel to the aforesaid line of conveyance system including the sterilizer. | ||||||
186 | Pallet magazine | US281525 | 1981-07-08 | US4442935A | 1984-04-17 | Hans Gregg |
A pallet magazine for transporting workpieces from a loading station to an unloading station, and possibly past a working station, has two parallel, endless conveyor chain loops supported on and driven by spaced pairs of sprocket wheels having horizontal axes. A plurality of pallets for carrying the workpieces are adapted to rest slidably on the upper sections of the chains and to hang freely from the lower sections of the chains. A further sprocket wheel is provided between the sprocket wheels of each said pair thereof, and a rack adapted to engage the further sprocket wheels is provided on the underside of each pallet. Each pallet has lateral guide rollers with horizontal axes which engage semicircular guide members provided adjacent the sprocket wheels. A guide rail extends between the further sprocket wheels and is received between spaced guide projections provided on the pallet racks. | ||||||
187 | Cam and lever based sample transport | US792779 | 1977-05-02 | US4141444A | 1979-02-27 | Gerardus H. Kulberg; Jakob Feiken; Siebe A. Freek |
A sample transport mechanism is disclosed for conveying test tube samples in an endless path to and then away from a test station. The samples are removably inserted into elongated test tube supports arrayed upon a table in two rows and moveable in a rectangular path. Underlying the table is a plate generally coextensive therewith and having brackets mounting pins projecting above the margin of the table above and below the rows. The sample supports have parallel grooves in their bottom surfaces transverse to the longitudinal axis of the supports, and into which the pins may engage. The plate also has two openings, one square and the other rectangular, and into which are engaged cams. The cams when rotated move the plate in a rectangular path with respect to the table. The spacing of the pin and slots is such that the pins normally engage two diagonally opposite corner trays and move them longitudinally toward the next row by the incremental distance separating two adjacent samples. When both such trays are moved completely to the next row, the pin-slot spacing is then such that the pins engage a non-slotted portion of the sample carriers, thereby moving them laterally and positioning subsequent sample carriers for incremental longitudinal movement to repeat the cycle. | ||||||
188 | Sintering machine | US49713174 | 1974-08-12 | US3918894A | 1975-11-11 | STANKE WALTER; MERTENS GOTTFRIED |
An elongated travelling grate is carried by a Support arrangement which has two transversely spaced rail units supporting the grate for movement along an endless path defined by two upper rail unit portions each having a discharge end, two lower rail unit portions each having a discharge end, two lower rail unit portions, and two at least partly curved connecting portions each of which connects one of the upper and one of the lower rail unit portions at the respective discharge end. Hydraulic pistons or the like engage the connecting portions in the region where the same join with the lower rail unit portions, so as to effect limited displacement of the connecting portions longitudinally of the grate relative to the upper and lower rail unit portions. A buffer arrangement engages the connecting portions intermediate the upper and lower rail unit portions.
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189 | Automatic foundry system | US31742872 | 1972-12-21 | US3821978A | 1974-07-02 | KAUFFMAN J |
An automatic foundry system comprises a plurality of mold pallet lines directed to discharge onto a common shakeout conveyor for carrying castings to a shakeout unit for separating the castings and molding sand. Each mold pallet line comprises a track, a plurality of pallet carts movable between a molding station at one end of the track mold and a dumping station at the other end adjacent the shakeout conveyor. The mold dumping stations include a gate mechanism, a mold dumping device for dumping the molds from the pallet carts onto the shakeout conveyor and initiating the return of the carts to the molding station. Control means is provided for initiating a sequential dumping of a selected number of carts from one or more selected pallet lines before carts from separate or different pallet lines may be dumped. Accordingly, different castings from different lines are not generally intermixed and the requirement of additional sorting operations after shakeout is completed is reduced.
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190 | Conveying apparatus | US597837D | US597837A | 1898-01-25 | ||
191 | CONVEYING DEVICE, CARRIER, AND FEEDING DEVICE FOR CONVEYING BULK GOODS | PCT/EP2013060046 | 2013-05-15 | WO2013171265A8 | 2015-01-29 | KAMPS ROLF |
The conveying device (1) according to the invention has a conveying channel (4). The conveying channel (4) is formed in particular as a conveying pipe (5). At least one carrier (2) is arranged in the conveying channel (4). In particular, at least two carriers (2) are arranged in the conveying channel (4). The conveying device (1) has at least one drive for driving the at least one carrier (2) in order to convey bulk goods along a conveying channel axis. The at least one carrier (2) is loosely arranged in the conveying channel (4) at least in some sections along the conveying channel axis. | ||||||
192 | CONVEYOR DEVICE FOR TRANSPORTING GOODS WHICH ARE TO BE CONVEYED, ESPECIALLY IN A SUSPENSORY MANNER | PCT/EP0308718 | 2003-08-06 | WO2004020317A3 | 2004-05-13 | BEYER ROLF PETER |
The invention relates to a conveyor device, especially a suspensory conveyor device, for transporting goods which are to be conveyed to conveyor devices which can be driven along a conveyor system by means of a drive device (30). The drive system (30) comprises at least one rotational push element (32) system comprising a plurality of push elements (34) which rotate in a continuous manner one after the other. Said push elements are driven by means of at least one propulsion unit in a rotational direction such that the thrust of one push element is transmitted to another push element and such that the conveyor can be detachably engaged with the drive thereof along at least one part of the conveyor system. The push elements (34) may be formed by rollers which roll in onto each other in an opposite direction between two guiding paths (36) and are alternatively guided in a rolling manner on respectively one of the guiding paths (36). | ||||||
193 | INTEGRATED CONVEYOR SYSTEM FOR MOVING LOADS, IN PARTICULAR VEHICLES, ALONG A PRODUCTION LINE | PCT/IT0200821 | 2002-12-23 | WO03055774A8 | 2004-04-08 | BELLEZZA MASSIMO |
The integrated conveyor system has a number of independent powered modules (11), each having a pair of rails (2, 3), and a powered belt (4) stretched in the transverse space defined between the pair of rails and forming a continuous support and guide structure and along which run a number of trucks are moved by the belt of each module along the rails. The conveyor system also includes a number of modules having no powered belt, a push module (116) having a powered belt and a brake module (11c) having a nonpowered belt; the trucks having stop means for forming, a train of mutually contacting trucks between the push module and the brake module, and pushed by the powered belt of the push module. | ||||||
194 | SYSTEM AND METHOD FOR FEEDING OF RETURNABLE CONTAINERS | PCT/SE9900638 | 1999-04-21 | WO9955606A8 | 2000-03-09 | OLSON ROY |
Collecting system for packagings (18), preferably returnable packagings, comprising a feeding-in device (10) for the packagings, which feeding-in device is arranged at a first location, an automatic transport device being arranged to automatically transport the packagings from said feeding-in device (10), in a transport canal (12), to a demolition and/or collecting device (14, 16) which is arranged at a second location, said second location being situated at some distance from said first location. | ||||||
195 | カムユニット、及び、搬送装置 | JP2016096937 | 2016-05-13 | JP2017202926A | 2017-11-16 | 加藤 寿尚 |
【課題】多様な搬送を実現可能なカムユニットを提供する。 【解決手段】搬送対象物が設置される複数のキャリアが、第一キャリアの組と第二キャリアの組とが交互に並んだ状態で、非連結状態で移動する移動路に対応して設けられ、係合溝を備えた円筒カムと、円筒カムを駆動するための駆動源とを有し、第一キャリアのみが係合可能な係合溝を備えた第一円筒カム及び第二キャリアのみが係合可能な係合溝を備えた第二円筒カムを有し、第一円筒カム及び第二円筒カムの係合溝は螺旋状の溝であり、第一溝部と、該第一溝部と連続しかつ該第一溝部よりも搬送方向下流側に位置し、第一溝部のピッチとは異なるピッチを有する第二溝部とを備え、第一円筒カムが回転することで複数個の第一キャリアの組が前記第一溝部を越えて前記第二溝部に至ることにより、第一キャリアの間隔が変更された際に、第二円筒カムは回転して第一溝部に至った第二キャリアを移動させる。 【選択図】図1 |
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196 | 送りスクリュー装置を備える物品を処理するための設備 | JP2015526984 | 2013-08-14 | JP6140287B2 | 2017-05-31 | ジャッキー ブルーニー |
197 | 容器充填装置 | JP2012118630 | 2012-05-24 | JP6005996B2 | 2016-10-12 | マルティン ユンク |
198 | 閉ループ軌道上でキャリッジ速度を変更する方法および装置 | JP2015558567 | 2014-01-28 | JP2016515078A | 2016-05-26 | ギロー,エフド; グリンシュパン,アダム,アイ.; メラメッド,リューヴェン; イフラー,アリエ; ドーバー,トーマス,コリン |
閉ループ軌道(10)に沿って移動しているキャリッジ(15)の異なった通行速度を管理するための方法および装置が開示される。閉ループ軌道は、低速ゾーン(11)、高速ゾーン(12)、加速ゾーン(13、14)、および減速ゾーン(14、13)を含む、少なくとも4つの異なった速度ゾーン(11、12、13、14)を有する。コンピュータ制御システム(17)は、閉ループ軌道の異なった速度ゾーンに沿ってキャリッジの移動を監視および制御するので、異なった通行速度は、衝突なく、同時に、閉ループ軌道に沿って維持される。【選択図】図1 | ||||||
199 | 組立作業用コンベア装置 | JP2011154448 | 2011-07-13 | JP5655728B2 | 2015-01-21 | 仁 大久保 |
200 | Conveyor equipment | JP2010198391 | 2010-09-03 | JP5244874B2 | 2013-07-24 | 晃男 小野; 充啓 原田; 大樹 村尾 |