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 |
|---|---|---|---|---|---|---|
| 221 | Vapor drain system | US35999 | 1993-03-23 | US5346518A | 1994-09-13 | Robert J. Baseman; Charles A. Brown; Benjamin N. Eldridge; Laura B. Rothman; Herman R. Wendt; James T. Yeh; Arthur R. Zingher |
| During wafer fabrication, a transportable enclosure, such as a Standard Manufacturing InterFace (SMIF) pod encloses a nascent product, such as a semiconductor wafer, to protect the wafer against contamination during manufacture, storage or transportation. However chemical vapors emitted inside the pod can accumulate in the air and degrade wafers during subsequent fabrication. In order to absorb the vapors inside a closed pod, a vapor removal element typically including an activated carbon absorber, covered by a particulate-filtering vapor-permeable barrier, and covered by a guard plate with holes is disposed within the enclosure. A vapor removal element is disposed closely adjacent to each respective wafer. Alternatively, a single vapor removal element is located inside the enclosure. In certain instances, a fan or thermo-buoyant circulation causes any vapors located inside the enclosure to a vapor removal element for removal. Alternatively a porous vapor removal element may be disposed for removing vapors from air entering the enclosure. In another embodiment a vapor removal element is integrated with the back face of each wafer. | ||||||
| 222 | Pallet load transfer method and apparatus | US595456 | 1990-10-09 | US5118243A | 1992-06-02 | William J. Huebner; Robin A. Popple; Douglas V. High |
| A frame includes a plate mounted thereon for driving movement along the frame. A captive pallet having a load thereon is staged onto the frame. The plate drives into an edge of the captive pallet thus driving the pallet from beneath the load and shifting the load to the plate. Continued plate movement transfers the load onto a shipping pallet beneath the plate. When the captive pallet includes a slip sheet, a gripping jaw holds the sheet while the plate drives the captive pallet from beneath the sheet thus providing transfer to a shipping pallet, or to the slip sheet only, in which the sides of the load are not touched. | ||||||
| 223 | Unit load transfer device and method | US595127 | 1990-10-09 | US5102282A | 1992-04-07 | Harry B. Maddox |
| An apparatus and method for transferring a unit load from one pallet to another pallet or slip sheet without creasing the containers constituting the unit load. In one embodiment the unit load containing pallet and the empty pallet are aligned side-by-side on a platform. The platform is selectively moveable about an axis parallel to the adjacent sides of the pallets between a horizontal position and a tilted position in which the empty pallet is lowermost. A push plate moveable relative to the platform transfers the unit load onto the empty pallet or slip sheet while the platform is tilted. The force required to transfer the unit load is reduced, when contrasted to horizontal transfer, since the component forces of the unit load are changed by the tilting. | ||||||
| 224 | System for automatically transferring carbon electrodes from a drying palette onto a pitch impregnation palette | US760501 | 1977-01-19 | US4087011A | 1978-05-02 | Toru Taniguchi |
| In order to improve mechanical and electric characteristics of carbon electrodes, they are impregnated with pitch. This impregnation operation can be accomplished at high efficiency by loading a plurality of electrodes on a specific pallet. However, when the carbon electrode-loaded pallet is dipped in an impregnation vessel, pitch adheres to the pallet, and if such pitch-adhering pallet loading fresh carbon electrodes thereon is introduced again into a pre-heating furnace prior to the impregnation operation, the pre-heating furnace is contaminated with pitch and there is a risk of a fire. In order to avoid this disadvantage, there is adopted a method in which different pallets are used for introducing carbon electrodes into the pre-heating furnace and for introducing them into the impregnation vessel, respectively. In this method, the operation of shifting carbon electrodes from one pallet to another pallet is necessary. In this invention, a specific shifting method is adopted for preventing carbon electrodes from being damaged or broken during the shifting operation. | ||||||
| 225 | Gravity feed-return pallet storage rack | US653482 | 1976-01-29 | US4068751A | 1978-01-17 | Victor D. Azzi |
| Rack or platform apparatus for receiving loaded pallets from the rear, forwarding them on one conveyor or trackway for order picking from the front, and then returning empty pallets on another conveyor or trackway for pickup from the rear. | ||||||
| 226 | Pallet-palletizer assembly | US549298 | 1975-02-12 | US3964623A | 1976-06-22 | Gene D. Verhein; Donald Verhein |
| A pallet palletizer apparatus for handling lightweight air cargo containers, the apparatus including a slave pallet and a palletizer. The slave pallet includes a supporting surface for providing maximum contact with the bottom of the containers, enclosed tine ways for receiving the tines of a fork lift truck and pipe rail guards to protect the container overhang from damage. The palletizer includes a plurality of roller assemblies mounted in spaced parallel rows on a frame to allow for seating of the slave pallet in the spaces between the roller assemblies and the palletizer. Pallet guides are provided on the palletizer for aligning the slave pallet and container with the air cargo conveyor system. | ||||||
| 227 | Apparatus of applying skids of grating structure and removing the same | US35160873 | 1973-04-16 | US3883013A | 1975-05-13 | NAKANISHI TARO; TAKAGI KATSUMI; AMETANI TEIJI |
| Storage racks are aligned in horizontal rows and vertical columns along an aisle, each rack having a pair of laterallyspaced horizontal rails. Receiving and discharge stations are located at one end of the line of racks in vertically-spaced relation, and a skid feeder is located laterally adjacent to stations and extends vertically therebetween. Each station has a vertically-displaceable skidder, including a rectangular grid main frame carrying rollers to support a skid, and a secondary frame carrying rollers movable through the openings in the skidder grid to engage, lift and support a cargo item on a grid then supported on the rollers of the main frame.
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| 228 | Drum or barrel palletizer apparatus | US36906873 | 1973-06-11 | US3831782A | 1974-08-27 | WERNTZ C |
| A palletizer for large heavy drums or barrels which avoids the necessity for employing hoist devices by relying on the much simpler handling apparatus for tilting the drums or barrels to an over-center stable position on a track that is slanted sufficiently to cause the drums or barrels to roll from a receiving station to a pallet loading station. Each of the receiving and loading stations is provided with a tiltable portion of the slanted track, and that portion of the track in the loading station is tiltable to return the drums or barrels to an upright normal position.
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| 229 | Load transferring apparatus | US22886072 | 1972-02-24 | US3799370A | 1974-03-26 | SHELL M |
| A device for temporarily supporting a stack of materials handled by fork lift trucks while a fork member thereof is momentarily lowered beneath the load and supporting sleeves or the like are installed on or removed from the fork prongs, or for transfer from one fork lift truck to another. The device has a pair of stabilizers which operate by gravity, the weight of the load, or power to automatically engage the stack of materials placed on the device to support the same in stacked condition or against overturning.
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| 230 | Method for transferring a load from a first support to a second support | US3749263D | 1971-07-02 | US3749263A | 1973-07-31 | FOURY G |
| A load is transferred from a first support to a second support by tensioning a transfer sheet lying between the load and the first support to raise the load from the first support and then a second support is slid under the load to replace the first support prior to releasing the tension on the transfer sheet.
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| 231 | Transloading installation for air freight containers | US3595407D | 1969-01-08 | US3595407A | 1971-07-27 | MULLER-KUHN HELMUT; WALKHOFF KLAUS; LICHTENFORD UWE |
| A crane apparatus and movable pallet means are provided for transfer of airfreight containers through upper and lower intermediate storage and sorting places adjoining a stopped aircraft. A bridge platform is adjustably supported to serve for equalization of height differences with respect to the aircraft and intermediate tracks equipped for shifting the containers longitudinally and transversely of symmetrical roller-equipped halves of intermediate storage and sorting places complementary to rows of containers parallel to the longitudinal axis of the aircraft. Pallet means are transported on underside track air cushions to the intermediate storage and sorting place. A Ushaped crane carriage and holding device are provided including gripping means with an open-bottom carrier frame. Rollers are provided to facilitate on-off movement of containers and including the air cushion on an underside of at least one topside roller-equipped track.
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| 232 | Smooth to coarse-faced pallet transfer | US3499560D | 1968-09-23 | US3499560A | 1970-03-10 | GROS EMILE ALBERT LE |
| 233 | postlewaite | US3123232D | US3123232A | 1964-03-03 | ||
| 234 | Method of handling strip or bar materials | US6423860 | 1960-10-17 | US2992749A | 1961-07-18 | SPILLIOS THEMUS A |
| 235 | Biscuit-stripping mechanism. | US21884218 | 1918-02-23 | US1279563A | 1918-09-24 | LOWELL WALTER E |
| 236 | ピッキング管理システム、およびピッキング管理方法 | JP2017046880 | 2017-03-13 | JP2018150124A | 2018-09-27 | 風間 頼子; 中野 定樹; 野口 大輔 |
| 【課題】 複数のゾーン間での作業進捗を調整する。 【解決手段】 物品を収納する複数の搬送棚DSが配置された倉庫のピッキング管理システム202は、複数の搬送車ACと、管理装置400と、搬送車コントローラWCS−B420とを有する。搬送車ACは、複数の搬送棚DSの各々を搬送する。管理装置400は、物品のピッキングを指示するオーダー情報を管理する。搬送車コントローラWCS−B420は、管理装置400からの指示に基づいて前記搬送車の各々の移動を制御する。搬送車コントローラWCS−B420は、複数の搬送車AC毎に移動可能なゾーンを設定した。 【選択図】 図1 |
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| 237 | 搬送システム | JP2016080412 | 2016-10-13 | JPWO2017098804A1 | 2018-07-26 | 本田 修; 山田 啓二; 小野 大輔; 野沢 高志 |
| 搬送システムは、軌道と、複数の天井搬送車と、保管装置と、運用モードに応じて天井搬送車及びローカル台車の動作を制御する搬送コントローラと、を備える。保管装置は、保管部と、装置ポート及び保管部の間でFOUPを移載可能なローカル台車と、を有する。搬送コントローラは、ローカル台車による装置ポートから保管部への移載動作を禁止する第1のモード、天井搬送車による保管部への移載動作及びローカル台車による保管部から装置ポートへの移載動作を禁止する第2のモード、並びにローカル台車による移載動作を制限しない第3のモードの間で、運用モードを切替可能となっている。 |
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| 238 | 無人搬送車 | JP2017008278 | 2017-01-20 | JP2018115068A | 2018-07-26 | 中川 真人 |
| 【課題】無人搬送車から離れた位置にて無人搬送車に間接的に触れることにより非常停止を可能とする無人搬送車の提供にある。 【解決手段】車体11と、車体11に備えられた走行用駆動部と、車体11に搭載され、走行用駆動部を制御する制御部と、制御部を介さずに走行中の非常停止を可能とする非常停止装置と、を備えたコンテナ用無人搬送車10において、非常停止装置は、車体11の側面に変位可能に設けられ、係止可能な被係止部を備えた可動体32と、可動体32の変位を検知する検知器31と、検知器31による可動体32の変位の検知に基づいて駆動部への電力供給を遮断する開閉器と、を備えた。 【選択図】 図2 |
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| 239 | 環境検出システム及び検出機器 | JP2017124043 | 2017-06-26 | JP2018095475A | 2018-06-21 | 王 錦堂; 林 高慶; 陳 致融 |
| 【課題】環境検出システム及び検出機器を提供する。 【解決手段】本発明に係る検出機器は、検出カートリッジ及び検出装置を含む。検出カートリッジは、倉庫における複数の一時保存フレームのうちの1つ又は充電フレームに設けられる。検出装置は、検出カートリッジ内に取り付けられると共に給電モジュール及び検出モジュールを含む。検出モジュールは、検出カートリッジが所在する位置の環境検出を行い、給電モジュールは、検出機器に作動時の電力を提供する。検出カートリッジが充電フレームに進入した場合、給電モジュールが充電モジュールに対して間隔を置いて設けられると共に、充電モジュールが給電モジュールに対して非接触的に充電を行う。 【選択図】図3 |
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| 240 | 取出装置及び保管装置 | JP2017536685 | 2016-07-19 | JPWO2017033621A1 | 2018-05-24 | 小合 玄己 |
| 取出装置1は、荷120の前方側から荷120の前方部を支持する支持部13と、支持部13を上下方向に移動させることが可能な移動装置140に連結部材142を介して連結される連結部9,11と、連結部9,11を間に挟んで支持部13と反対側に設けられた把持部15,17と、を備える。 | ||||||
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