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 |
|---|---|---|---|---|---|---|
| 61 | Pallet changing apparatus | US583926 | 1996-01-11 | US5582499A | 1996-12-10 | Gary L. White |
| Apparatus for changing a load support by a first pallet to a second pallet comprises a stop member rigidly mounted on a floor surface, the stop member having an opening at a lower end sufficient for the pallet to slide under the stop member and having an abutting surface above the opening for engaging a side of the load on the first pallet. The first pallet has a rear edge facing the stop member opening and a front edge on an opposite side facing away from the stop member. A spacer member fits under the front edge of the first pallet to raise the front edge of the first pallet above the level of the second pallet, the spacer member being moveable inwardly toward the stop member along with the first pallet. When the second pallet is placed against the front edge of the first pallet and is slid toward the stop member while being positioned against the first pallet, the first pallet is forced under the stop member while the load is held in place, thus causing the load to be slidably transferred from the first pallet to the second pallet. The elevation of the front edge of the first pallet by the spacer facilitates sliding transfer of the load. | ||||||
| 62 | Pallet changing method | US274601 | 1994-07-13 | US5482426A | 1996-01-09 | Gary L. White |
| A method of changing a load supported by a first pallet to a second pallet comprises placing the first pallet supporting the load adjacent a stop member rigidly mounted on a floor surface, the stop member having an opening at a lower end sufficient for the pallet to slide under the stop member and having an abutting surface above the opening for engaging a side of the load on the first pallet. The first pallet is first positioned so that it has a rear edge facing the stop member opening and a front edge on an opposite side facing away from the stop member. A spacer member is placed under the front edge of the first pallet to raise the front edge of the first pallet above the level of the second pallet, the spacer member being moveable inwardly toward the stop member along with the first pallet. The second pallet is placed against the front edge of the first pallet and is slid toward the stop member while being positioned against the first pallet, such that the first pallet is forced under the stop member while the load is held in place, thus causing the load to be slidably transferred from the first pallet to the second pallet. The elevation of the front edge of the first pallet by the spacer facilitates sliding transfer of the load. | ||||||
| 63 | Bottom support grasping device | US575728 | 1990-08-31 | US5088877A | 1992-02-18 | Bill H. Henk |
| A robotic pelletizer includes a roller carriage having an improved grasping device which has first and second plates contacting opposed sides of an item to be lifted, a bottom support having a plurality of fingers moveable underneath the item, and a clamping plate to contact a top of the item. An elevating device lifts the item from a support surface so that the fingers may move under the item, and thereby support the item when the elevating device is lowered. | ||||||
| 64 | Apparatus for recubing boxes | US810209 | 1985-12-18 | US4696614A | 1987-09-29 | Lenard E. Moen |
| An apparatus for automatically restacking palletized tiers of adjacent rows of loosely cubed laden produce boxes in a continuous fashion by recubing the boxes while automatically retrieving and stacking the successive pallets during the continuing recubing process. | ||||||
| 65 | Apparatus for driving take-up elements for palletizable load units | US416423 | 1982-09-09 | US4515025A | 1985-05-07 | Bruno Missio; Angelo Giorgioni |
| Apparatus (1) for driving take-up elements (7) for palletizable load units (4), which are intended to effect cycles of movement each including at least a first and a second horizontal movement in opposite directions from each other, with a vertical movement in between. These movements are driven so as to follow each other without intermediate stoppages and with a continuous and substantially harmonic variation of the velocity and acceleration of the take-up elements (7). The apparatus (1) includes a linkage (10, 12) interposed between the take-up elements (7) and the motor (13) for driving their horizontal movement, and cam means (24, 25) driven by the motor (13) for driving the vertical movement. | ||||||
| 66 | Machine for inserting electronic components | US34014 | 1979-04-27 | US4294000A | 1981-10-13 | Tetsuo Takahashi; Yoshinobu Taguchi; Kotaro Harigane; Tetsuro Ito; Akihiro Kato |
| An insert sub-assembly of an insert device of a machine for processing and inserting parallel lead electronic components from an electronic component web carrier into lead receiving openings in a printed circuit board includes a first slider device slidably mounted on a frame. A driver mounted on the frame drives the first slider device. A second slider device slidably mounted on the frame cooperates with movement of the first slider device and includes a lead holding and guiding device for holding and guiding an electronic component and a push bar for displacing the component from a predetermined position to an inserted position under the control of the lead holding and guiding device. A feed device mounted on the frame is driven by an intermittent drive to feed the electronic component web carrier intermittently, pitch by pitch. A cutter separates one electronic component from the electronic component web carrier fed by the feed device. A transfer device includes a reciprocating unit for producing reciprocative movements between the cutter and the lead holding and guiding device and an electronic component holding device for holding a lead of the electronic component to be separated by the cutter and transferring the component to the lead holding and guiding device after such component has been separated by the cutter. | ||||||
| 67 | Loading platform and method for transferring sheets of material | US908682 | 1978-05-23 | US4195963A | 1980-04-01 | Henry S. Levkoff; Alphonse Falco |
| An improved method and apparatus for transferring a load such as a stack of cardboard sheets from an aerator to the receiving end of a cutting press. Sheets of material are stacked on a first pallet having a plurality of spaced support members defining a fork-like configuration having an elongated passage between each pair of spaced supports. The free ends of the spaced supports are adapted for common connection to a transverse rod to provide a generally rigid support surface defined by the spaced supports. The pallet is transported with the stack loaded on its support surface by a forklift to a predetermined location above a movable base pallet which is adapted to align the first pallet in superposed relation thereupon as the first pallet is lowered in place. The base pallet includes a plurality of spaced supports corresponding to the spaced supports of the first pallet. After the two pallets become engaged, the connecting rod of the first pallet is removed. The pallets are then moved to the receiving end of the cutting press. The press is provided with a lifting mechanism which includes a plurality of lifters that can be elevated vertically through the passages defined by adjacent pairs of the spaced supports of the pair of engaged pallets to effect vertical transfer of the stack from the pallets onto the lifters. The lifters are elevated intermediate the aligned supports to a predetermined height so that the stack is raised by the lifters a distance sufficient to permit the engaged pair of pallets to be withdrawn. | ||||||
| 68 | Printer's paper pile inverter | US846884 | 1977-10-31 | US4173428A | 1979-11-06 | John H. Thornberg |
| A printer's paper pile inverter includes two parallel, spaced apart, C-frames held in spaced relationship to each other by a base frame including a plurality of C-frame connecting straps integral with, and extending between the base legs of each of the C-frames. First outwardly extending legs of the C-frames and a pallet lift fork mounted on the base frame are slid under a first pallet supporting a pile of papers to be inverted. A second pallet is inverted and placed on top of the paper pile. A jacking mechanism supported on the base frame of the inverter powers the lift fork to lift the first pallet until the second pallet comes into contact with the under surfaces of second outwardly extending legs of each C-frame. Two handlebars, slidably mounted in handlebar sleeves which are integral with the base legs of the C-frames, are used to tip the paper pile and inverter from an upright position, to a position such that the inverter and pile can be transported on provided transport wheels to any desired location for use of the pile after it is inverted; to tip the inverter to a reclining position supported parallel to the ground on these wheels and on provided support feet; and to tip the inverter to position it in an inverted position. The jacking mechanism is disabled or used to lift the pallet lift fork from the first pallet, the first pallet is removed, and the second pallet and inverted paper pile are removed from between the first and second outwardly extending C-frame legs of the pile inverter and moved to a location for use. | ||||||
| 69 | Loading arrangement | US708400 | 1976-07-26 | US4113118A | 1978-09-12 | Nick P. Glumac |
| Means for mounting and securing a plurality of load bearing members to a loading platform including the stacking and locking of said members in various configurations thereupon. | ||||||
| 70 | Engage-disengage device for cargo-transfer means in mechanical cargo handling system of the load replacing type | US41338973 | 1973-11-06 | US3904053A | 1975-09-09 | YATAGAI SHUKURO; TAMURA KATUNORI |
| The present invention relates to an engage-disengage device for a cargo-transfer device such as a fork in a palletless mechanical cargo handling system of the load-replacing type. The cargo is transferred between a cargo transfer device which is available for handling and transporting cargo in a specified unit or for storing cargo on a rack and the like, and a stationary mechanism installed on the floor of a truck or container or on a cargohandling platform. The device is equipped with a plurality of slots to receive a plurality of tines in the fork, characterized by making it possible to load or unload said fork automatically without unpacking and with no manpower needed. A fixed frame is provided which is equiped with plural rows of cargo transport mechanisms arranged in parallel and spaced apart. A vertically-movable frame is equipped with a plurality of vertically-movable transport mechanisms for the cargo-transfer device arranged between said cargo-transport mechanisms. The cargo-transport mechanism is provided with a conveyor which carries cargo. The top surface of the transport mechanism for the cargo-transfer device is located higher than the top surface of said fixed frame. By displacing the transport mechanism for the cargo-transfer device downward along the fixed frame, a piece of cargo on said cargo-transfer means can be transferred to the fixed frame. The cargo-transfer device is displaced further down and tilted such that it moves by itself. The cargo transferred to the fixed frame is forwarded on a conveyer belt to its destination. The system may be operated in a reverse direction to load said devices.
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| 71 | Load handling apparatus | US29536763 | 1963-07-16 | US3190461A | 1965-06-22 | POSTLEWAITE WILLIAM R |
| 72 | Apparatus for turning containers | US51808644 | 1944-01-13 | US2514680A | 1950-07-11 | STAFFORD CHARLES E |
| 73 | Method of transferring loads to industrial trucks | US50779243 | 1943-10-27 | US2394692A | 1946-02-12 | WILLIAM ISLER |
| 74 | Egg-case and means for emptying the same. | US1912679933 | 1912-02-26 | US1032182A | 1912-07-09 | BRUNNERT ANTON |
| 75 | CASSETTE PULLER | PCT/US2011050951 | 2011-09-09 | WO2012033992A3 | 2013-04-18 | HUNT FRANK; ZANDI BRUCE; WARHURST JULIAN; CLOUTIER ROBERT |
| A cassette puller for an automated storage and retrieval system that stores biological or chemical samples in freezers maintained at ultra-low temperature (e.g., -80°C) or cryogenic temperatures includes a vertical sleeve into which the selected cassette (24) is lifted. The cassette puller (30) is mounted to a traveling gantry and transports cassettes (24) from one freezer location to another and to the system input/output module. The cassette puller (30) comprises a sleeve (38) into which a cassette (24) from the freezer bay in the freezer chest is lifted, the sleeve (38) containing at least one access opening to allow removal of a selected tube storage rack or plate on a shelf in the lifted cassette (24). Other components such as a rack robot, a tube picking mechanism, a sample identification station, etc. are mounted on the traveling gantry as well. | ||||||
| 76 | SAMPLE STORAGE CASSETTE FOR ULTRA-LOW OR CRYOGENIC TEMPERATURES | PCT/US2011050955 | 2011-09-09 | WO2012033994A2 | 2012-03-15 | HUNT FRANK; WARHURST JULIAN; ZANDI BRUCE; CLOUTIER ROBERT |
| A storage cassette including a plurality of generally vertical compartments for storing sample tube racks and/or SBS formatted plates is constructed to be flexible along its substantially vertical axis thereby facilitating reliable robotic placement and retrieval of the cassette from nesting tubes located within a horizontal freezer compartment. Insulated walls and solid shelves minimize heat transfer from storage racks or plates placed in the storage cassette when the cassette is removed from an ultra-low temperature or cryogenic freezer. The outer walls of the cassette includes mechanical indexing locations to ensure appropriate positioning when robotically removing storage racks or plates from the cassette. | ||||||
| 77 | 搬送システム | JP2017002313 | 2017-01-24 | JPWO2017150005A1 | 2018-12-06 | 鈴木 高志 |
| 搬送システム100は、複数の第1レール9と、複数の第2レール11と、を有し、複数の第1レール9と複数の第2レール11とが同一面上に格子状に配置された走行レール4と、走行レール4上を第1方向及び第2方向に走行可能な走行部24と、キャリア50を保持する保持部46A及び保持部46Aを昇降させる昇降部45を含む移載部26と、を有する複数の台車8と、を備え、走行レール4は、所定の工程の処理を実施する第1の処理装置群における各移載ポートの直上に移載部26が配置される第1の停止位置に台車8が乗り入れ自在であり、且つ、第1の停止位置から所定の工程とは異なる工程の処理を実施する第2の処理装置群における各移載ポートの直上に移載部26が配置される第2の停止位置へ台車8が乗り入れ自在に配置されている。 |
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| 78 | 機械設備の制御システム | JP2016005826 | 2016-01-15 | JP6429033B2 | 2018-11-28 | 濱口 淳 |
| 79 | パージ装置、パージストッカ、及びクリーニング方法 | JP2016067550 | 2016-06-13 | JPWO2017026168A1 | 2018-06-21 | 椿 達雄; 村田 正直 |
| 容器のガス導入口あるいはパージノズルの周囲に付着したパーティクルを除去することが可能なパージ装置を提供するため、パージ装置(4)は、ガス(G1)を吹き出すことが可能なノズル(31)と、パージ対象の容器(F)の底面(Fb)とノズルとが対向した状態で、ノズルからガスを吹き出させるパージ制御部(34)と、を備える。 | ||||||
| 80 | 搬送車システム | JP2017535273 | 2016-06-17 | JPWO2017029873A1 | 2018-05-24 | 本告 陽一 |
| 搬送車システム(1)は、下段軌道(20)を一方向に走行する第1搬送車(40A)、上段軌道を一方向に走行する第2搬送車(40B)、第2搬送車から被搬送物(F)が受渡されると共に第1搬送車によって被搬送物が受取られる第1授受部(13)、及び第1搬送車から被搬送物が受渡されると共に第2搬送車によって被搬送物が受取られる第2授受部(15)を備える。エリア(10)は各々第1領域(10A)と第2領域(10B)とを有し、下段軌道は第1領域と第2領域とにわたって配置され、第1領域内には第1授受部及び第2授受部が配置され、第2領域内には第1搬送車との間で被搬送物を授受可能な第3授受部(11A)が配置され、第1領域内の下段軌道は一方向に第2授受部、第1授受部の順に各々配置され、第1領域内の上段軌道は第1授受部、第2授受部の順に各々配置される。 | ||||||
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