| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 41 | テーパー形状駆動バー装置 | JP2017559453 | 2016-05-09 | JP2018518432A | 2018-07-12 | チャン,キン フン ジェフリー |
| 本願発明は、螺旋型コンベアシステムで使用するための駆動バー装置に関する。ひとつの実施形態において、駆動装置は、螺旋型コンベアシステムの中心ドラムに設置されるように構成された少なくともひとつのテーパー形状駆動バーを有する。少なくともひとつのテーパー形状駆動バーの各々は、コンベアベルトから伸長した突起を中心ドラムによって係合させるよう、少なくともひとつのテーパー形状駆動バーの第1側面または第2側面に対して強制するための円錐外側面を含むテーパー先端を有する。少なくともひとつのテーパー形状駆動バーの各々は、テーパー先端から伸長したバー部分であって、コンベアベルトが中心ドラムを上昇するに従い当該バー部分が突起との係合を徐々に増加できるようにするためのテーパー先端から増加する可変高さを含むバー部分を有する。 | ||||||
| 42 | ワーク送出装置 | JP2012227983 | 2012-10-15 | JP5822813B2 | 2015-11-24 | 内梨 善夫 |
| 43 | Conveyor apparatus | JP21552783 | 1983-11-16 | JPS60106709A | 1985-06-12 | SONODA TETSUJI; FUJIMOTO AKIO; KESEN TETSUO; YOSHIMURA KAZUHIKO |
| PURPOSE:To enable a conveyor apparatus to be set up in a configuration of connection in series for reducing the required space as well as for allowing a longdistance transportation of materials, by constituting the apparatus such that a pump blade and a screw conveyor blade both mounted within a tubular barrel are driven by driving a driving wheel provided outside the tubular barrel. CONSTITUTION:A screw conveyor blade 13 is provided in a tubular barrel 11 so as to be supported by a bearing 12 at one end thereof. The tubular barrel 11 is provided at the other end thereof with a cover 14 in which a driving wheel 15 is mounted to be supported by a bearing 16. A large gear wheel 17 is fitted on the outer periphery of the driving wheel 15 and adapted to be rotated by a motor 19 through a pinion 18. A pump blade 20 is attached on the inner face of the driving wheel 15, and the other end of the screw conveyor blade 13 is attached to the axis of the pump blade 20. Since the driving means is thus provided outside the tubular barrel 11, the conveyor can be set up in a configuration of connection in series, which allows to reduce the space required for installment as well as to transport the materials over a long distance. | ||||||
| 44 | Cereal grain conveyor | JP13741883 | 1983-07-26 | JPS6031428A | 1985-02-18 | KASHINO SHINZOU; MIZUMOTO MASAYA; MINAMI RIYUUICHI |
| PURPOSE:To facilitate the removal of jamming, by providing a transmission shaft which is located in the cylindrical shaft of a carry-out screw for cereal grains in a tank and transmits motive power from the screw to a cereal grain carry-up unit, and by providing a clutch for stopping the drive of only the carry-out screw. CONSTITUTION:A carry-out screw 12 is provided in a tank 9 at its bottom so that the screw can be optionally driven. A thrower-type carry-up unit 13 is coupled to the downstream end of the screw 12. The end of the cylindrical shaft 12a of the carry-out screw 12 opposite the carry-up unit 13 is connected to an engine 19 through a first belt tension clutch 16 having a tension arm 16a fitted in a swingable manner to a support cylinder 15 extending from the tank 9, an intermediate shaft 17 and a transmission belt 18. The rotary shaft 13d of a thrower 13a is connected to a transmission shaft 17 through a bevel gear mechanism 20, a transmission shaft 21 provided in th cylindrical shaft 12a, and a second belt tension clutch 22 having a tension arm 22a. | ||||||
| 45 | Long distance spiral transport apparatus by means of devided drive | JP17786082 | 1982-10-09 | JPS5969308A | 1984-04-19 | TOKUNAGA HITOSHI; ASAKURA YUTAKA |
| PURPOSE:To enable a continuous long distance transport by coupling an easily detachable spiral structure as occasion demands. CONSTITUTION:A spiral steel plate structure 2 substantially equal to the inside diameter of a cylindrical tube 1 is inserted into the cylindrical tube 1, and cylindrical tubes 5 covering the terminals of the structure 2 are supported by gun metal bearings 4 mounted on both ends 3 of the cylindrical tube 1. A flange 8 with a packing 7, which is substantially equal to the outside diameter of the cylindrical tube 5 and a little smaller than the outside diameter of the terminal 3 of the cylindrical tube 1, and is provided with concave portions formed at equal spaces and with detachable convex portions 6, is coupled to the cylindrical tube 5, whereby a similar cylindrical tube is sequentially connected to each other by confronting the concave and convex portions of the flange 8. A driving device 9 comprising a motor with a speed reducer is fixed to the terminal 3 of the cylindrical pipe 1, and a gear 10 fixed to the flange 8 is rotated by a chain 11. As a spiral transport apparatus is thus divided into simple structure devices to be driven, transport capacity can be suitably increased and decreased corresponding to the state of load. | ||||||
| 46 | Screw conveyor installing method | JP10263882 | 1982-06-15 | JPS58220008A | 1983-12-21 | YAMASHITA HIROSHI; OOYABU TOSHIO; ODA YASUO; TANAKA TAKESHI |
| PURPOSE:To make bending stress uniform by supporting, in a fixed beam shape, one end of the conveyor shaft of a screw conveyor which is supported at its both ends and subjected to distributed load, and applying a moment inversely directed to screw conveyor's own weight, to said fixed beam end part. CONSTITUTION:A underwater bearing 10 is installed on a foundation 11 in a hydraulic pool, and a bearing device 12 provided with a plurality of trains of bearings 15 is provided on a foundation 13 located outside the hydraulic pool. Both ends of the conveyor shaft 17 of a screw conveyor are supported by these bearings 10, 15, and said conveyor shaft 17 is installed while applying moment M inversely directed to its own weight to it. Namely, each height of the foundations 11, 13 is firstly set such that the bottom 19 of a bearing box 14 is allowed to make closel contact with the upper surface 20 of the foundation 13 keeping a state where the underwater bearing 10 is lifted so as to provide a gap 30 with width 1. Then, after fightening a nut 26 engaged with a bolt 23 until prescribed pressing force is applied to a belleville spring 25, the required installation is coupleted by placing the bearing 10 side on the foundation 11 while gradually lowering it. | ||||||
| 47 | CYCLOIDAL WHEEL DRIVE | EP14835766 | 2014-08-13 | EP3033242A4 | 2017-04-12 | KLUBERTANZ JAMES A; BUEGE WALLACE; BALLWEG BRADLEY; ZOLP DENNIS |
| 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. | ||||||
| 48 | CONVERTER FOR ORGANIC MATERIALS | EP14858014.5 | 2014-10-29 | EP3063253A1 | 2016-09-07 | STREZOV, Lazar; OSBORN, Steve; HERBERTSON, Joseph George |
| A continuous converter for pyrolysing or otherwise processing biomass or other solid organic feed materials includes a reaction chamber (5) for producing a solid carbon-containing product and a gas product and optionally a liquid water product via pyrolysis or other reaction mechanisms from a solid organic feed material. The chamber has an inlet (41) for supplying a solid organic feed material to the chamber and separate outlets (15, 35) for the solid carbon-containing product and the gas product produced in the reaction chamber. The inlet and the solid carbon-containing product outlet are configured so that the solid materials in the inlet and in the outlet form respective gas seals in the inlet and the outlet. | ||||||
| 49 | Drive apparatus | EP14186780.4 | 2014-09-29 | EP2857907A3 | 2015-04-22 | Mizuno, Masahiko |
A drive apparatus is provided with a first gear (41), a second gear, a third gear(43), a first support member(44), and a second support member (45). The first gear(41) is fixed to a conveyance screw(33). The second gear is arranged in tandem with the first gear (41) in an axial-center direction of the conveyance screw (33) . The third gear(43) meshes with the first gear(41) and the second gear(42). The first support member(44) supports the first gear(41) to enable movement in one radial direction. The second support member (45) supports the second gear (42) to disable movement in the radial direction. The number of teeth of the first gear (41) and that of the second gear (42) are different. In the first gear (41), a first cam unit (41b) is formed. In the second gear (42), a second cam unit(42b) is formed. The both cam units converts a circumferential relative displacement, generated along with rotation of the third gear (43), between the first and second gears is converted into a displacement in the one direction of the first gear (41), in a predetermined period in accordance with the number of rotations of the third gear(43).
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| 50 | FÖRDERVORRICHTUNG FÜR HETEROGENE, EMPFINDLICHE UND NICHT PUMPFÄHIGE LEBENSMITTEL MIT GERINGEM FLÜSSIGKEITSANTEIL | EP12732651.0 | 2012-07-04 | EP2729392A1 | 2014-05-14 | KERSCHBAUMER, Eric |
| 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 (4), which is designed as a hollow worm, is put into rotation by means of a drive motor (1). Said drive motor (1) is connected to the screw conveyor (4) by means of a bearing flange (3) and a connecting bolt (2). The screw conveyor is partially coreless and has radial pins. | ||||||
| 51 | Transportvorrichtung zum Transportieren von an Schlaufen hängenden Gegenständen | EP04016500.3 | 2004-07-13 | EP1498369A2 | 2005-01-19 | Sames, Jörg |
Die Erfindung betrifft eine Transportvorrichtung zum Transportieren von an Schlaufen oder dergleichen hängenden Gegenständen, insbesondere wurstförmigen Verpackungen, mit einer Welle (100, 300, 400, 500) die einen ersten axialen Abschnitt (310) aufweist, auf dem eine Schnecke (104, 314) angebracht ist, mit Antriebs- und Lagermitteln (170, 110, 112) für die Welle. Die Antriebsmittel (120) und die Lagermittel (110, 112) sind so angeordnet, dass ein Antriebsmoment über den Außenumfang der Schnecke eingeleitet wird und die Welle über den Außenumfang der Schnecke abgestützt wird. |
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| 52 | Continuous helical gear for conveying and storing suspended objects | EP94116019.4 | 1994-10-11 | EP0647577B1 | 1999-04-07 | Cini, Claudio |
| 53 | Device for feeding and discharging of bottles into and from working carousels | EP94118653.8 | 1994-11-28 | EP0656305A2 | 1995-06-07 | Barbieri, Claudio; Trebbi, Claudio |
The auxiliary screw (205) is actuated by means of a motor (47) with electronic control, equipped with speed and phase transducers (147) connected to a logic unit (50-51-52-53) which by means of suitable transducers (146) notes the speed and the phase of any point of the kinematic chain which transmits the movement to the working carousel and to the main screw (105). In order cyclically to create a space in the main screw, the logic unit makes provision to slow down and then reaccelerate the motor of the auxiliary screw in such a manner that this screw is dephased by a complete revolution every two revolutions of the main screw and then resumes, at the end of the two revolutions, the speed and the phase of the main screw. Also described is the use of such a double-screw device (500), with synchro-tie, for controlling the flow of bottles leaving a working carousel, to bring about the rejection of any bottles which are not correctly filled or with other defects. |
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| 54 | 駆動装置 | JP2013209502 | 2013-10-04 | JP5873060B2 | 2016-03-01 | 水野 雅彦 |
| 55 | Conveyor screw for material conveyor system of construction machine | JP2014020525 | 2014-02-05 | JP2014163219A | 2014-09-08 | ARTHUR BRAUN |
| PROBLEM TO BE SOLVED: To provide an improved conveyor screw to reduce or completely eliminate wear.SOLUTION: A conveyor screw 5 for a material conveyor system comprises a conveyor section 6 which is configured to convey bulk material, and a driving section 7 which is designed to receive a driving torque or a driving force and to transmit it to the conveyor section 6. The conveyor section 6 and the driving section 7 are connected to each other by friction welding. | ||||||
| 56 | スクリュー軸間のスクリュー羽根の位相変更装置及びスクリュー軸を備えた処理装置 | JP2009534088 | 2007-09-26 | JPWO2009040900A1 | 2011-01-13 | 一樹 大森 |
| 簡単な機構で小型化及び低コスト化することができると共にスクリュー羽根の位相制御を高精度に行うことができ、処理能力の低下を防止することができるスクリュー軸間のスクリュー羽根の位相変更装置及びスクリュー軸を備えた処理装置を提供する。本発明の位相変更装置10は、第1のスクリュー軸12の歯車12Cと第2のスクリュー軸13の歯車13Cとの間に介在する歯車列と、各歯車の軸を互いに連結するリンク機構と、歯車列及びリンク機構を介して第1のスクリュー羽根12Aに対する第2のスクリュー羽根13Aの位相を変更する操作ハンドル20と、を備えている。 | ||||||
| 57 | Screw conveyor device for steep inclination | JP2001104014 | 2001-04-03 | JP2002321812A | 2002-11-08 | YOSHIKAWA TADAO |
| PROBLEM TO BE SOLVED: To efficiently perform carrying by preventing bending, elongation and contraction of a ribbon screw even in steep inclination and high lift. SOLUTION: In this device having the ribbon screw 4 disposed within a cylindrical casing 1 rotatable around a shaft center, a center shaft 5 is arranged along the shaft center direction in a hollow part of the ribbon screw 4 and the center shaft 5 is provided with a center supporting part 21 having a rotating tube connected and fixed to an inner edge part of the ribbon screw 4. COPYRIGHT: (C)2003,JPO | ||||||
| 58 | Screw conveyor | JP5069684 | 1984-03-15 | JPS60197508A | 1985-10-07 | YAMADA TAKESHI |
| PURPOSE:To provide a screw conveyor, consisting of a combination of a horizontal and an inclined conveyor element, with variable transport angle by driving a horizontal spiral screw with an inclined conveyor drive motive through a drive shaft equipped with a shaft length adjusting member and a universal joint. CONSTITUTION:In case for ex. the height of a truck is great, a steel pipe 40 of a stand 12 is raised and a shaft cylinder 6 is rotated in the direction of Arrow E. Accordingly at the shaft length adjusting member 24 of the drive shaft 9 the shaft 26 accommodated in a shaft cylinder 25 slides in the direction of Arrow F and bends a universal joint 10 to increase with its angle of inclination together with No.2 shaft cylinder 6. Thereby the drive shaft 9 can be inclined while keeping the rotary shaft 3 of No.1 spiral screw in drivable condition. This provides possibility of changing the angle of inclination in proper response to varying height of truck. | ||||||
| 59 | Conveyor for pulverized material | JP6176581 | 1981-04-23 | JPS57175613A | 1982-10-28 | HANAZAKI YOSHIROU; ISHIDA HIROAKI |
| PURPOSE:To supply pulverized material stably at a fixed quantity by rotating a shaft at uneven speed to compensate the pulsation of the discharge amount in a period of one pitch of a screw and removing the pulsation of the discharge amount. CONSTITUTION:A long hole 8a is bored on the first cam 8 equipped at the end of a shaft 2 of a screw feeder constructed of a screw 1, a casing 3, a throw-in port 4, and a discharge port 5. In this hole, a drive pin 9a of the second cam 9 is fitted to be slided. As the pin 9a is caught by the hole 8a, the shaft 2 is changed in its angular velocity periodically, and the pulverized material in touch with the pushing part of the blade of the screw can be pushed out and dropped off always unformly form the discharge port. | ||||||
| 60 | JPS541503B1 - | JP1882071 | 1971-03-31 | JPS541503B1 | 1979-01-25 | |
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