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 |
|---|---|---|---|---|---|---|
| 21 | 一种螺旋输送机 | CN201510142361.4 | 2015-03-30 | CN104773448A | 2015-07-15 | 张国红 |
| 本发明公开了一种螺旋输送机,包括电动机、传动装置、机架、轴承、进料口、料槽、出料口、输送螺旋,所述机架两端设置有轴承,机架上设置有料槽,料槽前端设置有进料口,料槽后端设置有出料口,所述轴承之间设置有输送螺旋,输送螺旋前端连接有传动装置,所述传动装置与电动机相连接;所述输送螺旋包括:叶片、多段螺旋轴、轴连接段、螺钉,多段螺旋轴之间通过轴连接段相互套接,轴连接段与螺旋轴之间通过螺钉固定,所述叶片设置在螺旋轴表面。本发明提供的一种螺旋输送机,输送螺旋通过法兰连接增加了强度,方便更换及维修。本设计结构比较简单,成本较低;工作可靠,维护管理简便;尺寸紧凑,断面尺寸小,占地面积小。 | ||||||
| 22 | 圧縮可能な材料の通過及び運搬のための装置 | JP2014528795 | 2012-09-06 | JP2014529558A | 2014-11-13 | クルザイスズトフ フララ,ジャヌスズ; スタニスロー ルダス,ライスザード; ラファル ルダス,マシエジ; リチャード グラヴェット,マーティン |
| 圧縮可能な材料の通過及び運搬のための装置(10)であって、装置は、実質的に平行な第1のスクリューコンベヤ(16)の少なくとも2つの配列(14)を含み、各配列は、材料が各配列に対して概ね横方向に配置されるそれぞれの第2のスクリューコンベヤ(18)に運搬されるように、容器(12)の出口(56)に配置され、材料は出口から運搬され、運搬されるべき材料は、第1のスクリューコンベヤ(16)を上から直接的に圧迫し、第2のスクリューコンベヤ(18)を直接的に圧迫しない。圧縮可能な材料の通過及び運搬のための方法も記載される。 | ||||||
| 23 | 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. | ||||||
| 24 | Granular material conveyor | JP2002579341 | 2002-02-27 | JP2004521844A | 2004-07-22 | ルパージュ、チャールズ |
| 本発明は、材料を搬送するための装置を提供し、当該装置は、投入端部および排出端部を有する細長いチューブを有し、チューブの投入端部に固定された前方端部(21)を有する取入口ホッパー(17)を有し、材料を取入口ホッパー(17)からチューブの排出端部に搬送するためのエンドレスベルト(7)を有する。 取入口ホッパー(17)内には、少なくとも2つのオーガー(25、27)が取り付けられており、該オーガーは、エンドレスベルト(7)の上方に、かつチューブの投入端部の外側に位置している。 エンドレスベルト(7)およびオーガー(25、27)は、適切な駆動手段によって駆動される。 オーガー(25、27)の回転によって、取入口ホッパー(17)中の粒状材料がチューブの投入端部に向かって搬送され、チューブの投入端部にフラッド供給される。 次いで、粒状材料は、ベルト(7)によってチューブの排出端部に運ばれる。 さらに、本発明は、取入口ホッパー(17)内におけるオーガー(25、27)の位置の調整を可能にし、さらに、オーガー(25、27)の容易な取り外しおよび再配置を容易にする、オーガーのマウントを提供する。 さらに、オーガーが駆動される速度もまた、調整可能である。 前述のことは、コンベヤが使用されるであろう種々の用途に関して、多大なフレキシビリティーを提供する。 本発明はまた、追加の供給オーガーを提供し、該供給オーガーは、ホッパーの後方に向いて位置しており、かつ、材料をホッパーの側面から中央に向かって移動させるよう適合されており、ここで、材料は、ベルト(17)およびオーガー(25、27)によって、チューブの投入端部に移送される。
【選択図】 図1 |
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| 25 | 海底垂直ホイストシステムおよび方法 | JP2016506296 | 2014-04-03 | JP2016514778A | 2016-05-23 | ジョン マイケル パリアノス,; ローランド ガンター ベルント, |
| 海底から鉱石をホイスティングするための海底垂直ホイストシステムが提供され、海底垂直ホイストシステムは、駆動機構と、駆動機構によって駆動されるようになされた少なくとも1つのラインと、少なくとも1つのラインに動作可能に装着されるようになされた複数の容器と、少なくとも1つのラインおよび複数の容器が海底に対してホイスティングされるときに少なくとも1つのラインおよび複数の容器を少なくとも部分的におおうようになされた第1のケーシングと、少なくとも1つのラインおよび複数の容器が海底に向かって下ろされるときに少なくとも1つのラインおよび複数の容器を少なくとも部分的におおうようになされた第2のケーシングと、を備える。【選択図】図1 | ||||||
| 26 | Apparatus for supplying granular material, and apparatus for mixing and supplying granular material equipped therewith | JP2011210047 | 2011-09-27 | JP2013071787A | 2013-04-22 | KAWAKAMI HAJIME; HARA HIROSHI |
| PROBLEM TO BE SOLVED: To provide an apparatus for supplying a granular material capable of improving work efficiency in cleaning, maintenance and replacement, etc., and an apparatus for mixing and supplying granular materials equipped with the apparatus.SOLUTION: The apparatus 1 for supplying a granular material includes a storage unit 49 that stores a granular material, a feed unit 30 that is provided below the storage unit 49 to feed the granular material stored in the storage unit 49 towards a supply destination 50, a drive unit 20 that is coupled to the feed unit 30 to drive the feed unit 30, and a support 10 that has a space 11 for receiving the feed unit 30 formed therein, supports the storage unit 49, the feed unit 30 and the drive unit 20 and is affixed to equipment 5 to which the apparatus is to be installed. The drive unit 20 is supported by the support 10 in a manner such that the drive unit 20 can be moved between a coupled position where the drive unit 20 is coupled to the feed unit 30 and a withdrawn position where the drive unit 20 is uncoupled from the feed unit 30 and the feed unit 30 can be detached from the support 10. | ||||||
| 27 | Transfer of materials to be transferred in ships and dust collecting device | JP13301082 | 1982-07-29 | JPS5923795A | 1984-02-07 | FUJIMOTO MORIO |
| PURPOSE:To perform transfer without any trouble of crushing the materials in powder, in relation to the device in the headline, by opening a nozzle that is connected to an air transfer pipe on the inner surface of the cylinder of a vertical screw conveyor and also in the circumferrential direction on the inner surface of the cylinder, spraying compressed air, and floaing coke and the like to be transferred upward by the screw conveyor. CONSTITUTION:A vertical carrier device is set up by installing a screw conveyor 3 in a cylinder 1 provided with an exhaust part 2 at the upper end and a delivery port 21 on the lower end. A nozzle 5 that is connected to an air transfer pipe 4 mounted on the circumference of the cylinder 1 is opened in the circumferential direction on the inner surface of the cylinder and compressed air is sprayed from a compresser 6 connected to the air transfer pipe 4 and then jet air stream is generated. When the coke thrown in from the delivery port 21 is set to the floating state and is transferred upward by the screw conveyor, it can be prevented from being crushed in powder. | ||||||
| 28 | Intermittent linear transfer device | JP7241282 | 1982-04-28 | JPS58188224A | 1983-11-02 | KUROSAWA TETSUO |
| PURPOSE:To simplify construction of a device and easily and surely perform its mechanical adjustment, by constituting the device such that a screw transfer device is connected to a continuous rotary driving source through an intermittently driving means when a semiconductor or the like is linearly transferred intermittently by continuous rotary driving. CONSTITUTION:An intermittently driving means 23 is speed reductively driven by an electric motor 11, while intermittent motion of rotation and stop is performed by an intermittently driving machine, not shown in the drawing, comprising an air cylinder or the like. In this way, screw devices 21a, 21b intermittently rotate and stop to intermittently transfer a transferred article mounting pallet 15. By this constitution, construction can be simplified to easily and surely perform mechanical adjustment. | ||||||
| 29 | A SEAFLOOR VERTICAL HOISTING SYSTEM AND METHOD | EP14782751.3 | 2014-04-03 | EP2984243A1 | 2016-02-17 | PARIANOS, John Michael; BERNDT, Roland Gunter |
| A seafloor vertical hoisting system for hoisting ore from the seafloor, the hoisting system comprising a drive mechanism, at least one line adapted to be driven by the drive mechanism, a plurality of containers adapted to be operatively attached to the at least one line, a first casing adapted to at least partially encase the at least one line and the plurality of containers as they are hoisted relative to the seafloor and a second casing adapted to at least partially encase the at least one line and the plurality of containers as they are lowered towards the seafloor. | ||||||
| 30 | Förderschnecke für ein Materialfördersystem einer Baumaschine | EP13000906.1 | 2013-02-22 | EP2769939B1 | 2015-04-08 | Braun, Arthur |
| 31 | GRANULAR MATERIAL CONVEYOR | EP02702197.1 | 2002-02-27 | EP1373107A1 | 2004-01-02 | Highline MFG. Inc. |
| The invention provides an apparatus for conveying material having an elongated tube with an input end and a discharge end, an intake hopper (17) having a front end (21) secured to the input end of the tube and an endless belt (7) for conveying material from the intake hopper (17) to the discharge end of the tube. Mounted within the intake hopper (17) is at least two augers (25, 27) positioned above the endless belt (7) and external to the input end of the tube. The endless belt (7) and the augers (25, 27) are driven with appropriate drive means. Rotation of the augers (25, 27) conveys granular material in the hopper (17) toward the input end of the tube so as to flood feed the input end of the tube. The granular material is then carried to the discharge end of the tube by the belt (7). In addition, the invention provides for the mounting of the augers to permit adjustment of the location of the augers (25, 27) within the intake hopper (17) as well as facilitating easy removal and replacement of the augers (25, 27). Further, the speed at which the augers are to be driven is also adjustable. The foregoing provides great flexibility with respect to different applications which the conveyor will be used for. The invention also provides for additional feed augers located toward the rear of the hopper and adapted for moving material from the sides of the hopper towards the center where it will be transported by the belt (17) and augers (25, 27) to the input end of the tube. | ||||||
| 32 | 粉粒体材料の供給装置、及びこれを備えた粉粒体材料の配合供給装置 | JP2011210047 | 2011-09-27 | JP6088728B2 | 2017-03-01 | 川上 一; 原 洋 |
| 33 | Bulk material, in particular chips and shavings eliminate the waste, transport, densification, and discharge device | JP50568689 | 1989-05-10 | JPH0811618B2 | 1996-02-07 | ソアヴイ、フアビオ |
| 34 | JPH03504232A - | JP50568689 | 1989-05-10 | JPH03504232A | 1991-09-19 | |
| 35 | JPS5945577B2 - | JP11666776 | 1976-09-30 | JPS5945577B2 | 1984-11-07 | KARURU AUGUSUTO RENARUTO TEINGUSUKOGU |
| 36 | Bottom open type vertical screw conveyor | JP8002282 | 1982-05-14 | JPS58197113A | 1983-11-16 | YOKOHAMA KENJI |
| PURPOSE:To enhance efficiency and workability, by a method wherein a plurality of threads are provided at regular spacings at the lower end of an elongate vertical screw conveyor shaft, an inner ring is fixed at this part, is supported by an outer ring on the casing side through a bearing, and a material to be conveyed is conveyed from a lower part toward an upper part. CONSTITUTION:A shaft 10 provided with threads 11 is provided at its lower part with the threads 12, 13 having the same lead as that of the threads 11 at regular spacings with a pitch set to be 1/3 of the lead. The inner ring 14 is fitted to the outside periphery of the shaft 10, and is fixed at trisected positions of the inside diameter. The inner ring 14 is supported by the outer ring 17 fixed to the casing through the bearing 15. By this, the threaded shaft 10 is rotatably supported within the casing by the inner and outer rings 14, 17 and the bearing 15. Accordingly the material to be conveyed is conveyed upward by the threads 11 by rotating the shaft 10, and efficiency and workability can be enhanced. | ||||||
| 37 | Unloading device of granular material | JP11666776 | 1976-09-30 | JPS5264770A | 1977-05-28 | KARURU AUGUSUTO RENARUTO TEING |
| 38 | COMBINE HARVESTER UNLOADING SYSTEM | US15767717 | 2016-10-24 | US20180295776A1 | 2018-10-18 | Marcelo Carpenedo |
| A combine harvester including a grain tank having an auger trough in which a screw conveyor of an unloading system is disposed. The screw conveyor is operable to define an upturning side and a downturning side. The grain tank includes a floor section that covers the upturning side to prevent back flow and the formation of a stagnation zone in the vicinity thereof. | ||||||
| 39 | SCREW CONVEYOR | US14963498 | 2015-12-09 | US20160167891A1 | 2016-06-16 | MOHAMMAD FAKHRIZADEH; ZOHEIR SABOOHI; REZA FAKHRIZADEH |
| Disclosed is an improved screw conveyor that reduces maintenance. The screw conveyor comprises an elongate trough assembly comprising material input and output gates formed thereon and an elongate screw flighting rotably disposed within the trough assembly. The flighting comprises an elongate hollow shaft comprising a plurality of thorough fluid holes disposed thereon, a proximal end of the shaft adapted to receive a fluid therethrough whereby, the received fluid is discharged from the plurality of fluid holes, and a pair of parallel blades helically wound around the shaft, the blades arranged such that, the fluid holes are disposed between the blades. The fluid is discharged from between the blades forms a pressurized shield between the outer edges of blades and the inner surface of the trough assembly so as to prevent the material from entering the space between the edges of the blades and the inner surface of the trough assembly. | ||||||
| 40 | Biomass feed system including gas assist | US14694684 | 2015-04-23 | US09353314B2 | 2016-05-31 | Edward J. Smith |
| An improved biomass feed system and processes for transporting biomass to downstream processing locations are disclosed. The system uses a pressurized gas to assist in the transporting of the biomass to the conversion reactor. | ||||||
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