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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1 | 一种往复式螺旋给料机 | CN201610775255.4 | 2016-08-31 | CN106335751A | 2017-01-18 | 蒋伟 |
本发明涉及一种往复式螺旋给料机,包括支撑板,所述支撑板顶部设有机壳,所述机壳内腔设有主动轴,所述主动轴上设有螺旋叶片,所述主动轴贯穿机壳外壁并连接联轴器,所述联轴器一侧连接电机,所述电机底部连接支撑板,所述机壳底部连接出料口,所述出料口贯穿支撑板,所述出料口底部设有给料槽,所述出料口底部一侧转轴连接侧板,所述侧板底部转轴连接底板,所述支撑板底部连接支撑架,所述支撑架上设有减速器,所述减速器一侧转轴连接摇杆,所述摇杆一侧通过销轴连接底板,通过设置电机驱动的主动轴旋转给料,物料由出料口进入给料槽,此时减速器运行,摇杆带动底板做往复运动,从而使实现往复式给料。 | ||||||
2 | EXTRUDER FOR USE IN A DISPENSER OF A LOOSE PRODUCT FOR THE PREPARATIONOF BEVERAGES | US14436134 | 2014-01-15 | US20150259152A1 | 2015-09-17 | Mark Ronald Van Der Woning |
An extruder (100) for use in a dispenser (1) of a loose product (30) for the preparation of beverages, comprising: a housing (110), defining a product inlet (112), a product outlet (114), and a bore (116) that interconnects the product inlet and the product outlet; a screw feeder (120) including a screw blade (124) that is both rotatably and translatably received in the bore (116), such that it is axially movable along the longitudinal axis (/) between a first position and a second position; and a first sealing device (126b) that is configured to releasably fluidtightly seal a portion of the bore (116) interconnecting the product inlet (112) and the product outlet (114) in dependence of the axial position of the screw blade (124). | ||||||
3 | Material conveying apparatus | US3570655D | 1968-12-12 | US3570655A | 1971-03-16 | HAYASHI TORAHIKO |
In a material conveying apparatus including inner and outer coaxial members, such as the shank of a conveyor screw and a tubular housing therefor, having confronting surfaces of revolution defining a space therebetween through which material is to be conveyed, and a helical rib extending along one of the coaxial members, for example, the shank to propel material axially in said space in response to rotation of the rib relative to the housing, at least a part of the shank is independently rotatable with respect to the turns of the rib extending along such part to permit control of the frictional resistance to turning of the material with the rotated helical rib.
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4 | Dry feeder | US28499352 | 1952-04-29 | US2765899A | 1956-10-09 | BALLARD JOHN S |
5 | 飲料の調製のためのばらけた製品の供給における使用のための押し出し器 | JP2015550200 | 2014-01-15 | JP6030249B2 | 2016-11-24 | ファン デル ウォニング マーク ロナルド |
6 | Bin sweep auger unplugging system | US14973134 | 2015-12-17 | US09950872B2 | 2018-04-24 | Claire M. Rauser; Jory T. Skalsky |
A bin sweep auger unplugging system for unplugging a central unloading sump in a storage bin. The bin sweep auger unplugging system generally includes an auger having a driven shaft with auger flighting, a drive unit having a drive shaft, and a clutch connected between the drive shaft and the driven shaft. The clutch selectively transfers the rotation of the drive shaft to the driven shaft of the auger. The drive shaft includes a clump breakup component that breaks up the clump of granular material above the unloading sump when the drive shaft is rotated. The clutch is disengaged when breaking up a clump of granular material to prevent the rotation of the auger. | ||||||
7 | Screw-conveyor systems | US77038758 | 1958-10-29 | US2933175A | 1960-04-19 | GRAY ALVIN N |
8 | Screw conveyer apparatus | US508248 | 1948-01-29 | US2556392A | 1951-06-12 | HAWK ELWIN A |
9 | Dry feeder | US68527846 | 1946-07-20 | US2541742A | 1951-02-13 | BOOTH GEORGE M |
10 | 飲料の調製のためのばらけた製品の供給における使用のための押し出し器 | JP2015550200 | 2014-01-15 | JP2016508046A | 2016-03-17 | デル ウォニング マーク ロナルド ファン |
飲料の調製のための、ばらけた製品30の供給器1における使用のための押し出し器であって、該押し出し器は、製品入口112、製品出口114、及び該製品入口と該製品出口とを相互接続するボア116を定義する筐体と、スクリュー羽根124を含むスクリュー型送り器であって、該スクリュー羽根は、ボア116において回転可能に且つ並進移動可能に受容され、第1の位置と第2の位置との間で長軸lに沿って軸方向に移動可能である、スクリュー型送り器120と、スクリュー羽根124の軸方向の位置に依存して、製品入口112と製品出口114とを相互接続するボア116の部分を解放可能に流体密封的に封止するよう構成された、第1の封止装置126aと、を有する押し出し器100。 | ||||||
11 | Vertical feeding and feeder therefor | JP1282785 | 1985-01-25 | JPS61174018A | 1986-08-05 | HAGIMOTO HIROMI; KASHIMA YUTAKA; KONDO NORIO; TOMIZAWA TSUTOMU; INOUE MASAMI |
PURPOSE:To perform a continuous feeding by a vertical feeding apparatus for earth and sad or the like by providing a vertically reciprocative and rotatable auger in a vertical casing such that, when moved downward, the auger is screwed into the earth and sand or the like filled while the auger is raised and then the auger is raised while carrying the earth and sand or the like. CONSTITUTION:Earth and sand or the like in a hopper 18 are supplied to and filled in the lower portion of the body 1 of a vertical feeding apparatus by a feeding auger 21. Another auger 9 is lowered by retracting rods 11a of a elevating jack 11 by the full thereof. The auger 9 is moved downward while being rotated by screws 13 and 8a and screwed into the earth and sand as stored by said full stroke. Then the auger 9 is lifted by the elevating jack 11 and, at the same time, the lower portion of the body 1 is filled with the earth and sand by the feeding auger 21. The repeat of these operations enables continuous feeding of the earth and sand or the like. | ||||||
12 | Bin Sweep Auger Unplugging System | US15959759 | 2018-04-23 | US20180244478A1 | 2018-08-30 | Claire M. Rauser; Jory T. Skalsky |
A bin sweep auger unplugging system for unplugging a central unloading sump in a storage bin. The bin sweep auger unplugging system generally includes an auger having a driven shaft with auger fighting, a drive unit having a drive shaft, and a clutch connected between the drive shaft and the driven shaft. The clutch selectively transfers the rotation of the drive shaft to the driven shaft of the auger. The drive shaft includes a clump breakup component that breaks up the clump of granular material above the unloading sump when the drive shaft is rotated. The clutch is disengaged when breaking up a clump of granular material to prevent the rotation of the auger. | ||||||
13 | Extruder for use in a dispenser of a loose product for the preparation of beverages | US14436134 | 2014-01-15 | US09561909B2 | 2017-02-07 | Mark Ronald Van Der Woning |
An extruder (100) for use in a dispenser (1) of a loose product (30) for the preparation of beverages, comprising: a housing (110), defining a product inlet (112), a product outlet (114), and a bore (116) that interconnects the product inlet and the product outlet; a screw feeder (120) including a screw blade (124) that is both rotatably and translatably received in the bore (116), such that it is axially movable along the longitudinal axis (/) between a first position and a second position; and a first sealing device (126b) that is configured to releasably fluidtightly seal a portion of the bore (116) interconnecting the product inlet (112) and the product outlet (114) in dependence of the axial position of the screw blade (124). | ||||||
14 | Conveying device for transportation of flowable materials | US893329 | 1986-07-21 | US4826361A | 1989-05-02 | Walter Merz |
A device for the transportation of flowable material in pulverulent, granular, lump, granulated or pasty form in a feed pipe comprises a coaxial endless feeder screw which is rotatable in the forward or reverse direction and a drive mechanism for driving said screw. The drive mechanism enables one to obtain a feed motion without rotation and a rearward motion with a forced, regular rotation of the endless screw so that the material to be transported remains axially stationary during the rearward motion. Owing to the dense column of material to be transported the bearings may be suppressed; if they are provided, they will have to be arranged outside the conveying stock. The endless screw is designed as a single piece screw and the distance between the screw and the feed pipe is slightly bigger than the average size of the grains or lumps of material to be conveyed. The device is preferably used for the supply of pneumatic or hydraulic conveyors. | ||||||
15 | Conveyor | US14860561 | 1961-10-30 | US3178013A | 1965-04-13 | HUBBARD MELVIN L |
16 | Feeding apparatus | US28117239 | 1939-06-26 | US2260824A | 1941-10-28 | BLISS HAROLD N; FENTON GEORGE E |
17 | Feeding apparatus | US21971438 | 1938-07-18 | US2200831A | 1940-05-14 | BLISS HAROLD N; FENTON GEORGE E |
18 | MANIPULATEUR ET INSTALLATION LE COMPORTANT | EP06792660.0 | 2006-08-02 | EP1910041B1 | 2016-09-07 | SOLIGNAC, Jean-Pierre |
19 | A biomass transport system and a bio fuel firing plant | EP06022809.5 | 2006-11-02 | EP1783424A2 | 2007-05-09 | Jensen, Henning Sigfred; Jensen, Jens-Ole Aagaard |
The invention relates to a biomass transport system (1) chiefly for the feeding of bio fuel to a furnace (8) in a bio fuel firing plant (7), comprising at least one worm (15) with at least one centre shaft (22) and at least one helix plate part (23). The biomass transport system (1) also comprises at least one drive element (9) for the rotation of said worm (15) around its longitudinal axis, and at least one outer pipe (12) which substantially surrounds said least one worm (15) for the whole of the longitudinal transporting length (T) of the worm (15), and where said outer pipe (12) further comprises a feed-in opening (14) and a discharge opening (13). The biomass transport system is characterised in that said least one outer pipe (12) and said least one worm (15) are displaceable in relation to each other in the longitudinal direction. The invention also relates to a bio fuel firing plant (7) and a method for the feeding of bio fuel to the furnace (8) in a bio fuel firing plant (7). Finally, the invention relates to a method of safeguarding against backfire through a biomass transport system (1), and the use of a biomass transport system (1). |
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20 | VORRICHTUNG ZUM FÖRDERN VON FLIESSFÄHIGEM MATERIAL UND DEREN VERWENDUNG | EP85905752.0 | 1985-11-26 | EP0203119A1 | 1986-12-03 | MERZ, Walter |
Le dispositif pour le transport de matériaux coulants sous forme pulvérulente, granuleuse, pâteuse, de grenailles ou en morceaux dans un tube (14) comprend une vis sans fin coaxiale (16) tournant en marche avant ou arrière et des moyens pour son entraînement. Ces moyens permettent d'obtenir une avance sans rotation et un recul avec une rotation régulière de la vis sans fin (16) de façon que la matière à transporter (20) reste stationnaire axialement (A) lors du recul. Grâce à la colonne très dense de matière à transporter les paliers deviennent superflus; s'ils sont prévus, ils seront disposés à l'extérieur de la colonne de matière (20). La vis sans fin (16) est en une seule pièce et la distance entre la vis (16) et le tube (14) est légèrement plus grande que la grandeur moyenne des grains ou des morceaux de la matière à transporter. Le dispositif est utilisé de préférence pour l'alimentation de transporteurs pneumatiques ou hydrauliques. |