| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 一种新型颗粒状物料短距离水平输送装置 | CN201510201505.9 | 2015-04-27 | CN104828485A | 2015-08-12 | 黄申; 王保国; 孙计亮 |
| 本发明属于颗粒状物料输送装置领域,尤其涉及一种新型颗粒状物料短距离水平输送装置,其特征在于:所述管道的左端设置有所述进料口,靠近所述进料口一端的所述管道上固定有所述大法兰A,所述链轮A固定在所述管道的左端,所述传动链连接所述链轮A和所述链轮B,所述链轮B固定在所述工作头上,所述工作头固定在所述电机上,所述电机固定在所述机架上,所述管道右端设置有所述出料口,靠近所述出料口的一端的所述管道上固定有所述大法兰,所述机壳固定在所述管道上,所述管道的两侧分别固定有所述小法兰A、小法兰B。 | ||||||
| 2 | 无磨损的绞龙提升机 | CN201610058313.1 | 2016-01-29 | CN105564919A | 2016-05-11 | 张海娟 |
| 本发明一种无磨损的绞龙提升机由转筒,出料装置,进料装置,密封连接装置,轴承装置和皮带轮组成。转筒由支架,螺旋叶片,筒体和传动轴组成。传动轴和筒体由支架连接为一体;螺旋叶片和筒体焊接固定为一个整体;转筒两端的筒体口上安装着密封连接装置。出料装置和进料装置通过密封连接装置连接在筒体上,转筒上的传动轴的一端通过轴承装置延伸出出料装置;皮带轮固定安装在延伸出出料装置的传动轴上。无磨损的绞龙提升机采取转筒输送,物料、粮食在转筒内螺旋输送过程中,因为螺旋叶片和筒体是固定为一体的,物料、粮食通过螺旋叶片的旋转用力向上运动,就避免了物料、粮食的破损,减少物料、粮食的浪费。 | ||||||
| 3 | 预干燥煤粉传输进料装置 | CN201511027371.X | 2015-12-30 | CN106927200A | 2017-07-07 | 张晋喜; 刘波 |
| 本发明涉及预干燥煤粉传输进料装置,包括支架,双层管和送料装置,双层管包括输料管和外管套,输料管和外管套为同一轴线,输料管和外管套长度相同,输料管与外管套之间形成通气腔,通气腔两端密封,通气腔前端设有出气口,通气腔后端设有进气口,输料管内设有送料装置,送料装置包括螺旋送料主体和驱动电机,驱动电机连接在螺旋送料主体转轴的后端,外套管外侧设有支架,输料管前端设有进料槽,进料槽倾斜向下,输料管后端设有出料槽,出料槽倾斜向下。本发明的有益效果是:煤粉通过输料管时等到充分的干燥,方便煤粉存放或应用,提升煤粉质量。 | ||||||
| 4 | 一种食用菌传送及称重装置 | CN201610185717.7 | 2016-03-29 | CN105621031A | 2016-06-01 | 夏义良 |
| 一种食用菌传送及称重装置,它包括传送部分与称重部分;所述的传送部分包括:滚筒体、环形齿轮、内螺旋、电机、驱动齿轮、菌体出口、菌体入口,滚筒体的内壁上有用来推动流质菌体前行的内螺旋,滚筒体外壁上有用来驱动其转动的环形齿轮,环形齿轮通过驱动齿轮与电机相连接,滚筒体的一端有菌体出口,滚筒体的另一端有菌体入口;所述的称重部分包括:称重箱、阀门、出口管、电子称、斜面,称重箱位于菌体出口的正下方,电子称的上方固定有称重箱,阀门安装在出口管中部,出口管安装在称重箱的底部,称重箱的底部有斜面。通过本装置,完成对流质性的菌体的称重与自动灌装,可以实现食用菌的精准称重分装,而不对菌体产生破损。 | ||||||
| 5 | 一种结晶体析出连续传送装置 | CN201511015107.4 | 2015-12-31 | CN105540172A | 2016-05-04 | 金伟强 |
| 本发明提供一种结晶体析出连续传送装置,包括围成圆筒状的格栅、弹簧状的输送桨片和筒状壳体,所述输送桨片的内周与所述筒状的格栅的外周相适应,所述输送桨片的外周与所述筒状外壳的内周相适应,所述筒状的格栅、输送桨片和筒状壳体依次嵌套形成三层嵌套结构,所述筒状壳体内部的一端设置有电机驱动的驱动端盖,所述输送桨片一端固定在所述驱动端盖上。所述筒状壳体的一端开有与所述输送桨片配合的出料孔,本发明中通过所述输送桨片的自转,产生的物料由于离心力紧贴所述筒状壳体的内壁,由于输送桨片类似螺杆挤出机的结构,物料被连续推出出料口,提高了连续生产能力。 | ||||||
| 6 | 一种可输送粘性物料的螺旋给料器 | CN201310644472.6 | 2013-12-05 | CN104692048A | 2015-06-10 | 王树峰 |
| 本发明涉及饲料加工机械领域,更具体的说涉及一种可输送粘性物料的螺旋给料器,包括:动力装置、进料口、料槽、给料螺旋体、出料口、机架,所述料槽设置在所述机架上,所述给料螺旋体一端通过轴承固定在所述料槽的一端,另一端通过联轴器与所述动力装置相连。本发明的提供的可输送粘性物料的螺旋给料器,不仅可输送干性的粉料而且还可以输送粘性、湿性的物料,大大提高了给料器使用的灵活性,提高了生产效率。 | ||||||
| 7 | JPS5086079A - | JP14010074 | 1974-12-05 | JPS5086079A | 1975-07-11 | |
| 8 | CORELESS AUGER MANUFACTURE | US15557009 | 2016-03-09 | US20180056355A1 | 2018-03-01 | Mattheus Willem Johannes KUHN; Hendrick Willem van DEVENTER; Johan Lodewikus ERASMUS |
| A method is provided for the handling of coreless auger produced by an auger production machine from which the coreless auger emerges with a linear motion component and a rotational motion component. The method includes guiding the rotating auger for linear movement away from the production machine toward a temporary storage facility that has a cylindrical receptacle rotatable about its own axis and a coaxial rotatable feed guide having an axial inlet for formed auger and an outwardly directed outlet for directing formed auger toward an inner periphery of the cylindrical receptacle; rotating the cylindrical receptacle and allowing the feed guide to rotate about the axis of its inlet that is roughly coincident with the axis of auger entering the axial inlet of the feed guide such that the outwardly directed outlet may move around the interior of the receptacle in a circular path to direct auger toward the inner periphery of the cylindrical receptacle and form a coil thereof. The cylindrical receptacle is rotated at a speed selected to counteract the rotation of the auger about its own axis. | ||||||
| 9 | FEEDER FOR BULK SOLIDS | US15600413 | 2017-05-19 | US20170334655A1 | 2017-11-23 | CORRIE IAN NICHOL |
| A feeder for bulk solids has a rotatable bin with an open bottom and an open top and is tilted so that one side of the bin is substantially vertical. A rotating auger is located within the bin having a vertically oriented exposed helical fin. Longitudinal ribs are secured on the inner surface of the bin and spaced radially. Material is loaded into the open top of the rotating bin, tumbling the material towards the bottom of the bin causing the material to constantly contact the rotating auger. The auger then feeds the material through the open bottom of the bin. Ribs engage the material in the bin enhancing tumbling and feeding. | ||||||
| 10 | Systems and methods for extracting particulate from raw slurry material | US14590899 | 2015-01-06 | US09610521B2 | 2017-04-04 | David DeWaard |
| A processing system for separating raw slurry material into particulate materials and liquid materials comprising a processing structure, a frame, and a drive motor. The processing structure defines a processing chamber, an inlet, an outlet, and at least one pre-processing opening arranged between the inlet and the outlet. The frame supports the processing structure. Operation of the drive motor rotates the processing structure such that at least some of the particulate materials in the raw slurry material are transported from the inlet to the outlet, at least some of the liquid materials in the raw slurry material are allowed to flow back towards the inlet, and at least some of the liquid materials and at least some of the particulate materials are allowed to flow through the at least one pre-processing opening. | ||||||
| 11 | SYSTEMS AND METHODS FOR EXTRACTING SAND FROM RAW SLURRY MATERIAL | US12917728 | 2010-11-02 | US20110100930A1 | 2011-05-05 | Dave DeWaard |
| The present invention may be embodied as a processing system for processing raw slurry material. The processing system comprises a barrel member, at least one pre-processing member, and a plurality of separator members. The at least one pre-processing member and the plurality of separator members are supported by the barrel member, and the plurality of separator members define at least one separator gap. As the barrel member rotates about the processing axis A, the at least one pre-processing member transports at least a portion of the raw slurry material from the feed portion to the separator portion through the pre-processing portion. The plurality of separator members transport at least a portion of the raw slurry material from the pre-processing portion to the outlet opening through the separator portion. | ||||||
| 12 | Unitary screw conveyor apparatus | US469686 | 1990-01-26 | US5099985A | 1992-03-31 | James M. Lapeyre |
| Screw conveyor apparatus fabricated from integrally molded plastic modules is disclosed. The apparatus includes a multiplicity of modules axially aligned and joined or bonded so as to provide a unitary plastic screw conveyor of a desired length. A plastic axial member extending the length of the screw conveyor and which defines an elongated aperture of a non-circular cross-section is formed by joining or bonding the individual modules. In addition, each of the modules include a flight member which individually helically encircle not more than 360.degree., but when bonded together result in an overall flight member encircling more than 360.degree. and which extends the length of the joined or bonded modules. The plastic screw conveyor is driven by a drive shaft which has a non-circular cross-section and which is inserted through and cooperates with the non-circular aperture extending the length of the joined axial members. A drive or power source is connected to the drive shaft for rotating the apparatus. | ||||||
| 13 | Conveyor systems | US520869 | 1974-11-04 | US3944053A | 1976-03-16 | Michael Richard Hayes |
| A conveyor system in which free flowing granules or particles are conveyed through a flexible tube having a helical channel defined on the internal surface of the tube by rotating the tube about its longitudinal axis. | ||||||
| 14 | コアレスオーガ製造 | JP2017566225 | 2016-03-09 | JP2018511541A | 2018-04-26 | クーン, マテウス ウィレム ヨハネス; ヴァン デヴェンター, ヘンドリック ウィレム; エラスムス, ジョアン ロデウィクス |
| コアレスオーガが線形運動成分及び回転運動成分とともに出現するオーガ製造機械21によって製造されたコアレスオーガを処理する方法が提供される。本方法は、その自らの軸4を中心として回転可能な円筒形容器3と、成形されたオーガのための軸方向入口11及び成形されたオーガを円筒形容器の内周に向かって方向付けするための外向きの出口13を有する同軸回転可能な供給ガイド6とを有する一時貯蔵設備1に向かって、生産機械21から離れて直進移動するように回転するオーガをガイドすることと、円筒形容器を回転させて、供給ガイド6の軸方向入口に入るオーガの軸とほぼ一致するその入口の軸を中心として供給ガイドを回転させることを可能にして外向きの出口が、円筒形容器の内周に向かってオーガを方向付けするように円形の経路で容器の内部の周りを移動し、そのコイルを形成するようにすることとを含む。円筒形容器が、自らの軸を中心としたオーガの回転を相殺するように選択された速度で回転する。【選択図】図4 | ||||||
| 15 | Vertical conveyor | JP12492182 | 1982-07-16 | JPS5917411A | 1984-01-28 | MAEDA MASAO |
| PURPOSE:To convey a material in bulk upwards in a short time, by attaching a spiral steel plate to the inside of a steel pipe and using motive power to rotate the pipe. CONSTITUTION:A spiral steel plate 1 is attached to the inside of a steel pipe 11. A cover 6 is secured on the top of the steel pipe 11. The pipe is rotated by a motive power unit 8. The lower part of the pipe 11 is put in a material in bulk. When the pipe 11 is rotated, the material is moved up along the steel plate 1 by the centrifugal force of the rotation and put out through the outlet openings 13 of the pipe. | ||||||
| 16 | Device using spiral spring as carrying, sampling, number control and mixing means | JP7980382 | 1982-05-11 | JPS5817005A | 1983-02-01 | PIEERU DEYUSHIYADOO |
| 17 | Device for conveying the material in the dispensing system | JP2009514934 | 2007-06-08 | JP2009539731A | 2009-11-19 | スティーブン・エル・ベッカー; デール・エフ・バウマー |
| 計量分配システムにおいて材料を搬送する装置が開示される。 この装置は、小さな断面直径、大きな外径と長いピッチを有する1個以上のらせん状搬送部材を有する心なしのオーガー又はヘリックスを備える。 | ||||||
| 18 | Screw conveyor | JP20395584 | 1984-09-28 | JPS6093023A | 1985-05-24 | JIEEMUZU EMU RAPEIYA |
| 19 | Spiral feeding type tubular conveyor | JP10216076 | 1976-08-25 | JPS5229087A | 1977-03-04 | YUUJIIN ANJIERETSUTEI; YUUJIIN ANJIERETSUTEI JIYUNIA |
| 20 | Systems and methods for extracting particulate from raw slurry material | EP12000305.8 | 2012-01-19 | EP2478762A1 | 2012-07-25 | DeWaard, David |
A processing system for processing raw slurry material comprising a barrel member defining a feed portion, a processing chamber, and an outlet opening, at least one pre-processing member, and at least one pre-processing opening formed in the barrel member adjacent to a first portion of the pre-processing member. As the barrel member rotates, the at least one pre-processing member transports at least a portion of the raw slurry material such that at least some of the heavy particulate material in the raw slurry material is transported to the outlet opening, at least some of the liquid material in the raw slurry material is allowed to flow back towards the feed portion, and at least some of the liquid material and at least some of the light particulate material is allowed to flow through the at least one pre-processing opening.
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