| 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 | 一种阶梯式螺旋运输破碎设备 | CN201610144021.X | 2016-03-14 | CN105775789A | 2016-07-20 | 蔡惠文 |
| 本发明涉及一种阶梯式螺旋运输破碎设备,包括底板,底板上架设有支架;支架上端架设有下料斗;底板左端焊接有一号支撑板;一号支撑板上安装有电机座;电机座上安装有驱动电机;驱动电机与螺旋运输管相连接;螺旋运输管下方依次设置有一号输料管和二号输料管;底板上方焊接有固定板;固定板从上到下依次安装有螺旋运输管、一号输料管、二号输料管,通过固定板进一步固定螺旋运输管、一号输料管、二号输料管;底板上方安放有收集箱;底板上方安装有环形破碎装置;环形破碎装置位于收集箱的正上方。本发明能实现阶梯式快速输送物料和环形破碎的功能,具有操作简便、劳动强度小、成本低、设备占用面积小、运输速度快和工作效率高等优点。 | ||||||
| 22 | 散装物料输送系统、移动单辊破碎机和其控制方法、系统 | CN201610277577.6 | 2016-05-03 | CN105728168A | 2016-07-06 | 方义飞 |
| 本发明公开了一种移动式单辊破碎机的控制方法及系统,该移动式单辊破碎机包括破碎部、行走部,所述破碎部包括破碎齿辊,该控制方法包括:步骤610、检测破碎部的破碎齿辊的运行转速,判断运行转速是否小于其阻转基准转速,如是,进行维持时间计时;如否,继续检测所述破碎齿辊的运行转速;步骤620、判断维持时间是否大于第一设定时间,如是,执行步骤630;如否,将维持时间清零;步骤630、控制移动式单辊破碎机的破碎部进行蓄能。蓄能的步骤使得破碎部的破碎动能能够恢复一定或者恢复到最大的状态之后再进行破碎工作,故过载概率降低、提高了破碎机的破碎效率。本发明还提供了应用上述控制方法或者控制系统的移动式单辊破碎机、散装物料输送系统。 | ||||||
| 23 | 一种物料松动机 | CN201610206715.1 | 2016-04-05 | CN105692258A | 2016-06-22 | 张春伟; 周兴国; 宁子超 |
| 本发明公开了一种物料松动机,包括跨设在车厢上方的机架,还包括:升降装置,升降装置包括输出器和链轮,链轮上均设有于链轮配合的链条;松动模块,松动模块包括松动架和锯齿装置,锯齿装置顶部设有减速电机;行走装置,用于带动机架沿车厢延伸方向行驶。进行松动作业时,松动模块在升降装置的带动下,并依靠锯齿装置的循环往复运动,逐渐将物料松散,当锯齿准直达到物料的底层时,直接启动行走装置,使机架行走速率与松动模块运转速率相匹配,沿着本节车厢逐步松散物料,直至到达本节车厢的终点,才需要再次提升松动模块,相比于传统的钻头式松动机每次需要把松动机构提升至物料表面的情况,本产品能够高效的对物料进行松动,并且成本较低。 | ||||||
| 24 | 一种组合式螺旋运输破碎设备 | CN201610143334.3 | 2016-03-14 | CN105621123A | 2016-06-01 | 蔡惠文 |
| 本发明涉及一种组合式螺旋运输破碎设备,包括底板,底板上架设有支架;支架上端架设有下料斗;底板左端焊接有一号支撑板;一号支撑板上安装有电机座;电机座上安装有驱动电机;驱动电机与螺旋运输管相连接;螺旋运输管下方依次设置有一号输料管和二号输料管;底板上方焊接有固定板;固定板从上到下依次安装有螺旋运输管、一号输料管、二号输料管,通过固定板进一步固定螺旋运输管、一号输料管、二号输料管;底板上方安放有收集箱;底板上方安装有环形破碎装置;环形破碎装置位于收集箱的正上方。本发明能实现阶梯式快速输送物料和环形破碎的功能,具有操作简便、劳动强度小、成本低、设备占用面积小、运输速度快和工作效率高等优点。 | ||||||
| 25 | 铅渣自动定量输送机 | CN201510316055.8 | 2015-06-10 | CN104909178A | 2015-09-16 | 秦中根 |
| 本发明公开了一种铅渣自动定量输送机,解决了现有的铅渣输送设备污染工作环境,并且使铅渣加工效果很差的技术问题,本发明铅渣自动定量输送机,包括机体,所述机体上设有进料装置,机体中设有铅渣处理装置,机体的一侧设有输送装置,所述进料装置包括进料箱,进料箱的上部具有上部开口,进料箱的下部具有下部开口,进料箱中设有筛料板,所述筛料板上具有可调大小的筛料孔,所述铅渣处理装置包括设在进料装置下方的储料箱、搅拌电机以及设在储料箱下方的传输带,所述搅拌电机的电机轴上设有破碎辊,所述破碎辊伸入储料箱中,储料箱的下部设有卸料口,所述传输带设在卸料口的下方,所述卸料口上设有能打开或关闭卸料口的挡块。 | ||||||
| 26 | 一种砂岩料仓上箅子 | CN201310691423.8 | 2013-12-17 | CN104709730A | 2015-06-17 | 杨志刚; 马慧清; 刘保泽 |
| 本发明公布了一种砂岩料仓上箅子,属于水泥生产设备技术领域。该上箅子设置在于砂岩料仓口平面上部,所述的箅子设置有纵横交错的网格,至少一个方向的网格由固定设置在箅子上的转动轮组成。本装置结构简单,应用在砂岩料仓上易于实现,效果良好,在水泥生产过程使生产线不会再因为砂岩的粒度太大造成各种停机或者皮带破裂的事件发生,能够降低水泥生产成本,提高开机率。 | ||||||
| 27 | 钒氮合金全自动卸料装置 | CN201410562821.4 | 2014-10-20 | CN104326277A | 2015-02-04 | 秦东兴; 严寒冰; 李光旭 |
| 本发明涉及一种钒氮合金全自动卸料装置,其包括电控系统、底座、Z轴移动机构、Y轴移动机构、打散机构及翻转机构;Z轴移动机构、Y轴移动机构和打散机构均与电控系统电连接并由电控系统控制动作;翻转机构由Y轴移动机构驱动横向位移,其包括与所述Y轴移动机构装配连接的机架、匹配装设于所述机架上的翻转驱动电机、同步带传动装置和夹块以及装设于所述翻转驱动电机底端的翻转减速机。本发明结构设计合理、紧凑,尤其,翻转机构具有翻转和夹紧功能,可方便实现将石墨坩埚抱起和倾倒,操作使用稳定、可靠且安全,卸料效率高,有效降低了工人的劳动强度和粉尘伤害,显著提高了生产效率。 | ||||||
| 28 | 钒氮合金全自动卸料装置 | CN201410559358.8 | 2014-10-20 | CN104326276A | 2015-02-04 | 严寒冰; 秦东兴; 李光旭 |
| 本发明涉及一种钒氮合金全自动卸料装置,其包括电控系统、底座、Z轴移动机构、Y轴移动机构、打散机构及翻转机构;Z轴移动机构、Y轴移动机构和翻转机构均与电控系统电连接并由电控系统控制动作;打散机构包括匹配装设于Z轴移动机构上的打散机架、装设于打散机架上的打散气缸装置和导向杆组件、法兰盘和锤杆;打散气缸装置包括打散缸体和打散活塞杆;导向杆组件包括导向套筒、固定套和导向杆;法兰盘水平装设于导向杆的底端;锤杆竖直装设于法兰盘的底部且最底端呈锥尖状结构。本发明结构设计合理、紧凑,不仅卸料效率高,而且可实现对钒氮合金块自动打散,打散效率高、效果好,能有效减轻工人的劳动强度和粉尘伤害,提高了生产效率。 | ||||||
| 29 | 钒氮合金全自动卸料装置 | CN201410558107.8 | 2014-10-20 | CN104326275A | 2015-02-04 | 秦东兴; 李光旭 |
| 本发明涉及一种钒氮合金全自动卸料装置,其包括底座、Z轴移动机构、Y轴移动机构、翻转机构、打散机构和电控系统;Z轴移动机构、Y轴移动机构、翻转机构以及打散机构均与电控系统电连接并由所述电控系统控制动作;Z轴移动机构装设于所述底座上,其包括Z轴支架、Z轴直线模组、Z轴顶横梁、Z轴步进电机和Z轴减速机;Y轴移动机构装设于Z轴直线模组上,其包括Y轴机架、导轨、Y轴轴承座、Y轴减速机、Y轴电机和同步带;翻转机构装设于Y轴移动机构一侧,其一端装配连接同步带,另一端装夹石墨坩埚;打散机构装设于Z轴直线模组上。本发明结构设计合理、紧凑,装置整体运行稳定、可靠,卸料效率高,能有效减轻工人的劳动强度和粉尘伤害。 | ||||||
| 30 | Behälter für die Lagerung und dosierte Austragung von Holzteilchen, wie Holzspäne, Hackschnitzel und Sägemehl | EP98105576.7 | 1998-03-27 | EP0870705B1 | 2002-07-03 | Krystkiewicz, Wieslaw |
| 31 | Behälter für die Lagerung und dosierte Austragung von Holzteilchen, wie Holzspäne, Hackschnitzel und Sägemehl | EP98105576.7 | 1998-03-27 | EP0870705A1 | 1998-10-14 | Krystkiewicz, Wieslaw |
Die Erfindung betrifft einen Behälter für die Lagerung und dosierte Austragung von Holzteilchen, insbesondere Holzspänen, Hackschnitzeln und Sägemehl, mit einer am Behälterboden (2,2a) angeordneten Austragseinrichtung, die einen über dem Behälterboden (2,2a) drehbaren Flügelrotor (4,4a) und wenigstens eine in dem Behälterboden vorgesehene Austragsöffnung umfaßt. Gemäß der Erfindung weist der Flügelrotor (4,4a) unterschiedlich lange mit Schneiden (11,12) versehene Flügel (9,10) auf. Entsprechend dieser Erfindungslösung wird einerseits das zur Drehung des Flügelrotors erforderliche Drehmoment verringert, indem teilweise die Flügellänge verkürzt wird, und andererseits durch Schneiden dafür gesorgt wird, daß die Flügel auch fest zusammengebackene Holzteilchen durchdringen, entsprechend auflockern, bewegen und so der Austragsöffnung zuführen können. |
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| 32 | 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. | ||||||
| 33 | PARTICULATE DISAGGREGATING METHOD AND APPARATUS | US15258458 | 2016-09-07 | US20160376097A1 | 2016-12-29 | Michael L. Anderson |
| A method and means for disaggregating aggregated particulate. A housing contains a rotational motor and a vibrating motor also has an auger drivingly linked to the rotational motor. Legs extend from the housing in the same direction as the auger and the device rests upon the aggregated particulate. Upon driving the rotational motor, the auger bores through the aggregated particulate, thereby disaggregating particulate. The vibrating motor is also driven to vibrate and further disaggregate the particulate. A plate device with a vibrating motor attached is also used to disaggregate the particulate, such as by teeth extending from the bottom of the plate that are driven into the aggregate by the weight of the plate when vibrated. | ||||||
| 34 | Particulate disaggregating method and apparatus | US14082770 | 2013-11-18 | US09469472B2 | 2016-10-18 | Michael L. Anderson |
| A method and means for disaggregating aggregated particulate. A housing contains a rotational motor and a vibrating motor also has an auger drivingly linked to the rotational motor. Legs extend from the housing in the same direction as the auger and the device rests upon the aggregated particulate. Upon driving the rotational motor, the auger bores through the aggregated particulate, thereby disaggregating particulate. The vibrating motor is also driven to vibrate and further disaggregate the particulate. A plate device with a vibrating motor attached is also used to disaggregate the particulate, such as by teeth extending from the bottom of the plate that are driven into the aggregate by the weight of the plate when vibrated. | ||||||
| 35 | Conveyor having a material attenuating device, and a material attenuating device therefor | US296195 | 1989-01-12 | US4962896A | 1990-10-16 | Daniel J. Robinson |
| A conveyor for conveying material from one location to another location includes a device for contacting the material on the conveyor as the material is being conveyed to crush, break, pulverize, or otherwise attenuate the material. The material attenuating device is particularly well suited for use on vibratory conveyors but can also be used in conjunction with other types of conveyors such as belt conveyors and the like. The material attenuating device includes a lever pivotally mounted for oscillatory motion. The lever is connected to the conveyor, or to a drive for the conveyor. The free end of the lever has a tool for contacting the material on the conveyor as it is being conveyed as the lever oscillates to crush, break, pulverize or otherwise attenuate the material. | ||||||
| 36 | A device for breaking up compressed material packed in a sack | US31970472 | 1972-12-29 | US3841572A | 1974-10-15 | CORDOBA G |
| A device for impact breaking up of compressed material packed in a sack includes a frame and means to support a driving and vibrating assembly of the device. A vibrating element or tunnel is inclined and is formed by the joining of two rigid bodies having concave U-shaped cross sections, the respective concavities of the bodies being face to face and having therebetween interchangeable vibration absorbing separators. The upper body has a shorter length and has, at one of its ends, a roller which may turn freely and whose height may be regulated, while the lower body has, on its wide external face, suitable supports for the vibrating assembly. The vibrating and supporting means of the vibrating assembly are elastic bodies arranged in pairs.
|
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| 37 | Conveyor having load processing means | US6291060 | 1960-10-17 | US3016204A | 1962-01-09 | LONG JOHN B |
| 38 | Ensilage loosener | US28798852 | 1952-05-15 | US2754103A | 1956-07-10 | HEDLUND WILFRED E; HEDLUND MARTIN R; HEDLUND JUNIOR M |
| 39 | PARTICULATE DISAGGREGATING METHOD AND APPARATUS | US14082770 | 2013-11-18 | US20140138463A1 | 2014-05-22 | Michael L. Anderson |
| A method and means for disaggregating aggregated particulate. A housing contains a rotational motor and a vibrating motor also has an auger drivingly linked to the rotational motor. Legs extend from the housing in the same direction as the auger and the device rests upon the aggregated particulate. Upon driving the rotational motor, the auger bores through the aggregated particulate, thereby disaggregating particulate. The vibrating motor is also driven to vibrate and further disaggregate the particulate. A plate device with a vibrating motor attached is also used to disaggregate the particulate, such as by teeth extending from the bottom of the plate that are driven into the aggregate by the weight of the plate when vibrated. | ||||||
| 40 | Reclaimer device and method thereof | US10391972 | 2003-03-18 | US20030173431A1 | 2003-09-18 | Kevin Hood; Bengt Nilsson; Chris Waller |
| An improved reclaimer device and a method thereof, wherein overall efficiency is maximized via decreased installation and operation costs, and wherein performance is optimized via aggressive treatment of reclaimed bulk material prior to and during exit from the reclaim boom, thereby minimizing costly downtime by preventing jams caused by clumped materials and ensuring the efficient passage of appropriately sized bulk materials from a preferred, generally horizontal conveyor into an out-feed chute and conveyor. | ||||||
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