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    • 1. 发明授权
    • Conveyor belt drive sprocket locking assembly
    • 输送带驱动链轮锁定组件
    • US07207435B2
    • 2007-04-24
    • US11214550
    • 2005-08-30
    • Craig A. BudeMichael A. HoschScott M. HallDaniel E. Ertel
    • Craig A. BudeMichael A. HoschScott M. HallDaniel E. Ertel
    • B65G23/06
    • B65G23/06
    • A locking assembly for use with drive sprockets positioned to drive a conveyor belt supported by a conveyor frame assembly. The locking device includes a main body that extends through each of the drive sprockets positioned along a drive shaft of the conveyor assembly. The locking device includes spaced receiving notches that each receive one of the drive sprockets to maintain a desired spacing between the drive sprockets when the locking device is in its locking position. The locking device is movable to a release position to independently release each of the drive sprockets from the locking device. Once released, each of the drive sprockets are movable along the length of the drive shaft to facilitate cleaning of the conveyor assembly. When the locking device is in its locking position, the combination of the locking device and drive sprockets is movable along the longitudinal length of the drive shaft.
    • 用于驱动链轮的锁定组件,其被定位成驱动由输送机框架组件支撑的传送带。 锁定装置包括主体,其延伸穿过沿着传送器组件的驱动轴定位的每个驱动链轮。 锁定装置包括间隔开的接收凹口,当锁定装置处于其锁定位置时,它们各自容纳驱动链轮中的一个,以在驱动链轮之间保持期望的间隔。 锁定装置可移动到释放位置以独立地从锁定装置释放每个驱动链轮。 一旦释放,每个驱动链轮可以沿着驱动轴的长度移动,以便于清洁输送机组件。 当锁定装置处于其锁定位置时,锁定装置和驱动链轮的组合可沿驱动轴的纵向长度移动。
    • 3. 发明授权
    • Conveyor construction
    • US06298981B1
    • 2001-10-09
    • US09450368
    • 1999-11-29
    • Michael A. HoschScott M. HallDaniel E. ErtelKenneth A. Hansen
    • Michael A. HoschScott M. HallDaniel E. ErtelKenneth A. Hansen
    • B65G2344
    • B65G23/44
    • A conveyor construction includes a frame, a drive section stationarily mounted to the frame, and a tensioning section mounted for longitudinal movement relative to the frame. The drive and tensioning sections each include a spindle, and a belt is engaged with the spindles. The frame defines an upper support surface disposed below the upper run of the belt, and mating engagement structure is provided on the belt and the upper support surface for preventing lateral movement of the belt relative to the upper support surface. The drive and tensioning sections include spaced side members, each of which defines an inwardly opening cavity for receiving a bearing assembly for rotatably supporting the spindle. The bearing-receiving cavity faces the spindle, and each side member defines outer wall structure which engages and supports the belt outwardly of the spindle. The belt overlies the outer wall structure of each side member and the adjacent belt-engaging portion of the spindle, so as to seal the inwardly facing opening and prevent ingress of moisture or other contaminants into the bearing-receiving cavity. A drive and locking arrangement for imparting movement to the tensioning section and for selectively locking the tensioning section in position includes a pair of pinion carriers or retainer blocks mounted one to each side of the frame, with a drive pinion being rotatably supported by the retainer blocks. Each side member includes integrally formed gear teeth engageable with opposite ends of the drive pinion, and a drive pinion actuator is engaged with one side of the frame for imparting rotation to the drive pinion to extend and retract the tensioning section. A locking arrangement is interconnected with the opposite end of the drive pinion, and functions to selectively frictionally engage the drive pinion with one of the retainer blocks to prevent rotation of the drive pinion and to thereby maintain the tensioning section in a desired position relative to the frame.
    • 4. 发明授权
    • Sanitary conveyor transfer tail assembly
    • 卫生输送机尾部总成
    • US07681719B2
    • 2010-03-23
    • US11186739
    • 2005-07-21
    • Michael A. HoschScott M. HallDaniel E. Ertel
    • Michael A. HoschScott M. HallDaniel E. Ertel
    • B65G21/00B65G21/06
    • B65G21/06B65G15/62B65G21/105B65G47/66
    • A transfer tail assembly for use with a conveyor assembly that creates a reduced radius transition from the upper run to the lower run of a continuous conveyor belt used with the conveyor assembly. The transfer tail assembly includes a stationary nose bar over which the continuous conveyor belt passes at the end of the conveyor assembly. The nose bar is supported at the end of the conveyor assembly by a series of support brackets mounted to a cross support. Each of the support brackets is formed from a wear resistant material and contacts the conveyor belt as the conveyor belt passes around the transfer tail assembly. The nose bar, support brackets and cross support are mounted within the tail assembly without the use of any external connectors and thus require no tooling to assemble and disassemble.
    • 用于与传送器组件一起使用的传送尾部组件,其产生从与输送机组件一起使用的连续传送带的上部行程到下部行程的减小的半径过渡。 传送尾部组件包括固定的鼻梁,连续的传送带在传送组件的端部通过该鼻杆。 鼻杆通过一系列支撑支架支撑在输送机组件的末端,这些支架支撑在交叉支架上。 每个支撑支架由耐磨材料形成,并且随着传送带绕过传送尾部组件而与传送带接触。 鼻杆,支撑支架和交叉支撑件安装在尾部组件内,而不使用任何外部连接器,因此不需要工具进行组装和拆卸。
    • 5. 发明申请
    • EXTRUDED RAIL WITH CONTAINED MOUNTING CAVITY
    • 带有安装孔的挤压轨道
    • US20110114457A1
    • 2011-05-19
    • US12944276
    • 2010-11-11
    • Daniel E. ErtelScott M. HallMichael A. Hosch
    • Daniel E. ErtelScott M. HallMichael A. Hosch
    • B65G21/22B23P19/00
    • B65G21/02Y10T29/49826
    • An extruded rail for mounting objects along the length of the rail that include an enclosed receiving and containment cavity. The extruded rail includes a receiving and containment cavity that extends from an inner surface of the rail. The receiving and containment cavity includes upper and lower walls and a back wall that define an enclosed containment area. An alignment notch is formed in the generally planar outer surface of the side rail and aligned with the receiving and containment cavity. When an object is to be attached to the rail, an opening is formed in the side rail at the alignment notch. As material is removed from the side rail during formation of the opening, the received material is entrapped within the receiving and containment cavity. Thus, the extruded rail of the disclosure receives and contains material removed during attachment of an object to the rail.
    • 用于沿着轨道的长度安装物体的挤压轨道,其包括封闭的接收和容纳腔。 挤出轨道包括从轨道的内表面延伸的接收和容纳腔。 接收和容​​纳腔包括上壁和下壁以及限定封闭的密封区域的后壁。 在侧轨的大致平面的外表面上形成对准凹口并与接收和容纳腔对准。 当物体要连接到轨道上时,在对准凹口处的侧轨中形成开口。 当在开口形成期间材料从侧轨移除时,所接收的材料被截留在接收和容纳腔内。 因此,本公开的挤压轨道接收并包含在将物体附接到轨道时移除的材料。
    • 7. 发明授权
    • Conveyor construction
    • 输送机施工
    • US6109427A
    • 2000-08-29
    • US8720
    • 1998-01-19
    • Michael A. HoschScott M. HallDaniel E. ErtelKenneth A. Hansen
    • Michael A. HoschScott M. HallDaniel E. ErtelKenneth A. Hansen
    • B65G15/00B65G21/00B65G23/44B65G23/04
    • B65G23/44
    • A conveyor construction includes a frame, a drive section stationarily mounted to the frame, and a tensioning section mounted for longitudinal movement relative to the frame. The drive and tensioning sections each include a spindle, and a belt is engaged with the spindles. The frame defines an upper support surface disposed below the upper run of the belt, and mating engagement structure is provided on the belt and the upper support surface for preventing lateral movement of the belt relative to the upper support surface. The drive and tensioning sections include spaced side members, each of which defines an inwardly opening cavity for receiving a bearing assembly for rotatably supporting the spindle. The bearing-receiving cavity faces the spindle, and each side member defines outer wall structure which engages and supports the belt outwardly of the spindle. The belt overlies the outer wall structure of each side member and the adjacent belt-engaging portion of the spindle, so as to seal the inwardly facing opening and prevent ingress of moisture or other contaminants into the bearing-receiving cavity.
    • 输送机结构包括框架,固定地安装到框架的驱动部分和安装成相对于框架纵向移动的张紧部分。 驱动和张紧部分各自包括主轴,并且带与主轴接合。 框架限定了位于带的上部行程下方的上支撑表面,并且配合接合结构设置在带和上支撑表面上,用于防止带相对于上支撑表面的横向移动。 驱动和张紧部分包括间隔开的侧部构件,每个构件限定用于容纳用于可旋转地支撑心轴的轴承组件的向内开口腔。 轴承座腔面向主轴,并且每个侧部件限定外壁结构,该外壁结构将皮带向主轴外侧接合并支撑。 带子覆盖在每个侧部件的外壁结构和主轴的相邻皮带接合部分之间,以密封面向内的开口,并防止湿气或其它污染物进入轴承接收腔。
    • 8. 发明授权
    • Extruded rail with contained mounting cavity
    • 挤压轨道带有安装空腔
    • US08763793B2
    • 2014-07-01
    • US12944276
    • 2010-11-11
    • Daniel E. ErtelScott M. HallMichael A. Hosch
    • Daniel E. ErtelScott M. HallMichael A. Hosch
    • B65G21/00B65G21/02
    • B65G21/02Y10T29/49826
    • An extruded rail for mounting objects along the length of the rail that include an enclosed receiving and containment cavity. The extruded rail includes a receiving and containment cavity that extends from an inner surface of the rail. The receiving and containment cavity includes upper and lower walls and a back wall that define an enclosed containment area. An alignment notch is formed in the generally planar outer surface of the side rail and aligned with the receiving and containment cavity. When an object is to be attached to the rail, an opening is formed in the side rail at the alignment notch. As material is removed from the side rail during formation of the opening, the received material is entrapped within the receiving and containment cavity. Thus, the extruded rail of the disclosure receives and contains material removed during attachment of an object to the rail.
    • 用于沿着轨道的长度安装物体的挤压轨道,其包括封闭的接收和容纳腔。 挤出轨道包括从轨道的内表面延伸的接收和容纳腔。 接收和容​​纳腔包括上壁和下壁以及限定封闭的密封区域的后壁。 在侧轨的大致平面的外表面上形成对准凹口并与接收和容纳腔对准。 当物体要连接到轨道上时,在对准凹口处的侧轨中形成开口。 当在开口形成期间材料从侧轨移除时,所接收的材料被截留在接收和容纳腔内。 因此,本公开的挤压轨道接收并包含在将物体附接到轨道时移除的材料。
    • 10. 发明授权
    • Continuous belt conveyor tensioning mechanism
    • 连续带式输送机张紧机构
    • US06685009B1
    • 2004-02-03
    • US10438961
    • 2003-05-15
    • Michael A. HoschScott M. HallDaniel E. Ertel
    • Michael A. HoschScott M. HallDaniel E. Ertel
    • B65G2344
    • B65G23/44
    • A conveyor construction includes a frame having a pair of side members, a belt and a tensioning section mounted for longitudinal extendable and retractable movement relative to the frame for establishing a desired tension on the belt. The tensioning section includes a spindle engaged with the belt and a pair of side plate structures connected to the spindle and located one adjacent each frame side member. A drive member is rotatably mounted relative to the frame and is drivingly engaged with the tensioning section for imparting longitudinal extendable and retractable movement relative to the frame upon rotation of the drive member. A locking device inserts a frictional locking force on the side plate structures relative to the frame side members for selectively fixing the position of the tensioning section relative to the frame. A restraining arrangement is incorporated in the side plate structures for limiting the retractable movement of the tensioning section upon the imposition of a random force applied to the spindle and overcoming the frictional locking force of the locking device so as to substantially retain the desired tension on the belt and preserve operability of the drive member.
    • 输送机结构包括具有一对侧构件的框架,带和张紧部分,其被安装用于相对于框架的纵向可伸缩运动,用于在带上建立期望的张力。 张紧部分包括与皮带接合的心轴和连接到心轴并且位于每个框架侧构件相邻的一对侧板结构。 驱动构件相对于框架可旋转地安装并且与张紧部分驱动地接合,用于当驱动构件旋转时相对于框架施加纵向的可伸缩运动。 锁定装置相对于框架侧构件在侧板结构上插入摩擦锁定力,用于选择性地固定张紧部分相对于框架的位置。 限制装置结合在侧板结构中,用于限制张紧部分在施加到主轴上的随机力的可伸缩运动时,克服锁定装置的摩擦锁定力,从而基本上保持所需张力 皮带并保持驱动部件的可操作性。