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1. 发明申请

US20070102102A1 Process and apparatus for folding and applying onserts onto consumer goods 审中-公开
标题翻译：折叠和贴上消费品的工艺和设备
公开(公告)号：US20070102102A1
公开(公告)日：2007-05-10
申请号：US11642150
申请日：2006-12-20
申请人： Edmond Cadieux , Steve Campbell , James Evans , Steven Rinehart , G. Scott , Barry Smith , Steven Spiers , Linwood Carneal , Hubert Goodman , Joshua Roby
发明人： Edmond Cadieux , Steve Campbell , James Evans , Steven Rinehart , G. Scott , Barry Smith , Steven Spiers , Linwood Carneal , Hubert Goodman , Joshua Roby
IPC分类号： B29C65/00
CPC分类号： B65B61/202 , Y10T156/1051 , Y10T156/1746
摘要： A machine for folding and applying onserts onto consumer goods such as cigarette packs comprises a continuous roll of preprinted onserts and a transverse cutter assembly for cutting onsert segments from the continuous roll. Each onsert segment includes a pair of side-by-side preprinted onserts. A buckle folder receives each cut onsert segment and folds that segment along at least one transverse fold line. A longitudinal cutter assembly longitudinally cuts each folded onsert segment into two individual onserts. A transport system serially receives the individual folded onserts and moves the onserts along dual diverging paths where a pair of spaced apart lug belt conveyors receives the onserts from the discharge end of the transport system. Each lug belt conveyor includes spaced apart transverse lugs along the length thereof against which the onserts are positioned. A pair of spaced apart applicator wheels transfers the onserts from the conveyors onto spaced apart consumer goods traveling past the applicator wheels.
摘要翻译：用于折叠和应用到消费品如香烟包装上的机器包括连续的预先印刷的卷筒和用于从连续辊上切割片段的横向切割器组件。每个插入片段包括一对并排的预打印插件。一个带扣文件夹接收每个切割的插入段，并沿着至少一个横向折线折叠该段。纵向切割器组件将每个折叠的插入片段纵向切割成两个独立的插片。传送系统串联地接收各个折叠的片塞，并沿着双发散路径移动插座，其中一对间隔开的凸耳带式输送机从输送系统的排出端接收插头。每个凸耳带式输送机包括沿着其长度的间隔开的横向凸耳，其上安置有插头。一对间隔开的施加轮将输送机上的插头转移到经过涂抹器轮的间隔开的消费品上。

2. 发明申请

US20060019781A1 Continuously variable belt drive system 有权
公开(公告)号：US20060019781A1
公开(公告)日：2006-01-26
申请号：US11220212
申请日：2005-09-06
申请人： Joshua Roby
发明人： Joshua Roby
IPC分类号： F16H55/56
CPC分类号： F16H55/56 , F16H55/563 , F16H61/12 , F16H63/062 , F16H63/067
摘要： A belt-type continuously variable transfer system (15) includes a driving pulley assembly (20), a driven pulley assembly (22) and a V-shaped belt (24) engaged to transfer rotary power therebetween. The driven pulley assembly (22) can include a ratio adjustment mechanism (46) that adjusts the position of a rear sheave (40) relative to a forward sheave (42). The adjustment mechanism (46) includes a motor (170) and a worm gear mechanism (171, 172) that rotates an actuation screw (154). Rotation of the actuation screw (154) is reacted by a split nut (158) so that as the screw (154) rotates is translated along the axis (B) of the driven pulley assembly (22). Translation of the actuation screw (154) exerts pressure against the rear sheave (40) to push it toward the forward sheave (42), thereby altering the drive ratio of the pulley assembly. In one feature, the driven pulley assembly (22) includes a fail-safe mechanism (48) that operates when power is supplied to the motor (170) to hold the split nut (158) together. Once power is disrupted, the fail-safe mechanism (48) allows the components (1 58a-c) of the split nut (158) to be separated, disrupting the threaded engagement with the actuation screw (154). At this point, the actuation screw (154) is driven forward by a compression spring (190), thereby driving the rear sheave (40) forward to a predetermined drive ratio position. In another aspect of the invention, the driving pulley assembly (20) includes an idler pulley portion (65) radially inboard from the normal driving sheave surface (29, 31). As the belt speed decreases, the belt (24) migrates downward within the driving pulley assembly (20) until it falls within the idler pulley portion (65). At this point, the belt (24) is isolated from the rotation of the driving pulley assembly (20). The driving pulley assembly (20) also includes a belt tensioning mechanism (32) that maintains proper belt tension at all speeds and drive ratios. The tensioning mechanism (32) relies upon a pivotably mounted centrifugal weight arm (101) to provide tensioning as a function of speed. A compression spring (80) provides axial pressure to maintain belt tension over all drive ratios. The spring (80) acts against a specially curved cam edge (92) on a pivoting lever arm (90), which arm (90) transfers an axial force to the rear sheave (28) of the driven pulley assembly (20).

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