会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明申请
    • VORRICHTUNG UND VERFAHREN ZUM REDUZIEREN VON RÜCKSTELLKRÄFTEN VON PACKUNGSMÄNTELN IN EINER FÜLLMASCHINE
    • 装置及方法灌装机降低功耗套餐COATS势力
    • WO2013143892A1
    • 2013-10-03
    • PCT/EP2013/055477
    • 2013-03-15
    • ELOPAK SYSTEMS AG
    • BALTES, KlausVETTERS, André
    • B65B43/18B31B1/78B65B43/24B65B43/28
    • B65B43/24B31B50/782B65B43/185B65B43/285
    • Die Erfindung betrifft ein Verfahren zum Reduzieren von Rückstellkräften von Packungsmänteln in einer Füllmaschine. Flach gefaltete Packungsmantel werden aus einem Magazin der Füllmaschine entnommen, zu einem im Querschnitt ein Parallelogramm bildenden Packungsmantel aufgerichtet und anschließend an eine Transporteinrichtung zum Transportieren des aufgerichteten Packungsmantels entlang eines Transportweges übergeben. Um eine an das jeweilige Material des Packungsmantels angepasste Reduktion der Rückstellkraft zu ermöglichen, ohne die Zykluszeit für das Entnehmen und Auffalten des flach gefalteten Packungsmantels zu vergrößern, wird vorgeschlagen, die Rückstellkraft durch zeitweiliges Vergrößern der Innenwinkelzwischen den Packungswänden an den äußeren Knickkantenauf mehr als 90 ° zu reduzieren, während sich der aufgerichtete Packungsmantelsauf dem Transportweg der Transporteinrichtungbefindet. Die Reduktion der Rückstellkraft kann während der Bewegung oder während eines Stillstandes des Packungsmantels auf dem Transportweg erfolgen. Des Weiteren wird eine Füllmaschine zur Durchführung des Verfahrens vorgeschlagen.
    • 本发明涉及一种方法,以减少在填充机的包装壳的恢复力。 平折组壳体从填充机的盒中取出,为在横截面中形成组壳体平行四边形设定,然后转移到一个输送装置,用于沿传输路径传输的竖立包装壳体。 为了使适合于所述盒壳还原的恢复力而不的循环时间的平折组壳体,以增加的去除和部署的各自的材料的形状,它提出了通过在所述外Knickkantenauf暂时增加封装壁之间的内部角的恢复力大于90° 减少,而运输设备的直立Packungsmantelsauf传送路径。 在锻炼期间或在运输过程中的组壳体的静止期间,可能会发生的回复力的减少。 进一步提出的填充机用于执行该方法。
    • 2. 发明申请
    • CORNER POST APPLICATION SYSTEM
    • 角落应用系统
    • WO2012027705A2
    • 2012-03-01
    • PCT/US2011/049416
    • 2011-08-26
    • MOLLERS NORTH AMERICA, INC.BRUNSON, Bruce, W.BRAKE, Jason, A.MARTIN, Peter, C.VANSWEDEN, JonathanWAGNER, Thomas, E.
    • BRUNSON, Bruce, W.BRAKE, Jason, A.MARTIN, Peter, C.VANSWEDEN, JonathanWAGNER, Thomas, E.
    • B31B1/74B31B1/78B31B1/92B65D81/02B65D81/03
    • B65B13/181B65B9/135B65B11/02B65B59/02
    • A corner post application system (20) comprises a conveyor subsystem (24) and an enveloping machine (22) adapted to envelope a load (42) with a material (21). The system further includes a swing arm (70), an applicator arm (72) coupled to the swing arm (70) and adapted to move linearly, a corner post gripper (74) coupled to the applicator arm (72), and a controller (60). The controller (60) rotates the swing arm (70) about a vertical pivot axis (76) until a corner post (40) held by the corner post gripper (74) is aligned with adjacent sides (108a, 108b) that define a corner (48) of the load (42). The controller (60) thereafter stops rotation of the swing arm (70) and moves the applicator arm (72) linearly toward the corner (48) of the load (42) until the corner post (40) held by the corner post gripper (74) contacts the adjacent sides (108a, 108b) of the load (42). A sensor (128, 328)) may be included for detecting a corner (48) of the load (42), with the controller (60) aligning the corner post (40) based on detection by the sensor (128, 328).
    • 角落后施加系统(20)包括输送机子系统(24)和包封机(22),其适于用材料(21)包围负载(42)。 所述系统还包括摆臂(70),连接到所述摆臂(70)并适于线性移动的施加器臂(72),与所述施用器臂(72)联接的角柱夹爪(74),以及控制器 (60)。 控制器(60)围绕垂直枢转轴线(76)旋转摆臂(70),直到由角柱夹具(74)保持的角柱(40)与限定角部的相邻侧面(108a,108b)对准 (48)。 然后,控制器(60)停止旋转臂(70)的旋转,并且将施加器臂(72)线性地移动到负载(42)的角部(48),直到由角落夹具( 74)与负载(42)的相邻侧面(108a,108b)接触。 可以包括用于检测负载(42)的角部(48)的传感器(128,328)),其中控制器(60)基于传感器(128,328)的检测来对准角柱(40)。
    • 5. 发明申请
    • MITLAUFENDER SCHIEBER ZUM ÖFFNEN VON ENDEN VON SCHLAUCHSTÜCKEN
    • 旋转滑动打开由尾胶管拼块
    • WO2010015505A1
    • 2010-02-11
    • PCT/EP2009/059330
    • 2009-07-21
    • WINDMÖLLER & HÖLSCHER KGULLMANN, Klaus
    • ULLMANN, Klaus
    • B31B1/78B31B29/00
    • B31B2160/10B31B50/78B31B70/00B31B2150/00B31B2150/0014B31B2160/20
    • Die Erfindung beschreibt eine Vorrichtung (1) zum Öffnen von Enden von Schlauchstücken (13) zu offenen Bodenquadraten (14), welche aus zwei übereinander liegenden Wandungen bestehen, welche zumindest eine Transportvorrichtung umfasst, mit welcher die Schlauchstücke (13) in einer Transportrichtung (x), die quer zu ihrer Erstreckungsrichtung (z) verläuft, in horizontaler Lage förderbar sind, und welche zumindest ein Mittel (15) zum Öffnen der Bodenquadrate (14) umfasst, welches (15) in Erstreckungsrichtung (z) bewegbar ist, und mit welcher die obere Wandung eines Endes eines Schlauchstücks (13) zur Bildung eines offenen Bodenquadrates (14) auf sich selbst zurückklappbar ist. Das zumindest eine Mittel (15) zum Öffnen der Bodenquadrate (14) ist zumindest zeitweise gleichzeitig in Transportrichtung (x) und in Erstreckungsrichtung (z) der Schlauchstücke (13) bewegbar.
    • 本发明涉及一种装置(1),打开管件的端部(13),打开底部方块(14),它由两个重叠的壁,其包括至少一个传送装置与该管段(13)(在传输方向x ),其是横向于它们的延伸方向(z),可以在一个水平的位置来传送,并且其包括至少一个装置(15)用于打开所述底部方块(14),其中(15)是可移动的在延伸方向(z),并用其 软管件(13)的一个端部的上壁形成一个方形开口底部(14)被折叠回到其自身上。 所述至少一个装置(15)用于打开所述底部方块(14)同时是至少有时在传送方向上的管段(13)可动的(x)和在延伸方向(z)。
    • 6. 发明申请
    • METHOD FOR MAKING FLEXIBLE BAGS HAVING ELASTIC-LIKE BEHAVIOUR COMPRISING REGIONS FORMED INTO PLEAT ELEMENTS
    • 用于制造具有包含形成单元的区域的弹性行为的柔性袋的方法
    • WO2005080071A3
    • 2005-12-01
    • PCT/US2005004912
    • 2005-02-16
    • PROCTER & GAMBLEBROERING SHAUN THOMASWALDRON MATTHEW WILLIAMPECK DANIEL CHARLES
    • BROERING SHAUN THOMASWALDRON MATTHEW WILLIAMPECK DANIEL CHARLES
    • B31B1/78B31B1/80B31B19/88
    • B31B50/00B31B70/003B31B70/88Y10T156/1003Y10T156/1016Y10T156/1057Y10T156/1084
    • A method of forming flexible bags (10) having elastic-like behavior, wherein a sheet material (52) is introduced having one portion of the sheet material overlapping another portion of the sheet material. The sheet material (52) is formed into a strainable network. The strainable network includes a plurality of first regions (64) and a plurality of second regions (66). The first regions (64) are substantially un-deformed and the second regions (66) are formed into disengageable pleat elements (74). As the overlapped portions of the sheet material are formed they engage each other at the pleat elements. The pleat elements of each overlapped portion become engaged within each other and resist disengagement because of the frictional forces of the sheet material. The overlapped portions of the sheet material are separated using a disengaging means (130) so that the overlapped portions become disengaged and are separated from each other while riding on the disengaging means (130). The disengaging means is in the form of either air knife, static opening bar, dynamic opening bar, or suction means, and any combinations thereof.
    • 一种形成具有弹性状态的柔性袋(10)的方法,其中引入片材(52),片材的一部分与片材的​​另一部分重叠。 片材(52)形成为可变网络。 可变网络包括多个第一区域(64)和多个第二区域(66)。 第一区域(64)基本上未变形,并且第二区域(66)形成为可脱离褶皱元件(74)。 当片材的重叠部分形成时,它们在褶皱元件处彼此接合。 每个重叠部分的褶皱元件彼此接合并且由于片材的摩擦力而抵抗脱离。 使用分离装置(130)分离片材的重叠部分,使得重叠部分脱开,并且在骑在分离装置(130)上时彼此分离。 分离装置是气刀,静态开启杆,动态打开杆或抽吸装置的形式,以及它们的任意组合。
    • 7. 发明申请
    • CONTAINER LINERS
    • 集装箱内衬
    • WO0139967B1
    • 2001-10-04
    • PCT/GB0004571
    • 2000-11-30
    • TISI ANTONY LUIGI PAUL
    • TISI ANTONY LUIGI PAUL
    • B31B1/78B31B19/64B31B19/84
    • B31B50/00B31B50/78B31B70/64B31B70/844
    • A method of and apparatus for the automated manufacture of a liner for a cargo container has a work area (35) over which tubular plastics material (15) may be drawn out, for forming the liner. A shuttle (39) is disposed between the layers (18, 19) of the material and is maintained stationary as the material is drawn out, until a portion of the liner (15) to carry an attachment is disposed over the shuttle (39). The shuttle provides a counter-force for the bonding of the attachment (23) (such as an access pipe) to the liner and also serves to hold apart the upper layer (18) of the material from the or each other layer during the bonding operation. The shuttle may have rollers (41) which run on an internal surface of the liner material and may be maintained stationary with respect to the work area by magnets (52, 53) on the work area (35) and the shuttle (39) respectively. Following the drawing of a sufficient length of material whilst holding the shuttle stationary, the drawn length may be welded across (Figure 9) to form an end panel for the liner and severed from the remaining material, with the shuttle (39) disposed in that remaining material.
    • 用于货物集装箱的衬套的自动化制造的方法和设备具有工作区域(35),管状塑料材料(15)可被拉出,用于形成衬套。 梭子(39)设置在材料的层(18,19)之间,并且随着材料被拉出而保持静止,直到衬套(15)的携带附件的一部分设置在梭子(39)上方, 。 梭子提供了用于将连接件(23)(例如接入管)接合到衬套的反作用力,并且还用于在接合期间将材料的上层(18)从该层或每个其它层分开 操作。 梭子可以具有在衬垫材料的内表面上延伸的辊子(41),并且可以分别通过工作区域(35)和梭子(39)上的磁体(52,53)相对于工作区域保持静止 。 在保持梭子静止的同时绘制足够长度的材料之后,可以将拉伸长度焊接(图9),以形成用于衬垫的端面板并从其余材料切断,其中梭子(39)设置在其中 剩余材料。
    • 9. 发明申请
    • CORNER POST APPLICATION SYSTEM
    • 角落岗位申请系统
    • WO2012027705A3
    • 2012-04-19
    • PCT/US2011049416
    • 2011-08-26
    • MOLLERS NORTH AMERICA INCBRUNSON BRUCE WBRAKE JASON AMARTIN PETER CVANSWEDEN JONATHANWAGNER THOMAS E
    • BRUNSON BRUCE WBRAKE JASON AMARTIN PETER CVANSWEDEN JONATHANWAGNER THOMAS ECLARK MARK J
    • B31B1/74B31B1/78B31B1/92B65D81/02B65D81/03
    • B65B13/181B65B9/135B65B11/02B65B59/02
    • A corner post application system (20) comprises a conveyor subsystem (24) and an enveloping machine (22) adapted to envelope a load (42) with a material (21). The system further includes a swing arm (70), an applicator arm (72) coupled to the swing arm (70) and adapted to move linearly, a corner post gripper (74) coupled to the applicator arm (72), and a controller (60). The controller (60) rotates the swing arm (70) about a vertical pivot axis (76) until a corner post (40) held by the corner post gripper (74) is aligned with adjacent sides (108a, 108b) that define a corner (48) of the load (42). The controller (60) thereafter stops rotation of the swing arm (70) and moves the applicator arm (72) linearly toward the corner (48) of the load (42) until the corner post (40) held by the corner post gripper (74) contacts the adjacent sides (108a, 108b) of the load (42). A sensor (128, 328)) may be included for detecting a corner (48) of the load (42), with the controller (60) aligning the corner post (40) based on detection by the sensor (128, 328).
    • 角柱应用系统(20)包括输送机子系统(24)和适于用材料(21)包封负载(42)的包封机(22)。 该系统还包括摆臂70,与摆臂70联接并适于线性移动的施加器臂72,联接到施加器臂72的角柱夹持器74, (60)。 控制器60使摆臂70绕垂直枢转轴线76旋转,直到由角柱夹持器74保持的角柱40与限定角部的相邻侧108a,108b对准为止, (48)。 此后,控制器60停止摆动臂70的转动,并使涂敷臂72朝向载荷42的角部48直线移动,直到由角柱夹持器保持的角柱40 74)接触负载(42)的相邻侧(108a,108b)。 传感器(128,328))可以被包括用于检测负载(42)的拐角(48),其中控制器(60)基于传感器(128,328)的检测对齐角柱(40)。
    • 10. 发明申请
    • CONTAINER LINERS
    • 集装箱信封
    • WO01039967A1
    • 2001-06-07
    • PCT/GB2000/004571
    • 2000-11-30
    • B31B1/78B31B19/64B31B19/84
    • B31B50/00B31B50/78B31B70/64B31B70/844
    • A method of and apparatus for the automated manufacture of a liner for a cargo container has a work area (35) over which tubular plastics material (15) may be drawn out, for forming the liner. A shuttle (39) is disposed between the layers (18, 19) of the material and is maintained stationary as the material is drawn out, until a portion of the liner (15) to carry an attachment is disposed over the shuttle (39). The shuttle provides a counter-force for the bonding of the attachment (23) (such as an access pipe) to the liner and also serves to hold apart the upper layer (18) of the material from the or each other layer during the bonding operation. The shuttle may have rollers (41) which run on an internal surface of the liner material and may be maintained stationary with respect to the work area by magnets (52, 53) on the work area (35) and the shuttle (39) respectively. Following the drawing of a sufficient length of material whilst holding the shuttle stationary, the drawn length may be welded across (Figure 9) to form an end panel for the liner and severed from the remaining material, with the shuttle (39) disposed in that remaining material.
    • 一种用于自动制造用于商品容器的信封的方法和设备,具有工作区域(35),管状塑料材料(15)可以被拉伸以形成信封。 梭(39)布置在材料的层(18,19)之间,并且当材料被张紧时保持静止,直到用于承载紧固件的封套(15)的一部分布置在 班车(39)。 梭子提供用于将紧固件(23)(例如,接入管线)接合到封套上并且用于将材料的顶层(18)保持远离层的反作用力。 在链接过程中。 梭子可以包括在壳体材料的内表面上移动的辊子(41),并且可以通过分别设置在壳体材料上的磁体(52,53)相对于工作区域(35) 工作(35)和班车(39)。 在张紧足够长的材料并保持静止的梭子之后,张紧的长度可横向焊接(图9)以形成封套的端部面板,并与剩余材料隔开,梭子(39) 被放置在剩余的材料中。