| 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 | 排气衬里及其制造方法 | CN200980114019.6 | 2009-03-12 | CN102015476B | 2013-06-19 | 爱德华·D·沃尔什 |
| 一种可流体连通地连接在封闭体和设备的内部之间的排气衬里,用于将气体从所述内部排入环境大气中。所述排气衬里具有基本不透液体但透气的第一外层,限定开孔结构的相对刚性且基本不可压缩的第二外层以及选定内表面和外表面的泡沫内层,多个相互间隔开的流体流动孔在所述内表面和所述外表面之间延伸并形成穿过所述内层的基本垂直的流体流动通道。所示第一外层与所述设备的内部流体连通,用于使气体穿过所述第一外层的内部,基本垂直地穿过所述孔并进而穿过所述第二外层的内部开孔结构排入环境大气中。 | ||||||
| 2 | 排气衬里和方法 | CN200980114019.6 | 2009-03-12 | CN102015476A | 2011-04-13 | 爱德华·D·沃尔什 |
| 一种可流体连通地连接在封闭体和设备的内部之间的排气衬里,用于将气体从所述内部排入环境大气中。所述排气衬里具有基本不透液体但透气的第一外层,限定开孔结构的相对刚性且基本不可压缩的第二外层以及选定内表面和外表面的泡沫内层,多个相互间隔开的流体流动孔在所述内表面和所述外表面之间延伸并形成穿过所述内层的基本垂直的流体流动通道。所示第一外层与所述设备的内部流体连通,用于使气体穿过所述第一外层的内部,基本垂直地穿过所述孔并进而穿过所述第二外层的内部开孔结构排入环境大气中。 | ||||||
| 3 | Rotary punching/laminating machine | JP1609989 | 1989-01-25 | JPH01222898A | 1989-09-06 | JIERII ERU BERU |
| PURPOSE: To automatically/efficiently laminate blanks on a base substance by incorporating a suction/exhaust first rotary valve into a cylindrical anvil to punch the blanks from a web by cooperating with a cylindrical die, and arranging a suction/exhaust second rotary valve in a transfer roller to supply the blanks to the base body by receiving the blanks from this cylindrical anvil. CONSTITUTION: Plural blanks (membranes) 34 are punched from a flexible material web passing between a cylindrical die 96 and a cylindrical anvil 98 by the cooperative action of this die 96 and the anvil 98. Next, the punched blanks 34 are adsorbed/held by the peripheral surface of the cylindrical anvil by alternately connecting the cylindrical anvil 98 to a vacuum port 252 and a compression port 256 of a first rotary valve in single rotation of the cylindrical anvil 98 to be transferred to a transfer roller 102. The blanks 34 and a base body 32 are laminated by supplying the blanks to the base substance (a ring) 34 by adsorbing/holding these blanks 34 by the peripheral surface of the transfer roller 102 by alternately connecting the transfer roller 102 to a vacuum port and a compression port of a second rotary valve in single rotation of this transfer roller. COPYRIGHT: (C)1989,JPO | ||||||
| 4 | 通気ライナおよび通気ライナの製造方法 | JP2014169247 | 2014-08-22 | JP6033819B2 | 2016-11-30 | ウォルシュ エドワード ディー |
| 5 | Attachment type handle with label | JP2000541007 | 1999-03-31 | JP2002510061A | 2002-04-02 | ハラッチ、サタミアン |
| (57)【要約】 添付式ハンドル付きラベル(10)はライナ材料(12)とラベル(14)とハンドル(16)を有する。 ラベル(14)は粘着層によってライナ(12)に固定される。 ハンドル(16)はラベル(14)の上側表面に添付され、細長いストリップ(26)とハンガ(32)を有する。 細長いストリップ(26)は、ラベル(14)の全長にわたって連続的に伸延する上側および下側表面を備える。 ハンガ部分はその上に接着剤が存在しない上側上および下側表面を備え、第1位置と第2位置の間で可動であるように細長いストリップ(26)に対して移動可能である。 | ||||||
| 6 | 通気ライナおよび通気ライナの製造方法 | JP2014169247 | 2014-08-22 | JP2015042564A | 2015-03-05 | EDWARD D WALSH |
| 【課題】気体を排出するため、蓋と器具内部との間に流体連通状態で接続可能である通気ライナを提供する。【解決手段】器具の内部から周囲大気へ気体を排出するため、蓋と前記内部との間に流体連通状態で接続可能な通気ライナであって、気体の流れは許容するが液体の流れは防止するため、前記器具の前記内部と流体連通状態で接続可能な実質的に液体不浸透性かつ気体浸透性の、穿孔されていない第1外側層と、複数の流体流路を画定するとともに、前記蓋により印加される閉鎖力の印加に対して実質的に非圧縮性である、穿孔されていない第2外側層と、前記蓋により印加される閉鎖力の印加に対して圧縮性である圧縮性内側層であって、前記器具の前記内部から、前記第1外側層および前記圧縮性内側層、次に前記第2外側層を通って前記周囲大気への気体の排出を許容するため、前記第1外側層と前記第2外側層との間で流体連通状態にある複数の内側流体流路を画定する圧縮性内側層と、を包含する通気ライナである。【選択図】図1 | ||||||
| 7 | Breathable liner and method | JP2010550850 | 2009-03-12 | JP2011513156A | 2011-04-28 | エドワード ディー ウォルシュ |
| 通気ライナは、器具の内部から周囲大気へ気体を排出するため、蓋と器具内部との間に流体連通状態で接続可能である。 通気ライナは、流体不浸透性かつ気体浸透性の第1外側層と、比較的剛性かつ実質的に非圧縮性で開口セル構造を画定する第2外側層と、内面および外面と内外面の間に延在するとともに略垂直方向の流体流路を内側層に形成する相互に離間した複数の流体流孔とを画定する内側フォーム層とを有する。 第1外側層の内部を通り、略垂直方向に孔を通り、次に第2外側層の内部開口セル構造を通って周囲大気へ気体を排出するため、第1外側層は器具の内部との流体連通状態にある。 | ||||||
| 8 | Attachment type handle with label | JP2000541007 | 1999-03-31 | JP4434487B2 | 2010-03-17 | ハラッチ、サタミアン |
| 9 | Reusable closure system for packaging | US15310360 | 2015-05-11 | US10150604B2 | 2018-12-11 | Luis Parellada Armela; Josep M. Soler Carbonell; Enric Rodon; Emilio Muñoz Herrero |
| A reusable closure system is disclosed for flexible packaging applications. The system generally includes base and lid portions. The base portion can be bonded to underlying package material and includes first and second fields of touch fasteners separated by a multi-layer buffer zone. The buffer zone can be at least in part co-located with a frangible region of underlying package material. In some embodiments, the buffer zone is substantially free of active bonding agent, such that there is little or no active bonding agent overlapping the frangible region. One of the touch fastener fields of the base can be deployed at least partially within the area defined by the frangible region. The other touch fastener field is deployed around the buffer zone. The lid portion can be bonded to the package material and/or base portion, and includes a hinge and another touch fastener field to mate with the base fields. | ||||||
| 10 | METHOD AND DEVICE FOR PRODUCING PARTIALLY EMBOSSED BLANKS | US15538001 | 2015-12-15 | US20170361952A1 | 2017-12-21 | MARCEL KÜFFNER; PIOTR WALACHOWSKI; KRZYSZTOF LUSZCZEWSKI |
| A method for producing partially embossed blanks is disclosed. The method is to provide a continuous web of an embossable material, and guide it between two cylinders which emboss its surface. The embossed web is fed to a stamping device to punch blanks from the web. One of the embossing cylinders has a marking which is readable by a first sensor. The first sensor reads the position of the marking and produces a signal which triggers a printing device to produce a print mark on the web identifying the position of the embossing. The print mark is read by a second sensor which produces a signal for controlling and adjusting a feeding distance by which feed rolls supply the web to the stamping device that punches blanks from the web in register with the partial embossing of the blank. A device for conducting the method is also disclosed. | ||||||
| 11 | REUSABLE CLOSURE SYSTEM FOR PACKAGING | US15310360 | 2015-05-11 | US20170247157A1 | 2017-08-31 | Luis Parellada Armela; Josep M. Soler Carbonell; Enric Rodon; Emilio Muñoz Herrero |
| A reusable closure system is disclosed for flexible packaging applications. The system generally includes base and lid portions. The base portion can be bonded to underlying package material and includes first and second fields of touch fasteners separated by a multi-layer buffer zone. The buffer zone can be at least in part co-located with a frangible region of underlying package material. In some embodiments, the buffer zone is substantially free of active bonding agent, such that there is little or no active bonding agent overlapping the frangible region. One of the touch fastener fields of the base can be deployed at least partially within the area defined by the frangible region. The other touch fastener field is deployed around the buffer zone. The lid portion can be bonded to the package material and/or base portion, and includes a hinge and another touch fastener field to mate with the base fields. | ||||||
| 12 | Closure seal | US13928499 | 2013-06-27 | US09248469B2 | 2016-02-02 | Andrew John Spreck; Todd Owen Schneider; Trevor Klungseth; Michelle Zeller; Duane Jason Huberty; Kevin Todd Barker |
| A closure seal or tamper evident pressure sensitive label of a sandwich construction for use at the opening seam of packaging to be sealed to indicate whether the package has been opened or otherwise tampered with. The label includes a facer material, a liner material and a pressure sensitive adhesive therebetween. The facer material has cut out a lower label section joined to an upper pull tab section with adjacent tab wings. The upper pull tab section has a liner material portion cut out to adhere to a back or under side of the upper tab section upon pulling the label off the liner material for use. The lower label section and wings has exposed adhesive upon the label being pulled off the liner material for use. Once the label is placed on the packaging, the lower label section and the upper pull tab with adjacent tab wings are aligned to straddle the opening seam of the packaging. The tab maybe pulled away from the label and torn away from the wings while remaining intact with the lower label section to evidence the package has been opened or otherwise tampered with. The label is manufactured by a flexo-graphic web method. | ||||||
| 13 | CLOSURE SEAL | US13928499 | 2013-06-27 | US20150001223A1 | 2015-01-01 | Andrew John SPRECK; Todd Owen SCHNEIDER; Trevor KLUNGSETH; Michelle ZELLER; Duane Jason HUBERTY; Kevin Todd BARKER |
| A closure seal or tamper evident pressure sensitive label of a sandwich construction for use at the opening seam of packaging to be sealed to indicate whether the package has been opened or otherwise tampered with. The label includes a facer material, a liner material and a pressure sensitive adhesive therebetween. The facer material has cut out a lower label section joined to an upper pull tab section with adjacent tab wings. The upper pull tab section has a liner material portion cut out to adhere to a back or under side of the upper tab section upon pulling the label off the liner material for use. The lower label section and wings has exposed adhesive upon the label being pulled off the liner material for use. Once the label is placed on the packaging, the lower label section and the upper pull tab with adjacent tab wings are aligned to straddle the opening seam of the packaging. The tab maybe pulled away from the label and torn away from the wings while remaining intact with the lower label section to evidence the package has been opened or otherwise tampered with. The label is manufactured by a flexo-graphic web method. | ||||||
| 14 | Apparatus and method of making a paper end with a pressed chuck wall | US13006663 | 2011-01-14 | US08414462B2 | 2013-04-09 | Kenan J Clougherty; Kenneth Weltlich; Slawek Witkowski |
| A novel method and apparatus is provided for forming a pressed paper end which minimizes or eliminates deformations in the chuck wall. The method involves using a novel die press apparatus in which, at the very end of the compression stroke, the paper is held tightly by the opposing dies on either side of the chuck wall forming area, and the chuck wall forming area is held in substantial confinement between the dies. | ||||||
| 15 | Method for making a container lid formed as a laminate having a built-in opening feature | US12819531 | 2010-06-21 | US08128776B2 | 2012-03-06 | Jeffrey M. Schuetz; Teddy M. Westphal |
| A container lid is formed as a flexible laminate of an upper layer and a lower layer and having a built-in opening feature. A pair of radially spaced concentric lines of weakness are formed in the laminate, an outer one of the lines of weakness being formed in the upper layer and an inner one of the lines of weakness being formed in the lower layer. The upper and lower layers in an annular region between the lines of weakness are readily peeled apart. The upper and lower layers outside the annular region are laminated together with an adhesive providing a bond with a greater peel strength than that required to separate the layers in the annular region. | ||||||
| 16 | Container lid formed as a laminate having a built-in opening feature, container incorporating same, and method of making same | US11289006 | 2005-11-29 | US07757879B2 | 2010-07-20 | Jeffrey M. Schuetz; Teddy M. Westphal |
| A lid for a container having a built-in opening feature comprises a flexible laminate comprising an upper layer and a lower layer, a pair of radially spaced concentric lines of weakness being formed in the laminate, an outer one of the lines of weakness being formed in the upper layer and an inner one of the lines of weakness being formed in the lower layer, wherein the upper and lower layers in an annular region between the lines of weakness are readily peeled apart, and wherein the upper and lower layers outside the annular region are laminated together with an adhesive providing a bond with a greater peel strength than that required to separate the layers in the annular region. | ||||||
| 17 | Container lid formed as a laminate having a built-in opening feature, container incorporating same, and method for making same | US11289006 | 2005-11-29 | US20070125781A1 | 2007-06-07 | Jeffrey Schuetz; Teddy Westphal |
| A lid for a container having a built-in opening feature comprises a flexible laminate comprising an upper layer and a lower layer, a pair of radially spaced concentric lines of weakness being formed in the laminate, an outer one of the lines of weakness being formed in the upper layer and an inner one of the lines of weakness being formed in the lower layer, wherein the upper and lower layers in an annular region between the lines of weakness are readily peeled apart, and wherein the upper and lower layers outside the annular region are laminated together with an adhesive providing a bond with a greater peel strength than that required to separate the layers in the annular region. | ||||||
| 18 | Label with applied handle | US09277385 | 1999-03-25 | US06272780B1 | 2001-08-14 | Hratch Satamian |
| A label with an applied handle having a liner material, a label and a handle. The label has an upper surface and lower surface and is secured to the liner by an adhesive layer on its lower surface. The adhesive layer allows the label to be peeled off the liner with the adhesive remaining on the lower surface of the label. The handle is affixed to the upper surface of the label, and includes an elongate strip and a hanger. The elongate strip has an upper and a lower surface extending continuously across an entire length of the label. The lower surface of the elongate strip is firmly secured to the upper surface of the label by a strong bonding material and a hanger portion integrally connected to the elongate strip and extending therefrom. The hanger portion has an upper surface and a lower surface with no adhesive thereon, and is pivotable relative to the elongate strip so as to be movable between a first position wherein the hanger portion is adjacent the label portion, and a second position wherein the hanger portion is pivoted through substantially 180 degrees from the first position. | ||||||
| 19 | Method of making an elongate strip for the production of sealing members for containers | US530529 | 1990-05-30 | US5261990A | 1993-11-16 | Michael P. Galda; Brian M. Klassen; Stephen H. Witt |
| A method of making an elongate strip for the production of a sealing member includes, as a first step, applying a plurality of strips of a first adhesive to one of a membrane and a first sheet, the membrane and the first sheet are then bonded together so that composite portions are formed where they are bonded together by the strips of the first adhesive, and separated portions are formed where the membrane and the first sheet are free from one another. The other side of the membrane is then coated with an additional layer of adhesive, for example a hot melt bonding material. Then, sealing members can be cut from the resultant composite elongate strip, with each sealing member having a composite portion in which the membrane and the first sheet are bonded together and a separated portion in which the membrane and the first sheet are free of one another. The free portion of the first sheet then forms a tab, for removal of the sealing member, in use, after it has been bonded to the lip of a container. | ||||||
| 20 | Rotary die cutting and laminating process and machine | US148771 | 1988-01-26 | US4846774A | 1989-07-11 | Jerry L. Bell |
| A machine and process for making container lid assemblies with a flexible membrane with a pull tab adhesively secured to a rigid ring so that when desired the membrane can be peeled off and removed from the ring to provide access to the container. Individual membranes are cut and separated from a web by rotating dies and individually transferred, accelerated and applied by a rotating anvil cylinder and transfer roller to individual rings which have been preheated sufficiently to activate an adhesive to adhere the membrane about its periphery to the ring. The rings are heated by an induction coil and a downstacker deposits heated rings on a moving conveyor belt which conveys them under the transfer roller where they are urged into firm engagement with a membrane by a resilient applicator pad on the transfer roller and an underlying support roller. If a ring has not been heated sufficiently to insure proper adhesion of its associated membrane, the membrane is released and removed from the transfer roller to avoid producing lid assemblies with a defective seal. Downstream from the transfer roller, lid assemblies are inspected and defective lid assemblies are rejected. Lid assemblies are cooled relatively quickly by fans and then they are ready by packaging, shipment and use. | ||||||
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