| 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 | 具有盘绕器、自动贴胶装置和弹射装置的垫料系统和方法 | CN201480008564.8 | 2014-02-12 | CN105008258A | 2015-10-28 | 佩德罗·E·温肯斯; 艾德·H·维尔德 |
| 一种垫料转换系统包括用于将库存材料(14)转换成相对较低密度的垫料条的机械、用于将条缠绕成条卷的盘绕机构(20)、用于将条的自动固定至条卷的贴胶机构(22)、以及用于将条卷从盘绕机构自动移除的条卷弹射机构(24)。该贴胶机构包括所述机械的出口与所述盘绕机构之间的导向表面(70),以将所述条导向至所述盘绕机构,并将胶带导向以与所述条的后端接合,以将所述条的所述后端固定至所述条卷。所述条卷弹射机构包括枢转以将完成的条卷推离盘绕机构的杆臂(126)。 | ||||||
| 2 | 容器的填塞物的制造方法及筒状网的卷绕装置 | CN200780019229.8 | 2007-03-29 | CN101454222B | 2011-06-15 | 白石保行; 大西健司; 藤田智之; 辻雅人; 平本慎次 |
| 本发明提供一种能够正确且迅速地卷起呈块状或球状的容器的填塞物的制造方法及装置。将具有伸缩性的筒状的网(N)覆盖在柱状的支承体(6)上,通过在该网(N)的周向多个部位配置的辊式传送带(30),使网(N)的前端部向径向外侧或内侧强制反卷,同时使辊式传送带(30)向网(N)的基端侧地沿轴向移动,从而通过辊式传送带(30)的转动和轴向移动,使网前端部强制转动并卷绕,由此,形成网(N)向径向外侧或内侧多重卷绕而成的环状卷绕部(C)。 | ||||||
| 3 | 一种包装材料、其制作方法以及用其制作的包装装置 | CN201080055101.9 | 2010-02-12 | CN102858534B | 2015-12-09 | 任德坚 |
| 提供了一种包装材料、其制作方法以及用其制作的包装装置,所述包装材料包括内结构材料(1)及外表层材料(2),所述内结构材料(1)为中空材料,所述外表层材料(2)贴覆于所述内结构材料(1)的外表面;所述内结构材料(1)包括:中间层材料(22)、设于中间层材料(22)两侧的面层材料(21)以及内层材料(23)。所述包装装置采用上述包装材料制成,包括由内结构材料(1)折合形成的内结构以及形成于所述内结构的外表面的外表层。本发明利用环保可再生的中空材料,折合制成内结构,配合外表层制作成包装装置,适合放置物品。 | ||||||
| 4 | 产品包装材料及其生产方法 | CN94192696.6 | 1994-05-26 | CN1126457A | 1996-07-10 | 蒂莫西·C·莫利 |
| 本发明涉及一种产品的包装材料及其生产方法,尤其涉及由碾压波纹纸段(20)制成的产品包装材料(27)及其生产方法,本发明提供一种包括有波纹纸(20)的包装材料,该波纹纸包含非正弦曲线形波纹(16,18,72),本发明还提供一种制作多层波纹纸(27)包装材料的方法,该方法包括以下步骤,形成具有正弦曲线形波纹(42)薄层的波纹纸(20),压扁该薄层以破坏至少其中一些波纹的正弦曲线形状。 | ||||||
| 5 | 具有盘绕器、自动贴胶装置和弹射装置的垫料系统和方法 | CN201480008564.8 | 2014-02-12 | CN105008258B | 2017-07-11 | 佩德罗·E·温肯斯; 艾德·H·维尔德 |
| 一种垫料转换系统包括用于将库存材料(14)转换成相对较低密度的垫料条的机械、用于将条缠绕成条卷的盘绕机构(20)、用于将条的自动固定至条卷的贴胶机构(22)、以及用于将条卷从盘绕机构自动移除的条卷弹射机构(24)。该贴胶机构包括所述机械的出口与所述盘绕机构之间的导向表面(70),以将所述条导向至所述盘绕机构,并将胶带导向以与所述条的后端接合,以将所述条的所述后端固定至所述条卷。所述条卷弹射机构包括枢转以将完成的条卷推离盘绕机构的杆臂(126)。 | ||||||
| 6 | 容器的填塞物的制造方法及筒状网的卷绕装置 | CN200780019229.8 | 2007-03-29 | CN101454222A | 2009-06-10 | 白石保行; 大西健司; 藤田智之; 辻雅人; 平本慎次 |
| 本发明提供一种能够正确且迅速地卷起呈块状或球状的容器的填塞物的制造方法及装置。将具有伸缩性的筒状的网(N)覆盖在柱状的支承体(6)上,通过在该网(N)的周向多个部位配置的辊式传送带(30),使网(N)的前端部向径向外侧或内侧强制反卷,同时使辊式传送带(30)向网(N)的基端侧地沿轴向移动,从而通过辊式传送带(30)的转动和轴向移动,使网前端部强制转动并卷绕,由此,形成网(N)向径向外侧或内侧多重卷绕而成的环状卷绕部(C)。 | ||||||
| 7 | 膨張クッションを提供するシステム | JP2016118588 | 2016-06-15 | JP2017013494A | 2017-01-19 | ブライアン・エイ・マーチ; ローレンス・ビー・スペリー |
| 【課題】膨張容器のウェブを提供するシステムを提供する。 【解決手段】膨張容器のウェブを提供するシステムは、搬送システム、切り離しアーム、およびコントローラを含む。搬送システムは、ウェブの少なくとも一部が通るニップを有する逆回転部材によってウェブが移動経路に沿って前進する動作モードと、(ii)アイドルモードと、を有する。切り離しアームは、搬送システムより下流の移動経路のそばに位置している。切り離しアームは、ウェブを移動経路内に係合させる分離器末端を有する。コントローラは、(i)所定数の容器分だけウェブを前進させるための動作モード、および(ii)ウェブの横断切り取り線が切り離しアームの分離器末端と一致するアイドルモード、まで移るように、搬送システムを動作可能に制御するようプログラムされている。 【選択図】図1 |
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| 8 | Winding device manufacturing method and a tubular net of stuffing of the container | JP2006096142 | 2006-03-30 | JP4948017B2 | 2012-06-06 | 健司 大西; 慎次 平本; 保行 白石; 智之 藤田; 雅人 辻 |
| 9 | Manufacturing methods and devices in the upper space filler of the container | JP2002082588 | 2002-03-25 | JP4132907B2 | 2008-08-13 | 健司 大西; 慎次 平本; 昌宏 由良; 保行 白石 |
| 10 | CONNECTIVE PROTECTIVE PACKAGING | US15721215 | 2017-09-29 | US20180093441A1 | 2018-04-05 | Thomas D. Wetsch |
| A connective protective packaging element is provided. The connective protective packaging element may include a protective body in a high-density supply configuration. The protective body may be configurable into a low-density configuration for cushioning packaged products. The body may include an exposed surface in the low-density configuration. The connective protective packaging element may also include a bonding element attached to the exposed surface that operably bonds the exposed surface to an abutting surface by contact with the bonding element. | ||||||
| 11 | PAPER-BASED ELONGATE STRUCTURES SUITABLE FOR USE AS LUMBER SUBSTITUTES | US15522557 | 2015-10-29 | US20170335559A1 | 2017-11-23 | Jason S. ERDIE; William P. HOLBROOK |
| Paper-based elongate structures suitable for use as lumber substitutes, articles of manufacture made thereof, kits of materials including such structures, and machines and methods for making the same. Elongate structures according to the invention include a hollow outer portion formed of corrugated fiberboard sheet material and an accordion-folded inner support formed of corrugated fiberboard sheet material. The hollow outer portion has four outer surfaces that define a rectangle when viewed in cross-section transverse to a longitudinal axis of the elongate structure. The accordion-folded inner support is enclosed within the hollow outer portion. The inner support includes a plurality of first spaced-apart peaks that contact a first inner surface of the hollow outer portion and a plurality of second spaced-apart peaks that contact an opposing second inner surface of the hollow outer portion. The accordion-folded inner support structure improves the beam strength, crush resistance and lateral strength of the elongate structure. | ||||||
| 12 | MOLD STRUCTURE FOR PRESSING AND CUTTING PAPERBOARD | US14485561 | 2014-09-12 | US20160075099A1 | 2016-03-17 | Shang-Ruei Wang |
| The mold structure includes an upper mold, a pressing mold and a bottom mold. The upper mold has downward pressers and knives. The knives are interlaced with the pressers. Each of the knives is higher than adjacent one of the pressers. The pressing mold is flexibly connected under the upper mold and has through holes for being passed through by the pressers and knives. The bottom mold is arranged under the pressing mold and the upper mold for supporting a sheet of paperboard to be pressed and cut. | ||||||
| 13 | PROCESSES FOR MANUFACTURING A STRUCTURAL MEMBER | US14857312 | 2015-09-17 | US20160001923A1 | 2016-01-07 | David Michael Love |
| A fabrication machine is disclosed herein. In various aspects, the fabrication machine includes a brake adapted to mechanically cooperate with a wrapper to impart a longitudinal tension to the wrapper by controlling the force required to advance the wrapper, the wrapper comprised of a cellulose-based material. The brake is adjustable to allow selection of longitudinal tension in the wrapper, in various aspects. Various aspects may include a wrapper roll in mechanical cooperation with the brake, the wrapper being drawn from the wrapper roll as the wrapper is advanced. The fabrication machine secures the wrapper at the selected tension about the core to form a structural member, in various aspects. Methods of use of the fabrication machine are disclosed herein. This Abstract is presented to meet requirements of 37 C.F.R. §1.72(b) only. This Abstract is not intended to identify key elements of the apparatus and methods disclosed herein or to delineate the scope thereof | ||||||
| 14 | DUNNAGE SYSTEM WITH COILER, AUTOMATED TAPING AND EJECTING APPARATUS AND METHOD | US14767047 | 2014-02-12 | US20160001519A1 | 2016-01-07 | Pedro E WINKENS; Ad H VELDT |
| A dunnage conversion system includes a machine for converting a stock material (14) into a strip of relatively lower-density dunnage, a coiling mechanism (20) for winding the strip into a coil, a taping mechanism (22) for automatically securing a trailing end of the strip to the coil, and a coil ejecting mechanism (24) for automatically removing the coil from the coiling mechanism. The taping mechanism includes a guide surface (70) between an outlet of the machine and the coiling mechanism to guide the strip to the coiling mechanism and to guide tape for engagement with a trailing end of the strip and to secure the trailing end of the strip to the coil. The coil ejecting mechanism includes a lever arm (126) that pivots to push the completed coil off the coiling mechanism. | ||||||
| 15 | Antiskid dunnage | US12551197 | 2009-08-31 | US08623489B2 | 2014-01-07 | Diego Depaoli; Martin Parenteau; Michael Kumar; Patrick Laroche; Hugues Prud'Homme; Ernie Carnegie |
| The dunnage can be used for protecting edges of articles such as wood furniture during shipping and has a honeycomb panel having a first and second opposed faces, and a first and second adjacent panel sections folded relative to each other along a V-groove extending into the first face, a layer of antiskid cohesive material applied on the V-groove and maintaining said first and second adjacent panels in said folded configuration, and also applied on a substantial portion of one of said first and second adjacent panel sections, on the first face. The cohesive on the exposed face of the folded dunnage acts as an antiskid which reduces the likelihood of the dunnage sliding once applied to the edge of the article, and also reduces the abrasiveness of the honeycomb panel. A process of production is also disclosed where the V-groove can be made on line. | ||||||
| 16 | Production method for container packing filler and tubular net rolling apparatus | US12225512 | 2007-03-29 | US08074427B2 | 2011-12-13 | Yasuyuki Shiraishi; Kenji Ohnishi; Tomoyuki Fujita; Masato Tsuji; Shinji Hiramoto |
| A method and an apparatus for producing a container packing filler are provided, which ensure that a net can be correctly and speedily rolled up into a bulk or ball shape. A stretchable tubular net (N) is fitted around a columnar support member (6). Then, a distal portion of the net is forcibly folded radially outward or inward by a plurality of roller belts (30) disposed circumferentially of the net (N), while the roller belts (30) are moved toward a net proximal side axially of the net (N), whereby the net (N) is rolled up radially outward or inward with the distal portion thereof being forcibly folded by circular rotation and axial movement of the roller belts (30) to form an annular roll portion (C). | ||||||
| 17 | Pleated paper and method of manufacturing | US09163042 | 1998-09-29 | US06871480B1 | 2005-03-29 | David P. Goodrich |
| A novel packaging wrap is used in cushioning a product for shipment and is formed from the combination of a layer of pleated sheet material, the pleated material being creased at the apices of each pleat, and a planar layer of sheet material which is adhered to, and preferably, adhesively bonded, to a pleated sheet of kraft paper. The pleated sheet material has a weight in the range from about 30 to 50 pounds and the planar sheet material is preferably tissue paper having a weight of less than about 20 pounds. The pleated sheet material preferably, has a pleat angle in the range from above 45 degrees to below 85 degrees, and most preferably the pleats have an angle of about 50 to 65 degrees. Preferably, the pleats have a height in the range from about 3 sixteenths of an inch to about one half inch, in terms of distance between top planar sheet and bottom planar sheet. | ||||||
| 18 | Pad-forming machine | US28997828 | 1928-07-02 | US1777231A | 1930-09-30 | SHEPARD WILLIAM A |
| 19 | APPARATUS AND METHOD FOR EXPANDING A SLIT SHEET MATERIAL TO FORM AN EXPANDED PACKAGING PRODUCT | US15526180 | 2015-11-13 | US20170313017A1 | 2017-11-02 | Robert Cheich; Raimond Demers; Cals Hubertus; Peter Urban |
| An apparatus (10) for converting a slit-sheet stock material (16) into an expanded dunnage product (12) includes a housing (20), a pair of rollers (22, 24) within the housing extending widthwise across a path of the sheet material, and a plurality of guide strips (90) extending from an upstream side of the pair of rollers to a downstream side of the pair of rollers at a plurality of locations spaced across the width of the path. The guide strips guide the sheet material between and around the rollers. Exemplary rollers have a plurality of grooves spaced across the width of the path, and the guide strips are received in respective grooves. The guide strips may be connected by a crossbar to form a guide member. | ||||||
| 20 | Expansion Apparatus and Method for Producing Interlocking Expanded Slit Sheet Packaging Material | US15001168 | 2016-01-19 | US20170203866A1 | 2017-07-20 | David Paul Goodrich |
| A paper product comprised of two or more slit material layers, each layer having a pattern design to create interlocking layers of expansion sheet packaging materials. Each layer expands to create a three dimensional open netting of cells of hexagons, and the like, and is designed to have limited nesting with its opposing layer, thereby maximizing the thickness of the combined layers as compared to nested layers. The layers having differing slit patterns that produce when expanded, inclined land areas that having different angles of inclination of the land areas, such that adjacent layers can interlock, that is, have a restricted amount of nesting. | ||||||
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