| 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 | 密封容器 | CN200680029041.7 | 2006-07-28 | CN100594164C | 2010-03-17 | 中谷正树 |
| 本发明的目的在于,在利用激光焊接等热熔合对盖进行密封的饮料、食品用容器等的密封型容器中,赋予较高的夹杂物适应性,提高密封性,并提高容器体和盖的接合强度。本发明的密封容器具有容器体和盖,所述容器体具有口部,在口部的外壁上设置有与该口部的边缘平行的环状肋,在盖的边缘上设置有用于形成与肋贴紧的贴紧部分的环状圈,在比肋更靠近口部的边缘侧的所述口部的外壁上设置有环状凸起或凹陷,在盖的内壁上设置有环状凹陷或凸起,并且使该环状凹陷或凸起位于和在所述盖的边缘上设置的圈之间的间隔比在所述口部上设置的所述环状凸起或凹陷和所述肋之间的间隔略长的部位上,述肋和所述圈贴紧的贴紧部分被热熔合。 | ||||||
| 2 | 密封容器 | CN200680029041.7 | 2006-07-28 | CN101238041A | 2008-08-06 | 中谷正树 |
| 本发明的目的在于,在利用激光焊接等热熔合对盖进行密封的饮料、食品用容器等的密封型容器中,赋予较高的夹杂物适应性,提高密封性,并提高容器体和盖的接合强度。本发明的密封容器具有容器体(1)和盖(3),所述容器体具有口部(9),所述盖(3)由可塑性材料形成,在封闭所述口部(9)时所述盖(3)自身产生变形,在利用该变形应力对所述容器体(1)加压的状态下生成贴紧部分(4),而且该贴紧部分(4)成为封口,所述贴紧部分(4)被热熔合。 | ||||||
| 3 | 具有再密封性的密封容器 | CN200680029061.4 | 2006-07-28 | CN100564176C | 2009-12-02 | 堀居修; 中谷正树 |
| 本发明提供一种嵌合式密封容器,该嵌合式密封容器的再利用性良好,具有透明性,价格低廉,不需要化学改性,不易裂且不易漏,能够再密封。本发明的具有再密封性的密封容器包括:容器体,其具有筒形的口部;和盖,其形成为带顶面的筒形,从口部的外侧嵌合来密闭口部。容器体由PET树脂成形而成,并且具有下述结构:当在体部作用有应力时,通过将体部的变形限定在该体部内来抑制口部的变形。口部具有在筒外壁沿周向连续的环状凸部,盖具有在筒内壁沿周向嵌合环状凸部用的连续的环状凹部,并且该盖由密度为1.320~1.340g/cm3的非晶质PET树脂成形而成,壁厚度为大于等于80μm且小于390μm,在口部的筒外壁中比环状凸部靠体部侧还设置有肋状颈环,在盖的筒端部朝向外侧设置有凸缘,而且将颈环和凸缘熔合。 | ||||||
| 4 | 高密度聚乙烯组合物、其制备方法、由其制得的注塑制品以及该制品的制备方法 | CN200780027416.0 | 2007-10-25 | CN101490163A | 2009-07-22 | W·米基; S·怀特德; N·维克; D·埃利-布里斯托 |
| 本发明涉及一种高密度聚乙烯组合物、其制备方法、由其制得的注塑制品以及该制品的制备方法。本发明的高密度聚乙烯组合物包含第一组分和第二组分。第一组分是密度为0.920至0.946克/立方厘米、熔体指数(I21.6)为1至15克/10分钟的高分子量乙烯α-烯烃共聚物。第二组分是密度为0.965至0.980克/立方厘米、熔体指数(I2)为30至1500克/10分钟的低分子量乙烯聚合物。所述高密度聚乙烯组合物的熔体指数(I2)至少为1,密度为0.950至0.960克/立方厘米。所述高密度聚乙烯组合物的制备方法包括以下步骤:(1)将乙烯和一种或多种α-烯烃共聚单体引入第一反应器中;(2)在第一反应器中,在一种或多种α-烯烃共聚单体存在下,使乙烯(共)聚合,由此制得第一组分,其中第一份组分为密度为0.920至0.946克/立方厘米和熔体指数(I21.6)为1至15克/10分钟的高分子量乙烯α-烯烃共聚物;(3)将第一组分和另外的乙烯引入第二反应器中;(4)在第二反应器中,使另外的乙烯聚合,由此制得第二组分,其中第二组分是密度为0.965至0.980克/立方厘米和熔体指数(I2)为30至1500克/10分钟的低分子量乙烯聚合物;和(5)由此制得高密度聚乙烯组合物,其中该高密度聚乙烯组合物的熔体指数(I2)至少为1,密度为0.950至0.960克/立方厘米。根据本发明的注塑制品包括上述本发明的高密度聚乙烯组合物,并通过注塑制得这样的制品。 | ||||||
| 5 | 具有再密封性的密封容器 | CN200680029061.4 | 2006-07-28 | CN101238042A | 2008-08-06 | 堀居修; 中谷正树 |
| 本发明提供一种嵌合式密封容器,该嵌合式密封容器的再利用性良好,具有透明性,价格低廉,不需要化学改性,不易裂且不易漏,能够再密封。本发明的具有再密封性的密封容器包括:容器体,其具有筒形的口部;和盖,其形成为带顶面的筒形,从口部的外侧嵌合来密闭口部。容器体由PET树脂成形而成,并且具有下述结构:当在体部作用有应力时,通过将体部的变形限定在该体部内来抑制口部的变形。口部具有在筒外壁沿周向连续的环状凸部,盖具有在筒内壁沿周向嵌合环状凸部用的连续的环状凹部,并且该盖由密度为1.320~1.340g/cm3的非晶质PET树脂成形而成,壁厚度为大于等于80μm且小于390μm。 | ||||||
| 6 | Sealed vessel | JP2005227869 | 2005-08-05 | JP4833608B2 | 2011-12-07 | 正樹 中谷 |
| A sealed container such as beverage and food containers having lids sealed by laser beam welding and thermal fusing to impart high applicability to impurities, increase sealability, and increase a joining strength between a container body and a lid. The sealed container comprises the container body (1) having a mouth part (9) and the lid (3) causing a deformation therein when it closes the mouth part (9), producing a fitted portion (4) forming a seam in a pressurized state on the container body (1) by a strain stress, and formed of a plastic material. The fitted portion (4) is thermally fused. | ||||||
| 7 | Hot melt adhesive, a method of manufacturing the same, molded product, and a manufacturing method of the heat-shrinkable tube | JP2004091662 | 2004-03-26 | JP4703967B2 | 2011-06-15 | 宏 早味; 清晃 森内; 信也 西川 |
| An adhesive composition comprising 100 parts by weight of a fluorine-containing polymer and 2 to 30 parts by weight of an unsaturated compound containing at least one polar group selected from the group consisting of an epoxy group and a carboxyl group, wherein the fluorine-containing polymer has been graft-modified with the polar group-containing unsaturated compound by irradiation of ionizing radiation, a production process thereof, and formed products such as a heat-shrinkable tube equipped with a layer composed of the adhesive composition. | ||||||
| 8 | High-density polyethylene composition, method of preparation, then cast articles and methods of making such articles are produced | JP2010506180 | 2007-10-25 | JP2010526169A | 2010-07-29 | ウェイカー,ネイサン; エルレイ‐ブリストー,デール; ホワイテッド,ステファニー; ミッチー,ウィリアム |
| 本発明は、高密度ポリエチレン組成物、その製造方法、それから製造される注型物品およびそのような物品の製造方法である。 本発明の高密度ポリエチレン組成物は第1成分および第2成分を含む。 第1成分は、0.920から0.946g/cm 3の範囲の密度および1から15g/10分の範囲のメルトインデックス(I 21.6 )を有する高分子量エチレンアルファ−オレフィンコポリマーである。 第2成分は、0.965から0.980g/cm 3の範囲の密度および30から1500g/10分の範囲のメルトインデックス(I 2 )を有する低分子量エチレンポリマーである。 この高密度ポリエチレン組成物は、少なくとも1のメルトインデックス(I 2 )および0.950から0.960g/cm 3の範囲の密度を有する。 高密度ポリエチレン組成物の製造方法は以下の工程を含む:(1)エチレンおよび1またはそれ以上のアルファ−オレフィンコモノマーを第1反応器に導入する工程;(2)エチレンを1またはそれ以上のアルファ−オレフィンコモノマーの存在下、第1反応器内で(共)重合し、それにより第1成分を製造する工程であって、第1成分が0.920から0.946g/cm 3の範囲の密度および1から15g/10分の範囲のメルトインデックス(I 21.6 )を有する高分子量エチレンアルファ−オレフィンコポリマーである工程;(3)第1成分および追加エチレンを第2反応器に導入する工程;(4)追加エチレンを第2反応器内で重合させ、それにより第2成分を製造する工程であって、第2成分が0.965から0.980g/cm 3の範囲の密度および30から1500g/10分の範囲のメルトインデックス(I 2 )を有する低分子量エチレンポリマーである工程;並びに(5)それにより高密度ポリエチレン組成物を製造する工程であって、高密度ポリエチレン組成物が少なくとも1のメルトインデックス(I 2 )および0.950から0.960g/cm 3の範囲の密度を有する工程。 本発明による注型物品は上述の本発明の高密度ポリエチレン組成物を含み、そのような物品は注型によって製造される。 | ||||||
| 9 | Method of sealing vessel | JP27309686 | 1986-11-18 | JPS62168893A | 1987-07-25 | ERITSUKU OTSUTOO TEUSHIYU |
| 10 | ADHESIVE COMPOSITION, PROCESS FOR PRODUCING THE SAME, MOLDED OBJECTS, AND PROCESS FOR PRODUCING HEAT-SHRINKABLE TUBE | EP04747766.6 | 2004-07-14 | EP1650281A1 | 2006-04-26 | MORIUCHI, Kiyoaki, Osaka Works; HAYAMI, Hiroshi, Osaka Works; NISHIKAWA, Shinya, Osaka Works |
An adhesive composition comprising 100 parts by weight of a fluorine-containing polymer and 2 to 30 parts by weight of an unsaturated compound containing at least one polar group selected from the group consisting of an epoxy group and a carboxyl group, wherein the fluorine-containing polymer has been graft-modified with the polar group-containing unsaturated compound by irradiation of ionizing radiation, a production process thereof, and formed products such as a heat-shrinkable tube equipped with a layer composed of the adhesive composition. |
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| 11 | Flaschenkapsel | EP95810093.5 | 1995-02-13 | EP0668217A1 | 1995-08-23 | Bruderer, Hans Jörg; Bösch, Gustav |
Die Flaschenkapsel (1) hat einen kegelstumpfförmigen Mantel (2) aus einer schrumpffähigen Kunststoffolie. Am Umfang des Mantels (2) sind mehrere Einbuchtungen (9-12) vorgesehen, die sich elastisch verformen lassen, so dass sich die Flaschenkapsel (1) leicht auf einen Flaschenhals (5) aufschieben lässt und sie beim Aufschrumpfen auf den Flaschenhals (5) gegen Verschieben gehalten ist. |
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| 12 | Ampoule package | EP87117092.4 | 1987-11-19 | EP0269003B1 | 1993-04-07 | Abiko, Kenji c/o Tohoku Factory; Watanabe, Yoshio c/o Tohoku Factory; Anzai, Noboru c/o Tohoku Factory; Takahashi, Kenichi c/o Toppan Printing Co., Ltd. |
| 13 | Packaging material and sealing cap | EP86100958.7 | 1986-01-24 | EP0189868A2 | 1986-08-06 | Hanaya, Toru; Ibi, Masaei |
This invention provides a packaging material comprising a metallic foil and at least one heat-shrinkable film of synthetic resin disposed on at least one surface of the metallic foil, the film being superposed on the metallic foil and comprising superposed portions bonded to the metallic foil and superposed portions to be heat-shrunk and not bonded to the metallic foil, and the portions to be heat-shrunk of the film being shrunk by application of heat and also provides a sealing cap made of the packaging material suitable for sealing the capped mouths of bottles for wine, champagne or the like. |
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| 14 | Adhesive composition, process for producing the same, molded objects, and process for producing heat-shrinkable tube | US12869196 | 2010-08-26 | US08696974B2 | 2014-04-15 | Kiyoaki Moriuchi; Hiroshi Hayami; Shinya Nishikawa |
| An adhesive composition comprising 100 parts by weight of a fluorine-containing polymer and 2 to 30 parts by weight of an unsaturated compound containing at least one polar group selected from the group consisting of an epoxy group and a carboxyl group, wherein the fluorine-containing polymer has been graft-modified with the polar group-containing unsaturated compound by irradiation of ionizing radiation, a production process thereof, and formed products such as a heat-shrinkable tube equipped with a layer composed of the adhesive composition. | ||||||
| 15 | Method for the production of caps with a heat shrinkable skirt and caps obtained according to the method | US10595764 | 2004-11-08 | US08226867B2 | 2012-07-24 | Jacques Granger; Andre Luciani |
| The method comprises a) an extrusion stage wherein a extruded tube made of a thermoplastic material is formed by extrusion with the aid of an extrusion die having a diameter D0, a slit width E0 and a section S0; b) a stage wherein the extruded tube is radially expanded in order to form a radially expanded tube having a diameter D2, a thickness E2 and corresponding section of area S1; c) a truncating stage wherein the expanded tube is broken down into tube portions; d) a stage in which the tube portions are formed in such a way that a heat-shrinkable cap is obtained and in which an axial drawing stage is incorporated, between extrusion stage a) and expansion stage b), at the output of the extrusion die, in order to obtain an axially drawn tube having a diameter D1 which is typically smaller than D0 and D2, and a thickness E1 which is typically lower than E0, such that S0/S1 typically ranges between 2 and 10. The advantages of the invention are as follows: it is possible to obtain caps which are economic, easily heat-shrinkable and which have a stable axial dimension, thereby avoiding any axial distortion, i.e. any axial distortion of the impression. | ||||||
| 16 | Method for the production of caps with a heat shrinkable skirt and caps obtained according to the method | US10595764 | 2004-11-08 | US20070131640A1 | 2007-06-14 | Jacques Granger; Andre Luciani |
| The method comprises a) an extrusion stage wherein a extruded tube made of a thermoplastic material is formed by extrusion with the aid of an extrusion die having a diameter D0, a slit width E0 and a section S0; b) a stage wherein the extruded tube is radially expanded in order to form a radially expanded tube having a diameter D2, a thickness E2 and corresponding section of area S1; c) a truncating stage wherein the expanded tube is broken down into tube portions; d) a stage in which the tube portions are formed in such a way that a heat-shrinkable cap is obtained and in which an axial drawing stage is incorporated, between extrusion stage a) and expansion stage b), at the output of the extrusion die, in order to obtain an axially drawn tube having a diameter D1 which is typically smaller than D0 and D2, and a thickness E1 which is typically lower than E0, such that S0/S1 typically ranges between 2 and 10. The advantages of the invention are as follows: it is possible to obtain caps which are economic, easily heat-shrinkable and which have a stable axial dimension, thereby avoiding any axial distortion, i.e. any axial distortion of the impression. | ||||||
| 17 | Adhesive composition, process for producing the same, molded objects, and process for producing heat-shrinkable tube | US10558758 | 2004-07-14 | US20070020413A1 | 2007-01-25 | Kiyoaki Moriuchi; Hiroshi Hayami; Shinya Nishikawa |
| An adhesive composition comprising 100 parts by weight of a fluorine-containing polymer and 2 to 30 parts by weight of an unsaturated compound containing at least one polar group selected from the group consisting of an epoxy group and a carboxyl group, wherein the fluorine-containing polymer has been graft-modified with the polar group-containing unsaturated compound by irradiation of ionizing radiation, a production process thereof, and formed products such as a heat-shrinkable tube equipped with a layer composed of the adhesive composition. | ||||||
| 18 | Heat treated plastic closure | US384407 | 1995-02-06 | US5673808A | 1997-10-07 | Emery I. Valyi; Gary V. Montgomery |
| A container closure assembly and method for providing same. The container has an access opening and a container rim surrounding the access opening. A plastic cap covers the access opening and includes an upper portion, a skirt depending from the upper portion and circumferentially covering the container rim, and a tamper ring depending from said skirt, wherein the tamper ring is preferably connected to the skirt by a plurality of tabs separated by open portions, whereby the tamper ring is disengaged from the skirt by twisting the cap and breaking the tabs. The tabs comprise a crystallized, brittle portion, whereby breaking the tabs is facilitated. | ||||||
| 19 | Heat Shrink capsule for closing flanged bottle tops | US482530 | 1995-06-07 | US5654022A | 1997-08-05 | David P. Sayre |
| A capsule for placement over bottle tops, particularly tops of bottles of wine having a flanged bottle top which defines a pouring surface surrounding an opening of the bottle closed with a cork and an exterior undercut. The capsule is constructed of a heat shrinkable material, covers the pouring surface, engages the undercut, and includes a weakened break line positioned so that the break line overlies the periphery of the bottle top flange. The capsule is transparent and includes an opaque band at its free, lower end which is dimensioned and positioned to overlie and thereby hide from view a lower end of the cork and a fill line formed by the wine in the bottle. The base of the capsule includes a hole which is about the same size as or slightly larger than the bottle opening. An opaque, preferably metallic, disk is affixed e.g. bonded, to the base of the capsule, overlies and covers the bottle opening, hides the end of the cork from view, and protects the bottle top, the bottle opening, the cork and a pouring surface of the bottle against contamination and tampering. | ||||||
| 20 | Bottle capsules | US455044 | 1974-03-27 | US3941269A | 1976-03-02 | Valer Flax |
| There is disclosed a capping capsule for sealing attachment to the neck portion of a container such as a bottle. The capsule consists of a base wall portion in the form of a planar disc from which extends integral with the disc a heat shrinkable tubular side wall portion of substantially uniform thickness. The planar disc is thicker than the tubular side wall portion and the peripheral outline of the base wall is smaller than the inner peripheral outline of the side wall portion. | ||||||
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