序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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1 | 压印技术的改进 | CN201180030871.2 | 2011-04-13 | CN103108745A | 2013-05-15 | K.卡尔朱拉; L.纳皮 |
一种用于施加压印图样到吸烟物品的包装纸上的压印装置,所述压印装置构造成用于至少部分地使由施加所述压印图样导致的包装纸抗拉强度沿至少一个方向的降低最小化。 | ||||||
2 | 一种纸杯盖及其加工工艺 | CN201610848608.9 | 2016-09-26 | CN106335702A | 2017-01-18 | 郑明华; 李强; 金征北 |
一种纸杯盖及其加工工艺。其特征在于:纸杯盖为一体式结构,其加工步骤包括取料、模压成型、折底、滚花,其结构包括圆形的顶部以及围绕底部一圈的环侧部;所述环侧部中间段形成有一台阶,所述环侧部底部设有向内翻折并贴紧环侧部内壁的翻边。其优点在于一体成型,结构简单,加工工艺简单,而且能够更好的与纸杯配合。 | ||||||
3 | 一种用于滤清器的内芯纸板的成型机构 | CN201610009517.6 | 2016-01-05 | CN105666955A | 2016-06-15 | 肖钧文 |
一种用于滤清器的内芯纸板的成型机构,涉及滤清器加工设备技术领域,设置在一机架上,所述的机架上设置有一粗托辊和一细托辊,所述的粗托辊和细托辊上均设置有齿条板,所述粗托辊和细托辊并排且齿条板相互齿接设置,所述的机架外固定有一转轴连接于粗托辊和细托辊的驱动电机。本发明的有益效果是:本发明设计新颖,结构简单,通过带有齿条状的托辊进行内芯的折叠,替代了原有的水平折叠方式,效果更加明显,省时省力,快捷方便,操作简单,实用性好。 | ||||||
4 | 轻质结构的加强元件及用于制造该加强元件的材料复合物 | CN201510613391.9 | 2015-09-23 | CN106192602A | 2016-12-07 | 索斯藤·郝尼克; 克里斯托夫·纳赫鲍尔 |
本发明公开了一种用于通过热压成型的方式制造轻质结构的加强元件(100)的材料复合物牛皮纸板(20)。纤维素基芯材(10)由波纹纸带(12)构成或具有蜂巢结构。牛皮纸板(20)机械地连接至波纹纸带(12)或蜂巢结构,并且牛皮纸板(20)包括平面纸带(14、22)。粘结层(30)被设置在牛皮纸板(20)的平面纸带(22)与芯材(10)之间,粘结层(20)用于将牛皮纸板(20)的平面纸带(22)机械地连接至芯材(10)。此外,基于材料复合物,本发明还公开了轻质结构的加强元件(100)及其制造方法。(1)。该材料复合物(1)包括纤维素基芯材(10)和 | ||||||
5 | 立体成形瓦楞纸箱及其制造方法 | CN02829516.1 | 2002-12-05 | CN1649723A | 2005-08-03 | 石桥正己; 石桥聡 |
本发明的立体成形瓦楞纸箱中,其连续同一高度的波浪形中心(2),和以接着剂接着在波浪形顶点处(3)一对直线(4)所形成的纸制瓦楞纸箱(1),至少一部分具有屈折部(5)或曲面部(16)的立体成形瓦楞纸箱,屈折部(5)或曲面部(16),将中心(2)波浪形维持均一形状,而在此状态下塑性变形。立体成形瓦楞纸箱的制造方法中具有以下工程。加湿纸制瓦楞纸箱直线(4)的加湿工程,和设有具备屈折部(5)或曲面部(16)立体形状的掘入部(10)的模槽侧模子(8),和具备对应掘入部(10)的中心侧模子(9)的一对模子(7)之间,通过加湿工程,插入加湿后的前述纸制瓦楞纸箱(1),通过加压方式赋予纸制瓦楞纸箱(1)立体形状的成型工程,和加热纸制瓦楞纸箱(1)后,将直线(4)的含水率除湿到3%以下的加热工程。 | ||||||
6 | 緩衝材製造装置及び緩衝材製造方法 | JP2015164758 | 2015-08-24 | JP2017043367A | 2017-03-02 | 高橋 二朗; 柴田 晃男; 有森 宏 |
【課題】梱包品の破損を防止するために梱包容器と梱包品とに介在させる、クッション性の高い緩衝材を製造可能な緩衝材製造装置を提供する。 【解決手段】段ボール紙を細断部1によって細長い短冊状のチップに形成し、ベルトコンベア2によって貯蔵部へ送出する。貯蔵部3から計量部4へ段ボール紙製のチップを供給し、計量部4内において所定の嵩までチップが投入されたことを嵩高計量手段42によって検知すると、貯蔵部3からのチップの供給を停止し、底部41を開放する。計量部4に供給されたチップは自由落下により包装機5の円筒部51を介して紙製の包装袋61へ供給される。その後、包装袋61内のチップをチップ減容装置により圧縮して減容した後、シールカッター53によって包装袋61をシールした後カットし、緩衝材を形成する。 【選択図】図1 |
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7 | 絞り成型容器の製造システム | JP2017533841 | 2015-12-18 | JP2018505791A | 2018-03-01 | ファッサ ジョン マイケル; ショフ キーガン タッカー |
絞り成型容器を製造するためのシステムが提供される。1つまたは複数の実施形態において、システムは、上側可動プラテンと、下側可動プラテンと、静止プラテンと、パンチプラテンと、1つまたは複数の成形金型アセンブリと、を含むことができる。上側可動プラテンとパンチプラテンは静止プラテンの上方に配置でき、下側可動プラテンは静止プラテンの下方に配置できる。上側可動プラテン、パンチプラテン、および下側可動プラテンは、静止プラテンに向かって、およびそれと反対に移動するように構成できる。各成形金型アセンブリは、上側および下側成形金型の集合を含むことができる。上側および下側成形金型は、それぞれ上側および下側可動プラテンに連結し、基板をプレスして、静止プラテンを通って延びる通路内で絞り成型容器製品を形成するように構成できる。 | ||||||
8 | Manufacture of channel molding article for electric insulation | JP4730487 | 1987-03-02 | JPS63213909A | 1988-09-06 | YOSHIZUMI YASUJI; MATSUOKA YOSHIYUKI |
PURPOSE: To prevent the crack of the outer edge of a flange by heat-molding by pressing after making a protrusion extended from the flange by partially cutting a dried paper press board previously. CONSTITUTION: A flat plate 5 which is cut from a dried paper press board is cut to make the width of a flange 2b (b) and the length of a protrusion 4a (b). A cut to be molded 17 is provided with definite creases 6 to absorb the stress in the directions of compression and tension caused at the time of press molding and is made to contain moisture uniformly. Then, a side press 13 is opened at first in the initial stage of pressing heating the cut 17 to be molded in a press molder and then, the cut 17 to be molded is pressed by lowering a punch press 14 and at last, the cut 17 to be molded is pressed by moving the side press 13 horizontally, the punch press 14 is lowered synchronously and the cut 17 is molded. The cut 17 is uniformly pressed in total, a nonuniform state is avoided and a crack is prevented in the outer edge of the flange 2b of a channel molding article 2. COPYRIGHT: (C)1988,JPO&Japio | ||||||
9 | VERFAHREN ZUM DREIDIMENSIONALEN UMFORMEN VON MATERIAL | EP16767162.7 | 2016-09-04 | EP3347196A1 | 2018-07-18 | HAUG, Hans |
The invention relates to a method for the three-dimensional shaping of flat material made from in particular, natural fibers, such as for example, paper or cardboard, using a deep-drawing piston and a die, through which or into which the material is drawn. The diameter of the deep-drawing piston plus the material thickness of the deep-drawn material corresponds at least approximately to the diameter of the die. | ||||||
10 | Procédé de formage de profilés de section angulaire et dispositif pour la mise en oeuvre de ce procédé | EP09305565.5 | 2009-06-18 | EP2145755B1 | 2011-01-19 | Priester, Claude |
11 | Verfahren und Vorrichtung zur Herstellung von Formteilen aus Laminat und danach sowie damit hergestelltes Laminat-Formteil | EP94115115.1 | 1994-09-26 | EP0648598A2 | 1995-04-19 | Steinhoff,Bruno |
Bei dem Verfahren zur Herstellung von Formteilen (2) aus Laminat, welches aus übereinanderliegenden und miteinander verklebten (verleimten) Papier- oder Papplagen gebildet ist, wird eine Papierbahn nach dem Leimauftragen zu einem hohlen Formteil (2) gewickelt, anschließend das hohle Formteil (2) formgepreßt und ausgehärtet. Das Formteil (2) kann zwischengelagert oder unmittelbar weiterverarbeitet werden. Das zwischengelagerte oder unmittelbar weiter zu verarbeitende Formteil (2) wird erneut erweicht und anschließend das erweichte Formteil (2) in seine endgültige Form gepreßt und ausgehärtet. |
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12 | METHOD FOR THREE-DIMENSIONAL SHAPING OF MATERIAL | US15759320 | 2016-09-04 | US20180264768A1 | 2018-09-20 | Hans HAUG |
A method for the three-dimensional shaping of flat material made from in particular, natural fibers, such as for example, paper or cardboard, using a deep-drawing piston and a die, through which or into which the material is drawn. The diameter of the deep-drawing piston plus the material thickness of the deep-drawn material corresponds at least approximately to the diameter of the die. | ||||||
13 | Mill-style blow molding wheel mechanism and method of manufacturing using the same | US14715655 | 2015-05-19 | US09643353B2 | 2017-05-09 | Michael P. Wade; Barry G. Calvert |
In one embodiment, an apparatus and a method of manufacturing a paperboard tray therewith is provided. In particular, a hub is configured to rotate about a shaft. On the hub, a plurality of first molds are formed in the hub. Conversely, a plurality of second molds are each disposed above each of the plurality of first molds respectively and rotate above the first molds. In this configuration, the plurality of second molds are configured to move in unison with the plurality of first molds as the hub and second molds rotate and to move orthogonally towards and then away from the first molds as the second molds rotate. | ||||||
14 | FORMING DIE ASSEMBLY FOR PRODUCING PRESSWARE | US14975558 | 2015-12-18 | US20160176147A1 | 2016-06-23 | John Michael Vassa; Keegan Tucher Schoch |
Forming die assemblies for producing pressware are provided. In one or more embodiments, a forming die assembly can include an upper forming die, a lower forming die, and one or more lower forming springs coupled to the lower forming die, where the lower forming springs can be configured to spring load the lower forming die against the upper forming die when the forming die assembly is disposed in a closed position. The upper forming die can include an upper knockout, a forming punch, and a pressure ring aligned along a central axis of the forming die assembly, and the lower forming die can include a lower knockout and a contour rim aligned along the central axis of the forming die assembly. The lower surfaces of the upper forming die can form a punch profile and the upper surfaces of the lower forming die can form a forming profile. | ||||||
15 | MANUFACTURING METHOD FOR WASTEPAPER SHOCK ABSORBING MATERIALS USING VACUUM FORMING PRINCIPLE AND WASTEPAPER SHOCK ABSORBING MATERIALS USING THE METHOD | US11565875 | 2006-12-01 | US20070227680A1 | 2007-10-04 | Chul hwan Kim; Young min Lee; Dae bin Song |
A method for manufacturing shock absorbing materials using wastepaper using vacuum forming principle and wastepaper shock absorbing materials using the method are disclosed, wherein the method comprises: disintegrating wastepaper selected from at least one or more of Korea Old Corrugated Container (KOCC), Korea Old Newspaper (KONP) and milk carton, using a blender; diluting the disintegrated wastepaper to manufacture pulp suspension; mixing the pulp suspension with cationic starch; vacuum-dehydrating the pulp cationic starch mixed with the pulp suspension to a dual direction using a vacuum forming capable of dual vacuuming to manufacture a shock absorbing material; drying the shock absorbing material; and performing a surface sizing process on a surface of the dried shock absorbing material, such that a shock absorbing material having a remarkably low elastic modulus and density can be effectively manufactured without recourse to the conventional press performed by a press plate. | ||||||
16 | Method for manufacturing an electrically insulating formed channel member | US161027 | 1988-02-26 | US4877567A | 1989-10-31 | Yasuji Yoshizumi; Yoshiyuki Matsuoka |
An electrically insulating formed channel member is made of a sheet of an electrically insulating material capable of being press formed that is cut to provide radially projecting portions. Thereafter, the sheet is press-formed to form a formed channel member including the channel portion and the projection portions and bent to extend along the inner corner of a rectangular pancake coil with the web located at the inner side of the corner curvature. The sheet material may preferably be a dray paper press board. Ripples may be provided in the sheet material prior to the step of press-forming. The moisture in the sheet material may also be adjusted prior to the step of press-forming. | ||||||
17 | Machine for and method of printing sheet material and forming articles therefrom having shaped surfaces | US20121850 | 1950-12-16 | US2684104A | 1954-07-20 | DESSART FRANKLYN M; CUMING JOHN G; BECKER RALPH W; WATKINS ROBERT B |
18 | Method of and apparatus for shaping gores for geographical globes and the like | US29684928 | 1928-08-01 | US1779044A | 1930-10-21 | EDWARD MASSEY |
19 | Fork dies | US55150522 | 1922-04-11 | US1504771A | 1924-08-12 | MALLORY GEORGE P |
20 | Machine for producing either solid or hollow fibrous pulp articles of various forms. | US2450115 | 1915-04-28 | US1300966A | 1919-04-15 | HODGE ARTHUR J; RUGGLES HENRY B |