| 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 | 叠层型二次电池的制造方法 | CN201280049464.0 | 2012-10-10 | CN103875093B | 2016-09-07 | 落合健一; 北川信一郎; 澁谷雅一 |
| 开始将热熔树脂材料填充或注入到模具(7)的成形品形状空间(12)之后且在热熔树脂材料达到软化点以下之前,从空气喷射口(14)向用于分隔形成该成形品形状空间(12)的型面与热熔树脂层的表面之间喷射压缩空气。通过喷射该压缩空气而使在护边体(6)的表面积极产生“缩痕”而形成凹部(Q),同时在护边体(6)的表面与型面之间形成间隙(G)。由此,在利用热塑性的热熔树脂材料将筋状的护边体(6)与叠层膜外装壳体(5)的长边热熔接部(5c)一体成形时,自模具的脱模性良好。 | ||||||
| 2 | 叠层型二次电池的制造方法 | CN201280049464.0 | 2012-10-10 | CN103875093A | 2014-06-18 | 落合健一; 北川信一郎; 澁谷雅一 |
| 开始将热熔树脂材料填充或注入到模具(7)的成形品形状空间(12)之后且在热熔树脂材料达到软化点以下之前,从空气喷射口(14)向用于分隔形成该成形品形状空间(12)的型面与热熔树脂层的表面之间喷射压缩空气。通过喷射该压缩空气而使在护边体(6)的表面积极产生“缩痕”而形成凹部(Q),同时在护边体(6)的表面与型面之间形成间隙(G)。由此,在利用热塑性的热熔树脂材料将筋状的护边体(6)与叠层膜外装壳体(5)的长边热熔接部(5c)一体成形时,自模具的脱模性良好。 | ||||||
| 3 | Fabrication method for laminated-type secondary battery | US14350212 | 2012-10-10 | US09701056B2 | 2017-07-11 | Kenichi Ochiai; Shinichiro Kitagawa; Masakazu Shibuya |
| A compressed air is ejected from air ejector ports (14) to between a mold surface defining cavity (12) of mold (7) and a surface of a hot melt resin layer after starting to fill or inject the hot melt resin material into cavity (12) and before a temperature of the hot melt resin material becomes equal to or lower than a softening point thereof. Recesses (Q) are formed by positively generating a “sink mark” on a surface of edge protector (6) by ejection of the compressed air, and at the same time, gap (G) is formed between the surface of edge protector (6) and the mold surface. As a result, when bead-shaped edge protector (6) is integrally formed in long-side heat-fused portions (5c) of laminated-film exterior package case (5) by using a thermoplastic hot melt resin material, mold releasability of the molded edge protector from the mold can be enhanced. | ||||||
| 4 | Blow moulding machine with controlled movement of the stretch rod and blow moulding nozzle | US14331331 | 2014-07-15 | US20150048560A1 | 2015-02-19 | Dieter Finger; Eduard Handschuh; Florian Geltinger; Markus Haller |
| An apparatus (1) for the shaping of plastics material pre-forms (10) into plastics material containers (20) with a movable carrier (2) on which is arranged at least one shaping station (4), wherein the shaping station has a blow moulding device (6), and wherein the shaping station additionally has a stressing device (12) which acts upon the plastics material pre-forms with a flowable medium for their expansion, wherein the shaping station additionally has a rod-like body (14) which is capable of being inserted into the plastics material pre-forms in order to stretch them in the longitudinal direction (L) thereof, wherein the shaping station has a drive device (24) which moves the rod-like body (14) with respect to the plastics material pre-form. According to the invention a coupling device (30) is provided which couples a movement of the rod-like body (14) with respect to the plastics material pre-form to a movement of the stressing device (12) with respect to the plastics material pre-form (10)—in particular in a mechanical manner—at least for a time, and the apparatus has an influencing device (40) which influences a supply movement of the stressing device (12) towards the plastics material pre-form at least locally. | ||||||
| 5 | FABRICATION METHOD FOR LAMINATED-TYPE SECONDARY BATTERY | US14350212 | 2012-10-10 | US20140363730A1 | 2014-12-11 | Kenichi Ochiai; Shinichiro Kitagawa; Masakazu Shibuya |
| A compressed air is ejected from air ejector ports (14) to between a mold surface defining cavity (12) of mold (7) and a surface of a hot melt resin layer after starting to fill or inject the hot melt resin material into cavity (12) and before a temperature of the hot melt resin material becomes equal to or lower than a softening point thereof. Recesses (Q) are formed by positively generating a “sink mark” on a surface of edge protector (6) by ejection of the compressed air, and at the same time, gap (G) is formed between the surface of edge protector (6) and the mold surface. As a result, when bead-shaped edge protector (6) is integrally formed in long-side heat-fused portions (5c) of laminated-film exterior package case (5) by using a thermoplastic hot melt resin material, mold releasability of the molded edge protector from the mold can be enhanced. | ||||||
| 6 | Blow moulding machine with controlled movement of the stretch rod and blow moulding nozzle | US14331331 | 2014-07-15 | US09925711B2 | 2018-03-27 | Dieter Finger; Eduard Handschuh; Florian Geltinger; Markus Haller |
| An apparatus (1) for the shaping of plastics material pre-forms (10) into plastics material containers (20) with a movable carrier (2) on which is arranged at least one shaping station (4), wherein the shaping station has a blow molding device (6), and wherein the shaping station additionally has a stressing device (12) which acts upon the plastics material pre-forms with a flowable medium for their expansion, wherein the shaping station additionally has a rod-like body (14) which is capable of being inserted into the plastics material pre-forms in order to stretch them in the longitudinal direction (L) thereof, wherein the shaping station has a drive device (24) which moves the rod-like body (14) with respect to the plastics material pre-form. According to the invention a coupling device (30) is provided which couples a movement of the rod-like body (14) with respect to the plastics material pre-form to a movement of the stressing device (12) with respect to the plastics material pre-form (10)—in particular in a mechanical manner—at least for a time, and the apparatus has an influencing device (40) which influences a supply movement of the stressing device (12) towards the plastics material pre-form at least locally. | ||||||
| 7 | Transport star for containers, container transport section, and system for handling containers | US14422056 | 2013-07-27 | US09409722B2 | 2016-08-09 | Bernd Bruch; Ludwig Clüsserath |
| An apparatus for conveying containers includes a transport star having a rotor that rotates around a machine axis, transport positions disposed around the star, and a laminar-flow system. Each transport position has a container carrier to hold a container. The laminar-flow system, which is above the container carriers and above the containers' trajectory, prevents container contamination while the containers are disposed on the transport positions. The laminar-flow system has openings that direct a stream of sterile medium downward along outer surfaces of the containers. | ||||||
| 8 | TRANSPORT STAR FOR CONTAINERS, CONTAINER TRANSPORT SECTION, AND SYSTEM FOR HANDLING CONTAINERS | US14422056 | 2013-07-27 | US20150232283A1 | 2015-08-20 | Bernd Bruch; Ludwig Clüsserath |
| An apparatus for conveying containers includes a transport star having a rotor that rotates around a machine axis, transport positions disposed around the star, and a laminar-flow system. Each transport position has a container carrier to hold a container. The laminar-flow system, which is above the container carriers and above the containers' trajectory, prevents container contamination while the containers are disposed on the transport positions. The laminar-flow system has openings that direct a stream of sterile medium downward along outer surfaces of the containers. | ||||||
| 9 | 容器のための搬送スターホイール、容器搬送区間及び容器を処理するための設備 | JP2015526893 | 2013-07-27 | JP6290211B2 | 2018-03-07 | ブルッフ・ベルント; クリュセラート・ルートヴィヒ |
| 10 | ラミネート型二次電池の製造方法 | JP2013538556 | 2012-10-10 | JP5706532B2 | 2015-04-22 | 落合 健一; 北川 信一郎; 澁谷 雅一 |
| 11 | Blasformmaschine mit kontrollierter Reckstangen- und Blasdüsenbewegung | EP14181079.6 | 2014-08-14 | EP2845718B1 | 2016-11-09 | Finger, Dieter; Handschuh, Eduard; Geltinger, Florian; Haller, Markus |
| 12 | FABRICATION METHOD FOR LAMINATED-TYPE SECONDARY BATTERY | EP12840457.1 | 2012-10-10 | EP2768041B1 | 2016-05-18 | OCHIAI, Kenichi; KITAGAWA, Shinichiro; SHIBUYA, Masakazu |
| A compressed air is ejected from air ejector ports (14) to between a mold surface defining cavity (12) of mold (7) and a surface of a hot melt resin layer after starting to fill or inject the hot melt resin material into cavity (12) and before a temperature of the hot melt resin material becomes equal to or lower than a softening point thereof. Recesses (Q) are formed by positively generating a "sink mark" on a surface of edge protector (6) by ejection of the compressed air, and at the same time, gap (G) is formed between the surface of edge protector (6) and the mold surface. As a result, when bead-shaped edge protector (6) is integrally formed in long-side heat-fused portions (5c) of laminated-film exterior package case (5) by using a thermoplastic hot melt resin material, mold releasability of the molded edge protector from the mold can be enhanced. | ||||||
| 13 | TRANSPORTSTERN FÜR BEHÄLTER, BEHÄLTERTRANSPORTSTRECKE SOWIE ANLAGE ZUM BEHANDELN VON BEHÄLTERN | EP13744437.8 | 2013-07-27 | EP2885240A1 | 2015-06-24 | BRUCH, Bernd; CLÜSSERATH, Ludwig |
| The invention relates to a transport star for conveying bottles, or like containers (2), on a container transport section (8, 10) connecting container handling machines or assemblies (3, 4, 5), comprising a rotor-like transport element (13) that can be rotationally driven around a vertical machine axis (MA1 - MA4), and comprising a plurality of transport positions (14.1) on the transport element (13), each provided with a container carrier (14) for holding a container. In order to form a laminar flow system above the container carriers (14), and thus above the trajectory of the containers (2) arranged at the transport positions (14), which system avoids contamination of the containers, a plurality of discharge openings (18) for a sterile vaporous and/or gaseous medium or fluid is provided, that is, for forming a fluid stream, an air stream from the top down along a container outer surface of the containers, for example. | ||||||
| 14 | FABRICATION METHOD FOR LAMINATED-TYPE SECONDARY BATTERY | EP12840457 | 2012-10-10 | EP2768041A4 | 2015-04-08 | OCHIAI KENICHI; KITAGAWA SHINICHIRO; SHIBUYA MASAKAZU |
| A compressed air is ejected from air ejector ports (14) to between a mold surface defining cavity (12) of mold (7) and a surface of a hot melt resin layer after starting to fill or inject the hot melt resin material into cavity (12) and before a temperature of the hot melt resin material becomes equal to or lower than a softening point thereof. Recesses (Q) are formed by positively generating a "sink mark" on a surface of edge protector (6) by ejection of the compressed air, and at the same time, gap (G) is formed between the surface of edge protector (6) and the mold surface. As a result, when bead-shaped edge protector (6) is integrally formed in long-side heat-fused portions (5c) of laminated-film exterior package case (5) by using a thermoplastic hot melt resin material, mold releasability of the molded edge protector from the mold can be enhanced. | ||||||
| 15 | 容器のための搬送スターホイール、容器搬送区間及び容器を処理するための設備 | JP2015526893 | 2013-07-27 | JP2015524780A | 2015-08-27 | ブルッフ・ベルント; クリュセラート・ルートヴィヒ |
| 垂直な機械軸(MA1〜MA4)を中心として回転駆動可能なロータ状の搬送要素(13)を有し、この搬送要素(13)に、容器を保持するためのそれぞれ1つの容器キャリヤ(14)を備える複数の搬送位置(14.1)とを有する、容器処理機械又は容器処理ユニット(3,4,5)を結合する容器搬送区間(8,10)上で瓶等の容器(2)を搬送するための搬送スターホイールにおいて、容器(2)の汚染を回避する層流システムを形成するために、容器キャリヤ(14)の上、従って搬送位置(14.1)に配置された容器(2)の移動軌道の上に、蒸気状及び/又はガス状の無菌の媒体又は流体のための複数の出口(18)が設けられ、しかも容器の容器外面に沿って受けから下へ流体流、例えば空気流を形成するために設けられていること、を特徴とする搬送スターホイール。 | ||||||
| 16 | ラミネート型二次電池の製造方法 | JP2013538556 | 2012-10-10 | JPWO2013054816A1 | 2015-03-30 | 健一 落合; 信一郎 北川; 雅一 澁谷 |
| 金型(7)の成形品形状空間(12)に対するホットメルト樹脂材料の充填または注入を開始した後であって且つ軟化点以下となる前に、その成形品形状空間(12)を隔離形成している型面とホットメルト樹脂層の表面との間にエアエジェクタポート(14)から圧縮空気を噴射する。その圧縮空気の噴射をもってエッジプロテクタ(6)の表面に「ひけ」を積極的に発生させることで凹部(Q)とし、同時に型面との間に隙間(G)を形成する。これにより、ラミネートフィルム外装ケース(5)の長辺熱融着部(5c)に熱可塑性のホットメルト樹脂材料にてビード状のエッジプロテクタ(6)を一体に成形するにあたって、金型からの離型性が良好になる。 | ||||||
| 17 | TRANSPORTSTERN FÜR BEHÄLTER, BEHÄLTERTRANSPORTSTRECKE SOWIE ANLAGE ZUM BEHANDELN VON BEHÄLTERN | EP13744437.8 | 2013-07-27 | EP2885240B1 | 2017-11-01 | BRUCH, Bernd; CLÜSSERATH, Ludwig |
| 18 | Blasformmaschine mit kontrollierter Reckstangen- und Blasdüsenbewegung | EP14181079.6 | 2014-08-14 | EP2845718A1 | 2015-03-11 | Finger, Dieter; Handschuh, Eduard; Geltinger, Florian; Haller, Markus |
Vorrichtung (1) zum Umformen von Kunststoffvorformlingen (10) zu Kunststoffbehältnissen (10a) mit einem bewegbaren Träger (2), an dem mindestens eine Umformungsstation (4) angeordnet ist, wobei die Umformungsstation eine Blasformeinrichtung (6) aufweist und wobei die Umformungsstation weiterhin eine Beaufschlagungseinrichtung (12) aufweist, welche die Kunststoffvorformlinge zu deren Expansion mit einem fließfähigen Medium beaufschlagt, wobei die Umformungsstation weiterhin einen stangenartigen Körper (14) aufweist, der in die Kunststoffvorformlinge einführbar ist, um diese in ihrer Längsrichtung (L) zu dehnen, wobei die Umformungsstation eine Antriebseinrichtung (24) aufweist, welche den stangenartigen Körper (14) gegenüber dem Kunststoffvorformling bewegt. Erfindungsgemäß ist eine Kopplungseinrichtung (30) vorgesehen, welche eine Bewegung des stangenartigen Körpers (14) gegenüber dem Kunststoffvorformling zeitweise mit einer Bewegung der Beaufschlagungseinrichtung (12) gegenüber dem Kunststoffvorformling (10) insbesondere mechanisch koppelt und die Vorrichtung weist eine Beeinflussungseinrichtung (40) auf, welche eine Zustellbewegung der Beaufschlagungseinrichtung (12) auf den Kunststoffvorformling zu wenigstens abschnittsweise beeinflusst.
|
||||||
| 19 | FABRICATION METHOD FOR LAMINATED-TYPE SECONDARY BATTERY | EP12840457.1 | 2012-10-10 | EP2768041A1 | 2014-08-20 | OCHIAI, Kenichi; KITAGAWA, Shinichiro; SHIBUYA, Masakazu |
A compressed air is ejected from air ejector ports (14) to between a mold surface defining cavity (12) of mold (7) and a surface of a hot melt resin layer after starting to fill or inject the hot melt resin material into cavity (12) and before a temperature of the hot melt resin material becomes equal to or lower than a softening point thereof. Recesses (Q) are formed by positively generating a "sink mark" on a surface of edge protector (6) by ejection of the compressed air, and at the same time, gap (G) is formed between the surface of edge protector (6) and the mold surface. As a result, when bead-shaped edge protector (6) is integrally formed in long-side heat-fused portions (5c) of laminated-film exterior package case (5) by using a thermoplastic hot melt resin material, mold releasability of the molded edge protector from the mold can be enhanced. |
||||||
QQ群二维码
意见反馈
意见反馈