公开(公告)号：EP3009524B1

公开(公告)日：2017-10-11

申请号：EP15198381.4

申请日：2013-12-06

申请人： Moravia Cans a.s.

发明人： SEDLACEK, Jan ,  DIVOKY, Rudolf ,  KROVINA, Jan ,  FOKSOVA, Veronika

IPC分类号： C22C21/00

CPC分类号： C22C21/00

公开(公告)号：EP3009524A1

公开(公告)日：2016-04-20

申请号：EP15198381.4

申请日：2013-12-06

申请人： Moravia Cans a.s.

发明人： SEDLACEK, Jan ,  DIVOKY, Rudolf ,  KROVINA, Jan ,  FOKSOVA, Veronika

IPC分类号： C22C21/00

CPC分类号： C22C21/00

摘要： Heat-resistant alloy for production of aerosol cans from a material having the following contents of alloying additions in percent by weight:
according to the standards EN 573-3
EN AW 3102
Si ≤ 0.40; Fe ≤ 0.70; Cu ≤ 0.10; Mn 0.05-0.40; Zn ≤ 0.30; Ti ≤ 0.10;
or with more specific compositions
- Si = 0.05÷0.09; Fe = 0.23÷0.27; Cu ≤ 0.005; Mn = 0.28÷0.32; Mg ≤ 0.005; Zn ≤ 0.015; Ti = 0.01÷0.03;

where each composition contains added Zr in the amount ranging between 0.10 and 0.15% by weight, the sum of the contained amounts of all the secondary elements being ≤ 0,10% by weight and Al content is remainder.

摘要翻译： 由具有以下重量含量的合金添加量的材料制成气雾罐的耐热合金：根据标准EN 573-3 EN AW 3102 Si‰¤0.40; Fe‰0.70; Cu‰¤0.10; Mn 0.05-0.40; Zn‰¤0.30; Ti‰¤0.10; 或更具体的组成 - Si = 0.05÷0.09; Fe = 0.23÷0.27; 铜‰0.005 Mn = 0.28÷0.32; 镁‰0.005 Zn‰¤0.015; Ti = 0.01÷0.03; 其中每种组合物含有0.10重量％至0.15重量％的添加的Zr，所有二元素的含量之和为‰¤0.10重量％，Al含量为余量。

公开(公告)号：EP2851141A1

公开(公告)日：2015-03-25

申请号：EP13466022.4

申请日：2013-09-20

申请人： Moravia Cans a.s.

发明人： Sedlacek, Jan ,  Sedlak, Josef ,  Divoky, Rudolf ,  Zimacek, Radek

IPC分类号： B21D37/16 ,  B21D43/14 ,  B21D51/26

CPC分类号： B21D37/16 ,  B21D43/14 ,  B21D51/2615 ,  B21D51/2692

摘要： Method for shaping metal containers by means of a tool plate (24) under elevated temperatures, wherein the hollow body of the container (1) is brought into contact with a heating tool (26) fixed in the tool plate (24) in the first step of the process, the heating tool (26) comprising a spring-back element (8) which is gradually compressed into a predetermined end position, whereby the hollow body of the container (1) remains in contact with the heating tool (26) for a certain period of time, whereupon the heating tool (26) along with the hollow body of the container (1) return into their initial positions causing the spring-back element (8) to relieve, the hollow body of the container (1) being left subjected to the heat both during the unloading period of the spring-back element (8) and during withdrawing period of the heating tool (26).

摘要翻译： 用于通过在高温下的工具板（24）的方式成形金属容器，worin所述容器（1）的中空本体方法被带入与所述第一固定在工具板（24）的加热工具（26）接触 该方法的步骤，所述加热工具（26）包括弹回元件（8），所有这些被逐渐地压缩成预定的端位置，由此所述容器（1）的中空本体保持与加热工具接触（26） 的时间（一定时期，其中在与所述容器的所述中空体沿所述加热工具（26）（1）返回到它们的初始位置使所述回弹元件（8），以减轻，容器的空心体1 ）被留在弹回元件（8）的卸载期间和回抽加热工具（26）的周期期间，这两个经受热。

公开(公告)号：EP3132868A1

公开(公告)日：2017-02-22

申请号：EP15466009.6

申请日：2015-08-17

申请人： Moravia Cans a.s.

发明人： Sedlacek, Jan ,  Divoky, Josef

IPC分类号： B21D51/26 ,  B44B5/00 ,  B21D26/14

CPC分类号： B21D51/2607 ,  B21D26/14 ,  B44B5/00

摘要： Tool (1) for electromagnetic forming of aerosol containers with relief protrusion which contains a support tube (10), a forming unit (26) seated firmly on the support tube (10), wherein the forming unit (26) consists of a hollow casing (5) with a movably arranged hollow cage (11) inside, wherein both the casing (5) and the cage (11) are provided on their walls with openings (18,19) which overlap themselves in an assembled state, further the forming unit (26) contains a pressure body (25) fixedly arranged in openings (19) of the casing (5), the pressure body (25) touches from above the forming segments (13) movably arranged in radial direction in openings (18) of the cage (11), wherein to the cage (11) is towards to the supporting tube (10) a tube guiding portion (21) adjoint, this tube guiding portion (21) is slidably arranged in the supporting tube (10), wherein between the supporting tube (10) and the cage (11) press springs (15) are mounted, the embossing tool (1) is further provided with cooperating stops for defined insertion of the container into the tool (1), wherein the casing (5) is on its free end provided with a cover (6) to prevent falling out of the cage (11) and inside of the embossing tool (1) a coil (30) for electromagnetic forming is arranged.

摘要翻译： 用于电磁形成用于具有释放凸起的气溶胶容器的工具（1），其具有支撑管（10），牢固地安置在支撑管（10）上的成形单元（26），其中所述成形单元（26）由中空壳体 （5），其中内部具有可移动布置的中空笼（11），其中壳体（5）和保持架（11）都在其壁上设置有在组装状态下自重重叠的开口（18,19），此外，成形 单元（26）包含固定地布置在壳体（5）的开口（19）中的压力体（25），压力体（25）从开口（18）中沿径向可移动地设置的成形段（13） ，其中，所述保持器（11）朝向所述支撑管（10）延伸管引导部（21），所述管引导部（21）可滑动地布置在所述支撑管（10）中， 其中，在支撑管（10）和保持架（11）之间安装有压簧（15），压花工具（1）进一步提供 d具有用于将容器限定插入工具（1）中的配合止动件，其中壳体（5）在其自由端上设置有盖（6），以防止从保持架（11）中脱落并且在压花内 工具（1）设置用于电磁成形的线圈（30）。

公开(公告)号：EP3498393A1

公开(公告)日：2019-06-19

申请号：EP17208176.2

申请日：2017-12-18

申请人： Moravia Cans a.s.

发明人： SEDLACEK, Jan

IPC分类号： B21D51/26 ,  B65D1/16

摘要： Tool for curling of can's neck as part of a tool plate comprising an expansion control device (46) for controlling of the spreading of a collet (6) in which is with one end by means of a collet clutch (11), which is inside of the expansion control device (46) arranged interconnecting means provided on the other end with a stop mechanism (45), wherein in the collet clutch (11) a holder (10) is fixed with its one end, and on its other end the collet (6) is arranged, the collet (6) in the non-active position is insertable into the can (2), and segments (12) of the collet (6) are spreading in the direction to the device (46).

公开(公告)号：EP3031941B1

公开(公告)日：2017-07-05

申请号：EP15198382.2

申请日：2013-12-06

申请人： Moravia Cans a.s.

发明人： SEDLACEK, Jan ,  DIVOKY, Rudolf ,  KROVINA, Jan ,  FOKSOVA, Veronika

IPC分类号： C22C21/00

CPC分类号： C22C21/00

公开(公告)号：EP2881477B1

公开(公告)日：2017-03-29

申请号：EP13466032.3

申请日：2013-12-06

申请人： Moravia Cans a.s.

发明人： Sedlacek, Jan ,  Divoky, Rudolf ,  Krovina, Jan ,  Foksova, Veronika

IPC分类号： C22C21/00

CPC分类号： C22C21/00

公开(公告)号：EP3132868B1

公开(公告)日：2017-09-27

申请号：EP15466009.6

申请日：2015-08-17

申请人： Moravia Cans a.s.

发明人： Sedlacek, Jan ,  Divoky, Josef

IPC分类号： B21D51/26 ,  B44B5/00 ,  B21D26/14

CPC分类号： B21D51/2607 ,  B21D26/14 ,  B44B5/00

公开(公告)号：EP3031941A1

公开(公告)日：2016-06-15

申请号：EP15198382.2

申请日：2013-12-06

申请人： Moravia Cans a.s.

发明人： SEDLACEK, Jan ,  DIVOKY, Rudolf ,  KROVINA, Jan ,  FOKSOVA, Veronika

IPC分类号： C22C21/00

CPC分类号： C22C21/00

摘要： Heat-resistant alloy for production of aerosol cans from a material having the following contents of alloying additions in percent by weight:
according to the standards EN 573-3
EN AW 3207
Si ≤ 0.30; Fe ≤ 0.45; Cu ≤ 0.10; Mn 0.40-0.80; Mg ≤ 0.10; Zn ≤ 0.10;
or with more specific compositions
- Si = 0.05÷0.09; Fe = 0.23÷0.27; Cu ≤ 0.005; Mn = 0.58÷0.62; Mg ≤ 0.005; Zn ≤ 0.015; Ti = 0.01÷0.03;
where each composition contains added Zr in the amount ranging between 0.10 and 0.15
% by weight, the sum of the contained amounts of all the secondary elements being ≤ 0,10% by weight and Al content is remainder.

摘要翻译： 根据标准EN 573-3 EN AW 3207 Si≤0.30的材料，用于生产气雾罐的耐热合金具有以下合金添加物的重量百分比： Fe≤0.45; Cu≤0.10; Mn 0.40-0.80; Mg≤0.10; Zn≤0.10; 或更具体的组成--Si = 0.05÷0.09; Fe = 0.23÷0.27; Cu≤0.005; Mn = 0.58÷0.62; Mg≤0.005; Zn≤0.015; Ti = 0.01÷0.03; 其中每种组合物含有0.10至0.15重量％的添加的Zr，所有次要元素的含量之和≤0.10重量％，Al含量为余量。

公开(公告)号：EP2881477A1

公开(公告)日：2015-06-10

申请号：EP13466032.3

申请日：2013-12-06

申请人： Moravia Cans a.s.

发明人： Sedlacek, Jan ,  Divoky, Rudolf ,  Krovina, Jan ,  Foksova, Veronika

IPC分类号： C22C21/00

CPC分类号： C22C21/00

摘要： Heat-resistant alloy for production of aerosol cans from a material having the following contents of alloying additions in percent by weight:
according to the standards EN 573-3
EN AW 1050A
Si ≤ 0.25; Fe ≤ 0.40; Cu ≤ 0.05; Mn ≤ 0.05; Mg ≤ 0.05; Zn ≤ 0.07; Ti ≤ 0,05;
EN AW 3102
Si ≤ 0.40; Fe ≤ 0.70; Cu ≤ 0.10; Mn 0.05-0.40; Zn ≤ 0.30; Ti ≤ 0.10;
EN AW 3207
Si ≤ 0.30; Fe ≤ 0.45; Cu ≤ 0.10; Mn 0.40-0.80; Mg ≤ 0.10; Zn ≤ 0.10;
or with more specific compositions
- Si = 0.05÷0.09; Fe = 0.15÷0.27; Cu ≤ 0.005; Mn ≤ 0.005; Mg ≤ 0.005; Zn ≤ 0.015; Ti = 0.01÷0.03;
- Si = 0.05÷0.09; Fe = 0.23÷0.27; Cu ≤ 0.005; Mn = 0.28÷0.32; Mg ≤ 0.005; Zn ≤ 0.015; Ti = 0.01÷0.03;
- Si = 0.05÷0.09; Fe = 0.23÷0.27; Cu ≤ 0.005; Mn = 0.58÷0.62; Mg ≤ 0.005; Zn ≤ 0.015; Ti = 0.01÷0.03;

where each composition contains added Zr in the amount ranging between 0.05 and 0.20% by weight, the sum of the contained amounts of all the secondary elements being ≤ 0,10% by weight and Al content is remainder.