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    • 2. 发明申请
    • Spiraling device
    • 螺旋装置
    • US20050133656A1
    • 2005-06-23
    • US10518851
    • 2003-05-15
    • Markus BergerRainer OehlKlaus Binder
    • Markus BergerRainer OehlKlaus Binder
    • B65H81/06B29C53/66B29C70/16B29L23/00
    • B29C53/8016B29C70/16B65H49/32B65H59/16
    • A spiraling arrangement (1) for applying a spirally-shaped filament layer to an elongated carrier (2) which is drivable in the direction of the carrier longitudinal axis (X). The arrangement has a rotor (3), which is rotatable about the carrier longitudinal axis (X), and a plurality of filament bobbin carrier shafts (5) which extend in the direction of the carrier longitudinal axis (X). The carrier shafts (5) are arranged distributed on a circumscribed circle radius of the rotor (3) and are each configured to take up a plurality of filament bobbins (7). On one end face (6a) of the rotor (3), filament brake elements (10) are arranged distributed over the periphery and can be driven synchronously with respect to each other. The filaments (8) are taken off the filament bobbins (7) and are guided by filament guide elements (9) via the filament brake elements (10) and an annular comb (12), which encloses the carrier (2), onto the carrier (2).
    • 一种螺旋形布置(1),用于将螺旋状的细丝层施加到可沿着载体纵向轴线(X)的方向驱动的细长载体(2)。 该装置具有绕托架纵向轴线X可转动的转子(3),以及沿托架纵向轴线(X)的方向延伸的多个长丝轴托架轴(5)。 载体轴(5)分布在转子(3)的外接圆半径上,并且分别被构造成吸收多个长丝线轴(7)。 在转子(3)的一个端面(6a)上,灯丝制动元件(10)布置成分布在周边上,并且可以相对于彼此同步地被驱动。 灯丝(8)从灯丝筒(7)中取出,并经灯丝制动元件(10)和细丝引导元件(9)引导,环形梳(12)包围载体(2) 载体(2)。
    • 3. 发明授权
    • Spiraling device
    • 螺旋装置
    • US07124978B2
    • 2006-10-24
    • US10518851
    • 2003-05-15
    • Markus BergerRainer OehlKlaus Binder
    • Markus BergerRainer OehlKlaus Binder
    • B65H54/64
    • B29C53/8016B29C70/16B65H49/32B65H59/16
    • A spiraling arrangement (1) for applying a spirally-shaped filament layer to an elongated carrier (2) which is drivable in the direction of the carrier longitudinal axis (X). The arrangement has a rotor (3), which is rotatable about the carrier longitudinal axis (X), and a plurality of filament bobbin carrier shafts (5) which extend in the direction of the carrier longitudinal axis (X). The carrier shafts (5) are arranged distributed on a circumscribed circle radius of the rotor (3) and are each configured to take up a plurality of filament bobbins (7). On one end face (6a) of the rotor (3), filament brake elements (10) are arranged distributed over the periphery and can be driven synchronously with respect to each other. The filaments (8) are taken off the filament bobbins (7) and are guided by filament guide elements (9) via the filament brake elements (10) and an annular comb (12), which encloses the carrier (2), onto the carrier (2).
    • 一种螺旋形布置(1),用于将螺旋状的细丝层施加到可沿着载体纵向轴线(X)的方向驱动的细长载体(2)。 该装置具有绕托架纵向轴线X可转动的转子(3),以及沿托架纵向轴线(X)的方向延伸的多个长丝轴托架轴(5)。 载体轴(5)分布在转子(3)的外接圆半径上,并且分别被构造成吸收多个长丝线轴(7)。 在转子(3)的一个端面(6a)上,灯丝制动元件(10)布置成分布在周边上,并且可以相对于彼此同步地被驱动。 灯丝(8)从灯丝筒(7)中取出,并经灯丝制动元件(10)和细丝引导元件(9)引导,环形梳(12)包围载体(2) 载体(2)。
    • 6. 发明授权
    • Method and device for the production of tubular structures that are reinforced with a strengthening support
    • 用于生产用加强支撑件加强的管状结构的方法和装置
    • US07402216B2
    • 2008-07-22
    • US10518931
    • 2003-05-15
    • Markus BergerRainer OehlKlaus Binder
    • Markus BergerRainer OehlKlaus Binder
    • B32B41/00B32B3/20
    • B29C47/02B29C47/0023B29C47/0066B29C47/021B29C47/065B29C47/92B29C2947/92085B29C2947/92152B29C2947/92447B29C2947/92466B29C2947/9259B29C2947/92657B29C2947/92942B29C2947/92961B29K2021/00B29K2105/06B29L2023/22
    • A method for the production of reinforced tube-shaped structures (1) of rubber layers and reinforcement layers (2, 3) has the steps of:a) applying a first rubber layer (2a) with a first extrusion unit (4a) onto a series of sequential rigid cylindrical mandrels (5) which are coupled to each other and which are driven at an advancement speed (v) in the direction of an advancement axis (x);b) applying a first filament layer at defined desired filament angles (α1) referred to the advancement axis (x) with a bobbin creel unit (10a) having means which rotate about the advancing mandrels (5);c) applying atleast one further rubber layer (2b) to the first filament layer utilizing at least one additional extrusion unit (4b);d) continuously measuring the advancement speed (v) of the mandrels (5);controlling the quantity, which is applied via the first extrusion unit (4a), in dependence upon the measured advancement speed (v) in order to obtain a defined desired thickness of the first rubber layer (2a);f) controlling the rotational speed of the first bobbin creel unit (10a) during the rotation about the mandrels (5) in dependence upon the advancement speed (v) in order to obtain a filament layer having a defined desired filament angle (α1).
    • 一种用于生产橡胶层和加强层(2,3)的加强管状结构(1)的方法包括以下步骤:a)用第一挤出单元(4a)施加第一橡胶层(2a) 一系列顺序的刚性圆柱形心轴(5),它们彼此耦合并且以前进速度(v)沿前进轴线(x)的方向被驱动; b)以具有绕前进心轴(5)旋转的装置的筒管架单元(10a)将施加有前进轴线(x)的所需细丝角度(α1)施加到第一细丝层 ); c)利用至少一个另外的挤出单元(4b)将至少一个另外的橡胶层(2b)施加到所述第一长丝层上; d)连续测量心轴(5)的推进速度(v); 根据所测量的前进速度(v)控制通过第一挤出单元(4a)施加的量,以获得所确定的第一橡胶层(2a)所需的厚度; f)根据前进速度(v)控制围绕心轴(5)旋转期间的第一筒管架单元(10a)的旋转速度,以获得具有确定的所需长丝角度的长丝层(α' SUB> 1 )。
    • 7. 发明授权
    • Device for the guiding of individual reinforcement threads
    • 用于引导单个加强螺纹的装置
    • US07267152B2
    • 2007-09-11
    • US10518850
    • 2003-05-16
    • Markus BergerRainer OehlKlaus BinderChristoph Bederna
    • Markus BergerRainer OehlKlaus BinderChristoph Bederna
    • B65H81/00
    • B29C53/80B29K2105/08
    • An arrangement (1) for guiding individual reinforcement filaments (2) onto a carrier (3) has a positioning disc (4) with a plurality of filament guides (9) arranged distributed on a circular ring of the positioning disc (4). The carrier is moveable in the direction of the carrier axis (X). The arrangement also includes a rotationally symmetrical deflecting element (5). The positioning disc (4) and the deflecting element (5) each concentrically surround the carrier (3). The deflecting element (5) is mounted within the positioning disc (4) and aligned axially to the positioning disc (4). The inlet-end peripherally extending inner edge (6) of the deflecting element (5) faces toward the carrier (3) and is curved. The filament guides (9) open directly at the curved inner edge (6).
    • 用于将单独的加强细丝(2)引导到载体(3)上的装置(1)具有定位盘(4),其具有布置在定位盘(4)的圆环上的多个细丝引导件(9)。 载体可以在载体轴线(X)的方向上移动。 该装置还包括旋转对称的偏转元件(5)。 定位盘(4)和偏转元件(5)各自同心地围绕载体(3)。 偏转元件(5)安装在定位盘(4)内并且轴向对准定位盘(4)。 偏转元件(5)的入口端周向延伸的内边缘(6)面向载体(3)并弯曲。 灯丝引导件(9)在弯曲的内边缘(6)处直接打开。
    • 10. 发明授权
    • Method and device for the separation of tubes
    • 用于分离管的方法和装置
    • US07266872B2
    • 2007-09-11
    • US10501156
    • 2003-05-17
    • Rainer OehlKlaus BinderMarkus Berger
    • Rainer OehlKlaus BinderMarkus Berger
    • B23D3/16
    • B26D1/60B26D5/32B29C31/002B29C37/0017B29C53/828B29C2793/009B29L2023/005Y10T29/505Y10T29/5199
    • An apparatus and method for separation of tubes produced continuously on a row of mandrels, continuously coupled to one another, by the mandrels being advanced in a conveying direction (X) and by material layers being applied to the mandrels. A material difference exists from the mandrel material at a connection point of successive mandrels. A measuring device detects the connection point of the successive mandrels, and a separating device, arranged downstream of the measuring device in the conveying direction (X), provides for the separation of the tubes. The separating device is controlled by the measuring device in order to align the separating device with the connection point. The separating device has a cutting head rotatable about the connection point, and advances in the conveying direction (X) synchronously with the mandrels during the separating operation.
    • 用于分离连续地在一排心轴上连续耦合的管子的装置和方法,所述心轴彼此连续地由心轴沿输送方向(X)推进,并且通过施加到心轴的材料层。 在连续心轴的连接点处,心轴材料存在材料差异。 测量装置检测连续的心轴的连接点,并且设置在测量装置沿输送方向(X)的下游的分离装置提供管的分离。 分离装置由测量装置控制,以便使分离装置与连接点对齐。 分离装置具有可围绕连接点旋转的切割头,并且在分离操作期间与心轴同步地在输送方向(X)上前进。