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    • 3. 发明授权
    • Method for producing a contact for solar cells
    • 太阳能电池触点的制造方法
    • US08603838B2
    • 2013-12-10
    • US12990267
    • 2009-04-21
    • Rudolf GüdelMarcel BlanchetRoland KappaunWalter ZulaufRudolf HeidHans-Ulrich Kurt
    • Rudolf GüdelMarcel BlanchetRoland KappaunWalter ZulaufRudolf HeidHans-Ulrich Kurt
    • H01L25/00H01L31/042
    • B32B17/10018B32B17/10788B32B17/10871H01L31/02008H01L2224/4847H02S40/34Y02E10/50Y10T29/5313
    • The invention relates to a method for producing a contact for solar cells (30) arranged in a laminated solar panel (1), wherein the solar cells (30) are coated on both sides of the main surfaces thereof with at least one layer and before a lamination step the solar cells (30) are connected with electrically-conducting connectors (31, 33), the electrically conducting connectors (31, 33) being arranged in the solar panel for laminating such as to be completely laminated within the solar panel (1) after the lamination step. After the lamination step a contact region (35) of the electrically-conducting connector (33) is exposed, wherein at least one of the layers covering the solar cells is completely punched through in the corresponding region, in particular by stripping. The contact region (35) of the electrically-conducting connector (33) can then be contacted by means of an externally-accessible contact element. The incorporation of the connector (31, 33) can be automated as the electrical connector (31, 33) can be laid essentially flat in the corresponding plane of the layer system and no complex through holes are made before lamination. The position of the electrical connector (31, 33) within the layer system is possible to be more accurately deigned than the position of connectors extending from the layer system which significantly simplifies contacting the contact region (35) of the connector (31, 33), in particular with an automated solution.
    • 本发明涉及一种制造层叠太阳能电池板(1)中的太阳能电池(30)的接触方法,其中太阳能电池(30)在其主表面的两侧涂覆有至少一层,之前和之前 层叠步骤,太阳能电池(30)与导电连接器(31,33)连接,导电连接器(31,33)布置在太阳能电池板中用于层压以完全层压在太阳能电池板( 1)层压步骤后。 在层压步骤之后,暴露导电连接器(33)的接触区域(35),其中覆盖太阳能电池的层中的至少一层在相应的区域,特别是通过剥离被完全穿过。 导电连接器(33)的接触区域(35)然后可以通过外部可接触的接触元件接触。 连接器(31,33)的结合可以是自动化的,因为电连接器(31,33)可以在层系统的相应平面中基本平坦地铺设,并且在层压之前不形成复杂的通孔。 电连接器(31,33)在层系统内的位置可以比从层系统延伸的连接器的位置更精确地设计,其显着简化了接触连接器(31,33)的接触区域(35) ,特别是使用自动化解决方案。
    • 5. 发明申请
    • METHOD FOR PRODUCING A CONTACT FOR SOLAR CELLS
    • 生产太阳能电池接点的方法
    • US20110111534A1
    • 2011-05-12
    • US12990267
    • 2009-04-21
    • Rudolf GüdelMarcel BlanchetRoland KappaunWalter ZulaufRudolf HeidHans-Ulrich Kurt
    • Rudolf GüdelMarcel BlanchetRoland KappaunWalter ZulaufRudolf HeidHans-Ulrich Kurt
    • H01L31/18H01L21/66
    • B32B17/10018B32B17/10788B32B17/10871H01L31/02008H01L2224/4847H02S40/34Y02E10/50Y10T29/5313
    • The invention relates to a method for producing a contact for solar cells (30) arranged in a laminated solar panel (1), wherein the solar cells (30) are coated on both sides of the main surfaces thereof with at least one layer and before a lamination step the solar cells (30) are connected with electrically-conducting connectors (31, 33), the electrically conducting connectors (31, 33) being arranged in the solar panel for laminating such as to be completely laminated within the solar panel (1) after the lamination step. After the lamination step a contact region (35) of the electrically-conducting connector (33) is exposed, wherein at least one of the layers covering the solar cells is completely punched through in the corresponding region, in particular by stripping. The contact region (35) of the electrically-conducting connector (33) can then be contacted by means of an externally-accessible contact element. The incorporation of the connector (31, 33) can be automated as the electrical connector (31, 33) can be laid essentially flat in the corresponding plane of the layer system and no complex through holes are made before lamination. The position of the electrical connector (31, 33) within the layer system is possible to be more accurately deigned than the position of connectors extending from the layer system which significantly simplifies contacting the contact region (35) of the connector (31, 33), in particular with an automated solution.
    • 本发明涉及一种制造层叠太阳能电池板(1)中的太阳能电池(30)的接触方法,其中太阳能电池(30)在其主表面的两侧涂覆有至少一层,之前和之前 层叠步骤,太阳能电池(30)与导电连接器(31,33)连接,导电连接器(31,33)布置在太阳能电池板中用于层压以完全层压在太阳能电池板( 1)层压步骤后。 在层压步骤之后,暴露导电连接器(33)的接触区域(35),其中覆盖太阳能电池的层中的至少一层在相应的区域,特别是通过剥离被完全穿过。 导电连接器(33)的接触区域(35)然后可以通过外部可接触的接触元件接触。 连接器(31,33)的结合可以是自动化的,因为电连接器(31,33)可以在层系统的相应平面中基本平坦地铺设,并且在层压之前不形成复杂的通孔。 电连接器(31,33)在层系统内的位置可以比从层系统延伸的连接器的位置更精确地设计,其显着简化了接触连接器(31,33)的接触区域(35) ,特别是使用自动化解决方案。
    • 6. 发明授权
    • Conveyor for transporting work pieces in a press
    • 用于在压机中运输工件的输送机
    • US07624614B2
    • 2009-12-01
    • US10580205
    • 2004-11-25
    • Rudolf HeidHans-Ulrich KurtUlrich Lehmann
    • Rudolf HeidHans-Ulrich KurtUlrich Lehmann
    • B21J11/00
    • B21D43/055B21D43/05B21D43/105
    • A conveyor for transporting work pieces in a press, in particular a press line or multiple-die press, from a first station to a second station adjacent to the first station, comprises at least one lateral beam (300, 400) arranged on a side of the press, essentially extending parallel to a transport direction of the conveyor (52), at least one bar (500) having grippers (502) for gripping the work piece to be transported, whereby the bar (500) is attached to the lateral beam (300, 400) in such a way that it is movable along a longitudinal extension of the beam (300, 400); and for each lateral beam (300, 400) an assembly (100, 200) for supporting the lateral beam (300, 400). The assembly (100, 200) comprises a pivoting mechanism (106, 107, 108, 109, 301, 302) for pivoting the lateral beam (300, 400) around a horizontal pivotal axis perpendicular to the transport direction, and the grippers (502) are rotatably movable for at least compensating a change of orientation of the work piece due to the pivoting of the lateral beam (300, 400).
    • 用于将工件在压机中输送的输送机,特别是冲压生产线或多模冲压机,从第一站到邻近第一站的第二站包括至少一个侧向梁(300,400) 压力机基本上平行于传送器(52)的输送方向延伸的至少一个杆(500)具有夹持器(502),用于夹持要输送的工件,由此杆(500)附接到侧面 梁(300,400),使得其可沿梁(300,400)的纵向延伸部移动; 并且对于每个横梁(300,400),用于支撑横梁(300,400)的组件(100,200)。 组件(100,200)包括枢转机构(106,107,108,109,301,302),用于使横梁(300,400)围绕垂直于输送方向的水平摆动轴线枢转,并且夹具(502 )可旋转地移动,用于至少补偿由于横梁(300,400)的枢转引起的工件的取向的变化。
    • 7. 发明申请
    • Conveyor for transporting work pieces in a press
    • 用于在压机中运输工件的输送机
    • US20070137505A1
    • 2007-06-21
    • US10580205
    • 2004-11-25
    • Rudolf HeidHans-Ulrich KurtUlrich Lehmann
    • Rudolf HeidHans-Ulrich KurtUlrich Lehmann
    • B21D43/05B21D43/10B30B15/00
    • B21D43/055B21D43/05B21D43/105
    • A conveyor for transporting work pieces in a press, in particular a press line or multiple-die press, from a first station to a second station adjacent to the first station, comprises at least one lateral beam (300, 400) arranged on a side of the press, essentially extending parallel to a transport direction of the conveyor (52), at least one bar (500) having grippers (502) for gripping the work piece to be transported, whereby the bar (500) is attached to the lateral beam (300, 400) in such a way that it is movable along a longitudinal extension of the beam (300, 400); and for each lateral beam (300, 400) an assembly (100, 200) for supporting the lateral beam (300, 400). The assembly (100, 200) comprises a pivoting mechanism (106, 107, 108, 109, 301, 302) for pivoting the lateral beam (300, 400) around a horizontal pivotal axis perpendicular to the transport direction, and the grippers (502) are rotatably movable for at least compensating a change of orientation of the work piece due to the pivoting of the lateral beam (300, 400).
    • 用于将工件在压机中输送的输送机,特别是冲压生产线或多模冲压机,从第一站到邻近第一站的第二站包括至少一个侧向梁(300,400) 压力机基本上平行于传送器(52)的输送方向延伸的至少一个杆(500)具有夹持器(502),用于夹持要输送的工件,由此杆(500)附接到侧面 梁(300,400),使得其可沿梁(300,400)的纵向延伸部移动; 并且对于每个横梁(300,400),用于支撑横梁(300,400)的组件(100,200)。 组件(100,200)包括枢转机构(106,107,108,109,301,302),用于围绕垂直于输送方向的水平枢转轴线枢转横梁(300,400),并且夹具(502) )可旋转地移动,用于至少补偿由于横梁(300,400)的枢转引起的工件的取向的变化。