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    • 14. 发明申请
    • OPERATING METHOD FOR AN ATOMISER AND A CORRESPONDING COATING APPARATUS
    • 原型机和相关涂层设备的操作方法
    • US20090220703A1
    • 2009-09-03
    • US12162457
    • 2007-09-19
    • Benjamin WöhrHans-Jürgen NolteAndreas FischerPeter MarquardtFrank HerreMarcus Frey
    • Benjamin WöhrHans-Jürgen NolteAndreas FischerPeter MarquardtFrank HerreMarcus Frey
    • B05D1/04B05D1/02B05B12/00
    • B05B3/1014B05B5/0403B05B5/0426B05B12/08B05B12/084B05B12/10B05B13/0405B05B13/0426B05B13/0431
    • The invention relates to an operating method for an atomiser (1) for the coating of structural components, particularly of vehicle body parts, with the following steps: Application of a spray jet of a coating agent through the atomiser (1); discharge of a first guide air flow (11) for the formation of a spray jet; determination of at least one application parameter (η, γ, T, BC/CC, Qvarnish, n, U,) which reproduces a property (η, γ, T, BC/CC) of the applied coating agent or an operating variable (Qvarnish, n, U) of the atomiser (1) as well as influencing of the first guide air flow (11) as a factor of the application parameter (η, γ, T, BC/CC, Qvarnish, n, U,). Within the framework of the invention, there is the alternative option that fluctuations of the application parameters and, based thereon, variations of the spray jet width are taken into account by means of an adaptation of the path spacing (d) between the adjacent coating agent paths for the purpose of keeping the path overlapping constant. Furthermore, the invention comprises a corresponding coating apparatus.
    • 本发明涉及一种用于涂覆结构部件,特别是车身部件的雾化器(1)的操作方法,具有以下步骤:通过喷雾器(1)施加涂覆剂的喷射射流; 排出用于形成喷射射流的第一引导空气流(11); 确定再现施加的涂覆剂或操作变量的性质(eta,γ,T,BC / CC)的至少一个施用参数(eta,γ,T,BC / CC,Qvarnish,n,U) 作为应用参数(eta,gamma,T,BC / CC,Qvarnish,n,U)的一个因素影响雾化器(1)的Qvarnish,n,U)以及影响第一引导空气流(11) 。 在本发明的框架内,存在替代选择,通过适应相邻涂层剂之间的路径间距(d)来考虑应用参数的波动和基于其的喷雾宽度的变化, 保持路径重叠的路径不变。 此外,本发明包括相应的涂覆装置。
    • 15. 发明授权
    • Operating method for an atomiser and a corresponding coating apparatus
    • 雾化器和相应涂层设备的操作方法
    • US08097293B2
    • 2012-01-17
    • US12162457
    • 2007-09-19
    • Benjamin WöhrHans-Jürgen NolteAndreas FischerPeter MarquardtFrank HerreMarcus Frey
    • Benjamin WöhrHans-Jürgen NolteAndreas FischerPeter MarquardtFrank HerreMarcus Frey
    • B05D1/06B05B5/057
    • B05B3/1014B05B5/0403B05B5/0426B05B12/08B05B12/084B05B12/10B05B13/0405B05B13/0426B05B13/0431
    • The invention relates to an operating method for an atomiser (1) for the coating of structural components, particularly of vehicle body parts, with the following steps: Application of a spray jet of a coating agent through the atomiser (1); discharge of a first guide air flow (11) for the formation of a spray jet; determination of at least one application parameter (η, γ, T, BC/CC, Qvarnish, n, U,) which reproduces a property (η, γ, T, BC/CC) of the applied coating agent or an operating variable (Qvarnish, n, U) of the atomiser (1) as well as influencing of the first guide air flow (11) as a factor of the application parameter (η, γ, T, BC/CC, Qvarnish, n, U,). Within the framework of the invention, there is the alternative option that fluctuations of the application parameters and, based thereon, variations of the spray jet width are taken into account by means of an adaptation of the path spacing (d) between the adjacent coating agent paths for the purpose of keeping the path overlapping constant. Furthermore, the invention comprises a corresponding coating apparatus.
    • 本发明涉及一种用于涂覆结构部件,特别是车身部件的雾化器(1)的操作方法,具有以下步骤:通过喷雾器(1)施加涂覆剂的喷射射流; 排出用于形成喷射射流的第一引导空气流(11); 确定再现施加的涂覆剂的性质(&eegr,γ,T,BC / CC)的至少一个应用参数(&eegr;γ,T,BC / CC,Qvarnish,n,U) 雾化器(1)的变量(Qvarnish,n,U)以及第一引导空气流(11)的影响作为应用参数(&egr,γ,T,BC / CC,Qvarnish,n, U,)。 在本发明的框架内,存在替代选择,通过适应相邻涂层剂之间的路径间距(d)来考虑应用参数的波动和基于其的喷雾宽度的变化, 保持路径重叠的路径不变。 此外,本发明包括相应的涂覆装置。
    • 17. 发明授权
    • Coating zone with inclined guide rails
    • 涂层带倾斜导轨
    • US08544409B2
    • 2013-10-01
    • US12666632
    • 2008-06-23
    • Frank HerreJuergen HaasMichael BaumannMarcus FreyHans VettersJan Grigoleit
    • Frank HerreJuergen HaasMichael BaumannMarcus FreyHans VettersJan Grigoleit
    • B05C5/02B05C15/00
    • B05B13/0452B05B13/0431B05B16/40B05B16/60
    • A coating zone comprises a conveyor for transporting an application object. At least one guide rail extends through the coating zone adjacent the conveyor, arranged above the conveyor at a height at least at the level of the top of the object. At least one robot may move along the conveyor on the guide rail, the robot having a first axis for joint rotation of at least one moving member of the robot in relation to a main body guided along the guide rail. A load-bearing structure supports the at least one guide rail, the load-bearing structure including at least one load-bearing pillar extending substantially vertically downwards from the level of the guide rail. The guide rail and the main body of the robot are arranged in such a way that the first axis of the robot is inclined relative to a vertical plane parallel to the conveying direction.
    • 涂覆区域包括用于输送应用物体的输送机。 至少一个导轨延伸穿过邻近输送机的涂覆区域,其布置在输送机上方至少在物体顶部的高度处的高度。 至少一个机器人可以沿着导轨上的输送机移动,机器人具有用于相对于沿导轨引导的主体的机器人的至少一个移动部件的关节旋转的第一轴线。 承载结构支撑至少一个导轨,所述承载结构包括至少一个从所述导轨的高度垂直向下延伸的承载支柱。 导轨和机器人的主体以使机器人的第一轴相对于平行于传送方向的垂直平面倾斜的方式布置。