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    • 2. 发明授权
    • Vacuum lifter
    • 真空升降机
    • US08235337B2
    • 2012-08-07
    • US12889584
    • 2010-09-24
    • Heinrich Ostendarp
    • Heinrich Ostendarp
    • F16B47/00
    • F16B47/006
    • A vacuum suction device is provided for temporary fixing on a substantially smooth, air-impermeable fixing area, including a supporting cup (3) and a flexible suction plate (4) as well as an actuating mechanism for creating a partial vacuum between the suction plate and the fixing area while dislocating the suction plate at least in parts thereof, wherein a vacuum indication device (15) for indicating the partial vacuum is provided. To provide a constructionally simple indication device by which a decrease in partial vacuum can be easily and reliably detected even by a non-trained individual and even under different environmental conditions, the vacuum indication device is provided with an indicating element (16), which is mechanically coupled to the suction plate. By the indicating element (16), a change in partial vacuum can be optically and/or haptically detected and indicated. The indication device can be integrated in the actuating element.
    • 提供一种真空抽吸装置,用于临时固定在基本平滑的不透气的固定区域上,该固定区域包括支撑杯(3)和柔性吸板(4),以及用于在吸盘之间产生局部真空的致动机构 以及固定区域,同时至少部分地使吸板脱位,其中提供用于指示部分真空的真空指示装置(15)。 为了提供一种结构简单的指示装置,即使在未经训练的个体甚至在不同的环境条件下也能容易且可靠地检测到部分真空的减少,真空指示装置设置有指示元件(16),该指示元件 机械地联接到吸盘。 通过指示元件(16),部分真空的变化可以被光学和/或检验和检测并指示。 指示装置可以集成在致动元件中。
    • 4. 发明授权
    • Device for handling thin panes of glass and fragile work pieces
    • 用于处理玻璃薄片和易碎工件的装置
    • US06220056B1
    • 2001-04-24
    • US08978885
    • 1997-11-26
    • Heinrich Ostendarp
    • Heinrich Ostendarp
    • C03B3303
    • B65G49/065B65G2249/04Y10T83/2037
    • For handling thin panes of glass or similar work pieces and products in conveyance systems, machining installations, and the like, by means of pneumatic forces, a device is proposed that is characterized by two plates (1, 2) with flat surfaces on at least one side, arranged parallel to each other at a distance (D) sufficient to hold the pane of glass (3) without contact, where the plates (1, 2) have a multitude of gas passages (4), and all the gas passages (4) of a plate (1, 2) can each be connected to a gas delivery device through one or more ducts, etc. to generate an excess pressure or a vacuum, and where at least some of the gas passages (4) are arranged in pairs opposite each other.
    • 为了在输送系统,加工装置等中通过气动力处理玻璃或类似工件和产品的薄板,提出了一种装置,其特征在于至少具有平坦表面的两个板(1,2) 一个彼此平行布置的距离(D)足以保持玻璃(3)的玻璃板不接触,其中板(1,2)具有多个气体通道(4),并且所有气体通道 板(1,2)的每个(4)都可以通过一个或多个管道等连接到气体输送装置以产生过量的压力或真空,并且其中至少一些气体通道(4)是 互相排列成对。
    • 5. 发明授权
    • Device for producing microstructures
    • 用于生产微结构的装置
    • US07823488B2
    • 2010-11-02
    • US11584391
    • 2006-10-20
    • Heinrich Ostendarp
    • Heinrich Ostendarp
    • B23Q5/22B26D1/04
    • B23Q5/027B23Q1/34B23Q1/36G05B2219/41344G05B2219/49382Y10T82/10Y10T82/147Y10T82/25Y10T82/2502
    • The invention discloses a device and a method for producing microstructures with a spindle, which is adapted to be driven for rotation about its longitudinal axis and which is provided with a fixture for clamping a workpiece, having an actuator provided with a fast drive, in particular a piezo drive, adapted to produce fast movement of a tool in a direction substantially perpendicular to the workpiece surface, which actuator can be positioned along a workpiece surface to be worked with the aid of an additional drive adapted to produce a linear feed motion in a first direction, the fast drive being coupled with the tool via guide means that allow feeding of the tool in axial direction of the fast drive, against the action of a restoring force, and that is highly rigid in a plane perpendicular to that direction. The control technology used permits microstructures to be produced precisely and reproducibly utilizing the dynamic properties of the system.
    • 本发明公开了一种用于生产具有主轴的微结构的装置和方法,其适于被驱动以围绕其纵向轴线旋转,并且其具有用于夹紧工件的夹具,具有具有快速驱动器的致动器,特别是 压电驱动器,其适于在大致垂直于工件表面的方向上产生工具的快速移动,所述致动器可以借助于附加驱动器沿着待加工的工件表面定位,所述附加驱动器适于在 第一方向,快速驱动器通过导向装置与工具联接,该导向装置允许工具沿着快速驱动器的轴向方向抵抗恢复力的作用,并且在垂直于该方向的平面中是高度刚性的。 所使用的控制技术允许使用系统的动态特性精确地和可重复地生产微结构。
    • 6. 发明申请
    • VACUUM LIFTING TOOL
    • 真空起重工具
    • US20100066108A1
    • 2010-03-18
    • US12554073
    • 2009-09-04
    • Heinrich OstendarpKathrin WeidenfellerLutz Strehlow
    • Heinrich OstendarpKathrin WeidenfellerLutz Strehlow
    • B66C1/02
    • B65G47/91
    • A suction lifter comprises a suction cup to be placed against a fixing surface and having a deformable suction disc, the suction lifter being designed for forming a hollow space subject to a partial vacuum between the suction disc and the fixing surface, wherein the suction disc is arranged between the suction cup and the fixing surface, wherein the suction cup further has a circumferential cup rim surrounding the hollow space, and wherein a circumferential supporting area of an upper side of the suction disc facing the cup rim is supported against the cup rim under a vacuum condition. The suction cup rim and/or the suction disc rim are provided with projections which under a vacuum condition of the suction lifter and under a shearing force exerted on the suction disc impede a lateral displacement of the suction cup rim with respect to the suction disc rim.
    • 吸入式升降机包括一个靠在固定表面上并具有可变形的吸盘的吸盘,吸入式升降器被设计用于在抽吸盘和固定表面之间形成经受部分真空的中空空间,其中吸盘是 布置在吸盘和固定表面之间,其中吸盘还包括围绕中空空间的圆周杯形边缘,并且其中吸盘的面向杯边缘的上侧的圆周支撑区域被支撑在杯边缘下方 真空条件。 吸盘边缘和/或吸盘边缘设置有突起,在突出部分处,在吸力提升器的真空状态下,并且在施加在吸盘上的剪切力下,阻止吸盘边缘相对于吸盘边缘的横向位移 。
    • 7. 发明授权
    • Method and apparatus for making individual glass panes
    • 制作单个玻璃板的方法和装置
    • US06502423B1
    • 2003-01-07
    • US09557834
    • 2000-04-26
    • Heinrich OstendarpAndreas BerndtRolf Suennemann
    • Heinrich OstendarpAndreas BerndtRolf Suennemann
    • C03B1802
    • C03B17/068C03B17/06C03B33/08
    • A method and apparatus is described, with which individual rectangular glass panes of thickness between 0.03 mm and 2 mm can be cut from a glass band (2) drawn vertically from a hot forming device (1) in an in-line process with reduced rejects and reduced waste. The method provides that the glass band (2) drawn vertically downward through a vertical zone is cooled below a lower cooling point of the glass and subsequently is deflected through a bending zone (3b) with a bending radius between 0.1 m and 4 m into a horizontal zone (3c) in which it is horizontally oriented. The vertical alignment of the glass band (2) in the vertical zone (3a) is continuously monitored. At least one cutting process is performed on the horizontally oriented glass band (2) in the horizontal zone (3c). The device (20) for monitoring the vertical alignment of the glass band (2) includes at least three sensors (22a, 22b, 22c; 22a′, 22b′, 22c′) that detect the glass edges These sensors can be mechanical rollers.
    • 描述了一种方法和装置,其中可以从在热成型装置(1)垂直拉制的玻璃带(2)中以从属方式排列的具有减少的废品的在线方法切割厚度在0.03mm和2mm之间的单个矩形玻璃板 并减少浪费。 该方法提供了通过垂直区域垂直向下牵引的玻璃带(2)在玻璃的下部冷却点下方冷却,随后通过弯曲半径在0.1μm和4μm之间的弯曲区域(3b)偏转成 水平区域(3c),其中水平方向。 连续监测垂直区域(3a)中的玻璃带(2)的垂直取向。 在水平区域(3c)中对水平取向的玻璃带(2)进行至少一个切割处理。 用于监测玻璃带(2)的垂直对准的装置(20)包括检测玻璃边缘的至少三个传感器(22a,22b,22c; 22a',22b',22c')。这些传感器可以是机械辊。
    • 8. 发明授权
    • Process and apparatus for hot forming precision structures in flat glass
    • 平板玻璃热成型精密结构的工艺和装置
    • US5987923A
    • 1999-11-23
    • US48633
    • 1998-03-26
    • Heinrich OstendarpMarita Paasch
    • Heinrich OstendarpMarita Paasch
    • C03B23/02C03B11/06C03B11/08C03B13/08C03B13/14C03C23/00C03B11/12
    • C03B13/08C03B11/06C03B11/082C03B13/14C03C23/0025C03C23/007C03B2215/412C03B2215/414Y02P40/57
    • Flat glass provided with precision structures is required for precision applications, especially for glasses with optical properties, for example for modern flat display screen glass. The process of the invention for hot forming precision structures in or on flat glass includes pressing a heated forming tool with a structuring surface into a surface of the flat glass. In this process the structuring surface of the forming tool is heated locally from the outside of the forming tool, prior to and/or during contacting of the forming tool with the glass surface until a predetermined surface depth corresponding to a height of the structures being formed has reached a process temperature at which a melting to form the structures occurs on contacting the forming tool to the glass surface. The local heating of the structuring surface (2) is performed by laser radiation which is passed through the flat glass (3) to the structuring surface (2). Alternatively an inductive or resistance heating can be performed.
    • 配有精密结构的平板玻璃需要精密应用,特别是对于具有光学性能的眼镜,例如用于现代平板显示屏玻璃。 在平板玻璃中或平板玻璃上的热成型精密结构的本发明的方法包括将具有结构化表面的加热成形工具压入平板玻璃的表面。 在此过程中,在成形工具与玻璃表面接触之前和/或期间,成形工具的外部局部加热成形工具的结构化表面,直到对应于形成结构的高度的预定表面深度 已达到在形成工具与玻璃表面接触时发生熔化以形成结构的工艺温度。 结构化表面(2)的局部加热由穿过平板玻璃(3)到结构表面(2)的激光辐射进行。 或者,可以执行感应或电阻加热。
    • 9. 发明授权
    • Vacuum lifting tool
    • 真空提升工具
    • US08500181B2
    • 2013-08-06
    • US12554073
    • 2009-09-04
    • Heinrich OstendarpKathrin WeidenfellerLutz Strehlow
    • Heinrich OstendarpKathrin WeidenfellerLutz Strehlow
    • B25J15/06
    • B65G47/91
    • A suction lifter comprises a suction cup to be placed against a fixing surface and having a deformable suction disc, the suction lifter being designed for forming a hollow space subject to a partial vacuum between the suction disc and the fixing surface, wherein the suction disc is arranged between the suction cup and the fixing surface, wherein the suction cup further has a circumferential cup rim surrounding the hollow space, and wherein a circumferential supporting area of an upper side of the suction disc facing the cup rim is supported against the cup rim under a vacuum condition. The suction cup rim and/or the suction disc rim are provided with projections which under a vacuum condition of the suction lifter and under a shearing force exerted on the suction disc impede a lateral displacement of the suction cup rim with respect to the suction disc rim.
    • 吸入式升降机包括一个靠在固定表面上并具有可变形的吸盘的吸盘,吸入式升降器被设计用于在抽吸盘和固定表面之间形成经受部分真空的中空空间,其中吸盘是 布置在吸盘和固定表面之间,其中吸盘还包括围绕中空空间的圆周杯形边缘,并且其中吸盘的面向杯边缘的上侧的圆周支撑区域被支撑在杯边缘下方 真空条件。 吸盘边缘和/或吸盘边缘设置有突起,在突出部分处,在吸力提升器的真空状态下,并且在施加在吸盘上的剪切力下,阻止吸盘边缘相对于吸盘边缘的横向位移 。
    • 10. 发明申请
    • SMALL GLASS CUTTING WHEEL
    • 小玻璃切割轮
    • US20090245945A1
    • 2009-10-01
    • US12234355
    • 2008-09-19
    • Heinrich Ostendarp
    • Heinrich Ostendarp
    • B26D1/12B23K26/38
    • B24D5/00B23K26/0624B23K26/0823B23K26/364B23K26/40B23K2103/50B24D18/00C03B33/107Y10T407/19
    • The invention relates to a small glass cutting wheel for producing a scribed predetermined breaking line, wherein the cutting wheel has a radial peripheral line which defines an outer periphery of the wheel and which lies in a main plane of the wheel and at least partially forms a cutting edge. The cutting edge includes cutting teeth (7) which are circumferentially spaced from each other by intermediate tooth spaces (8) and the height and/or circumferential extension of which exceeds a possible random surface roughness. For providing a small glass cutting wheel with which particularly flat displays can be manufactured with an improved edge quality and with which rejects during the necessary separation of the glass plate piece can be reduced, it is proposed that at least a part or preferably all intermediate tooth spaces (8) include a cutting edge (9). Preferably, the cutting edges of the intermediate tooth space and the cutting edges of the teeth are arranged approximately in the same main plane of the small wheel.
    • 本发明涉及一种用于生产划线的预定断裂线的小玻璃切割轮,其中切割轮具有限定轮的外周并且位于车轮的主平面中的径向周向线,并且至少部分地形成 前沿。 切削刃包括通过中间齿间隔(8)彼此周向间隔开的切削齿(7),其高度和/或周向延伸超过可能的随机表面粗糙度。 为了提供一种小玻璃切割轮,可以以特别平坦的显示器制造具有改进的边缘质量并且可以减少在玻璃板件的必要分离期间的排出物,建议至少部分或优选地所有中间齿 空间(8)包括切削刃(9)。 优选地,中间齿空间的切割边缘和齿的切割边缘大致布置在小轮的同一主平面中。