| Patent application number | Description | Published |
|---|
| 20090038450 | FLY-CUTTING HEAD, SYSTEM AND METHOD, AND TOOLING AND SHEETING PRODUCED THEREWITH - A fly-cutting system is disclosed, and in particular one that comprises a dynamically-controllable actuator for controlling the position, orientation, or both position and orientation of a cutting element carried by a fly-cutting head. In certain embodiments, the actuator can adjust the position or orientation of a cutting element, or both, hundreds or thousands of times per second, enabling precise control over the shape of features formed by the cutting element in a surface of a workpiece. | 02-12-2009 |
| 20090041553 | FLY-CUTTING SYSTEM AND METHOD, AND RELATED TOOLING AND ARTICLES - Methods of fly-cutting a workpiece are disclosed, and in methods in which the position of a fly-cutting head or its associated cutting element is known as a function of time. Also disclosed are methods of forming features, such as grooves or groove segments, in a workpiece such as a cylindrical roll. The features may be provided according to one or more disclosed patterns. Articles made using tools machined in the manner described are also provided, such as polymeric film or sheeting that exhibit certain beneficial properties. | 02-12-2009 |
| 20100097462 | WEB LONGITUDINAL POSITION SENSOR - Methods and systems for determining longitudinal position of an elongated web are described. Sensors are used to detect one or more substantially continuous fiducial marks disposed longitudinally on the web. The sensors generate signals associated with the fiducial marks. A position detector receives the signals and determines a longitudinal position of the web using the sensor signals. The fiducial marks may be periodic fiducial marks, such as sine and/or cosine marks on the web and/or may be piecewise continuous marks. The coarse longitudinal position of the web can be determined based on periodically recurring features of the fiducial marks. The fine longitudinal position can be determined based on continuous portions of the fiducial marks between the periodically recurring features. | 04-22-2010 |
| 20100186570 | METHOD FOR MAKING AN OPTICAL FILM HAVING A VARIABLE PRISMATIC STRUCTURED SURFACE - A method for machining a workpiece can be used to make prismatic structures in the workpiece. The method involves machining the surface of the workpiece using an FTS actuator to make continuous features in the surface and machining the surface of the workpiece using flycutting to make discontinuous features in the surface through the continuous features. The discontinuous features are machined at a non-parallel angle to the continuous features. The machined workpiece can then be used to make films having particular optical or mechanical properties. | 07-29-2010 |
| 20100187277 | SYSTEMS AND METHODS FOR INDICATING THE POSITION OF A WEB - Methods and systems for indicating the displacement of a flexible web are described. An elongated, flexible web includes an integral scale having scale features configured to modulate energy directed towards the web. A transport mechanism provides relative movement between the web relative to a transducer. The transducer detects energy modulated by the scale features and generates a signal indicting a continuous web displacement based on the modulated energy. | 07-29-2010 |
| 20100188668 | TOTAL INTERNAL REFLECTION DISPLACEMENT SCALE - Methods and systems for determining the displacement of a substrate using a scale comprising TIR scale features are described. A scale that includes a number of total internal reflection (TIR) prisms as scale elements is disposed on the substrate. Light directed towards the scale is modulated by the TIR prisms. A signal indicating a displacement of the substrate is generated based on the modulated light. The signal | 07-29-2010 |
| 20100196607 | SYSTEMS AND METHODS FOR FABRICATING DISPLACEMENT SCALES - Methods and systems for forming a displacement scale comprising TIR prisms on a substrate are described. A system for forming the displacement scale includes one or more rollers having a pattern of total internal reflection (TIR) prism features in negative relief. As the rollers are rotated, the scale is formed on the substrate. The rollers may also include pattern features in negative relief. Rotation of the rollers simultaneously forms the displacement scale and the pattern features on the substrate. The TIR prism features of the displacement scale may be oriented to provide measurement of one or more of lateral displacement, longitudinal displacement and angular displacement. | 08-05-2010 |
| 20100218650 | FLY-CUTTING SYSTEM AND METHOD, AND RELATED TOOLING AND ARTICLES - Methods of fly-cutting a workpiece are disclosed, and in methods in which the position of a fly-cutting head or its associated cutting element is known as a function of time. Also disclosed are methods of forming features, such as grooves or groove segments, in a workpiece such as a cylindrical roll. The features may be provided according to one or more disclosed patterns. Articles made using tools machined in the manner described are also provided, such as polymeric film or sheeting that exhibit certain beneficial properties. | 09-02-2010 |
| 20100227121 | FLY-CUTTING SYSTEM AND METHOD, AND RELATED TOOLING AND ARTICLES - Methods of fly-cutting a workpiece are disclosed, and in methods in which the position of a fly-cutting head or its associated cutting element is known as a function of time. Also disclosed are methods of forming features, such as grooves or groove segments, in a workpiece such as a cylindrical roll. The features may be provided according to one or more disclosed patterns. Articles made using tools machined in the manner described are also provided, such as polymeric film or sheeting that exhibit certain beneficial properties. | 09-09-2010 |
| 20100227123 | FLY-CUTTING SYSTEM AND METHOD, AND RELATED TOOLING ARTICLES - Methods of fly-cutting a workpiece are disclosed, and in methods in which the position of a fly-cutting head or its associated cutting element is known as a function of time. Also disclosed are methods of forming features, such as grooves or groove segments, in a workpiece such as a cylindrical roll. The features may be provided according to one or more disclosed patterns. Articles made using tools machined in the manner described are also provided, such as polymeric film or sheeting that exhibit certain beneficial properties. | 09-09-2010 |
| 20100227750 | FLY-CUTTING SYSTEM AND METHOD, AND RELATED TOOLING AND ARTICLES - Methods of fly-cutting a workpiece are disclosed, and in methods in which the position of a fly-cutting head or its associated cutting element is known as a function of time. Also disclosed are methods of forming features, such as grooves or groove segments, in a workpiece such as a cylindrical roll. The features may be provided according to one or more disclosed patterns. Articles made using tools machined in the manner described are also provided, such as polymeric film or sheeting that exhibit certain beneficial properties. | 09-09-2010 |
| 20100227751 | FLY-CUTTING SYSTEM AND METHOD, AND RELATED TOOLING AND ARTICLES - Methods of fly-cutting a workpiece are disclosed, and in methods in which the position of a fly-cutting head or its associated cutting element is known as a function of time. Also disclosed are methods of forming features, such as grooves or groove segments, in a workpiece such as a cylindrical roll. The features may be provided according to one or more disclosed patterns. Articles made using tools machined in the manner described are also provided, such as polymeric film or sheeting that exhibit certain beneficial properties. | 09-09-2010 |
