Abstract: A hydraulic biasing assembly is provided. The hydraulic bunching assembly may include a hydraulic circuit and a hydraulic biasing member configured to provide bias to a bunching finger of a tree felling head. The hydraulic biasing assembly may also include a valve configured to alternately allow hydraulic fluid to transfer from the hydraulic circuit to the hydraulic biasing member and to allow hydraulic fluid to transfer from the hydraulic biasing member to a collector.
Abstract: A molding machine for machining workpieces of wood or plastic material has a transport path for transporting workpieces in a transport direction and adjustable spindles arranged sequentially in the transport direction on the transport path. Tools are fixedly connected on the spindles. Adjusting elements are drivingly connected to the spindles. First indicator devices are coupled to the adjusting elements and indicate a position of the spindles relative to a reference point of the machine, respectively. At least one data storage device is connected to the indicator devices and configured to save position data of the spindles and to allow retrieval of the position data of the spindles.
Abstract: A machine for machining workpieces of wood and plastic has a transport path for transporting workpieces through the machine. One or more driven spindles having a tool for machining the workpieces transported through the machine are provided. An adjustable element that is adjustable relative to the tool is provided. At least one data storage is provided for storing data at least of the tool wherein the data are used to determine a position of the adjustable element relative to the tool and are retrievable. In the method for adjusting the machine, characteristic data of the tool are measured and stored in the data storage. The characteristic data are supplied to a control unit. In the control unit positioning data for the adjustable element are calculated based on the characteristic data and then made available for processing the workpieces.
Abstract: A method and apparatus for improved centering of a workpiece in a surfacing machine includes centering assembly having a plurality of individually movable biasing element sets, comprising an upper element and a lower element. Each element set is operatively connected to a closed circuit, double rod end hydraulic cylinder assembly which selectively and independently positions the element set responsive to the surface to the workpiece. The hydraulic cylinder assembly includes a valve. A pressure device is also operatively connected to each element set to provide a centering force. In use, as the upper or lower element of an element set is forced away from the centerline of the workpiece, the opposing element would automatically move the same amount when the valve is closed. When the valve is open, the upper and lower elements are free to move independently, allowing the centerline to be easily positioned as desired.
Abstract: A method and apparatus for improved centering of a workpiece in a planer machine includes centering sectional shoe assembly positioned in close proximity to opposed cutting heads, between the cutting heads and a centering feed assembly. The shoe assembly includes a plurality of individually movable pressure shoe sets, comprising an upper shoe and a lower shoe. Each shoe set is operatively connected to a closed circuit, double rod end hydraulic cylinder assembly which selectively and independently positions the shoe set responsive to the surface to the workpiece. A pressure device is also operatively connected to each shoe set to provide a centering force. In use, as the upper or lower shoe of a shoe set is forced away from the centerline of the workpiece, the opposing shoe would automatically move the same amount. The shoe assembly thus centers each and every workpiece independent of the amount of stock removal required.