A cutting support for a cutting machine suitable for supporting a strip to be cut. The cutting support includes: a frame with L-shaped cross-section, having a horizontal element and a vertical element, retaining elements suitable for retaining the strip toward the vertical element of the frame, and a stop panel having an inner surface facing the vertical element of the frame and an outer surface facing a lateral side of the strip. The retaining elements include at least one suction cup displaced on the outer surface of the stop panel and a pneumatic connection connected to the at least one suction cup and suitable for being connected to a suction device.

A blade sharpening system may include a sharpening tool for sharpening a workpiece. The system may also include a sharpening fixture having a mounting surface for mounting a workpiece to be sharpened by the sharpening tool. The mounting surface may be disposed on a sled that is movable along a sharpening path that passes under a sharpening implement that may be mounted to a movable arm of the sharpening tool when the arm is in an engaged position. The movement of the sled may be coupled to the movement of the arm such that moving the arm from a disengaged position to the engaged position initiates the sled to move in a first direction along the sharpening path and moving the arm from the engaged position to the disengaged position initiates the sled to move along the sharpening path in a second direction.

A sintered magnet sawing apparatus is provided comprising a cylindrical work carrier mounted on a horizontal rotating spindle and having a regular polygonal shape in a perpendicular cross section, and a plurality of endless elastic belts adapted to force a work of sintered magnet against the carrier surface to secure the work thereto and adapted to travel synchronously with and counter to the rotation of the carrier in a circulatory manner. In accordance with rotation of the carrier, the work is delivered to the peripheral surface of the carrier, secured thereto by the elastic belts, moved further forward and cutoff machined by an outer cutoff blade. The divided work is moved further forward, released and discharged from the carrier.

A method for processing panel-shaped workpieces having the steps of providing a large-format panel, and feeding the large-format panel to a detachment station; detaching panel-shaped workpieces by dividing the large-format panel in the detachment station by making cuts in the large-format panel using a detachment unit; and feeding the workpieces thus detached to a downstream processing station in order to complete the panel-shaped workpiece. In step b) at least a part of each detached workpiece acquires from the detachment unit an alignment section for engaging gripping elements and/or introducing reference bores. After the workpiece provided with the alignment section has been detached it is taken over by a gripping element, engaging element or grasping element which engages the alignment section. After the workpiece is taken over, the gripping element, engaging element or grasping element engaging in a form-fitting manner on the alignment section of the workpiece runs through a cycle.

A dual platform bed system has an associated machine for transferring material sheets from one platform bed to another. There are associated methods for both transferring and processing sheets on either or both platforms. Placing the platform beds adjacent one another reduces both human worker requirement and human and machine down time.

A dual platform bed system has an associated machine for transferring material sheets from one platform bed to another. There are associated methods for both transferring and processing sheets on either or both platforms. Placing the platform beds adjacent one another reduces both human worker requirement and human and machine down time.

A tile saw includes a saw unit having a motor and a saw blade driven by the motor, a table through which the saw blade at least partially protrudes, and a pan positioned underneath the table and including a channel configured to receive at least a portion of the saw blade. The channel extends along a longitudinal axis perpendicular to a rotational axis of the saw blade such that fluid moves through the channel in a first direction in response to rotation of the saw blade. An interior wall is positioned adjacent the channel. The interior wall is obliquely oriented relative to the longitudinal axis of the channel to redirect the fluid in a second direction that is different from the first direction.

The invention relates to an automatic tile cutter (1) comprising a cutting table (31) for receiving a tile (21) to be cut, and at least one cutting tool (59) that is translatably movable along a guide rail (61) and is to cut the tile along a cutting line such that a cut tile and scraps are obtained, characterized in that the tile cutter additionally comprises: —at least a first conveyor (11) for conveying the tile (21) from a tile loading zone (5) to a tile cutting zone (7); —at least two abutments (15) for blocking the movement of the tile (21) in a predefined tile position in the cutting zone; and —an electronic control unit (57) configured to control the positioning of the abutment elements (15) and the cutting tool (59) relative to each other in accordance with predefined cutting parameters and actuate the cutting tool.

A twin-head bar cutting device includes a first cutting head and a first bar holding device as well as a second cutting head and a second bar holding device placed on a common base. The base includes a first placement surface on which the first cutting head is placed, a second placement surface on which the second cutting head is placed, and a holding device placement surface formed higher than the first placement surface and the second placement surface between the first placement surface and the second placement surface and on which the first bar holding device and the second bar holding device are placed, and the first cutting head and the second cutting head are arranged symmetrically about a vertical plane passing through a center in a width direction of the base.

A twin-head bar cutting device includes a first cutting head and a first bar holding device as well as a second cutting head and a second bar holding device placed on a common base. The base includes a first placement surface on which the first cutting head is placed, a second placement surface on which the second cutting head is placed, and a holding device placement surface formed higher than the first placement surface and the second placement surface between the first placement surface and the second placement surface and on which the first bar holding device and the second bar holding device are placed, and the first cutting head and the second cutting head are arranged symmetrically about a vertical plane passing through a center in a width direction of the base.