Method and device for guiding a tool in a recurring application of a product moved along an X-axis, wherein the tool is mounted on the Z-carriage of a cross guide and is moved therewith along the Z-axis standing perpendicular on the X-axis, wherein the Z-carriage is mounted on the X-carriage of the cross guide, the guide of which is mounted along the X-axis in a base plane, wherein the X-carriage is driven with an X-drive, wherein the Z-carriage is driven by a Z-drive, which is held stationary in the base plane and has a traction means driven by a first servo motor provided for the drive of the Z-carriage, which is driven from the base plane on the movable Z-carriage.

Method and device for guiding a tool (2) in a recurring application of a product (3) moved along an X-axis, wherein the tool (2) is mounted on the Z-carriage (12) of a cross guide and is moved therewith along the Z-axis standing perpendicular on the X-axis, wherein the Z-carriage (12) is mounted on the X-carriage (10) of the cross guide, the guide of which is mounted along the X-axis in a base plane (13), wherein the X-carriage (10) is driven with an X-drive, wherein the Z-carriage (12) is driven by a Z-drive, which is held stationary in the base plane (13) and has a traction means (17) driven by a first servo motor (8) provided for the drive of the Z-carriage, which is driven from the base plane (13) on the movable Z-carriage (12), wherein a movement of the Z-carriage (12) that is brought about by the movement of the X-carriage (10) and a motive force caused thereby on the traction means (17), is compensated when actuating the first servo motor (8) provided for the drive of the Z-carriage.

Method and device for guiding a tool in a recurring application of a product moved along an X-axis, wherein the tool is mounted on the Z-carriage of a cross guide and is moved therewith along the Z-axis standing perpendicular on the X-axis, wherein the Z-carriage is mounted on the X-carriage of the cross guide, the guide of which is mounted along the X-axis in a base plane, wherein the X-carriage is driven with an X-drive, wherein the Z-carriage is driven by a Z-drive, which is held stationary in the base plane and has a traction means driven by a first servo motor provided for the drive of the Z-carriage, which is driven from the base plane on the movable Z-carriage, wherein a movement of the Z-carriage that is brought about by the movement of the X-carriage and a motive force caused thereby on the traction means, is compensated when actuating the first servo motor provided for the drive of the Z-carriage.

The present invention relates to a film cutter assembly in which a blade housing slides bilaterally along a pair of rails. The blade housing houses a blade. An elongated rail base is coupled or integral with a pair of rails. The rails are formed of a material which provides an attractive or adhesion property to attract the film to the rail and maintain the film in flat position before and after cutting. A double-side adhesive tape can be applied to a surface of the elongated rail base which is adapted for attaching the elongated rail base to a carton of film.

The present invention relates to a film cutter assembly in which a blade housing slides bilaterally along a pair of rails. The blade housing houses a blade. An elongated rail base is coupled or integral with a pair of rails. The rails are formed of a material which provides an attractive or adhesion property to attract the film to the rail and maintain the film in flat position before and after cutting. A double-side adhesive tape can be applied to a surface of the elongated rail base which is adapted for attaching the elongated rail base to a carton of film.

Method and device for guiding a tool (2) in a recurring application of a product (3) moved along an X-axis, wherein the tool (2) is mounted on the Z-carriage (12) of a cross guide and is moved therewith along the Z-axis standing perpendicular on the X-axis, wherein the Z-carriage (12) is mounted on the X-carriage (10) of the cross guide, the guide of which is mounted along the X-axis in a base plane (13), wherein the X-carriage (10) is driven with an X-drive, wherein the Z-carriage (12) is driven by a Z-drive, which is held stationary in the base plane (13) and has a traction means (17) driven by a first servo motor (8) provided for the drive of the Z-carriage, which is driven from the base plane (13) on the movable Z-carriage (12), wherein a movement of the Z-carriage (12) that is brought about by the movement of the X-carriage (10) and a motive force caused thereby on the traction means (17), is compensated when actuating the first servo motor (8) provided for the drive of the Z-carriage.