Systems and methods are disclosed for cutting a food item when preparing it to be served to a customer. In some implementations, the cutting system may include a cover that may be used to at least partially surround a portion of a the cutting system. The cover may include one or more doors, drawers, or other movable components that may be used to engage the cutting assembly of the cutting system by activating one or more sensors located along or proximate to the path traveled by the movable component. The movable component may activate the sensor when the movable component has appropriately positioned the food item under the cutting assembly to be cut. Additionally, the cover may include one or more user-engageable switches that may be used to selectively engage cutting assembly when the movable component of the cover is appropriately positioned to be cut by the cutting assembly.

Systems and methods are disclosed for cutting a food item when preparing it to be served to a customer. In some implementations, the cutting system may include a cover that may be used to at least partially surround a portion of a the cutting system. The cover may include one or more doors, drawers, or other movable components that may be used to engage the cutting assembly of the cutting system by activating one or more sensors located along or proximate to the path traveled by the movable component. The movable component may activate the sensor when the movable component has appropriately positioned the food item under the cutting assembly to be cut. Additionally, the cover may include one or more user-engageable switches that may be used to selectively engage cutting assembly when the movable component of the cover is appropriately positioned to be cut by the cutting assembly.

Provided are a vehicular interior member manufacturing method and an airbag rupturing groove manufacturing method which can form an airbag rupturing groove excellent in invisibility even in a vehicular interior member having a hard substrate layer, while performing a proper control of the thickness of the remainder of the airbag rupturing groove to be formed. The vehicular interior member manufacturing method is characterized by protruding a metal blade having an edge flattened at least partially against a forming face of the rupturing groove, from a back side of the vehicular interior member and partially into the skin layer wherein a thickness of the skin layer into which the metal blade has not protruded corresponds to a remaining thickness of the skin layer, and confirming whether or not the metal blade is detected at a second detecting position while the metal blade is not detected at a first detecting position.

Provided are a vehicular interior member manufacturing method and an airbag rupturing groove manufacturing method which can form an airbag rupturing groove excellent in invisibility even in a vehicular interior member having a hard substrate layer, while performing a proper control of the thickness of the remainder of the airbag rupturing groove to be formed. The vehicular interior member manufacturing method is characterized by protruding a metal blade having an edge flattened at least partially against a forming face of the rupturing groove, from a back side of the vehicular interior member and partially into the skin layer wherein a thickness of the skin layer into which the metal blade has not protruded corresponds to a remaining thickness of the skin layer, and confirming whether or not the metal blade is detected at a second detecting position while the metal blade is not detected at a first detecting position.

A sheet cutting apparatus includes a cutting position where a sheet is cut; a guillotine type cutter configured to move between the cutting position and a home position above the cutting position; a motor; a drive mechanism configured to transfer a drive force from the motor to the cutter to move the cutter between the home position and the cutting position; a drive control section configured to enable the cutter to fall from the home position to the cutting position when cutting a sheet by the cutter and then return the cutter to the home position; a determination section configured to determine whether or not a given period of time elapses from the last return completion of the cutter to the home position; and a return control section configured to return the cutter to the home position if the determination section determines that a given period of time elapses from the last return completion of the cutter to the home position.

The invention relates to a winding apparatus for winding a material web traveling in a direction of travel, having at least one blade for cutting the material web in a web direction into a plurality of partial material webs, and having a folding apparatus for folding the edges of the partial material webs. To furnish a winding apparatus that enables a material web with folded edges to be wound with as little wrinkling as possible, a folding element is furnished for each edge of the partial material webs. The at least one blade may be moved transversely to the direction of travel using a first oscillating apparatus. Using a second oscillating apparatus, the folding elements for the left-hand edges of the partial material webs, as viewed in the direction of travel, may be moved transversely to the direction of travel. Using a third oscillating apparatus, the folding elements for the right-hand edges of the partial material webs, as viewed in the direction of travel, may be moved transversely to the direction of travel. The first oscillating apparatus, second oscillating apparatus and third oscillating apparatus may be controlled by a control unit in such a manner that the folded edges of the partial material webs may be wound at an offset to one another.

The invention relates to a winding apparatus for winding a material web traveling in a direction of travel, having at least one blade for cutting the material web in a web direction into a plurality of partial material webs, and having a folding apparatus for folding the edges of the partial material webs. To furnish a winding apparatus that enables a material web with folded edges to be wound with as little wrinkling as possible, a folding element is furnished for each edge of the partial material webs. The at least one blade may be moved transversely to the direction of travel using a first oscillating apparatus. Using a second oscillating apparatus, the folding elements for the left-hand edges of the partial material webs, as viewed in the direction of travel, may be moved transversely to the direction of travel. Using a third oscillating apparatus, the folding elements for the right-hand edges of the partial material webs, as viewed in the direction of travel, may be moved transversely to the direction of travel. The first oscillating apparatus, second oscillating apparatus and third oscillating apparatus may be controlled by a control unit in such a manner that the folded edges of the partial material webs may be wound at an offset to one another.

The device pertains to providing side shift force control using load cell force feedback in the web slitting industry. Further included is a removable means of providing the load cell force feedback without integrating the load cell with the side shift mechanism. This provides for easy maintenance of the blade cartridge and specifically the cutting blade.

The device pertains to providing side shift force control using load cell force feedback in the web slitting industry. Further included is a removable means of providing the load cell force feedback without integrating the load cell with the side shift mechanism. This provides for easy maintenance of the blade cartridge and specifically the cutting blade.

In a first punching mode, a control portion displaces a support member from a first-path-side end side to a second-path-side end side, and causes a first punching portion on the first-path-side end side to operate in a state where the support member has reached a first target position. In a second punching mode, the control portion displaces the support member from the second-path-side end side to the first-path-side end side, and causes a second punching portion on the second-path-side end side to operate in a state where the support member has reached a second target position. The first and second target positions are based on positions of the support member at points of time when edges on the first-path-side end side and the second-path-side end side are detected by the first sheet sensor and the second sheet sensor, respectively.