A slotter head, a slotter apparatus, and a box making machine form a joining piece with a high degree of accuracy by each being provided with: a cutter rest; a movable block mounted in an outer peripheral portion of the cutter rest; a first cutting blade that is fixed to the movable block along a shaft direction and along a direction inclined in a circumferential direction by a predetermined angle; a first support shaft that supports, on the cutter rest, the movable block rotatably around a first shaft center along the shaft direction; and a second support shaft that supports, on the cutter rest, the movable block rotatably around a second shaft center along the circumferential direction.

A carton sizing system that has a frame, a controller, one or more cutters movably mounted to the frame and operatively connected to the controller, one or more markers movably mounted to the frame and operatively connected to the controller. The carton sizing system also has a measuring means that is operatively connected to the controller and configured to determine, in use, the footprint of an open top carton and to determine the height of one or more objects contained within the carton. The controller is configured to position the one or more cutters based on the determined footprint and to cut vertical edges of the carton based on the determined height and also to position the one or more markers based on the determined footprint and height and to score or crease vertical walls of the carton between the vertical edges to at least partially define foldable panels.

A processing apparatus includes a cutting blade mounted on a spindle, the cutting blade having a cutting edge for cutting a workpiece held on a holding table, a measuring portion for measuring an edge projection amount of the cutting edge at a predetermined frequency, and a data processing portion. The data processing portion includes a lower limit recording portion for recording a lower limit of the edge projection amount of the cutting edge as an allowable limit for use of the cutting blade, a storing portion for storing blade information including the edge projection amount measured by the measuring portion and a cutting distance traveled by the cutting blade at the time of measurement of the edge projection amount.

The utility model discloses a cutting assembly for a vegetable cutter and a hand-held electric vegetable cutter, which falls within the field of vegetable cutting appliances. The cutting assembly for a vegetable cutter of the utility model comprises a cup body and a cutting disc, wherein the cutting disc is axially mounted in a cutter disc mounting cavity by an upper end of the cup body, the outer periphery of the cutting disc is supported on a limiting step, and a rotation connecting portion is provided at the center of the cutting disc so that the cutting disc can axially rotate in the cup body. In the cutting assembly for a vegetable cutter and the hand-held electric vegetable cutter of the utility model, the cutting disc thereof is supported in the cup body via the limiting step, and is axially and rotatably matched with the cup body, so that the cutting disc rotates smoothly and reliably in the cup body, and the assembly and disassembly thereof are simple and convenient, and the cleaning of the cutting disc and the cup body is easy, which effectively solves the problem that the existing cutter disc type cutting assembly tends to harbor dirt and scale. In addition, the necking structure is adopted in the discharging port of the cup body, so that the chopped food ingredients can be gathered towards the middle, facilitating the centralized discharge of food ingredients after being chopped, and effectively solving the problem of food ingredients splashing.

A carton sizing system (1) that has a frame (2), a controller (4), one or more cutters (51) movably mounted to the frame (2) and operatively connected to the controller (4), one or more markers (61) movably mounted to the frame (2) and operatively connected to the controller (4). The carton sizing system (1) also has a measuring system (7) that is operatively connected to the controller (4) and configured to determine, in use, the footprint of an open top carton and to determine the height of one or more objects contained within the carton. The controller (4) is configured to position the one or more cutters (51) based on the determined footprint and to cut vertical edges of the carton based on the determined height and also to position the one or more markers (61) based on the determined footprint and eight and to score or crease vertical walls of the carton between the vertical edges to at least partially define foldable panels.

A carton sizing system that has a frame, a controller, one or more cutters movably mounted to the frame and operatively connected to the controller, one or more markers movably mounted to the frame and operatively connected to the controller. The carton sizing system also has a measuring means that is operatively connected to the controller and configured to determine, in use, the footprint of an open top carton and to determine the height of one or more objects contained within the carton. The controller is configured to position the one or more cutters based on the determined footprint and to cut vertical edges of the carton based on the determined height and also to position the one or more markers based on the determined footprint and height and to score or crease vertical walls of the carton between the vertical edges to at least partially define foldable panels.

A processing apparatus includes a cutting blade mounted on a spindle, the cutting blade having a cutting edge for cutting a workpiece held on a holding table, a measuring portion for measuring an edge projection amount of the cutting edge at a predetermined frequency, and a data processing portion. The data processing portion includes a lower limit recording portion for recording a lower limit of the edge projection amount of the cutting edge as an allowable limit for use of the cutting blade, a storing portion for storing blade information including the edge projection amount measured by the measuring portion and a cutting distance traveled by the cutting blade at the time of measurement of the edge projection amount.

The invention relates to an adjustable device of circularly slicing and shaping fruit and vegetable with filter which includes a base with a frame, a water filtering mechanism, an adjustable cutter head, and a sliding pressing mechanism. The base is provided with an electric conveyor belt, a controller, a hopper, a cutter head mounting seat and a worktop. The water filtering mechanism includes a trough body, a mesh plate, a vibration motor, and a water outlet. The adjustable cutter head includes a plurality of sub-cutter heads. The sub-cutter head includes a cylinder, a first motor, blades, an adjusting rod, a guiding rod, a blade connecting member. The sliding pressing mechanism includes a cantilever, a sliding support block, an electric cylinder and an elastic pressure plate. The cantilever is provided with a rack and a baffle. The sliding support block is provided with a second motor and a first infrared distance sensor. The device of the invention has advantages of having simple and reasonable structure, being easy to use, with high degree of intelligence and versatility, safe and reliable, labor-saving, and having strong practicality, etc., which effectively solves the problem of existing slicing machines being inconvenient.

A separation device is usable for separating portions of a material web. The separation device has at least one front clamping device, with at least one front clamping point, and at least one rear clamping device, with at least one rear clamping point, and at least one first stretching element. The separation device can be switched between at least one traversing mode and at least one separation mode by the movement of at least the at least one first stretching device between at least one first traversing position and at least one first separation position. A transport line is the shortest connection between the at least one front clamping point and the at least one rear clamping point, that connection line completely on a vertical reference plane and traversing or running at a tangent to any component of the separation device on the respective same side as one of a transport path provided for the material web and the portions to be separated. The transport line, in the at least one separation mode, is 2 mm longer than in the at least one traversing mode and has the smallest radius of curvature in the at least one separation mode of at least 0.05 mm. A first reference plane and a second reference plane are mutually spaced apart in an axial direction and a first transport line, lying on the first reference plane, and a second transport line, lying on the second reference plane, have different lengths when the first stretching element is located in the at least one first separation position.

A separation device is usable for separating portions of a material web. The separation device has at least one front clamping device, with at least one front clamping point, and at least one rear clamping device, with at least one rear clamping point, and at least one first stretching element. The separation device can be switched between at least one traversing mode and at least one separation mode by the movement of at least the at least one first stretching device between at least one first traversing position and at least one first separation position. A transport line is the shortest connection between the at least one front clamping point and the at least one rear clamping point, that connection line completely on a vertical reference plane and traversing or running at a tangent to any component of the separation device on the respective same side as one of a transport path provided for the material web and the portions to be separated. The transport line, in the at least one separation mode, is 2 mm longer than in the at least one traversing mode and has the smallest radius of curvature in the at least one separation mode of at least 0.05 mm. A first reference plane and a second reference plane are mutually spaced apart in an axial direction and a first transport line, lying on the first reference plane, and a second transport line, lying on the second reference plane, have different lengths when the first stretching element is located in the at least one first separation position.