A paper-feeding cutting machine includes a frame and a machine head. The frame is provided with a paper-loading platform, a cutting table, a receiving hopper and a crossbeam, wherein a linear guide rail is disposed on both sides of the frame, and the cross beam is connected to the linear guide rail. The machine head is disposed on the crossbeam. The machine head includes a fixing plate, a cutter holder, a cutting component, a machine head lifting mechanism and a machine head rotating mechanism. A cutter holder guide rode is disposed on the fixing plate; the cutter holder is connected to the cutter holder guide rod; the machine head lifting mechanism is connected to the cutter holder; the cutting component comprises at least two cutter head assemblies mounted on the cutter holder; the machine head rotating mechanism is connected to the cutter head assemblies.

A slitter-scorer apparatus comprises: a corrugated paperboard-processing tool comprising a plurality of slitters and a plurality of scorers; a width directional movement mechanism and an up-down directional movement mechanism configured to move the corrugated paperboard-processing tool in a width direction and an up-down direction, respectively; and a control device configured to control the two movement mechanisms. The control device is configured to: set a target setup time for moving the corrugated paperboard-processing tool for an order change, based on a cutter cutoff length of a portion of a corrugated paperboard to be cut off by a cutter during the order change, and a paperboard feed speed; set a target acceleration/deceleration so as to allow the movement of the corrugated paperboard-processing tool to be completed in the target setup time; and control the movement mechanisms to move the corrugated paperboard-processing tool with the target acceleration/deceleration.

A slitter-scorer apparatus comprises: a corrugated paperboard-processing tool comprising a plurality of slitters and a plurality of scorers; a width directional movement mechanism and an up-down directional movement mechanism configured to move the corrugated paperboard-processing tool in a width direction and an up-down direction, respectively; and a control device configured to control the two movement mechanisms. The control device is configured to: set a target setup time for moving the corrugated paperboard-processing tool for an order change, based on a cutter cutoff length of a portion of a corrugated paperboard to be cut off by a cutter during the order change, and a paperboard feed speed; set a target acceleration/deceleration so as to allow the movement of the corrugated paperboard-processing tool to be completed in the target setup time; and control the movement mechanisms to move the corrugated paperboard-processing tool with the target acceleration/deceleration.

Provided are a method of producing ear loop members for masks and a device for producing ear loop members for masks with which it is possible to inhibit a reduction in the production efficiency of the masks. The method of producing ear loop members (4) for masks includes a conveyance step (S2), a tension adjustment step (S3), and a forming step (S4). In the conveyance step (S2), a sheet (U1) having high stretchability in a high-stretch direction (DH) is conveyed in a conveyance direction (C10) running along the high-stretch direction (DH) while tension is applied in the high-stretch direction (DH) to the sheet (U1). In the tension adjustment step (S3), the tension in the conveyed sheet (U1) is adjusted. In the forming step (S4), ear loop members (4) are formed by cutting the sheet (U1) after the tension adjustment.

A fiber product folding apparatus includes a first dashed-line cutting device used to form a plurality of first dashed lines on a first fiber product. Through control of the rotational speed of the first dashed-line roller, the interval between adjacent first dashed lines is adjusted. A first severing device receives the first fiber product with the first dashed lines by a predetermined length and cuts off the first fiber product. A second dashed-line cutting device is used to form a plurality of second dashed lines on a second fiber product. Through control of the rotational speed of the second dashed-line roller, the interval between adjacent second dashed lines can be adjusted. A second severing device receives the second fiber product that includes the second dashed lines by a predetermined length and cuts off the second fiber product. Finally, the first fiber product and the second fiber product are conducted to pass between a first folding roller and a second folding roller to proceed with folding. Since the dashed line interval of the fiber products is the size or length of a single sheet of fiber product, controlling the rotational speeds of the dashed-line rollers would allow for adjustment such that folding can be performed for multiple forms.

An apparatus for cutting a ribbon of food into strips. The apparatus includes a cutting apparatus toward which the ribbon of food is moved at a transport speed in a transport direction which has a grooved shaft and a cutting shaft. The grooved shaft has grooves which encircle the grooved shaft in the transport direction. The grooved shaft takes over the ribbon of food. The cutting shaft has cutting knives which encircle the cutting shaft in the transport direction. The cutting shaft is arranged opposite to the grooved shaft. The ribbon of food is guided between the cutting shaft and the grooved shaft. One respective cutting knife engages slightly into one respective groove disposed opposite thereto to cut the ribbon of food into the strips. The cutting shaft has a length of at least 600 mm. The grooved shaft has a length of at least 600 mm.

Packaging apparatuses for loading and sealing products into a web of interconnected bags, and methods of using them, are provided. In one aspect, the packaging apparatus includes an intermittently advancing web conveyor that also indexes vertically to facilitate stacked loading of products into the bags. In another aspect, the packaging apparatus includes a dividing seal station that applies a center seal dividing the bag into separate sealed subcompartments, some of the bag contents being distributed to each compartment, such as one of two trays to each subcompartment. To facilitate distribution of contents and even sealing, the dividing seal station may include a dividing sealer lower support that oscillates vertically to promote settling of contents and gases in the bag before applying a dividing seal.

Packaging apparatuses for loading and sealing products into a web of interconnected bags, and methods of using them, are provided. In one aspect, the packaging apparatus includes an intermittently advancing web conveyor that also indexes vertically to facilitate stacked loading of products into the bags. In another aspect, the packaging apparatus includes a dividing seal station that applies a center seal dividing the bag into separate sealed subcompartments, some of the bag contents being distributed to each compartment, such as one of two trays to each subcompartment. To facilitate distribution of contents and even sealing, the dividing seal station may include a dividing sealer lower support that oscillates vertically to promote settling of contents and gases in the bag before applying a dividing seal.

A machine and a method of manufacturing the machine are provided. The machine comprises a sensor, a plurality of tools and a processor. The sensor is configured to detect a sheet of a bundle of sheets. The bundle of sheets includes at least a first sheet having a first edge and a second sheet having a second edge, and the sheet is any one of the first sheet and the second sheet. The plurality of tools removably is disposed in a tool housing. Each tool of the plurality of tools corresponds to at least an operation of a plurality of operations, and each tool of the plurality of tools is arranged to perform the operation on the sheet. The processor configured to position the sheet and to selectively actuate at least one tool of the plurality of tools to cause performance of at least one operation at a first location on the first sheet and at a second location on the second sheet, and wherein the first location and second location are determined by the processor based on a first input to obliquely aligned the first edge and the second edge upon aligning the first location and second location.

A machine and a method of manufacturing the machine are provided. The machine comprises a sensor, a plurality of tools and a processor. The sensor is configured to detect a sheet of a bundle of sheets. The bundle of sheets includes at least a first sheet having a first edge and a second sheet having a second edge, and the sheet is any one of the first sheet and the second sheet. The plurality of tools removably is disposed in a tool housing. Each tool of the plurality of tools corresponds to at least an operation of a plurality of operations, and each tool of the plurality of tools is arranged to perform the operation on the sheet. The processor configured to position the sheet and to selectively actuate at least one tool of the plurality of tools to cause performance of at least one operation at a first location on the first sheet and at a second location on the second sheet, and wherein the first location and second location are determined by the processor based on a first input to obliquely aligned the first edge and the second edge upon aligning the first location and second location.