A method, apparatus and program product perform automatic load profiling to optimize a wrapping operation performed with a stretch wrapping machine. Automatic load profiling may be performed, for example, to determine a density parameter for a load that is indicative of load stability such that one or more control parameters may be configured for a wrapping operation based upon the density parameter. Automatic load profiling may also be performed, for example, to detect a load with a nonstandard top layer, e.g., a load with a top or slip sheet, a load with an easily deformable top layer, a load with a ragged top surface topography and/or a load with an inboard portion, such that a top layer containment operation may be activated during wrapping to optimize containment for the load.

A method, apparatus and program product perform automatic load profiling to optimize a wrapping operation performed with a stretch wrapping machine. Automatic load profiling may be performed, for example, to determine a density parameter for a load that is indicative of load stability such that one or more control parameters may be configured for a wrapping operation based upon the density parameter. Automatic load profiling may also be performed, for example, to detect a load with a nonstandard top layer, e.g., a load with a top or slip sheet, a load with an easily deformable top layer, a load with a ragged top surface topography and/or a load with an inboard portion, such that a top layer containment operation may be activated during wrapping to optimize containment for the load.

A bagging and packaging machine includes a transport mechanism and a plurality of processing units. The transport mechanism transports a pouch in a standing posture, along a predetermined track. The processing units process the pouch transported by the transport mechanism. The processing units include a filling unit that fills the pouch with an object to be packaged. The transport mechanism has a holding unit that holds the pouch, and a swinging mechanism that swings the pouch, which has been filled with the object to be packaged in the filling unit, in a vertical plane parallel to a transport direction.

Process for cutting a water-soluble web in a cross-machine direction. Each cutting cycle contains at least two speeds. A first speed matches that of the speed of the water-soluble web and is also the speed at the point of cutting, and a second speed is faster than the speed of the water-soluble web in the machine direction and is the speed at a point in-between two cutting actions.

Control of a load wrapping apparatus may be based at least in part on the relative stability of a load, such as based upon one or more load stability types that categorize the relative stability of the load. A graphical depiction of a wrap profile may also be used in some instances to facilitate operator set up of the wrap profile.

Control of a load wrapping apparatus may be based at least in part on the relative stability of a load, such as based upon one or more load stability types that categorize the relative stability of the load. A graphical depiction of a wrap profile may also be used in some instances to facilitate operator set up of the wrap profile.

A method, apparatus and program product may determine load stability for a load to be wrapped based upon sensing the response or reaction of the load to a disturbance applied to the load, e.g., through intentionally moving, shaking, tilting, pushing, impacting or otherwise applying an input force to the load and sensing the response using one or more sensors. The sensed response may then be used to determine a load stability parameter that may be used in the control of a load wrapping apparatus when wrapping the load.

A method, apparatus and program product may determine load stability for a load to be wrapped based upon sensing the response or reaction of the load to a disturbance applied to the load, e.g., through intentionally moving, shaking, tilting, pushing, impacting or otherwise applying an input force to the load and sensing the response using one or more sensors. The sensed response may then be used to determine a load stability parameter that may be used in the control of a load wrapping apparatus when wrapping the load.

A tissue paper package not prone to losing shape. Film-packaged tissue paper comprising a pop-up type substantially cuboid bundle of tissue paper packaged with a flexible resin packaging film, and characterized in that air vents for providing communication between the inside and the outside of the package are formed at positions on the packaging film facing short-side surfaces of the bundle of tissue paper where no folded edges are arranged.

A method for operating a packaging machine having at least one electric drive motor, the drive motor driving at least one functional unit of the packaging machine in a program-controlled manner when producing packaging using the following steps: (a) loading a parameter set into the control of the packaging machine, the parameter set containing at least one load parameter which limits the torque or the current consumption of the drive motor to a maximum when producing packaging; (b) operating the packaging machine for producing packaging, the maximally occurring actual value of the torque mustered at the drive motor or the current consumed by the drive motor being measured during operation; (c) determining a new load parameter as a function of the maximum actual value; (d) saving the new load parameter in a parameter set allocated to the packaging to be produced.