A radiation protection material (10) is arranged between at least two layers (21, 22) of at least one plastic-containing element in order to produce a radiation protection element. At least part of the gas present between the at least two layers (21, 22) is removed. The at least two layers (21, 22) are connected with each other.

There is described a packaging assembly configured to form and seal a plurality of packs containing a pourable product starting from a tube of packaging material; the packaging assembly comprises: a pair of endless tracks between which the tube is fed along a straight advancement direction; and a pair of movable members, each one of which movably coupled to, and cyclically movable along, one respective track; each movable member movably carrying one respective forming member linearly movable towards said tube, transversally to said advancement direction, to cyclically cooperate in contact with successive tube portions, so as to form at least corresponding pack portions of respective packs; each forming member comprises a movable portion which is tiltable with respect to the advancement direction, to sequentially control a tilting of the tube portions with respect to said advancement direction.

Example embodiments relate to a system for filling a stand-up pouch. The system includes a pouch fill injector having a pouch fill spout, a seal jaw assembly having a first jaw and second jaw with receiving areas to interface with the pouch fill tube, and a pouch opening device to open an end of a pouch. Unlike prior art systems, the system of example embodiments does not require a vacuum assist to fill a stand-up pouch.

A packing machine includes a guide configured to guide a sheet of packaging material formed in a tubular shape, a sealing device configured to fuse an overlapping portion of the packaging material, a detection element pivotally attached to the guide and arranged downstream of the sealing device along a welded portion of the packaging material, a biasing member configured to bias the detection element outwardly from the guide, and a detector configured to detect the detection element that is pushed out from the welded portion.

A valve application system includes a rotary cutter configured to cut individual valves from a valve string. The valve string is configured to be fed between the rotary cutter and a vacuum transfer tool where the rotary cutter is configured to cut the individual valves from the valve string. The valves are configured to be transferred from the vacuum transfer tool to the ultrasonic anvil. A web is configured to be fed between the ultrasonic anvil and the ultrasonic horn where the valves are ultrasonically sealed to the web.

A method of forming a multi-chambered pouch includes filling a first liquid into a chamber of the pouch through an opening; forming a frangible seal above the first liquid to provide a first sub-chamber having the first liquid and an open second sub-chamber above the first sub-chamber; sealing the first liquid in the first sub-chamber; filling a second liquid into the second sub-chamber through the opening; forming a seal over the second liquid within the second sub-chamber; sealing the second liquid in the second sub-chamber; and forming a permanent seal that intersects the frangible seal to form a first retaining chamber, a second retaining chamber, a third retaining chamber, and a fourth retaining chamber, wherein the first retaining chamber and the second retaining chamber retain the first liquid, and wherein the third retaining chamber and the fourth retaining chamber retain the second liquid.

An assembly for producing sealed packaging units (14) from a sheet packaging material, comprises: an advancement device (21) for advancing the sheet packaging material along an advancement direction (F), a longitudinal sealing device for sealing opposite borders of the sheet packaging material along a longitudinal sealing band arranged parallelly to the advancement direction (F), thereby forming a continuous tube (15), a transverse sealing device (29) for sealing the continuous tube (15) transversely to the advancement direction (F), so as to define a sealed packaging unit (14). The transverse sealing device (29) comprises a sealing element (30) and an abutment element (31) that are intended to mutually cooperate during sealing while being located on opposite sides of the continuous tube (15). The sealing element (30) is so configured as to act on a side (27) of the continuous tube (15) on which the longitudinal sealing band is provided.

A computer server includes processor and memory hardware. The processor hardware executes instructions including parsing a hypertext transfer protocol (HTTP) request from a first user agent to identify a first data object matching a set of characteristics and generating a new data element based on the HTTP request. The instructions include, in response to the first data object being present: extracting a first set of serialized data elements and serializing them with the new data element to generate a second data object. The instructions include, in response to the first data object being absent and a user associated with the first user agent being identifiable: determining a second set of serialized data elements based on an identity of the user, and serializing them with the new data element to generate the second data object. The instructions include transmitting an HTTP response including the second data object.

A non-transitory computer readable recording medium has an estimation model according to one aspect of the present invention recorded thereon, and the estimation model is included in a program to be executed by a computer and outputs output data estimated based on input data received. In response to receiving, as the input data, a change over time in an intensity of energy emitted from a sealing part of an object subjected to a sealing process through bonding, the estimation model estimates at least one of whether sealing of the object is good or whether the sealing of the object is defective and outputs an estimation result as the output data, the change over time being calculated based on an intensity of energy emitted at each of a first time point and a second time point that is later than the first time point.

A high-speed continuous rotary type filling and packaging machine can identifies a defective filling head and a defective seal head and it also identify which part of a seal working surface in the seal head has a defect. In a sealing device of the high-seed continuous rotary type filling and packaging machine that covers a container body, which is filled with liquid contents, with a molded lid and seals the container body and the molded lid to produce a sealed container, a filling head number and a seal head number are inkjet-printed, desirably transparent ink, which can be read by irradiation of an ultraviolet ray, on a container body in which a seal working surface in the seal head and the top surface of the container molded lid are brought into press-contact and a positional relation between a seal working surface and the sealed container is fixed.