The present disclosure provides a fitment. In an embodiment, a fitment is provided and includes a top portion, a base, and a channel extending through the top portion and the base for passage of a flowable material. The fitment is composed of a polymeric composition. The polymeric composition includes (i) from 70 to 90 weight percent of a high density polyethylene (HDPE) having a density from 0.940 g/cc to 0.970 g/cc, a melt temperature, Tm, greater than 125° C., and a melt index from 1 g/10 min to 50 g/10 min; and (ii) from 30 to 10 weight percent of an olefin-based elastomer having a density from 0.860 g/cc to 0.905 g/cc, a melt index from 0.2 g/10 min to 50 g/10 min, and a Tm less than 125° C.

A cleaning device and method of cleaning are provided. The cleaning device includes a power source and a pump in selective electrical communication with the power source. A storage container is provided. A valve assembly is disposed in the storage container and in fluid communication with the pump, the valve assembly being configured to selectively flow cleaning fluid from a first portion and a second portion of the storage container. A cleaning element having a spray nozzle is in fluid communication with the pump.

A table top appliance rapidly fills a pouch through some mechanical actuation or automation by inserting the pouch into the appliance and the machine fills the pouch. One embodiment of the food pouch filling station may be a mechanical version that includes a method to pump or push the contents of the container into the pouch. A second embodiment of the food pouch filling station may be an electric pump version that fills pouches and may have the option of controlling the amount of food dispensed. The food pouch filling station may also include a valve that connects to the pouch to control the flow to the pouch.

The present invention relates to a portable thermal container (1) for consumer products (2′) comprising at least a storing chamber (2) of the consumer products (2′) and at least a reaction chamber (4) of a reagent component (5′) and a of a reactive component (5″), wherein the reaction chamber (4) extends substantially entirely along the dimension of the largest dimension of the portable thermal container (1) and the storing chamber (2) is arranged side-by-side to the reaction chamber (4) to maximize the thermal exchange between the reaction chamber (4) and the storing chamber (2) in an homogeneous way, and the reaction chamber (4) comprises at least a storing portion and at least an expansion portion, wherein the total volume of said expansion portions is greater than the total volume of said storing portions to allow the safe expansion of the chemical reaction gases in said reaction chamber (4).

A tube container with a reduced resin usage amount compared to the prior art, and having the stiffness necessary for self-support of the container is provided. The tube container includes a tube-like body portion that is closed at one end and a spout portion mounted at the other end of the body portion, and the body portion is formed by a material composed mainly of paper.

A closure for a container. The closure include an outer shell having a proximal end, a distal end, an inner surface, and an outer surface. The closure also including an inner cap having a proximal end, a distal end, an inner surface, and an outer surface. A plurality of ribs extend from the inner cap to the outer shell. A tamper-evident band encircles the distal end of the inner cap. The tamper-evident band includes a plurality of tamper-evident segments. Each tamper-evident segment has a tab coupled with one of the plurality of ribs and a break segment. A first end of the break segment is coupled with the tab and a second end of the break segment is coupled with an adjacent one of the plurality of ribs.

A method of manufacturing a pouch container, includes: forming a pouch bag having one open end, by fusion-bonding a resin layer on an inner side of an end of a first film, with a resin layer on an inner side of an end of one or more second films; molding a mouth part member made of a resin, including a brim portion and a standing portion; attaching a lower surface of the brim portion of the mouth part member made of the resin to an outer resin layer of the first film of the pouch bag, by integrating the resins, using one of ultrasonic, heat, or high-frequency welding; filling the pouch bag with contents from the one open end of the pouch bag; and sealing an inside by fusion-bonding the one open end of the pouch bag to seal the pouch bag.

A method for automatically transferring spouted pouches provides a simple, efficient approach for automatically loading spouted pouches from a container to a belt conveyor. And, an automatic pouch transferring assembly is also provided.

A film or packaging member for forming a package comprising at least one body and at least one outer adhesive layer, wherein the body and adhesive layer are made of a polyolefin-based plastic, wherein at least the adhesive layer is fusible to be weld to a target surface, and wherein at least the adhesive layer comprises particles that absorb radiation to heat at least a portion of the packaging member.

A package includes a first adjacent edge, a second adjacent edge, and a fitment seal including a fitment. The fitment seal is inclined at a fitment seal angle relative to the first adjacent seal, and connects to the first adjacent seal and the second adjacent seal. The package further includes at least one supplemental seal extending towards the first adjacent seal. The at least one supplemental seal is inclined at an angle from 90° to 180° relative to the first adjacent seal.