A filler head apparatus 20 for hygienically filling and emptying containers 22 through a fitment 24 incorporated with the container 22 includes a cylindrical outer housing 30 for receiving a hollow bore inner cylinder 32 which is actuated to simultaneously reciprocate and rotate about a central axis 33 within the outer housing. A transfer tube assembly 34 is mounted to the inner cylinder 32 to travel with the inner cylinder between an extended position engaged with the fitment 24 and a retracted position disengage from the fitment. When the transfer tube assembly is engaged with the fitment, flowable content or product may be transferred to or from the container 22. A fitment cap assembly 36 is also mounted to the inner cylinder 22 to travel with the inner cylinder to remove the cap 38 of the fitment 24 prior to either filling or emptying the container 22, and then to retract to a standby position while the container is filled/emptied, and thereafter replacing the fitment cap after filling/emptying has been completed.

A filler head apparatus 20 for hygienically filling and emptying containers 22 through a fitment 24 incorporated with the container 22 includes a cylindrical outer housing 30 for receiving a hollow bore inner cylinder 32 which is actuated to simultaneously reciprocate and rotate about a central axis 33 within the outer housing. A transfer tube assembly 34 is mounted to the inner cylinder 32 to travel with the inner cylinder between an extended position engaged with the fitment 24 and a retracted position disengage from the fitment. When the transfer tube assembly is engaged with the fitment, flowable content or product may be transferred to or from the container 22. A fitment cap assembly 36 is also mounted to the inner cylinder 22 to travel with the inner cylinder to remove the cap 38 of the fitment 24 prior to either filling or emptying the container 22, and then to retract to a standby position while the container is filled/emptied, and thereafter replacing the fitment cap after filling/emptying has been completed.

Funnels are disclosed for use with filling packages with bulk product.

Funnels are disclosed for use with filling packages with bulk product.

By swinging a collating chute supplied with items, the items are held in a plurality of holding cells formed in a holding array. After all of the holding cells are filled with the items, a diving funnel array is moved downward to a position so as to contact the upper surface of a container. Then, discharge gates of the holding array are opened to discharge the items from the holding cells into a plurality of pockets formed in the container.

An aseptic packaging machine includes a web-shaped packaging material feed, a sterilizer-filler nozzle assembly with a form section 40, a product supply duct, a sterilization medium supply duct, and an exhaust duct. One or more pre-sterilization medium supply feeds are connectable to a product inlet connector and a sterilization medium inlet connector. A collector cup 70 is movable relative to the nozzle assembly between an inactive and a docking position. The collector cup delimits one or more interior spaces 71a, 72a designed to, in the docking position, enclose a product outlet portion 4 to collect and/or drain away pre-sterilization media during a pre-sterilization of the nozzle assembly get to flow through and along it, and to also enclose the sterilization medium outlet portion 16 and/or exhaust inlet portion 22 in the docking position inside its one or more interior spaces.

A blister assembly comprises at least one collapsible blister adapted, as it is collapsed, to eject a liquid contained therein. The blister assembly comprises a first layer (130) having at least one blister chamber (150) and a second layer (131) sealed to the first layer at least around a periphery of the at least one blister chamber such that a liquid is contained between the first layer and the second layer. The seal between the first and second layers comprises a first planar portion having a first peel strength and a second planar portion having a second peel strength, wherein the first peel strength is greater than the second peel strength, such that when pressure is applied to the blister, the second portion of the seal breaks to release the liquid contained within the chamber into the liquid inlet. The blister assembly further comprises at least one discontinuity (142) formed in the first and second layers in the region of the first portion of the seal, such that a shear force is required to delaminate the first and second layers in that region.

A blister assembly comprises at least one collapsible blister adapted, as it is collapsed, to eject a liquid contained therein. The blister assembly comprises a first layer (130) having at least one blister chamber (150) and a second layer (131) sealed to the first layer at least around a periphery of the at least one blister chamber such that a liquid is contained between the first layer and the second layer. The seal between the first and second layers comprises a first planar portion having a first peel strength and a second planar portion having a second peel strength, wherein the first peel strength is greater than the second peel strength, such that when pressure is applied to the blister, the second portion of the seal breaks to release the liquid contained within the chamber into the liquid inlet. The blister assembly further comprises at least one discontinuity (142) formed in the first and second layers in the region of the first portion of the seal, such that a shear force is required to delaminate the first and second layers in that region.

The technology described herein generally relates to particular form of folded package and the method of forming that folded package. More particularly, using a folding tip and the application of vacuum pressure to a paper cone it is possible to achieve the formation of properly folded packages that may further include a core that is deposited axially along the length of the package.

The technology described herein generally relates to particular form of folded package and the method of forming that folded package. More particularly, using a folding tip and the application of vacuum pressure to a paper cone it is possible to achieve the formation of properly folded packages that may further include a core that is deposited axially along the length of the package.