The apparatus (100) for introducing deformable products (B), such as blister packs and informative sheets (F), internally of relative packs (A) comprises first pusher elements (11), mounted on a first looped conveyor organ (1), and first movement means (3), associated to the first conveyor organ (1) for moving the first pusher elements (11), transversally to the advancement direction (V1) thereof, so that they can abut the products (B) and push the products (B) internally of relative packs (A). The apparatus (100) comprises second pusher elements (21) mounted on a second looped conveyor organ (2) which is arranged with respect to the first conveyor organ (1) such that the second pusher elements (21) are arranged above the corresponding first pusher elements (11). Second movement means (4), associated to the second conveyor organ (2), are included for moving the second pusher elements (21), transversally to the advancement direction (V2) thereof, so that they can abut the sheets (F) and push the sheets (F) internally of relative packs (A).

The apparatus (100) for introducing deformable products (B), such as blister packs and informative sheets (F), internally of relative packs (A) comprises first pusher elements (11), mounted on a first looped conveyor organ (1), and first movement means (3), associated to the first conveyor organ (1) for moving the first pusher elements (11), transversally to the advancement direction (V1) thereof, so that they can abut the products (B) and push the products (B) internally of relative packs (A). The apparatus (100) comprises second pusher elements (21) mounted on a second looped conveyor organ (2) which is arranged with respect to the first conveyor organ (1) such that the second pusher elements (21) are arranged above the corresponding first pusher elements (11). Second movement means (4), associated to the second conveyor organ (2), are included for moving the second pusher elements (21), transversally to the advancement direction (V2) thereof, so that they can abut the sheets (F) and push the sheets (F) internally of relative packs (A).

Systems and methods for manufacturing and inserting a pre-determined number of material-filled pouches into containers are disclosed. A system includes a pouch providing system comprising a plurality of lanes, wherein each one of the plurality of lanes includes a pouch making machine and a hold-back structure. The system also includes a conveyor system structured and arranged to move a plurality of containers into alignment with the plurality of lanes. The system further includes a controller structured and arranged to control the hold-back structure in each one of the plurality of lanes such that the pre-determined pouches are inserted into the plurality of containers when the plurality of containers are aligned with the plurality of lanes.

A toting apparatus can include a bucket, a combination lid and seat cushion, and a harness for carrying the apparatus while the lid covers the top opening of the bucket and the cushion is in the inflated or deflated configuration. The cushion can be formed by a drop-stitch type bladder inflatable using a common hand-operated bicycle pump. The harness can include a belt that wraps around the bucket and a pair or diametrically spaced-apart straps that adjustably and snuggly attach to a central handle structure atop the lid. Various corresponding patches of hook-and-vane style fabric fasteners allow for releasable affixation of various components of the apparatus. Thus the harness can be made of durable flexible fabric.

A toting apparatus can include a bucket, a combination lid and seat cushion, and a harness for carrying the apparatus while the lid covers the top opening of the bucket and the cushion is in the inflated or deflated configuration. The cushion can be formed by a drop-stitch type bladder inflatable using a common hand-operated bicycle pump. The harness can include a belt that wraps around the bucket and a pair or diametrically spaced-apart straps that adjustably and snuggly attach to a central handle structure atop the lid. Various corresponding patches of hook-and-vane style fabric fasteners allow for releasable affixation of various components of the apparatus. Thus the harness can be made of durable flexible fabric.

Method and system for storing and/or transporting temperature-sensitive materials. In one embodiment, the system is designed to keep a payload within a desired temperature range of +2° C. to +8° C. for an extended time in a warm ambient environment. The system includes a thermally insulated container and first and second phase-change materials, each of the phase-change materials having a different solid/liquid phase-change temperature. Both phase-change materials are preconditioned to a solid state for pack-out. The first phase-change material has a solid/liquid phase-change temperature that is within the desired temperature range and that is at or below a hibernation temperature of about +5° C. to +6° C. The second phase-change material has a solid/liquid phase-change temperature that is above the hibernation temperature. When placed in the warm ambient environment, both phase-change materials move towards melting; however, when subsequently placed in hibernation, the second phase-change material reverses the direction of its phase change, becoming recharged.

Method and system for storing and/or transporting temperature-sensitive materials. In one embodiment, the system is designed to keep a payload within a desired temperature range of +2° C. to +8° C. for an extended time in a warm ambient environment. The system includes a thermally insulated container and first and second phase-change materials, each of the phase-change materials having a different solid/liquid phase-change temperature. Both phase-change materials are preconditioned to a solid state for pack-out. The first phase-change material has a solid/liquid phase-change temperature that is within the desired temperature range and that is at or below a hibernation temperature of about +5° C. to +6° C. The second phase-change material has a solid/liquid phase-change temperature that is above the hibernation temperature. When placed in the warm ambient environment, both phase-change materials move towards melting; however, when subsequently placed in hibernation, the second phase-change material reverses the direction of its phase change, becoming recharged.

A packaging system includes a first transfer station to receive a plurality of products thereon, a staging station comprising a track and a plurality of shuttle members configured to move along a path defined by the track, and a second transfer station comprising a robotic arm coupled to a plurality of gripping members. The plurality of gripping members can be configured to pick up the plurality of products from one or more of the plurality of shuttle members.

A packaging system includes a first transfer station to receive a plurality of products thereon, a staging station comprising a track and a plurality of shuttle members configured to move along a path defined by the track, and a second transfer station comprising a robotic arm coupled to a plurality of gripping members. The plurality of gripping members can be configured to pick up the plurality of products from one or more of the plurality of shuttle members.

A method and an apparatus are disclosed for assembling kits of sanitary products which involves loading of the sanitary products into containers including a plurality of independent housings for the sanitary products, each of the housings being configured to allow loading of a sanitary product therein and withdrawal of the sanitary product therefrom independently of the other housings.