The secured storage receives an electronic device including but not limited to a tablet, smart phone, mobile computing device, or other computing device. The secured storage provides a charging system that charges the device. The system selectively charges the devices based upon identified rules. The lock of the secured storage secures the electronic device within the storage. The system maintains a log of the users who access the electronic devices. The system then control access by granting access to users and restricting access to users based upon usage history, behavior, or other criteria.

A machine and method for packaging tobacco sachets, comprising a plurality of linearly arranged, multi-functional, vertically moveable chambers having fluid sealing means on lower portions thereof, conveyor means disposed below the plurality of multi-functional, vertically moveable chambers, and a lidding apparatus disposed downstream of and in communication with the plurality of vertically moveable chambers through the conveyor means.

A machine and method for packaging tobacco sachets, comprising a plurality of linearly arranged, multi-functional, vertically moveable chambers having fluid sealing means on lower portions thereof, conveyor means disposed below the plurality of multi-functional, vertically moveable chambers, and a lidding apparatus disposed downstream of and in communication with the plurality of vertically moveable chambers through the conveyor means.

A machine produces twisted paper for loose file packaging. The machine includes at least one auger to reduce a dimension, such as diameter, of paper as it is pulled from a roll. The material moves past the auger into a twisting assembly wherein the paper is twisted or rotated about a longitudinal axis of the machine inside a pipe or tube. The pipe or tube includes a cutout or interruption in the sidewall within which a wheel resides. The wheel grasps and advances the paper through the twisting assembly as it rotates. As the paper leaves the twisting assembly it is pulled or otherwise fed through an exist region and is cut into segments of small twisted pieces of paper. The twisted segments of paper are of suitable size for use as loose fill packaging.

A feeding mechanism and method for feeding objects singulated from a bulk mass of objects includes receiving the bulk mass into a hopper system having a hopper screw set including first and second hopper screws and a plurality of feeding pockets defined by the thread forms of the hopper screws. Rotation of the hopper screws tumbles the bulk mass to cascade and singulate individual objects into respective feed pockets. An object set including at least one singulated object is discharged from the hopper screw set by rotation of the hopper screws. A discharge assembly including a ramp and star wheel receives the discharged object set, and transfers the object set to a discharge outlet. The object set output from the discharge outlet is received by a target defined by a receiving article. In one example, the object is rounded, the target is an opening of a container.

A feeding mechanism and method for feeding objects singulated from a bulk mass of objects includes receiving the bulk mass into a hopper system having a hopper screw set including first and second hopper screws and a plurality of feeding pockets defined by the thread forms of the hopper screws. Rotation of the hopper screws tumbles the bulk mass to cascade and singulate individual objects into respective feed pockets. An object set including at least one singulated object is discharged from the hopper screw set by rotation of the hopper screws. A discharge assembly including a ramp and star wheel receives the discharged object set, and transfers the object set to a discharge outlet. The object set output from the discharge outlet is received by a target defined by a receiving article. In one example, the object is rounded, the target is an opening of a container.

The present invention is characterized to include a cylindrical cam that is provided to correspond to a moving path and possesses an engaging groove, the moving path moving in an uncoupled state with each of a plurality of carriers to which an object to be conveyed is respectively installed and the plurality of carriers being in states where a set of a plurality of first carriers and a set of a plurality of second carriers are alternately lined up, and a drive source that drives the cylindrical cam, wherein a first cylindrical cam and a second cylindrical cam, as the cylindrical cam, are respectively provided to correspond to a predetermined position in the moving path, the first cylindrical cam possessing an engaging groove with which only the first carriers are engageable and the second cylindrical cam possessing an engaging groove with which only the second carriers are engageable, a first drive source that drives the first cylindrical cam and a second drive source that drives the second cylindrical cam are included as the drive source, the engaging grooves of the first cylindrical cam and the second cylindrical cam are helical grooves that possess a first groove part and a second groove part, the second groove part being continuous with the first groove part, being positioned on a downstream side in a conveying direction with respect to the first groove part and having a pitch different from the pitch of the first groove part, and the second cylindrical cam rotates to move the second carrier that reached the first groove part when an interval of the first carriers is changed by the set of the plurality of the first carriers moving past the first groove part to reach the second groove part by a rotation of the first cylindrical cam.

The present invention is characterized to include a cylindrical cam that is provided to correspond to a moving path and possesses an engaging groove, the moving path moving in an uncoupled state with each of a plurality of carriers to which an object to be conveyed is respectively installed and the plurality of carriers being in states where a set of a plurality of first carriers and a set of a plurality of second carriers are alternately lined up, and a drive source that drives the cylindrical cam, wherein a first cylindrical cam and a second cylindrical cam, as the cylindrical cam, are respectively provided to correspond to a predetermined position in the moving path, the first cylindrical cam possessing an engaging groove with which only the first carriers are engageable and the second cylindrical cam possessing an engaging groove with which only the second carriers are engageable, a first drive source that drives the first cylindrical cam and a second drive source that drives the second cylindrical cam are included as the drive source, the engaging grooves of the first cylindrical cam and the second cylindrical cam are helical grooves that possess a first groove part and a second groove part, the second groove part being continuous with the first groove part, being positioned on a downstream side in a conveying direction with respect to the first groove part and having a pitch different from the pitch of the first groove part, and the second cylindrical cam rotates to move the second carrier that reached the first groove part when an interval of the first carriers is changed by the set of the plurality of the first carriers moving past the first groove part to reach the second groove part by a rotation of the first cylindrical cam.

A feeding unit configured to feed semi-finished sealed packs containing a pourable product to a folding unit adapted to fold the packs so as to obtain folded packages, the feeding unit comprises: a conveyor device having at least one carrying element configured to advance the packs from an inlet region of the feeding unit to an outlet region of the feeding unit; and a feed screw device at the outlet region and configured to receive the packs from the conveyor device, to advance the packs along a braking path and to feed the packs to the folding unit; the feed screw device is configured to decrease the velocity of the packs along the braking path.

A feeding unit configured to feed semi-finished sealed packs containing a pourable product to a folding unit adapted to fold the packs so as to obtain folded packages, the feeding unit comprises: a conveyor device having at least one carrying element configured to advance the packs from an inlet region of the feeding unit to an outlet region of the feeding unit; and a feed screw device at the outlet region and configured to receive the packs from the conveyor device, to advance the packs along a braking path and to feed the packs to the folding unit; the feed screw device is configured to decrease the velocity of the packs along the braking path.