A container indexing assembly is provided, including an indexing wheel; a conveyor chain; and a series of container indexing arms arranged having a fixed spatial relation ship to one another other at linear and non-linear speeds. A rotary container starwheel is further provided including one or more grabber arms. Each of said grabber arms includes a spring configured to actuate the grabber arm to a closed position; and a fixed mechanical cam configured to actuate opening of the grabber arms. A rotary multi-feed can lid assembly is also provided including multiple can lid silos supported on an upper rotating indexing plate; one or more spring loaded ball detents affixed to rotate with the upper rotating indexing plate and a fixed lower indexing plate. The fixed lower indexing plate is formed with a series of indents to allow extension of the spring loaded ball de tents as the ball detents rotate with the upper rotating indexing plate. A universal closing turret is finally provided including multiple, varying closure applicators for different types of containers, removably connectable to the turret to allow rearrangement of an order of closure applicators based on an order of types of containers to be closed.

The wrapping machine includes a feed path of products to be wrapped in a wrapping sheet and, along the feed path, an insertion station of products to be wrapped in a wrapping sheet and folding members of the wrapping sheet. The machine further includes a conveyor device, which receives the products in the insertion station and causes their feed through the folding members. The conveyor device includes a system of endless flexible members formed by toothed belts guided around toothed wheels. Each toothed belt includes a first series of internal teeth, cooperating with toothed guide wheels, and a second series of external teeth, cooperating with connection elements of carriages that carry prongs for feeding the products to be wrapped. The connection elements include toothed profiles complementary to the external teeth of the toothed belts, suitable to provide a shape coupling with the external teeth of the respective toothed belts.

Disclosed is a vertical strip accumulator. The vertical strip accumulator includes an inner drum unit having an inner drum; an outer drum unit installed at an outer side of the inner drum unit; a central drum unit installed at an inner side of the inner drum unit; and an input unit configured to carry a skelp supplied from an uncoiler to the outer drum unit. The outer drum unit includes an outer drum configured to selectively rotate forward and reverse; a first power source configured to provide a power to the outer drum; an outer roller installed to the outer drum; and a first control unit connected to the first power source to control the operation of the first power source. The input unit includes a carrying roller provided in contact with the skelp; a second power source configured to supply a power to the carrying roller; and a second control unit connected to the second power source to control the operation of the second power source.

A conveying apparatus having a buffering unit extending between a receiving end and output end, including, a base conveyor, a distributing unit adapted to distribute a at least one incoming line of articles received at the receiving end into buffering lanes configured onto the base conveyor, and including a first closed loop track at the receiving end of the base conveyor. The first closed loop track having a distributing lugs, an accumulator unit extending away through the buffering to accumulate positioned on a base conveyor and oriented generally transversally to the first closed loop track, the second closed loop track including a plurality of accumulating lugs, Articles received at the buffering unit are moved along by distributing lugs and dropped into buffering lanes merging into a output lane, and having a second closed loop track on a base conveyor oriented transversally to the first closed loop track having accumulating lugs.

A handling device for transferring workpieces includes a workpiece carrier arranged to receive workpieces and a rotatable workpiece-conveying apparatus arranged to receive the workpieces from the workpiece carrier in a first angular position and to transfer the workpieces to a storage station in a second angular position. The workpiece-conveying apparatus includes an axis of rotation, a first linearly displaceable feed element and a second linearly displaceable feed element, intersecting the first feed element at the axis of rotation and simultaneously actuatable with the first feed element. The apparatus also includes first and second non-rotatable linear actuators. The first and second feed elements have end pieces, each arranged for direct interaction with the workpiece and a respective linear actuator. The feed elements may intersect at an angle of 90°. The first feed element may have a straight shape and the second feed element may have an offset shape.

A handling device for transferring workpieces includes a workpiece carrier arranged to receive workpieces and a rotatable workpiece-conveying apparatus arranged to receive the workpieces from the workpiece carrier in a first angular position and to transfer the workpieces to a storage station in a second angular position. The workpiece-conveying apparatus includes an axis of rotation, a first linearly displaceable feed element and a second linearly displaceable feed element, intersecting the first feed element at the axis of rotation and simultaneously actuatable with the first feed element. The apparatus also includes first and second non-rotatable linear actuators. The first and second feed elements have end pieces, each arranged for direct interaction with the workpiece and a respective linear actuator. The feed elements may intersect at an angle of 90°. The first feed element may have a straight shape and the second feed element may have an offset shape.

This air control device for mounter is to solve a problem of realizing an air control device for a mounter capable of providing a secured holding state by a nozzle without damaging a part by adjusting, during vacuum suction, an amount of air to be drawn suitably for the part and the nozzle. This air control device for mounter is configured such that a nozzle n detachably attached to a head module HM of a mounter is connected to a negative pressure region, and a part is suctioned at a distal end of the nozzle n. The head module HM is mounted with a variable throttle mechanism 4, and by using the variable throttle mechanism 4, an amount of air to be drawn into the negative pressure region from the nozzle is adjustable.

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 arranged 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 filling machine includes a rotor comprising plural container-filling positions, an inflow star upstream from the rotor, and a linear conveyor downstream of the rotor that receives the container from the rotor at an outflow point after the container has been filled but before the container has been closed. An interface having a curved portion receives the container at the outflow point and conveys the container toward the linear conveyor.

A system for grouping and rotating packages (101) includes a first conveyor (102) configured to drive a stream of packages from a first end (102A) to a second end (102B) at a predefined first speed, an actuation section (104) situated at the second end (102B) of the first conveyor (102) configured to receive the stream of packages from the first conveyor (102) and actuate the stream of packages to an orienting section (108) at a predefined second speed, wherein the second speed is less than the first speed, and a plurality of lugs (106) adjacent to the actuation section (104) configured to actuate forward packages in the stream of packages forming groups (105) of two or more packages (101).