An ammunition packaging apparatus and system is reconfigurable to package a select caliber of ammunition by changing a set of components to those associated with the selected caliber of ammunition and selecting the corresponding operating procedure. An ammunition collating and packaging apparatus can be quickly reconfigured from packaging a first caliber of ammunition to packaging a second caliber of ammunition by quickly replacing a define set of components and modifying operationally timings to correspond to the selected caliber.

An ammunition packaging apparatus and system is reconfigurable to package a select caliber of ammunition by changing a set of components to those associated with the selected caliber of ammunition and selecting the corresponding operating procedure. An ammunition collating and packaging apparatus can be quickly reconfigured from packaging a first caliber of ammunition to packaging a second caliber of ammunition by quickly replacing a define set of components and modifying operationally timings to correspond to the selected caliber.

An ammunition packaging apparatus and system is reconfigurable to package a select caliber of ammunition by changing a set of components to those associated with the selected caliber of ammunition and selecting the corresponding operating procedure. An ammunition collating and packaging apparatus can be quickly reconfigured from packaging a first caliber of ammunition to packaging a second caliber of ammunition by quickly replacing a define set of components and modifying operationally timings to correspond to the selected caliber.

An ammunition packaging apparatus and system is reconfigurable to package a select caliber of ammunition by changing a set of components to those associated with the selected caliber of ammunition and selecting the corresponding operating procedure. An ammunition collating and packaging apparatus can be quickly reconfigured from packaging a first caliber of ammunition to packaging a second caliber of ammunition by quickly replacing a define set of components and modifying operationally timings to correspond to the selected caliber.

System and methods for manipulating and sorting of objects being moved along a conveyor are disclosed, whereby control of the object is achieved through the application of one or more of vacuum, impaling, or mechanical grasping. One embodiment is directed to a robotic arm and vision detection system operable for detecting a target object to be grasped from a stream of objects being moved on a conveyor, and moving a suction head into position over the target object that has been detected on the conveyor, the suction head having a flexible cup section disposed at a distal end thereof, the vacuum item pick-up system/method using high subsonic air flow (e.g., on the order of 60 scfm or more) through a suction cup having a flow opening area large enough that an airflow of 60 scfm does not result in an airspeed exceeding Mach 0.2 under standard conditions of temperature and pressure, and further having a flow opening area whose ratio to cup opening area falls between 0.36 and 1.44 for applying a desired vacuum suction force for grasping the target object. Either as a primary grasping mechanism, or as an optional supplemental grasping mechanism, a piercing mechanism may be inserted into the object and used to manipulate the object in space. Alternate systems/methods for manipulating and sorting objects via hitting, flicking, or pushing are also disclosed.

System and methods for manipulating and sorting of objects being moved along a conveyor are disclosed, whereby control of the object is achieved through the application of one or more of vacuum, impaling, or mechanical grasping. One embodiment is directed to a robotic arm and vision detection system operable for detecting a target object to be grasped from a stream of objects being moved on a conveyor, and moving a suction head into position over the target object that has been detected on the conveyor, the suction head having a flexible cup section disposed at a distal end thereof, the vacuum item pick-up system/method using high subsonic air flow (e.g., on the order of 60 scfm or more) through a suction cup having a flow opening area large enough that an airflow of 60 scfm does not result in an airspeed exceeding Mach 0.2 under standard conditions of temperature and pressure, and further having a flow opening area whose ratio to cup opening area falls between 0.36 and 1.44 for applying a desired vacuum suction force for grasping the target object. Either as a primary grasping mechanism, or as an optional supplemental grasping mechanism, a piercing mechanism may be inserted into the object and used to manipulate the object in space. Alternate systems/methods for manipulating and sorting objects via hitting, flicking, or pushing are also disclosed.

A packaging machine may include a grouping device comprising a spreading area with a spreading table having a base body and a plurality of support bars adjustable in their transverse spacing, each having at least one row of seats extending in a longitudinal direction, each for one product. The grouping device may also include at least one transverse drive for adjusting the transverse spacing, for producing a single-layer group having an even or uneven number of rows of products, and for inserting the group into an outer package. The plurality of support bars include a plurality of double-row support bars which cannot be moved relative to one another in the transverse direction, and at least two single-row support bars that are movable relative to one another in the transverse direction positioned between two of the double-row support bars.

A packaging machine may include a grouping device comprising a spreading area with a spreading table having a base body and a plurality of support bars adjustable in their transverse spacing, each having at least one row of seats extending in a longitudinal direction, each for one product. The grouping device may also include at least one transverse drive for adjusting the transverse spacing, for producing a single-layer group having an even or uneven number of rows of products, and for inserting the group into an outer package. The plurality of support bars include a plurality of double-row support bars which cannot be moved relative to one another in the transverse direction, and at least two single-row support bars that are movable relative to one another in the transverse direction positioned between two of the double-row support bars.

A packaging installation that includes a grouping machine configured to form batches of products and a horizontal form-fill-seal packaging machine arranged downstream the grouping machine and being configured to receive the formed batches of products and to package them in individual packages. The grouping machine includes a receiving area to receive the products and a grouping area where the products are grouped into batches, and, for transporting products to the grouping area. The grouping machine includes a first product path and a second product path, different from the first product path, extending from the product receiving area to the grouping area. According to one embodiment, the grouping machine is configured to cause the products arriving at the grouping area from the first product path and from the second product path to have different orientations.

A packaging installation that includes a grouping machine configured to form batches of products and a horizontal form-fill-seal packaging machine arranged downstream the grouping machine and being configured to receive the formed batches of products and to package them in individual packages. The grouping machine includes a receiving area to receive the products and a grouping area where the products are grouped into batches, and, for transporting products to the grouping area. The grouping machine includes a first product path and a second product path, different from the first product path, extending from the product receiving area to the grouping area. According to one embodiment, the grouping machine is configured to cause the products arriving at the grouping area from the first product path and from the second product path to have different orientations.