Embodiments of the invention provide systems and methods for monitoring and removing contaminants from a conveyor surface based upon predicted frictional engagement qualities detected on a conveyor surface. In some examples, the methods may include monitoring the conveyor surface with at least one sensor configured to sense a condition on the conveyor surface. The sensor may detect the presence of a contaminant, and communicate the location of the detected contaminant to a processor. A treatment cycle may then be initiated to remove or displace the contaminant from the conveyor surface after the presence of a contaminant has been detected.

Embodiments of the invention provide systems and methods for monitoring and removing contaminants from a conveyor surface based upon predicted frictional engagement qualities detected on a conveyor surface. In some examples, the methods may include monitoring the conveyor surface with at least one sensor configured to sense a condition on the conveyor surface. The sensor may detect the presence of a contaminant, and communicate the location of the detected contaminant to a processor. A treatment cycle may then be initiated to remove or displace the contaminant from the conveyor surface after the presence of a contaminant has been detected.

The invention relates to a head-type device for continuous cleaning and sanitization in conveyor belts, mainly flat sanitary conveyor belts. The head-type device comprises a profile extruded as a single piece that defines the length of the cleaning area and comprises a W-shaped cross section, containing, longitudinally, a plurality of polymer scrapers, a pair of polymer seals being disposed on the left and right ends of said W-shaped extended profile, wherein said pair of seals is also protected and sealed by a pair of polymer caps that limit the length of the extended profile.

The invention relates to a head-type device for continuous cleaning and sanitization in conveyor belts, mainly flat sanitary conveyor belts. The head-type device comprises a profile extruded as a single piece that defines the length of the cleaning area and comprises a W-shaped cross section, containing, longitudinally, a plurality of polymer scrapers, a pair of polymer seals being disposed on the left and right ends of said W-shaped extended profile, wherein said pair of seals is also protected and sealed by a pair of polymer caps that limit the length of the extended profile.

Bead feeding unit (1) on a production machine in the tobacco industry, provided with a unit of supply channels (4) feeding individual bead (2) streams from a store (2A) to holding pockets (14) situated at the outlets of the supply channels (4), a transferring unit (13) comprising two guiding discs (5,6) situated coaxially and movable feeding means (8) adapted to direct the beads to receiving channels (18) of the transferring unit (13). The unit (1) is characterised in that the transferring unit (13) has at least one cleaning element (25) adapted to clean the holding pockets (14).

Bead feeding unit (1) on a production machine in the tobacco industry, provided with a unit of supply channels (4) feeding individual bead (2) streams from a store (2A) to holding pockets (14) situated at the outlets of the supply channels (4), a transferring unit (13) comprising two guiding discs (5,6) situated coaxially and movable feeding means (8) adapted to direct the beads to receiving channels (18) of the transferring unit (13). The unit (1) is characterised in that the transferring unit (13) has at least one cleaning element (25) adapted to clean the holding pockets (14).

A deburring apparatus includes (among other components) a frame and an elongated flat element connected to the frame. Rollers are adapted to support and rotate a vacuum belt around the apparatus. A perforation device is positioned and adapted to make perforations in the vacuum belt as the vacuum belt is rotated by the rollers. Making the perforations in the vacuum belt causes debris to remain in at least one of the perforations. The elongated flat element is positioned to contact the debris in the perforations.

The invention relates to a filling machine (1, 1′) for filling packages (2) with fluid products with a continuously circulating transport device (14) for transporting the packages (2) through the filling machine (1, 1′), comprising a plurality of cells (15) for receiving the packages (2), wherein a supply device (13) for supplying packages (2) to be filled is assigned to a supply region (16) of the transport device (14), and an output device (27) for outputting the packages (2) is assigned to an output region (28) of the transport device (14), wherein a filling region (17) is provided between the supply region (16) and the output region (28) in the transport direction (14) of the transport device (14), and a return region (29) of the respective transport device (14) is provided between the output region (28) and the supply region (16), and wherein at least one nozzle (38, 38′) for spraying the cells (15) with a cleaning fluid (40) is associated with the return region (29) of the transport device (14). According to the invention, so that the accumulation of impurities and the contamination of the filled product with microorganisms can be better prevented, a spray wall (39) is arranged on the side of the transport device (14) facing away from the at least one nozzle (38, 38′) and opposite the nozzle (38, 38′) in order to catch and discharge cleaning fluid (40) sprayed from the nozzle (38, 38′) and passing the cells (15).

A dynamic, reconfigurable, and modular cleaning device utilizes software, sensors, and modular components to provide a one-size-fits-all approach to cleaning conveyor belts. The cleaning device secures to a body or frame associated with a conveyor belt, in which an associated cleaning head cleans the conveyor belt's surface. The cleaning head has an arm that extends from its body and inserts into a corresponding opening on a connecting frame associated with the cleaning device. The cleaning head is then secured in place via a cylindrical pin that extends through aligned holes on the arm and the connecting plate. Insertion of the pin connects the components together, and removal of the pin enables a user to disconnect the cleaning head and swap a new one in its place, such as to provide a different cleaning action.

A dynamic, reconfigurable, and modular cleaning device utilizes software, sensors, and modular components to provide a one-size-fits-all approach to cleaning conveyor belts. The cleaning device secures to a body or frame associated with a conveyor belt, in which an associated cleaning head cleans the conveyor belt's surface. The cleaning head has an arm that extends from its body and inserts into a corresponding opening on a connecting frame associated with the cleaning device. The cleaning head is then secured in place via a cylindrical pin that extends through aligned holes on the arm and the connecting plate. Insertion of the pin connects the components together, and removal of the pin enables a user to disconnect the cleaning head and swap a new one in its place, such as to provide a different cleaning action.