An apparatus is provided for separating bulk material, in particular in the form of packages, from a bulk material container. The apparatus has a first belt conveyor for conveying the bulk material from a bulk material container, and a downstream second belt conveyor, oriented at an angle about a vertical axis, relative to the conveying direction of the first belt conveyor, for conveying away the bulk material. The first belt conveyor has a plurality of separately actuatable discharging conveyor belts arranged parallel to one another. The apparatus has an electronic control device which is configured to drive the discharging conveyor belts in each case intermittently such that units of the bulk material are each transferred to the second belt conveyor at discrete time intervals and/or distances.

An apparatus is provided for separating bulk material, in particular in the form of packages, from a bulk material container. The apparatus has a first belt conveyor for conveying the bulk material from a bulk material container, and a downstream second belt conveyor, oriented at an angle about a vertical axis, relative to the conveying direction of the first belt conveyor, for conveying away the bulk material. The first belt conveyor has a plurality of separately actuatable discharging conveyor belts arranged parallel to one another. The apparatus has an electronic control device which is configured to drive the discharging conveyor belts in each case intermittently such that units of the bulk material are each transferred to the second belt conveyor at discrete time intervals and/or distances.

Facility for sorting items comprising: at least one conveyor comprising supports designed to support the items, and at least one receiving device, the supports being designed to eject at least some of the items in succession into or onto the receiving device, the ejected items describing true paths (Tr) with respect to the receiving device, the true paths being liable to belong to a predefined set (Tr-Out) of potential paths considered as being incorrect. The facility further comprises: a detector designed to supply primary information relating respectively to true paths, and an analyzer designed to use the said primary information and to produce at least one secondary information item representative of the belonging of at least one of the true paths to the predefined set (Tr-Out).

Facility for sorting items comprising: at least one conveyor comprising supports designed to support the items, and at least one receiving device, the supports being designed to eject at least some of the items in succession into or onto the receiving device, the ejected items describing true paths (Tr) with respect to the receiving device, the true paths being liable to belong to a predefined set (Tr-Out) of potential paths considered as being incorrect. The facility further comprises: a detector designed to supply primary information relating respectively to true paths, and an analyzer designed to use the said primary information and to produce at least one secondary information item representative of the belonging of at least one of the true paths to the predefined set (Tr-Out).

An automated system and method for washing bins. The system includes an infeed conveyor zone having a first conveyor platform for transporting the bins in a conveying direction. The system also includes a bin rotator disposed next to the infeed conveyor zone and rotates upward to allow the bins to be flipped and then loaded onto the first conveyor platform. The system further includes a bin washer zone located downstream from the infeed conveyor zone and having a second conveyor platform for receiving and transporting the bins in the conveying direction. The bin washer zone has sprayers for washing and sanitizing the bins with pressurized liquid. A flipping zone is located downstream from the bin washer zone for allowing the bins to be flipped and transferred onto an outfeed zone that allows the bins to be transported into a loading position at the end of the outfeed zone for reuse.

A suction failure recovering process of a component mounting method includes: executing an imaging process in which an image of a pitch-fed pocket of a carrier tape is obtained; executing a pocket position detection process in which a pocket position is detected; and executing a positional displacement determination process in which it is determined whether the detected pocket position falls into a permissible range or not. When it is determined that the pocket position does not fall into the permissible range, the imaging process, the pocket position detection process and the positional displacement determination process are executed sequentially and repeatedly until the pocket position falls into the permissible range. When it is determined that the pocket position falls into the permissible range, a suction position is corrected based on the pocket position at a time point at which the pocket position falls into the permissible range.

A pharmaceutical filling system for a high volume pharmacy is described. The system can include a manual pick/pack device and method. The system may include a rotation assembly, a left door and a right door, both positioned below the rotation assembly, a left divider positioned below the left door, and a right divider positioned below the right door, and a left gathering table positioned below the left divider, and a right gathering table positioned below the right divider. The system may also include a control device in electronic communication with the rotation assembly, the doors and the dividers for control of same.

A pharmaceutical filling system for a high volume pharmacy is described. The system can include a manual pick/pack device and method. The system may include a rotation assembly, a left door and a right door, both positioned below the rotation assembly, a left divider positioned below the left door, and a right divider positioned below the right door, and a left gathering table positioned below the left divider, and a right gathering table positioned below the right divider. The system may also include a control device in electronic communication with the rotation assembly, the doors and the dividers for control of same.

A pharmaceutical filling system for a high volume pharmacy is described. The system can include a manual pick/pack device and method. The system may include a rotation assembly, a left door and a right door, both positioned below the rotation assembly, a left divider positioned below the left door, and a right divider positioned below the right door, and a left gathering table positioned below the left divider, and a right gathering table positioned below the right divider. The system may also include a control device in electronic communication with the rotation assembly, the doors and the dividers for control of same.

A pharmaceutical filling system for a high volume pharmacy is described. The system can include a manual pick/pack device and method. The system may include a rotation assembly, a left door and a right door, both positioned below the rotation assembly, a left divider positioned below the left door, and a right divider positioned below the right door, and a left gathering table positioned below the left divider, and a right gathering table positioned below the right divider. The system may also include a control device in electronic communication with the rotation assembly, the doors and the dividers for control of same.