Provided is a tablet guiding path adjusting apparatus that adjusts a tablet guiding path adjusting mechanism in the tablet cassette, comprising a rotor rotatably equipped within a cassette body and having a tablet guiding path for receiving at least one of tablets received within the cassette body and guiding to a discharging orifice of the cassette body; a partition member for entering the tablet guiding path and being located between a tablet at the lowest part and a tablet at the upper side thereof; and tablet guiding paths adjusting mechanisms configured to adjust at least either dimension of the depth and width of the tablet guiding path to the rotor; wherein the tablet guiding path adjusting apparatus engages with engaging parts of the tablet guiding path adjusting mechanisms to operate the tablet guiding path adjusting mechanism, and adjusts a dimension of the tablet guiding path in accordance with the shape or size of tablets received within the cassette body.

An apparatus that conveys pellet-shaped articles may include a hopper that receives a quantity of the pellet-shaped articles. The hopper may include one or more openings to direct a flow of air into the hopper to dislodge jamming or bridging of pellet-shaped articles within the hopper.

Drug packets may be dispensed as a belt of drug packets. Machine-readable identifiers in the belt may be automatically read to identify drug packets and associate the drug packets with the received orders. The drug packets may be automatically inspected to confirm contents of the drug packets against the received orders. The belt may be automatically separated into segments of drug packets. Each of the segments may correspond to a supply period and each of the drug packets within each of the segments may correspond to a drug dose event for the multi-drug regimen within the supply period. The segments of the belt may be automatically accumulated into belt rolls such that, for each of the belt rolls, a first segment end is on an interior of the belt roll and a second segment end is on an exterior of the belt roll.

The present invention relates to a device for de-stacking and spreading out medication packaged in pouches (2), which pouches are arranged successively in a ribbon-like medication roll (101), comprising a transport track (102) configured to transport the unrolled pouches of the medication roll, wherein the transport track comprises a section over which the pouches are displaceable and wherein the underside of at least one pouch lies against an upper side of the section during operation, and the section comprises means for de-stacking and spreading out the medication in a pouch lying on the section during operation, wherein the device is configured to co-act with means for supplying or discharging the medication roll over the transport track.

An automated warehouse system and method for climate controlled storage and order fulfilment comprises a control system, an automated storage and retrieval system (“ASRS”) with a storage rack defining storage locations for storage receptacles for containing goods, where either at least some of the storage receptacles are individually temperature controllable or the storage rack is at least partially disposed in a frozen environment. A transportation system is coupled with the ASRS for transporting storage receptacles to and from the automated storage and retrieval system, and a workstation is in communication with the transportation system for picking goods to a temperature-controlled order receptacle. The control system directs order fulfilment operations comprising directing goods requiring stable temperature control from the ASRS to the workstation and directs an operator to pick the goods from the storage receptacle to the temperature-controlled order receptacle to maintain the goods within a required temperature range.

The invention is for the purpose of launching and feeding capsules in a hydraulic pipeline based on the principle of a hydraulic jet. The jet nozzle in the body of the launcher creates a low pressure zone in the launcher in which capsules can be fed from a chute or a hopper at atmospheric pressure through a vertical indexing rotor without backflow of water into the hopper, chute or conveyor. The vertical indexing rotor is operated by a Geneva wheel system connected to a geared motor, or a servomotor controlled by a computer. The water pressure for the pipeline is provided by an external pump. The capsules are supplied by a dry conveyor, a hopper and a chute at the top of the launcher.

A medicine feeder includes: an outer rotary body on the outer side to be rotated about a vertical line; an inner inclined rotary body on the inner side to be rotated about an inclined line; and a sorting mechanism and a regulating mechanism operable to align solid medicine pieces carried from the top of the inner inclined rotary body onto an annular upper end surface of the outer rotary body through rotation of the inner inclined rotary body. An upper surface inclined portion of the inner inclined rotary body includes delivery portions sloping downward toward the outer side even at an elevated position and push-up portions not sloping downward toward the outer side, the delivery portions and the push-up portions being formed alternately in the circumferential direction. The push-up portions include projecting portions. The projecting portions are extended to the inner peripheral side of the delivery portions.

A rotor (4) is received rotatably in a cassette body (3) for receiving tablets. The rotor comprises a tablet guiding path (4b) formed between a slanted inner face (6a) of the cassette body and a slanted outer face (22a) of the rotor for guiding the tablets received in the cassette body to a tablet discharging hole (7) disposed to the cassette body. The rotor comprises a separating member (8) disposed above the tablet discharging hole of the cassette body for separating a space between a tablet at a bottom position and a tablet at an upper position, a tablet supporting pedestal (53) disposed elevatably to the tablet guiding path for supporting the tablet at the bottom position in the tablet guiding path and a height adjustment mechanism (50) for adjusting a tablet discharging height between the tablet supporting pedestal and the separating member. The height adjustment mechanism makes the tablet supporting pedestal elevate to a direction inclined to a rotation shaft of the rotor along the tablet guiding path.

The invention relates to a tablet portioning device comprising multiple tablet containers, a collection device arranged below the tablet container and having a dispensing device, and a packaging device for packing the tablet portions in portions, wherein the collection device receives tablets from the tablet containers and dispenses them as tablet portions via the dispensing device, wherein a conveying device having multiple conveying trays and extending in a conveying direction connects the dispensing device with the packaging device, wherein the dispensing device dispenses a respective tablet portion in one of the conveying trays and the conveying device transports the tablet portions to the packaging device, wherein the conveying device has a dispensing unit via which the tablet portions are transferred to the packaging device in portions.

A method for transferring medical products comprises the steps of conveying medical products on an oscillating conveyor having a plurality of conveying lanes arranged next to each other to a delivery area of the conveyor lanes and from the delivery area into at least one shaft; detecting a defective product in one of the conveying lanes; and activating a diverter device for defective products, which is arranged adjacent to the delivery area of this conveying lane, when a defective product is detected, wherein the diverter device, upon activation, is shifted or pivoted into an activated position, in which the diverter device is located in a transport path of the defective product.