Patent application number | Description | Published |
20080283544 | Device for Offloading Capped Vials Useful in System and Method for Dispensing Prescriptions - An offloading unit for an automated pharmaceutical machine that dispenses filled, capped pharmaceutical vials includes: at least one chute including a receiving section and a pick-up section. The receiving section and the pick-up section are divided by an inlet. The receiving section has a concave sloping ramp and side walls. The pick-up section has a trough with a floor that slopes relative to a horizontal surface and a front wall at one end of the trough. The inlet is defined by a rear wall and the upper edge of the trough. The chute also includes dividers mounted to and rising above the trough and attached to the rear wall. The inlet and dividers are configured and positioned such that an object as defined in UL 61010A-1, 1740 cannot pass through the inlet from the trough. | 11-20-2008 |
20090140002 | Passive Device for Staging and Dispensing Objects - A passive chute assembly includes: a chute configured to receive objects to be dispensed, the chute having an outlet; and a passive dispensing unit attached to the chute outlet. The passive dispensing unit has a staging portion, wherein objects are captured prior to dispensing. The staging portion is movable between a staging position, in which objects may be captured within the staging portion, and a dispensing position, in which the objects may be fed gravimetrically into a receptacle positioned below the dispensing unit. The staging portion includes an adaptive opening that, when the staging portion moves to the dispensing position, opens adaptively corresponding to a diameter of the receptacle. | 06-04-2009 |
20110068117 | Methods and Apparatus for Dispensing Solid Articles - An apparatus for dispensing solid articles includes a dispensing channel, a housing and an article supply regulation system. The dispensing channel has an inlet and an outlet and defines a dispensing path therebetween. The housing defines a hopper chamber to hold the articles. The hopper chamber is in fluid communication with the inlet of the dispensing channel. The housing includes a floor. The article supply regulation system includes a first divider wall, a second divider wall and a third divider wall configured and positioned in the hopper chamber to define, in combination with the housing: a front region between the inlet and the first divider wall; a first rear region between the first divider wall and the second divider wall; a second rear region between the second divider wall and the third divider wall; and a third rear region on a side of the third divider wall opposite the second rear region. The first divider wall forms a front choke passage between the front region and the first rear region and between the first divider wall and the floor. The second divider wall forms a first rear choke passage between the first rear region and the second rear region and between the second divider wall and the floor. The third divider wall forms a second rear choke passage between the second rear region and the third rear region and between the third divider wall and the floor and/or a side wall of the housing. | 03-24-2011 |
20110132065 | System and Method for Calibrating an Automated Materials Handling System - A method of calibrating positions within a materials handling system, wherein the materials handling system includes multiple stations for carrying out tasks and a carrier that is movable between the multiple stations, includes the steps of: providing calibration points at a plurality of the multiple stations; moving the carrier to at least some of the calibration points; contacting the calibration points; recording the locations of the calibration points; and determining locations of key components of the stations based on the locations of the calibration points. In some embodiments, the method includes contacting the calibration points with a calibration tool, which may include: a cylindrical body; a groove in the cylindrical body sized and configured to receive jaws from the carrier; and a cylindrical upper flange positioned on an upper end of the cylindrical body. In this configuration, the tool can be gripped by the carrier and employed to perform a variety of calibration functions. | 06-09-2011 |
20110132066 | System and Method for Calibrating an Automated Materials Handling System - A method of calibrating positions within a materials handling system, wherein the materials handling system includes multiple stations for carrying out tasks and a carrier that is movable between the multiple stations, includes the steps of: providing calibration points at a plurality of the multiple stations; moving the carrier to at least some of the calibration points; contacting the calibration points; recording the locations of the calibration points; and determining locations of key components of the stations based on the locations of the calibration points. In some embodiments, the method includes contacting the calibration points with a calibration tool, which may include: a cylindrical body; a groove in the cylindrical body sized and configured to receive jaws from the carrier; and a cylindrical upper flange positioned on an upper end of the cylindrical body. In this configuration, the tool can be gripped by the carrier and employed to perform a variety of calibration functions. | 06-09-2011 |
20110290819 | DEVICE FOR OFFLOADING CAPPED VIALS USEFUL IN SYSTEM AND METHOD FOR DISPENSING PRESCRIPTIONS - An offloading unit for an automated pharmaceutical machine that dispenses filled, capped pharmaceutical vials includes: at least one chute including a receiving section and a pick-up section. The receiving section and the pick-up section are divided by an inlet. The receiving section has a concave sloping ramp and side walls. The pick-up section has a trough with a floor that slopes relative to a horizontal surface and a front wall at one end of the trough. The inlet is defined by a rear wall and the upper edge of the trough. The chute also includes dividers mounted to and rising above the trough and attached to the rear wall. The inlet and dividers are configured and positioned such that an object as defined in UL 61010A-1, 1740 cannot pass through the inlet from the trough. | 12-01-2011 |
20120061417 | Passive Device for Staging and Dispensing Objects - A passive chute assembly includes: a chute configured to receive objects to be dispensed, the chute having an outlet; and a passive dispensing unit attached to the chute outlet. The passive dispensing unit has a staging portion, wherein objects are captured prior to dispensing. The staging portion is movable between a staging position, in which objects may be captured within the staging portion, and a dispensing position, in which the objects may be fed gravimetrically into a receptacle positioned below the dispensing unit. The staging portion includes an adaptive opening that, when the staging portion moves to the dispensing position, opens adaptively corresponding to a diameter of the receptacle. | 03-15-2012 |
20130026179 | PASSIVE DEVICE FOR STAGING AND DISPENSING OBJECTS - A passive chute assembly includes: a chute configured to receive objects to be dispensed, the chute having an outlet; and a passive dispensing unit attached to the chute outlet. The passive dispensing unit has a staging portion, wherein objects are captured prior to dispensing. The staging portion is movable between a staging position, in which objects may be captured within the staging portion, and a dispensing position, in which the objects may be fed gravimetrically into a receptacle positioned below the dispensing unit. The staging portion includes an adaptive opening that, when the staging portion moves to the dispensing position, opens adaptively corresponding to a diameter of the receptacle. | 01-31-2013 |
20130081974 | Attachable Plunger Rod and Associated Packaging - A syringe assembly including a plunger rod separate and detached from a syringe barrel and a packaging member, the plunger rod having a sealing member and the packaging member having a first compartment and a second compartment is disclosed. With the syringe barrel received within the first compartment and the plunger rod received within the second compartment, the sealing member of the plunger rod seals the syringe barrel and the plunger rod within the packaging member. In this manner, the syringe assembly is placed in the packaging member in a manner that allows for reduced storage space of the syringe assembly. In one embodiment, the syringe assembly includes an engagement portion connected to the plunger rod and a stopper slidably disposed within the interior of the syringe barrel, the engagement portion operable to secure the plunger rod to the stopper. In this manner, upon removal of the plunger rod and the syringe barrel from the packaging member, the plunger rod can quickly and easily be secured to the syringe barrel via the stopper for collecting a fluid and/or delivering a fluid. | 04-04-2013 |