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| 20100258405 | Ejection system - A conveyer apparatus for transporting and processing tablets includes a conveyer and an ejection system. Each of the tablets includes a first side, a second side opposite the first side, and a belly band that interconnects the first and second sides. The conveyer includes a plurality of carrier links to convey a plurality of tablets along a predetermined conveyer path. Each carrier link has a pocket to receive and transport a tablet in a vertical orientation along the predetermined conveyer path. The ejection system is structured to selectively accept or eject a tablet from the carrier link in response to a signal provided by a sensor positioned upstream of the ejection system. The ejection system includes at least one ejection finger movable between a non-ejection position in which the ejection finger is positioned out of the conveyer path of the carrier link and an ejection position in which the ejection finger is positioned with respect to the carrier link to contact and eject the tablet from the carrier link. At least a portion of the ejection finger defines a width that is smaller than a tablet width of the tablet and larger than a link width of the carrier link. | 10-14-2010 |
| 20110089001 | Method and apparatus for transporting pellet-shaped articles - A conveyer apparatus for transporting and processing pellet-shaped articles includes a conveyer and a discharge device. The conveyer includes a plurality of carrier bars to convey a plurality of articles along a predetermined conveyer path. Each carrier bar has a pocket half that cooperates with a pocket half of an adjacent carrier bar to form an article receiving pocket to receive and transport an article along the predetermined conveyer path. The discharge device is positioned with respect to the carrier bars to dislodge articles from the carrier bars. | 04-21-2011 |
| 20110297590 | INSPECTION SYSTEM - An inspection system is configured for use with a conveyer apparatus including carrier bars. Each carrier bar conveys pellet-shaped articles along a predetermined path. The inspection system includes at least one camera unit for sensing a predetermined characteristic of the pellet-shaped articles, a removal unit, and a controller. The removal unit, downstream from the at least one camera unit, removes selected pellet-shaped article(s) from the carrier bar(s) depending on whether the characteristic is sensed by the at least one camera unit. The controller is in communication with the at least one camera unit and the removal unit. The controller provides a signal to the removal unit in accordance with the sensed characteristic. The removal unit includes a rotatable ejection drum having extended vacuum nozzles along its length, equal to the number of articles conveyed in each carrier bar. Each vacuum nozzle selectively removes article(s) from the carrier bar(s) by suction. | 12-08-2011 |
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| 20080223935 | SYSTEMS, DEVICES, AND METHODS FOR READING MACHINE-READABLE CHARACTERS AND HUMAN-READABLE CHARACTERS - Systems, devices, and methods for automatic data collection. An automatic data collection system includes an image capture subsystem and a processor subsystem. The automatic data collection system is operable to decode machine-readable symbols in a machine-readable symbol reading mode, and to automatically switch from a machine-readable symbol reading mode to an optical character recognition mode in response to information encoded in a machine-readable symbol. In some embodiments, the automatic data collection system is further operable to perform optical character recognition on human-readable symbols in a human-readable symbol reading mode. | 09-18-2008 |
| 20090272812 | SYSTEMS, DEVICES, AND METHODS FOR READING MACHINE-READABLE CHARACTERS AND HUMAN-READABLE CHARACTERS - Systems, devices, and methods for automatic data collection. An automatic data collection system includes an image capture subsystem and a processor subsystem. The automatic data collection system is operable to decode machine-readable symbols in a machine-readable symbol reading mode, and to automatically switch from a machine-readable symbol reading mode to an optical character recognition mode in response to information encoded in a machine-readable symbol. In some embodiments, the automatic data collection system is further operable to perform optical character recognition on human-readable symbols in a human-readable symbol reading mode. | 11-05-2009 |
| 20100188197 | FINDING SENSOR DATA IN AN RFID NETWORK - A system and method of selectively reading sensor data from a memory device is able to search the memory device for an indicator that identifies the sensor data, and read only the sensor data identified by the indicator from the memory device. In this way, interrogating devices are able to sort through sensor data stored in a network of memory devices, such as an RFID network, and report specific data of interest despite the existence of a variety of data types in the network. In some embodiments, flags are stored and associated with specific types of data, such as various sensor data, thereby allowing numerous memory devices and sensors to operate and be read efficiently in the same environment. | 07-29-2010 |
| 20100220894 | METHOD AND APPARATUS FOR GEOMETRICAL MEASUREMENT USING AN OPTICAL DEVICE SUCH AS A BARCODE AND/OR RFID SCANNER - A system and method are described for determining the dimensions of items using an optical device, such as a barcode and/or RFID tag reader, for example. The dimensions of the field of view of the optical device are established, indexed by distance, and the dimensions of items in the field of view of the optical device are determined as a percentage of the full field of view of the optical device at the appropriate distance. | 09-02-2010 |
| 20120006096 | GAS SENSOR USING NANOTUBES - Techniques are generally described for detecting a concentration level of at least one gas. Some example devices may include a sensor including conductive plate on a surface of dielectric including a nanotube layer formed thereon. The conductive plate and the nanotube layer form a resonator that resonates at a frequency in response to an interrogation signal. The nanotube layer may be configured to associate with one or more gas molecules. The frequency at which the resonator resonates may shift according to which gas molecules are associated with the nanotube layer to identify a particular gas. An amount of resonance may be exhibited as a resonant response signal. An amplitude of the resonant response signal may be indicative of the concentration level of the detected gas. | 01-12-2012 |
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| 20090101011 | SILVER-EXCHANGED ZEOLITES AND METHODS OF MANUFACTURE THEREFOR - The present invention relates generally to zeolites having a silica/alumina ratio of less than or equal to 10 (Si/Al≦10) that are exchanged with Ag | 04-23-2009 |
| 20100095849 | SILVER-EXCHANGED ZEOLITES AND METHODS OF MANUFACTURE THEREFOR - The present invention relates generally to zeolites having a silica/alumina ratio of less than or equal to 10 (Si/Al≦10) that are exchanged with Ag | 04-22-2010 |
| 20110146487 | MODULAR COMPACT ADSORPTION BED - A modular and compact adsorbent bed structure is disclosed for use in an adsorption-based gas separation plant. The conventional adsorbent bed in a gas separation plant is replaced with a plurality of modular adsorbent bed units connected to make the adsorbent bed structure. Modular adsorbent bed units of this invention provide higher capacity of product per unit volume of adsorbent material (i.e., increased adsorbent utilization) as compared to that obtained from conventional adsorbent beds. The modular design requires lower fabrication costs; is easier to transport; has less maintenance and repair requirements; and is easier to load with adsorbent material. | 06-23-2011 |
| 20110146494 | MODULAR COMPACT ADSORPTION BED - A modular and compact adsorbent bed structure is disclosed for use in an adsorption-based gas separation plant. The conventional adsorbent bed in a gas separation plant is replaced with a plurality of modular adsorbent bed units connected to make the adsorbent bed structure. The modular design requires lower fabrication and maintenance costs; is easier to transport; and is easier to load with adsorbent material. | 06-23-2011 |
| 20110206573 | RADIAL FLOW REACTOR - A radial flow reactor is disclosed for use in gas purification, separation or reaction processes and most suitably used in prepurification processes. The reactor has two concentric internal baskets which are rigidly supported at both the top and bottom ends of the reactor. The reactor has a removable section in the inner basket to accommodate rotating arms to dense load one or more layers of active materials between the concentric baskets. | 08-25-2011 |
| 20110206581 | RADIAL FLOW REACTOR WITH MOVABLE SUPPORTS - A radial flow reactor vessel is disclosed for use in gas purification, separation or reaction processes and most suitably used in prepurification processes. The reactor has internal baskets for confining a bed of active material. The baskets are rigidly supported at both the top and bottom ends of the reactor and have walls that are axially flexible and radially rigid. The vessel has multiple movable support columns designed to facilitate pre-stressing of the baskets to offset axial compressive loads induced from thermal cycling. | 08-25-2011 |
