Patent application number | Description | Published |
20100300341 | SEED METERING DEVICE AND SEED DISK FOR AGRICULTURAL SEEDER - A seed metering device for agricultural seeders has a meter housing, a seed disk covering an open side of the meter housing, and a brush assembly mounted within the meter housing and contacting the seed disk. The meter housing has a seed delivery opening for delivering a supply of seed into a seed pool area, an air inlet provided above the seed pool area for receiving a supply of positive pressure air into the meter housing, and a seed exit area where seed can be dropped into a seed tube. The seed disk has seed pockets spaced around its outer circumference that pass through the seed pool and pick up individual seeds as the seed disk rotates. The device includes several features that help singulate and drop seeds in a way that provides a desired number of seeds per acre and a uniform spacing between the seeds in the furrow. | 12-02-2010 |
20100300342 | SEED METERING DEVICE FOR AGRICULTURAL SEEDER - A seed metering device for agricultural seeders has a meter housing, a seed disk covering an open side of the meter housing, and a brush assembly mounted within the meter housing and contacting the seed disk. The meter housing has a seed delivery opening for delivering a supply of seed into a seed pool area, an air inlet provided above the seed pool area for receiving a supply of positive pressure air into the meter housing, and a seed exit area where seed can be dropped into a seed tube. The seed disk has seed pockets spaced around its outer circumference that pass through the seed pool and pick up individual seeds as the seed disk rotates. The device includes several features that help singulate and drop seeds in a way that provides a desired number of seeds per acre and a uniform spacing between the seeds in the furrow. | 12-02-2010 |
20100313801 | AIR-ASSISTED PLANTING SYSTEM HAVING A SINGLE FAN WITH PRESSURE-RESPONSIVE SPLITTING OF AIR STREAMS FOR CONVEYING AND METERING FUNCTIONS - To produce, monitor, and control a flow of air for a seed conveying system and a seed metering system, an air-assisted planting system includes an air handling system having a single air source and an air controller for maintaining a generally constant air pressure to the metering system. The air controller includes a plurality of sensors associated with and operable to monitor an air pressure through the metering system. Based on a sensed air pressure, a microprocessor of the air controller instructs the air handling system to selectively divert the flow of air to the metering system on an as-needed basis to maintain the generally constant air pressure. | 12-16-2010 |
Patent application number | Description | Published |
20110106559 | OPTIMIZATION OF A CLINICAL EXPERIENCE - Systems, methods, and computer-readable media for optimizing a clinical experience are provided. Individuals may be approved by a patient to receive notifications of clinical events. The notifications may be accessed from the patient's electronic health record. In embodiments, a location of a clinician associated with a patient and a location of the patient are received. A determination whether the clinician is near the patient is made. Upon determining that the clinician is near the patient, a notification is sent to a non-present party (e.g., a family member) via a mobile device. Such notifications include individuals in the clinical process and avoid missed opportunities for interactions with clinicians. | 05-05-2011 |
20110106560 | PROVIDING CLINICAL INFORMATION TO CLINICIANS - Systems, methods, and computer-readable media for providing clinical information to clinicians are provided. In embodiments, a patient's electronic health record is accessed to identify that a first clinician has requested a consult with a second clinician. Each clinician is associated with a clinician identifier that is identified by a plurality of sensors. A location for both the first and second clinician is received from the plurality of sensors. A determination is made whether the first and second clinicians are near one another. Upon determining that the first and second clinicians are near one another, a notification is presented to the first clinician. Such tracking of clinician location helps avoid missed opportunities and provides efficient communication among clinicians. | 05-05-2011 |
20110106561 | LOCATION-BASED MANAGEMENT OF HEALTHCARE ENVIRONMENTS - Systems, methods, and computer-readable media for managing healthcare environments are provided. In embodiments, a real-time status of a clinical device, along with a location, is received. The location of the clinical device is obtained via a clinical device identifier that is tracked by a plurality of sensors in a healthcare environment. A clinical device may be identified as inappropriate for use and an alert presented to a clinician including the problem of the clinical device and the location thereof. A replacement clinical device may be located, using clinical identifiers, and presented to the clinician. Such monitoring and location awareness facilitates efficient responses to healthcare situations. | 05-05-2011 |
20110106565 | Proximity-Based Task Lists - Systems, methods, and computer-readable media for providing proximity-based task lists to clinicians are provided. In embodiments, a task is identified as well as a clinician that is near a location associated with the task. In addition to identifying clinicians that are near the location associated with the task, clinicians authorized to complete the task and available to complete the task are identified. If all criteria are met, a clinician may be assigned to the task and notified of the task. Additionally, a task may be reassigned to a different clinician should any of the criteria fail to be satisfied at any point. | 05-05-2011 |
20120173137 | Optimal Route Solution - Methods, systems, and computer storage media are provided for identifying an optimal route to a destination for a user. The optimal route is customized for the user based on one or more route factors. The route factors may include a physical limitation of the user or a restricted area of a healthcare environment. The route factors may also include obstacles within the route or user preferences. An optimal route is identified as such when no route factors conflict with the optimal route. | 07-05-2012 |
20120173276 | Optimizing Workflows - Methods, systems, and computer storage media are provided for optimizing workflows by monitoring a healthcare environment. Data may be compiled from various sources to monitor interactions within the healthcare environment. Both interactions with individuals and interactions with a healthcare system may be monitored. Each of location data, clinical data, and system data, among others, may be combined to monitor the healthcare environment. By combining the data from various sources, a user is able to get a complete picture of the healthcare environment. | 07-05-2012 |
20130110535 | PROVIDING CLINICAL INFORMATION TO CLINICIANS | 05-02-2013 |
20140114681 | LOCATION-BASED MANAGEMENT OF HEALTHCARE ENVIRONMENTS - Systems, methods, and computer-readable media for managing healthcare environments are provided. In embodiments, a real-time status of a clinical device, along with a location, is received. The location of the clinical device is obtained via a clinical device identifier that is tracked by a plurality of sensors in a healthcare environment. A clinical device may be identified as inappropriate for use and an alert presented to a clinician including the problem of the clinical device and the location thereof. A replacement clinical device may be located, using clinical identifiers, and presented to the clinician. Such monitoring and location awareness facilitates efficient responses to healthcare situations. | 04-24-2014 |
20140114688 | LOCATION-BASED MANAGEMENT OF HEALTHCARE ENVIRONMENTS - Systems, methods, and computer-readable media for managing healthcare environments are provided. In embodiments, a real-time status of a clinical device, along with a location, is received. The location of the clinical device is obtained via a clinical device identifier that is tracked by a plurality of sensors in a healthcare environment. A clinical device may be identified as inappropriate for use and an alert presented to a clinician including the problem of the clinical device and the location thereof. A replacement clinical device may be located, using clinical identifiers, and presented to the clinician. Such monitoring and location awareness facilitates efficient responses to healthcare situations. | 04-24-2014 |
Patent application number | Description | Published |
20120217406 | GAS-FILLED NEUTRON DETECTORS HAVING IMPROVED DETECTION EFFICIENCY - Surfaces or surface portions incorporated into gas-filled neutron detectors are coated with and/or composed of at least partially, neutron reactive material. The surfaces may be flat or curved fins or plates, foils, porous or filamentary material, or semi-solid material or aerogel. The incorporation of the extended surfaces coated with or composed of neutron reactive material increases the neutron detection efficiency of the gas-filled detectors over conventional coated designs. These surfaces or surface portions increase the amount of neutron reactive material present in the detector over conventional coated designs and, as a result, increase the neutron detection efficiency. The surfaces can be made of conductive, semiconductive or insulative materials. The surfaces are arranged such that they do not detrimentally detract from the main function of a gas-filled detector with particular attention to gas-filled proportional detectors. | 08-30-2012 |
20130228696 | GAS-FILLED NEUTRON DETECTORS AND IMAGING SYSTEM AND ARRAY OF SUCH DETECTORS - Gas-filled neutron detectors, an imaging system and an array of such detectors are provided. Surfaces or surface portions incorporated into the gas-filled neutron detectors are coated with and/or composed of at least partially, neutron reactive material. The surfaces may be flat or curved, fins or plates, foils, thin sheets, porous or filamentary material, or semi-solid material or aerogel. The incorporation of the extended surfaces coated with or composed of neutron reactive material increases the neutron detection efficiency of the gas-filled detectors. The surfaces can be made of conductive, semiconductive, semi-insulating, or insulative materials. The surfaces are arranged such that they do not detrimentally detract from the main function of a gas-filled detector with particular attention to gas-filled proportional detectors. The surfaces may be arranged in the detectors to allow for modular construction. The surfaces are designed and arranged such that more than a single reaction product may escape the surface. | 09-05-2013 |
Patent application number | Description | Published |
20090165562 | MECHANISM FOR ADAPTIVE CONTOUR COMPLIANCE - An apparatus for inspecting samples that may include a curvature that varies from sample to sample comprises a scanning element, a feed mechanism, and a pivot mechanism. The scanning element transmits and receives a signal to and from the sample as the sample passes by, thereby building an image or profile of the sample. The feed mechanism includes a drive motor coupled to a series of pulleys and belts that form an open-ended chain. The pulleys rotate when driven by the drive motor and are coupled to an array of rollers that rotate as well to propel a inspection sample past the scanning element. The pivot mechanism includes a series of primary and secondary links that also form an open-ended chain. The primary links are coupled to the rollers and the combination pivots in unison to form an arc that matches the curvature of the sample in order to maintain a fixed distance between the sample and the scanning element. | 07-02-2009 |
20120312471 | MODULAR HEAD AUTOMATED FABRIC LAMINATING APPARATUS - An apparatus for laminating a fabric material to a part broadly comprises a cutting element, a heating system, a vertical pressure unit, and a compaction roller assembly. The cutting element may cut scrap material from the sides of the fabric material. The heating system may heat the fabric material after the material exits the vacuum conveyor assembly. The vertical pressure unit may apply a downward force on the compaction roller assembly, which may receive the fabric material and press the fabric material against a surface of the part. The compaction roller assembly may include a roller operable to have a variable curvature along its longitudinal axis and an actuating device operable to apply a variable torque to opposing ends of the roller to vary the curvature of the roller. | 12-13-2012 |
20140130617 | SELF ADJUSTING CORNER SCANNER - An apparatus for inspecting a curved portion of a manufactured part comprises a frame, a sensor, a plunger, and a linking mechanism. The frame may include a first contact wall and an opposing second contact wall. Each contact wall may contact a planar portion of the part adjacent to the curved portion and may be oriented at an angle corresponding to an angle of the planar portions of the part adjacent to the curved portion. The sensor may transmit at least one signal to and receive at least one signal from the part. The plunger may contact the surface of the part and move as a radius of curvature of the part changes. The linking mechanism may couple to the plunger and may adjust the height of the sensor above a surface of the part in response to motion of the plunger. | 05-15-2014 |
20140135983 | NONDESTRUCTIVE INSPECTION SYSTEM CONTROLLER WITH DYNAMIC POSITION CORRECTION - A controller for use with a nondestructive inspection system communicates with the nondestructive inspection system and with a robot for moving an inspection probe of the nondestructive inspection system relative to an object under inspection. The controller is configured to periodically generate estimated position information of the probe moving relative to the object under inspection and communicate the estimated position information to the nondestructive inspection system as the nondestructive inspection system collects inspection data from the probe. The controller receives actual position information from the robot, the actual position information indicating an actual position of the probe, and corrects the estimated position information based on the actual position information. | 05-15-2014 |