Patent application number | Description | Published |
20110093299 | SYSTEMS AND METHODS FOR ADMINISTERING COMPREHENSIVE PROTECTION PLANS - Systems, methods means and computer program code for administering comprehensive protection plans are provided which include a computer system to process an insurance claim, the system having a first policy database storing policy data associated with a first type of insurance, a second policy database storing policy data associated with a second type of insurance, a requestor device and a claims processing system for receiving an insurance claim associated with a customer, determining that the claim involves a single loss event and more than one type of property damage, retrieving from the first policy database, information associated with a first policy of the customer and at least a second policy of the customer, the information including a first deductible associated with the first policy and a second deductible associated with the second policy, determining which of the first and second deductible to apply to the claim, and updating the first and second policy databases based on the determined deductible. | 04-21-2011 |
20120330691 | SYSTEMS AND METHODS FOR ADMINISTERING COMPREHENSIVE PROTECTION PLANS - Systems, methods means and computer program code for administering comprehensive protection plans are provided which include a computer system to process an insurance claim, the system having a first policy database storing policy data associated with a first type of insurance, a second policy database storing policy data associated with a second type of insurance, a requestor device and a claims processing system for receiving an insurance claim associated with a customer, determining that the claim involves a single loss event and more than one type of property damage, retrieving from the first policy database, information associated with a first policy of the customer and at least a second policy of the customer, the information including a first deductible associated with the first policy and a second deductible associated with the second policy, determining which of the first and second deductible to apply to the claim, and updating the first and second policy databases based on the determined deductible. | 12-27-2012 |
20140188524 | System And Method For Generating Insurance Coverage Packages - Systems, methods means and computer program code for administering comprehensive protection plans are provided which include a computer system to process an insurance claim, the system having a first policy database storing policy data associated with a first type of insurance, a second policy database storing policy data associated with a second type of insurance, a requestor device and a claims processing system for receiving an insurance claim associated with a customer, determining that the claim involves a single loss event and more than one type of property damage, retrieving from the first policy database, information associated with a first policy of the customer and at least a second policy of the customer, the information including a first deductible associated with the first policy and a second deductible associated with the second policy, determining which of the first and second deductible to apply to the claim, and updating the first and second policy databases based on the determined deductible. | 07-03-2014 |
Patent application number | Description | Published |
20110124028 | AUTOMATED MICROBIAL DETECTION APPARATUS - A method and automated apparatus for rapid non-invasive detection of a microbial agent in a test sample is described herein. The apparatus may include one or more means for automated loading, automated transfer and/or automated unloading of a specimen container. The apparatus also includes a detection system for receiving a detection container, e.g., container or vial, containing a biological sample and culture media. The detection system may also include one or more heated sources, holding structures or racks, and/or a detection unit for monitoring and/or interrogating the specimen container to detect whether the container is positive for the presence of a microbial agent therein. In other embodiment, the automated instrument may include one or more, bar code readers, scanners, cameras, and/or weighing stations to aid in scanning, reading, imaging and weighing of specimen containers within the system. | 05-26-2011 |
20110124029 | AUTOMATED LOADING MECHANISM FOR MICROBIAL DETECTION APPARATUS - The present invention is directed to a method and automated loading mechanism for loading an apparatus. The apparatus of the present invention may include a means for automated loading, a means for automated transfer and/or a means for automated unloading of a container (e.g., a specimen container). In one embodiment, the apparatus can be an automated detection apparatus for rapid non-invasive detection of a microbial agent in a test sample. The detection system also including a heated enclosure, a holding means or rack, and/or a detection unit for monitoring and/or interrogating the specimen container to detect whether the container is positive for the presence of a microbial agent. In other embodiment, the automated instrument may include one or more, bar code readers, scanners, cameras, and/or weighing stations to aid in scanning, reading, imaging and weighing of specimen containers within the system | 05-26-2011 |
20110124030 | AUTOMATED LOADING MECHANISM FOR MICROBIAL DETECTION APPARATUS - The present invention is directed to a method and automated loading mechanism for loading an apparatus. The apparatus of the present invention may include a means for automated loading, a means for automated transfer and/or a means for automated unloading of a container (e.g., a specimen container). In one embodiment, the apparatus can be an automated detection apparatus for rapid non-invasive detection of a microbial agent in a test sample. The detection system also including a heated enclosure, a holding means or rack, and/or a detection unit for monitoring and/or interrogating the specimen container to detect whether the container is positive for the presence of a microbial agent. In other embodiment, the automated instrument may include one or more, bar code readers, scanners, cameras, and/or weighing stations to aid in scanning, reading, imaging and weighing of specimen containers within the system. | 05-26-2011 |
20110124096 | AUTOMATED CONTAINER MANAGEMENT DEVICE FOR MICROBIAL DETECTION APPARATUS - The present invention is directed to a method and container locator means for moving a container among one or more work-flow stations within an apparatus. The apparatus of the present invention may include a means for automated loading, a means for automated transfer and/or a means for automated unloading of a container (e.g., a specimen container). In one embodiment, the apparatus can be an automated detection apparatus for rapid non-invasive detection of a microbial agent in a test sample. The detection system also including a heated enclosure, a holding means or rack, and/or a detection unit for monitoring and/or interrogating the specimen container to detect whether the container is positive for the presence of a microbial agent. In other embodiment, the automated instrument may include one or more, bar code readers, scanners, cameras, and/or weighing stations to aid in scanning, reading, imaging and weighing of specimen containers within the system. | 05-26-2011 |
20110125314 | METHOD FOR AUTOMATED UNLOADING OF A MICROBIAL DETECTION APPARATUS - The present invention is directed to a method and automated unloading means for unloading a container from an apparatus. The apparatus of the present invention may include a means for automated loading, a means for automated transfer and/or a means for automated unloading of a container (e.g., a specimen container). In one embodiment, the apparatus can be an automated detection apparatus for rapid non-invasive detection of a microbial agent in a test sample. The detection system also including a heated enclosure, a holding means or rack, and/or a detection unit for monitoring and/or interrogating the specimen container to detect whether the container is positive for the presence of a microbial agent. In other embodiment, the automated instrument may include one or more, bar code readers, scanners, cameras, and/or weighing stations to aid in scanning, reading, imaging and weighing of specimen containers within the system. | 05-26-2011 |
20140120605 | METHODS OF FABRICATING TEST SAMPLE CONTAINERS BY APPLYING BARRIER COATINGS AFTER SEALED CONTAINER STERILIZATION - Methods of fabricating a culture container include molding a single monolithic layer of polymeric material into a container body having a container shape; introducing a colorimetric sensor material and growth media into the container body; introducing a gas mixture into the container body to define a headspace gas in an upper portion of the container body; attaching a stopper to the neck of the container body with the sensor material; sealing the container body with the stopper closed to define a sealed container with the growth media and the headspace gas enclosed therein; then sterilizing the sealed container; then applying a gas barrier coating to an exterior of the sterilized container body so that the sealed container has an oxygen transmission rate (cubic centimeter/container/day/atm) that is between about 0.001 to about 0.01 to thereby define a culture container that is ready-to-use and shelf stable without autoclaving. | 05-01-2014 |
20140234950 | CULTURE CONTAINERS WITH INTERNAL TOP COATING OVER GAS BARRIER COATING AND ASSOCIATED METHODS - A container for culturing a test sample includes a molded monolithic single layer polymeric container body having an upwardly extending, visually transmissive wall with an inner surface and a wall thickness that is between about 0.2 mm and 10 mm. The container also has a thin gas barrier coating comprising silica on the inner surface of the sealed container body and an internal top coating on the gas barrier coating. The gas barrier and top coating are visually transmissive (after curing). The container includes a cap sealably attached to the container body. The sealed container has an oxygen transmission rate (OTR) after autoclaving and aging that is between about 0.0001 to about 0.04 (cc/package/day/atm). | 08-21-2014 |