Patent application number | Description | Published |
20130226906 | System And Method For A Self-Configuring Question Answering System - Question Answering systems can be costly and time-consuming to configure for a particular knowledge base. The proposed Question Answering receives an initial knowledge base, receives user queries without any further configuration, and self-configures based on user feedback. In one embodiment, a method of customizing a question answering system can include searching a plurality of articles based on a user query from a user received via a computer network. The method can further include delivering a set of articles, based on the searching, to the user via the computer network. The method can additionally include receiving user feedback on the set of articles from the user via the computer network. The method can also include associating a given article from among the set of articles with the user query based on the user feedback. In this manner, the proposed question answering system saves the customer resources otherwise spent on configuration. | 08-29-2013 |
20130346886 | Method and Apparatus for Live Chat Integration - A Live Chat (LC) system, apparatus, and method combine virtual agent (VA) and LC in a manner enabling a user to receive resolution of a contact request at a reduced cost and enhancing both the user and LC operator's experience. VAs may source response content for easier or more frequent user queries, whereas VAs may transfer a user query to an LC operator whenever a user query becomes too complicated, enabling the LC to source the response content. From the user's point of view, escalation from the VA to the LC operator happens in the very same user screen view used to contact the VA, enhancing the user's experience by providing seamless escalation. Conversation history between the user and the VA or formatted data related thereto may be provided to the LC operator, expediting the LC operator's response time and reducing a number of interactions needed to resolve the user's query. | 12-26-2013 |
Patent application number | Description | Published |
20080304255 | Utility light with removable light arm - A utility light comprising a light arm having two ends, an LED mounted on one end and a conductive plug mounted on the other end; a main housing which is adapted to contain a battery power source, a conductive socket for removeably receiving the conductive plug, a power control circuit, and cause the power control circuit to receive power from the battery power source only when conductive plug is in the conductive socket, and a power switch for connecting the power source to the battery power control circuit, said power switch adapted to control said power control circuit to output each of two different power levels for providing the LED with two different levels of light output illumination, and wherein said conductive socket includes a sensing switch to detect the presence of the conductive plug in the conductive socket. | 12-11-2008 |
20130341439 | METHOD FOR BLENDING FOOD OR BEVERAGES - A method for blending food or beverages, preferably using a blender that is compact enough for home use, rugged enough to blend frozen beverages, simple to use and safe. The blender includes an upper housing, with a front housing door, that covers the moving blending machinery. The blender also includes a cupholder receiving area which allows the user to safely insert a frozen beverage cup inside a cupholder for blending. After the start button is pressed, a cupholder lip will be grasped by the clamping jaw of an elevator assembly to lift the cupholder up. As the cupholder is lifted upward, a cover will be pressed over the top opening of the inserted cup to prevent spillage during blending. The elevator assembly will then continue to lift the cupholder upward until the rotating cutter blades of a spindle assembly cut through successive layers of the frozen beverage. | 12-26-2013 |
20130341446 | COMPACT BLENDER FOR FROZEN BEVERAGES - A blender that is compact enough for home use, rugged enough to blend frozen beverages, simple to use and safe. The blender includes an upper housing, with a front housing door; that covers the moving blending machinery. The blender also includes a cupholder receiving area which allows the user to safely insert a frozen beverage cup inside a cupholder for blending. After the start button is pressed, a cupholder lip will be grasped by the clamping jaw of an elevator assembly to lift the cupholder. As the cupholder is lifted upward, a cover will be pressed over the top opening of the inserted cup to prevent spillage during blending. The elevator assembly will then continue to lift the cupholder upward until the rotating cutter blades of a spindle assembly cut through successive layers of the frozen beverage. | 12-26-2013 |
20130343150 | REMOVABLE BLENDER SPINDLE WITH CONTAINER COVER - A removable spindle for a blender that is compact enough for home use, rugged enough to blend frozen beverages, simple to use and safe. The spindle preferably includes a quick release coupling member, a rotating shaft, cup cover and rotating cutting blades. To facilitate cleaning of the spindle assembly, the quick release coupling member allows the spindle to be quickly detached from the blender. The rotating shaft is preferably housed in an outer sleeve for structural/alignment purposes and to keep the shaft free from food/beverage particles. Slidably attached to the outside of the outer sleeve and trapped between the quick release coupling member and the rotating cutting blades is a moveable cup cover. | 12-26-2013 |
20130344220 | REMOVABLE CUPHOLDER FOR COMPACT BLENDER - A cupholder for a blender that is compact enough for home use, rugged enough to blend frozen beverages, simple to use and safe. The cupholder preferably has a generally cylindrically shaped body having a bottom and open top. A cupholder upper lip is preferably formed along the upper edge of the cupholder body. The cupholder upper lip preferably has an overhanging front portion that allows a user to slide his or her fingers underneath the overhang to conveniently push the cupholder into the cupholder receiving area or pull it out. A portion of the cupholder lip preferably also has substantially straight side edges to prevent the cupholder from rotating during the blending process. On the sides of the cupholder lip are preferably two lip indentations which allow a user to easily remove a cup with food or beverage from the cupholder. | 12-26-2013 |
20130344221 | BLENDER WITH ELEVATOR ASSEMBLY AND REMOVABLE SPINDLE - A blender for home or commercial use that is rugged enough to blend frozen beverages, simple to use and safe. The blender includes an upper housing with a front housing door that covers the moving blending machinery. The blender also includes a cupholder receiving area which allows the user to safely insert a frozen food or beverage cup inside a cupholder for blending. After the start button is pressed, the cup and cupholder will be lifted together for blending in a balanced, linear motion by an elevator assembly. Dual lead screws or a dual belt drive are preferably used in the elevator assembly to achieve this balanced, linear motion. As the cupholder is lifted upward, a cover will be pressed over the top opening of the inserted cup to prevent spillage during blending. The elevator assembly continues to lift the cupholder upward until the rotating cutter blades of a spindle assembly cut through successive layers of the frozen food or beverage. To facilitate cleaning, the spindle assembly is preferably removable from the blender through use of a quick release coupling mechanism. | 12-26-2013 |
Patent application number | Description | Published |
20110309547 | DEVICE FOR MAKING A PART OF A COMPOSITE MATERIAL BY RESIN-TRANSFER MOULDING - The invention relates to a device ( | 12-22-2011 |
20130069281 | DEVICE FOR MANUFACTURING A COMPOSITE PART BY RESIN INJECTION MOULDING - A device for manufacturing a part in composite material by resin transfer moulding and method is provided according to the present disclosure. The device includes a manufacturing mould in which at least one preform is intended to be arranged of the part intended to be impregnated with resin during a resin transfer process. The mould is subdivided into a die and at least one movable structural element intended to be indexed on the die to form an assembly, the assembly forming a cavity corresponding to a shape of the part to be manufactured. The mould is associated with at least one positioning frame having a low coefficient of thermal expansion in at least one dimension, the positioning frame being designed to allow the indexing and holding in position of the at least one movable structural element, corresponding to at least one singularity, on the die. | 03-21-2013 |
20130079434 | PROCESS FOR MANUFACTURING A PART MADE OF A COMPOSITE HAVING A HOLLOW CORE - A method for manufacturing a part in composite material with a hollow core is provided that includes applying at least one adhesive layer on an open surface of the hollow core. The adhesive layer is a blocking polymerizable adhesive layer having, after polymerization, sealing properties relatively to a resin and capable of preventing its diffusion towards an inside of the hollow core. Subsequently, the blocking adhesive layer is polymerized so as to achieve sealing of the hollow core. Additionally, various parts manufactured according to the methods of the present disclosure are also provided. | 03-28-2013 |
20140197567 | COMPACTING AND INJECTION MOLD FOR A FIBER PREFORM FOR FABRICATING A TURBINE ENGINE GUIDE VANE MADE OF COMPOSITE MATERIAL - A compacting and injection mold for a fiber preform is for use in fabricating a turbine engine guide vane out of composite material. The mold includes a shell forming a trough that is to receive the fiber preform and that is closed in leaktight manner by bottom and top covers, compacting blocks arranged inside the trough each having a surface pressing normally against a surface of the fiber preform that is to be compacted, and closure blocks arranged inside the trough. Each closure block has a surface pressing normally against a surface of a compacting block and does not have a surface in contact with the fiber preform. | 07-17-2014 |