Patent application number | Description | Published |
20130000741 | FLUID LEVEL SENSOR - In at least some implementations, a fluid level sensor for sensing the level of a fluid within a tank includes a fluid tube through which fluid flows under pressure, a pressure pulse inducer, a fluid level responsive member and a pressure sensor. The pressure pulse inducer is disposed within the fluid tube so that at least some of the fluid flowing through the fluid tube engages the pressure pulse inducer. The fluid level responsive member is operably associated with the pressure pulse inducer to provide a force on the pressure pulse inducer that varies as a function of the fluid level in the tank. And the pressure sensor at senses the pressure of the fluid flowing through the tube, where the pressure pulse inducer induces changes in the pressure of the fluid as a function of the fluid level and the changes in pressure are sensed by the pressure sensor. | 01-03-2013 |
20130000743 | SCR FLUID DISTRIBUTION AND CIRCULATION SYSTEM - A selective catalytic reduction system includes a fluid distribution system for supplying an exhaust gas reducing agent. The system includes a liquid storage tank and a fluid distribution module with a fluid pump that draws liquid reducing agent from the tank volume and provides the liquid at a module outlet port, while simultaneously discharging excess liquid from a circulation line outlet within the tank volume. The circulation line outlet can be located at a bottom portion of the tank volume near other distribution module components to promote liquid circulation around the module components during a fluid distribution period, to promote thawing of frozen reducing agent at and around the module components, and to ensure a continuous supply of liquid to the fluid pump. The distribution module is also capable of purging liquid from fluid lines located outside the storage tank and returning the purged liquid to the tank volume. | 01-03-2013 |
20130000760 | FLUID DISTRIBUTION SYSTEM AND COMPONENTS THEREOF - A fluid distribution system of a selective catalytic reduction (SCR) system may include a storage tank and a fluid distribution module disposed at least partially within the storage tank. The distribution module includes a pump assembly comprising a fluid pump having a pump inlet configured to receive liquid from an inner volume of the tank, and a pump outlet fluidly connected to a module outlet port. The distribution module further includes a fluid discharge jet fluidly connected to the pump outlet and operable to discharge liquid from the pump outlet and into the tank volume. In an exemplary embodiment, the distribution module still further includes a valve disposed between the pump outlet and the discharge jet operable to selectively allow liquid fluid flow from the pump outlet to the discharge jet when one or more predetermined criteria are met. | 01-03-2013 |
20130037116 | FLUID DISTRIBUTION SYSTEM WITH FILTRATION - A fluid distribution system may include a by-pass fluid filter that combines high volume, in-tank fluid filtration with low volume fluid delivery to an external device such as an SCR injector. One or more outlet ports located along the fluid filter housing can be configured to discharge fluid toward other fluid distribution system components. In systems such as SCR systems, where the liquid reducing agent may freeze when not in use, directing already thawed liquid toward other system components can help thaw the frozen reducing agent at desired locations first. The fluid distribution system can also be arranged so that flow through the filter is in the same direction during the distribution cycle and during the purge cycle. | 02-14-2013 |
20130256161 | THRESHOLD CONDITION INDICATION IN VEHICLE FUEL SYSTEM - A fuel system component may include a body arranged for use in storing or moving fuel within the fuel system, and an indicator associated with the body to provide an indication when the body is subjected to a condition outside of a threshold. The indicator may be responsive to one or more environmental or system conditions outside of a threshold. For example without limitation, the indicator may be responsive to one or more of temperature, pressure, corrosion and electrical conditions to provide an indication when at least one condition exceeds a threshold for that condition. | 10-03-2013 |
Patent application number | Description | Published |
20120186107 | INJECTION MOLDED SHOE FRAME AND METHOD - Multiple shoe types are made from a plurality of generic molded base frames including a midsole and at least one upper portion integrally molded together. A first set of upper components is provided for forming a first shoe type secured to a first portion of the base frames and a second set of upper components is provided for forming a second shoe type secured to a second portion of the base frames. The upper portion that is integrally molded with the midsole may be a forefoot panel or a quarter. The various types formed from the generic frame include sneakers, backless shoes, slip-ons, skate shoes and boots. The generic unitary molded frame construction substantially reduces the cost of manufacture. | 07-26-2012 |
20130255048 | NATURAL WOOL PILE FABRIC AND METHOD FOR MAKING WOOL PILE FABRIC - A method of making a sheared wool, deep pile fabric that closely resembles natural sheepskin fleece that includes forming a length of wool pile fabric having natural wool fibers on one side and a scrim on an opposing side and finishing the wool pile fabric as natural shearling. The finishing process includes polishing the wool fiber side of the pile fabric by guiding the length of pile fabric over one or more heated first polishing rolls, applying a sheepskin conditioning solution to the wool fiber side of the pile fabric, further polishing the wool fiber side of the pile fabric by guiding the fabric a plurality of times over one or more second heated polishing rolls, and cutting the wool fibers to a designated length. | 10-03-2013 |
20130255324 | DENSITY ENHANCEMENT METHOD FOR WOOL PILE FABRIC - A density enhancement method for a wool pile fabric comprising simultaneously knitting a plurality of shorter sheared wool fibers and a plurality of longer sheared wool fibers to a backing material. The mixture of the shorter and the longer wool fibers enhances the density of the wool pile fabric and closely replicates the density of natural shearling. | 10-03-2013 |
20130255325 | WOOL PILE FABRIC INCLUDING SECURITY FIBERS AND METHOD OF MANUFACTURING SAME - A wool pile fabric product including a plurality of wool fibers and at least one security fiber knit with a textile scrim to form a pile fabric having a scrim side and a fiber pile side. The product also includes a facing material that is attached to the scrim side of the wool pile fabric. The security fiber in the product provides a discrete way to identify a genuine product. | 10-03-2013 |
20130256934 | METHOD OF MANUFACTURING A WOOL PILE FABRIC PRODUCT - A method of manufacturing a component for an article of footwear including providing a two-part mold, inserting a first material layer in the mold, pouring a polyurethane layer on the first material layer, placing a piece of a wool pile fabric on the polyurethane layer and closing the mold for a designated period of time for forming a wool pile fabric component such as a footwear insole. After the designated period of time the mold is opened and the molded wool pile fabric component is removed from the mold. | 10-03-2013 |
20130261785 | SHEARED WOOL WEAVING METHOD - A method of manufacturing an article of footwear includes providing a knitting machine having a processor programmed to cause the knitting machine to knit a wool pile fabric having a plurality of footwear components and simultaneously knitting wool fibers and a scrim to form the wool pile fabric including the footwear components. | 10-03-2013 |
Patent application number | Description | Published |
20120137542 | WELLNESS SHOE AND METHOD - A shoe body including an upper operably connected with an outsole. The shoe body has a front portion and a back portion. An insole is disposed inside the shoe upper and has a substantially inelastic heel portion and a substantially elastic toe portion. A substantially rigid pressure plate is adjacent to the substantially elastic toe portion. | 06-07-2012 |
20120137544 | FOOTWEAR - A shoe has a forefoot portion, a midfoot portion, and a heel portion and comprises a sole having a base layer, a heel pedestal extending from the base layer, a lateral stabilizer pedestal extending from the base layer and positioned at least partially beneath the cuboid bone, and a medial stabilizer pedestal extending from the base layer and positioned at least partially beneath the navicular bone. During bipedal locomotion, the weight of a person wearing the shoe is supported on at least one of the heel pedestal, the lateral stabilizer pedestal, and the medial stabilizer pedestal, thereby transferring the person's weight from the heel pedestal, to the lateral stabilizer pedestal, and to the medial stabilizer pedestal. The heel pedestal, the lateral stabilizer pedestal, and the medial stabilizer pedestal include an outsole and a compressible base layer between the outsole and the wearer's foot. | 06-07-2012 |
Patent application number | Description | Published |
20120195350 | System and Method for Facilitating Data Transfer Using a Shared Non-Deterministic Bus - System and method for facilitating data transfer between logic systems and a memory according to various conditions. Embodiments include systems and methods for facilitating and improving throughput of data transfers using a shared non-deterministic bus, a system and method for managing a memory as a circular buffer, and a system and method for facilitating data transfer between a first clock domain and a second clock domain. Embodiments may be implemented individually or in combination. | 08-02-2012 |
20120198117 | System and Method for Improving Throughput of Data Transfers Using a Shared Non-Deterministic Bus - System and method for facilitating data transfer between logic systems and a memory according to various conditions. Embodiments include systems and methods for facilitating and improving throughput of data transfers using a shared non-deterministic bus, a system and method for managing a memory as a circular buffer, and a system and method for facilitating data transfer between a first clock domain and a second clock domain. Embodiments may be implemented individually or in combination. | 08-02-2012 |
20120198181 | System and Method for Managing a Memory as a Circular Buffer - System and method for facilitating data transfer between logic systems and a memory according to various conditions. Embodiments include systems and methods for facilitating and improving throughput of data transfers using a shared non-deterministic bus, a system and method for managing a memory as a circular buffer, and a system and method for facilitating data transfer between a first clock domain and a second clock domain. Embodiments may be implemented individually or in combination. | 08-02-2012 |
20120198267 | System and Method for Facilitating Data Transfer Between a First Clock Domain and a Second Clock Domain - System and method for facilitating data transfer between logic systems and a memory according to various conditions. Embodiments include systems and methods for facilitating and improving throughput of data transfers using a shared non-deterministic bus, a system and method for managing a memory as a circular buffer, and a system and method for facilitating data transfer between a first clock domain and a second clock domain. Embodiments may be implemented individually or in combination. | 08-02-2012 |