10th week of 2014 patent applcation highlights part 4 |
Patent application number | Title | Published |
20140060032 | MULTIPLE FUNCTION HYDRAULIC SYSTEM WITH A VARIABLE DISPLACEMENT PUMP AND A HYDROSTATIC PUMP-MOTOR - A hydraulic system includes a first pump and a plurality of valves that control fluid flow from the first pump to several actuators. Variable source orifices in the control valves are connected in parallel between the first pump and a node, and variable bypass orifices in the control valves are connected in series between the node and a tank. Pressure at the node controls displacement of the first pump. Each control valve also has a metering orifice for varying fluid flow between the node and one of the actuators. A hydrostatic pump-motor, coupled between two ports of a given actuator, is driven in a motoring mode by fluid exiting one of those ports. In a pumping mode, the hydrostatic pump-motor forces lower pressure fluid exhausting from one port into the other port of the given actuator. | 2014-03-06 |
20140060033 | Pump Housing for Motor-Vehicle Hydraulic Assemblies and the Use Thereof - In a pump housing of a motor-vehicle hydraulic assembly, on which at least two inlet-valve openings, at least two outlet-valve openings, at least one high-pressure control valve opening and at least one switchover-valve opening and a pressure-sensor connection are formed. The at least two inlet-valve openings are arranged in a first row, the at least two outlet-valve openings are arranged in a following second row, the pressure sensor connection is arranged in a further following third row, and the at least one high-pressure control valve opening and the at least one switchover valve opening are arranged in a further following fourth row. There are also five embodiments of arrangements of connecting lines and holes in a pump housing for the short connection of the valve openings and connections, and one embodiment with respect to the use of the pump housing according to one of the six embodiments. | 2014-03-06 |
20140060034 | Electro-Hydraulic Control Design for Pump Discharge Pressure Control - An electro-hydraulic control system manages speed of a hydraulic fan by using a solenoid to bias a three position pool of a control valve coupled to a hydraulic pump driving the fan. In a first position, the spool releases pressure on a de-stroke actuator of the pump and allows an on-stroke actuator to increase output pressure corresponding to a speed of an engine driving the pump. In a second position, the spool isolates the de-stroke actuator and fixes the pressure output of the pump. In a third position, the spool couples the de-stroke actuator to the pump output and causes a reduction in the pressure output of the pump. The solenoid coupled to the spool sets the output pressure at which the spool is in the second position. | 2014-03-06 |
20140060035 | IMPLEMENT WITH REDUCED HYDRAULIC OIL EXCHANGE - A folding implement frame having seven sections in a use position and nine sections when folded. The frame design allows a frame having a width of greater than 27 meters to be folded into a transport position having a width of less than eight meters and a height of less than six meters. The hydraulic system transfers weight to the center frame section during folding and unfolding to enhance stability. The hydraulic system uses accumulators to minimize the amount of oil reduction in the tractor reservoir resulting from extension of the hydraulic cylinders of the implement. Implement raise and lower cycle times are minimized by a helper cylinder to lift the frame main section when the entire implement weight is on the main section and allowing a smaller cylinder to lift the frame main section in the use position for shorter cycle times to raise and lower the implement. | 2014-03-06 |
20140060036 | COMPENSATING FOR INCOMPLETE REVERSAL IN MECHANISMS INCORPORATING SHAPE MEMORY ALLOY WIRE - Shape memory alloy (SMA) actuating elements are commonly simpler and of lower mass than alternative actuator designs and may find particular application in the transportation industry. Such SMA-powered devices are usually reliable and long-lived but the phase transformations which occur in the SMA alloy and are responsible for its utility are not totally reversible. This irreversibility, a consequence of irrecoverable strain, may progressively degrade the long-term actuator performance as the irrecoverable strain accumulates over many operating cycles. Methods and devices for compensating for these effects and extending the useful cycle life of SMA actuators are described. | 2014-03-06 |
20140060037 | BRAKE SYSTEM MASTER-CYLINDER SEAL - Master-cylinder seal housed in a groove around a piston has a core connected to three annular and concentric lips. The core rests against a side of the groove and has: a surface provided with an interior edge followed by a peripheral platter cut by at least one channel, and an exterior crown provided with a connection zone formed by an interruption in the crown and deformable due to pressure within the seal to recreate the crown's continuity and impermeability while facilitating purging the brake system when there is no pressure in the channel and the connection zone. | 2014-03-06 |
20140060038 | MOTOR CONTROL DEVICE AND VEHICLE BRAKE HYDRAULIC PRESSURE CONTROL APPARATUS - A motor control device (a motor driver) for controlling, by a duty control, a current supplied to a motor includes a driving controller, an off controller, and a voltage acquiring section (an A/D conversion processor, a sampling section). The driving controller performs on/off control of the current supplied to the motor with a first period. The off controller performs off control for the motor with a second period separately from the on/off control performed by the driving controller. The second period is longer than the first period. The voltage acquiring section acquires a voltage between terminals of the motor during a time period in which the off control is performed by the off controller. | 2014-03-06 |
20140060039 | Turbocharger Having Compressor Cooling Arrangement and Method - A compressor adapted to compress a working fluid includes a housing surrounding a compressor wheel and a backplate connected to the housing and enclosing the compressor wheel within an interior space of the housing. A cooling fluid conduit is fluidly connected between a cooled and compressed source of working fluid downstream of the compressor and the interior space of the housing of the compressor at a location between the compressor wheel and the back plate. A pressure differential created when the compressor is operating draws a flow of cooled, compressed charge into the interior space of the housing, which flow passes over and convectively cools said compressor wheel before mixing with a main compressor flow and being provided back through the compressor outlet. | 2014-03-06 |
20140060040 | SECONDARY AIR INTRODUCTION SYSTEM - Embodiments for heating an emission control device are provided. In one example, a method for a turbocharged engine comprises during an engine cold-start, delivering boosted air from downstream of a compressor into a wastegate duct coupled across a turbine and exothermically reacting a reductant with the boosted air upstream of an exhaust emission control device. In this way, boosted air may be used to initiate an exothermic reaction to heat the device. | 2014-03-06 |
20140060041 | INTERNAL COMBUSTION ENGINE WASTEGATE VALVE CONTROLLER - A desired wastegate valve opening degree is set in accordance with a driving condition of an internal combustion engine; based on a detected rotation speed of the internal combustion engine and a set desired wastegate valve opening degree, it is determined whether or not supercharging for the internal combustion engine is required; and in the case where it is determined that the supercharging is not required, a driving current for a wastegate valve driving unit is stopped when the opening degree of the wastegate valve becomes a desired value. | 2014-03-06 |
20140060042 | CONTROL METHODS AND CONTROL APPARATUSES OF INTERNAL-COMBUSTION ENGINES - An internal-combustion engine has a turbo supercharger. A control apparatus calculates a fuel flow rate based on an injection quantity of fuel in the engine and a number of revolutions of the engine. The control apparatus calculates an upstream side pressure and temperature on an upstream side of a turbine impeller and a turbine flow rate. The control apparatus calculates an upper limit threshold value of an opening degree level of a variable nozzle of the turbo supercharger such that a turbine pressure ratio is equal to or less than a predetermined ratio on a basis of the turbine flow rate and a pressure ratio•turbine flow rate characteristic. The pressure ratio•turbine flow rate characteristic is pre-stored information indicating a relationship between the turbine pressure ratio, the turbine flow rate, and the opening degree level of the variable nozzle. The control apparatus controls an opening degree of the variable nozzle so as to be an opening degree equal to or less than the upper limit threshold value. | 2014-03-06 |
20140060043 | INTERNAL COMBUSTION ENGINE CONTROL APPARATUS - An object of the invention is to provide an internal combustion engine control apparatus that can restrain an EGR amount from becoming excessive, and restrain destabilization of combustion . . . . First, in response to a change of an operation condition, operation amounts of a plurality of actuators that influence the EGR amount are set. When the operation amounts of the plurality of actuators are set, operation of an actuator that decreases the EGR amount (referring to an external EGR amount, an internal EGR amount or both, the same applying to the following) is started (S | 2014-03-06 |
20140060044 | SYSTEM AND METHOD FOR CONTROLLING FLUID FLOW INTO AND/OR OUT OF A CATALYTIC HEAT EXCHANGER BASED ON A CATALYST TEMPERATURE - A system includes a heat exchanger and a fluid flow control module. The heat exchanger includes a substrate, a catalyst applied to the substrate, and fluid passages. Exhaust gas from an engine flows through the heat exchanger and a working fluid in the fluid passages absorbs heat from the exhaust gas. The fluid flow control module controls fluid flow from the heat exchanger based on a temperature of the catalyst. | 2014-03-06 |
20140060045 | TURBO COMPOUNDING HYBRID GENERATOR POWERTRAIN - A turbo compounding internal combustion engine system includes an internal combustion engine and one or more valves for controlling a flow of an exhaust gas of the internal combustion engine. The system also includes a controller configured to monitor an operation mode of the internal combustion engine and responsively control the one or more valves and a turbine configured to selectively receive the exhaust gas from the internal combustion engine and to convert exhaust energy into a mechanical power. The system further includes a clutched gear drive selectively coupled to the turbine and the internal combustion engine, wherein the clutched gear drive is configured to provide the mechanical power generated by the turbine to the internal combustion engine. | 2014-03-06 |
20140060046 | Thermal Storage System and Power Generation System Including the Same - A thermal storage system | 2014-03-06 |
20140060047 | Steam Cycle System with Thermoelectric Generator - The present application provides a steam cycle system. The steam cycle system may include a source of steam, a steam turbine, a condenser, a steam turbine bypass system such that steam from the source of steam may bypass the steam turbine and be routed to the condenser, and one or more thermoelectric generators positioned about the steam turbine bypass system. | 2014-03-06 |
20140060048 | PROCESS AND APPARATUS FOR GENERATING WORK - The invention relates to a process and apparatus ( | 2014-03-06 |
20140060049 | Heat Engine Shuttle Pump System and Method - A heat engine including a novel method for transferring working fluid from the low pressure side of the cycle back to the high pressure side. The invention includes one or more transfer tanks connecting the condenser to the boiler. Each transfer tank is connected to the condenser by a fill line and connected to the boiler by a dump line. Gravity and/or small transfer pumps are used to transfer the working fluid horn the low pressure side, through the transfer tank or tanks, and then to the high pressure side. | 2014-03-06 |
20140060050 | ORGANIC RANKINE CYCLE FOR CONCENTRATED SOLAR POWER SYSTEM - Systems and methods for transforming solar energy into mechanical and/or electrical energy by using an ORC fluid in an ORC cycle configuration. The ORC cycle configuration includes a heat source that vaporizes the ORC fluid and an expander that expands the vaporized ORC fluid to produce the energy. | 2014-03-06 |
20140060051 | THERMOELECTRIC ENERGY STORAGE SYSTEM - A thermoelectric energy storage system and method are provided for storing electrical energy by transferring thermal energy to a thermal storage in a charging cycle, and for generating electricity by retrieving the thermal energy from the thermal storage in a discharging cycle. The thermoelectric energy storage includes a working fluid circuit configured to circulate a working fluid through a heat exchanger, and a thermal storage conduit configured to transfer a thermal storage medium from a thermal storage tank through the heat exchanger. The working fluid includes a zeotropic mixture. The working fluid is in a mixed vapor and liquid phase and has continuously rising or continuously falling temperature during heat transfer due to the working fluid including the zeotropic mixture. | 2014-03-06 |
20140060052 | MOISTURE SEPARATOR REHEATER AND NUCLEAR POWER PLANT - One embodiment of a moisture separator reheater includes: heater headers that supply the heating fluid to heat transfer tube groups for heat exchange with the steam; partition plates that guide the steam from a moisture removal section to the heat transfer tube group and then to the heat transfer tube group. The heat transfer tube groups each includes a plurality of heat transfer tubes each having a forward passage part, a backward passage part, and a bent tube part. The forward and the backward passage parts extend in a longitudinal direction of a body drum and the bent tube part connects the forward and the backward passage parts. The bent tube pipe is provided outside end plates. | 2014-03-06 |
20140060053 | STEAM POWER PLANT AND METHOD OF OPERATING A STEAM POWER PLANT - A steam power plant with a steam turbine with a high pressure stage and a low pressure stage is provided. A first steam source provides a motive steam, and a second steam source provides a heating steam, wherein the motive steam and the heating steam have different qualities. A reheater is arranged between the high pressure stage and the low pressure stage. The motive steam is supplied to the high pressure stage and is reheated by the reheater after leaving the high pressure stage, wherein the reheater is operated with the heating steam. Further, a method of operating a steam power plant is provided. | 2014-03-06 |
20140060054 | THERMODYNAMIC CYCLE OPTIMIZATION FOR A STEAM TURBINE CYCLE - Heat flow from a steam seal header could be used in a stage, such as a low pressure stage, of a steam turbine. However, the dump steam temperature from the steam seal header can be too high requiring removal of excess heat, typically through attemperation, before the dump steam is provided to the low pressure stage. Attemperation poses reliability and life issues and lowers efficiency. To address such short comings, one or more heat pumps are used to transfer heat from the dump steam to the fluid entering a boiler. This allows the dump steam temperature to be within acceptable limits, and at the same time, increase the temperature of the fluid so that the steam cycle performance is enhanced. Preferably, solid-state heat pumps are used as they are reliable, silent and can be precisely controlled. | 2014-03-06 |
20140060055 | METALLURGICAL PLANT GAS CLEANING SYSTEM AND METHOD OF CLEANING AN EFFLUENT GAS - A metallurgical plant gas cleaning system ( | 2014-03-06 |
20140060056 | Rotational Engine - The rotational engine assembly includes a housing defining a rotor interior. The housing defining an inlet and an outlet extending into the rotor interior. The housing further defining a vane cavity between the inlet and the outlet. A vane movably mounted to the housing to move into and out of the vane cavity. A crankshaft extending through the rotor interior. A rotor radially fixed to the crankshaft in the rotor interior. The rotor defining a working chamber in the rotor interior between the rotor and the housing. The rotor includes at least one thruster extending from the rotor surface transverse to the crankshaft and dividing the working chamber. A compressor in fluid communication with the inlet for supplying compressed air to be mixed with the fuel. An ignition source mounted to the housing and having access to the working chamber for igniting the compressed air fuel charge. | 2014-03-06 |
20140060057 | METHOD AND APPARATUS FOR HEATING LIQUID FUEL SUPPLIED TO A GAS TURBINE COMBUSTOR - A method of heating liquid fuel upstream of a combustor in a system where compressor discharge air is cooled before being supplied to fuel nozzles in the combustor includes the steps of passing the compressor discharge air through a heat exchanger in heat exchange relationship with the liquid fuel to heat the liquid fuel and cool the compressor discharge air; supplying the heated liquid fuel and the cooled compressor discharge air to the combustor. | 2014-03-06 |
20140060058 | GAS TURBINE SYSTEM HAVING AN EVAPORATIVE COOLER - A gas turbine system includes a compressor; a combustion chamber; a gas turbine; and an evaporative cooler. The evaporative cooler includes a plurality of cooling elements, a flow channel, and a feed device. The plurality of cooling elements are arranged in the flow channel. The feed device supplies a liquid to the plurality of cooling elements. The liquid is evaporated or vaporized. Each of the plurality of cooling elements is a flat cooling sheet, a surface of the cooling sheet having hydrophilic properties at least in a subregion which is specified for forming a liquid film. The evaporative cooler is connected ahead of the compressor on an intake side. | 2014-03-06 |
20140060059 | FUEL DELIVERY SYSTEM WITH A CAVITY COUPLED FUEL INJECTOR - A fuel injection system for a gas turbine engine includes a fuel delivery conduit, a nozzle block with a nozzle aperture, and a cavity block with a cavity. The nozzle aperture has a first cross sectional area, and injects fuel received from the fuel delivery conduit into the cavity. The cavity has a second cross sectional area that is greater than the first cross sectional area. | 2014-03-06 |
20140060060 | BURNER ARRANGEMENT - The invention refers to burner arrangement for producing hot gases to be expanded in a gas turbine, including a burner inside a plenum, where the burner has means for fuel injection, means for air supply and means for generating an ignitable fuel/air mixture inside the burner, and a combustion chamber following downstream said burner having an outlet being fluidly connected to the gas turbine. The invention is characterized in that the means for air supply includes at least two separate flow passages, and that the one of the two flow passages is fed by a first supply pressure and the other flow passage is fed by a second supply pressure. | 2014-03-06 |
20140060061 | Systems and Methods for Removing Impurities from Heavy Fuel Oil - The present application provides a fuel delivery system for use with a flow of heavy fuel oil for a gas turbine engine. The fuel delivery system may include one or more fuel lines in communication with the gas turbine engine and a magnesium mixing system positioned upstream of the one or more fuel lines. The magnesium mixing system may include a flow of magnesium and a flow of a carrier fluid, a carrier mixing chamber to mix the flow of magnesium and the flow of the carrier fluid to form a mixed carrier flow, and a heavy fuel oil mixing chamber to mix the flow of heavy fuel oil and the mixed carrier flow. | 2014-03-06 |
20140060062 | METHOD, APPARATUS AND SYSTEM FOR CONTROLLING SWIRL OF EXHAUST IN A GAS TURBINE - Change in swirl of gas turbine exhaust gases at off-design conditions is a key driver of exhaust diffuser inefficiency that adversely impact the gas turbine performance. Conventional ways to control swirl such as blowing, suction, and vortex generation are undesirable since they require parasitic power, are complex to design, and dilute the exhaust gas energy. To address such short comings, shape memory devices are incorporated into struts of an exhaust diffuser of a gas turbine. The shape memory devices change shape in accordance with heat, which can be applied through memory device heaters. By controlling the memory device heaters, the heat applied to the shape memory devices can be controlled. The shapes of the struts can be altered through altering the shapes of the memory device in consideration of load conditions to increase the efficiency. | 2014-03-06 |
20140060063 | Systems and Methods For Suppressing Combustion Driven Pressure Fluctuations With a Premix Combustor Having Multiple Premix Times - A combustor having a combustion chamber is provided with an external flow sleeve and a combustor liner surrounding the combustion chamber. A plurality of flow channels are provided on the combustor liner and a plurality of nozzles are disposed at predetermined locations on the flow channels. The locations of the nozzles are selected to provide different mixing times for fuel injected through the nozzles. | 2014-03-06 |
20140060064 | METHOD OF INCREASING ELECTRICITY OUTPUT DURING HIGH DEMAND - The present disclosure relates to a method of operating a combined cycle power generating system. The method includes combusting a fuel in a gas turbine, generating electricity and a steam of flue gas, producing a stream of steam in a heat recovery steam generator, producing a stream of concentrated carbon dioxide using an absorption unit and a solvent regeneration unit, forwarding the steam stream to a steam turbine and transferring the heat energy in the stream exiting the steam turbine to the solvent regeneration unit, and a thermal storage unit for storing heat energy. The method also includes operating a thermal storage unit, at least for a period of time, in a heat storing mode, in which a stream of steam from the stream exiting the steam turbine is condensed and transfers heat energy to heat storing means in the thermal storage unit, and operating the thermal storage unit, at least for a period of time, in a heat releasing mode, in which heat energy stored in the thermal storage unit is transferred to the solvent regeneration unit. The present disclosure further relates to a combined cycle power generating system as well as a combined cycle power plant including such a system. | 2014-03-06 |
20140060065 | Systems and Methods for Accelerating Droop Response in a Combined Cycle Power Plant - Systems and methods for accelerating droop response in a combined cycle power plant are provided. According to one embodiment if the disclosure, a system may include a controller and a processor communicatively coupled to the controller. The processor may be configured to receive frequency variation data associated with a frequency variation of an electrical grid, determine, based at least in part on the frequency variation data, a target operational level of the combined cycle power plant and the droop response associated with the target operational level, calculate a variable compensation value, and apply the variable compensation value to the droop response until the target operational level is reached. | 2014-03-06 |
20140060066 | METHOD FOR OPERATING A GAS TURBINE IN THE CASE OF LOAD SHEDDING, A DEVICE FOR CONTROLLING THE OPERATION OF A GAS TURBINE AND A POWER PLANT - A method is provided for operating a gas turbine in the event of load shedding and/or rapid shutdown. The method includes operating the gas turbine by the combustion of fuel in a combustion chamber of the gas turbine with the addition of combustion air via an air passage, and driving a load. Upon or directly after the load shedding or rapid shutdown, an additional gas volume is supplied to the combustion chamber via the air passage in order to slow the drop in pressure level in the combustion chamber. | 2014-03-06 |
20140060067 | Power Augmentation Systems and Methods for Grid Frequency Control - The present application provides a combined cycle system. The combined cycle system may include a compressor water wash system in communication with a compressor and a water wash flow, a combustor water injection system in communication with a combustor and an injection flow, and a transient power augmentation system in communication with the compressor, the combustor, and a flow of supplemental water. | 2014-03-06 |
20140060068 | METHOD FOR OPERATING A GAS TURBINE ENGINE INCLUDING A COMBUSTOR SHELL AIR RECIRCULATION SYSTEM - During full load operation of gas turbine engine operation, a valve system is maintained in a closed position to substantially prevent air from passing through a piping system of a shell air recirculation system. Upon initiation of a turn down operation, which is implemented to transition the engine to a turning gear state or a shut down state, the valve system is opened to allow air to pass through the piping system. A blower is operated to extract air through at least one outlet port of the shell air recirculation system from an interior volume of an engine casing portion associated with the combustion section, to convey the extracted air through the piping system, and to inject the air into the interior volume of the engine casing portion through at least one inlet port of the shell air recirculation system to circulate air within the engine casing portion. | 2014-03-06 |
20140060069 | COMBUSTOR INCLUDING COMBUSTION NOZZLE AND AN ASSOCIATED METHOD THEREOF - A combustor including a combustion nozzle. The combustion nozzle includes a mixing section and an exit section. The mixing section includes an air inlet, and a fuel inlet. The exit section includes a plurality of jets on an exit surface. The combustor further includes a combustion zone, including a combustion liner, disposed downstream and in fluidic communication with the combustion nozzle. The combustor is configured wherein a, NOx emission of the combustor is related to 1/R, where R is a Reynolds number ratio of a jet of the plurality of jets to the combustion liner. A method for achieving NOx reduction in a combustion nozzle. | 2014-03-06 |
20140060070 | METHOD AND APPARATUS FOR INCREASING COMBUSTION EFFICIENCY AND REDUCING PARTICULATE MATTER EMISSIONS IN JET ENGINES - A portable on-demand hydrogen supplemental system producing hydrogen gas and mixing the hydrogen gas with the air used for combustion of the jet fuel to increase the combustion efficiency of said jet fuel. Hydrogen increases the laminar flame speed of the jet fuel during combustion thus causing more fuel to be burned and lowering particulate matter emissions. Hydrogen is supplied to the jet engine at levels well below it lower flammability limit in air of 4%. | 2014-03-06 |
20140060071 | COOLED PILOT FUEL LANCE - A device for injecting fuel into a combustion chamber of a gas turbine is provided, having a distribution section to which a first fuel channel, a second fuel channel and an injection channel are coupled. The first fuel channel and the second fuel channel are arranged such that a) fuel is transportable by one of the first fuel channel and the second fuel channel to the distribution section, and b) a first quantity of fuel is transportable by the other one of the first fuel channel and the second fuel channel out of the distribution section. The injection channel is arranged such that a second quantity of fuel is injectable from the distribution section into the combustion chamber. The device further comprises an end cap with a protrusion having the injection channel inside, and extending inside the inner tube. | 2014-03-06 |
20140060072 | METHOD OF STARTING A GAS TURBINE SYSTEM - A method of starting a gas turbine system is provided. The method includes approximating a temperature of at least one turbine system component. Also included is selectively determining a flow rate for a fuel to be delivered to a combustor for combustion therein, wherein the flow rate is dependent upon the temperature of the at least one turbine system component. Further included is delivering the fuel to the combustor at the flow rate selectively determined. | 2014-03-06 |
20140060073 | MULTIPLE POINT OVERBOARD EXTRACTOR FOR GAS TURBINE - The disclosed overboard extractor provides overboard extraction of compressor fluid at multiple extraction points. The overboard extractor includes multiple extraction manifolds and a delivery manifold for extracting the compressor fluid from the multiple extraction points. The overboard extractor also includes extraction valves and a delivery valve to control the extraction flow through each extraction manifold. The overboard extractor can operate in a delivery mode, a closed loop mode, or a mixed mode. | 2014-03-06 |
20140060074 | SYSTEMS AND METHODS FOR DRIVING AN OIL COOLING FAN OF A GAS TURBINE ENGINE - Systems and methods for driving an oil cooling fan ( | 2014-03-06 |
20140060075 | GAS TURBINE ENGINE BUFFER SYSTEM - A gas turbine engine includes a compressor section, a combustor in fluid communication with the compressor section, a turbine section in fluid communication with the combustor, and a buffer system. The buffer system can include a first circuit that supplies a first buffer supply air and a second circuit that supplies a second buffer supply air. The first circuit can include a first bleed air supply a second bleed air supply and at least one of an ejector and a valve. The second circuit can include a third bleed air supply, a fourth bleed air supply and at least one of an ejector and a valve. | 2014-03-06 |
20140060076 | ANTIROTATED PISTON RACK - A valve skirt is connected to a shaft. The shaft extends in a rearward direction away from the skirt and has rack teeth at a location spaced away from the skirt. A tab is positioned between the skirt and the rack teeth, and has at least one flat surface. A rack support supports the rack for axial movement, and the rack support has a support ear that has a flat surface engaging the flat surface on the rack to prevent relative rotation of the rack when driven by a pinion gear. An air starter valve, a gas turbine engine and a method are also disclosed. | 2014-03-06 |
20140060077 | COMBUSTOR - A combustor includes a breech end, a fuel nozzle connected to the breech end and extending downstream from the breech end, and a shroud that circumferentially surrounds the fuel nozzle inside the combustor. A support extends radially inside at least a portion of the shroud, and a flexible coupling is between the support and the fuel nozzle. An adjustable tensioner is configured to engage with the flexible coupling and constrain longitudinal extension of the flexible coupling. | 2014-03-06 |
20140060078 | COMBUSTOR - A combustor includes a breech end, a plurality of fuel nozzles connected to the breech end and extending downstream from the breech end, and a shroud that circumferentially surrounds the plurality of fuel nozzles inside the combustor. A support extends radially inside at least a portion of the shroud. A leaf spring is between the support and one or more of the plurality of fuel nozzles, wherein each leaf spring includes at least three leaves. | 2014-03-06 |
20140060079 | AEROENGINE ARRANGEMENT - A core engine for a gas turbine engine, the core engine having a rotational axis, a casing and further comprises a gearbox assembly, a radial drive arrangement, pipes and connections and a connection structure; the radial drive arrangement drivingly connects the core engine to the gearbox assembly; the pipes and connections extend from the gearbox assembly to the core engine and the gearbox assembly is radially spaced from the casing by connection structure. A method of assembling the gas turbine engine includes the steps of axially translating the core engine and the fan casing so that the gearbox is adjacent the fan casing and attaching the gearbox assembly to the fan casing. | 2014-03-06 |
20140060080 | GAS TURBINE ENGINE AFT BEARING ARRANGEMENT - An example gas turbine engine includes a turbine and first and second spools coaxial with one another. The first spool is arranged within the second spool and extends between forward and aft ends. The aft end extends axially beyond the second spool and supports the turbine. A housing is arranged downstream from the turbine. First and second bearings are mounted to the aft end of the first spool and supported by the housing portion. | 2014-03-06 |
20140060081 | SINGLET VANE CLUSTER ASSEMBLY - A vane cluster for a gas turbine engine includes multiple singlet vanes and a forward wear liner connecting a forward edge of each singlet vane, thereby allowing the vane cluster to be manipulated as a single component. | 2014-03-06 |
20140060082 | COMBUSTOR SHELL AIR RECIRCULATION SYSTEM IN A GAS TURBINE ENGINE - A shell air recirculation system for use in a gas turbine engine includes one or more outlet ports located at a bottom wall section of an engine casing wall and one or more inlet ports located at a top wall section of the engine casing wall. The system further includes a piping system that provides fluid communication between the outlet port(s) and the inlet port(s), a blower for extracting air from a combustor shell through the outlet port(s) and for conveying the extracted air to the inlet port(s), and a valve system for selectively allowing and preventing air from passing through the piping system. The system operates during less than full load operation of the engine to circulate air within the combustor shell but is not operational during full load operation of the engine. | 2014-03-06 |
20140060083 | GAS TURBINE ENGINE AFT BEARING ARRANGEMENT - An example gas turbine engine includes a turbine and first and second spools coaxial with one another. The first spool is arranged within the second spool and extends between forward and aft ends. The aft end extends axially beyond the second spool and supports the turbine. A housing is arranged downstream from the turbine. First and second bearings are mounted to the aft end of the first spool and supported by the housing portion. | 2014-03-06 |
20140060084 | GAS TURBINE ENGINE AIRFOIL COOLING CIRCUIT ARRANGEMENT - A component for a gas turbine engine according to an exemplary aspect of the present disclosure including, among other things, an airfoil that extends between a leading edge and a trailing edge and a cooling circuit disposed inside of the airfoil. The cooling circuit includes at least one core cavity that extends inside of the airfoil, a baffle received within the at least one core cavity, a plurality of pedestals positioned adjacent to the at least one core cavity and a first plurality of axial ribs positioned between the plurality of pedestals and the trailing edge of the airfoil. | 2014-03-06 |
20140060085 | COOLING APPARATUS - Cooling apparatus including a thermoelectric device ( | 2014-03-06 |
20140060086 | TEMPERATURE CONTROL SYSTEMS WITH THERMOELECTRIC DEVICES - Temperature control systems and methods can be designed for controlling the interior climate of a vehicle or other the climate of another desired region. The temperature control system for a vehicle can have a thermoelectric system providing heating and/or cooling, including supplemental heating and/or cooling. The thermoelectric system can transfer thermal energy between a working fluid, such as liquid coolant, and comfort air upon application of electric current of a selected polarity. The thermoelectric system can supplement or replace the heat provided from an internal combustion engine or other primary heat source. The thermoelectric system can also supplement or replace cold energy provided from a compressor-based refrigeration system or other primary cold energy source. | 2014-03-06 |
20140060087 | HEAT RADIATION-THERMOELECTRIC FIN, AND THERMOELECTRIC MODULE AND THERMOELECTRIC APPARATUS INCLUDING THE HEAT RADIATION-THERMOELECTRIC FIN - A heat radiation-thermoelectric fin includes a thermoelectric inorganic material on a heterogeneous laminate of graphene. The heterogeneous laminate may be tube-shaped or plate-shaped, and a metal conductor may be coupled to one or more of the heterogeneous laminate. A thermoelectric module may be formed to include the fin, and a thermoelectric apparatus may include a heat supplier connected to the thermoelectric module. | 2014-03-06 |
20140060088 | METHOD AND APPARATUS FOR CONTACT REFRIGERATION IN CRYOGENIC SOLID BELT FREEZER - Methods and apparatus for contact freezing a food product. A conveyor belt or other support may have an active region that supports materials on an outer surface. Liquid cryogen may be provided in bulk contact with an inner surface of the active region via splashing, agitation, pumping, gravity feed, and the like. | 2014-03-06 |
20140060089 | LOW COST HIGH EFFICIENCY ICE MACHINE - Disclosed are ice making machines which use aluminum as an alternative to copper in the ice making machine evaporator and also use an alternate coolant/refrigerant specifically targeted to provide improved heat transfer transport properties and higher heat capacitance than conventional HFC coolant/refrigerants. Optionally, rotary compressors are used in place of conventional reciprocating compressors, further enhancing performance for the ice making machine. The disclosed ice making machines maintain high efficiency and ice output, and provide equal or better energy efficiency than comparative ice making machines. At the same time, savings are realized in the material cost for the evaporator, and resulting from the combined effects of lower density and lower metal cost/unit weight offered by aluminum as compared to copper. | 2014-03-06 |
20140060090 | Method of servicing an aircraft cooling system and aircraft cooling system - A method of servicing an aircraft cooling system comprises connecting a refilling container containing a two-phase refrigerant to a refrigerant connection provided in a cooling circuit of the cooling system, supplying refrigerant from the refilling container into the cooling circuit of the cooling system, and operating a condenser disposed in the cooling circuit so as to liquefy gaseous refrigerant flowing through the cooling circuit. | 2014-03-06 |
20140060091 | Method of servicing an aircraft cooling system and aircraft cooling system - A method of servicing an aircraft cooling system comprises connecting a refilling container containing a two-phase refrigerant to a refrigerant connection provided in a cooling circuit of the cooling system, supplying refrigerant from the refilling container into the cooling circuit of the cooling system, and operating a condenser disposed in the cooling circuit so as to liquefy gaseous refrigerant flowing through the cooling circuit. | 2014-03-06 |
20140060092 | METHOD OF OPERATING A HEAT PUMP DRYER AND HEAT PUMP DRYER - Method of operating a heat pump dryer, the heat pump tumble dryer including a process air circuit and a heat pump unit having a refrigerant evaporator for cooling process air, a primary refrigerant condenser for heating process air, an auxiliary refrigerant evaporator arranged outside the process air circuit and connected between the primary refrigerant evaporator and a compressor of the heat pump unit, and at least one auxiliary fan adapted to impinge an air stream at the auxiliary heat exchanger. The at least one auxiliary fan is activated and deactivated by a control unit according to at least one of a temperature of the refrigerant and/or a pressure of the refrigerant, both preferably measured near or at a refrigerant outlet of the primary evaporator, a temperature of refrigerant near or at an refrigerant outlet or inlet of the auxiliary refrigerant evaporator, a temperature of the air near or at the auxiliary refrigerant evaporator, a temperature difference between refrigerant and air near or at the auxiliary refrigerant evaporator and, a temperature of the process air and/or humidity of the process air, both preferably near or at a process air inlet of a drying chamber of the heat pump tumble dryer. | 2014-03-06 |
20140060093 | SOLAR-POWERED COOLING SYSTEM - A solar-powered adsorption-desorption refrigeration and air conditioning system that uses nanostructural materials such as aerogels, zeolites, and sol gels as the adsorptive media. Refrigerant molecules are adsorbed on the high surface area of the nanostructural material while the material is at a relatively low temperature, perhaps at night. During daylight hours, when the nanostructural materials is heated by the sun, the refrigerant are thermally desorbed from the surface of the aerogel, thereby creating a pressurized gas phase in the vessel that contains the aerogel. This solar-driven pressurization forces the heated gaseous refrigerant through a condenser, followed by an expansion valve. In the condenser, heat is removed from the refrigerant, first by circulating air or water. Eventually, the cooled gaseous refrigerant expands isenthalpically through a throttle valve into an evaporator, in a fashion similar to that in more conventional vapor recompression systems. | 2014-03-06 |
20140060094 | STORAGE DEVICE INCLUDING TARGET UV ILLUMINATION RANGES - Ultraviolet radiation is directed within an area at target wavelengths and/or target intensities. The target wavelength ranges and/or target intensity ranges of the ultraviolet radiation sources can correspond to at least one of a plurality of selectable operating configurations including a storage life preservation operating configuration, a disinfection operating configuration, and an ethylene decomposition operating configuration. | 2014-03-06 |
20140060095 | Storage Device Including Ultraviolet Illumination - Ultraviolet radiation is directed within an area. Items located within the area and/or one or more conditions of the area are monitored over a period of time. Based on the monitoring, ultraviolet radiation sources are controlled by adjusting a direction, an intensity, a pattern, and/or a spectral power of the ultraviolet radiation generated by the ultraviolet radiation source. Adjustments to the ultraviolet radiation source(s) can correspond to one of a plurality of selectable operating configurations including a storage life preservation operating configuration, a disinfection operating configuration, and an ethylene decomposition operating configuration. | 2014-03-06 |
20140060096 | Multi Wave Sterilization System - Ultraviolet radiation is directed within an area. The target wavelength ranges and/or target intensity ranges of the ultraviolet radiation sources can correspond to at least one of a plurality of selectable operating configurations including a virus destruction operating configuration and a bacteria disinfection operating configuration. Each configuration can include a unique combination of the target wavelength range and target intensity range. | 2014-03-06 |
20140060097 | REFRIGERATED TRUCK BATTERY BACK-UP SYSTEM AND RELATED METHODS - A refrigerated truck may include a refrigerated compartment, and an active refrigeration device for cooling the compartment. The refrigerated truck may include a power module for powering the active refrigeration device, and selectively coupling the battery to a grid power connection. | 2014-03-06 |
20140060098 | REFRIGERATING APPARATUS - A refrigerating apparatus includes first and second refrigerant circuits including respective first and second compressors, condensers, pressure reducers, and evaporators, connected circularly with first and second refrigerant pipes, respectively, refrigerants discharged from the first and second compressors being respectively condensed at the first and second condensers and thereafter respectively evaporated at the first and second evaporators to acquire a cooling effect; a temperature sensor that detects a temperature of an internal portion of a cold storage cabinet, the first and second evaporators being disposed to cool the internal portion simultaneously; and a first control device that controls the first and second compressors such that the first compressor and the second compressor start being alternately operated each time a temperature detected by the temperature sensor reaches a first temperature, and are continuously operated until the detected temperature reaches a second temperature lower than the first temperature. | 2014-03-06 |
20140060099 | CONSTRUCTION MACHINE AND CONTROL METHOD FOR COOLING FAN - A wheel loader is provided with a cab, an air conditioning unit, a cooling fan which has a capacitor and a compressor, an air conditioning switch which receives the operation or non-operation of the compressor, a temperature setting portion which sets a set temperature inside the cab, a room temperature sensor which detects a room temperature inside the cab, and a controller. In a case where the air conditioning switch is operated and the room temperature is higher than a set temperature, the controller maintains the rotation amount of the cooling fan at a limited rotation amount or more. | 2014-03-06 |
20140060100 | Low Voltage Solar Electric Energy Distribution - Subject matter disclosed herein relates to distribution of electrical energy, and more particularly to distribution of solar electric energy at or near particular power points of solar cells. | 2014-03-06 |
20140060101 | UNIDIRECTIONAL CLIMATE CONTROL SYSTEM - A climate control system for a vehicle with a passenger compartment includes a heater circuit, a cooler circuit, and a primary loop, all of which have fixed flow directions. The heater circuit is filled with a first liquid medium and has a heater core, and the cooler circuit is filled with a second liquid medium and has a cooler core. The heater and cooler cores are selectively in thermal communication with the passenger compartment. The primary loop includes a compressor and an expansion valve and is filled with a refrigerant medium. No portion of the primary loop is within the passenger compartment. A liquid-cooled condenser thermally links the heater circuit and primary loop. A liquid-warmed evaporator thermally links the cooler circuit and primary loop. The primary loop is in direct heat-exchange communication with one of the first liquid medium and the second liquid medium. | 2014-03-06 |
20140060102 | MILD AMBIENT VEHICULAR HEAT PUMP SYSTEM - A vehicular heat pump system for controlling the temperature of a passenger compartment and vehicle battery is provided. The heat pump system may include a cooling mode and a heating mode. The components of each of the respective heating and cooling circuits may include: a compressor, an AC condenser, a heat pump condenser, a cabin evaporator, a heat pump evaporator, a receiver/dryer, a plurality of expansion devices, and a plurality of flow control valves. The use of multiple evaporators and condensers eliminates the need to reverse the direction of refrigerant flow upon a change in operating mode; therefore, the position of the low-pressure side of the system remains constant in all operating modes. The low-pressure side of the system is not cooled with ambient air, minimizing the complexity of the system and eliminating the need to interrupt heating mode in order to de-ice the outside heat exchanger. | 2014-03-06 |
20140060103 | AIR CONDITIONING SYSTEM FOR A MOTORIZED VEHICLE - The invention relates to an air conditioning system for a motorized vehicle with means for conveying, for cooling, and for heating of air. The air conditioning system comprises a housing with flow guide devices and air vents, an evaporator, and a heat exchanger. The housing is developed with an air distribution element and a range of variation. The flow guide devices of the air vents are arranged within the air distribution element, and the heat exchanger is arranged within the range of variation. With the arrangement of the heat exchanger, it is possible to change the outer dimensions of the range of variation and therefore of the air conditioning system while maintaining unchanged functionality and by using identical components such that the air conditioning system can be adapted to the installation space of different motorized vehicle types. | 2014-03-06 |
20140060104 | Ultraviolet Gradient Sterilization, Disinfection, and Storage System - Ultraviolet radiation is directed within an area. The storage area is scanned and monitored for the presence of biological activity within designated zones. Once biological activity is identified, ultraviolet radiation is directed to sterilize and disinfect designated zones within the storage area. | 2014-03-06 |
20140060105 | AIR-CONDITIONING APPARATUS - An air-conditioning apparatus has a heating only temporary operation mode in which, in changing from a heating main operation mode to a heating only operation mode, when an outside air temperature is at or above a predetermined temperature, at least one of heat exchangers functioning as a condenser in the heating main operation mode continues functioning as the condenser, and the refrigerant is not supplied to the intermediate heat exchanger functioning as an evaporator in the heating main operation mode and a cooling only temporary operation mode in which, in changing from a cooling main operation mode to a cooling only operation mode, when the outside air temperature is at or below a predetermined temperature, at least one of heat exchangers functioning as the evaporator in the cooling main operation mode continues functioning as the evaporator, and the refrigerant is not supplied to the intermediate heat exchanger functioning as the condenser in the cooling main operation mode. | 2014-03-06 |
20140060106 | REFRIGERATOR WITH INTERMEDIATE TEMPERATURE ICEMAKING COMPARTMENT - An icemaking compartment is provided in the refrigerator compartment of a bottom mount refrigerator. An icemaker is within the icemaking compartment. A cold air duct supplies cold air from the freezer compartment to the icemaker. The cold air duct is formed in the rear wall of the refrigerator. A fan controls the flow of air through the cold air duct. A return air duct is provided to direct a portion of the air from the icemaker back to the freezer compartment. An air vent in the icemaker directs another portion of air into the refrigerator compartment. | 2014-03-06 |
20140060107 | VENDING MACHINE WITH TEMPERATURE CONTROL SYSTEM - A temperature control system mounted in the chassis of a vending machine is quickly detachable as a single unit. The chassis comprise a base panel and a mounting panel substantially parallel to the base panel. The temperature control system comprises a bracket, a compressor, a condenser, and an evaporator. The bracket comprises a supporting plate and a pair of mounting plates fixed to the supporting plate. The compressor and the condenser are mounted on the supporting plate. The evaporator is attached to the pair of mounting plates and located above the compressor and the condenser. The pair of mounting plates engages with the pair of first gaps when the temperature control system is mounted in the chassis and the pair of mounting plates is simply disengaged away from the pair of first gaps when the temperature control system needs to be detached from the chassis. | 2014-03-06 |
20140060108 | DISTRIBUTOR ASSEMBLY FOR SPACE CONDITIONING SYSTEMS - A distributor assembly for a space conditioning system comprising a sealed expansion device and a sealed distributor housing. The expansion device has a first opening, a second opening and an interior chamber there-between. The interior chamber contains an orifice housing, wherein the orifice housing has a through-hole orifice therein. The orifice housing is configured to move between the first opening and the second opening within the interior chamber. An outer surface of the orifice housing forms a fluid stop around the first opening such that a refrigeration fluid of the space conditioning system delivered through the second opening can substantially only pass through the through-hole orifice to the first opening. The distributor housing has a largest opening that is permanently sealed to the first opening of the sealed expansion device and a plurality of smaller openings configured to be fluidly connected to a heat-exchange coil of the space conditioning system. | 2014-03-06 |
20140060109 | VENDING MACHINE WITH TEMPERATURE CONTROL MODULE - A vending machine includes a cabinet and a temperature control module. The temperature control module includes an evaporator, a compressor, and a condenser. The cabinet includes a sliding rail. The temperature control module further includes a wheeled bracket. The evaporator, the compressor, and the condenser are secured to the bracket. The components of the temperature control module, as a single unit, can be installed and removed without any dismantling operation being carried out to the frame of the vending machine. | 2014-03-06 |
20140060110 | FUEL SUPPLY SYSTEM FOR MARINE STRUCTURE HAVING RELIQUEFACTION APPARATUS AND HIGH-PRESSURE NATURAL GAS INJECTION ENGINE - Provided is a fuel supply system for a marine structure. The fuel supply system includes a BOG compression unit configured to receive and compress BOG generated in a storage tank, a reliquefaction apparatus configured to receive and liquefy the BOG compressed by the BOG compression unit, a high-pressure pump configured to compress the liquefied BOG generated by the reliquefaction apparatus, and a high-pressure gasifier configured to gasify the liquefied BOG compressed by the high-pressure pump. The fuel supply system includes a recondenser installed at an upstream side of the high-pressure pump and configured to recondense a portion or all of the generated BOG by using liquefied gas received from the storage tank. The BOG compression unit compresses BOG to a pressure of about 12 to 45 bara such that the BOG is liquefied under the compression pressure of the BOG compression unit. | 2014-03-06 |
20140060111 | PROCESS FOR LIQUEFYING A HYDROCARBON-RICH FRACTION - Described herein is a process for liquefying a hydrocarbon-rich fraction, in particular natural gas, is described, in which
| 2014-03-06 |
20140060112 | METHOD FOR SEPARATING C2+-HYDROCARBONS FROM A HYDROCARBON-RICH FRACTION - Described herein is a method for separating C | 2014-03-06 |
20140060113 | METHOD FOR SEPARATING C2+-HYDROCARBONS OR C3+-HYDROCARBONS FROM A HYDROCARBON-RICH FRACTION - Described herein is a method for separating C | 2014-03-06 |
20140060114 | CONFIGURATIONS AND METHODS FOR OFFSHORE NGL RECOVERY - A natural gas two-column processing plant allows for recovery of at least 95% of C4 and heavier hydrocarbons, and about 60 to 80% of C3 hydrocarbons from a rich feed gas stream in which the first column (absorber) operates at a higher pressure than the second column, with the absorber receiving a compressed gas from the second column, and a turboexpander discharging a two-phase stream to the top of the absorber. Most typically, contemplated configurations and methods operate without the use of external refrigeration. | 2014-03-06 |
20140060115 | METHOD FOR DIGITAL MANUFACTURING OF JEWELRY ITEMS - A method for digital manufacturing of a jewelry item includes printing a three-dimensional wax model on a substrate and printing a three-dimensional sprue, the sprue being adapted to support the wax model. A fixture for handling wax models includes a platform, a plurality of holders, a plurality of standoffs, and a tie. A method of manufacturing a jewelry item, comprises forming a first wax model for a portion of a jewelry item, forming a second wax model for a portion of a jewelry item using a rapid prototyping process, and performing one or more lost wax processes with the first and second portion to create the jewelry item. | 2014-03-06 |
20140060116 | DOWNSTREAM ROLLS FOR GLASS MANUFACTURE AND METHODS - A downstream roll for glass manufacture comprises at least one millboard piece. At least a portion of an outer peripheral surface of the downstream roll comprises infiltrated ceramic particles. The infiltrated ceramic particles are infiltrated to a depth of about 1 mm to about 10 mm. Further examples of the disclosure include methods for manufacturing a glass ribbon and a downstream roll for glass manufacture. | 2014-03-06 |
20140060117 | METHOD FOR MANUFACTURING GLASS SUBSTRATE FOR MAGNETIC DISK - A method for manufacturing a glass substrate for magnetic disk, the internal strain of which is reduced without performing annealing treatment, is provided. The method includes a forming process of forming a plate-shaped glass blank by pressing a lump of molten glass using a pair of dies, wherein the method includes: a removing process of removing at least a part of a residual stress layer formed on the principal face of the glass blank press-formed in the forming process; and a process of forming a donut-shaped glass substrate by subjecting the glass blank after the removing process to machining. | 2014-03-06 |
20140060118 | PRESSED, MULTILAYERED SILICA SOOT PREFORMS FOR THE MANUFACTURE OF SINGLE SINTER STEP, COMPLEX REFRACTIVE INDEX PROFILE OPTICAL FIBER - Manufacturing an optical fiber by using an outside vapor deposition technique for making a substrate, applying one or more layers to the substrate using a radial pressing technique to form a soot blank, sintering the soot blank in the presence of a gaseous refractive index-modifying dopant, and drawing the sintered soot blank, provides a more efficient and cost effective process for generating complex refractive index profiles. | 2014-03-06 |
20140060119 | Device for Elongating Stitches, Elongating Device for Producing a Net with Elongated Stitches, Method for Producing a Net with Elongated Stitches and a Net with Elongated Stitches - A method, an elongating device, a Raschel knitting machine comprising the elongating device for producing nets with elongated stitches and a net comprising elongated stitches is described. The method comprises the steps of continuously generating new loops for elongating the two rows of loops by additional loops and dragging the rows of loops in a machine direction, generating a first stitch of the weft by joining the weft to a loop of the first row and to a loop of the second row, and positioning the first stitch across a surface of an elongating device for preventing the first stitch from traveling with the warps knitted to loops in the machine direction. The joining is configured for elongating the first stitch by pulling additional weft material, and the surface of the elongating device is carrying out a reciprocating movement towards the first stitch. Further, an elongating device for elongating of the stitches is described. | 2014-03-06 |
20140060120 | WASHING MACHINE - Disclosed is a washing machine including a casing, an outer tub located within the casing, at least one support member to suspend the outer tub from the casing, a suspension, provided at a lower side of the outer tub and connected to the at least one support member, to attenuate vibration of the outer tub and at least one horizontal vibration attenuation unit to attenuate horizontal vibration of the outer tub by the introduction of friction according to a horizontal displacement of the outer tub. | 2014-03-06 |
20140060121 | HOUSEHOLD APPLIANCE HAVING A PHYSICAL ALTERATION ELEMENT - A household appliance for treating at least one item according to at least one cycle of operation includes a treating chemistry dispenser receiving a unit dose container and having a door moveable between an opened position and a closed position, a piercing mechanism located proximate to the treating chemistry dispenser and having a piercer that is moveable between a non-piercing position and a piercing position where the piercer is moved to perforate a unit dose container received within the treating chemistry dispenser. | 2014-03-06 |
20140060122 | Laundry Machine - A laundry machine, particularly of the front loading type, is proposed. The laundry machine includes a cabinet with a front panel having a laundry loading/unloading opening, and a door for closing the laundry loading/unloading opening. A washing tub is accommodated within the cabinet and has an opening corresponding to the laundry loading/unloading opening. A drum is rotatably arranged within the washing tub in such a way that a frontal rim of the drum faces the laundry loading/unloading opening, and a bellows connecting a rim of the laundry loading/unloading opening to the opening of the washing tub. The bellows includes a first and a second lip protruding towards the rotation axis of the drum. The first lip is closer to the front panel than the second lip and is adapted to hinder the passage of foreign bodies from the drum to the washing tub through a gap between the drum and the washing tub. The second lip is adapted to hinder the passage through the gap of foreign bodies possibly trespassing said first lip. The frontal rim of the drum is located between the first and the second lips. The first lip includes a first lip end having a distance from the rotation axis greater than the distance of the frontal rim of the drum from the rotation axis, so that the first lip end is close to, but spaced apart from the frontal rim. | 2014-03-06 |
20140060123 | ADDITIVE INJECTING APPARATUS AND LAUNDRY TREATMENT MACHINE INCLUDING THE SAME - Provided are an additive injection apparatus and a laundry treatment machine including the same. The additive injection apparatus includes a main body, and additive container, a nozzle, and a floater. The main body is disposed on a path along which a solvent flows and includes an inlet and an outlet for receiving and discharging the solvent, respectively. The additive container holds an additive. The nozzle has a communicating hole for communicating between the main body and the additive container. The floater is disposed in the main body, and rises and falls according to the flow of the solvent to open and close the communicating hole. | 2014-03-06 |
20140060124 | BARREL LOCK - Provided is a barrel lock that can be used to securely lock a barrel opening, and in particular, a barrel pump positioned in a barrel opening. The barrel lock has a lock body, a closure mechanism, a locking mechanism, and is secured by a locking means. The lock body is capable of assuming an open position and a closed position for locking about the barrel pump. In a closed position, the locking mechanism is used to secure the lock body in a closed position and to secure the closure mechanism in engagement with the lock body, to thereby secure the barrel pump from use. | 2014-03-06 |
20140060125 | LOCKING ASSEMBLY FOR A PORTABLE ELECTRON DEVICE - A locking assembly for a portable electron device has a main frame, an inserting element and a lock. The main frame has a first clamping segment, a second clamping segment, a mounting segment and a limiting segment. The mounting segment is formed on and protrudes from the first clamping segment. The limiting hole is formed through the mounting segment and the first clamping segment. The inserting element is mounted through the limiting hole of the main frame. The lock is mounted around the mounting segment and the inserting element and has a body, a controlling element and an extending element. The body is mounted around the mounting segment. The controlling element is movably connected to the body. The extending element is securely connected to the body opposite to the controlling element. | 2014-03-06 |
20140060126 | LOCKING ARRANGEMENTS - A lock assembly includes a plurality of link members and a lock body. Each link member includes a first end having a first pivot feature defining a first pivot axis and a second end having a second pivot feature defining a second pivot axis disposed at an angle with respect to the first pivot axis. The plurality of link members includes a first end link member, a second end link member, and a plurality of intermediate link members pivotably connected to adjacent ones of the plurality of link members at the first and second pivot features. The lock body is pivotably connected to the first pivot feature of the first end link member and includes a locking mechanism and a locking member configured to lockingly engage the second pivot feature of the second end link member when the locking mechanism is moved to a locked condition. | 2014-03-06 |
20140060127 | PASSIVE DOOR LOCK MECHANISMS - A lock mechanism for an inactive door includes a housing configured to receive a locking element from an active door lock. A slide is movably received in the housing and includes a drive bar connection element, wherein when the slide is in an unlocked position, the drive bar connection element is located in a path of travel of the deadbolt, and wherein when the slide is in a locked position, the drive bar connection element is located outside the path of travel of the deadbolt. At least one drive bar at least partially received in the housing and is connected to the drive bar connection element. The drive bar is actuated by an actuator located remote from the housing. A blocking element located within the housing, wherein the blocking element prevents movement of the slide from the locked position to the unlocked position. | 2014-03-06 |
20140060128 | LOCKOUT DEVICE - A lockout device for a handle assembly includes first and second lockout members each including an outward facing base wall and outward extending first and second projections. The first and second projections of the first base member are spaced apart to receive the handle therebetween, and the first and second projections of the second base member are spaced apart to receive the handle latch therebetween. The first and second lockout members are pivotable with respect to each other to a lockout position for engagement of the base walls of the first and second lockout members with facing surfaces of a handle and a handle latch of the handle assembly. When the first and second lockout members are secured between the handle and the handle latch in the lockout position, the first and second lockout members block movement of the handle latch to prevent rotational movement of the handle assembly. | 2014-03-06 |
20140060129 | Lock Device and Method of Use - The present invention, and inventive system, describes a locking system that reinforces an existing recessed cover or tubular. In many embodiments of the present invention, the present invention reinforces an existing recessed cover by preventing the recessed covers from being easily removed by unauthorized persons and prevents any unauthorized personnel from accessing a locked down tubular. In one embodiment of the present invention, the inventive system is designed to maximize the overall strength of the locking unit for recessed covers or tubulars by using applied force on both the recessed cover and the circumference, curves, or straight, edge of the recessed unit or tubular interior. | 2014-03-06 |
20140060130 | PROCESSES AND SYSTEMS FOR CO-PRODUCING FERMENTATION PRODUCTS, FERTILIZERS, AND DISTILLERS GRAINS FROM STARCH-CONTAINING FEEDSTOCKS, AND COMPOSITIONS PRODUCED THEREFROM - The present invention provides a process for producing a fertilizer composition from still bottoms obtained from milling of a starch-containing feedstock (such as corn), comprising separating still bottoms into a solids stream and a thin stillage stream; removing water to generate a condensed distillers solubles stream; and recovering the condensed distillers solubles stream as a fertilizer composition. Novel fertilizer compositions as well as novel distillers grains products are co-produced with a fermentation product (such as ethanol or isobutanol). Benefits include the ability to recycle valuable crop nutrients in a sustainable manner; improved ethanol life cycle analysis due to lower crop inputs and lower energy consumption; reduced environmental burden from industrial animal farming due to nitrogen and phosphorous emissions; higher consumption of distillers grains in ruminants currently limited by sulfur and/or fat inhibition; and higher consumption of distillers grains in monogastrics due to higher protein digestibility and less heat damage. | 2014-03-06 |
20140060131 | FERTILIZER COMPOSITION - The present invention relates to compositions comprising an effective amount of sulphur, an effective amount of zinc sulphate or zinc oxide and at least one agrochemically acceptable excipient. | 2014-03-06 |