Patent application number | Description | Published |
20090077736 | Lavatory System - A lavatory system is disclosed to include one or more integrated hand washing stations. Each hand washing station includes a basin, a faucet, a solenoid valve configured to control water flow to the faucet, and a electric hand dryer located adjacent the basin and the faucet so that the user of the washing station may use the faucet and the electric hand dryer without leaving the washing station. The electric hand dryer preferably includes an outlet to direct air across the associated basin so that any water that drips from the user's hands will fall within the basin. A control system may be provided to control activation of the fixtures such as the solenoid valve, the electric hand dryer, and/or soap dispenser. The control system may be configured, for example, to inhibit simultaneous activation of the solenoid valve and the hand dryer. A photovoltaic system may be provided to provide power to one or more of electrical fixtures. | 03-26-2009 |
20110271441 | Lavatory System with Hand Dryer - A lavatory system including a countertop and a first hand washing station is provided. The first hand washing station includes a basin supported by the countertop and a faucet supported by the countertop. The lavatory system also includes a hand dryer including a housing supported by the countertop. The housing defines a cavity in which a user's hands are inserted during drying, and a motor configured to generate blown air which is supplied to the cavity. The housing is located such that the user's hands may be inserted into the cavity without the user leaving the first hand washing station. | 11-10-2011 |
20120260418 | Lavatory System with Overflow Prevention and Other Features - Systems and methods for a lavatory system are described that include a bidirectional hand dryer having a top, bottom, back, and right side and multiple sensors and LEDs. Upper and lower nozzles are also provided and respectively connected to upper and lower plenums. At least two flexible air delivery hoses are connected to the plenums. A motor housing is provided and includes a motor, ports connected to the hoses, noise abatement features, and a motor microcontroller. A hand-receiving cavity exists between the top, back, right, and bottom side for receiving at least one hand of a user. Tips are connected to the nozzles and emit high speed colliding columns of air to shear water off of the user's hand. The columns of air are spaced and calibrated in such a way as to reduce forces on the user's hand which would otherwise move the hand toward the side surfaces. | 10-18-2012 |
20120260729 | Soap Dispenser Having Fluid Level Sensor - A fill level sensor for a liquid soap container or vessel has a float-bearing arm and an accelerometer that is attached to a surface of the arm to detect changes in the volume of liquid soap in the container. A feedback system then conveys fill status information based on the output of the accelerometer, such as to service personnel who may be responsible for replenishing the supply of liquid soap in the container. | 10-18-2012 |
20150052678 | Basin and Hand Drying System - A basin and hand drying system includes a hand dryer attached to a basin. The hand dryer includes a top air plenum and a bottom air plenum. The air plenums include a plurality of air outlets that direct pressurized air from a blower motor for hand drying. A soap dispenser and faucet mount on the basin for dispensing liquefied soap and water for hand washing. | 02-26-2015 |
Patent application number | Description | Published |
20090194067 | SERVICE PACK POWER MANAGEMENT - A power management system, in certain aspects, may utilize direct load sensing feedback from the prime mover (e.g., engine), thereby reducing the possibility of overloading the prime mover. The use of direct load sense feedback from the prime mover can then be used with additional feedback, such as prime mover RPM feedback and individual output load sensing feedback, to directly control the output loads and set the primary power sources rpm set-point to better manage the power available and reduce the possibility of overloading the primary power source. | 08-06-2009 |
20100199655 | HYDRAULIC PUMP CONTROL SYSTEM - A hydraulic load ramping system, in certain aspects, may utilize load sensing feedback from an engine, thereby reducing the possibility of overloading the engine as well as smoothing the transition between hydraulic load levels. In particular, by ramping between hydraulic load levels, unwanted movement of hydraulically-driven equipment may be minimized. In addition, by efficiently monitoring the load sensing feedback and ramping between hydraulic load levels, the hydraulic output may be maximized. | 08-12-2010 |
20100199753 | FUEL USAGE MONITORING SYSTEM FOR A SERVICE PACK - A fuel usage monitoring system, in certain aspects, may be configured to determine the fuel usage rate of a work vehicle service pack engine using control signals relating to operating parameters of the service pack engine and associated equipment. In certain embodiments, the control signals may relate to operating parameters of the engine, a fuel injection pump associated with the engine, a governor associated with the fuel injection pump, a fuel reservoir associated with the engine, and other components associated with the engine. In particular, the control signals may relate a position of a control rack of the fuel injection pump. The control signals may be correlated with fuel usage rates prior to operation of the fuel usage monitoring system. In addition, the correlations may vary as certain parameters of the engine, such as operating speed, vary. The correlations may be implemented as algorithms within software of the fuel usage monitoring system. | 08-12-2010 |
20100199950 | COMPRESSOR CONTROL FOR DETERMINING MAXIMUM PRESSURE, MINIMUM PRESSURE, ENGINE SPEED, AND COMPRESSOR LOADING - A load control system, in certain aspects, may be configured to decrease the amount of noise pollution of a prime mover (e.g., engine) of a service pack in that it may not require the prime mover to operate at higher discrete operating speeds to deliver small amounts of air from the air compressor. The load control system may also only increase the speed of the prime mover to a minimum discrete speed required, keeping noise at a minimum. The load control system may also maximize fuel efficiency by not operating the prime mover at the highest discrete speed at all times. More specifically, the lower operating speeds may lead to less fuel consumption. | 08-12-2010 |
20100316505 | Compressor Freeze Up Prevention in Cold Weather - The present embodiments provide a control system and method that is able to automatically cycle one or more compressor valves, for example to prevent freeze up. For example, in one embodiment, a system includes a compressor having a compression device configured to increase a pressure of a gas, a valve configured to control flow of the gas from the compression device, and a controller configured to cycle the valve to reduce buildup of contaminants in the compressor. | 12-16-2010 |
20100318283 | AUTOMATIC START AND STOP OF A PORTABLE ENGINE DRIVEN POWER SOURCE - The present embodiments provide a control system and method that is able to automatically start and/or stop a portable engine-driven power source. For example, in one embodiment, a system includes an engine-driven power source having an engine, a compressor driven by the engine, a sensor configured to generate a first signal indicative of a demand for air pressure from the compressor and a second signal indicative of no demand for air pressure from the compressor. The engine-driven power source also includes a controller configured to stop the engine in response to the second signal. | 12-16-2010 |
20110052415 | AUTOMATIC COMPRESSOR OVERPRESSURE CONTROL - The present embodiments provide a system having a motor, a compressor having a compression device configured to increase a pressure of a gas, a clutch configured to selectively transfer torque from the motor to the compressor to drive the compression device, and a controller configured to disengage the clutch if the pressure of the gas in the compressor meets or exceeds a first threshold pressure. | 03-03-2011 |
20110173963 | LOW SPEED HYDRAULIC CONTROL FOR FINE CONTROL OF HYDRAULIC CRANES - The present disclosure provides embodiments directed towards a method and a system for fine control of hydraulic cranes. In one embodiment, a system is provided. The system includes a service pack having an engine. The engine has an operating speed ranging from a low speed to a high speed, a hydraulic pump coupled to the engine, wherein the hydraulic pump is configured to supply a hydraulic output to a hydraulic load, and a control system configured to control the hydraulic output. The control system includes a fine control mode configured to lock the engine in the low speed and control the hydraulic output in proportion to a percentage of a trigger activation. | 07-21-2011 |
20120023921 | HYDRAULIC TOOL CONTROL WITH ELECTRONICALLY ADJUSTABLE FLOW - The present disclosure provides embodiments directed towards a system for the control of hydraulic output by a hydraulic power source. In one embodiment, a system is provided. The system includes a hydraulic supply system having a drive, a hydraulic pump coupled to the drive, a first hydraulic output configured to supply a first flow of a hydraulic fluid from the hydraulic pump to a hydraulic lift, a second hydraulic output configured to supply a second flow of the hydraulic fluid from the hydraulic pump to a first hydraulic tool, and a controller configured to adjust a speed of the drive in response to a feedback indicative of a first load by the hydraulic lift, a second load by the first hydraulic tool, or a combination thereof. | 02-02-2012 |
20120023922 | OPERATOR INTERFACE FOR HYDRAULIC TOOL CONTROL - The present disclosure provides embodiments directed towards a system for the control of hydraulic output by a hydraulic power source. In one embodiment, a system is provided. The system includes a hydraulic supply system having a drive, a hydraulic pump coupled to the drive, a first hydraulic output configured to supply a first flow of a hydraulic fluid from the hydraulic pump to a hydraulic lift, a second hydraulic output configured to supply a second flow of the hydraulic fluid from the hydraulic pump to a first hydraulic tool, and a controller configured to adjust a speed of the drive in response to a feedback indicative of a first load by the hydraulic lift, a second load by the first hydraulic tool, or a combination thereof. | 02-02-2012 |
20120023923 | HYDRAULIC TOOL THAT COMMANDS PRIME MOVER OUTPUT - The present disclosure provides embodiments directed towards a system for the control of hydraulic output by a hydraulic power source. In one embodiment, a system is provided. The system includes a hydraulic supply system having a drive, a hydraulic pump coupled to the drive, a first hydraulic output configured to supply a first flow of a hydraulic fluid from the hydraulic pump to a hydraulic lift, a second hydraulic output configured to supply a second flow of the hydraulic fluid from the hydraulic pump to a first hydraulic tool, and a controller configured to adjust a speed of the drive in response to a feedback indicative of a first load by the hydraulic lift, a second load by the first hydraulic tool, or a combination thereof. | 02-02-2012 |
20120029775 | HYDRAULIC TOOL CONTROL THAT SWITCHES OUTPUT - The present disclosure provides embodiments directed towards a system for the control of hydraulic output by a hydraulic power source. In one embodiment, a system is provided. The system includes a hydraulic supply system having a drive, a hydraulic pump coupled to the drive, a first hydraulic output configured to supply a first flow of a hydraulic fluid from the hydraulic pump to a hydraulic lift, a second hydraulic output configured to supply a second flow of the hydraulic fluid from the hydraulic pump to a first hydraulic tool, and a controller configured to adjust a speed of the drive in response to a feedback indicative of a first load by the hydraulic lift, a second load by the first hydraulic tool, or a combination thereof. | 02-02-2012 |
20140129118 | AUTOMATIC START AND STOP OF A PORTABLE ENGINE DRIVEN POWER SOURCE - The present embodiments provide a control system and method that is able to automatically start and/or stop a portable engine-driven power source. For example, in one embodiment, a system includes an engine-driven power source having an engine, a compressor driven by the engine, a sensor configured to generate a first signal indicative of a demand for air pressure from the compressor and a second signal indicative of no demand for air pressure from the compressor. The engine-driven power source also includes a controller configured to stop the engine in response to the second signal. | 05-08-2014 |
20150073684 | AUTOMATIC START AND STOP OF A PORTABLE ENGINE DRIVEN POWER SOURCE - The present embodiments provide a control system and method that is able to automatically start and/or stop a portable engine-driven power source. For example, in one embodiment, a system includes an engine-driven power source having an engine, a compressor driven by the engine, a sensor configured to generate a first signal indicative of a demand for air pressure from the compressor and a second signal indicative of no demand for air pressure from the compressor. The engine-driven power source also includes a controller configured to stop the engine in response to the second signal. | 03-12-2015 |
Patent application number | Description | Published |
20120000937 | SHROUD AND DISPENSING SYSTEM FOR A HANDHELD CONTAINER - A dispensing system includes a shroud having a gripping portion. An actuation area of the shroud is between about 15% to about 95% of a surface area of the gripping portion. | 01-05-2012 |
20120000938 | SHROUD AND DISPENSING SYSTEM FOR A HANDHELD COUNTAINER - A dispensing system includes a shroud for holding a container. An opening is within the shroud. An actuation portion is within a sidewall of the shroud. Between about 0% to about 25% of a length of a sidewall of the container is visible below a bottom edge of the shroud. | 01-05-2012 |
20120000939 | SHROUD AND DISPENSING SYSTEM FOR A HANDHELD COUNTAINER - A dispensing system includes a container and a shroud for holding the container. The shroud includes a gripping portion. The gripping portion includes an actuation area that is activated by a user upon exertion of an average force per finger of less than about 31 kPa. | 01-05-2012 |
20120000940 | SHROUD AND DISPENSING SYSTEM FOR A HANDHELD COUNTAINER - A dispensing system includes a manifold adapted to be fluidly coupled to a valve stem of a container. A shroud has a gripping portion and is adapted to fit within a user's hand. The gripping portion includes first and second cutout portions and at least one actuation member. A force applied to the gripping portion causes the at least one actuation member to contact the manifold to force the manifold downwardly. | 01-05-2012 |
20120031928 | Shroud and Dispensing System for a Handheld Container - A dispensing system includes a shroud for holding a container that is adapted to fit within a user's hand. The shroud includes a first diameter proximate a bottom edge of the shroud, a second diameter between the bottom edge and a top edge of the shroud, and a third diameter proximate the top edge of the shroud. An actuation member forms a portion of a sidewall of the shroud and the second diameter is less than the first diameter. | 02-09-2012 |
20120031933 | Shroud and Dispensing System for a Handheld Container - An actuation member for a dispensing system includes a shroud that is adapted to be gripped by a hand of a user. The actuation member includes a portion of a sidewall of the shroud. The portion is integral with the sidewall of the shroud such that no visible or distinct trigger is formed as part of the dispensing system. | 02-09-2012 |
20120037663 | Shroud and Dispensing System for a Handheld Container - A dispensing system includes a shroud for holding a container. The shroud has a gripping portion adapted to be gripped by a hand of a user and an actuation area. The actuation area is activated by a user upon exertion of a force generally transverse to a central longitudinal axis. The force rotates the actuation area about a rotation point that is on the central longitudinal axis of the dispensing system. | 02-16-2012 |
20120118918 | Shroud and Dispensing System for a Handheld Container - A dispensing system has a central longitudinal axis and includes a shroud adapted to receive a container. The shroud includes a gripping portion adapted to be gripped by a hand of a user. The dispensing system also includes an actuation member adapted to rotate about a rotation point on a rotation axis toward an interior of the shroud in response to a force applied to the actuation member by the user. The actuation member is configured such that a rotation distance is at least about 6 centimeters. The rotation distance is measured in a direction parallel to the central longitudinal axis between a location where the user can apply the force to the actuation member and the rotation point of the actuation member. | 05-17-2012 |
20120217243 | Shroud and Dispensing System for a Handheld Container - A closure member for a shroud includes an annular wall and no more than one raised surface, interior of the annular wall, which extends upwardly beyond any other component of the closure member. The raised surface is configured to inhibit movement of a container both longitudinally and laterally when the annular wall is attached to a shroud with a container disposed therein. | 08-30-2012 |
20150034584 | THERMOPLASTIC BOTTLE WITH VALVE CUP RETAINING PROTRUSIONS AND METHOD OF CRIMPING A VALVE CUP ON A THERMOPLASTIC BOTTLE - A thermoplastic bottle has a crimped valve cup and a method of manufacturing a thermoplastic bottle includes crimping a valve cup to such a bottle. The thermoplastic bottle and valve cup may be used in a system to dispense aerosol products. At least one protrusion extends from a flange of the bottle to which the valve cup is crimped. Prior to being crimped to the bottle, the valve cup is set to the bottle with an interference fit between a crimping portion of the valve cup and the protrusion. The interference fit prevents shifting of the valve cup from its set position on the bottle prior before the valve cup is crimped. | 02-05-2015 |