Patent application number | Description | Published |
20110239664 | FLUID LEVEL MEASUREMENT SYSTEM AND METHOD - A transport refrigeration system for a transportable temperature controlled space includes a compressor, a condenser and an evaporator fluidly connected to one another, an engine operatively connected to the compressor, and a fuel tank assembly fluidly connected to the engine. The fuel tank assembly includes a fuel tank configured to contain the fuel, a fuel vapor and air, and an ultrasonic fluid level sensor for sensing a level of fuel, the fuel tank having a maximum fuel level. The fluid level sensor includes a transducer having a ring period. The distance from the fluid level sensor to the maximum fuel level is at least half the distance that the sound travels through the fuel vapor and air during the ring period of the transducer. | 10-06-2011 |
20120261396 | FLUID LEVEL MEASUREMENT SYSTEM AND METHOD - A method for measuring a fluid level in a tank containing a fluid for a transportable temperature controlled space. The method includes providing a temperature control system for the transportable temperature controlled space, providing a fluid level sensor for sensing a fluid level in the tank, generating fluid level signals with the fluid level sensor indicative of the fluid level in the tank, providing a fluid level algorithm for receiving the fluid level signals from the fluid level sensor and computing the fluid level in the tank, and inhibiting nondeterministic fluid level signals from being introduced to the fluid level algorithm. | 10-18-2012 |
20150177047 | FLUID LEVEL MEASUREMENT SYSTEM AND METHOD - A transport refrigeration system for a transportable temperature controlled space includes a compressor, a condenser and an evaporator fluidly connected to one another, an engine operatively connected to the compressor, and a fuel tank assembly fluidly connected to the engine. The fuel tank assembly includes a fuel tank configured to contain the fuel, a fuel vapor and air, and an ultrasonic fluid level sensor for sensing a level of fuel, the fuel tank having a maximum fuel level. The fluid level sensor includes a transducer having a ring period. The distance from the fluid level sensor to the maximum fuel level is at least half the distance that the sound travels through the fuel vapor and air during the ring period of the transducer. | 06-25-2015 |
Patent application number | Description | Published |
20120004028 | PROGRESSIVE JACKPOT ALERTS IN A GAMING SYSTEM - Various embodiments are directed to a gaming system capable of providing progressive level alerts or promotions when a progressive jackpot reaches a predetermined value. In one embodiment, the user is able to register for a progressive level alert. In another embodiment, the progressive level alert is presented on an affiliated or third party website. By providing progressive jackpot amount information, the user, who may not otherwise patronize a casino, is encouraged to visit the particular casino offering games capable of awarding a progressive jackpot prize of a predetermined amount. | 01-05-2012 |
20140171189 | PROGRESSIVE JACKPOT ALERTS IN A GAMING SYSTEM - Various embodiments are directed to a gaming system capable of providing progressive level alerts or promotions when a progressive jackpot reaches a predetermined value. In one embodiment, the user is able to register for a progressive level alert. In another embodiment, the progressive level alert is presented on an affiliated or third party website. By providing progressive jackpot amount information, the user, who may not otherwise patronize a casino, is encouraged to visit the particular casino offering games capable of awarding a progressive jackpot prize of a predetermined amount. | 06-19-2014 |
20150254935 | PROGRESSIVE JACKPOT ALERTS IN A GAMING SYSTEM - Various embodiments are directed to a gaming system capable of providing progressive level alerts or promotions when a progressive jackpot reaches a predetermined value. In one embodiment, the user is able to register for a progressive level alert. In another embodiment, the progressive level alert is presented on an affiliated or third party website. By providing progressive jackpot amount information, the user, who may not otherwise patronize a casino, is encouraged to visit the particular casino offering games capable of awarding a progressive jackpot prize of a predetermined amount. | 09-10-2015 |
Patent application number | Description | Published |
20120218356 | CONSUMABLE SUPPLY ITEM WITH CAPACITIVE FLUID LEVEL DETECTION FOR MICRO-FLUID APPLICATIONS - A consumable supply item for an imaging device holds an initial or refillable volume of fluid. Its housing defines an interior having a pair of opposed electrodes. The electrodes define a capacitance that varies in response to an amount of liquid between them. A volume space filled by the liquid varies along a length of the electrodes. The design facilitates abrupt changes in capacitance values at each change in the volume space. Devices can recalibrate fluid levels at these changes. Electrode interior surfaces face one another. At least one electrode has an open region, such as a hole or a cutout of material. In another design, a support material connects to each electrode to provide mechanical stability and create a region preventing filling by the liquid. Further embodiments contemplate material selection, construction, and modularity, to name a few. | 08-30-2012 |
20120306973 | CONSUMABLE SUPPLY ITEM WITH FLUID SENSING FOR MICRO-FLUID APPLICATIONS - A consumable supply item for an imaging device holds an initial or refillable volume of ink. A housing defines an interior having a pair of opposed electrodes. The electrodes have a capacitance that varies in response to an amount of liquid between them. A controller energizes one electrode and receives an output reading from the other. The controller processes the reading on board the housing and supplies it as a digital data stream to the imaging device during use. A memory stores calibration values for an empty and full housing. The controller writes back to the memory present fluid levels obtained from the output reading of the electrode. An enable output allows operation or not of a fluid pump in the imaging device. Materials, construction, modularity, and fluid communication ports are further embodiments, to name a few. | 12-06-2012 |
20120306974 | CONSUMABLE SUPPLY ITEM WITH FLUID SENSING AND PUMP ENABLE FOR MICRO-FLUID APPLICATIONS - A consumable supply item for an imaging device holds an initial or refillable volume of ink. A housing defines an interior having a pair of opposed electrodes. The electrodes have a capacitance that varies in response to an amount of liquid between them. A controller energizes one electrode and receives an output reading from the other. The controller processes the reading on board the housing and supplies it as a digital data stream to the imaging device during use. A memory stores calibration values for an empty and full housing. The controller writes back to the memory present fluid levels obtained from the output reading of the electrode. An enable output allows operation or not of a fluid pump in the imaging device. Materials, construction, modularity, and fluid communication ports are further embodiments, to name a few. | 12-06-2012 |
Patent application number | Description | Published |
20130074594 | FLUID TILT SENSOR WITHIN INK TANK SUPPLY ITEM FOR MICRO-FLUID APPLICATIONS - A container for holding a volume of fluid and having a housing defining an interior for retaining the volume of fluid; at least one in-tank tilt sensor connected to a controller and disposed inside the housing for generating a signal corresponding to a level of fluid inside the housing; and a support material attached to the housing and connected to the at least one in-tank tilt sensor to mechanically support the at least one in-tank tilt sensor such that the at least one in-tank tilt sensor is not in direct contact with the fluid inside the housing. The in-tank tilt sensor detects a change in fluid level which may only be caused by tilting of the imaging device. When tilting is registered, protective action is taken to prevent fluid from leaking. | 03-28-2013 |
20130074595 | FLUID TILT SENSOR WITHIN INK TANK SUPPLY ITEM FOR MICRO-FLUID APPLICATIONS - A container for holding a volume of fluid and having a housing defining an interior for retaining the volume of fluid; at least one in-tank tilt sensor connected to a controller and disposed inside the housing for generating a signal corresponding to a level of fluid inside the housing; and a support material attached to the housing and connected to the at least one in-tank tilt sensor to mechanically support the at least one in-tank tilt sensor such that the at least one in-tank tilt sensor is not in direct contact with the fluid inside the housing. The in-tank tilt sensor detects a change in fluid level which may only be caused by tilting of the imaging device. When tilting is registered, protective action is taken to prevent fluid from leaking. | 03-28-2013 |
20130286064 | Fluid Tilt Sensor Within Ink Tank Supply Item for Micro-Fluid Applications - A container for holding a volume of fluid and having a housing defining an interior for retaining the volume of fluid; at least one in-tank tilt sensor connected to a controller and disposed inside the housing for generating a signal corresponding to a level of fluid inside the housing; and a support material attached to the housing and connected to the at least one in-tank tilt sensor to mechanically support the at least one in-tank tilt sensor such that the at least one in-tank tilt sensor is not in direct contact with the fluid inside the housing. The in-tank tilt sensor detects a change in fluid level which may only be caused by tilting of the imaging device. When tilting is registered, protective action is taken to prevent fluid from leaking. | 10-31-2013 |
20130300786 | Fluid Tilt Sensor Within Ink Tank Supply Item for Micro-Fluid Applications - A container for holding a volume of fluid and having a housing defining an interior for retaining the volume of fluid; at least one in-tank tilt sensor connected to a controller and disposed inside the housing for generating a signal corresponding to a level of fluid inside the housing; and a support material attached to the housing and connected to the at least one in-tank tilt sensor to mechanically support the at least one in-tank tilt sensor such that the at least one in-lank tilt sensor is not in direct contact with the fluid inside the housing. The in-tank tilt sensor detects a change in fluid level which may only be caused by tilting of the imaging device. When tilting is registered, protective action is taken to prevent fluid from leaking. | 11-14-2013 |
20140183087 | Fluid Level Sensing Tank Materials - A fluid tank for micro-fluid ejection devices is provided. The fluid tank includes housing with an interior surface coating. The interior surface coating has a highly hydrophobic to super hydrophobic surface with water contact angle of greater than about 120° and surface energy of less than about 20 mJ/m | 07-03-2014 |
Patent application number | Description | Published |
20080316246 | METHOD FOR CALIBRATING AN INK SENSE RESPONSE IN AN APPARATUS CONFIGURED TO FACILITATE OPTICAL INK SENSING - A method for calibrating as ink sense response of an optical ink sensor device in an imaging apparatus configured to facilitate optical ink sensing for an ink tank having an ink sensing window includes obtaining a calibration response to a reference reflective surface having a known reflectivity, which is associated with a printhead carrier of the imaging apparatus that carries the ink tank, using the optical ink sensor device; and calibrating the ink sense response based on the calibration response. | 12-25-2008 |
20090160886 | METHODS AND SYSTEMS USING PRINTHEAD TANK MEMORY TO DETERMINE PRINTHEAD TANK CONFIGURATION - Methods and systems using printhead tank memory to determine printhead tank configuration are provided in accordance with embodiments of the invention. One example embodiment of the invention may include a printhead ink tank. The printhead ink tank may include a memory tag readable by a printer memory tag reader in communication with a printer controller. The memory tag may further include ink tank configuration instructions that include at least one of an ink tank configuration identifier or at least one ink tank location identifier. The ink tank configuration instructions can cause the printer controller to perform at least one memory operation associated with the memory tag. | 06-25-2009 |
20090160893 | METHODS AND APPARATUS FOR OPTIMIZING ENERGY SUPPLIED TO A PRINT HEAD HEATER - Methods and apparatuses for optimizing the energy supplied to a print head heater are disclosed. A resistance associated with the print head heater or actuator is determined. A range of fire pulse values is determined based at least in part on the determined resistance and a velocity optimization procedure is executed based at least in part on the determined range of fire pulse values. An optimal fire pulse for the print head heater is selected based at least in part on the results of the velocity optimization procedure. | 06-25-2009 |
20100103230 | MULTI-COLOR INK TANK WITH ELEMENTS ENABLING COMPATIBILITY WITH A SUPPORT STRUCTURE FOR INDIVIDUAL DIFFERENT COLOR IN TANKS - A multi-color ink tank is adapted to replace individual different color ink tanks in a cavity of a given support structure. Elements on the body of the multi-color ink tank have configurations enabling compatibility with the support structure. The elements include empty opposite side portions of the body defining laterally spaced apart bottom openings that adapt the opposite side portions to seat in spaced slots in the cavity over keys therein and an intermediate central recessed region defined between the opposite side portions that adapts the body to straddle an intermediate slot between the spaced slots and a key therein and also straddle partitions in the cavity forming the slots. The elements also include tabs blocking some latches used to releasably lock some individual ink tanks to thereby identify the latch to be used to releasably lock the multi-color ink tank. | 04-29-2010 |
20100123747 | METHOD FOR DETECTING PURGING INK FLOW THROUGH PRINTHEAD HEATER CHIP NOZZLES BY THERMAL ANALYSIS - A method for detecting ink flow through a printhead, due to a successful purging of the nozzles of a heater chip of the printhead, includes moving the printhead to a location in preparation for a purging operation such that a purge pump is connected in flow communication with heater chip nozzles, setting the manner in which the purge pump operates to suction ink through nozzles of the heater chip from a source of ink, performing a thermal analysis on the heater chip concurrently as the purge pump operates to determine whether ink is flowing through the heater chip nozzles and whether the purge pump should continue to operate, and adjusting the manner in which the purge pump continues to operate in response to the thermal analysis. | 05-20-2010 |
20100295882 | METHOD FOR MEASURING INK FLOW RATE IN AN INKJET PRINTHEAD - A method of determining the state of a printhead/cartridge in a thermal inkjet printer. An inkjet printhead undergoes a jetting operation in which a jetting frequency is selected and a corresponding steady state printhead temperature is known. The printhead is heated to the steady state temperature. Then the printhead is jetted with all nozzles for a predetermined period of time. Temperature samples from the printhead are obtained and the change in the printhead temperature for a short period of time is used to determine a slope in the temperature change. From the slope of printhead temperature changes, the ink flow rate through the printhead can be determined. The flow rate of ink through the printhead can be used to determine the various states of the printhead, including out of ink, clogged, deprimed, a taped printhead, etc. | 11-25-2010 |
20110032290 | METHODS AND SYSTEMS USING PRINTHEAD TANK MEMORY TO DETERMINE PRINTHEAD TANK CONFIGURATION - Methods and systems using printhead tank memory to determine printhead tank configuration are provided in accordance with embodiments of the invention. One example embodiment of the invention may include a printhead ink tank. The printhead ink tank may include a memory tag readable by a printer memory tag reader in communication with a printer controller. The memory tag may further include ink tank configuration instructions that include at least one of an ink tank configuration identifier or at least one ink tank location identifier. The ink tank configuration instructions can cause the printer controller to perform at least one memory operation associated with the memory tag. | 02-10-2011 |