| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 137008000 | For producing uniform flow | 14 |
| 20080202590 | High Efficiency Valve Geometry For Pressure Regulator - A pressure regulator that has a geometry that reduces regulator droop is provided that reduces or eliminates the need for a larger package size for a given set of flow requirements. The regulator comprises a housing having a fuel inlet port and a fuel outlet port; at least one regulation stage having an input in fluidic communication with the fuel inlet port; a final regulation stage comprising an inlet in fluidic communication with an output of the at least one regulation stage, a mating valve seat in fluidic communication with the inlet, and a valve seat in movable contact with the mating valve seat, the valve seat having a bottom having an edge, the edge having means for reducing regulator droop; and means for moving the valve seat from a closed position to an open position in response to a pressure change. The means for reducing regulator droop comprises a reverse lip or an approximately square edge. | 08-28-2008 |
| 20080257412 | Fluid Delivery Device With Flow Rate Control - A device for delivering a fluid to a target site is disclosed in one embodiment of the invention as including a pump, a flow modulator, a flow meter, and a controller. The pump may generate a fluid stream characterized by a flow rate. The flow modulator may smooth out irregularities in the flow rate, thereby generating a second fluid stream having a second flow rate that is substantially more uniform than the first flow rate. The flow meter may measure the flow rate of the second fluid stream. The controller may then compare the flow rate of the second fluid stream to a target flow rate, and adjust the pump speed to substantially align the second flow rate with the target flow rate. | 10-23-2008 |
| 20080264490 | Methods and apparatus for heating air with hot water - A method controls an air handler that generates heated air from hot water generated by a water heater. The method includes generating a signal in the presence or absence of an indicia of water flow associated with the water heater; initiating operation of a pump associated with the air handler when the signal indicates that water flow associated with the water heater is at least at a selected level to supply hot water to the air handler sufficient to generate heated air; and/or terminating operation of the pump and/or a blower/fan associated with the air handler when the presence or absence signal indicates that the water flow associated with the water heater is less than the selected level. | 10-30-2008 |
| 20090217982 | ADJUSTABLE FLOW CONTROLLERS FOR REAL-TIME MODULATION OF FLOW RATE - Clamps to be used in conjunction with real-time or nearly real-time measurement of the flow rate of a fluid through a lumen. The clamps allow for more precise control over the volume of fluid delivered and over the flow rate. When the flow rate is determined to be too fast, the clamps are expanded, which slow down the flow rate. Conversely, when the flow rate is determined to be too slow, the clamps are returned to an unexpanded state, which increases the flow rate. Additionally, if an error state is observed, the clamps are designed to arrest flow, thereby preventing further delivery of fluid. | 09-03-2009 |
| 20090314352 | Variable flow rate controller - A variable flow rate controller is provided herein. The controller may have a linearly traversable switch such that the controller is primed to flush air bubbles out of the fluid system of the controller prior to administering fluidic medication to a patient. Moreover, the controller may have a plurality of valves which may be independently opened and closed by a caming surface. To close the valve, a first seal may be disposed between offset inlet and outlet to prevent fluid from flowing from the inlet to the outlet. To open the valve, the first seal is disposed on one side of both of the inlet and outlet. Fluid if permitted to flow from the inlet to the outlet. | 12-24-2009 |
| 20110079287 | SINGLE COMPONENT TWO-STAGE REGULATOR - Disclosed is a cylindrical, single-component two-stage regulator for controlling a pressure and a flow rate of a gas. The regulator includes a housing for holding the two stages having an ingress adapted for connection to a source of gas at a high input pressure and an egress adapted for supplying gas at a lower output pressure than the high input pressure; a first stage for reducing the pressure of the gas from the high input pressure to a fixed intermediate pressure; and a second stage for reducing the pressure of the gas from the fixed intermediate pressure to the lower output pressure and regulating the flow rate of the gas out of the egress. One application of the present invention is for use in SCUBA (Self-Contained Underwater Breathing Apparatus) applications, where it replaces the traditional two-component user-adjustable regulator. The regulator may be made out of stainless steel, and is small enough to fit into a user's mouthpiece. | 04-07-2011 |
| 20110265883 | METHODS AND APPARATUS FOR REDUCING FLOW SPLITTING ERRORS USING ORIFICE RATIO CONDUCTANCE CONTROL - Methods and apparatus for gas delivery to a process chamber are provided herein. In some embodiments, an apparatus for processing substrates may include a mass flow controller to provide a desired total fluid flow; a first flow control manifold comprising a first inlet, a first outlet, and a first plurality of orifices selectably coupled therebetween, wherein the first inlet is coupled to the mass flow controller; and a second flow control manifold comprising a second inlet, a second outlet, and a second plurality of orifices selectably coupled therebetween, wherein the second inlet is coupled to the mass flow controller; wherein a desired flow ratio between the first outlet and the second outlet is selectably obtainable when causing the fluid to flow through one or more of the first plurality of orifices of the first manifold and one or more of the second plurality of orifices of the second manifold. | 11-03-2011 |
| 20130153040 | FLOW RATE CONTROL USING MASS FLOW RATE CONTROL DEVICE - A process and device enabling accurate mass flow control is described. A mass flow controller can be re-specified corresponding to multiple types of actual process gases and multiple flow rate ranges, even after the mass flow controller has been shipped. Calibration gas data is derived using actual flow rate versus a flow rate setting signal to generate calibration gas data. Actual gas data is derived by measuring actual flow rate versus a flow rate setting signal for each actual gas and saving. Subsequently, prior to operating the mass flow rate control device, the characteristic data for an actual and the calibration gas characteristic data is recalled. The calibration gas characteristic data is then converted to controlled flow rate correction data based on the actual gas characteristic data that is saved to the control unit and the actual gas flow rate is corrected based on this controlled flow rate correction data. | 06-20-2013 |
| 20130233395 | Liquid flow control for film deposition - An apparatus for controlling liquid flow wherein the apparatus comprises an orifice and an adjacent flexible diaphragm separated from each other by a gap through which a liquid flows. The diaphragm is sufficiently flexible to vary the gap thereby controlling the rate of liquid flowing through the orifice or to provide a positive liquid shutoff of liquid flowing through the orifice. A method for controlling liquid flow through the apparatus comprises flexing said diaphragm to vary a size of the gap to control the rate of liquid flowing through the orifice or to provide a positive liquid shutoff of liquid from flowing through the orifice. | 09-12-2013 |
| 20140209177 | METHODS AND APPARATUS FOR A GAS PANEL WITH CONSTANT GAS FLOW - A gas panel according to various aspects of the present invention is configured to deliver a constant flow rate of gases to a reaction chamber during a deposition process step. In one embodiment, the gas panel comprises a deposition sub-panel having a deposition injection line, a deposition vent line, and at least one deposition process gas line. The deposition injection line supplies a mass flow rate of a carrier gas to a reactor chamber. Each deposition process gas line may include a pair of switching valves that are configured to selectively direct a deposition process gas to the reactor chamber or a vent line. The deposition vent line also includes a switching valve configured to selectively direct a second mass flow rate of the carrier gas that is equal to the sum of the mass flow rate for all of the deposition process gases to the reactor chamber or a vent line. The gas panel is configured to substitute the mass flow rate of the deposition vent line with the mass flow rate of the deposition process lines, such that when the deposition vent line is directed to the reactor chamber the deposition process lines are directed to the vent line and when the deposition vent line is directed to the vent line the deposition process lines are directed to the reactor chamber. The substitution of the two mass flow rates maintains a constant mass flow rate of gases to the reactor chamber throughout the deposition process step. | 07-31-2014 |
| 20140283918 | Valve Flow Control Optimization via Customization of an Intelligent Actuator - A valve arrangement including a valve and a valve actuation arrangement is provided. The valve has a known flow profile. The valve includes a valve member and a valve stem operably coupled to the valve member for adjusting the position of the valve member. The valve actuation arrangement is operably coupled to the valve stem. The valve actuation arrangement includes a drive arrangement and a control arrangement. The drive arrangement is operably coupled to the valve stem and configured to adjust an actual stem position of the valve stem based on an actual stem positional signal. The control arrangement is configured to generate the actual stem positional signal. The control arrangement is configured to generate the actual stem positional signal based on an input control signal representing a desired stem position based on a desired flow profile being different than the known flow profile. | 09-25-2014 |
| 20140326323 | Apparatus and Method for Introducing a First Fluid into the Flow Path of a Second Fluid and Use of Such an Apparatus - An apparatus for mixing a first fluid into a flow path ( | 11-06-2014 |
| 20170234339 | USE OF TREATING ELEMENTS TO FACILITATE FLOW IN VESSELS | 08-17-2017 |
| 20180023598 | USE OF TREATING ELEMENTS TO FACILITATE FLOW IN VESSELS | 01-25-2018 |
