Class / Patent application number | Description | Number of patent applications / Date published |
073202000 | Proportional | 34 |
20080202230 | Air flow measuring device - The present invention provides an air flow measuring device comprising a housing with a sub-passage having a inlet and a outlet for air flow formed in the housing, the sub-passage further having a predefined curvature with a maximum downstream point and a flow measuring element located in the sub-passage at a position at least further downstream from the point. | 08-28-2008 |
20090007654 | FLOW SENSOR - The flow meter is equipped with first and second flow paths, provided in parallel and through which flows fluid having flowed through and being diverted from a main flow path, the flow diversion ratio among the first and second flow paths changing passively in accordance with the flow rate of fluid through the main flow path, and a flow rate sensor provided on at least one of the first and second flow paths. The first and second flow paths are formed, for example, as flow paths having different flow path cross-sectional areas, or alternatively are formed from mesh elements provided with mesh-free areas on a portion thereof. Alternatively, one of the either the first or second flow path is realized with a paddle mechanism incorporated therein. | 01-08-2009 |
20090025472 | SENSOR MANIFOLDS - Sensor manifolds include a housing having at least two fluid flow passages communicating with fluid entry and exit ports in the housing that are connectable in line in a full flow fluid line in a system. One or more sensor ports in the housing communicate with one or more of the flow passages for housing one or more sensors for sensing one or more characteristics, qualities or conditions of the fluid flowing through the housing without subjecting the sensor to the full fluid flow through the housing. | 01-29-2009 |
20090044619 | DEVICES AND METHODS FOR PRODUCING A CONTINUOUSLY FLOWING CONCENTRATION GRADIENT IN LAMINAR FLOW - The invention generally relates to combining a plurality of flow streams. In various embodiments, a first channel transports a first laminar fluid flow, a second channel transports a second laminar fluid flow, and the first and second channels enter a merging region at an acute angle to one another along separate substantially parallel planes. | 02-19-2009 |
20090078039 | FLOW RATE MEASURING DEVICE - A secondary flow channel of a flow rate measuring device includes: a guide flow channel in which an upstream side communicates with a guide port serving as a first bifurcation point, and a downstream side serves as a second bifurcation point; a first secondary flow channel in which an upstream side is bifurcated from a guide flow channel at the second bifurcation point and formed to be parallel to a primary flow channel, and a downstream side communicates with a discharge port; a second secondary flow channel in which an upstream side is bifurcated from the guide flow channel at the second bifurcation point and formed to cross the primary flow channel; and a detection flow channel in which an upstream side communicates with a downstream side of the second secondary flow channel, a flow rate detecting element is disposed, and a downstream side communicates with the discharge port. | 03-26-2009 |
20090095068 | SYSTEM FOR AND METHOD OF PROVIDING A WIDE-RANGE FLOW CONTROLLER - An improved flow measuring device, such as a mass flow meter or mass flow controller, providing a high turn-down ratio as compared to prior art devices. In accordance with various embodiments of the invention, a flow sensor includes a sensor flow path that includes one or more restrictions configured to provide the sensor flow path with a non-linear relationship between a pressure drop across the sensor flow path and the flow of fluid through the flow sensor conduit. Such a flow sensor preferably achieves a high turn-down ratio by way of a variable bypass ratio that is directly proportional to the sensor tube mass flow rate so that the turn-down ratio of the mass flow controller will be ideally proportional to the square of the turndown achievable by the flow sensor conduit fluid sensing portion alone. In some embodiments, the restriction can be employed as a part of a fluid seal having an orifice and disposed between a flow sensor portion of a flow meter and a bypass portion of the flow meter. | 04-16-2009 |
20100175468 | FLOW METER - A flow meter includes: a body portion comprising a main flow path wherein flows a fluid to be measured, a first branch flow portion wherein the fluid to be measured branches and flows from the main flow path, a second branch flow portion wherein the fluid to be measured, which branches and flows from the first branch flow portion, flows into the main flow path, and narrow portions for restricting the flow of the fluid to be measured, provided in a primary flow path between the branch flow portions, a branched flow path structuring portion through which flows the fluid to be measured, connected to the branch flow portions; and a fluid measuring portion provided with a sensor disposed facing a flow path that is provided in the branched flow path structuring portion, wherein the sensor measures the fluid based on the detection results of the fluid introduced from the branch flow portions. | 07-15-2010 |
20110146397 | FLOW RATE MEASUREMENT DEVICE - A flow rate measurement device has a main flow pipe having a main flow passage through which a gas passes, an orifice for limiting a flow of the gas in the main flow passage, and an auxiliary flow passage block provided with an auxiliary flow passage having one end communicating with a pair of introduction ports opened in the main flow passage on the upstream side of the orifice and the other end communicating with a pair of discharge ports opened in the main flow passage on the downstream side of the orifice. The auxiliary flow passage includes a pair of introduction flow passages having upstream ends respectively communicating with the introduction ports, an upstream auxiliary flow passage having both ends respectively connected to downstream ends of the introduction flow passages, and a pair of discharge flow passages having downstream ends respectively communicating with the discharge ports. | 06-23-2011 |
20120192641 | IDENTIFICATION OF FLUID FLOW BOTTLENECKS - Techniques for determining one or more fluid flow characteristic values of a structure are disclosed. A fluid flow vector and a pressure gradient vector for a portion of the structure are determined, and a dot/cross product of the fluid flow vector with the pressure gradient vector is obtained to provide a fluid flow characteristic value. The fluid flow characteristic value can be used for modifying the structure to improve fluid flow through the structure. | 08-02-2012 |
20120304759 | SENSOR ASSEMBLY FOR USE WITH A FLUID TRANSPORT SYSTEM AND METHOD OF ASSEMBLING SAME - A sensor assembly for use with a fluid transport system is provided. The sensor assembly includes at least two sensors that are configured to measure a rate of flow of a fluid channeled through a pipeline of the fluid transport system. Moreover, the sensor assembly includes an annular collar that is coupled to the two sensors. The collar includes at least a first opening and at least a second opening defined therein. The first opening and the second opening are each sized to receive the two sensors therein such that the two sensors are substantially coaxially aligned with each other. A first sensor of the two sensors is positioned downstream from a second sensor of the two sensors. | 12-06-2012 |
20130019675 | FLOW MEASURING DEVICE - A bypass passage receives a part of air flowing through a duct. A sub-bypass passage is branched from an intermediate portion of the bypass passage to separate dust contained in air flowing through the duct. A flow rate sensor is located in the sub-bypass passage for detecting the flow rate of air. A first wall surface and a second wall surface of the bypass passage are located upstream from the branch. The first wall surface is located on the side of the branch. The second wall surface is opposed to the first wall surface. Both the first wall surface and the second wall surface are curved to direct airflow to move away from the branch. | 01-24-2013 |
20130068012 | Espresso Machine Method and Apparatus - A method and apparatus for measuring a resultant flow delivered by a pump coupled to an over pressure valve, the method comprising the steps of: measuring, using a first flow meter, feed flow to the pump; measuring, using a second flow meter, return flow from the over pressure valve; and calculating resultant flow, at least in part, by subtracting measured return flow from measured feed flow. A pump power modification module can further modifying the pump output pressure to enable pressure profiling. | 03-21-2013 |
20130199288 | FLUID FLOW DISTRIBUTION DEVICE - A fluid flow distribution device for a fluid component configured to improve a distribution of a fluid flow therein. The fluid flow distribution includes a plurality of walls. The walls form a chamber configured to receive a fluid flow from a fluid source therein. The chamber is in fluid communication with a fluid inlet of the fluid component and a plurality of flow paths. Each of the flow paths includes an inlet and an outlet. At least one of the walls includes an inner surface, wherein a distance between the inner surface and a plane generally defined by the inlets of the flow paths non-uniformly progressively decreases in respect of a general direction of the fluid flow into the fluid flow distribution device to downwardly direct the fluid flow into the flow paths adjacent thereto. | 08-08-2013 |
20130199289 | FLOW SENSOR ARRANGEMENT - There is disclosed a flow sensor arrangement, comprising a main channel ( | 08-08-2013 |
20130205892 | FLOW MEASUREMENT STRUCTURE AND FLOW MEASUREMENT DEVIVE - A flow measurement device according to the present invention includes a main flow channel through which fluid flows, and a secondary flow channel unit where the fluid is diverted from the main flow channel, supplied to a flow amount detection element and thereafter returned to the main flow channel. The secondary flow channel unit includes a diversion flow channel through which the fluid is diverted from the main flow channel and returned to the main channel without the fluid being supplied to the flow amount detection element, and a detection channel in which the fluid is diverted from the diversion flow channel and provided to the flow amount detection element. The diversion flow channel includes a smooth flow part in which the fluid flows smoothly between the two ends connecting to the main flow channel, and a first chamber and a second chamber which, adjacent to the smooth flow part, are divided by a partition provided so as to obstruct flow of the fluid. The two ends of the detection channel are connected to the first chamber and the second chamber. | 08-15-2013 |
20140083179 | FLOW DETECTION DEVICE - A plate-like flow sensor is located in a bypass passage such that a front-to-rear direction of the flow sensor is substantially along a width direction of the bypass passage. The flow sensor divides a flow from its upstream into a first flow, which passes on its front side, and a second flow, which passes on its rear side. The bypass passage has a bent portion in which the first flow and the second flow merge on a downstream side of the flow sensor. A flow deflection unit changes a turning quantity of at least one of the first flow and the second flow such that a turning quantity of the first flow and a turning quantity of the second flow are substantially conformed in the bent portion. | 03-27-2014 |
20150355009 | AIRFLOW-RATE DETECTING DEVICE CAPABLE OF DETECTING HUMIDITY - An airflow-rate detecting device capable of detecting humidity has a housing, a flow rate sensor, a humidity sensor, a humidity sensor case, and a dust separating portion. The housing therein defines a bypass passage into which a part of air flowing in a duct flows. The flow rate sensor is disposed in the bypass passage. The humidity sensor detects a humidity of air flowing in the duct at an outside of the housing. The humidity sensor case houses the humidity sensor and therein defines an interior space into which a part of air flowing in the duct flows as a target air of which humidity is detected by the humidity sensor. The dust separating portion removes dust from the target air before the target air flows into the interior space. | 12-10-2015 |
20150377670 | Flow Sensor - Provided is a low-cost flow sensor which improves productivity while maintaining high quality and high reliability. This flow sensor is provided with a housing, a cover, a circuit chamber sealed between these and housing electronic components or wiring, and a subpassage through which the fluid flows that is to be detected, and is characterized in that the welding width of a first welded portion forming the circuit chamber is greater than the welding width of a part of the second welded portion forming the subpassage unit. | 12-31-2015 |
20160041020 | FLOW METER - A flow meter for a fluid, said flow meter including at least two channels which each comprise a floor, a ceiling and two walls, wherein at least one of the channels is a measuring channel in which a measuring device is arranged, wherein the flow meter includes a channel unit which realizes the channels, wherein the channel unit consists of at least one first component and at least one second component which are fitted into one another and in the joined state complement one another thus forming the channels. | 02-11-2016 |
20160048136 | FLUID MECHANISM, SUPPORT MEMBER CONSTITUTING FLUID MECHANISM AND FLUID CONTROL SYSTEM - This invention provides a fluid mechanism that can arrange a plurality of fluid device units and external fluid devices mounted as a set on the fluid device units effectively and compactly. Each of the fluid device units is arranged with respective side surfaces in a longitudinal direction of the fluid device unit tightly attached, and the external fluid devices are arranged side-by-side external to and outside of the fluid device unit in the width direction. Furthermore, as for an introducing path and a discharging path that connect the external fluid devices and the fluid device unit, the introducing path, which is short, is connected to the discharging path, which is long. | 02-18-2016 |
073202500 | Thermal sensing of flow | 8 |
20080282791 | Thermal Flowmeter - A simply configured thermal flowmeter can provide high measurement accuracy over a long period of time by suppressing the characteristics degradation due to adhering contaminants. On the surface of a diaphragm part, a heater resistor is formed. Temperature difference sensors through are disposed on the two sides of the heater resistor (upstream and downstream sides in the flow direction of an air stream). The temperature difference sensors are disposed upstream of the heater resistor while the temperature difference sensors are disposed downstream of the heater resistor. Outside the temperature difference sensors, heating temperature sensors are formed. Control is performed so that the temperature of the heating temperature sensors is set higher than the air stream temperature by a certain degree. Therefore, even if contaminants adhere to the sensor device, the temperature of the heating temperature sensors is held constant. Since the temperature difference sensors to detect the flow rate is located between the heating temperature sensors, the temperature change due to the contamination is small. This suppresses the characteristics degradation, making it possible to provide high measurement accuracy over a long period of time. | 11-20-2008 |
20090173151 | HEATING RESISTOR TYPE AIR FLOW RATE MEASURING DEVICE - An object of the present invention is to provide a structure which prevents a particulate contaminant and a liquid contaminant on which centrifugal separation hardly works, from arriving at a sensor element part. In order to attain the above described object, in a heat resistor type air flow rate measuring device which includes an auxiliary passage taking in a part of a fluid flowing in a main passage, and a plate-shaped sensor element installed in the aforesaid auxiliary passage and for detecting a flow rate of the fluid, and is a heat resistor type flow rate measuring device having an auxiliary passage formed along a curved line at | 07-09-2009 |
20090205416 | MONITORING METHOD AND SYSTEM FOR DETERMINING RACK AIRFLOW RATE AND RACK POWER CONSUMPTION - Monitoring method and system are provided for dynamically determining rack airflow rate and rack power consumption employing a heat exchanger disposed at an air outlet side of the electronics rack. The method includes: sensing air temperature at the air outlet side of the electronics rack, sensing coolant temperature at a coolant inlet and coolant temperature at a coolant outlet of the heat exchanger, and determining airflow rate through the electronics rack; and outputting the determined airflow rate through the electronics rack. The determining employs the sensed air temperature at the air outlet side of the rack and the sensed coolant temperatures at the coolant inlet and outlet of the heat exchanger. In one embodiment, the heat exchanger is an air-to-air heat exchanger, and in another embodiment, the heat exchanger is an air-to-liquid heat exchanger. | 08-20-2009 |
20100095761 | FLOW RATE MEASURING DEVICE - In a flow rate measuring device including a bypass channel having at least one bending portion and at least one channel portions, a detecting element is disposed in the bypass channel to detect the flow rate of measurement target fluid, a ratio L/H of a width H of the channel portion in which the detecting element is disposed, and a distance L from the bending portion at the upstream side of the detecting element to the upstream end portion of the detecting portion is set in range from 0 to 0.7, and a ratio D/H of a distance D from the wall surface of the base side of the detecting element to the center of the detecting portion of the surface of the detecting element and the width H of the channel portion is set in the range from 0.22 to 0.33. | 04-22-2010 |
20100242589 | Thermal Type Flow Measuring Device - A first sub passage portion and a second sub passage portion are configured so as to form layers on both sides of a separation wall, respectively. A linear passage portion of a third sub passage portion is formed so that a cross section thereof extends within a range across both sides of the separation wall in a direction perpendicular to a wall surface of the separation wall. The cross section is taken along a direction perpendicular to a flow direction of a fluid flowing through the linear passage portion. The separation wall separates the layer of the first sub passage portion and the layer of the second sub passage portion from each other. A first communication passage portion which allows the first sub passage portion to communicate with the third sub passage portion curves to make a directional change and connects a passage wall surface of the first sub passage portion to a side wall of the third sub passage portion by an inclined surface. The passage wall surface is defined by the separation wall. The side wall is located on a side of the second sub passage portion with respect to the separation wall. A through passage which passes through the separation wall is provided in a second communication passage portion which allows the second sub passage portion to communicate with the third sub passage portion. | 09-30-2010 |
20130160540 | THERMAL FLOW RATE SENSOR - A thermal flow rate sensor is provided which includes a main flow path through which a fluid flows, and a sensor flow path that branches off from the main flow path so as to cause the fluid to flow in a split flow and that is provided with a flow rate detecting mechanism configured to detect a flow rate of the fluid. The flow rate detecting mechanism includes an upstream-side coil and a downstream-side coil, each configured by using a heat-generating resistance wire wound around a sensor flow pipe forming the sensor flow path. A peak position of a temperature distribution generated in the sensor flow path by the upstream-side coil and the downstream-side coil is positioned on the upstream-side coil side relative to the middle position between the upstream-side coil and the downstream-side coil on the sensor flow path. | 06-27-2013 |
20130213131 | FLOW SENSOR ASSEMBLY WITH INTEGRAL BYPASS CHANNEL - Flow sensor assemblies having increased flow range capabilities are disclosed. In one illustrative embodiment, a flow sensor assembly includes a housing with an inlet flow port, an outlet flow port, a fluid channel extending between the inlet flow port and the outlet flow port, and a bypass channel having a pair of taps fluidly connected to the fluid channel at separate locations. A flow sensor for sensing a measure related to a flow rate of a fluid flowing through the fluid channel can positioned in the bypass channel. A pressure differential between the two taps of the bypass channel can drive a fraction of a fluid flowing through the fluid channel through the bypass channel. The flow sensor assembly may be configured to achieve, control, and/or balance a desired fraction of fluid flow through the bypass channel and past the flow sensor. | 08-22-2013 |
20150308872 | AIR FLOW MEASURING DEVICE - An air flow measuring device includes a housing, a sensing part, a temperature sensor, a supporting member, and a protective projection. The housing defines a bypass flow passage which guides a part of air flowing in a duct. The sensing part is disposed in the bypass flow passage to measure a flow rate of air in the bypass flow passage. The sensor detects temperature of air flowing in the duct outside the housing. The supporting member supports the sensor at a predetermined measurement position. The protective projection is a projection, which projects outward from a side surface of the housing and is formed by mold removal in one direction. An end of the protective projection is located outward of the sensor. The protective projection makes contact with an object approaching the sensor from outside the housing to limit contact of the object with the sensor. | 10-29-2015 |
073203000 | With valved proportioning means | 6 |
20100064798 | FLOW METER AND FLOW CONTROLLING DEVICE - To provide a highly accurate flow meter. A Flow meter comprising an inflow opening into which a measurement fluid flows, an outflow opening from which a measurement fluid flows, and a flow path connecting the inflow opening and the outflow opening, wherein the flow path is bent at a first bend portion, wherein: a first porous plate is disposed in the first bend portion of the flow path at an angle relative to the direction in which the flow path extends before and after the first bend portion, and a flow sensor for detecting the flow speed or flow volume of a measurement fluid that flows in the flow path, disposed on the inner wall of the flow path on the outflow opening side of the first bend portion. | 03-18-2010 |
20100251814 | Flow Sensing Shutoff Valve - A flow sensing valve includes a valve housing having an inlet port, an outlet port, and a plurality of flow sensing ports. A valve member, located within the valve housing, is configured to move between an open position and a closed position. The valve member allows fuel flow between the inlet port and outlet port in the open position, and blocks fuel flow between the inlet port and the outlet port in the closed position. A position sensor, operably coupled to the valve member, is configured to determine a valve position of the flow sensing valve. The valve position is indicative of a valve open port area. A metered flow rate of pressurized fuel through the flow sensing valve in a upstream manifold is proportional to the valve open port area because the flow sensing valve maintains a nearly constant differential pressure across the inlet and outlet ports. | 10-07-2010 |
20110016968 | Metering device - A metering device ( | 01-27-2011 |
20110083502 | METERING DEVICE FOR FLUID MIXTURES - The device for metering fluid mixtures, in particular liquids containing a gas such as carbon dioxide, includes a flow sensor, a metering valve, and a controller that drives the metering valve as a function of a set point and of the flow rate measured. The flow sensor has an impeller wheel having a horizontal axis, the fluid mixture being guided on an arcuate path on the periphery of the impeller wheel, the path being directed from bottom to top. Despite the presence of gas, a precise metering is achieved. | 04-14-2011 |
20110138904 | Fluid measurement device, method of measuring fluid, and fluid special distribution visualization device - A fluid measurement device includes a fluid measurement unit which includes a plurality of fluid measurement sections configured to measure a measurement fluid introduced into a measurement chamber from the outside, each of the fluid measurement sections including a fluid measurement sensor on which the measurement fluid introduced into the measurement chamber acts. The fluid measurement devise includes a measurement controller which sequentially introduces the measurement fluid into each of the fluid measurement sections every set time shorter than a fluid measurement time required for one of the fluid measurement sections to conduct one fluid measurement, the measurement controller measuring the fluid to provide a time difference for each of the fluid measurement sections, and a central controller which accumulates fluid measurement data from the fluid measurement sensors and rapidly measures a change of the external measurement fluid. | 06-16-2011 |
20140013838 | FLOW RATE MEASUREMENT DEVICE AND FLOW RATE MEASUREMENT METHOD FOR FLOW RATE CONTROLLER FOR GAS SUPPLY DEVICE - A flow rate measurement device includes a branched pipe passage having an inlet side end portion detachably joined in a branched manner to an upstream portion of on-off valve V | 01-16-2014 |