| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 096204000 | Liquid flow slinger, spreader, deflector, disperser, or rotation modifier | 28 |
| 20130233174 | Separator with a helix assembly - A separator with a helix assembly that includes a plurality of segments disposed end to end and forming an intermediate casing. Each of the segments has a tubular portion with a first circumferential edge and a second circumferential edge and a helical portion extending from the second circumferential edge. The tubular portions of the segments form an intermediate casing, while the helical portions of the segments form a spiral helix. The helix assembly further includes an inner casing concentrically disposed within the intermediate casing and coupled to the spiral helix. | 09-12-2013 |
| 20160129372 | FUEL DEOXYGENATION SYSTEM CONTACTOR-SEPARATOR - A fuel deoxygenation system contactor-separator includes a fuel-gas mixture inlet section, a fuel outlet section, a gas outlet, a spiral contactor-separator, and a valve element. The fuel-gas mixture inlet section has a fuel-gas mixture inlet port. The fuel outlet section has a fuel outlet port. The gas outlet section has a gas outlet port. The spiral contactor-separator conduit has an inner wall and an outer wall that defines a spiral contactor-separator flow passage. The spiral contactor-separator conduit is coupled to, and is in fluid communication with, the fuel-gas mixture inlet section, the fuel outlet section, and the gas outlet section. The valve element is disposed between the fuel outlet port and the gas outlet port and is movable between a first position and a second position. | 05-12-2016 |
| 096205000 | And preliminary heat exchange means | 1 |
| 20150321122 | DE-AERATOR FOR A WATER HEATING SYSTEM - A de-aerator for removing dissolved gasses from water in a water heating system and a water heating system comprising such a de-aerator are disclosed. The de-aerator includes a vessel defining a chamber for receiving water which has been heated by a primary water heater, an inlet through which water can be supplied into the chamber and an outlet through which the water can exit the chamber; and a vent through which gas can exit the chamber. A diameter of the chamber decreases in a direction from the inlet towards the outlet. The chamber side wall being curved and having a non-constant radius of curvature, the radius of curvature being smaller near the outlet than near the inlet, so that water supplied into the chamber is accelerated as it flows from the inlet towards the outlet, to thereby promote de-aeration of the water. De-aeration gasses exit the chamber through the vent. | 11-12-2015 |
| 096206000 | At inlet to separator | 9 |
| 20090056553 | LIQUID TANK - A fluid tank includes a tank main body that contains a fluid and a bubble removing device that is provided to an inside of the tank main body and removes bubbles contained in the fluid. The tank main body includes a partition that partitions the inside of the tank main body to at least two sides and a delivery port through which the fluid is fed to an outside. The bubble removing device has an outflow port through which the fluid from which the bubbles have been removed flows to the inside of the tank main body and a bubble exhaust port through which the bubbles which have been removed are discharged to the inside of the tank main body. The delivery port is provided adjacent to the outflow port relative to the partition. The partition partitions the inside of the tank main body to a side in which the outflow port and the delivery port are provided and a side of the bubble exhaust port. | 03-05-2009 |
| 20100282086 | GROUNDWATER RADON REDUCTION APPARATUS - A groundwater radon reduction apparatus is provided. The groundwater radon reduction apparatus includes: a housing in which groundwater falls down; a rotating member installed in the housing and rotated by a falling force of the groundwater to form the groundwater into water drops; a plurality of power transmission members connected to both ends of the rotating member to transmit power, and receiving the rotating force of the rotating member; and a plurality of ventilation units coupled to one ends of the power transmission members inside the housing, respectively, and rotated together with the power transmission members by the rotation force of the rotating member to discharge radon gases within the water drops to the outside. | 11-11-2010 |
| 20110252975 | BAFFLE DESIGN FOR AN AIR ELIMINATOR - An air eliminator has a housing with an inlet and an outlet. The inlet injects fluid into the housing along an inlet flow path that has a horizontal component. There is a baffle within the housing between the inlet and the outlet. The baffle has a vertical portion and a cover portion that extends outward from the vertical portion to cover at least a portion of the inlet flow path. The cover portion defines a flow path for buoyant fluid that has a vertical component and a horizontal component that is perpendicular to the inlet flow path up. | 10-20-2011 |
| 096207000 | Plural, serially arranged | 2 |
| 20090078118 | Fluid Inlet Device, Use, and Method of Retrofitting - A fluid inlet device suitable for introducing a mixture of liquid and gas into a vessel, which fluid inlet device comprises an inlet flow channel having an inlet end for receiving the mixture of liquid and gas; and a plurality of curved guiding vanes placed one behind the other along the inlet flow channel, wherein each vane comprises an intercepting part extending towards the inlet end of the inlet flow channel, and an outwardly directed deflecting part defining a generally convex side and a generally concave side of the curved vane, wherein the deflecting parts of two consecutive vanes form an outlet channel of the inlet device and define a main direction of gas flow in the outlet channel, and wherein at least one of the vanes is provided with a liquid catcher channel extending from an upstream position with respect to the vane to a downstream position, and wherein a virtual line along the vane between the upstream position and the downstream position deviates from the main direction of gas flow; the use of the fluid inlet device for introducing a mixture of liquid and gas into a gas-liquid contacting vessel; and liquid catcher channels as well as their use in a method of retrofitting an a fluid inlet device. | 03-26-2009 |
| 20150075383 | Cyclone Reservoir - A cyclone reservoir for separation of an aerated portion of a hydraulic fluid and a related method of making the cyclone reservoir. The cyclone reservoir includes a lower chamber having a generally cylindrical side wall, a return port, and a suction port. An upper chamber is connected to the lower chamber by a neck section that places the interior volumes of the lower and upper chambers in fluid communication with one another. The neck section has a cross-sectional area taken perpendicular to a central axis of the reservoir that is smaller than a cross-sectional area of the lower chamber and the upper chamber at a different position along the central axis. The chambers and neck section may be made as a single-piece part by molding the reservoir by, for example, rotomolding. A reinforcement band may also go around the neck section to connect and support the upper and lower chambers. | 03-19-2015 |
| 096208000 | Centrifugal type | 4 |
| 096209000 | Tangential inlet | 2 |
| 096212000 | Including inner and outer casings or plural compartments | 2 |
| 20100269702 | AIR SEPARATOR, EXTERNAL FUNCTIONAL MEANS, BLOOD CIRCUIT, AND TREATMENT APPARATUS - The present invention relates to an air separator for an extracorporeal blood circuit for separating out air from a fluid flowing through the air separator, comprising an air separation chamber having at least one inflow passage and at least one outflow passage. It further relates to an external functional apparatus, a blood circuit, and a treatment apparatus. | 10-28-2010 |
| 20120297986 | GAS-LIQUID SEPARATOR AND MULTIPHASE FLOW RATE MEASUREMENT DEVICE - A gas-liquid separator ( | 11-29-2012 |
| 096214000 | Rotating means | 2 |
| 20110094384 | MOISTURE SEPARATION SYSTEM AND METHOD OF ASSEMBLING THE SAME - A method of assembling a moisture separation system for a gas turbine power system is provided. The gas turbine power system includes a filter housing assembly and a weather hood coupled to the filter housing assembly, and the weather hood defines an inlet for directing airflow into the filter housing assembly. The method includes providing a moisture separator and coupling the moisture separator to the weather hood such that the moisture separator extends at least partially across the inlet, the moisture separator rotatable in response to the airflow to facilitate removing moisture from the airflow. | 04-28-2011 |
| 20110219955 | REDUCTION APPARATUS OF RADON IN THE GROUNDWATER HAVING DISINFECTION MEANS - Provided is a radon reduction apparatus for groundwater having a disinfection means. The radon reduction apparatus includes an agitation space forming body that groundwater fed through a groundwater feed pipe passes through before inflow into the groundwater storage tank and that forms a water turbine installation space whose top portion is not filled with groundwater; a water turbine located in the water turbine installation space to be rotated by groundwater when the fed groundwater falls, is run against the bottom and scattered; an oxygen supply means supplying oxygen to groundwater before inflow of the groundwater to the agitation space forming body; a ventilating fan that is rotated by receiving rotary power of the water turbine and that is connected to the water turbine installation space to discharge air of the water turbine installation space; and an antiseptic solution supply means supplying antiseptic solution to be mixed with the groundwater. | 09-15-2011 |
| 096215000 | Plural, serially arranged | 1 |
| 20100011961 | FLUID SEPARATING VESSEL - A fluid separating vessel ( | 01-21-2010 |
| 096216000 | Centrifugal type | 15 |
| 20090025562 | CENTRIFUGAL SEPARATOR FOR CLEANING OF GAS - The invention refers to a centrifugal separator comprising a stationary casing defining an inner space, a spindle and a rotating member, which is attached to the spindle and arranged to rotate around an axis of rotation with a rotary speed. The rotating member comprises a number of separating discs which are provided in the inner space. A drive member drives the spindle and the rotating member with said rotary speed. A sensor device senses the rotation of the rotating member in relation to the casing. The sensor device comprises at least one transmitter element which is provided in the inner space on the rotating member and a receiver element which is provided at the casing and arranged to sense the transmitter element. The receiver element is provided on the casing outside the inner space. | 01-29-2009 |
| 20090025563 | CENTRIFUGAL SEPARATOR - In a centrifugal separator for cleaning a gas containing liquid impurities, a stationary casing encloses a separation space having an inner wall surface. An inlet is provided. A rotating member is provided in the separation space downstream the inlet rotates in a direction of rotation around an axis of rotation. The rotating member brings the gas to rotation in the direction of rotation for separation of liquid impurities from the gas. A gas outlet is provided downstream the rotating member for discharge of the cleaned gas. A first liquid outlet is provided upstream the gas outlet and downstream the rotating member for discharge of separated liquid impurities and comprises an outlet hole. A surrounding ring groove extends outwardly from the inner wall surface in the stationary casing and has a surrounding bottom surface, wherein the outlet hole extends outwardly from the bottom surface. | 01-29-2009 |
| 20090133581 | VORTEX AIR-OIL SEPARATOR SYSTEM - The present invention provides a vortex generator that may be used in systems for separating oil from air oil mixtures. The vortex generator comprises a rotating disk having a rim having a plurality of passages extending through it and a cavity formed by the rotating disk and a cavity wall wherein a vortex is created when there is a flow through the plurality of passages into the cavity. | 05-28-2009 |
| 20100307343 | COMPRESSOR INCORPORATED WITH OIL SEPARATOR - A compressor incorporated with an oil separator having a separation chamber and communication holes. The separation chamber is placed adjacent to a discharge chamber, has a space formed in the entire inside of the separation chamber, separates oil-containing gas, which is introduced into the separation chamber, into gas and oil by centrifugal separation, allows the separated oil to drop downward, and upwardly extracts the separated gas. The communication holes interconnect the discharge chamber and the separation chamber and introduce the oil-containing gas, coming from the discharge chamber, into the separation chamber. The communication holes are arranged in the separation chamber, in a direction extending from a gas release side to an oil drop side. The structure of an oil separation section is simplified to improve productivity and reduce cost, and a high degree of design freedom of the position of a discharge port is obtained. | 12-09-2010 |
| 20110056379 | MULTI-STAGE OIL SEPARATION SYSTEM INCLUDING A CYCLONIC SEPARATION STAGE - A separator for separating a liquid-gas flow into a liquid and a compressed gas includes a housing that defines an inner space and that is adapted to contain the full pressure of the compressed gas. The housing includes a liquid-gas inlet, a liquid outlet, and a gas outlet. A first stage separator is positioned to receive the liquid-gas flow from the inlet. The first stage separator is operable to separate a first portion of the liquid from the liquid-gas flow. A second stage separator includes a swirl vane separator and is positioned to receive the liquid-gas flow from the first stage separator and is operable to separate a second portion of the liquid from the liquid-gas flow. A third stage separator is positioned to receive the liquid-gas flow from the swirl vane separator and is operable to separate a third portion of the liquid from the liquid-gas flow. The first stage separator, the second stage separator, and the third stage separator are completely contained within the housing. | 03-10-2011 |
| 20120097038 | Method of Fabricating a Separator Helix - A separator with a helix assembly and methods for fabricating the helix assembly. In some embodiments, the helix assembly includes a plurality of segments disposed end to end and forming an intermediate casing. Each of the segments has a tubular portion with a first circumferential edge and a second circumferential edge and a helical portion extending from the second circumferential edge. The tubular portions of the segments form an intermediate casing, while the helical portions of the segments form a spiral helix. The helix assembly further includes an inner casing concentrically disposed within the intermediate casing and coupled to the spiral helix. | 04-26-2012 |
| 20130247765 | HIGH EFFICIENCY PHASE SPLITTER - A phase splitter for separating a multiphase fluid into a relatively light phase and a relatively heavy phase includes a separator tube which comprises a fluid inlet through which the multiphase fluid enters the apparatus, a heavy phase outlet through which the heavy phase exits the apparatus and an inner diameter surface which defines a flow bore that extends between the fluid inlet and the heavy phase outlet. A swirl element positioned in the flow bore downstream of the fluid inlet causes the multiphase fluid to rotate and separate the heavy phase from the light phase. The light phase forms an elongated core which extends axially through the flow bore radially inwardly of the heavy phase from proximate the swirl element toward the heavy phase outlet. A core stabilizer is positioned in the flow bore between the swirl element and the heavy phase outlet and engages the distal end of the light phase core to thereby inhibit the light phase from exiting the apparatus through the heavy phase outlet. | 09-26-2013 |
| 20130284026 | OIL SKIMMING APPARATUS AND METHOD FOR USING SAME - An oil separation method and apparatus for the separation of acceptable oil from contaminated oil containing solids and liquids withdrawn from an oil well. A single oil skimming unit is partitioned into compartments and provided with rotating skimming tubes. A water leg may be raised and lowered in order to maintain a constant fluid level in the first, or water, compartment. Two pump jets are incoporated into the neck of the gas separator in order to continually move the solid contaminants so that they are not as able to settle and block fluid flow in the gas separator. | 10-31-2013 |
| 20140102303 | Separator with a Helix Assembly - A separator with a helix assembly that includes a plurality of segments disposed end to end and forming an intermediate casing. Each of the segments has a tubular portion with a first circumferential edge and a second circumferential edge and a helical portion extending from the second circumferential edge. The tubular portions of the segments form an intermediate casing, while the helical portions of the segments form a spiral helix. The helix assembly further includes an inner casing concentrically disposed within the intermediate casing and coupled to the spiral helix. | 04-17-2014 |
| 20140116255 | AXIAL GAS-LIQUID CYCLONE SEPARATOR - An axial gas-liquid cyclone separator, comprising a housing having a wet gas inlet and a dry gas outlet aligned along an axis of the housing; an internal wall section in the housing and defining, within the housing, a pre-separation chamber and a main liquid separation chamber; an assembly comprising a static mixer and a swirl generator mounted in a tube and extended through the internal wall section; liquid outlets in at least the main chamber for outlet of liquids separated from the wet gas; and a vortex finder mounted between the tube and the dry gas outlet. | 05-01-2014 |
| 20140251145 | DEVICE FOR SEPARATING TWO IMMISCIBLE FLUIDS OF DIFFERENT DENSITIES BY CENTRIFUGATION - A device for separating immiscible fluids of different densities from a liquid-containing emulsion, includes a longitudinal rotary drum having a longitudinal axis of rotation. The drum includes, longitudinally from upstream to downstream and between at least one upstream inlet and downstream outlets: a solid body rotation stage having an inlet and including at least one longitudinal inner partition for causing circumferential solid body rotation; a migration and coalescence stage including at least one longitudinal partition for causing circumferential solid body rotation, the partition delimiting at least one longitudinal channel communicating with the solid body rotation stage; and an extraction stage including at least one liquid outlet that has an overflow edge and extends along a longitudinal flow space communicating with the migration and coalescence stage via at least one longitudinal passage, and including a downstream liquid discharge space communicating with the outlet and connected to a downstream discharge port. | 09-11-2014 |
| 20140318376 | DEVICE FOR SEPARATING SUBSTANCES FROM A MEDIUM - A device for separating at least one substance from a liquid or gaseous medium by centrifugal forces has a housing with a separating chamber, into which the mixture to be separated is delivered and is set into rotation. Two immersion tubes, through which cleaned medium flows out, project into the separating chamber. On the lower end of the housing, there is a discharge opening for the separated substance. Between ends of the immersion tubes, within the chamber, there is a diffuser connected to the immersion tubes. The diffuser includes several curved guide vanes that, viewed in the direction of rotation of the medium, have a spacing increasing from the peripheral surface of the immersion tubes, that approach the axis of the immersion tubes. In the diffuser, there are optionally plates, which ensure a laminar flow of the cleaned medium through the immersion tubes and out of the device. | 10-30-2014 |
| 20150367254 | APPARATUS FOR SEPARATING GAS AND LIQUID - Provided is an apparatus for separating a gas and a liquid, the apparatus including a housing comprising a plurality of tubular columns that are able to be stacked in a height direction, a rotary shaft provided in the housing, a driving unit configured to rotate the rotary shaft, a rotary cone mounted on the rotary shaft to be rotated about the rotary shaft and having a diameter reduced from an upper end section toward a lower end section, and a stationary cone mounted on the tubular column to be spaced apart from the rotary cone and formed in a tubular shape having a diameter reduced from the upper end section toward the lower end section. | 12-24-2015 |
| 20160082366 | APPARATUS FOR LIQUID DEGASSING USING COUPLING OF SWIRLING FLOW OR CENTRIFUGAL FIELD AND PRESSURE GRADIENT FIELD - The present invention relates to a device for liquid degassing by means of the swirling or the centrifugal field coupled with the pressure gradient field. This device comprises a cavity. The cavity is furnished with an inlet for liquid gas, an outlet for gas phase and an outlet for gas liquid phase. The outlet for gas phase is inserted into the cavity through the upper surface of the cavity, wherein the depth of the insertion is around 0.1-3 times of the maximum diameter of the cavity. Specifically, the outlet for gas phase is realized through an overflow pipe with the diameter gradually increasing from the bottom to the top. The end of the overflow pipe is further furnished with a bell mouth. The advantages of the present invention are: The present invention designs the structure of an inverted cone shaped outlet for gas phase which is inserted into the cavity of the swirling device. The present invention makes full use of the impact of pressure gradient in the cavity on the solubility of gas in liquid and combines the centrifugal field and the pressure gradient field to remove the gas entrained with liquid while the dissolved gas is removed under the inlet partial pressure. | 03-24-2016 |
| 096217000 | Impeller or screw on rotating shaft | 1 |
| 20130118357 | TUBULAR CAMSHAFT WITH INTEGRATED OIL SEPARATOR - The invention relates to a hollow body having a hollow cylindrical design at least in some regions, in particular to a camshaft ( | 05-16-2013 |
