Abstract: A rotary valve comprising a stator with an inner stator face, and a rotor with an inner rotor face arranged in sealing contact with the inner stator face, the rotor is rotatably movable to a plurality of rotor positions about a rotational axis relative to the inner stator face, the stator comprises a plurality of connection ports each being in fluidic contact with a corresponding valve orifice at the inner stator face and the rotor comprises two or more interconnection paths for selective fluidic interconnection of said valve orifices with respect to the rotor position.

Abstract: The liquid material ejector has a liquid material supply port through which the liquid material is supplied, a nozzle for ejecting the liquid material, a valve block having a metering bore to be filled with the ejected liquid material and a liquid material supply channel communicating with the liquid material supply port, a selector valve having a first channel for allowing communication between the metering bore and the liquid material supply channel and a second channel for allowing communication between the metering bore and the nozzle, a plunger advancing and retracting in the metering bore, a plunger driving section for driving the plunger, a valve driving section for driving the selector valve, and a transmission section for transmitting driving power from the valve driving section to the selector valve. The plunger driving section, the valve driving section, and the valve block are arranged successively in the longitudinal direction.

Abstract: Exemplary embodiments are directed to rotary shear valves which include a stator, a rotor defining a cavity extending at least partially therethrough, and a bladder. The rotor is rotatably mounted relative to the stator to create at least one fluidic path therebetween. The bladder comprises a polymer disposed inside the cavity. Exemplary embodiments are also directed to methods of operating a rotary shear valve.

Abstract: Rotary valves are disclosed, comprising a seal sheet affixed to a rotor. At least some area, namely a “rotor plate surface mating area” is provided, over which a seal sheet anchoring assembly can directly abut, along a planar portion, the rotor plate surface that is in contact with the seal sheet. This advantageously provides an area of direct contacting between the seal sheet anchoring assembly, or one of its components, and the rotor plate, with the abutting surfaces being defined by consistently rigid materials (e.g., metals such as stainless steel) that undergo substantially no deformation, compression, or softening over conditions of normal operation.

Abstract: A method of operating a rotary valve using a variable dome seating pressure to provide a minimum seating force for each position of the valve is described.

Abstract: A valve comprises a housing and a closing member. The housing provides a flow path and comprises a chamber with a first opening and a second opening. The housing further comprises an upstream port, a downstream port and a lateral port. The closing member is located inside the chamber and is rotatable selectively between a first position and a second position so as to dose the first opening and the second opening respectively The lateral port is in flow communication with the downstream port in the first position of the closing member. The upstream port is in flow communication with the downstream port in the second position of the closing member. The dosing member has an internal profile that adjoins the flow path. The internal profile is shaped such that a cross-sectional area of the flow path is larger through the chamber than the rest of the flow path.

Abstract: A valve arrangement includes an inlet conduit defining an inlet passage adapted for communication with a supply of pressurized motive fluid, a first planar surface spaced radially from the inlet conduit, first and second supply passages communicating through the first planar surface, and a rotary valve. The rotary valve includes a second planar surface abutting against the first planar surface and a valve passage communicating through the second planar surface. The rotary valve is rotatable to place the inlet passage in communication with a selected one of the first and second supply passages through the valve passage, and is adapted to conduct the pressurized motive fluid from the inlet passage to the selected one of the first and second supply passages.

Abstract: An attachment apparatus (20) for attachment to the air conduits (6,8,10,12) of a zoned air cell cushion A or mattress to an associated valve. The attachment apparatus comprises a connector assembly (24) with connectors (26, 28, 30, 32) secured in the ends (N1, N2, N3, N4) of air conduits secured in a conduit constraint (38). Each air conduit is in fluid communication with a separate inflation zone (r,s,t,u) of the cushion or mattress. The connectors are in fluid cooperation with a valve (60) that places normally isolated zones into fluid communication and vice versa. The connector assembly may function as a base for any one of a number of valves (60, 103, 150, 200, 400, 500).

Abstract: A rotary supply joint that may, in particular be a rotary timing valve, is provided for providing fluid flow at least periodically from inlet ports to outlet ports when respective openings in first and second surfaces which are rotating relative to each other are aligned, in which a gas bearing is arranged to provide a bearing force between the first and second surfaces.

Abstract: A rotary distribution apparatus includes a stationary, cylindrical inner core (27), and a rotatable, cylindrical outer shell (25) disposed about the inner core with the inner core (27) and the outer shell defining a plurality of annular fluid distribution chambers therebetween. The apparatus furthermore includes a rotatable indexing disc (23) having a plurality of flow passages provided therethrough, connection ports of which are in flow communication with ports in the outer shell (25), and a stationary indexing disc (22) having a plurality of flow passages provided therethrough, connection ports of which are in flow communication with suitable process vessels. The rotary distribution apparatus includes a driving arrangement that comprises a stationary shaft (28) to which the stationary core (27) is secured and a rotatable sleeve (24) rotatable about the stationary shaft (28), the rotatable sleeve (24) driving the rotatable outer shell (25) and the rotatable indexing disc (23).

Abstract: A rotation joint includes a base and a rotation member sleeved on the base. An end of the base defines at least one first air guiding hole and a first air outlet. An outer sidewall of the base defines an air guiding groove. The air guiding groove extends around an axis of the base. A bottom wall of the air guiding groove defines a second air guiding hole communicating with the first air guiding hole. The outer sidewall of the base further defines a second air outlet. The first air outlet communicates with the second air outlet. Sidewalls of the rotation member define connecting holes. One of the connecting holes communicates with the second air outlet, while the other connecting holes communicate with the air guiding groove. The present disclosure further provides a multiple air channel workstation using the rotation joint.

Abstract: Aspects of the invention are associated with the discovery of methods for operating rotary valves that reduce or minimize wear of the seal sheet, which is often the limiting factor in overall processing capability of the valve. The control of certain parameters associated with the rotary valve operation, and particularly the seating pressure of the seal sheet (e.g., the dome pressure), can extend the useful life of the seal sheet, thereby avoiding excessive maintenance and downtime costs. In preferred embodiments, control is on a real time basis.

Abstract: Rotary valves are provided having an elongate spool defining coaxially aligned inlet and outlet ports for respectively receiving and discharging a fluid, and spool inlet and outlet orifices. A rotary cage assembly defines an annular cage recess and cage inlet and outlet orifices in communication with the recess and coaxially surrounds the spool for reciprocal rotations thereabout. An actuator assembly is coupled to the rotary cage assembly for moving the rotary cage assembly between open and closed positions. When in the open position the cage inlet and outlet orifices are in fluid communication with the spool inlet and outlet orifices, respectively, to allow fluid to flow from the spool inlet port to the spool outlet port by way of the annular cage recess. When in the closed position however fluid communication is blocked between at least the cage and spool outlet orifices.

Abstract: A pump sharing valve for a gas turbine engine fuel system includes a housing having multiple ports. A sleeve is arranged in the housing and includes an inlet window and first, second and third windows axially spaced apart from one another. A spool is slidably received in the sleeve and includes a diameter and first and second cylindrical portions. The first cylindrical portion selectively connects the inlet window to the second and third windows. The second cylindrical portion selectively connects the inlet window to the first window. The spool is movable between first and second positions relative to the first, second and third windows to regulate flow. The first and second cylindrical portions respectively includes first and second widths. A first ratio corresponds to the first width to the spool diameter and a second ratio corresponds to the second width to the spool diameters. The first ratio is between 1.83 and 1.93 and the second ratio is between 1.22 and 1.32.

Abstract: A metering valve for a gas turbine engine fuel system includes a sleeve including first, second, third, fourth, fifth and sixth ports respectively axially spaced apart from one another. A spool is slidably received in the sleeve and includes first, second and third seal lands. The first seal land selectively connects the first and second ports to one another, and the third seal land selectively connects the third and fourth ports to one another and the fifth and sixth ports to one another.

Abstract: A rotary valve is designed to include a stator with multiple pairs of ports for connection to flow-through components and a rotor with elongated recesses that form flow channels with minimal dead volume and that permit a reversal of flow direction through any component by rotation of the valve through a very small angle.

Abstract: A three-position, circularly-shaped, height-adjustable overflow drain is disclosed. A circular back plate includes a bottom half opposite a top half, and is configured to be attachable to an overflow elbow. A first aperture is located in the bottom half of the back plate. A second aperture is located in the top half of the back plate. A rotatable handle comprises an outer cylindrical portion including a center plate. A third aperture is located in the center plate. The first, second and third apertures are aligned along a common radius, wherein the rotatable handle is rotatable to align either the first and third apertures, the second and third apertures, or no apertures. A cover plate is disposed within the rotatable handle and attached to the circular back plate forming an annular gap between the cover plate and the outer cylindrical portion.

Abstract: A stacked proportioning valve having a body with at least two sets of ports disposed at different positions along a longitudinal length of the body, each set of ports including at least three ports at different angular positions to couple to fluid conduits, a rotor disposed in the valve body has at least two sections stacked along the longitudinal length, each section comprising three fluid channels in longitudinal alignment with one of the sets of ports, and a drive shaft affixed to the rotor, the drive shaft to rotate the rotor over angular positions to fluidly couple together pairs of ports in each of the sets of ports synchronously as a function of the rotor's angular position. In embodiments a component of a plasma processing chamber, such as a plasma etch chamber is fluidly coupled by the stack proportioning valve to reservoirs of both a hot and cold chiller.

Abstract: According to a preferred embodiment of the present invention there is provided a stopcock including a housing element defining at least first, second and third ports, a handle element which is selectably positionable relative to the housing element, at least one fluid passageway communicating between at least two of the at least first, second and third ports, the at least one fluid passageway being selectably defined by at least one of the housing element and the handle element, the at least one fluid passageway being configured for enabling flushing an internal volume of at least one of the first, second and third ports by a fluid flow which does not flow entirely through the port whose internal volume is being flushed.

Abstract: A multi-position valve assembly including a valve housing, a stator element and a rotor element rotatably mounted about a rotational axis. The valve assembly further includes a pressure adjustment assembly movable between a release position and a stop position, hard stopped relative to the valve housing. The pressure adjustment assembly includes a pressure adjuster device configured to movably cooperate between the rotor element and the valve housing to adjustably generate an axial compression pressure at the rotor-stator interface at a calibrated operating pressure, PC. When the pressure adjustment assembly is oriented in the release position, the axial compression pressure is substantially removed from the rotor-stator interface. In contrast, when the pressure adjustment assembly is oriented in the stop position, the axial compression pressure is substantially reproduced at the calibrated operating pressure, PC.

Abstract: A micro-fluidic valve system is provided which includes a micro-fluidic valve actuator apparatus, a fluid distribution manifold and a micro-fluidic POD apparatus. The POD apparatus includes a POD housing that defines an interior central passage extending from a distal mounting end of the housing to a proximal portion thereof. The POD apparatus further includes a stator device disposed in the interior central passage, and includes a distal stator face that cooperates with an opening in the distal mounting end to define a gasket receptacle. A relatively thin, elastomeric gasket member is disposed in the gasket receptacle of the housing in abutting contact between the stator and a communication face of the manifold. A fluid-tight seal is then formed between each respective stator communication port of the stator device and a corresponding manifold communication port of the manifold.

Abstract: A control unit for a rotation mixing faucet. The control unit has a base on one side and is connected to an operating arm on the other side. The control unit includes a stationary inlet disc and a rotatable control disc. The inlet disc is connected to the base, and the control disc is connected to the operating arm such that the operating arm rotates the control disc relative to the inlet disc. The inlet disc includes a hot water inlet, a cold water inlet, and first and second outlets, wherein the operating arm independently controls the first and second outlets to adjust water temperature and to switch operation between the first and second outlets without controlling the quantity of water flow by rotating the control disc in a single degree of freedom so that water can only flow out of one of the outlets at a time.

Abstract: One exemplary embodiment can be a method of minimizing wear of a rotary valve. The method can include regulating a velocity of the rotary valve having a controller for communicating one or more fluids to and from an adsorption zone.

Abstract: A diffuser for a multiway valve, in particular for a two-way valve, includes a tip (2) to be secured to the portion of the valve stem that projects above the cup. To withdraw a single product, the tip includes a cylindrical portion having a circular cross-section with as many transfer channels (22a, 22b) are there are pathways in the multiway valve, for sealingly connecting each transfer channel to the outlet of the corresponding pathway of the valve, each transfer channel opening outside the cylindrical portion of the tip in a different radial plane and in a different angular sector of the cylindrical portion. The diffuser is also provided with a pivotable cap (3) with a blind hole (31) having a shape complementary to the cylindrical portion of the tip, the pivotable cap having as many outlet channels (32a, 32b) as there are pathways in the multiway valve.

Abstract: A sample introduction device for reducing carry-over is provided. In the sample introduction device, when a high pressure valve 51 is switched from a load status to an injection status in a total volume injection method, the communication between a stator hole d in communication with an injection port 25 and a stator hole c connected to a flow path toward a separation/detection section 30 occurs earlier than the communication between a stator hole b in communication with a liquid feeder 10 and a stator hole a in communication with a needle 54. A length of a rotor groove Y communicating stator holes d and e or stator holes d and c is set longer than a length of another rotor groove X.

Abstract: An indexing arrangement (10) includes a rotor (12) ; a stator (14) spaced from the rotor; a rotary seal (16) located between the rotor and the stator, with the seal being rotatable with the rotor; means for urging the rotary seal into sealing contact with the stator; ports (20, 24, 22) in the rotor, in the stator and in the rotary seal; and connecting means (26) for connecting respective ports (20) in the rotor with respective ports in the rotary seal; so that in use fluid can flow through the ports in the rotor, into the ports in the rotary seal via the connecting means, and out through the ports (24) in the stator.

Abstract: According to a preferred embodiment of the present invention there is provided a stopcock including a housing element defining at least first, second and third ports, a handle element which is selectably positionable relative to the housing element, at least one fluid passageway communicating between at least two of the at least first, second and third ports, the at least one fluid passageway being selectably defined by at least one of the housing element and the handle element, the at least one fluid passageway being configured for enabling flushing an internal volume of at least one of the first, second and third ports by a fluid flow which does not flow entirely through the port whose internal volume is being flushed.

Abstract: In a magnetic transmission for coupling a valve element to a valve drive, the valve element and the valve drive are located in the same housing, the valve element includes a ring gear composed of ferromagnetic material, the ring gear and, therefore, the valve element are positioned via reluctance forces using a magnetic spindle, and the ring gear is sealed off from the spindle by a magnetically permeable housing partition.

Abstract: Variable-volume injection valves include a stator and a rotor. The stator has a first port, a second port, and a contact surface with a groove therein. The first port opens into the stator groove. The rotor has a contact surface with a groove therein. The contact surface of the rotor is urged against the contact surface of the stator such that the rotor groove opposes the stator groove with one end of the rotor groove overlapping the stator groove and the opposite end of the rotor groove overlapping the second port of the stator. The overlapping grooves of the rotor and stator provide a fluidic channel between the first and second ports of the stator. The rotor is movable with respect to the stator in order to vary a length of overlap between their overlapping grooves.

Abstract: A multiport rotary valve apparatus for directing fluid streams which has two circular stationary heads and two circular rotating heads. The first stationary head has at least two and preferably more primary ports for connection with fluid streams and a corresponding number of secondary ports for connection to fluid-solid contacting chambers. The second stationary head has the same number of primary ports as the first stationary head (at least two and preferably more) for connection with the fluid streams and the same number of secondary ports for a second connection to the fluid-solid contacting chambers. Each stationary head includes internal conduits for the connection of the primary and secondary ports to a rotating head.

Abstract: A flow adjustable waterway switch device is disposed inside a valve body. The valve body is disposed with an inlet connected to the water source and at least two outlets. The waterway switch device has a driving shaft, a setting plate rotated and disposed inside the valve body and a button mechanism. One end of the driving shaft is disposed outside the valve body, and the other end is disposed inside the valve body. The setting plate is rotated by the driving shaft. The flow area of the inlet is changed by the relative rotation of the setting plate and the valve body to adjust the flow. The button mechanism includes a switch plate rotated and disposed inside the valve body, a switch rotor and a restoring spring, the driving shaft is rotated relatively to the switch rotor but not sliding relatively.

Abstract: The invention concerns a rotary distribution apparatus (30) for distributing process liquids, typically in ion exchange and chromatographic separation in the processing of sugar juice. The apparatus includes a core (2) into which fixed process liquid supply pipes (3) extend and annular fluid distribution chambers defined between the core and an outer shell (4) which rotates around the core. Rotating pipes (5) are provided which rotate with the shell and which are connected between selected distribution chambers and selected ports in a rotating indexing disc (6) which rotates, with the shell, relative to a stationary indexing disc (7). The arrangement is such that as the rotating disc rotates, different streams of process liquid streams fed to the rotating disc through the rotating pipes are introduced to fixed ports in the stationary disc. The latter ports are arranged to feed the streams selectively to selected destinations.

Abstract: A valve has a housing formed with a central chamber centered on and extending along a main axis, an inlet passage and an outlet passage having mouths in the chamber spaced angularly from and confronting each other, and a secondary passage offset from the inlet and outlet passages and centered on an axis offset from a center of one of the mouths by more than 90°. A valve pin fitted in the chamber is formed with a secantally throughgoing flow passage centered on a flow-passage axis generally parallel to but offset from a diameter of the pin. A filter is provided in the flow passage, the secondary passage being sufficiently large that, when the pin is pivoted to align the flow passage with the secondary passage, the filter can be removed from the flow passage through the secondary passage.

Abstract: A control valve for a fluid flow circuit comprises a body that has a fluid inlet and at least two fluid outlets (20, 22, 24) and that defines an axisymmetric housing for a modulating member capable of rotating about an axis of rotation (XX) and adopting different angular positions to control the distribution of the fluid through the outlets. The body comprises a side wall (16) into which the fluid outlets open. The side wall (16) and/or the modulating member comprises sunken areas (EV) and non-sunken areas (CR), the sunken areas (EV) serving to reduce the surface area of the modulating member (26) in contact with the side wall (16).

Abstract: A method for adjusting telescopic water pipe and its structure comprise assembling an internal pipe and an external pipe to form a first water passage and a second external water passage, and an independent second internal water passage. A water passage control switch is disposed to an end of the external pipe and has a channel seal cap that divided into a first channel and a first through hole to connect the first water passage. A water stop plug ring is fit to the first through hole. A second and third through holes corresponding to a second and third channels can be connected to the second internal water passage. A rotary switch is connected to the channel seal cap. A penetration hole is disposed to a partition attached to the channel seal cap. An interconnection groove and an arc plane are disposed to the partition.

Abstract: A pulling-wire waterway switching mechanism has a fixed unit, a water division body, a ratchet shaft, a stopping claw, a returning body and a pulling wire. The water division body can be rotationally arranged in the fixed unit, and can use the rotation between the water division body and the fixed unit to achieve the switch of the outlet functions, a plurality of lower ratchets in anuular array are arranged on the top surface of the water division body, and a plurality of stopping teeth in anuular array are arranged on the outer rotative surface of the water division body. The ratchet shaft provided with a pulling block extending out of the fixed unit and a plurality of upper ratchets in annular array. The pulling block drives the ratchet shaft to rotate forward. The upper ratchets can drive the water division to rotate forward.

Abstract: A switching method of a button switching shower includes: step 1, pressing a button slidingly connected to the shower, and then the button slides; step 2, the button acts on the linking seat of the pawl for rotating the pawl; step 3, the pawl rotates the ratchet wheel through the control end of the pawl, and the shape of the elastic claw of the pawl is changed for restoring energy; step 4, the rotation of the ratchet wheel rotates the water diversion disc, and then the water diversion disc is in place, and then the water diversion disc switches the outlet functions, the stopping claw of the pawl is against the ratch of the ratchet wheel for stopping the ratchet wheel inversion; step 5, the pressing is loosened for resetting the button, and the elastic energy of the elastic claw is released for resetting the pawl.

Abstract: A channel switching valve is disclosed. The channel switching valve has a stator and a body section each having a connecting surface. The stator and the body section are removably fixed to each other by bolts at their connecting surfaces. Each of the connecting surfaces has a protruding/recessed pattern formed thereon, and the patterns are designed to fit into each other. By rotating the stator and the body section relative to each other, the stroke of a spring is changed between a position where the protruding/recessed patterns of the stator and the body section are fitted into each other and a position where they are not fitted into each other. The spring is held in the body section in its compressed state to urge the rotor toward the stator. An urging force for pressing the rotor against the stator is adjusted by changing the stroke of the spring.

Abstract: A turbocharger system comprises a first relatively small high-pressure (HP) turbocharger (1) and a second relatively large low pressure (LP) turbocharger (2). The turbine (6) of the LP turbocharger (2) is connected in series downstream of the turbine (4) of the HP turbocharger (1) in a first exhaust gas passage (11). An exhaust bypass flow passage (12) provides a bypass flow path around the HP turbine (4). A rotary valve (8) is located at a junction of the bypass flow passage (12) and a first exhaust gas flow passage (11). The rotary valve (8) comprises a valve rotor (19) which is rotatable to selectively permit or block flow to the LP turbine (6) from either the first exhaust gas passage (11) or the bypass gas passage (12).

Abstract: A medical stopcock which allows easier switching operation of plural branch-tubes. The main body of the stopcock comprises a chamber part with a nearly spherical inner surface, and an upstream branch-tube, a downstream branch-tube and a merge-branch-tube all extending from the chamber part. A valve body of the stopcock comprises a nearly spherical valve main body and a rod-shaped operating part with a guide hole linking the inner surface of the chamber part to the outside. In operation, the rod-shaped operating part is moved along the guide hole through the use of the horizontal flow passages and the vertical flow passage to allow the predetermined branch-tubes out of the upstream branch-tube, the downstream branch-tube and the merge-branch-tube to communicate with one another or to shut-off the communication.

Abstract: A gravity and flow operated diverter valve diverts liquid flow from one source to either of two output destinations. The valve includes a housing, an inlet opening, a first outlet opening and a second outlet opening. A valve member is located coaxially in the housing interior, the valve member having at least one flow path extending axially therethough, an exterior edge of the valve member and an interior surface of the side wall having a cooperating cam follower structure defining a cyclic path, the path having at least two no flow positions in which the valve member is spaced from the upper wall, and at least two flow positions in which the flow path in the disc selectively allows communication with one or both of the first and second outlet openings, the cyclic path arranged so that on successive liquid flows into the inlet opening the valve member cycles between the at least two flow positions to selectively direct flow out of one or both of the first and second outlet openings.

Abstract: A water supply valve cartridge in which a flow rate control rotary disk has a reduced size, so that surface friction between the flow rate control rotary disk and a flow rate control fixed disk is minimized, thus improving manipulation efficiency of the water supply valve while opening or closing the valve, and which does not sensitively respond to flatness allowance due to the reduced size of the rotary disk, thus executing stable opening and closing operation. The flow rate control fixed disk (140) has water discharge holes (142). The flow rate control rotary disk (150) has a diameter to cover only the area around the water discharge holes (142), with a pair of flow rate control grooves (151) formed on the rotary disk (150) to open only the water discharge holes (142) during rotation.

Abstract: A water supply valve cartridge in which a flow rate control rotary disk has a reduced size, so that surface friction between the flow rate control rotary disk and a flow rate control fixed disk is minimized, thus improving manipulation efficiency of the water supply valve while opening or closing the valve, and which does not sensitively respond to flatness allowance due to the reduced size of the rotary disk, thus executing stable opening and closing operation. The flow rate control fixed disk (140) has water discharge holes (142). The flow rate control rotary disk (150) has a diameter to cover only the area around the water discharge holes (142), with a pair of flow rate control grooves (151) formed on the rotary disk (150) to open only the water discharge holes (142) during rotation.

Abstract: Disclosed are embodiments of apparatus, methods, and systems for fastening a rotatable tube to spigots and nozzles, for fluid-water flow diversion to facilitate the use of sinks by small children. In one embodiment, a tube is provided, which is fastened to a spigot and nozzle. The tube-spigot fastening may be facilitated by a tapered washer. The tube, in turn, may be rotated about the supporting spigot secured to the electronic article. The tube may be configured with curvature, tapering, wall and end openings of sufficient weight, shape, and/or size to allow for optimal water flow choices. Patent No Month/Year Name 2,171,023 August 1939 Buxton 1,253,309 January 1918 Ulleland 5,349,987 September 1994 Shieh 4,736,890 April 1988 Wallington 2,476,079 February 1947 Benjamin 5,072,757 December 1991 Lin 2,507,535 May 1950 Madsen 5,758,690 June 1998 Humpert et al U.S. Pat. No.

Abstract: The invention relates to a valve for controlling volumetric flows in a heating and/or cooling system of a motor vehicle, comprising a valve housing (10), from which at least one inlet channel (18) and at least one outlet channel (20, 22) branch, in addition to at least one disc-type valve body (28) for controlling the flow, said body being located in the valve housing so that it can rotate about the axis (31) of a driven shaft (30). According to the invention, the valve body (28) is operatively connected to an electromotive drive (24) by means of a gear system (64). The invention also relates to a heating and/or cooling system (110) of a motor vehicle, comprising a valve (131) of this type.

Abstract: A gas separation device is disclosed. In particular, seal assemblies and adsorbent element constructions for a gas separation device such as a pressure swing adsorption device are disclosed. The seal assembly can be part of a rotary valve and can include a seal backer and a floating seal positioned within a bore in the seal backer. The floating seal is configured to press towards and seal against an adjacent rotor. Valve action is provided as apertures in the floating seal and rotor are brought into and then out of alignment as a result of relative rotation therebetween. The seal assembly can include two types of gas chambers to apply balanced sealing pressures over the sealing surface of the valve, one type configured to receive pressurized process gas from within the device and the other configured to receive gas from an independently controlled pressurized gas source.

Abstract: A multi-channel stepped motor operated gas adjusting valve includes a valve shell, a reduction motor, a locator, a gas flow distributor and a locator rotation angle detecting mechanism. The gas flow distributor has a disk which is tightly attached to a hard hollow washer. An inner wall of the valve shell is provided with locating ends corresponding to a group of locating nodes to form the locator rotation angle detecting mechanism. Each locating node is placed corresponding to a gas flow distribution groove of the same sequence. The inner wall of the valve shell is also provided with stopping blocks at a beginning state and an ending state of the locator. The valve enables accurate control by utilizing an action position feedback signal and a control circuit, and enables multi-position stepped adjustment on gas flow rate upon multi-channel gas passages simultaneously. The valve can independently cut the multi-channel gas passages.

Abstract: A valve useful in distributing gas received in one inlet to several outlets in a sequence, and burner apparatus including this valve for feeding material in sequence to outlets of a burner thereby forming a non-stationary flame at the burner.

Abstract: Provided is a hydraulic control valve with a main stage, having a movable spool valve in a valve housing with at least four ports P, A, B, T to block or release the ports, and provided with control edges formed on piston collars, and with a hydraulic pilot stage provided to control the spool valve of the main stage. If the spool valve of a hydraulic control valve requires a control to release or block the valve housing ports, in addition to electromechanical pilot valves, hydraulically operating pilot stages are also known, in which a pilot valve, controlled by means of a connected drive, regulates a stream of hydraulic fluid acting upon the spool valve of the hydraulic main stage and therefore moving the spool valve between its control positions.

Abstract: One embodiment of the invention includes a combustion engine breathing system including a compressor valve for use with a biturbo system and cylinder deactivation.