Class / Patent application number | Description | Number of patent applications / Date published |
137625120 | Sequentially progressive opening or closing of plural ports | 12 |
20130068329 | BYPASS PISTON PORT AND METHODS OF MANUFACTURING A BYPASS PISTON PORT FOR A SERIES PROGRESSIVE DIVIDER VALVE - A series progressive divider valve comprises a valve body and pistons. A fluid inlet extend into the valve body. Stations are disposed in the valve body and extend from a first end to a second end; each station comprises piston stations extending through the valve body and a bypass station fluidly isolating the first end form the second end. The piston stations comprise a piston bore and a piston. The bypass stations comprise first and second fluid passages extending from the first and second ends to positions inside the valve body. Outlet bores extend into the valve body, and each comprises first and second sets of outlet bores. Porting forms passageways connecting the stations to each other and with the outlet bores such that when high pressure fluid is applied to the inlet the pistons reciprocates from the first end to the second end in sequence. | 03-21-2013 |
20140261812 | BYPASS PISTON PORT AND METHODS OF MANUFACTURING A BYPASS PISTON PORT FOR A SERIES PROGRESSIVE DIVIDER VALVE - A series progressive divider valve comprises a valve body and pistons. A fluid inlet extends into the valve body. Stations are disposed in the valve body and extend from a first end to a second end; each station comprises piston stations extending through the valve body and a bypass station fluidly isolating the first end from the second end. The piston stations comprise a piston bore and a piston. The bypass stations comprise first and second fluid passages extending from the first and second ends to positions inside the valve body. Outlet bores extend into the valve body, and each comprises first and second sets of outlet bores. Porting forms passageways connecting the stations to each other and with the outlet bores such that when high pressure fluid is applied to the inlet the pistons reciprocates from the first end to the second end in sequence. | 09-18-2014 |
20140290772 | INTEGRATION VALVE - A vapor-liquid separating space is provided in a body. The body houses a fixed throttle-decompressing liquid-phase refrigerant, and an integration valve member selectively opening or closing a liquid-phase refrigerant passage and a vapor-phase refrigerant passage. The integration valve member is moved by a stepping motor connected to the integration valve member via a shaft. Accordingly, a cycle configuration of a heat pump cycle working as a gas injection cycle can be simplified. | 10-02-2014 |
20140326342 | SINGLE-LEVER MIXING CARTRIDGE - The invention relates to a single-lever mixing cartridge, comprising a head piece ( | 11-06-2014 |
137625130 | With subsequent closing of first port | 8 |
137625150 | Rotary | 8 |
20090235998 | DUAL-PURPOSE GAS STOVE SWITCH - A dual-purpose gas stove switch includes a valve body and a valve seat. The valve body includes an inlet passageway, an interior passageway, a nozzle having a mouth, a compensation nozzle, and a compensation passageway in communication with the compensation nozzle. A valve core is received in a chamber formed by the valve body and the valve seat. The valve core includes a blind hole in communication with the mouth via the interior passageway. The valve core includes four holes and a compensation hole. The valve core is rotatable to make the four holes to be in selective communication with the inlet passageway. The compensation hole can be in communication with the compensation passageway and the compensation nozzle. Thus, the switch can be selectively utilized with liquefied petroleum gas or natural gas. | 09-24-2009 |
20110067770 | Fluid-directing multiport rotary valve - 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. The first rotating head is in communication with the first stationary head while the second rotating head is in communication with the second stationary head. Each rotating head has internal transverse conduits formed therein for the purpose of redistributing the flow coming from a primary port in the stationary head back to the secondary port in the same stationary head. In conjunction with offset and recessed arcuate obround windows in either the stationary or rotating heads, the internal transverse conduits in the rotating heads are formed in a very specific pattern that allows each primary port to connect to each secondary port and thereby each fluid-solid contacting chamber in a sequential manner upon one index of the rotating heads. The timing of the index can be varied to accommodate the specifics of each process. The net effect of the apparatus is the simulated movement of each chamber through the various fluid streams without physically moving the chambers. | 03-24-2011 |
20110277862 | MULTI-WAY REVERSING VALVE - There is provided a multi-way reversing valve capable of preventing the obstruction of fluid circulation between in/out ports and a valve chamber without causing an increase in size. There is provided a laterally protruding part and a base end-side overhang part. The laterally protruding part protrudes significantly outward in the radial direction from rotational axis line O. The base end-side overhang part is continuous with the laterally protruding part, protrudes in the opposite direction to the protruding direction of the laterally protruding part, and is semi-circular or semi-elliptical in plan view. A surface of the laterally protruding part on the valve seat member-side is taken to be a reference surface. An amount corresponding to a predetermined thickness is removed from the reference surface at the base end-side overhang part, and a notch part that has been lowered in level by this removal is thus formed. | 11-17-2011 |
20120291899 | Ink Valve Assembly for a Printing Press - A rotary ink valve for providing ink in a printing press is provided. The valve includes a stationary outer portion having first and second ends connected by a body, said body having a substantially cylindrical interior area and having at least one bypass aperture and a substantially tubular inner portion lying within and rotatable within said cylindrical interior area of said outer portion and having first and second ends connected by a side wall, and having at least one bypass aperture in said side wall. The ink valve further includes at least one of the substantially cylindrical interior area and the side wall having a plurality of grooves, each of the plurality of grooves holding a lubricant. | 11-22-2012 |
20130048123 | SEGMENTED POSITIONING STRUCTURE OF A CERAMIC SHUNT VALVE - A segmented positioning structure of a ceramic shunt valve having a shell, a plurality of segmented coupling portions, a water segregator, a segmented positioning plate, a plurality of segmented positioning portions and an elastic supporting member. The elastic supporting member is installed between the rotational positioning seat of the water segregator and the segmented positioning plate, so that the segmented positioning plate is elastically braced in an elastic floating state, and a spacing edge is located beside the locating rod for limitation of the segmented positioning plate. When the braking shaft lever is rotated, the segmented positioning plate will be in a floating state under the elastic bracing of elastic supporting member, in tune with the interlocking and disengagement state of the segmented positioning portion and segmented coupling portion. This could realize excellent elastic locking effect and reduce the abrasion between the segmented positioning portion and segmented coupling portion. | 02-28-2013 |
20130174927 | FLUID SELECTION VALVE - A multiple fluid selection valve including a stator and a rotor is provided. The stator includes a stator interface and a plurality of ports arranged into a plurality of port groups. Each port group has a common port and non-common ports. The non-common ports include a first non-common port and a second non-common port. The rotor includes a plurality of first channels, each first channel extending from an axial center of the rotor to at least a point on the rotor interface alignable with the common ports for fluid communication therewith. The rotor also includes a plurality of second channels, each second channel extending from at least a point on the rotor interface alignable with the common ports for fluid communication therewith to at least a point on the rotor interface alignable with the first non-common ports and/or the second non-common ports for fluid communication therewith. | 07-11-2013 |
20140345729 | FINE CERAMIC CONTROL VALE - A ceramic control valve has a valve shell that orderly has a control shaft, an upper ceramic piece, a lower ceramic piece and a valve base connected underneath to avoid the abovementioned components from falling out. The ceramic control valve can change the water output style of the faucet without an additional handle, and the water output can be switched between front portion of the faucet and showerhead to effectively reduce the components of the faucets and simplify the assembly process. | 11-27-2014 |
20150114501 | ROTARY SHEAR VALVE ASSEMBLY WITH HARD-ON-HARD SEAL SURFACES - A multi-position rotary shear valve assembly having a substantially metallic or ceramic stator device and a substantially metallic or ceramic rotor device. The stator device defines a substantially planar stator face and at least two or more stator channels in fluid communication with the stator face at corresponding stator ports, while the rotor device includes a substantially planar rotor face defining one or more rotor channels. A tribological coating is disposed atop at least one of the rotor face and the stator face, which enables a substantially fluid-tight, selective relative rotation between the rotor face and the stator face, at a rotor-stator interface, between two or more rotor positions. | 04-30-2015 |