| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 251058000 | With mechanical movement between actuator and valve | 19 |
| 20080224073 | HYDRAULIC VALVE ARRANGEMENT - The invention concerns a hydraulic valve arrangement ( | 09-18-2008 |
| 20090127484 | COMBINED ACTUATOR WITH RHEOLOGICAL CONTROL BRAKE - A combined actuator provided with: a mobile element; a driver for displacing the mobile element; and a rheological control brake, which is mechanically coupled to the mobile element to adjust the displacement of the mobile element; the rheological control brake has: two contiguous adjustment chambers; a rheological fluid contained in the two adjustment chambers; a sliding piston, which tightly separates the two adjustment chambers and is mechanically connected to the mobile element; at least one external connection pipe, which reciprocally connects the two adjustment chambers; and a driving device which is coupled to the external connection pipe so as to apply a variable electromagnetic field to the rheological fluid contained in the external connection pipe for varying the viscosity of the rheological fluid between a minimum value and a maximum value. | 05-21-2009 |
| 20090152483 | CONDENSATE FREE VALVE HANDLE - The present invention provides a valve actuator for a valve that includes a cylindrical body that is thermally nonconductive and configured to engage a valve stem. A cylindrical adjuster is positioned coaxially with the body. A shaft extends through the adjuster and the adjuster is axially movable between a first position and a second position such that when the adjuster is in the first position a first engaging means engages a second engaging means thereby fixing the position of the adjuster relative to the body. When the adjuster is in the second position the adjuster is radially movable relative to the body. A spring is aligned with the shaft and configured to bias the adjuster toward the first position such that the first engaging means engages the second engaging means thereby fixing the position of the adjuster relative to the body. | 06-18-2009 |
| 20090184272 | NORMALLY CLOSED PNEUMATIC DIAPHRAGM VALVE WITH MECHANICAL OVERRIDE WITH LOCKOUT - A pneumatic valve with lockout for controlling the flow of a fluid includes a housing, a fluid flow passage extending through the housing between a fluid inlet and a fluid outlet, and a valve movable along an axis to open and close the flow passage. A pneumatic actuator is operable to move the valve to open and close the flow passage. A manual lockout device is actuable to selectively enable and actuation of disable the valve. The device includes a locking member movable to prevent the lockout device when the valve is disabled. A fitting on the housing to convey a pressurized gas to the pneumatic actuator is mounted to swivel about the housing for connection to an air source on any radial within 360°. The valve is compact, simple to connect in a system and safe. | 07-23-2009 |
| 20090278064 | DIAPHRAGM CONTROLLED BYPASS VALVE - A diaphragm controlled bypass valve includes a diaphragm valve portion and a needle valve portion. The diaphragm valve portion regulates pressurized gas supplied from a pump to determine whether or not to open or close a needle valve. The needle valve portion includes an inlet port, an outlet port and a flow pathway defined between the inlet and outlet ports. A needle pin is disposed within the flow pathway and is coupled to a diaphragm positioned within the diaphragm valve portion. When the diaphragm is displaced in response to changes in pressure, the needle valve pin is likewise displaced which opens and closes the flow pathway. | 11-12-2009 |
| 20100163764 | IMPROVEMENTS IN OR RELATING TO WATER DELIVERY DEVICES - An adaptor for a water delivery device to avoid water wastage by the provision of two durations of water flow, comprising a tap head, a tap body and a plunger, the plunger being slidably mounted within the body so as to be movable from a closed position to both a first open position and a second open position; resilient means being arranged to return the plunger from either open position to said closed position, the adapter being arranged such that the return to the closed position from said first and second open positions takes different lengths of time, and adjustment means arranged to adjust the ratio between the length of time for the plunger to return to the closed position from the first open position and the length of time for the plunger to return to the closed position from the second open position. | 07-01-2010 |
| 20100171053 | TAP ADAPTORS - A tap adapter comprises a tap head, a tap body and a plunger. The plunger is mounted within the body so as to be movable from a closed position to both a first open position and a second open position. Resilient means are arranged to return the plunger from either open position to said closed position. The adapter is arranged such that the return to the closed position from said first and second open positions takes different lengths of time. | 07-08-2010 |
| 20100224805 | HYDRAULIC ACTUATING DEVICE - Hydraulic actuating device ( | 09-09-2010 |
| 20100224806 | PRESSURE-REDUCING VALVE - A pressure-reducing valve is provided in which a diaphragm rod connected to a valve body of a valve mechanism is connected to a central part of a diaphragm having its peripheral edge part clamped between a body and a diaphragm cover, wherein the diaphragm ( | 09-09-2010 |
| 20130207010 | Flow control device - A flow control device is capable of performing accurate flow control over a wide pressure range. The flow control device includes: a housing; a diaphragm splitting the housing into a gas chamber side to which gas is introduced and a fluid chamber side through which fluid passes, and being activated by the differential pressure generated between the gas chamber side and the fluid chamber side; and a valve body which operates in integration with the diaphragm to regulate the flow of the fluid introduced to the fluid chamber side. The diaphragm includes: a base part provided in a substantially central part of the diaphragm; and a thin film part provided on the outer rim of the base part. An opposing surface which is provided on the fluid chamber side to oppose the diaphragm includes a retaining form which retains the shape of the thin film part deformed by the differential pressure. | 08-15-2013 |
| 20130306888 | COUNTER-BIASED VALVE AND ACTUATOR ASSEMBLY - Methods for controlling flow are described herein that include a valve assembly provided and operated to control the flow from a first conduit to a second conduit. The valve assembly includes an actuator housing enclosing an actuator piston and defining a counter-biasing chamber and a first control chamber on the same side of the actuator piston, and a first pressure control port in fluid communication with the first control chamber. A valve is connected to the actuator piston and a bore passes through both the actuator piston and the valve thereby placing a face of the valve in fluid communication with the counter-biasing chamber. The actuator piston includes a first substrate area that defines a portion of the counter-biasing chamber and a second substrate area that defines a portion of the first control chamber where the surface area of the first substrate area is less than the surface area of the valve face. | 11-21-2013 |
| 20140097363 | FLOATING SEAL RETAINER - Configurations of piston actuators having seal retainers doubly acting as pressure chambers are disclosed. Further disclosed are methods of installing pressure chambers in piston actuators. | 04-10-2014 |
| 20140239208 | Emergency Drainage Device for Enclosed Compartments - A drainage device for placement on a housing includes an external plug component and a liquid expandable component. The external plug component has a first cap section and a second attachment section. The first cap section is positionable over an exterior side of a housing wall. The first attachment section is adapted to attach the drainage device to an opening in the housing wall. The liquid expandable component contacts the external plug component and is adapted to contact a structure within the housing when the drainage device is placed on the housing. Characteristically, the liquid expandable component has a higher volume when contacted with liquid than when dry. The liquid expandable component pushes the internal plug component away from the structure within the housing when the liquid expandable component transitions from a non-liquid-containing state to a liquid containing state thereby providing a path for liquid to escape. | 08-28-2014 |
| 20150316169 | Rotary Stepping Actuator for Valve - Valve system with rotary stepping actuator to actuate a valve stem. An actuator drive shaft is supported for stepwise rotation in clockwise and counterclockwise directions to impart rotation to a valve stem nut to axially move a valve stem to open and close valve flow trim. The drive shaft forms peripheral first and second slotted circular drive paths co-axially spaced from each other. The drive paths include outwardly-opening, circumferentially-spaced slots which are matched in number, size and spacing, but the slots in the first drive path are rotationally offset from the slots in the second drive path by a set fraction, for example one half of the slot spacing. Actuation assemblies provide separate forward and reverse actuation cycles to the drive shaft to incrementally rotate the drive shaft in predetermined angular increments (steps) set by the slot spacing. Due to the offset, a counter step in a direction counter to the direction of a directly preceding step rotates the drive shaft by an amount less than the predetermined angular increment, as determined by the set fraction. If the set fraction is one half, the counter step rotates the drive shaft by a half step, while the next following step in the same counter direction is a full step in the predetermined angular increment. | 11-05-2015 |
| 20160061335 | SHUT-OFF DEVICE AND GATE VALVE WITH A SHUT-OFF DEVICE - The invention relates to a shut-off device for valve systems of industrial plants, in particular of chemical and petrochemical plants, with a disc ( | 03-03-2016 |
| 20160061370 | QUICK-FIT HYDRAULIC OR HYDRODYNAMIC COUPLING FOR PRESSURISED FLUIDS - The quick-fit coupling ( | 03-03-2016 |
| 20160123179 | STEAM VALVE AND STEAM TURBINE - A steam valve includes: a valve main body which has, on the inside thereof, a flow path through which steam flows, and has a valve seat formed in a portion of the flow path; a valve body which comes into contact with the valve seat, thereby shutting off the flow path, and is separated from the valve seat, thereby opening the flow path; a valve shaft which is connected to the valve body, extends in an upward direction from the valve body, and moves up and down, thereby bringing the valve body into contact with the valve seat and separating the valve body from the valve seat; a hydraulic drive unit which is disposed to be separated in a horizontal direction from the valve main body, at a position which does not overlap the valve main body in a case of being viewed from above, and has a drive rod which is driven forward and backward by oil pressure; a first link unit which connects the drive rod and the valve shaft and transmits the forward and backward drive of the drive rod to the valve shaft, thereby moving the valve shaft up and down; a second link unit connected to the valve main body; and a connection unit which connects the second link unit and the first link unit and transmits a movement of the valve main body in the horizontal direction to the first link unit through the second link unit. | 05-05-2016 |
| 20160201820 | HIGH CYCLE AND SPEED VALVE | 07-14-2016 |
| 20220136598 | DROP-IN LUBE-ON-DEMAND VALVE AND KIT - A drop-in lube boost valve assembly replaces an OE lube boost valve assembly in a vehicle transmission hydraulic circuit. The OE valve assembly has a valve body with inlet, balancing and outlet ports. The drop-in valve assembly includes a sleeve having inlet and outlet ports, and a bore extending between and fluidically connecting the ports. The drop-in valve ports are spaced from each other. The sleeve includes valve and spring chambers. A valve has a valve face, a sealing portion and a spring stem and is positioned in the sleeve with the sealing portion positioned in the sleeve bore. A spring is positioned on the spring stem. The valve reciprocates in the sleeve between an open state in which the sealing portion does not overlie the sleeve outlet port and a closed state in which the sealing portion overlies and closes off the outlet port. | 05-05-2022 |
