Patent application number | Description | Published |
20090107137 | Integral power element - A thermal actuator and component part wherein the guide tube of the thermal actuator is integral with the component part. The cup containing the thermally responsive wax is crimped over a flange on the end of the guide tube. An actuating piston is positioned in the guide tube. The component part has a portion having a larger external diameter than the external diameter of the cup. The thermal actuator and component part are assembled by enclosing a split die member about the component part and integral guide tube member, placing the split die member with the component part and tube member into a lower tool member and advancing an upper tool member containing the cup toward the die member to cause the wall of the cup member to be crimped around the flange. | 04-30-2009 |
20100032594 | Freeze protection valve - A thermally actuated valve employs a plunger and bore valve configuration. A thermally expansible wax actuator has an axial length that changes in response to the temperature in a cavity of the valve. The plunger integrally extends from the actuator body and carries a seal. At temperatures above a predetermined set point, the actuator produces axial force sufficient to extend the length of the actuator against a return bias and project the plunger and seal into the bore, closing the valve. At temperatures below a second set point, the axial force of the actuator is less than the return bias and the plunger is withdrawn from the bore, opening the valve. The axial force generated by the actuator is variable and has a non-linear rate of change, providing a valve with a non-linear change flow rate with respect to temperature. | 02-11-2010 |
20100200783 | Integrated Freeze Protection and Pressure Relief Valve - A thermally actuated valve employs a plunger and bore valve configuration. A thermally expansible wax actuator has an axial length that changes in response to the temperature in a cavity of the valve. At temperatures above a predetermined set point, the actuator produces axial force sufficient to extend the length of the actuator against a return bias and project the plunger and seal into the bore, closing the valve. The plunger defines a pressure relief fluid flow path from the valve cavity to the valve outlet. A pressure relief valve is arranged in the plunger and is responsive to pressure in the valve. The pressure relief valve opens to relieve pressure above a pre-determined level. The thermally actuated valve and the pressure relief valve are coaxial and employ a common outlet. | 08-12-2010 |
20110186763 | Pressure by-pass valve - A by-pass valve fitting assembly in which the valve element is retained in a cage having a front end support rigidly trapped between a cylindrical body and an inlet fitting, with the other end cantilevered in a flow cavity of the body, such that the biasing spring is seated in the cantilevered support to urge the valve element through the front support against a sealing face on the inlet fitting. | 08-04-2011 |
20120247582 | Temperature Control Valve With Pressure Relief - The disclosed fluid flow control valve provides alternatively acting valves to define a bypass fluid flow path during warm-up and a steady state (cooling) flow path thereafter. A first valve closes a fluid flow return path from a fluid cooler, while the second valve closes the bypass flow path between the fluid source and fluid return. The actuator itself forms one of the valves, while a second valve member is slidably secured to the actuator to engage a valve seat in the bypass passage. The actuator is responsive to a temperature increase above a predetermined set-point by generating an axial force F to move the actuator from a bypass position to a steady state (cooling) position. The second valve member is biased toward an axially extended position by a bias member. Excess fluid pressure in the “hot” side of the valve body moves the valve member relative to the actuator to regulate pressure delivered to the fluid cooler. | 10-04-2012 |
20130334327 | Self-Contained Thermally Actuated Flow-Control Assembly - A self-contained thermally actuated flow-control valve assembly comprises a base, an actuator, and a return member. The base has a longitudinal axis, a stop surface and a retention wall. The actuator has a generally cylindrical guide, a piston, a diaphragm, a thermally active pellet, and a generally cylindrical cup. The guide has an exterior surface on which a plurality of retention members are configured. The piston assembly is coaxial with the longitudinal axis. The generally cylindrical cup has a leading wall, a sidewall contiguous with the leading wall, and a trailing shoulder axially opposite the leading wall. The return member has axially opposed first and second ends. The first end engages the retention members and the second end engaging the base. The return member exerts a biasing force on the actuator axially towards said base. The actuator exerts a variable actuating force in a direction axially opposite the biasing force. | 12-19-2013 |
20140131460 | Thermally Actuated Power Element with Integral Valve Member - A thermally actuated power element comprising an actuator having a guide, defining a generally cylindrical bore extending between first and second guide ends. The guide first end has a generally convex valve member projecting radially between the bore and a valve member periphery, defining a plurality of substantially identical flow depressions. The flow depressions are configured radially intermediate the cylindrical bore and the periphery, while an annular valve member seal surface extends between a radial boundary of the flow depressions and the periphery. A piston having axially opposed first and second piston ends is partially received in the generally cylindrical cavity. A generally concave cup defines a cavity and contains a thermally active pellet, and a diaphragm is received in the guide second end intermediate the cup and said piston. A generally cylindrical return member engages the guide adjacent the periphery. | 05-15-2014 |
20150316939 | Four Way Valve With Oil Filled Actuator - A thermally actuated flow control valve comprises a wax filled actuator assembly including a guide, a piston, a cup and a diaphragm. The cup is disposed at the guide first end and defines a cavity that receives a thermally activated pellet. The thermally activated pellet, diaphragm and piston act in concert to exert a variable actuating force as a temperature of a fluid increases between a first temperature T | 11-05-2015 |