PAUL KENNETH SKOGLUND
Pilots at 10 St, Medina, WA

2012018, Jul 19, 2012

Jan 17, 2012

13/352229

Paul K. Skoglund - Medina WA, US
Art Smith - Woodinville WA, US
Ben Trueblood - Woodinville WA, US
Chris Robson - Woodinville WA, US
Mark W. Kirchner - Seattle WA, US

Flow Control Industries, Inc. - Woodinville WA

G05D 7/00, G06F 19/00, G01F 1/38

700282, 702 47

A constant-flow control valve and BTU meter assembly that has a pressure independent, constant-flow control valve assembly connectable to the fluid-based heating or cooling system. A valve stem is connected to a valve member and is rotatable as a unit relative to a valve body to change the position of valve member to change a fluid flow rate through the valve. The valve member's position relative to the fluid path is directly related to the fluid flow rate. A BTU meter assembly is connected to the valve stem, which is rotatable relative to the BTU meter assembly. A position sensor of the BTU meter assembly detects a rotational position of the valve stem relative to the BTU body. A controller of the BTU meter assembly determines the fluid flow rate based upon the pressure drop across the valve assembly and the rotational position of the valve stem.

7128086, Oct 31, 2006

May 24, 2005

11/136767

Mark W. Kirchner - Seattle WA, US
Ben Trueblood - Woodinville WA, US
Paul K. Skoglund - Medina WA, US

Flow Control Industries, Inc. - Woodinville WA

G05D 7/01

137501, 137500

In one embodiment, a flow control valve includes a valve body having an inlet, an outlet, a flow passageway coupling the inlet to the outlet, and a cavity with first and second chambers. The valve further includes a hollow piston disposed in the first chamber and a seal separating the first and second chambers. The seal has a section within the piston that is exposed to the fluid in the first chamber. The section of the seal defines a first effective area. The valve also includes a biasing member configured to urge the piston, and a reference pressure passageway in fluid communication with the inlet and the second chamber. The valve can further include a piston seat that has a second inner effective area at least approximately equal to the first inner effective area.

6932107, Aug 23, 2005

Apr 12, 2004

10/823038

Mark W. Kirchner - Seattle WA, US
Ben Trueblood - Woodinville WA, US
Paul K. Skoglund - Medina WA, US

Flow Control Industries, Inc. - Woodinville WA

G05D007/01

137501, 137508

In one embodiment, a flow control valve includes a valve body having an inlet, an outlet, a flow passageway coupling the inlet to the outlet, and a cavity with first and second chambers. The valve further includes a hollow piston disposed in the first chamber and a seal separating the first and second chambers. The seal has a section within the piston that is exposed to the fluid in the first chamber. The section of the seal defines a first effective area. The valve also includes a biasing member configured to urge the piston, and a reference pressure passageway in fluid communication with the inlet and the second chamber. The valve can further include a piston seat that has a second inner effective area at least approximately equal to the first inner effective area.