Abstract: An rear end surface of a slide guide plate 12 extending rearward beyond a valve disc 6 is configured to abut against a rear step surface when the valve disc 6 is moving in a valve-opening direction, thus regulating a movement amount of the valve disc 6. This prevents the spring 7 from entering such an excessive compressive state that in a valve-opened state it is fully compressed. As a result, even in a case where the spring 7 is made of a synthetic resin, deterioration, due to stress relaxation, in a springing force can be suppressed, to suppress deterioration in a pressing pressure onto the valve disc 6 in the valve-closing direction, thus maintaining stable check valve functions.
Abstract: Check valves for use in fluid conducting structures such as thermostatic mixing valves are provided. Illustratively, the fluid conducting structure provides a passageway defining an axis, and the check valve comprises a cap coupled to the structure, a seat disposed in the passageway and spaced apart from the cap, a valve member axially movable between a sealed position engaging the seat and an opened position spaced apart from the seat, and a spring urging the valve member to engage the seat, the spring being coupled to the valve member and the cap.
Abstract: A check valve having a profiled entrance that reduces net positive suction head for piston and plunger pumps. The valve inlet surface has a cross-section that may include a curved portion that corresponds to a portion of a cone, circle, ellipse, hyperbola, or parabola.
Type:
Grant
Filed:
December 5, 2000
Date of Patent:
March 25, 2003
Assignee:
National-Oilwell, L.P.
Inventors:
Samuel S. Wu, George A. Hall, Aziz J. Merchant
Abstract: A vacuum adjustment valve, particularly for thoracic drainage devices, which comprises a valve body arranged in the air intake duct and tuning a first region connected to the intake duct and a second region connected to the drainage device. A regulator is arranged between the regions, is struck by the air stream and is operatively connected to a flow control element which controls a port for connection between the second region and an environment at atmospheric pressure. Adjustable elastic closure elements act on the flow control element.
Abstract: A variable capacity type compressor has a swash plate, pistons reciprocating in the cylinder bores, a suction chamber, and a discharge chamber. A check valve arranged in the compressor. The check valve has a valve seat member having a flow passage and a valve seat, a case attached to the valve seat member, and a valve element arranged in the case for cooperation with the valve seat. The case has a communication hole formed therethrough to allow the gas to flow from the flow passage through the communication hole to the outside circuit. The case has a damper chamber formed therein on the back side of the valve element to damp vibration of the valve element.
Abstract: An inline check valve having a piston member and a seat in a valve body having a larger diameter at the end thereof away from the piston. The seat is retained within a groove by a seat retainer which prevents removal of the seat from the groove without deformation of the seat.
Abstract: A check valve having a profiled entrance that reduces net positive suction head for piston and plunger pumps. The valve inlet surface has a cross-section that may include a curved portion that corresponds to a portion of a cone, circle, ellipse, hyperbola, or parabola.
Type:
Application
Filed:
December 5, 2000
Publication date:
July 25, 2002
Inventors:
Samuel S. Wu, George A. Hall, Aziz J. Merchant
Abstract: A microvalve device for controlling fluid flow in a fluid circuit. The microvalve device includes a body defining a chamber, an inlet port and an outlet port. The inlet port is connected in fluid communication with the chamber and is adapted for connection with a first fluid source. The outlet port is connected in fluid communication with the chamber and is adapted for connection with a second fluid source. A check valve is movably disposed in the chamber for movement between a closed position and a fully opened position by differential pressure across the check valve. When the check valve is placed in the fully opened position, fluid is allowed to flow from the inlet port to the outlet port through the chamber. When placed in the closed position, the check valve restricts fluid from flowing between the inlet and outlet ports.
Abstract: A unitized check valve assembly comprises: a valve body having a bore therethrough, the bore having an inlet and an outlet, a valve disk engaging said body at said outlet, a valve retainer engaging the body and surrounding the valve disk and the outlet; a first biasing member in compression between the body and the valve retainer; and a second biasing member in compression between the body and the valve disk. The flow passage between the valve seat and the valve is continuous around the circumference of the valve. In a preferred embodiment, the valve body and the valve disk each have a mating surface, the mating surfaces define an interface therebetween, and the interface comprises a portion of a spherical surface.
Abstract: A scroll compressor includes a discharge valve assembly for blocking compressed refrigerant flow from the discharge chamber through the scroll members. This blocking of flow results in an increased performance for the scroll compressor by minimizing the recompression volume due to the configuration of the value assembly and thus the elimination of reverse rotation at shut down. The discharge valve assembly includes a valve seat, a disc shaped valve member, a retainer, a spring and a stop secured within a recess formed within the scroll member.
Type:
Grant
Filed:
January 4, 1999
Date of Patent:
January 30, 2001
Assignee:
Copeland Corporation
Inventors:
Mark Bass, Werner H. Prenger, Roy J. Doepker