A control valve for a gas turbine engine air starter. The control valve includes a spherical or ball valve element rotatable between a closed position and an open position to connect an internal flow passage to the air starter. A series of camming elements interconnecting a piston and a valve stem for the spherical valve element convert linear displacement of the piston into rotational movement of the valve for rapid opening.

A linearly actuated pinch clamp is provided, including a housing, a motor connected to the housing, a mechanical drive unit connected to the motor for converting a rotary motion of the motor to a linear motion and for introducing a mechanical advantage to the motion of the motor, and a pinching element having a body and a pinching surface. The pinching element body is coupled to the mechanical drive unit. In certain versions of the pinch clamp, the pinching element is slidably mounted to the housing such that the pinching element is linearly displaceable by the mechanical drive unit between a first position and a second position where the pinching surface cooperates with a fixed surface to pinch closed a flexible tube.

A method of controlling flow through a flexible tube includes providing a pinch clamp mechanism including a pinching element and a pinching surface configured to apply a force on the flexible tube when the flexible tube is positioned between the pinching element and the pinching surface. The method also includes displacing the pinching element relative to the pinching surface with a mechanical drive unit and biasing the pinching element toward the pinching surface with a spring.

A tube clamp closes a flexible tube by applying a pinching force to walls of the flexible tube. The clamp includes a housing connected to a circular flange, the circular flange including a tubular wall surrounding a central bore and including at least one slot in the tubular wall sized to accept the flexible tube. A pinching element is positioned inside the central bore and is rotatable about a central axis of the circular flange. The pinching element includes a pinching projection that has a cross-sectional shape bound by a partial circle, and the partial circle has a radius substantially same as an inner radius of the tubular wall.

The invention relates to a system for treating blood, which includes a single cassette capable of carrying out the various CRRT treatments.

A faucet includes a body that extends between a first end and a second end, and is arranged to receive a mixing cartridge. A diaphragm valve is provided in the body, and includes a flexible diaphragm having a first side and a second side, the flexible diaphragm being moveable to open and close the diaphragm valve to control a flow of water to an outlet of the faucet. A fluid bypass, separate from the flexible diaphragm, is in fluid communication between the first side and the second side of the flexible diaphragm. A bypass valve member is moveable to open and close the fluid bypass to vary a pressure differential across the flexible diaphragm, to open and close the diaphragm valve. A push operated control member is arranged to move the bypass valve member at the second end of the body.

The invention relates to a system for treating blood, which includes a single cassette capable of carrying out the various CRRT treatments.

The present disclosure relates to a three-function check valve that in one embodiment is attached to a vacuum bladder full of media (foam beads). This three-function check valve is comprised of a selection piece, silicone membrane, and a mounting base all in one sub-assembly. Furthermore, this valve has three positions with three distinct functions. These functions are to create an airtight seal, allow for free flow in and out of the bladder, and restrict flow of air based on a differential pressure.

A faucet includes a body that extends between a first end and a second end, and is arranged to receive a mixing cartridge. A diaphragm valve is provided in the body, and includes a flexible diaphragm having a first side and a second side, the flexible diaphragm being moveable to open and close the diaphragm valve to control a flow of water to an outlet of the faucet. A fluid bypass, separate from the flexible diaphragm, is in fluid communication between the first side and the second side of the flexible diaphragm. A bypass valve member is moveable to open and close the fluid bypass to vary a pressure differential across the flexible diaphragm, to open and close the diaphragm valve. A push operated control member is arranged to move the bypass valve member at the second end of the body.

A mixer valve (1) comprises a body (5) extending in a first direction between a front end and a rear end. The body (5) defines a volume (5a); a thermostatic cartridge (15) is received in the volume (5a), and a diaphragm valve (21) is received in the volume (5a) between the thermostatic cartridge (15) and the rear end of the body (5). The diaphragm valve (21) is operable in response to actuation of a push operated control member (23) to control flow of water from the mixer valve (1).