Embodiments disclosed herein are directed to a connector for a fluid drainage system for fluidly coupling a catheter to a drainage tube. The connector includes a body defining a drainage lumen extending along a longitudinal axis from a distal portion to a proximal portion. The connector also includes a positive air pressure inlet and a valve slidably engaged with a valve housing along the longitudinal axis between a first position and a second position. The valve in the first position provides fluid communication between the distal portion and the proximal portion of the drainage lumen, and the valve in the second position occludes fluid communication between the proximal portion and the distal portion of the drainage lumen. Pressurized air provided at the inlet can transition the valve to the second position and clear any dependent loops within the drainage lumen.

A flow control device may include a housing having a primary valve body defining a primary inlet and an outlet of the flow control device, a secondary valve body defining a secondary inlet of the flow control device, and a chamber defined by an inner circumferential surface of the housing. The primary and secondary inlets may share a common central axis, and a central axis of the outlet may be perpendicularly disposed relative to the common central axis. The chamber may extend between the primary and secondary valve bodies for fluidly connecting the primary and secondary inlets with the outlet. The flow control device may further include a valve member reciprocally mounted in the chamber to (i) block fluid communication between the secondary inlet and the outlet when fluid pressure into the primary inlet is higher than fluid pressure into the secondary inlet, and (ii) block fluid communication between the primary inlet and the outlet when fluid pressure into the secondary inlet is higher than fluid pressure into the primary inlet.

A system for intravascular oxygenation may include a catheter shaft, a vibratory member, and an oxygen source. The catheter shaft may have a wall that extends from a proximal end to a distal end along a longitudinal axis to form a lumen. The distal end may terminate in an atraumatic tip that seals off an interior space of the lumen from an adjacent exterior space. The distal end may include a coiled spring whose coils are tightly disposed against adjacent coils. The vibratory member may be configured to produce and transmit via the wall, to the coiled spring, mechanical vibration or high-frequency acoustic energy. The oxygen source may be configured to be coupled to the proximal end and to deliver a flow of oxygen to an interior space for communication to the exterior space, through gaps that exist or are created between adjacent coils of the coiled spring.

Disclosed is an irrigation system. The irrigation system includes a manual pump. The manual pump can provide pressurized liquid through a tube at an outlet.

A pressure relief valve for a reservoir has a housing body forming first and second subchambers in fluid communication. A first opening in a bottom surface of the housing body forms a first valve seat. At least one second opening in the bottom surface forms a second valve seat along an outer perimeter. A diaphragm member is biased against the second valve seat and is configured to deflect off of the second valve seat under a negative pressure. A sealing ball is gravitationally biased against the first valve seat and raises off the first valve seat in response to a positive pressure. A cover sheet on an upper surface of the housing body partially encloses the chamber and traps the sealing ball in the first subchamber. The cover sheet includes an aperture aligned with the second subchamber providing an ambient pressure port coupled to ambient atmosphere.

A fluid controller includes a piezoelectric pump, a valve, and a cuff. The valve includes a first valve housing, a diaphragm, and a second valve housing. The second valve housing has a second air hole, a third air hole, and a first valve seat. The second air hole connects to the internal space of the cuff. The third air hole connects to the outside of the fluid controller. The first valve seat is formed around the third air hole. Together, the second valve housing and the diaphragm form a first flow passage. The first flow passage connects the second air hole and the third air hole to each other. The second valve housing has a protruded portion protruding toward the diaphragm and providing a portion of the first flow passage. The shortest distance between the protruded portion and the diaphragm is less than the diameter of the third air hole.

Portable oxygen concentrator elements are described including integrated sensor/accumulator assemblies, new muffler designs, and improved airflow and internal gas connectivity. The result of the elements is an extremely compact, light reliable portable oxygen concentrator that is easy to assemble and relatively inexpensive.

A medical functional device with a valve seat for a check valve wherein the check valve is embodied such that it takes, in addition to a first position which is suitable for gas sterilization, a second, functional position, by means of applying force onto a section of the check valve or by means of moving or shifting the section, in which the check valve adopts a check or non-return function, wherein the check valve is embodied such that it remains in the second position after release or shortfall of the force or the moving effect following an accomplished transfer into the second position.

Provided is a medication dispenser configured to discharge a liquid state medication stored therein by a pumping operation in a predetermined amount in a drop state and prevent a noise occurrence during medication discharge, and having a bacteria infiltration prevention function, wherein a flow path member and a second check valve are mounted in a liner, the second check valve is composed of a hemispherical cylinder mounted in an elevation space of the liner, having an open upper part, and of which a diameter decreases toward a lower end and includes a variable part in which the hemispherical cylinder is vertically variable and an opening and closing protrusion configured to perform supply and blocking of a flow path.

A system for delivery of a fluid to an animal is provided in the present disclosure. The system includes a reservoir to hold a volume of fluid, delivery outlet, recirculating loop, and valve in fluid communication between the reservoir and delivery outlet, the valve having an inlet to receive fluid from the reservoir, a first outlet in fluid communication with the delivery outlet, and a second outlet in fluid communication with a return conduit to the reservoir. The system further includes control means for opening and closing the first and second valve outlets, and a pump to pump fluid from the reservoir to the valve and through the reservoir return conduit to the reservoir. When the control means opens the first outlet, the fluid flows from the reservoir to the delivery outlet. When the control means opens the second valve outlet, the fluid flows through the return conduit to the reservoir.