Abstract:
A medicament preparation system includes a water purification module and a medicament proportioning module that is interoperable with a replaceable fluid circuit. The fluid circuit includes a purified water inlet, a product medicament outlet, and a plurality of pumping tube segments. At least a first concentrate container is connected by at least a portion of the fluid circuit to the product medicament output and a first concentration measurement sensor station is positioned in a flow path. A controller is programmed to calculate iteratively a concentration of a first concentrate from the first concentrate container and the purified water from a signal generated by the first concentration measurement sensor station and to regulate one or both of a first pumping actuator engaged with the first pumping tube segment and a second pumping actuator engaged with the second pumping tube segment, responsively to the concentration of the first concentrate and water.
Abstract:
In one aspect of the present invention, an energy storage system has an elastic hydraulic fluid vessel with an internal variable volume and being coupled to a hydraulic rotary mechanism. The elastic hydraulic fluid vessel has an elastic material adapted to store a potential energy within its fibers when the internal volume is increased by a hydraulic fluid. The hydraulic rotary mechanism is adapted to be accelerated by the release of the potential energy of the fibers of the elastic vessel by ejecting the hydraulic fluid from the internal variable volume into the rotary mechanism.
Abstract:
A hydraulic pulsation damper system for installation into an otherwise rigid hydraulic system to absorb and extinguish pressure pulsations being transmitted through the system by hydraulic fluid contained therein. The system is useful in suppressing pulsations in automotive fuel lines supplying fuel to fuel injection systems. The system includes fuel-conducting tubing made of flexible, non-permeable material that includes a convoluted central portion capable of expanding and contracting in response to pulsations in the fuel. Resilient foam is molded around the convoluted portion for controlling expansion of the convolutions. The foam and convoluted tubing are contained within a housing made from a larger-diameter hose having ends sealed as by swaged connectors. The damper system may be bent to accommodate installation with a fuel line in an engine and can conveniently provide a sound-deadening link in the fuel line of a vehicle between a body-mounted portion and an engine-mounted portion thereof.
Abstract:
Disclosed is an accumulator for use on hydraulic brake systems. The accumulator includes a housing, a pressurization cap which is threadably connected into the housing and a resilient bulb contained within a volume between the housing and pressurization cap. The resilient bulb provides a flexible volume which can expand in response to high pressure surges and shock waves experienced by the braking system. The bulb is contained primarily within an interior cavity formed in the pressurization cap. The resilient bulb is constructed in a size and shape which causes an annular volume between the bulb and pressurization cap to be pre-pressurized when the accumulator is assembled together. The accumulator is also provided with a particularly effective sealing arrangement to prevent leakage of air and hydraulic fluid from around the bulb.
Abstract:
A medicament preparation system includes a water purification module and a medicament proportioning module that is interoperable with a replaceable fluid circuit. The fluid circuit includes a purified water inlet, a product medicament outlet, and a plurality of pumping tube segments. At least a first concentrate container is connected by at least a portion of the fluid circuit to the product medicament output and a first concentration measurement sensor station is positioned in a flow path. A controller is programmed to calculate iteratively a concentration of a first concentrate from the first concentrate container and the purified water from a signal generated by the first concentration measurement sensor station and to regulate one or both of a first pumping actuator engaged with the first pumping tube segment and a second pumping actuator engaged with the second pumping tube segment, responsively to the concentration of the first concentrate and water.
Abstract:
A hydraulic accumulator includes: a pressure vessel; a hose which is situated within the pressure vessel, for receiving a first medium; a gap, which is formed between the pressure vessel and the hose, for receiving a second medium; and at least one connection for supplying and discharging the first or the second medium under pressure into or out of the hose or the gap, the supply of the first medium resulting in the compression of the second medium.
Abstract:
The invention relates to the use of microfluidic chemotaxis device to identify novel active compounds of the metabolome and methods to characterize their actions on cell motility. The invention also includes the active compounds of the metabolome identified by the methods and devices disclosed herein. The results from these in vitro experiments were then correlated with in vivo physiologic responses to identify the downstream effects and therapeutic value. Thus, the invention provides novel methods for treating or preventing second organ injury resulting from ischemia-reperfusion in a patient in need thereof The invention also provides methods of treating, preventing or ameliorating connective tissue degeneration in a patient in need thereof. The invention also provides methods of treating or preventing bone loss. In addition, the invention provides method for inducing bone regeneration in patients in need thereof or preventing bone loss in patients suspected to be in need thereof.
Abstract:
A hydropneumatic pressure accumulator has an outer tube forming the accumulator housing. A flexible separating element is formed by a section of a hose, extends in the longitudinal direction inside of the outer tube and is anchored on the tube to form a seal. On the outside and inside of the hose, receiving spaces separated from one another are formed within the tube. A support body is surrounded by the hose and has fluid passages. At least in sections, the support body cross sectional shape is not round. The hose is closed on its one end and is anchored only on its other open end together with an adjacent end of the support body along the outer tube. The size of the outside surface of the hose is only slightly smaller than the size of the inside surface of the outer tube facing it. The size of the outside surface of the support body is slightly smaller than that of the inside surface of the hose facing it.
Abstract:
The invention relates to a hydropneumatic accumulator having an accumulator housing (1), the interior of which, owing to a displaceable piston (11) or a flexible diaphragm, is composed of a liquid chamber (12) filled with a liquid and a gas chamber (13) filled with a pressurized gas. The outer wall (16) of the accumulator housing (1) is entirely or partially encased by a body-borne noise deadening and/or airborne noise deadening layer (18) or a body-borne noise deadening and/or airborne noise deadening layer system (18) or comprises a body-borne noise deadening and/or airborne noise deadening layer and/or a body-borne noise deadening and/or airborne noise deadening layer system.
Abstract:
The invention relates to a hydraulic accumulator (1) comprising: a pressure vessel (2); a tube (7) for accepting a first medium (18), said tube (7) being arranged inside the pressure vessel (2); an interstice (32) for accepting a second medium (30), said interstice (32) being formed between the pressure vessel (2) and the tube (7); and at least one connection (17, 31) for delivering and discharging the first or second pressurized medium (18; 30) into and from the tube (7) or interstice (32), the delivery of one medium (18) causing the other medium (30) to be compressed.