A pressure accumulator having an accumulator housing (10) in which a movable separating element (16) separates a gas chamber (12) filled with a working gas from a fluid chamber (14) in a fluid-sealed manner. A monitoring device (46) is provided, which, in the event of a fault impairing the sealing effect of the separating element (16), provides an optically discernible indication and has an inspection window (54), through which an indicator can be observed. The monitoring device is connected to the gas chamber (12) and changes optical properties discernibly when wetted with the fluid. The indicator changing its optical properties is accommodated in a capsule (48) with a capsule wall (50) permeable to the passage of the fluid and arranged between the inspection window (54) and the separating element (16) in the accumulator housing (10).

The disclosed technology includes a valve assembly having a valve, an actuating system, and a trigger. The trigger can be in mechanical communication with the actuating system and the actuating system can be in mechanical communication with the valve. The trigger can be positioned such that the trigger can interact with liquid resulting from a leak in a plumbing system, and upon interaction with liquid, the trigger can release the actuating system such that the actuating system can cause the valve to transition from an open position to a closed position. In the closed position, the valve can restrict the passage of liquid through the plumbing system such that the leak can be mitigated or stopped.

Disclosed is an expansion tank having an internal cavity separated by a flexible diaphragm to form an upper pressurized gas portion and a lower pressurized fluid portion, and an indicator positioned at an upper part of the expansion tank in communication with the contents of the upper pressurized gas portion. The indicator is configured so as to display a first color if the operating conditions are normal in the pressurized gas portion, and a second color if the amount of moisture detected in the pressurized gas portion greater than or equal to a predetermined amount. Further disclosed is a method for detecting whether there is an excessive amount of moisture in a pressurized gas portion of an expansion tank by allowing pressurized gas from the pressurized gas portion to come into contact with the indicator, and viewing the color displayed by the indicator. As such, the tank can be simply visually inspected to determine whether there is a potential failure in the tank.

A connecting device through which a gas can flow, for connecting a port of a surgical instrument to a reprocessing device for cleaning the surgical instrument, the connecting device including: a self-actuating valve with a swellable material body.

A system is provided that includes a dart, a pressure sensor, and a controller communicatively coupled with the sensor. The dart is disposed in a fluidic channel. The dart has a main body and a flange extending from the main body and has a diameter greater than or equal to a diameter of the fluidic channel. When the dart translates within the fluidic channel and passes a location of a variation in the fluidic channel, the flange creates a pressure pulse. The pressure sensor measures the pressure pulse within the fluidic channel created by the dart. The controller determines the location of the variation based on the measured pressure pulse.

A toilet bolt cap liquid sensor including an outer shell defining an interior cavity sized to receive a portion of a toilet bolt and house a liquid sensor; the liquid sensor including an exposed surface to the interior cavity. The liquid sensor can be used in a leak detector system for a toilet comprising: a flat base sheet bound by an outer perimeter an interior aperture; a wick material barrier coupled to the base between the aperture and the outer perimeter in a continuous or substantially continuous strip around the aperture; a wick material projection extending from the wick material barrier; and a toilet bolt cap including an outer shell defining an interior cavity for receiving an end of a toilet bolt, the toilet bolt cap housing the liquid sensor the liquid sensor including an exposed surface to the interior cavity for contact in fluid communication with the wick material projection.

A pressure accumulator having an accumulator housing (10) in which a movable separating element (16) separates a gas room (12) filled with a working gas from a fluid room (14) in a fluid-sealed manner, wherein a monitoring device (46) is provided, which, in the event of a fault impairing the sealing effect of the separating element (16), provides an optically discernible indication and which has an inspection window (54), through which an indicator can be observed, which is connected to the gas room (12) and whose optical properties change discernibly when wetted with the fluid, is characterized in that the indicator changing its optical properties is accommodated in a capsule (48), the capsule wall (50) of which is permeable to the passage of the fluid and which is arranged between the inspection window (54) and the separating element (16) in the accumulator housing (10).

A safe water heater comprises a housing assembly, a box assembly, and a water inlet and outlet assembly. The housing assembly comprises a first housing with a mounting cavity. The box assembly comprises a water tank with a water-containing cavity. The water inlet and outlet assembly comprises a water inlet subassembly and a water outlet subassembly. The water inlet subassembly comprises a second water inlet pipe communicating with the water-containing cavity, a first water inlet pipe able to communicate with outside, and a leak-proof mechanism. The leak-proof mechanism is capable of sealing a water inlet of the second water inlet pipe.

A passive detection system is used for monitoring the integrity of abandoned, suspended, and/or decommissioned subsea wells or carbon dioxide sequestration reservoirs, where the system utilises a passive detector that reacts to the presence of a predetermined chemical to release a buoyant beacon. The beacon travels under buoyancy to the sea surface, where it transmits signals to an operator to alert the operator to a potential loss of integrity at the site. The system can include a trigger that initially restrains the beacon, but degrades in response to contact with the predetermined chemical. The system can include gathering and concentrating devices that collect the leaking chemical and direct the collected chemical towards the trigger, facilitating contact between the chemical and trigger and resulting degradation. Once the trigger has degraded sufficiently, it loses structural integrity and fails, releasing the beacon.

A liquid leak detection and prevention device comprised of a leak detection apparatus positioned near a water-dependent appliance to monitor for moisture due to a leak, and a leak prevention system connected to the leak detection apparatus in fluid communication with a water pipe attached to the water-dependent appliance and positioned in-line with the water pipe is disclosed.