A monitoring system is provided for the identification and location of leakage of a fluid at least one pipe joint consisting of two abutting non-insulated pipes. The monitoring system comprises at least one first detector for detecting fluid, located at a first pipe joint, and a jacket piece provided locally over the first pipe joint, the jacket piece together with the non-insulated pipes forming a sealed space containing the first detector.

A liquid cooling device includes a liquid cooling conductor, a detecting probe, and a determining circuit. The liquid cooling conductor includes a chamber defined therein for communicating with the outside, the chamber is configured to accommodate the coolant, and the surface of the liquid cooling conductor is provided with at least one communicating port communicating with the chamber; wherein the liquid cooling conductor is formed joining at least two combination blocks, and at least one of the two combination blocks is a metal conductor. The detecting probe is disposed on the liquid cooling conductor and normally electrically disconnected from the metal conductor. The determining circuit is electrically connected to the metal conductor and the detecting probe, and generates a liquid leakage alarm signal when the metal conductor and the detecting probe are electrically connected.

Systems and methods are provided to localize a robot in a water pipe system or other fluid conduit based in part on obtrusions detected by the robot travelling through the system. The obtrusions can include pipe joints that connect consecutive standard fixed-length pipe segments. By detecting such repeating obtrusions, the robot can estimate its speed and/or the relative distance that it has travelled within the pipe system. The robot can be configured to localize itself by detecting consecutive pipe joints and other obtrusions in the pipe system using low cost, non-conventional on-board tactile sensors.

A refrigerant leak sensor includes: a first refrigerant sensor element configured to, when powered: measure a first amount of the refrigerant present in air; and generate a first output based on the first amount; a second refrigerant sensor element configured to, when powered: measure a second amount of the refrigerant present in air; and generate a second output based on the second amount; a first selection module configured to: during a first period, apply power the first refrigerant sensor element and not apply power to the second refrigerant sensor element; and during a second period after the first period, apply power to the second refrigerant sensor element and not apply power to the first refrigerant sensor element.

A rotary device having a housing, a rotating machine component, a rotating member associated with the rotating machine component, a nonrotating member disposed within the housing adjacent the rotating member, and a sensor array disposed in the housing. The sensor array includes a plurality of sensing elements that are integrated with a control device and a wireless communication device. The wireless communication device is configured to communicate with a central control that is remotely located relative to the housing using electromagnetic waves.

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.

The present disclosure relates to a water detection device that includes a water-activated battery configured to supply an electrical voltage upon contact with water, an electronic circuit configured to receive the electrical voltage from the water-activated battery, where the electronic circuit is configured to communicate with an external, electronic device upon receipt of the electrical voltage, and a housing configured to receive the water-activated battery and the electronic circuit, where the housing has passageways configured to facilitate movement of water into the housing and toward the battery.

The present disclosure relates to a water detection device that includes a water-activated battery configured to supply an electrical voltage upon contact with water, a device housing configured to receive the water-activated battery and one or more first electronic components, where the device housing has a plurality of ports that are configured to facilitate insertion and removal of the one or more first electronic components, and a modular housing disposed in a first port of the plurality of ports of the device housing, where the modular housing has one or more second electronic components communicatively coupled to the water-activated battery via the first port, such that the water-activated battery supplies the electrical voltage to the one or more second electronic components upon contact with water.

A plug monitoring device configured to monitor a plug to be received by an aperture of a pipe is provided. The plug monitoring device may include: a sensor having an output, wherein the sensor is configured to produce at the output a first signal when a plug is tightly installed in the aperture and a second signal at the output when the plug is not tightly installed in the aperture; and circuitry, comprising a transmitter, coupled to the output of the sensor, wherein the circuitry is configured to transmit a signal comprising status information selectively based on a signal at the output of the sensor.

A rotary union includes a housing, a rotating machine component supported in the housing, a rotating seal member associated with the rotating machine component, a non-rotating seal member slidably and sealably disposed within the housing adjacent the rotating seal member, an expandable seal disposed between the non-rotating seal member and the housing, and an internal clamp disposed within an end portion of the expandable seal such that the end portion of the expandable seal is compressed between the internal clamp and the bore of the housing.