A fluid distribution system includes a water line configured to receive water from a water source, an agent line configured to receive agent from an agent source, a flush line configured to receive the water from the water source and connecting to the agent line at a junction, a flush valve positioned to selectively prevent the water from flowing along the flush line, an agent valve positioned to selectively prevent the agent from flowing along the agent line, a first flow meter positioned along the agent line downstream of the junction, a second flow meter positioned downstream of the first flow meter, an eductor coupled to the agent line and the water line downstream of the first flow meter and upstream of the second flow meter, a metering valve positioned downstream of the first flow meter and upstream of the eductor, and a controller.

A fire suppression configuration system includes a configurator. The configurator receives an indication of a plurality of components of a fire suppression system, an instruction to assign an input device of the fire suppression system to an input interface of a fire suppression system controller and at least one component, receive, an instruction to assign an output device to an output interface of the fire suppression system controller and at least one component, an indication of a connection between a first component and a second component, and an indication of at least one of a fire condition and supervisory condition corresponding to at least one input device, determines an output response of each output device by identifying each component that the output device is assigned and connected with, and executes a simulation using each output response corresponding to the at least one of the fire condition and supervisory condition.

A system for fighting fire, includes a timer unit with an electrical power input and out line. The timer is connected to a flow switch that response to water movement. The water movement occurs when the glass bulb shatters in a sprinkler head. The glass bulb contains a fluid which expands when exposed to heat. When the rated temperature is reached, the fluid expands sufficiently to shatter the glass bulb, allowing the sprinkler to activate and water to flow. The flow of the water tells the flow switch to turn on the timer that is set for in this example one hundred and ten seconds. The timer turns on the pump. The pump gets it water from a water tank. The pump forces the water threw the pressurize pipe system to one or more sprinkler heads. The pressure is maintain by check valves, that hold a constant 40 psi. This system is mobile. The system will need to be maintain every six month. After the system puts out a fire it will need be reset.

Systems and methods are described for monitoring, detecting, and initiating a response to an environmental anomaly within a shipping container of packages involves sensor-based ID nodes, a command node and an external transceiver on a transit vehicle. Each ID node generates and broadcasts sensor data on environmental conditions proximate the respective ID node within the shipping container. The command node detects the sensor data from each ID node and compares it with locally maintained context data (an environmental threshold condition) for that ID node to detect the environmental anomaly when sensor data exceeds a respective threshold condition. The command node then generates a layered alert notification related to the environmental anomaly identifying a targeted mediation recipient and targeted mediation action, and establishing a mediation response priority. The command node initiates a mediation response related to the targeted mediation action by transmitting the layered alert notification transmitted to the external transceiver.

An improved system detects an environmental anomaly in a shipping container and initiates a mediation response through a generated layered alert notification. The system includes sensor-based ID nodes associated with packages within the container, and a command node mounted to the container communicating with the ID nodes and an external transceiver on a vehicle transporting the container. The command node is programmed to detect sensor data from the ID nodes; compare the sensor data to package environmental thresholds in context data related to each ID node; detect the environmental anomaly when the comparison indicates an environmental condition for at least one package exceeds its environmental threshold; responsively generate a layered alert notification identifying a mediation recipient and mediation action, and establishing a mediation response priority based upon the comparison; and transmit the layered alert notification to the transceiver unit to initiate a mediation response related to the mediation action.

An agent distribution system includes a water tank, a flush line, a flush valve, an agent storage tank, an agent line, an agent valve, a first flow meter, and a second flow meter. The flush line receives water from the water tank. The flush valve is configured to selectively prevent water from flowing along the flush line downstream of the flush valve. The agent line receives agent from the agent tank. The agent valve is configured to selectively prevent agent from flowing along the agent line downstream of the agent valve. The flush line extends into the agent line at a junction. The junction is disposed downstream of the agent valve. The first flow meter is positioned along the agent line downstream of the junction. The second flow meter is positioned downstream of the first flow meter and upstream of a discharge system.

A fire and smoke actuator includes a temperature sensor for sensing an operating temperature of the fire and smoke actuator, a drive motor, an actuator output for coupling to the damper in order to move the damper between the open position and the closed position and a drivetrain that is operably coupled between the drive motor and the actuator output. The drive motor, when activated, is configured to actuate the actuator output, via the drivetrain, to move the damper between the open position and the closed position. A drive circuit is operably coupled to the drive motor and the temperature sensor and is configured to activate the drive motor to move the damper between the open position and the closed position at a non-zero speed that is based, at least in part, on the operating temperature sensed by the temperature sensor.

An improved system on a transit vehicle is described for coordinated mediation action in response to an identified environmental anomaly on a shipping container transported by the vehicle. The system has wirelessly broadcasting ID nodes at different locations within the container, and a fire suppression system on the vehicle having a wireless transceiver-based controller operating as a master node that can cause the suppression system to deliver fire suppressant material to the container using a delivery nozzle and pump. The controller, as master node, is configured to operate as a primary monitor for the anomaly by being operative to monitor ID node signals; identify the anomaly based on the signals; generate a layered alert notification related to the anomaly (identifying a targeted mediation action and establishes a mediation response priority); and initiate a mediation response by the suppression system related to the targeted mediation action and the mediation response priority.

An improved system on a transit vehicle is described for coordinated mediation action in response to an identified environmental anomaly on a shipping container transported by the vehicle. The system has wirelessly broadcasting ID nodes at different locations within the container, and a fire suppression system on the vehicle having a wireless transceiver-based controller operating as a master node that can cause the suppression system to deliver fire suppressant material to the container using a delivery nozzle and pump. The controller, as master node, is configured to operate as a primary monitor for the anomaly by being operative to monitor ID node signals; identify the anomaly based on the signals; generate a layered alert notification related to the anomaly (identifying a targeted mediation action and establishes a mediation response priority); and initiate a mediation response by the suppression system related to the targeted mediation action and the mediation response priority.

A method of temporarily operating sprinklers and mobile sensors during buildings/facilities alterations, renovations, additions, repairs, rehabilitations, relocations and any other similar activities where personnel may trigger sprinkler systems through accidental actions (or inactions) during their chores. This minimizes the possibility of damages during the building's construction/renovation.