Disclosed is a sprinkler system including a controller, wherein when the sprinkler system is in a pressurized mode, the controller is configured for: rendering a first determination to transition the sprinkler system to a standby mode, and executing a first communication with a vacuum pump based on the first determination, the first communication directing the vacuum pump to activate, whereby fluid is drained from the sprinkler system.

A fusible link assembly including a first detection line, a second detection line, and a fusible link. The fusible link includes, a first substrate with a first end coupled to the first detection line, a second substrate with a first end coupled to the second detection line, and a solder layer directly bonded to a second end of the first substrate and a second end of the second substrate. The solder layer is configured to prevent separation of the first substrate and the second substrate until the solder layer reaches a temperature between 500° F.-575° F.

Disclosed is a sprinkler system including a controller, wherein when the sprinkler system is in a pressurized mode, the controller is configured for: rendering a first determination to transition the sprinkler system to a standby mode, and executing a first communication with a vacuum pump based on the first determination, the first communication directing the vacuum pump to activate, whereby fluid is drained from the sprinkler system.

A vacuum monitoring and mitigation system is described. Embodiments of the vacuum monitoring and mitigation system can be implemented in a combined-use vacuum system to help mitigate high oxidizer levels that may damage vacuum pumps of the combined-use vacuum system. The vacuum monitoring and mitigation system can determine when an oxidizer level is above a predetermined threshold and introduce a mitigating gas into the combined-use vacuum system to lower the oxidizer level.

Systems and methods for remote monitoring of mechanical fire suppression systems are provided. For example, some embodiments generally provide for a smart fire suppression system with integrated sensors and communication technology to monitor the current state of the fire suppression system and notify various monitoring platforms, service providers, equipment manufacturers and/or others of the current state. In some embodiments, various sensors (e.g., micro switches) can be used to detect and report the status of the cartridge, activation status of the system, and/or the status of the detection line. Additional sensors and actuators may be also be included within the smart fire suppression system to allow monitoring of different states (e.g., temperature) and control the appliance and/or building utilities.

A battery storage container and wellness system designed for transporting, charging and storing batteries. The container having a plurality of compartments for storing and charging batteries, the compartments arranged in stacked vertical columns that are separated from each other by air-gaps. The battery storage container and wellness system also includes automatic fire suppression capabilities to prevent the propagation of cell-to-cell fires and other heat and energy related destructive events. The fire suppression capabilities include the air-gaps to prevent column-to-column spreading of fires. The storage container and wellness system also includes sensors for sensing fires, and a system for the application of fire mitigation fluids, for the exhausting of combustion gasses, and power shut-off means, in the event of a fire.

A fire suppression system is disclosed. The fire suppression system comprises an agent storage cylinder configured for storing a fire suppression agent, the cylinder operatively connected to a charging valve. The system further comprises a cartridge for holding a pressurized gas, wherein the cartridge is configured to operatively connect to the charging valve; release gas into an ullage space of the cylinder to pressurize the cylinder; and disconnect from the cylinder responsive to a pressure inside the cylinder reaching a threshold pressure.

A fire suppression system that includes a non-rigid pouch, a quantity of suppressant, a quantity of gas, and a pressurized gas source. The non-rigid pouch that includes an exterior surface and an interior space. The quantity of suppressant, the quantity of gas, and the pressurized gas source is contained within said interior space. The pressurize gas source is configured to increase the internal pressure of the non-rigid pouch by injecting gas into the interior space. The non-rigid pouch is configured to rupture when the internal pressure exceeds a predetermined threshold pressure.

Fire protection and suppression apparatus, materials, systems and methods of use thereof are disclosed. In fire extinguishing applications, a convergent-divergent nozzle is incorporated into a pyrotechnic aerosol generator to improve the discharge characteristics when combined with air induction, reduced quantity of cooling media, and re-shaped agent/combustion chamber for longer discharge duration. In fire extinguishing applications, aerosol extinguishing agent in sheets, panels or other forms can be placed inside an enclosure that may have a fire. Once initiated, the aerosol extinguishing material will burn to create and directly disperse the aerosol particulate that can extinguish the fire. Initiation of the aerosol agent can be by flames or heat from an unwanted fire. Alternative methods of initiation include electric initiators that are signaled by automatic fire detection systems, electric manual methods, or mechanical/thermal initiators.

The present application is provided with a fluid storage apparatus of a battery pack, including: a box, where the box has an inner cavity; a partition member, where the partition member is located in the inner cavity of the box, and the partition member divides the box into a fluid storage portion and a gas storage portion. The fluid storage portion is used to store spraying liquid and the fluid storage portion has a fluid outlet; the gas storage portion is used to store gas and the gas storage portion has a fluid inlet. And the partition member is configured to move toward the fluid outlet under the action of compressed gas in the gas storage portion.