A battery pack includes at least two battery modules arranged in one direction; and a fire extinguishing unit extinguisher having a fire extinguishing tank configured to contain a fire extinguishing agent therein, a pipe connected to the fire extinguishing tank to supply the fire extinguishing agent from the fire extinguishing tank to each of the at least two battery modules, a flow rate adjuster provided to the pipe and configured to adjust a feed flow rate of the fire extinguishing agent to be constant, and at least one valve configured to supply the fire extinguishing agent from the fire extinguishing tank to the battery module having an internal temperature rising over a predetermined temperature.

A battery pack reduces the risk of secondary ignition or explosion. The battery module includes at least two cell assemblies, each having a plurality of secondary batteries; a module housing having an inner space formed to accommodate the at least two cell assemblies therein; and an absorption member interposed between the at least two cell assemblies and configured to absorb a fire extinguishing liquid when contacting the fire extinguishing liquid supplied into the module housing.

A dual-chamber fire extinguisher includes an upper chamber in which a high pressure compressed gas is stored together with an extinguishing agent, a lower chamber in which a high pressure compressed gas is stored, a cylinder section provided between the upper chamber and the lower chamber, the cylinder section having an injection hole and an orifice prior to the injection hole on the basis of a flow direction of the extinguishing agent, a piston section provided inside the cylinder section and operated to block or open the orifice, and a solenoid-type valve unit provided in the lower chamber and operated to discharge a high pressure compressed gas stored in the lower chamber.

A dual-chamber fire extinguisher includes an upper chamber in which a high pressure compressed gas is stored together with an extinguishing agent, a lower chamber in which a high pressure compressed gas is stored, a cylinder section provided between the upper chamber and the lower chamber, the cylinder section having an injection hole and an orifice prior to the injection hole on the basis of a flow direction of the extinguishing agent, a piston section provided inside the cylinder section and operated to block or open the orifice, and a solenoid-type valve unit provided in the lower chamber and operated to discharge a high pressure compressed gas stored in the lower chamber.

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.

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.

A fire extinguishing system for a tire of a vehicle is capable of effectively responding to a fire in all tire areas of the vehicle, and of spraying fire extinguishing agent selectively only for the tire having the fire, thereby performing effective fire extinguishing. The fire extinguishing system includes: a fire detection sensor configured to detect the fire in the tire of the vehicle; a fire control unit configured to receive a signal output from the fire detection sensor and to output a control signal for spraying fire extinguishing agent when the fire control unit determines a fire occurrence; and a plurality of fire extinguishing agent sprayers configured to spray the fire extinguishing agent toward the tire having the fire according to the control signal output by the fire control unit, in a state of being filled with the fire extinguishing agent therein.

The present disclosure relates to a fire protection apparatus for a battery system using latent heat of a phase change material and a battery system including the same. The fire protection apparatus includes partition walls configured to partition batteries, each formed to have an accommodation space filled with heat absorption-heat dissipation means therein, and configured to isolate the entire space in which the batteries are installed from the outside, and the heat absorption-heat dissipation means provided in the accommodation space of the partition wall and configured to absorb and discharge heat attributable to the thermal runaway of an accident battery.

The present disclosure relates to a fire protection apparatus for a battery system using latent heat of a phase change material and a battery system including the same. The fire protection apparatus includes partition walls configured to partition batteries, each formed to have an accommodation space filled with heat absorption-heat dissipation means therein, and configured to isolate the entire space in which the batteries are installed from the outside, and the heat absorption-heat dissipation means provided in the accommodation space of the partition wall and configured to absorb and discharge heat attributable to the thermal runaway of an accident battery.

A 0U, rack-mounted, power distribution, environment monitoring, and fire-protection apparatus including an environmental monitoring sensor system, including a fire detection and protection system located in a computer rack. The invention includes a system to localize damage to equipment, business interruption, and hazardous conditions to a computer rack.