The present invention relates to a fire extinguishing system comprising a pressurized detection conduit (115), an extinguishing line (108) separate from the detection conduit (115), and a control module (105) adapted for sensing a pressure drop in the detection conduit (115) and for opening supply of extinguishing medium from a storage (103) to the extinguishing line (108). The detection conduit (115) is gas-permeable and filled with a detection liquid. The fire extinguishing system further comprises a liquid-gas interface (117) fluidly connecting the detection conduit (115) to a pressurized gas source (103, 106), wherein the liquid-gas interface (117) comprises an interface container (123) defining a gas space (131) which communicates with the pressurized gas source (106) and a liquid space (133) which communicates with the detection conduit (115).

Systems for improving fire safety in agricultural machinery are configured for detecting, at least partially controlling, and/or suppressing adverse fire-related conditions. The adverse fire-related conditions can include sparks, embers, and/or flames in the agricultural machinery.

Systems for improving fire safety in agricultural machinery are configured for detecting, at least partially controlling, and/or suppressing adverse fire-related conditions. The adverse fire-related conditions can include sparks, embers, and/or flames in the agricultural machinery.

A refuse vehicle comprising a chassis, a body assembly coupled to the chassis, the body assembly defining a refuse compartment, and a thermal event monitoring system comprising one or more sampling elements configured to sample an environmental condition associated with a portion of the refuse vehicle and a processing circuit configured to receive a sample from the one or more sampling elements and determine a presence of a thermal event indicating at least one of a fire or an overheating component.

A refuse vehicle comprising a chassis, a body assembly coupled to the chassis, the body assembly defining a refuse compartment, and a thermal event monitoring system comprising one or more sampling elements configured to sample an environmental condition associated with a portion of the refuse vehicle and a processing circuit configured to receive a sample from the one or more sampling elements and determine a presence of a thermal event indicating at least one of a fire or an overheating component.

A fire suppression system for a vehicle includes a housing, multiple battery cells positioned within the housing, an off-gas detector, and a controller. The off-gas detector is provided within the housing and is configured to detect a presence of off-gas in the housing. The controller is configured to receive signals from the off-gas detector indicating whether off-gas is detected in the housing, and activate a fire suppression apparatus to provide fire suppressant agent to any of an exterior or interior of the housing in response to detecting off-gas in the housing.

A fire suppression system includes a controller; a plurality of nozzles to output a fire supressing agent to supress a fire; one or more sources of fire supressing agent; and a conduit for supplying the agent from the one or more sources to the plurality of nozzles; the conduit has a plurality of sections and a plurality of valves for controlling which of the plurality of sections the agent is supplied into from the one or more sources; and the controller is configured to, in response to a fire being detected: determine at least one nozzle of the plurality of nozzles that is required for supressing the fire; cause the agent to be supplied into the conduit from the one or more sources; and control the plurality of valves to supply the agent from the one or more sources to the at least one nozzle via the conduit.

An apparatus for extinguishing a fire of an electric vehicle and the electric vehicle including the same are provided. The apparatus includes a waterway pipe provided on a cover of a battery pack mounted inside the electric vehicle, and a fire water pipe provided outside the battery pack inside the electric vehicle, and having one end connected with the waterway pipe and an opposite end connected with a fire hose on a vehicle body of the electric vehicle.

Embodiments of this application provide a box, a battery, and an apparatus, and relate to the field of battery technologies. The box is provided with a discharge hole, and the discharge hole is configured to discharge, from inside the box, flame produced when thermal runaway occurs in a battery cell. The box is further provided with a fire extinguishing member that is configured to extinguish the flame for cooling when the flame passes through the discharge hole. In this application, the discharge hole and the fire extinguishing member are arranged in the box, so that when the flame produced when thermal runaway occurs in the battery cell passes through the discharge hole, the fire extinguishing member can release a fire extinguishing agent to extinguish the flame for cooling. This prevents the flame from being discharged from inside the box through the discharge hole, thereby improving safety performance of the battery.

A battery module according to an embodiment of the present disclosure includes a plurality of secondary battery cells, a housing member in which the plurality of secondary battery cells are accommodated, and a multilayer member provided between the plurality of secondary battery cells, at least a portion of the multilayer member in a first direction being formed of a material having a thermal conductivity lower than that of other portions thereof.