A spray module for a device for fighting a vegetation fire, the spray module includes: an inlet for a fluid, an outlet for the fluid, a fastening unit for fastening the spray module in a raised position with respect to an underlying surface, a first spray mist nozzle having a first opening area, which is configured to dispense a first spray mist, and a second spray mist nozzle having a second opening area, which is configured to dispense a second spray mist, the first opening area and the second opening area are arranged parallel to one another on the spray module in such a way that the first spray mist and the second spray mist can be dispensed in two opposite directions.

A control device for operating a fire extinguisher system includes at least one hose (3) having an extinguisher nozzle (4) arranged at the end of the hose (3) to be operated by an operator for releasing a pressurized extinguishing fluid. A conveying pump (5) conveys the pressurized extinguishing fluid in the hose (3) towards the extinguisher nozzle (4). A first supply line (7) connects the conveying pump (5) to a tank (8) of a fire extinguisher device, such as a fire extinguisher vehicle (1). A second supply line (9) connects the conveying pump (5) to a stationary extinguishing fluid source (2). A multi-port switch valve (10) connects upstream of the conveying pump (5), proximate the first supply line (7) and second supply line (9).

Aspects of the disclosed embodiments relate to an aerial firefighting system for a helicopter, the firefighting system including: an external reservoir for storing water, wherein the reservoir includes a water outlet; a supporting frame coupled to an outer surface of the reservoir; and a moveable robotic nozzle fluidly connected to the water outlet and mounted on the supporting frame or attached to a hose reel for distributing water on a fire; wherein the moveable nozzle is operable by a user from within the helicopter to control the direction that the water is distributed.

A GPS tracking and mapping wild fire defense system network configured for defending homes and neighborhoods against threat of wild fire by proactively spraying environmentally-safe anti-fire (AF) chemical liquid on property surfaces to inhibit fire ignition and flame spread in the presence of wild fire. The GPS tracking and mapping wild fire defense system network includes: a command center in operable communication with a wireless communication network; and one or more GPS-tracked anti-fire liquid spraying systems, each having an integrated supply tank and a spray pump deployable at properties having building structures, for spraying the properties with environmentally-clean anti-fire chemical liquid using a spray nozzle assembly connected to said spray pump by way of a fluid connection. The system network further includes: a GPS system for transmitting GPS reference signals from a constellation of GPS satellites deployed in orbit around the Earth, to a GPS transceiver installed aboard each GPS-tracking anti-fire liquid spraying system, for GPS processing and GPS-coordinate location; and one or more mobile computing systems, each for use by a registered user including property parcel owners, spray contractors, and other stakeholders on the system network, to request and receive services supported by said system network. Each mobile computing system has a display screen supporting: messaging services; display of maps indicating where wild fires have been identified and mapped, tracked and ranked in terms of risk to the user and GPS-specified property; and scheduling of spray task to be performed, and recording tasks that been completed, and which are in progress, on the GPS tracking and mapping wild fire defense system network.

In accordance with the present invention, the system comprises a drive assembly, control panel, a power assembly. The power assembly is enclosed by at least one enclosing shield. At least one remote control means, at least one illumination means, and at least one video means disposed in the head portion capable of being oriented. At least one means for cooling the interior and exterior of said system as well as at least one remote control means for directing a flow of fire suppressant onto a fire. Further a method of controlling a fire fighting system is disclosed. Location of a region of interest of a fire is determined. Position and orientation of a nozzle is adjusted in response to location. The adjusting is performed using plurality of motion controller. Further video and audio information of the fire environment at the fire site is communicated to operator/controller through remote wireless means.

A GPS tracking and mapping wild fire defense system network configured for defending homes and neighborhoods against threat of wild fire by proactively spraying environmentally-safe anti-fire (AF) chemical liquid on property surfaces to inhibit fire ignition and flame spread in the presence of wild fire. The GPS tracking and mapping wild fire defense system network includes: a command center in operable communication with a wireless communication network; and one or more GPS-tracked mobile anti-fire liquid spraying systems, each having an integrated supply tank and a spray pump deployable at properties having building structures, for spraying the properties with environmentally-clean anti-fire chemical liquid using a spray nozzle assembly connected to said spray pump by way of a fluid connection. The system network further includes: a GPS system for transmitting GPS reference signals from a constellation of GPS satellites deployed in orbit around the Earth, to a GPS transceiver installed aboard each GPS-tracking mobile anti-fire liquid spraying system, for GPS processing and GPS-coordinate location; and one or more mobile computing systems, each for use by a registered user including property parcel owners, spray contractors, and other stakeholders on the system network, to request and receive services supported by said system network. Each mobile computing system has a display screen supporting: messaging services; display of maps indicating where wild fires have been identified and mapped, tracked and ranked in terms of risk to the user and GPS-specified property; and scheduling of spray task to be performed, and recording tasks that been completed, and which are in progress, on the GPS tracking and mapping wild fire defense system network.

One or more systems and/or methods are disclosed for a nozzle with wire connection to a hose, which may allow wired communication between the nozzle and a distant control center. A hose connector with one or more locating pins may be used for easy alignment and quick establishment of electrical connection between the nozzle and the hose. The nozzle may comprise a swiveling joint configured to fully swivel while maintaining electrical connection between the hose connector and an electronic housing. A slip ring assembly may be used in the swiveling joint to maintain the electrical connection.

A sprinkler for a fire suppression system includes a deflector plate having five different types of slots extending from a periphery of the plate toward a center of the plate along radially extending lines. The slots are arrow shaped, club shaped and key hole shaped. Arrow head slots which align with frame arms supporting the deflector plate are wider than the thickness of the frame arms. Club shaped and arrow shaped slots proximate the plane of the frame arms are asymmetrical with respect to radial lines extending from the center of the plate, while arrow shaped and key hole shaped slots distal to the plane of the frame arms are symmetrical with respect to radial lines extending from the center of the plate.

A battery rack includes a plurality of battery modules that are arranged in a layered structure; a rack case configured to accommodate the plurality of battery modules; and a fire extinguishing agent supply member including a supply pipe configured to transport a fire extinguishing agent and extending along the plurality of battery modules, and a plurality of valves each configured to have one end portion connected to the supply pipe and the other end portion connected to each of the plurality of battery modules from the supply pipe.

A vehicle includes electrical equipment and a fire suppression system for the electrical equipment of the vehicle. The fire suppression system includes a sensor, an inert gas storage container, a nozzle, a delivery system, and a controller. The inert gas storage container is configured to store an amount of inert gas and discharge the inert gas based on the fire suppression system being activated. The delivery system includes a flexible conduit. The delivery system is fluidly coupled with the inert gas storage container and the nozzle. The controller is configured to receive sensor signals from the sensor and activate the fire suppression system based on the sensor signals so that the inert gas is provided to the electrical equipment.