Wildfire water-supply hose having a QD nozzle with an outer sleeve adapted to engage a firefighter's backpack water bladder's QD connector. The combination male QD nozzle/female QD system permits rapid and easier bottom-up filling of the bladders without dismounting the tank from the firefighter's back, by inserting the QD nozzle into the female QD fitting on the bottom of the backpack bladder. The QD nozzle tip is long enough to open the internal spring-biased shut-off valve in the female QD connector when inserted. Upon opening the supply line valve, water flows into the backpack bladder until full. The supply valve is closed and the QD nozzle is withdrawn from the bladder female QD connector. Rotation of the QD nozzle outer sleeve controls water flow from stream, to spray to mist. The QD nozzle is also used with other types of nozzles on dual fittings having 3-way valves, e.g., fog nozzles.

An enhanced range and landing pattern, straight stream and fog, fire fighting nozzle including solid bore and annular discharge ports wherein the nozzle discharges an inner stream surrounded by an outer stream.

An enhanced range and landing pattern, straight stream and fog, fire fighting nozzle including solid bore and annular discharge ports wherein the nozzle discharges an inner stream surrounded by an outer stream.

A high efficiency nozzle is designed. The nozzle allows water streams with long-range and high surface area in one system. Suitable transitions in the fluid pathways allow creating water streams that have a robust flow profile. The system allows minimum energy loss whilst maximizing the velocity and surface area. Such nozzles can be used for a variety of applications including but not limited to fire suppression, pressure washing, watering, and other such applications.

The invention relates to a notched deflector (1) for a water jet lance, comprising a circular part with a rod (2) and a head (3) provided with notches (4) that are distributed over the lateral surface of said head (3) and a circular projection (5) on the rear portion. Optionally, the circular projection (5) emerges right next to the rear area or base (4a) of the notches (4), in the area where the head (3) joins the rod (2). Optionally, the circular projection (5) covers a portion of the rear area or base (4a) of the notches (4) on the lateral side of the head (3).

A high pressure water/foam nozzle assembly is disclosed which includes a barrel having a first end, a second end and a collar positioned about the first end. The assembly also includes first, second and third nozzles positioned in the barrel. Each of the nozzles can emit a different spray pattern. A selection mechanism is positioned adjacent to the second end of the barrel and is rotatable between three positions which align with the three nozzles. The assembly further includes a control mechanism secured to the second end of the selection mechanism which controls the flow of water and/or foam through one of the three nozzles. A handle and trigger are connected to the control mechanism. The trigger activates the flow of water and/or foam through one of the three nozzles. An infrared camera is removably secured to the control mechanism and is used to detect hot spots in a fire.

A high pressure water/foam nozzle assembly is disclosed which includes a barrel having a first end, a second end and a collar positioned about the first end. The assembly also includes first, second and third nozzles positioned in the barrel. Each of the nozzles can emit a different spray pattern. A selection mechanism is positioned adjacent to the second end of the barrel and is rotatable between three positions which align with the three nozzles. The assembly further includes a control mechanism secured to the second end of the selection mechanism which controls the flow of water and/or foam through one of the three nozzles. A handle and trigger are connected to the control mechanism. The trigger activates the flow of water and/or foam through one of the three nozzles. An infrared camera is removably secured to the control mechanism and is used to detect hot spots in a fire.

A horizontal sidewall fire protection sprinkler includes a sprinkler body, a sealing assembly, a sleeve body, a yoke, a load screw, levers, a soldered link, a slide plate, a deflector support member, a deflector, and a spring. When ambient temperature in an occupancy reaches a predetermined temperature, the soldered link fails, the levers release, and the yoke and the load screw are forced away from the sprinkler body. The spring forces the slide plate and the deflector support member away from an inner wall of the sprinkler body toward an opening at an outer end of the sleeve body, and the deflector support member and the deflector protrude from the outer end of the sleeve body. The sealing assembly is released from a sealed state, and the fire protection sprinkler outputs fluid from a fluid supply to the occupancy.

A nozzle for use in dispensing a fluid, such as water or a foaming agent to extinguish a fire, comprises a longitudinal body that comprises a plurality of helical shaped cam paths. The cam paths allow the operator of the nozzle to adjust a flow setting for the nozzle by moving a flow adjustment mechanism that is operatively associated with the cam paths.

A nozzle for use in dispensing a fluid, such as water or a foaming agent to extinguish a fire, comprises a longitudinal body that comprises a plurality of helical shaped cam paths. The cam paths allow the operator of the nozzle to adjust a flow setting for the nozzle by moving a flow adjustment mechanism that is operatively associated with the cam paths.