A fire suppression sprinkler adapted to receive arcuate surfaces of a grooved coupling is retainable to the coupling in a pre-assembled state. The coupling joins the sprinkler in facing axial end to end relation directly to grooved pipe. The sprinkler has a monolithic body which defines a bore having an inlet and an outlet. A groove, positioned between the inlet and the outlet extends around the body. A projection, positioned between the groove and the outlet also extends around the body.

A method and system are provided for an unmanned sprinkler system for suppressing fires that includes one or more hoses, one or more pipes, and a plurality of piercing nozzles arrayed and extending downward along each of the one or more pipes. Each of the piercing nozzles comprise a plurality of water flow openings for providing a sprinkler effect that suppresses or extinguishes fires.

A method and system are provided for an unmanned sprinkler system for suppressing fires that includes one or more hoses, one or more pipes, and a plurality of piercing nozzles arrayed and extending downward along each of the one or more pipes. Each of the piercing nozzles comprise a plurality of water flow openings for providing a sprinkler effect that suppresses or extinguishes fires.

A method of designing a fire suppression system including: determining nozzle placement for nozzles of a fire suppression system within a location; determining piping placement for pipes of the fire suppression system within the location; determining whether the nozzle placement or piping placement violate a constraint; and generating a map displaying the nozzle placement and the piping placement on a computing device.

A sprinkler accelerator includes at least one accelerator opening, a vent, an actuator, an orifice, and a filter. The at least one accelerator opening couples with at least one pipe. The at least one pipe is coupled with at least one sprinkler. A gas including at least one of air and nitrogen is in the at least one pipe. The actuator moves, responsive to a rate of change of a first pressure applied by gas in the at least one accelerator opening satisfying a pressure rate threshold, to couple the at least one accelerator opening with the vent. The orifice is coupled with the at least one pipe to adjust the rate of change of the first pressure responsive to the at least one sprinkler changing to an open state. The filter is coupled with the orifice to filter fluid passing from the at least one pipe through the orifice.

A sprinkler accelerator includes at least one accelerator opening, a vent, an actuator, an orifice, and a filter. The at least one accelerator opening couples with at least one pipe. The at least one pipe is coupled with at least one sprinkler. A gas including at least one of air and nitrogen is in the at least one pipe. The actuator moves, responsive to a rate of change of a first pressure applied by gas in the at least one accelerator opening satisfying a pressure rate threshold, to couple the at least one accelerator opening with the vent. The orifice is coupled with the at least one pipe to adjust the rate of change of the first pressure responsive to the at least one sprinkler changing to an open state. The filter is coupled with the orifice to filter fluid passing from the at least one pipe through the orifice.

A protective barrier that will typically be installed beneath ceilings during construction work being performed on ceilings or roofs of buildings. The protective barrier can be comprised entirely of one material or of different materials connected by seams. Some or all of these materials can be designed to fail when contacted by water via dissolution, melting or through some other destructive process initiated by contact with water. Some or all of the materials comprising the protective barrier can be designed to fail at a certain temperature. This failure can create access points from the ceiling through the protective barrier to the area being protected by the barrier, which can allow water from a fire suppression system to reach a fire located below the protective barrier.

A protective barrier that will typically be installed beneath ceilings during construction work being performed on ceilings or roofs of buildings. The protective barrier can be comprised entirely of one material or of different materials connected by seams. Some or all of these materials can be designed to fail when contacted by water via dissolution, melting or through some other destructive process initiated by contact with water. Some or all of the materials comprising the protective barrier can be designed to fail at a certain temperature. This failure can create access points from the ceiling through the protective barrier to the area being protected by the barrier, which can allow water from a fire suppression system to reach a fire located below the protective barrier.

An automatic valve includes a body configured to receive a piston axially therein, the piston being movable within the body between a first axial position in which the piston is configured to seal a valve opening when pneumatic pressure is applied to the piston and a second axial position in which the piston is configured to be withdrawn from the valve opening such that a fire suppression agent can enter the valve body through the valve opening, wherein the piston includes a channel longitudinally therethrough and a check valve positioned within the channel such that fluid can enter the check valve in a first longitudinal direction but not in a second longitudinal direction.

An automatic valve includes a body configured to receive a piston axially therein, the piston being movable within the body between a first axial position in which the piston is configured to seal a valve opening when pneumatic pressure is applied to the piston and a second axial position in which the piston is configured to be withdrawn from the valve opening such that a fire suppression agent can enter the valve body through the valve opening, wherein the piston includes a channel longitudinally therethrough and a check valve positioned within the channel such that fluid can enter the check valve in a first longitudinal direction but not in a second longitudinal direction.