Methods and systems for sprinkler system (100) diagnostics are provided. Aspects include increasing, by a controller (115), a fluid pressure in a pipe (14) to a first pressure, wherein the pipe (14) is coupled to at least one sprinkler (40), receiving, from a sensor (50), first sensor data associated with a moving portion (210) of the least one sprinkler (40), wherein the first sensor data includes a first movement distance (250) of the moving portion (210) of the at least one sprinkler (40), and enacting a first action based at least in part on the first movement distance (250) being less than a threshold.

Methods and systems for sprinkler system (100) diagnostics are provided. Aspects include increasing, by a controller (115), a fluid pressure in a pipe (14) to a first pressure, wherein the pipe (14) is coupled to at least one sprinkler (40), receiving, from a sensor (50), first sensor data associated with a moving portion (210) of the least one sprinkler (40), wherein the first sensor data includes a first movement distance (250) of the moving portion (210) of the at least one sprinkler (40), and enacting a first action based at least in part on the first movement distance (250) being less than a threshold.

Provided are embodiments including a sprinkler, a method for operating a sprinkler, and a sprinkler system. Embodiments include receiving a signal and triggering a test of a bulb responsive to the signal. Embodiments include heating fluid in the bulb responsive to the triggering the test. Embodiments also include detecting a condition of the bulb, wherein the one or more sensing elements are in contact with the fluid in the bulb, and transmitting a notification to a device indicating the condition of the bulb.

Provided are embodiments including a sprinkler, a method for operating a sprinkler, and a sprinkler system. Embodiments include receiving a signal and triggering a test of a bulb responsive to the signal. Embodiments include heating fluid in the bulb responsive to the triggering the test. Embodiments also include detecting a condition of the bulb, wherein the one or more sensing elements are in contact with the fluid in the bulb, and transmitting a notification to a device indicating the condition of the bulb.

A fire protection sprinkler includes a sprinkler frame and a deflector. The deflector is coupled to the sprinkler frame and distributes fluid discharged from an outlet of the sprinkler in a spray pattern centered about a sprinkler axis and defined by a fluid density in a first quadrant area 2.5 feet (ft.) below the sprinkler and perpendicular to the sprinkler axis, the first quadrant area having a first corner disposed along the sprinkler axis with a first edge extending in the direction of a fluid supply pipe, a second edge extending perpendicular to the first edge and intersecting the first edge at the sprinkler axis, the first quadrant area being defined by a grid of one square foot areas totaling an area of no more than 10 ft.×10 ft., the total fluid density being at least 15 gpm/sq. ft.

A fire protection sprinkler includes a sprinkler frame and a deflector. The deflector is coupled to the sprinkler frame and distributes fluid discharged from an outlet of the sprinkler in a spray pattern centered about a sprinkler axis and defined by a fluid density in a first quadrant area 2.5 feet (ft.) below the sprinkler and perpendicular to the sprinkler axis, the first quadrant area having a first corner disposed along the sprinkler axis with a first edge extending in the direction of a fluid supply pipe, a second edge extending perpendicular to the first edge and intersecting the first edge at the sprinkler axis, the first quadrant area being defined by a grid of one square foot areas totaling an area of no more than 10 ft.×10 ft., the total fluid density being at least 15 gpm/sq. ft.

To provide a protector for a heat-sensitive element of a sprinkler head, the protector being configured to be removably attached to a sprinkler head to protect a heat-sensitive element of the sprinkler head and being configured to be easily removed after completion of installation of the sprinkler head. A protector is to be attached to a sprinkler head including: a main body including a nozzle; frame arms extending from the main body in a water discharge direction of the nozzle; and a heat-sensitive element disposed between the frame arms. The protector includes: an opening through which the heat-sensitive element is insertable into the protector; a base opposite to the opening; lateral faces extending from the base toward the opening and lying adjacent to the frame arms; a flat face provided on an inner side of the base and of the lateral faces; and projections provided on the lateral faces.

To provide a protector for a heat-sensitive element of a sprinkler head, the protector being configured to be removably attached to a sprinkler head to protect a heat-sensitive element of the sprinkler head and being configured to be easily removed after completion of installation of the sprinkler head. A protector is to be attached to a sprinkler head including: a main body including a nozzle; frame arms extending from the main body in a water discharge direction of the nozzle; and a heat-sensitive element disposed between the frame arms. The protector includes: an opening through which the heat-sensitive element is insertable into the protector; a base opposite to the opening; lateral faces extending from the base toward the opening and lying adjacent to the frame arms; a flat face provided on an inner side of the base and of the lateral faces; and projections provided on the lateral faces.

An apparatus may store at least one object including at least one top end and at least one bottom end. The apparatus may include a container configured to store the at least one object and a pouch containing a liquid. The pouch may be configured to substantially cover the at least one top end of the at least one object when stored inside the container. The pouch may be configured to contact the at least one top end of the at least one object and to open when contacted by contents expelled from the at least one object due to thermal runaway.

A dry sprinkler for a fire protection system having a configuration with one or more coupling arrangements for connection to a fluid supply piping of the system. The dry sprinkler structure further includes an inner surface and inner assembly to provide a preferred discharge performance. The dry sprinkler provides for a flow rate from the outlet of the sprinkler in accordance with the start pressure at the inlet of the sprinkler and the rated discharge coefficient, K factor, ranging between 16.8 GPM/PSI½ and 33.6 GPM/PSI½.