A fire-protection tape (24) to be laid into gaps (12) in walls or ceilings (10) of buildings, having at least two main plies (26a, 26b) composed of an intumescent material, and at least one intermediate ply (30a) composed of a second intumescent material disposed between adjacent main plies (26a, 26b), wherein the second intumescent material has a lower intumescence temperature than the material of the main plies (26a, 26), and wherein the main plies (26a, 26b) have a first longitudinal edge (32a, 32b) on one outer side and a second longitudinal edge (34a, 34b) on the opposite outer side, in each instance.

Systems and methods for fire and smoke containment and extinguishing are described. Systems may include a fire and smoke containment and extinguishing apparatus including an open recess with one or more walls. The open recess may substantially prevent passage of fire, smoke and fumes. The apparatus may also include one or more seals for closing the open recess, and a fire extinguishing system. Methods for fire and smoke containment and extinguishment may include providing a fire and smoke containment and extinguishing system; inserting an item into the recess of the apparatus; closing the recess; and deploying the fire extinguishing system.

Systems and methods for fire and smoke containment and extinguishing are described. Systems may include a fire and smoke containment and extinguishing apparatus including an open recess with one or more walls. The open recess may substantially prevent passage of fire, smoke and fumes. The apparatus may also include one or more seals for closing the open recess, and a fire extinguishing system. Methods for fire and smoke containment and extinguishment may include providing a fire and smoke containment and extinguishing system; inserting an item into the recess of the apparatus; closing the recess; and deploying the fire extinguishing system.

One or more techniques and/or systems are disclosed for a fluid inlet that mitigates uptake of undesired debris into fluid transport system. A fluid inlet can direct fluid toward one or more fluid inlets, and debris entrained in the fluid may bypass the fluid inlet(s). The fluid inlet can be used to mitigate uptake of debris into a fluid transport system, when placed in the path of fluid flow. A shape of the fluid inlet can be configured to direct fluid flow into the fluid inlet(s), while the shape allows debris entrained in the fluid to flow past the fluid inlet(s).

A fire suppression system according to an exemplary aspect of the present disclosure includes, among other things, a high pressure inert gas source configured to provide a first inert gas output and a low pressure inert gas source configured to provide a second inert gas output. A distribution network is connected with the high pressure inert gas source and the low pressure inert gas source to distribute the first inert gas output and the second inert gas output throughout a confined space. A volume reduction system is positioned within the confined space and includes a seal member. The seal member is selectively deployable between a first position and a second position to isolate a first volume of the confined space from a second volume of the confined space and reduce an amount of the first inert gas output and the second inert gas output required to respond to a fire threat within the confined space.

A fire protection collar which can be installed on a wall or ceiling, for the purpose of sealing off conduits which pass through walls or ceilings, having an intumescent fire protection insert, a cladding part which surrounds the fire protection insert, wherein the fire protection insert is arranged on the inner side thereof, and at least one fastening part which protrudes radially outward from at least one end face of the cladding part, is characterized in that the intumescent fire protection insert is designed as a molded body which yields to deformation, which entirely fills in the space encompassed by the housing, and which is a two-piece component formed from two elements.

The application discloses a control system of a fire fighting truck for high-rise and super high-rise building firefighting, comprising: a command control equipment (2), a launch control equipment (3), a turret control apparatus (8), and a photoelectric detection equipment (9), wherein, the photoelectric detection equipment (9) comprises: an installing shell, a power supply, a white light zoom camera, an infrared camera, a laser rangefinder, and an integrated processing unit, wherein the white light zoom camera is connected to the installing shell via screws, the infrared camera is connected to the installing shell by using a screw, the laser rangefinder is connected to the installing shell by using a screw, the power supply interface of the white light zoom camera is connected to the power supply by using a wire, the power supply interface of the infrared camera is connected to the power supply by using a wire, the power supply interface of the laser rangefinder is connected to the power supply by using a wire, the data interface of the white light zoom camera is connected to the integrated processing unit by using a wire, the data interface of the infrared camera is connected to the integrated processing unit by using a wire, and the data interface of the laser rangefinder is connected to the integrated processing unit by using a wire.

The invention discloses a fire fighting truck applicable to high-rise and super high-rise building fire suppression, comprising a truck chassis (1), a command control equipment (2), an launch control equipment (3), an equipment compartment (4), an launching apparatus (5), an ejection device (6), a fire extinguishing bomb (7), a turret control apparatus (8) and a photoelectric detection equipment (9), wherein, the command control equipment (2) and the launch control equipment (3) are arranged in the co-pilot position of the cab of the truck chassis (1); the equipment compartment (4) is arranged behind the cab and is fixed on the truck chassis (1) with bolts; the launching apparatus (5) is arranged on the truck chassis (1) and is fixed with screws; the ejection device (6) is arranged and fixed on the launching apparatus (5); the fire extinguishing bomb (7) is arranged within the ejection device (6); the turret control apparatus (8) is distributed on the truck chassis and the launching apparatus for accomplishing the actions of leveling the truck body and controlling the launching apparatus.

A fire suppression device may be launched from a hand-held, stand alone, or object- or vehicle-mounted device. The fire suppression device may be propelled by a first accelerant ejected out of a proximal end of the fire suppression device. The fire suppression device may be ruptured by a second accelerant after a predetermined amount of time. A fire suppressant may be dispersed on a fire when the fire suppression device is ruptured.

A rescue access wedge having a base portion, a rear portion and a front portion with a pair of opposed generally triangular sidewalls upwardly extended from the base portion wherein the sidewalls taper from the rear portion to a tip connecting the pair of opposed side surfaces and wherein a pair of aligned slots disposed on opposed sidewalls are adjoined for coupling with paired prongs a fork end of a rescue tool and a concavity or notch disposed in a top and/or bottom surface configured to seat this rescue access wedge upon an abutting surface and a method of use thereof.