A fire and disaster evacuation apparatus installed in a high-rise building includes a stationary frame; a front plate; a side plate; a bottom; a locking device; and a lever part, and its width is less than a thickness of an outer wall of the building. The apparatus can be mounted integrally with an outer wall of an apartment or a building and thus it can be mounted without changing the exterior of the building. The apparatus is formed in a thin structure so that it can be mounted at any place as long as an outer wall is 160 mm or more, and is located inside a wall body so that it does not affect the exterior of the building, and so that additional power is not necessary to drive the apparatus.

A fire and disaster evacuation apparatus installed in a high-rise building includes a stationary frame; a front plate; a side plate; a bottom; a locking device; and a lever part, and its width is less than a thickness of an outer wall of the building. The apparatus can be mounted integrally with an outer wall of an apartment or a building and thus it can be mounted without changing the exterior of the building. The apparatus is formed in a thin structure so that it can be mounted at any place as long as an outer wall is 160 mm or more, and is located inside a wall body so that it does not affect the exterior of the building, and so that additional power is not necessary to drive the apparatus.

A harness assembly to assist in and secure a fireman's carry of a victim. The harness assembly includes an adjustable strap to be secured around the victim and an adjustable strap to be secured over the shoulder and under the armpit of a carrier. A harness system includes two harness assemblies with one harness assembly being attached around a leg of the victim and one shoulder of the carrier and the other harness assembly being attached around the chest of the victim and the other shoulder of the carrier. The straps are adjustable so that they can be cinched.

A harness assembly to assist in and secure a fireman's carry of a victim. The harness assembly includes an adjustable strap to be secured around the victim and an adjustable strap to be secured over the shoulder and under the armpit of a carrier. A harness system includes two harness assemblies with one harness assembly being attached around a leg of the victim and one shoulder of the carrier and the other harness assembly being attached around the chest of the victim and the other shoulder of the carrier. The straps are adjustable so that they can be cinched.

A transport device having a layer of fire resistant fabric connected to a layer of plastic. A plurality of hooks are connected to the ends of the layer of fabric and a plurality of rings and handles are connected to the sides of the layer of fabric.

A transport device having a layer of fire resistant fabric connected to a layer of plastic. A plurality of hooks are connected to the ends of the layer of fabric and a plurality of rings and handles are connected to the sides of the layer of fabric.

A monitoring method and system based on terminal detection are provided. The method has the following steps: detecting, in real time, Bluetooth signals, and/or WiFi signals, and/or terminal frequencies in a detection area, and obtaining terminal MAC addresses, and/or Bluetooth MAC addresses, and/or WiFi MAC addresses, and/or the terminal frequencies; compiling statistics of the numbers of received terminal MAC addresses, and/or received Bluetooth MAC addresses, and/or received WiFi MAC addresses, and/or received terminal frequencies so as to obtain number information of terminals in the detection area, determining position information of the terminals according to the detection area, and estimating number information and position information of trapped persons according to the number information and the position information of the terminals; and sending, in real time, the number information and the position information of the trapped persons to a safety director or the rescue worker.

A system and a method for guiding a user through a safe exit path on an occurrence of a fire event in a premises. A method includes receiving instructions related to a fire event inside a premise from an access control database. Also, the access control database receives information related to the fire event from a fire control panel. The access control determines one or more safe exit paths based on the information related to the fire event. The method further includes selecting a safe exit path from the one or more safe exit paths and guiding a user of a mobile device through the safe exit path using augmented reality.

An unmanned aerial vehicle (UAV) or manned/unmanned personal flying device (PFD) may be used to deliver a deployable descent system to an elevated location at which people await rescue, such as people trapped in an upper story of a burning building. The UAV or PFD may be used to deliver the descent system, attach the descent system to the building, and deploy the descent system. After deployment, the descent system may be tensioned to prevent sway and facilitate descent. Standoffs may be installed or integrated into the descent system to provide for adequate handholds for descending individuals. Various equipment and methods used in such systems are described herein.

An unmanned aerial vehicle (UAV) or manned/unmanned personal flying device (PFD) may be used to deliver a deployable descent system to an elevated location at which people await rescue, such as people trapped in an upper story of a burning building. The UAV or PFD may be used to deliver the descent system, attach the descent system to the building, and deploy the descent system. After deployment, the descent system may be tensioned to prevent sway and facilitate descent. Standoffs may be installed or integrated into the descent system to provide for adequate handholds for descending individuals. Various equipment and methods used in such systems are described herein.