The invention relates to a carrying device, in particular a backpack (10), for an avalanche airbag system (12), which includes an airbag (14) and a filling device (16) for introducing at least one medium into the airbag (14). The airbag (14) brought into a stowage position is received in a container (18) if the avalanche airbag system (12) is coupled to the carrying device. The container (18) comprises a closure element (34). After opening the closure element (34), the container (18) can be brought from a closed position into an open position. The carrying device includes at least one spring element, which is tensioned if the container (18) is brought into the closed position, and by means of which bringing the container (18) from the closed position into the open position can be effected. The closure element (34) can be opened by actuating an actuating device (28), by means of which the filling device (16) can be brought into a triggered state. In the triggered state, the filling device (16) introduces the at least one medium into the airbag (14).

The invention relates to an avalanche airbag system (10) comprising an airbag (14) and a filling device (20) for introducing ambient air into the airbag (14). The filling device (20) comprises a fan (16) with an electric motor (18), a first electric energy storage (22, 40) for providing electric energy to the electric motor (18), a second electric energy storage (24) and a control device (26) for actuating the electric motor (18). By means of the control device (26) depending on at least one parameter both a supplying of the electric motor (18) with electric energy originating from both energy storages (22, 40, 24) as well as with electric energy originating from only one of the two energy storages (22, 40, 24) can be effected. Moreover, the invention relates to a backpack comprising such an avalanche airbag system (10) and a method for operating such an avalanche airbag system (10).

The invention relates to an avalanche airbag system (10) comprising an airbag (14) and a filling device (20) for introducing ambient air into the airbag (14). The filling device (20) comprises a fan (16) with an electric motor (18), a first electric energy storage (22, 40) for providing electric energy to the electric motor (18), a second electric energy storage (24) and a control device (26) for actuating the electric motor (18). By means of the control device (26) depending on at least one parameter both a supplying of the electric motor (18) with electric energy originating from both energy storages (22, 40, 24) as well as with electric energy originating from only one of the two energy storages (22, 40, 24) can be effected. Moreover, the invention relates to a backpack comprising such an avalanche airbag system (10) and a method for operating such an avalanche airbag system (10).

An airbag compartment enclosure assembly is disclosed, including a compartment containing an uninflated airbag and a closure device fixed proximate an opening of the compartment. The closure device has an open position allowing expansion of the airbag through the opening and a closed position retaining the uninflated airbag. The closure device includes a first flap extending from a first edge of the opening and a second flap extending from a second, opposing edge of the opening. The first and second flaps are folded over one another in the closed position.

In one example, an airbag attachment unit (AAU) includes a body that defines an airbag compartment, an airbag disposed in the airbag compartment and configured to be selectively deployed from the airbag compartment, a closure mechanism configured to releasably close the airbag compartment, a tube at least partly disposed within the airbag compartment and connected to the airbag, and the tube having a quick-connect coupling mechanism configured to mate with a corresponding element of an airbag inflation system, and a portion of an attachment mechanism connected to the body and configured to releasably engage a corresponding portion of an attachment mechanism of an article of clothing such that the airbag attachment unit is detachably connectible to an exterior of the article of clothing.

A method for rescue support involves distributing transponder devices to individuals in a geographic region and causing the transponder devices to be activated. If a large-scale emergency situation occurs, a fleet of unmanned aerial vehicles are operated within the geographic region to receive distress signals transmitted by the activated transponder devices. A computer system processes the distress signals to obtain detection data for the individuals, the detection data comprising a location of the respective transponder device and a health status of the respective individual. The computer system generates, based on the location and health status of the respective individual, a prioritization chart for the geographic region, the prioritization chart being indicative of one or more sub-regions to be prioritized for a rescue operation.

A method for rescue support involves distributing transponder devices to individuals in a geographic region and causing the transponder devices to be activated. If a large-scale emergency situation occurs, a fleet of unmanned aerial vehicles are operated within the geographic region to receive distress signals transmitted by the activated transponder devices. A computer system processes the distress signals to obtain detection data for the individuals, the detection data comprising a location of the respective transponder device and a health status of the respective individual. The computer system generates, based on the location and health status of the respective individual, a prioritization chart for the geographic region, the prioritization chart being indicative of one or more sub-regions to be prioritized for a rescue operation.

A flying device is provided, which includes: an acquisition unit that acquires communication quality information with which position information indicating a position and the communication quality at a position indicated by the position information are associated; a flight position identification unit that identifies a flight position, which is an in-flight position; a path determination unit that determines a flight path on the basis of the communication quality associated with the position information corresponding to the flight position in the communication quality information; and a flight control unit that controls a flying mechanism on the basis of the flight path determined by the path determination unit.

A rescue device for assisting in removing an individual from a confined space comprises a sheet comprising a high-density polyethylene having first and second ends and a projection extending laterally outward from the first end and has a top edge, a bottom edge, a projection edge, and a securing element. The sheet has first and second through apertures inset from the second end and aligned with the projection. The sheet is rollable between an undeployed position wherein the sheet has a reduced diameter and a deployed position wherein the projection is passed through the first and second through apertures and partially secured by the securing element. In the deployed position, the securing element may abut the sheet and retain the device in the deployed position.

A rescue device for assisting in removing an individual from a confined space comprises a sheet comprising a high-density polyethylene having first and second ends and a projection extending laterally outward from the first end and has a top edge, a bottom edge, a projection edge, and a securing element. The sheet has first and second through apertures inset from the second end and aligned with the projection. The sheet is rollable between an undeployed position wherein the sheet has a reduced diameter and a deployed position wherein the projection is passed through the first and second through apertures and partially secured by the securing element. In the deployed position, the securing element may abut the sheet and retain the device in the deployed position.