A harness container for a parachutist has a bio-contoured support cradle or load distributing vest. The load distributing vest, which is generally U-shaped and includes an upper yoke and two straps integral with the yoke, has a multi-layer construction that includes an outer layer and an inner layer mounted on a bio-contoured pad. The outer layer and the inner layer are of corresponding shape and are sewn to one another along a reinforced edging with the pad therebetween. The upper yoke is attached to the front side of the harness container and the ends of the vest straps are attached to the main lift webs so that the vest elevates the harness container and distributes the load thereof across the jumper's shoulders, back and chest for increased comfort.

A tool to aid with pulling a closing loop cord through grommets in closing flaps on a parachute container. The cord is looped in a U shaped arrangement with two pulling legs of equal length being wrapped around a handle to provide a better grip. Only one leg of the cord can be permanently attached to the handle as the other leg must be removable for fishing through the grommets. The handle must have a diameter to permit passage through the eye of the grommet with the two legs of the cord trailing behind. With existing handles, the removable end of the cord slides off the end of the handle when passing through the grommet. An O ring placed on one or both ends of a radial groove in the handle holds the cord captive when passing the handle through the grommets to prevent the cord from sliding off.

A tool to aid with pulling a closing loop cord through grommets in closing flaps on a parachute container. The cord is looped in a U shaped arrangement with two pulling legs of equal length being wrapped around a handle to provide a better grip. Only one leg of the cord can be permanently attached to the handle as the other leg must be removable for fishing through the grommets. The handle must have a diameter to permit passage through the eye of the grommet with the two legs of the cord trailing behind. With existing handles, the removable end of the cord slides off the end of the handle when passing through the grommet. An O ring placed on one or both ends of a radial groove in the handle holds the cord captive when passing the handle through the grommets to prevent the cord from sliding off.

An atmospheric balloon descent system includes a system housing having a drogue chamber containing a drogue chute and a parachute chamber containing a parachute. The parachute coupled with the drogue chute with a drogue tether. A riser tether extends between a descent system end portion and a balloon system end portion, and the descent system end portion is coupled with the parachute. A drogue cover release is coupled between the riser tether and the drogue cover. The descent system transitions between riser deployment and parachute deployment configurations. In the riser deployment configuration the system housing is decoupled from the atmospheric balloon system and the riser tether is deployed between the system housing and the atmospheric balloon system. In the parachute deployment configuration the deployed riser tether opens the drogue chamber and deploys the drogue chute and the deployed drogue chute opens the parachute chamber and deploys the parachute.

A harness container for a parachutist has a bio-contoured support cradle or load distributing vest. The load distributing vest, which is generally U-shaped and includes an upper yoke and two straps integral with the yoke, has a multi-layer construction that includes an outer layer and an inner layer mounted on a bio-contoured pad. The outer layer and the inner layer are of corresponding shape and are sewn to one another along a reinforced edging with the pad therebetween. The upper yoke is attached to the front side of the harness container and the ends of the vest straps are attached to the main lift webs so that the vest elevates the harness container and distributes the load thereof across the jumper's shoulders, back and chest for increased comfort.

A harness container for a parachutist has a bio-contoured support cradle or load distributing vest. The load distributing vest, which is generally U-shaped and includes an upper yoke and two straps integral with the yoke, has a multi-layer construction that includes an outer layer and an inner layer mounted on a bio-contoured pad. The outer layer and the inner layer are of corresponding shape and are sewn to one another along a reinforced edging with the pad therebetween. The upper yoke is attached to the front side of the harness container and the ends of the vest straps are attached to the main lift webs so that the vest elevates the harness container and distributes the load thereof across the jumper's shoulders, back and chest for increased comfort.

The present disclosure provides danger avoidance apparatuses and related methods, such as for use to avoid avalanches. An apparatus may include a container configured to couple to a user, a lift providing mechanism, a descent control mechanism and at least one rip cord engaged with the container and selectively operable by the user. Both the lift providing mechanism and the descent control mechanism may be movably coupled to the container between a packed position within the container and a deployed position exterior to the container controlled via the at least one rip cord. The lift providing mechanism may include an airfoil that provides lift to the user at a first velocity of the user along a first direction. The descent control mechanism may control the descent and reduce the velocity of the user along the first direction from the first velocity in the deployed position.

The present disclosure provides danger avoidance apparatuses and related methods, such as for use to avoid avalanches. An apparatus may include a container configured to couple to a user, a lift providing mechanism, a descent control mechanism and at least one rip cord engaged with the container and selectively operable by the user. Both the lift providing mechanism and the descent control mechanism may be movably coupled to the container between a packed position within the container and a deployed position exterior to the container controlled via the at least one rip cord. The lift providing mechanism may include an airfoil that provides lift to the user at a first velocity of the user along a first direction. The descent control mechanism may control the descent and reduce the velocity of the user along the first direction from the first velocity in the deployed position.

A harness container for a parachutist has a bio-contoured support cradle or load distributing vest. The load distributing vest, which is generally U-shaped and includes an upper yoke and two straps integral with the yoke, has a multi-layer construction that includes an outer layer and an inner layer mounted on a bio-contoured pad. The outer layer and the inner layer are of corresponding shape and are sewn to one another along a reinforced edging with the pad therebetween. The upper yoke is attached to the front side of the harness container and the ends of the vest straps are attached to the main lift webs so that the vest elevates the harness container and distributes the load thereof across the jumper's shoulders, back and chest for increased comfort.

A harness container for a parachutist has a bio-contoured support cradle or load distributing vest. The load distributing vest, which is generally U-shaped and includes an upper yoke and two straps integral with the yoke, has a multi-layer construction that includes an outer layer and an inner layer mounted on a bio-contoured pad. The outer layer and the inner layer are of corresponding shape and are sewn to one another along a reinforced edging with the pad therebetween. The upper yoke is attached to the front side of the harness container and the ends of the vest straps are attached to the main lift webs so that the vest elevates the harness container and distributes the load thereof across the jumper's shoulders, back and chest for increased comfort.