A strap that may be used to secure equipment (e.g., a bag) to the parachute harness of a parachutist. The strap may provide adjustability of an effective strap length to assist in positioning the suspended equipment relative to the parachutist. The strap may include quick-release features that allow the suspended equipment to be quickly and easily disengaged (e.g., once the parachutist has landed). In turn, a transition to ground operations in which the equipment is in use may occur quickly and without heavy rigging or additional containers for stowing the equipment during the jump. In turn, the strap may be carried with the parachutist during ground operations without significant additional weight.

A strap that may be used to secure equipment (e.g., a bag) to the parachute harness of a parachutist. The strap may provide adjustability of an effective strap length to assist in positioning the suspended equipment relative to the parachutist. The strap may include quick-release features that allow the suspended equipment to be quickly and easily disengaged (e.g., once the parachutist has landed). In turn, a transition to ground operations in which the equipment is in use may occur quickly and without heavy rigging or additional containers for stowing the equipment during the jump. In turn, the strap may be carried with the parachutist during ground operations without significant additional weight.

Disclosed is a lumbar support system enabling the lower back to recoil during open canopy descent. The system includes at least one lumbar strap linked by a front link to the lower part of the main lift webs and arranged in such a way that same is adapted to be linked at least in one point to the back straps when arranged in a “V” shape at the rear of the parachute pack, or in two spaced-apart locations when arranged separately. After the main parachute opening, the angular pivoting of the lumbar strap performed by the transfer of the load onto the back of the user increases the respective spacing of the two main lift webs, which allows the lower back to recoil.

Disclosed is a lumbar support system enabling the lower back to recoil during open canopy descent. The system includes at least one lumbar strap linked by a front link to the lower part of the main lift webs and arranged in such a way that same is adapted to be linked at least in one point to the back straps when arranged in a “V” shape at the rear of the parachute pack, or in two spaced-apart locations when arranged separately. After the main parachute opening, the angular pivoting of the lumbar strap performed by the transfer of the load onto the back of the user increases the respective spacing of the two main lift webs, which allows the lower back to recoil.

A device for disconnection by a mechanical action includes at least one mechanical connection part, in particular a buckle held closed by spring action, linked to at least one triggering means via at least one connecting member, and a release lever configured to be triggered by application of a force according to a predefined opening direction.

The disconnect device also includes at least one guide for the connecting member configured to redirect an effort applied on the triggering means, when opening is required, towards the mechanical connection part linked to the connecting member, according to the predefined opening direction.

A device for disconnection by a mechanical action includes at least one mechanical connection part, in particular a buckle held closed by spring action, linked to at least one triggering means via at least one connecting member, and a release lever configured to be triggered by application of a force according to a predefined opening direction.

The disconnect device also includes at least one guide for the connecting member configured to redirect an effort applied on the triggering means, when opening is required, towards the mechanical connection part linked to the connecting member, according to the predefined opening direction.

A stored energy release comprises an actuatable member slidably received within a housing. The actuatable member has an extended orientation wherein a portion of the actuatable member extends outwardly from the housing and a retracted orientation wherein the actuatable member resides within the housing. A biasing member is located between the actuatable member and the housing biases the actuatable member to the retracted orientation. A shaft is within the housing with the actuatable member configured for sliding movement along the shaft. A retaining member is located between the actuatable member and the shaft. The retaining member maintains the actuatable member in the extended orientation whereby potential energy is stored within the biasing member. A piezoelectric element selectively engages the retaining member to disable the retaining member and release the stored potential energy within the biasing member to place the actuatable member in the retracted orientation.

A stored energy release comprises an actuatable member slidably received within a housing. The actuatable member has an extended orientation wherein a portion of the actuatable member extends outwardly from the housing and a retracted orientation wherein the actuatable member resides within the housing. A biasing member is located between the actuatable member and the housing biases the actuatable member to the retracted orientation. A shaft is within the housing with the actuatable member configured for sliding movement along the shaft. A retaining member is located between the actuatable member and the shaft. The retaining member maintains the actuatable member in the extended orientation whereby potential energy is stored within the biasing member. A piezoelectric element selectively engages the retaining member to disable the retaining member and release the stored potential energy within the biasing member to place the actuatable member in the retracted orientation.

A strap that may be used to secure equipment (e.g., a bag) to the parachute harness of a parachutist. The strap may provide adjustability of an effective strap length to assist in positioning the suspended equipment relative to the parachutist. The strap may include quick-release features that allow the suspended equipment to be quickly and easily disengaged (e.g., once the parachutist has landed). In turn, a transition to ground operations in which the equipment is in use may occur quickly and without heavy rigging or additional containers for stowing the equipment during the jump. In turn, the strap may be carried with the parachutist during ground operations without significant additional weight.

A strap that may be used to secure equipment (e.g., a bag) to the parachute harness of a parachutist. The strap may provide adjustability of an effective strap length to assist in positioning the suspended equipment relative to the parachutist. The strap may include quick-release features that allow the suspended equipment to be quickly and easily disengaged (e.g., once the parachutist has landed). In turn, a transition to ground operations in which the equipment is in use may occur quickly and without heavy rigging or additional containers for stowing the equipment during the jump. In turn, the strap may be carried with the parachutist during ground operations without significant additional weight.