Various embodiments of the present disclosure provide a strap-winding and strap-coil-deforming system (10) configured to wind a strap segment (S) into a coil and then deform the strap coil to render it more compact and to reduce the likelihood that it will uncoil during handling, storage, or transport. The deformed strap coil is introduced into a discharge chute (DC) to discharge it away from the strap-winding and strap-coil-deforming system (10) for further handling, storage, or transport.

Various embodiments of the present disclosure provide a strap-winding and strap-coil-deforming system (10) configured to wind a strap segment (S) into a coil and then deform the strap coil to render it more compact and to reduce the likelihood that it will uncoil during handling, storage, or transport. The deformed strap coil is introduced into a discharge chute (DC) to discharge it away from the strap-winding and strap-coil-deforming system (10) for further handling, storage, or transport.

An energy absorber has a textile element comprising two substrates connected to one another by breaking links and resistant links, the textile element being wound. A container receives the textile element. The container defines a first opening for a first end and a second opening for a second end of the textile element. The resistant link connects a portion of the two substrates and maintains the connection in response to a first stress applied between the first end and the second end. The breaking links break and absorb energy in response to a first stress between the first end and the second end of the textile element. The container is non-openable and defines an access hole opening out facing the centre of the textile element in wound state.

An energy absorber has a textile element comprising two substrates connected to one another by breaking links and resistant links, the textile element being wound. A container receives the textile element. The container defines a first opening for a first end and a second opening for a second end of the textile element. The resistant link connects a portion of the two substrates and maintains the connection in response to a first stress applied between the first end and the second end. The breaking links break and absorb energy in response to a first stress between the first end and the second end of the textile element. The container is non-openable and defines an access hole opening out facing the centre of the textile element in wound state.