Cable break-away safety device

The invention claimed is: 1. A cable break-away device comprising: a shear cap extending along an axis, the shear cap comprising: a head having a first diameter; a neck extending axially from the head and having a second diameter smaller than the first diameter, wherein the head extends annularly outward from the neck; an attachment portion extending from the neck and away from the head, the attachment portion comprising: a base portion extending annularly outward from the neck; a side wall extending axially from the base portion and away from the neck; and a retaining chamber defined by the base portion and the side wall, wherein the retaining chamber is open on the axis in a direction away from the neck, the retaining chamber configured to receive a cable such that the cable is secured within the retaining chamber and the cable extends out of the retaining chamber along the axis and in the direction away from the neck, and the retaining chamber has an inner diameter that is larger than the second diameter; wherein the neck is configured to transmit tensile forces from the cable secured within the retaining chamber of the attachment portion and the neck is configured to fracture in response to the tensile forces reaching a predetermined fracture set point. 2. The cable break-away device of claim 1 , wherein the attachment portion is configured to be swaged onto the cable. 3. The cable break-away device of claim 1 , wherein the shear cap is comprised of 302 stainless steel. 4. A rescue hoist assembly comprising: a rotating cable drum supported by a frame; a cable; and a cable break-away device comprising: a shear cap extending along an axis, the shear cap comprising: a head having a first diameter; a neck extending axially from the head and having a second diameter smaller than the first diameter, wherein the head extends annularly outward from the neck; and an attachment portion extending from the neck and away from the head, the attachment portion comprising: a base portion extending annularly outward from the neck; a side wall extending axially from the base portion and away from the neck; and a retaining chamber defined by the base portion and the side wall, wherein the retaining chamber is open axially away from the neck and the retaining chamber has an inner diameter that is larger than the second diameter; wherein the cable is secured within the retaining chamber of the attachment portion; wherein the neck is configured transmit tensile forces from the cable; wherein the cable is secured to the cable drum by the cable break-away device; and wherein the shear cap is attached to the rotating cable drum and is configured to transmit the tensile forces from the cable to the cable drum and the neck of the shear cap is configured to fracture in response to the tensile forces reaching the predetermined fracture set point. 5. The rescue hoist of claim 4 , wherein the rotating cable drum further comprises: a barrel extending between and connecting a first flange and a second flange; and a mounting slot extending into the barrel, the shear cap disposed within the mounting slot. 6. The rescue hoist of claim 5 , wherein the mounting slot extends into the barrel proximate one of the first flange and the second flange. 7. The rescue hoist of claim 5 , wherein the mounting slot further comprises: a head receiving portion having a first width; and a neck receiving portion having a second width, the second width being smaller than the first width. 8. The rescue hoist of claim 7 , wherein the mounting slot further comprises a detent extending through the barrel and over the neck receiving portion. 9. The rescue hoist of claim 7 , wherein the second width is smaller than the first diameter of the head of the shear cap. 10. The rescue hoist of claim 4 , wherein the attachment portion is swaged onto the cable. 11. The rescue hoist of claim 4 , wherein the shear cap comprises 302 stainless steel. 12. A method of securing a cable to a cable drum, the method comprising: securing the cable to a cable break away device comprising: a shear cap extending along an axis, the shear cap comprising: a head having a first diameter; a neck extending axially from the head and having a second diameter smaller than the first diameter, wherein the head extends annularly outward from the neck; an attachment portion extending from the neck and away from the head, the attachment portion comprising: a base portion extending annularly outward from the neck; a side wall extending axially from the base portion and away from the neck; and a retaining chamber defined by the base portion and the side wall, wherein the retaining chamber is open axially away from the neck and the retaining chamber has an inner diameter that is larger than the second diameter; wherein the neck is configured to transmit tensile forces from the cable secured within the retaining chamber of the attachment portion and the neck is configured to fracture in response to the tensile forces reaching a predetermined fracture set point; inserting an end of the cable within the receiving chamber of the attachment portion of the shear cap; and inserting the shear cap into a mounting slot extending into a barrel of the cable drum. 13. The method of claim 12 , wherein securing the end of the cable within the receiving chamber of the shear cap further comprises: inserting the end of the cable into the receiving chamber of the shear cap; and swaging the attachment portion. 14. The method of claim 12 , wherein inserting the shear cap into the mounting slot extending into the barrel of the cable drum further comprises: inserting the head of the shear cap into a head receiving portion of the mounting slot, the head receiving portion having a first width; and inserting the neck of the shear cap into a neck receiving portion of the mounting slot, the neck receiving portion having a second width; wherein the first width is greater than the second width. 15. The method of claim 14 , wherein the first diameter is greater than the second width.