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One embodiment of the present invention relates to a carrying system with an enclosure member and a shoulder attachment system. The shoulder attachment system includes a first and second shoulder strap individually coupled to the external surface of the enclosure member. The bottom ends of the first

One embodiment of the present invention relates to a carrying system with an enclosure member and a shoulder attachment system. The shoulder attachment system includes a first and second shoulder strap individually coupled to the external surface of the enclosure member. The bottom ends of the first and second shoulder straps are intercoupled via a coupling member. The coupling member is slidably routed through a sleeve member within the internal region of the enclosure member. The sleeve member includes an internal channel having a cross-sectional shape that substantially matches the cross-sectional shape of the coupling member, thereby minimizing frictional resistance as the coupling member is translated through the sleeve member. The slidable intercoupling between the bottom ends of the first and second shoulder straps with respect to the enclosure member enables articulation of one shoulder strap to be balanced by corresponding articulation of the opposite shoulder strap.

대표청구항 ▼

1. A user-based carrying system capable of independent transportation of a load, comprising: an enclosure member having an internal region substantially encased by an internal surface, wherein the enclosure member includes an external surface opposite the internal surface;a user attachment system co

1. A user-based carrying system capable of independent transportation of a load, comprising: an enclosure member having an internal region substantially encased by an internal surface, wherein the enclosure member includes an external surface opposite the internal surface;a user attachment system configured to releasably secure the enclosure member to a user, wherein the user attachment system includes a shoulder attachment system comprising: a first shoulder strap having a top and bottom end, wherein the first shoulder strap top end is rigidly individually coupled to the external surface of the enclosure member;a second shoulder strap having a top and bottom end, wherein the second shoulder strap top end is rigidly individually coupled to the external surface of the enclosure member;wherein the bottom end of the first and second shoulder strap are intercoupled via a coupling member, and wherein the coupling member is slidably routed through a sleeve member disposed within the internal region of the enclosure member and between the first and second shoulder straps, and wherein the sleeve member includes an internal channel having a cross-sectional shape that substantially matches the cross-sectional shape of the coupling member, and wherein the coupling between the coupling member and the first and second shoulder straps is disposed within the internal region of the enclosure member; anda frame member disposed entirely between the top end of the first and second shoulder strap and the sleeve member, and wherein the frame member is disposed within the internal region of the enclosure member, and wherein the frame member includes the frame sheet, a frame pocket, and a frame support, and wherein the frame sheet is disposed adjacent to the internal surface of the enclosure member, and wherein the frame pocket forms a second internal region on the frame sheet on a side opposite the internal surface of the enclosure member, and wherein the frame support is disposed within the second internal region. 2. The system of claim 1, wherein the cross sectional shape of the internal channel is a supported three dimensional shape. 3. The system of claim 1, wherein the cross sectional shape of the coupling member and the internal channel is substantially circular, and wherein the cross sectional shape of the first and second shoulder straps is substantially rectangular. 4. The system of claim 1, wherein the cross sectional shape of the coupling member and the internal channel is substantially different from the cross sectional shape of the first and second shoulder straps. 5. The system of claim 1, wherein the sleeve member is disposed within the second internal region. 6. The system of claim 5, wherein the second internal region includes an independent primary and secondary region, and wherein the frame support is disposed within the primary region and the sleeve member is disposed within the secondary region, and wherein the secondary region is disposed below the primary region. 7. The system of claim 1, wherein the coupling member extends through two recesses on the frame sheet on either side of the sleeve member. 8. The system of claim 1, wherein the coupling member and sleeve member are oriented substantially perpendicular to the lengthwise orientation of the enclosure member. 9. The system of claim 1, wherein the first and second shoulder straps are slidably intercoupled with respect to the enclosure member. 10. The system of claim 1, wherein the coupling member is substantially composed of metal and the sleeve member is substantially composed of rubber. 11. The system of claim 1, wherein the slidable routing of the coupling member with respect to the sleeve member is substantially frictionless. 12. A user-based carrying system capable of independent transportation of a load, comprising: an enclosure member having an internal region substantially encased by an internal surface, and the enclosure member includes an external surface opposite the internal surface;a user attachment system configured to releasably secure the enclosure member to a user, wherein the user attachment system includes a shoulder attachment system comprising: a first shoulder strap having a top and bottom end, wherein the first shoulder strap top end is rigidly individually coupled to the external surface of the enclosure member;a second shoulder strap having a top and bottom end, wherein the second shoulder strap top end is rigidly individually coupled to the external surface of the enclosure member;wherein the bottom end of the first and second shoulder straps are intercoupled via a coupling member, and wherein the coupling member is slidably routed through a sleeve member disposed within the internal region of the enclosure member and between the first and second shoulder straps, and wherein the sleeve member includes an internal channel having a cross-sectional shape that substantially matches the cross-sectional shape of the coupling member;a frame member disposed entirely between the top end of the first and second shoulder strap and the sleeve member, and wherein the frame member is disposed within the internal region of the enclosure member, and wherein the frame member includes the frame sheet, a frame pocket, and a frame support, and wherein the frame sheet is disposed adjacent to the internal surface of the enclosure member, and wherein the frame pocket forms a second internal region on the frame sheet on a side opposite the internal surface of the enclosure member, and wherein the frame support is disposed within the second internal region;wherein the cross sectional shape of the coupling member and the internal channel is substantially different from the cross sectional shape of the first and second shoulder straps; andwherein the slidable routing of the coupling member with respect to the sleeve member is substantially frictionless, and wherein the coupling between the coupling member and the first and second shoulder straps is disposed within the internal region of the enclosure member. 13. The system of claim 12, wherein the cross sectional shape of the internal channel is a supported three dimensional shape. 14. A method for slidably intercoupling a first and second shoulder strap with an enclosure member forming an efficient user-based independent carrying system, comprising the acts of: providing an enclosure member having an internal region substantially encased by an internal surface;providing a first and second shoulder strap with a cross sectional shape;providing a coupling member having a cross sectional shape that is substantially different from the cross sectional shape of the first and second shoulder straps;providing a frame member within the internal region adjacent to the internal surface;positioning a sleeve member within the internal region having an internal channel with a supported cross-sectional shape, wherein the frame member is disposed between the top end of the first and second shoulder strap and the sleeve member;rigidly individually coupling a top end of the first and second shoulder strap to the enclosure member;intercoupling the bottom end of the first and second shoulder straps with the coupling member having a cross sectional shape that substantially matches the supported cross-sectional shape of the internal channel including coupling the bottom end of the first and second shoulder straps with the coupling member within the internal region; andslidably routing the coupling member through the sleeve member within the internal region and between the first and second shoulder strap; andwherein the frame member is disposed entirely between the top end of the first and second shoulder strap and the sleeve member, and wherein the frame member is disposed within the internal region of the enclosure member, and wherein the frame member includes the frame sheet, a frame pocket, and a frame support, and wherein the frame sheet is disposed adjacent to the internal surface of the enclosure member, and wherein the frame pocket forms a second internal region on the frame sheet on a side opposite the internal surface of the enclosure member, and wherein the frame support is disposed within the second internal region. 15. The method of claim 14, wherein the act of slidably routing the coupling member through the sleeve member within the internal region and between the first and second shoulder strap is substantially frictionless. 16. The method of claim 14, wherein the act of positioning a sleeve member within the internal region having an internal channel with a supported cross-sectional shape includes positioning the sleeve member perpendicular to the lengthwise orientation of the enclosure member within a secondary internal region adjacent to a frame member.