A carrier rack for a vehicle is provided that includes a tubular frame member and a plurality of strapping members. The tubular frame member includes at least four corner portions and defines an outer perimeter of the carrier rack and also defines a carrier plane. Each of the strapping members is se
A carrier rack for a vehicle is provided that includes a tubular frame member and a plurality of strapping members. The tubular frame member includes at least four corner portions and defines an outer perimeter of the carrier rack and also defines a carrier plane. Each of the strapping members is secured to a respective one of the corner portions, and is spaced apart from the carrier plane and positioned entirely interior of the outer perimeter of the carrier rack. The carrier plane is generally horizontally oriented, and each of the strapping members is below the carrier plane, when the carrier rack is attached to a vehicle and oriented to carry objects.
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1. A carrier rack for a vehicle comprising: a tubular frame member comprising at least four corner portions, the tubular frame member defining an outer perimeter of the carrier rack, each of the corner portions partially defining the outer perimeter; anda plurality of strapping members, each of the
1. A carrier rack for a vehicle comprising: a tubular frame member comprising at least four corner portions, the tubular frame member defining an outer perimeter of the carrier rack, each of the corner portions partially defining the outer perimeter; anda plurality of strapping members, each of the strapping members comprising a first end portion, a second end portion and a tubular portion intermediate the first and second end portions; whereineach of the strapping members is secured, at each of the first and second end portions, to a respective one of the corner portions of the tubular frame member and is positioned entirely interior of the outer perimeter of the carrier rack, each of the strapping members cooperating with the respective one of the corner portions of the tubular frame member to define a corner opening;the tubular frame member defines a carrier plane, each of the strapping members being spaced apart from the carrier plane; andthe carrier plane is generally horizontally oriented, and each of the strapping members is below the carrier plane, when the carrier rack is attached to a vehicle and oriented to carry objects. 2. The carrier rack of claim 1, wherein: each of the strapping members further comprises a longitudinal axis; andfor each of the strapping members, a maximum distance between the longitudinal axis and the respective corner portion, as measured in a direction substantially perpendicular to the longitudinal axis, ranges from about 19 mm to about 35 mm. 3. The carrier rack of claim 2, wherein: the tubular frame member further comprises an outside cross-sectional dimension;the tubular portion of each of the strapping members comprises an outside cross-sectional dimension; andfor each of the strapping members, a ratio of the outside cross-sectional dimension of the tubular frame member to the outside cross-sectional dimension of the tubular portion of the strapping member ranges from about 1.5 to about 2.0. 4. The carrier rack of claim 3, wherein: for each of the strapping members, the ratio of the outside cross-sectional dimension of the tubular frame member to the outside cross-sectional dimension of the tubular portion of the strapping member ranges from about 1.6 to about 1.9. 5. The carrier rack of claim 3, wherein: the tubular frame member has a first generally circular cross-sectional shape and further comprises a first annular wall defining a first hollow interior, the first annular wall having a first thickness;the tubular portion of each of the strapping members has a second generally circular cross-sectional shape and further comprises a second annular wall defining a second hollow interior, the second annular wall having a second thickness;the outside cross-sectional dimension of the tubular frame member is an outside diameter of the tubular frame member and, for each of the strapping members, the outside cross-sectional dimension of the tubular portion of the strapping member is an outside diameter of the tubular portion of the strapping member. 6. A carrier rack for a vehicle comprising: a tubular frame member comprising at least four corner portions, the tubular frame member defining an outer perimeter of the carrier rack, each of the corner portions partially defining the outer perimeter; anda plurality of strapping members, each of the strapping members comprising a first end portion, a second end portion and a tubular portion intermediate the first and second end portions; whereineach of the strapping members is secured, at each of the first and second end portions, to a respective one of the corner portions of the tubular frame member and is positioned entirely interior of the outer perimeter of the carrier rack, each of the strapping members cooperating with the respective one of the corner portions of the tubular frame member to define a corner opening;the tubular frame member defines a carrier plane, each of the strapping members being spaced apart from the carrier plane;the carrier plane is generally horizontally oriented, and each of the strapping members is below the carrier plane, when the carrier rack is attached to a vehicle and oriented to carry objects;each of the strapping members further comprises a longitudinal axis;for each of the strapping members, a maximum distance between the longitudinal axis and the respective corner portion, as measured in a direction substantially perpendicular to the longitudinal axis, ranges from about 19 mm to about 35 mm;the tubular frame member further comprises an outside diameter;the tubular portion of each of the strapping members comprises an outside diameter;for each of the strapping members, a ratio of the outside diameter of the tubular frame member to the outside diameter of the tubular portion of the strapping member ranges from about 1.5 to about 2.0;the tubular frame member has a first generally circular cross-sectional shape and further comprises a first annular wall defining a first hollow interior, the first annular wall having a first thickness;the tubular portion of each of the strapping members has a second generally circular cross-sectional shape and further comprises a second annular wall defining a second hollow interior, the second annular wall having a second thickness;the first end portion of each of the strapping members has a first distal height;the second end portion of each of the strapping members has a second distal height;for each of the strapping members, each of the first distal height and the second distal height is less than the outside diameter of the tubular portion of the strapping member;for each of the strapping members, a ratio of the first thickness of the first annular wall of the tubular frame member to the first distal height ranges from about 0.5 to about 0.7; andfor each of the strapping members, a ratio of the first thickness of the first annular wall of the tubular frame member to the second distal height ranges from about 0.5 to about 0.7. 7. The carrier rack of claim 1, wherein: the first end portion and the second end portion of each of the strapping members is welded to the respective corner portion of the tubular frame member. 8. The carrier rack of claim 7, wherein: each of the strapping members is generally straight. 9. The carrier rack of claim 1, wherein; the tubular frame member defines a lower plane; and, each of the strapping members is between the carrier plane and the lower plane. 10. A vehicle comprising: a frame;a body structure supported by the frame; anda carrier rack supported by at least one of the frame and the body structure, wherein the carrier rack comprises: a tubular frame member comprising at least four corner portions, the tubular frame member defining an outer perimeter of the carrier rack, each of the corner portions partially defining the outer perimeter; anda plurality of strapping members, each of the strapping members comprising a first end portion, a second end portion and a tubular portion intermediate the first and second end portions; whereineach of the strapping members is secured, at each of the first and second end portions, to a respective one of the corner portions of the tubular frame member and is positioned entirely interior of the outer perimeter of the carrier rack, each of the strapping members cooperating with the respective one of the corner portions of the tubular frame member to define a corner opening;the tubular frame member defines a carrier plane; andthe carrier plane is generally horizontally oriented and each of the strapping members is below the carrier plane. 11. The vehicle of claim 10, wherein: each of the strapping members further comprises a longitudinal axis; andfor each of the strapping members, a maximum distance between the longitudinal axis and the respective corner portion, as measured in a direction substantially perpendicular to the longitudinal axis, ranges from about 19 mm to about 35 mm. 12. The vehicle of claim 11, wherein: the tubular frame member further comprises an outside cross-sectional dimension;the tubular portion of each of the strapping members comprises an outside cross-sectional dimension; andfor each of the strapping members, a ratio of the outside cross-sectional dimension of the tubular frame member to the outside cross-sectional dimension of the tubular portion of the strapping member ranges from about 1.5 to about 2.0. 13. The vehicle of claim 12, wherein: for each of the strapping members, the ratio of the first outside cross-sectional dimension of the tubular frame member to the second outside cross-sectional dimension of the tubular portion of the strapping member ranges from about 1.6 to about 1.9. 14. The vehicle of claim 12, wherein: the tubular frame member has a first generally circular cross-sectional shape and further comprises a first annular wall defining a first hollow interior, the first annular wall having a first thickness;the tubular portion of each of the strapping members has a second generally circular cross-sectional shape and further comprises a second annular wall defining a second hollow interior, the second annular wall having a second thickness;the outside cross-sectional dimension of the tubular frame member is an outside diameter of the tubular frame member and, for each of the strapping members, the outside cross-sectional dimension of the tubular portion of the strapping member is an outside diameter of the tubular portion of the strapping member. 15. A vehicle comprising: a frame.a body structure supported by the frame; anda carrier rack supported by at least one of the frame and the body structure, wherein the carrier rack comprises: a tubular frame member comprising at least four corner portions, the tubular frame member defining an outer perimeter of the carrier rack, each of the corner portions partially defining the outer perimeter; anda plurality of strapping members, each of the strapping members comprising a first end portion, a second end portion and a tubular portion intermediate the first and second end portions; whereineach of the strapping members is secured, at each of the first and second end portions, to a respective one of the corner portions of the tubular frame member and is positioned entirely interior of the outer perimeter of the carrier rack, each of the strapping members cooperating with the respective one of the corner portions of the tubular frame member to define a corner opening;the tubular frame member defines a carrier plane;the carrier plane is generally horizontally oriented and each of the strapping members is below the carrier plane;each of the strapping members further comprises a longitudinal axis;for each of the strapping members, a maximum distance between the longitudinal axis and the respective corner portion, as measured in a direction substantially perpendicular to the longitudinal axis, ranges from about 19 mm to about 35 mm;the tubular frame member further comprises an outside diameter;the tubular portion of each of the strapping members comprises an outside diameter;for each of the strapping members, a ratio of the outside diameter of the tubular frame member to the outside diameter of the tubular portion of the strapping member ranges from about 1.5 to about 2.0;the tubular frame member has a first generally circular cross-sectional shape and further comprises a first annular wall defining a first hollow interior, the first annular wall having a first thickness;the tubular portion of each of the strapping members has a second generally circular cross-sectional shape and further comprises a second annular wall defining a second hollow interior, the second annular wall having a second thickness;the first end portion of each of the strapping members has a first distal height;the second end portion of each of the strapping members has a second distal height;for each of the strapping members, a ratio of the first thickness of the first annular wall of the tubular frame member to the first distal height ranges from about 0.5 to about 0.7; andfor each of the strapping members, a ratio of the first thickness of the first annular wall of the tubular frame member to the second distal height ranges from about 0.5 to about 0.7. 16. The vehicle of claim 10, wherein: the first end portion and the second end portion of each of the strapping members is welded to the respective corner portion of the tubular frame member. 17. The vehicle of claim 16, wherein: each of the strapping members is generally straight. 18. The vehicle of claim 10, wherein: the body structure comprises a fender assembly and the carrier rack is adjacent to the fender assembly. 19. The vehicle of claim 18, being a saddle-type vehicle, the vehicle further comprising: at least one rotatable front wheel coupled to the frame;at least one rotatable rear wheel coupled to the frame; anda source of motive power supported by the frame and coupled to at least one of the front and rear wheels; whereinthe fender assembly is adjacent to at least one of the front and rear wheels. 20. A saddle-type vehicle comprising: a frame;at least one rotatable front wheel coupled to the frame;at least one rotatable rear wheel coupled to the frame;a source of motive power supported by the frame and coupled to at least one of the front and rear wheels;a body structure supported by the frame and comprising a fender assembly, the fender assembly being adjacent to at least one of the front and rear wheels; anda carrier rack supported by at least one of the frame and the body structure, the carrier rack being adjacent to the fender assembly, wherein the carrier rack comprises: a tubular frame member comprising at least four corner portions, the tubular frame member defining an outer perimeter of the carrier rack, each of the corner portions partially defining the outer perimeter; anda plurality of strapping members, each of the strapping members being generally straight and comprising a first end portion, a second end portion and a tubular portion intermediate the first and second end portions; whereinthe first end portion and the second end portion of each of the strapping members is welded to a respective one of the corner portions of the tubular frame member and is positioned entirely interior of the outer perimeter of the carrier rack, each of the strapping members cooperating with the respective one of the corner portions of the tubular frame member to define a corner opening;the tubular frame member defines a carrier plane and a lower plane;the carrier plane is generally horizontally oriented and each of the strapping members is below the carrier plane and above the lower plane;each of the strapping members further comprises a longitudinal axis; andfor each of the strapping members, a maximum distance between the longitudinal axis and the respective corner portion, as measured in a direction substantially perpendicular to the longitudinal axis, ranges from about 19 mm to about 35 mm;the tubular frame member further comprises an outside diameter;the tubular portion of each of the strapping members comprises an outside diameter; andfor each of the strapping members, a ratio of the outside diameter of the tubular frame member to the outside diameter of the tubular portion of the strapping member ranges from about 1.5 to about 2.0;the tubular frame member has a first generally circular cross-sectional shape and further comprises a first annular wall defining a first hollow interior, the first annular wall having a first thickness;the tubular portion of each of the strapping members has a second generally circular cross-sectional shape and further comprises a second annular wall defining a second hollow interior, the second annular wall having a second thickness;the first end portion of each of the strapping members has a first distal height;the second end portion of each of the strapping members has a second distal height;for each of the strapping members, each of the first distal height and the second distal height is less than the outside diameter of the tubular portion of the strapping member;for each of the strapping members, a ratio of the first thickness of the first annular wall of the tubular frame member to the first distal height ranges from about 0.5 to about 0.7; andfor each of the strapping members, a ratio of the first thickness of the first annular wall of the tubular frame member to the second distal height ranges from about 0.5 to about 0.7. 21. A carrier rack for a vehicle comprising: a tubular frame member comprising at least four corner portions, the tubular frame member defining an outer perimeter of the carrier rack, each of the corner portions partially defining the outer perimeter; anda plurality of strapping members, each of the strapping members comprising a first end portion, a second end portion and a tubular portion intermediate the first and second end portions; whereineach of the strapping members is secured, at each of the first and second end portions, to a respective one of the corner portions of the tubular frame member and is positioned entirely interior of the outer perimeter of the carrier rack, each of the strapping members cooperating with the respective one of the corner portions of the tubular frame member to define a corner opening;the tubular frame member defines a carrier plane, each of the strapping members being spaced apart from the carrier plane; andthe carrier plane is generally horizontally oriented, and each of the strapping members is below the carrier plane, when the carrier rack is attached to a vehicle and oriented to carry objects;the tubular frame member further comprises an outside diameter and a first annular wall defining a first hollow interior, the first annular wall having a first thickness;the tubular portion of each of the strapping members comprises an outside diameter and a second annular wall defining a second hollow interior, the second annular wall having a second thickness;the first end portion of the each of the strapping members has a first distal height;the second end portion of each of the strapping members has a second distal height;for each of the strapping members, each of the first distal height and the second distal height is less than the outside diameter of the tubular portion of the strapping member;for each of the strapping members, a ratio of the first thickness of the first annular wall of the tubular frame member to the first distal height ranges from about 0.5 to about 0.7; andfor the each of the strapping members, a ratio of the first thickness of the first annular wall of the tubular frame member to the second distal height ranges from about 0.5 to about 0.7. 22. The carrier rack of claim 21, wherein: at least of one of the strapping members is generally horizontally oriented when the carrier rack is attached to a vehicle and oriented to carry objects. 23. The carrier rack of claim 1, wherein: at least of one of the strapping members is generally horizontally oriented when the carrier rack is attached to a vehicle and oriented to carry objects.
Johnson Mitchell D. ; Klein Michael A. ; Parks Matthew David ; Karl Mark Thomas ; Johnson Patrick ; Spahr Tim ; Sajna Jeff ; Andrews Craig ; Higgins Kenneth Terry ; Lowery Robert A. ; Ruby Keith D. ;, Injection molded racks and components for off-road recreational and utility vehicles.
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