The present invention is an improved cable/cord storage device. The cable management device includes first and second expanded regions, a medial region, and at least one channel with a resealable slit. The first and second expanded regions are respectively wider than the medial region. The at least
The present invention is an improved cable/cord storage device. The cable management device includes first and second expanded regions, a medial region, and at least one channel with a resealable slit. The first and second expanded regions are respectively wider than the medial region. The at least one channel includes an opening on the first region, an opening on the medial region, and an internal cavity therebetween. The internal cavity may be intentionally exposed via a resealable slit to allow a cable to be routed through the internal cavity between the openings. Upon release, slit automatically reseals, thereby reliably supporting the cable. A second embodiment includes two such channels, one in each expanded region. An improved embodiment features transition zones at the origin and terminus of each channel, a rounded edge to each slit, and transitioning curvature of the medial region.
대표청구항▼
What is claimed is: 1. An in-line cable management device comprising: a top and a bottom expanded region; a medial region disposed between the top and bottom expanded regions, wherein the medial region is cross-sectionally narrower than the first and second expanded region and defines an inner side
What is claimed is: 1. An in-line cable management device comprising: a top and a bottom expanded region; a medial region disposed between the top and bottom expanded regions, wherein the medial region is cross-sectionally narrower than the first and second expanded region and defines an inner side of each expanded region, an imaginary line passing centrally through the first and second expanded regions and the medial region being defined as a primary axis, a side of the top expanded region not proximate the medial region being defined as a top side, and a side of the bottom expanded region not proximate the medial region being defined as a bottom side; at least one channel extending from the top side of the top expanded region and toward the medial region, said channel terminating at a point defining the medial region, going through said top expanded region, originating from and along the primary axis, said channel defining a channel axis yet forming a non-right angle with said axis, and having at least one flared end that flares outwardly from the channel axis; and a slit extending radially from and along the channel and through one side of the top expanded region to an outer circumference thereof thereby providing access to the channel through the top expanded region, the entire device being manufactured from a deformable elastomeric material with shape memory such that in use the top expanded region will substantially part along the slit, exposing an entire length of the channel, when pressure is applied to said expanded region, and return to its original shape when said pressure is removed. 2. The device of claim 1, the slit having rounded edges at least partially throughout its length so as to facilitate opening of the slit. 3. The device of claim 1, wherein the in-line cable management device is substantially shaped in the form of an archetypical apple core. 4. The device of claim 1, the first and second expanded regions being substantially bulbous. 5. The device of claim 1, the shape of the first and second expanded regions being selected from the set of three-dimensional shaped consisting of: spheres, hemispheres, cubes, pyramids, octahedrons, decahedrons, and, dodecahedrons. 6. The device of claim 1, the shape of at least one of the expanded regions being a novelty shape. 7. The device of claim 2, further comprising a second, identical, flared channel extending from the bottom side of the bottom expanded region and toward the medial region, forming a non-right angle with said axis, going through said bottom expanded region, along the axis and a second, identical, slit extending radially from the second channel and through one side of the bottom expanded region to an outer circumference thereof, thereby providing access to the channel though the bottom expanded region, the entire device being manufactured from a deformable elastomeric material with shape memory such that in use the bottom expanded region will substantially part along the slit, exposing an entire length of the channel, when pressure is there applied and return to its original shape when said pressure is removed. 8. The device of claim 2, wherein the in-line cable management device is substantially shaped in the form of an archetypical apple core. 9. The device of claim 2, the first and second expanded regions being substantially bulbous. 10. The device of claim 2, the shape of the first and second expanded regions being selected from the set of three-dimensional shaped consisting of: spheres, hemispheres, cubes, pyramids, octahedrons, decahedrons, and, dodecahedrons. 11. The device of claim 2, the shape of at least one of the expanded regions being a novelty shape. 12. The device of claim 7, the medial region being divided into a central region and two border regions proximate the expanded regions, the central region having a flatter curvature than the border regions. 13. The device of claim 7, wherein the in-line cable management device is substantially shaped in the form of an archetypical apple core. 14. The device of claim 7, the first and second expanded regions being substantially bulbous. 15. The device of claim 7, the shape of the first and second expanded regions being selected from the set of three-dimensional shaped consisting of: spheres, hemispheres, cubes, pyramids, octahedrons, decahedrons, and, dodecahedrons. 16. The device of claim 7, the shape of at least one of the expanded regions being a novelty shape. 17. The device of claim 12, the flared channels terminating within the end regions. 18. The device of claim 12, wherein the in-line cable management device is substantially shaped in the form of an archetypical apple core. 19. The device of claim 12, the first and second expanded regions being substantially bulbous. 20. The device of claim 12, the shape of the first and second expanded regions being selected from the set of three-dimensional shaped consisting of: spheres, hemispheres, cubes, pyramids, octahedrons, decahedrons, and, dodecahedrons. 21. The device of claim 12, the shape of at least one of the expanded regions being a novelty shape. 22. The device of claim 17, wherein the in-line cable management device is substantially shaped in the form of an archetypical apple core. 23. The device of claim 17, the first and second expanded regions being substantially bulbous. 24. The device of claim 17, the shape of the first and second expanded regions being selected from the set of three-dimensional shaped consisting of: spheres, hemispheres, cubes, pyramids, octahedrons, decahedrons, and, dodecahedrons. 25. The device of claim 17, the shape of at least one of the expanded regions being a novelty shape.
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이 특허에 인용된 특허 (4)
Campolo Steve (Valley Stream NY), Apparatus for isolating a cord section from tension.
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