Abstract
A stackable cable hanger for supporting bundles of communications cables with the center radius of the bundle spread over the opening of the cable hanger. The cable hanger includes a cable tray with an upward extending inner arm and an upward extending outer arm. A cable tray extends between the arms. An arcuate surface on the cable tray provides a gentle bend radius to any cable bundles laid on the tray. Arcuate transitions on lateral ends of the cable tray provide a curved transition between the tray and the arms. Mounting holes are on the top and bottom of the inner arm enable attachment of the hanger to a support surface and vertical stacking of multiple hangers to create multiple tiers of cable bundles. A tie down loop on the inner arm and on the outer arm enables closure of the hanger opening with a cable tie or similar closure device.
Claims
1. A cable support comprising: a cable tray including an opening; an inner arm extending upward from the cable tray; an outer arm extending upward from the cable tray; a tie down loop on said inner arm and on said outer arm; triangular wings on said inner and outer arms, said triangular wings having a respective lower end; and the lower ends of the triangular wings forming a base of a triangle to provide a wide surface on the cable tray.
2. The cable support of claim 1 comprising a lateral extent and a longitudinal extent across said cable tray.
3. The cable support of claim 2 comprising a convex arcuate surface across the longitudinal extent of said cable tray.
4. The cable support of claim 1 comprising mounting holes in said inner arm.
5. The cable support of claim 1 comprising one or more ridges spaced laterally across said cable tray.
6. The cable support of claim 1 comprising a latching member extending between the tie down loop.
7. The cable support of claim 6 comprising said latching member is a cable tie.
8. The cable support of claim 1 comprising a tab and an inner buttress on said inner arm, said tab and said inner buttress supporting the cable tray.
9. The cable support of claim 8 comprising an outer buttress on said outer arm.
10. The cable support of claim 9 comprising said inner buttress and said outer buttress reside in a same plane.
11. The cable support of claim 1 comprising a means of stacking two or more of said cable supports.
12. The cable support of claim 11 wherein said means of stacking two or more of said cable supports includes: a mounting hole in said inner arm; and a fastener for securing a first of said cable supports to a second of said cable supports.
13. The cable support of claim 1 comprising said cable support is molded in one-piece of plastic.
Description
BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWING(S)
(1) Reference is made herein to the accompanying drawings, which are not necessarily drawn to scale, and wherein:
(2) FIG. 1 is a front elevation view of a cable support in accordance with embodiments of the invention.
(3) FIG. 2 is a side view of the cable support.
(4) FIG. 3 is a rear elevation view of the cable support.
(5) FIG. 4 is a sectional view of the cable support taken along line 4-4 of FIG. 1.
(6) FIG. 5 is a front isometric view of the cable support.
(7) FIG. 6 is a rear isometric view of the cable support.
(8) FIG. 7 is a top view of the cable support.
(9) FIG. 8 is a sectional view of the cable support taken along line 7-7 of FIG. 7.
(10) FIG. 9 is a front isometric view of the cable support including a latching device.
(11) FIG. 10 is an isometric view depicting two cable supports ganged together vertically to support multiple bundles of cables.
DETAILED DESCRIPTION OF THE INVENTION
(12) With reference to FIG. 5, the present invention is a cable support 20 for communications cable according to the invention. The cable support 20 includes an inner arm 22 having a front surface 24 and one or more mounting holes 26 in the inner arm. A cable tray 28 with an opening extends from the inner arm 22. A first arcuate transition surface 30 is included on the cable tray 28 between the cable tray 28 and front surface 24 of the inner arm 22 and a second arcuate transition surface 32 is included on the cable tray between the cable tray and an outer arm 34. A tie down loop 36 extends from the front surface 24 of the inner arm 22. Outer arm 34 includes a tie down loop 38 and an aperture 37 adjacent the distal end 39 of the outer arm. To operate the invention, the cable support 20 is typically mounted to an overhead structure using a beam clamp, strut, or similar device by screws (not shown) through the mounting holes 26. The arcuate transitions 30 and 32 ensure that any cables laid on the cable tray will not be forced into a tight or narrow corner and kinked or bent by the weight of the bundle of cables laid therein.
(13) Referring to FIG. 1, cable support 20 is typically mounted to the wall in the orientation shown, with the cable support including a top portion 40 and a bottom portion 42. Most preferably mounting holes 26 are included on both the top 40 and bottom portions 42 of the inner arm 22. The top portion 40 of the inner arm 22 preferably includes edges 44 that are substantially parallel with the edges 46 on the bottom portion 42. Outer arm 34 is preferably wider at the bottom than the top. Cable tray 28 includes a convex arcuate surface 48 as indicated by the dashed line in FIG. 1. The lateral arcuate transitions 30 and 32 provide a smoothly curved surface laterally across the cable tray 28 but are also curved longitudinally across the cable tray at the same curvature as the arcuate surface 48 of the cable tray 28. Both arms 22 and 34 include substantially equal triangular wings 47, with the lower end 49 of the cable tray 28 being a base of the triangle and wider than the upper end. Such a profile provides a wide surface for supporting cables therein.
(14) With reference to FIG. 2, one or more ridges 50 are spaced laterally across the top surface of the cable tray. The term lateral as used herein refers to the direction across which the cables will be laid and the term longitudinal as used herein refers to the direction along which the cables will extend lengthwise. The cable support includes an opening 51 between the arms 22 and 34. A tab 52 and an inner buttress 54 support the cable tray 28 with an outer buttress 56 supporting and stiffening the outer arm 34. The ridges 50 on the top surface of the cable tray 28 provide a means for separating individual cables to the greatest extent possible and to inhibit their shifting within the support. One or more recesses 60, which serve as material savers, may be provided in the back surface 62 of the inner arm 22. As shown in FIG. 1, the inner buttress 54 on the inner arm 22 and the outer buttress 56 on the outer arm 34 reside in the same plane 57, the plane along the vertical sectional line.
(15) Referring to FIG. 4, the tie down loop 36 includes an aperture 64 that is offset from the inner arm 22 and outer arm 34 includes an aperture 37 therein. After the cable support 20 is secured to a wall and cables (not shown) are laid within the support onto the cable tray 28, a cable tie or similar fastening device (not shown) may be inserted across the across the cable tray and through the apertures 64 and 37 and around the tie down loops 36 and 38 in the inner arm 22 and outer arm 34 respectively in order to secure the cables within the tray.
(16) With reference to FIGS. 7 and 8, the cable tray 28 includes two open sides 68 and the ridges 50 on the arcuate surface 48 of the cable tray 28. The arcuate surface 48 provides a curved surface over which the cabling is laid to insure an entirely smooth transition across the support.
(17) Referring to FIG. 9, after loading cables (no shown) onto the cable tray 28, a latching member 70, such as a cable tie, may be passed through tie down loops 36 and 38 to secure the cables therein.
(18) With reference FIG. 10, multiple cable supports may be stacked vertically to support multiple bundles of cables. A topmost cable support 20 is secured to a support 72 by a fastener 74 through the mounting hole 26 in the inner arm 22 and one or more additional cable supports are secured by fasteners 74 passing through the inner arm 22 of the lower cable support and into the aperture in the outer arm 34. The mounting holes 26 on the inner arm 22 and a fastener 74 form a means for stacking and securing 76 one or more cable supports together.
(19) The present invention describes an improved plastic communications cable support which provides a curved surface over which the cabling is laid to insure an entirely smooth transition across the support as well as incorporating an integral pliable member for securing and locking the support after cable installation. Additionally, an arrangement is provided which may permit separation of individual cables and to inhibit their shifting within the support.
(20) The cable support 20 may be constructed of metal or plastic. Most preferably, the cable support 20 is molded in one piece of nylon, polycarbonate, or polyvinyl chloride (PVC).
(21) While the invention has been described in terms of various specific embodiments, those skilled in the art will recognize that the invention can be practiced with modification within the spirit and scope of the claims.
