Cable Armoring System

Abstract

A novel cable construction provided an armored covering over a cable containing high-strength synthetic filaments. The synthetic cable is provided with a strong and tough termination where it attaches to the prior art dragline or power shovel digging equipment. An external armoring is then provided from the termination for a specified distance up the cable. The armoring ceases prior to the point where the cable passes over a pulley. At that point the cable just carries a conventional encapsulating jacket. A collar is preferably provided to seal the end of the armoring portion to the jacket.

Claims

1. An armored lifting cable system for use on a lifting machine having a tension-carrying drum, a boom, a lifting block on said boom, and a bucket suspended from said boom, comprising; a. an attachment fixture linked to said bucket; b. a synthetic filament core having a first end and a second end, with said first end being attached to said attachment fixture and with said core passing over said lifting block and around said tension-carrying drum; c. a jacket surrounding said core; d. a cable armoring layer having a first end and a second end, said cable armoring layer surrounding said jacket in a region proximate said bucket; e. said first end of said cable armoring layer being connected to said attachment fixture by a first interlock; f. a collar attached to said jacket; and g. said second end of said cable armoring layer being connected to said collar by a second interlock.

2. An armored lifting cable system as recited in claim 1, wherein: a. said bucket has a maximum raised position; and b. a length of said cable armoring layer is selected so that said collar remains below said lifting block when said bucket is raised to said maximum lifting position.

3. An armored lifting cable system as recited in claim 1 further comprising a gap between said jacket and said cable armoring layer, wherein said gap is sufficient to allow said armored lifting cable system to bend without chafing existing between said jacket and said cable armoring layer.

Description

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

[0024] FIG. 1 is a perspective view showing a prior art dragline bucket and its associated lifting and dumping rigging.

[0025] FIG. 2 is a perspective view, showing the assembly of FIG. 1 from a different vantage point.

[0026] FIG. 3 is a perspective view, showing a prior art power shovel.

[0027] FIG. 4 is a detailed perspective view, showing an exemplary attachment between a cable made according to the present invention and a prior art yoke.

[0028] FIG. 5 is a sectional elevation view, showing an armored synthetic cable according to the present invention.

[0029] FIG. 6 is a sectional plan view of the cable of FIG. 5.

[0030] FIG. 7 is a perspective view, showing an alternate method of attaching an inventive cable to a prior art yoke.

REFERENCE NUMERALS IN THE DRAWINGS

[0031] 10 dragline bucket assembly [0032] 12 hoist socket [0033] 14 lift rope [0034] 16 upper hoist chain [0035] 18 spreader bar [0036] 20 lower hoist chain [0037] 22 lift trunnion [0038] 24 bucket [0039] 26 dump rope [0040] 28 dump block [0041] 30 drag chain [0042] 32 arch [0043] 34 drag socket [0044] 36 dragline [0045] 38 top rail [0046] 40 drag chain hitch [0047] 42 upper hoist assembly [0048] 44 lower hoist assembly [0049] 118 power shovel [0050] 120 boom [0051] 122 dipper arm [0052] 124 bucket [0053] 126 floor [0054] 128 yoke [0055] 130 trunnion [0056] 132 dipper rope [0057] 134 boom rope [0058] 136 loop [0059] 138 collar [0060] 140 passage [0061] 142 termination [0062] 144 attachment fixture [0063] 146 cable armoring [0064] 148 collar [0065] 150 jacketed cable [0066] 152 cavity [0067] 154 potted region [0068] 156 interlock [0069] 158 interlock [0070] 159 O-ring [0071] 160 stranded core [0072] 162 jacket [0073] 164 gap [0074] 165 strap [0075] 168 lifting block

DETAILED DESCRIPTION OF THE INVENTION

[0076] FIG. 4 shows one approach to using a synthetic cable for the rigging on a dragline or a power shovel. FIG. 4 shows the example of a power shovel. Jacketed cables 150 each include a synthetic filament core surrounded by an encapsulating jacket. The jacket organizes the cable and provides protection from external contaminants and from sunlight. However, it is not nearly durable enough to withstand the harsh environment near the bucket on its own. Cable armoring 146 is added in near the bucket. This armoring extends up the cable until it reaches a portion of the cable which must pass over lifting block 168. Each cable passes over the lifting block as the bucket is raised and lowered. When the bucket is raised to its maximum height, the armoring should stop just short of the lifting block.

[0077] In this example each cable is terminated into a heavy steel piece (attachment fixture 144). This creates a suitable termination 142 on the end of each cable. Each attachment fixture 144 is made of steel and is quite durable. These are connected to yoke 128 using steel pins. Cable armoring 146 covers and protects the jacketed cables 150 from the point each cable emerges from its respective termination up to a collar 148.

[0078] Collar 148 provides a protective seal between the jacketed cable and its cable armoring. It prevents the ingress of dust, fine debris, liquids, and other contaminants. The collar may be of a split configuration that is clamped in place using transverse bolts.

[0079] FIG. 5 shows a sectional elevation view through one cable assembly. In this version attachment fixture 144 includes a cavity 152. A length of cable filaments are potted into this cavity to form potted region 154. This creates a mechanical interlock between the end of jacketed cable 150 and attachment fixture 144.

[0080] A single potted region is shown. In reality, multiple potted connections may be made between individual filament groupings and attachment fixture 144. This type of design is described in detail in my co-pending U.S. application Ser. No. 14/693,811, which is hereby incorporated by reference.

[0081] Cable armoring 146 is added over the outside perimeter of jacketed cable 150. The cable armoring is preferably a very tough and cut-resistant material. A good example is fiber-reinforced rubber. Interlock 156 is provided between the lower end of the cable armoring and the attachment fixture. Interlock 158 is also provided between the upper end of the cable armoring and the lower end of collar 148.

[0082] Collar 148 seals around the jacketed cable. O-ring 159 is preferably provided to make a positive seal between the collar and jacketed cable 150. This prevents the ingress of dust, water, and other contaminants. Although no gap is shown between the exterior of the jacket and the interior of the cable armoring a significant gap may in fact be present in many applications. In those instances it may be necessary to connect the armoring to the attachment fixture using a split clamping ring attached by transverse bolts. A second split clamping ring may be used at the top of the cable armoring as well.

[0083] FIG. 6 shows a cross-section through a jacketed cable with an armoring layer added. Stranded cores 160 comprises the high-strength synthetic filaments (some conventional steel wires may also be included). Jacket 162 fits tightly around this core. Cable armoring 146 is a thick and tough layer. As stated previously, it may be made of a natural or synthetic rubber reinforced by another material such as steel wires or fiberglass. Gap 146 is provided between the interior of the cable armoring and the exterior of the jacket in this example. This gap allows the cable to bend and flex without chafing against the interior of the armor layer. The gap may be filled by another material such as a woven cloth layer.

[0084] FIG. 7 shows an alternate embodiment for attaching the inventive cable to yoke 128 of a power shovel. In this instance four separate synthetic cables are used. Each pair of synthetic cables is terminated to a steel strap 165. The steel strap passes through passage 140 to connect to the yoke and thereby connect to the bucket assembly.

[0085] In the context of this disclosure the term lifting machine shall be used to encompass boom cranes, power shovels, and similar machinery where a cable is used to raise and lower a bucket.

[0086] Although the preceding description contains significant detail, it should not be construed as limiting the scope of the invention but rather as providing illustrations of the preferred embodiments of the invention. Those skilled in the art will be able to devise many other embodiments that carry out the present invention. Thus, the language used in the claims shall define the invention rather than the specific embodiments provided.