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1. Field of the Invention
The present invention relates to the inland barge industry and, more specifically, to the method of assembling and un-assembling multi barge tows.
2. General Background of the Invention
The two mechanisms most commonly used to tie up barges to each other to form a multi-barge tow are manual cable winches and river ratchets combined with chain and cable. Winches are becoming more popular as they are fixed to the barge and do not require the deck hands to bend over to operate.
Barge operators are concerned that the loose gear associated with the river ratchets can be easily lost. There is also concern that the deck hands may injure themselves because they must reach down to the deck level to operate the river ratchet.
Prior art winches have three drawbacks. They employ a difficult and dangerous knock-out method of releasing the winch cable tension. The slow operation of the release is a time-consuming function using separate devices to operate the brake and the release mechanism. The dog assembly is difficult to replace as it is mounted on shafts located between the winch side plates. The dog release of a typical prior art winch must be knocked out using a hammer or a long pole designed to be used as a ratchet extension. Damage to the winch or personal injury can result when the deck hand misses his mark with a large hammer or his extension pole.
There is a need for a winch that can be released easily, quickly and with unassisted human power. The holdback and brake parts can wear out quickly. The holdback gear replacement is difficult as it involves separating the winch side plates. There is a need for these high-wear parts to be easily replaced while in the field.
The following patent documents are incorporated herein by reference: U.S. Pat. Nos. 2,746,718; 2,973,941; 3,141,353; 4,106,754; 6,431,525; 6,572,083; 7,128,307; 7,159,852.
The primary object of the invention is to provide a mechanism for a winch that can be used to easily release the cable tension by pulling a handle that at the same time applies the brake to the cable drum.
The handle, brake and holdback parts should be easily replaceable in the field, not requiring removal of the side plates.
The typical winch (for example a low profile 40 ton manual winch) that is used by barge operators has a horizontal cable drum mounted on a main shaft that is at right angles to the cable pulling direction. One of the drum flanges is the main drum gear. The cable force is reduced by gearing through the drum gear and one or two reduction gears whose shafts parallel the main drum shaft. The drum shaft and gear shaft are held in place by the winch side plates. A holdback gear and brake drum are mounted on the drive shaft end outside of the winch side plate. A holdback dog with one or more teeth engages the holdback gear to hold back against the cable pulling force. The holdback dog and gear are designed to hold only in one direction so that when the drum cable is taken in the dog lifts out of the gear and drops into the next gear tooth.
The holdback dog of the present invention has an extended arm that can be pried out using the mechanical advantage of a handle mounted on a separate handle shaft close to the end of the holdback dog. The handle has two fixed pins whereby one pin acts to pry out the holdback dog and the other pin is set to tension the brake band around the brake drum. By positioning the pins in relation to each other and to the handle shaft, the handle movement can pry out and release the holdback dog just as the brake reaches the maximum holding force. The entire mechanism of the holdback dog, holdback gear, release handle and brake drum is mounted on the outside of the winch side plate so that the parts can be easily replaced without opening the winch side plates.
The parts of a preferred embodiment of the present invention preferably include: a winch holdback dog that has one or more teeth, a holdback pivot shaft and an extended holdback dog arm; an optional bushing to facilitate the rotation of the dog on the holdback shaft; a holdback gear mounted on the drive shaft extension; a holdback release and brake handle rotating on a handle shaft; a handle shaft; and two pins attached to the pry out handle and used for the pry out of the holdback dog and to tension the brake strap around the brake drum; a brake assembly of a drum with the drum attached to the drive shaft end. The brake strap has a tensioner used to adjust the strap tension at the fixed tensioner tab that is welded to the side plate.
The handle has a pin set in such a manner so that it engages the holdback dog extension when the handle is rotated. A second pin on the handle is attached to the brake strap so that as the handle rotates, the brake strap tightens around the brake drum at the same time as the holdback dog is released. Using the mechanical leverage of the extended holdback dog arm and the handle, the fixed pins have sufficient mechanical advantage to manually pry out the holdback dog from the holdback gear while at the same time applying the winch brake.
To give an example of scale, the holdback dog extension arm can be about six inches long.
For a further understanding of the nature, objects, and advantages of the present invention, reference should be had to the following detailed description, read in conjunction with the following drawings, wherein like reference numerals denote like elements and wherein:
The drum 15 can be driven with a drive shaft 17. The drive shaft 17 is also supported by the base 12 and can be supported by side plates 13, 14. The drive shaft 17 carries reduction gear 19. Rotation of the drive shaft 17 rotates the reduction gear 19 which is engaged with drum gear 18 that is affixed to drum 15 as shown in
In order to prevent reverse rotation of drive shaft 17, holdback gear 27 is provided on drive shaft 17. The holdback gear 27 is prevented from rotating in a reverse or unwinding direction by tooth 30 of holdback dog 28. Tooth 30 is sized and shaped to engage teeth 31 (see
The holdback dog 28 is mounted to frame 11 with a pivotal connection 29. The holdback gear 27 provides a plurality of teeth 31 that interlock with tooth 30 of holdback dog 28 as an operator winds cable 20 upon drum 15. Brake drum 32 is mounted next to holdback gear 27 as shown in
A lever 35 having a handle 36 is pivotally attached to frame 11 at pivotal connection 37. The lever 35 is provided with a plurality of pins 38, 39, 40. The pin 39 is a stop pin that limits pivotal rotation of lever 35 about its pivotal connection 37 as it is moved between the position shown in
Pin 40 is a pin that is attached to one end portion of brake band 33 as shown in FIGS. 1 and 5-7. The pin 38 is a pin that lifts holdback dog 28 upwardly in the direction of arrow 42 in
In the position of
The following is a list of parts and materials suitable for use in the present invention.
All measurements disclosed herein are at standard temperature and pressure, at sea level on Earth, unless indicated otherwise.
The foregoing embodiments are presented by way of example only; the scope of the present invention is to be limited only by the following claims.
Priority of U.S. Provisional Patent Application Ser. No. 61/057,438, filed 30 May 2008, incorporated herein by reference, is hereby claimed.
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Number | Date | Country | |
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20100001243 A1 | Jan 2010 | US |
Number | Date | Country | |
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61057438 | May 2008 | US |