1. Field of the Invention
The present invention relates to manual marine winches. More specifically, the present invention relates to a compound handle providing a safety loading system for a manual marine swivel winch for barges.
2. Background Information
Winches have been used in many applications. Manual swivel and stationary marine winches have been widely used in barges, tow boats and the like. The use of barges, sometimes called lighters, to transport cargo is common in marine transportation. Barges may be used singly, or in groups generally referred to as barge trains or tows. A barge tow can have up to 40 barges therein (five wide and eight deep). The barges in a barge train carrying goods in harbors and along rivers are, usually, lashed tightly together through winches (located on opposite ends of or in the four corners of each barge) and associated cable lines, two or three (even up to five) abreast, with several successive rows of such barges in one barge train. Typically a manual swivel winch is pivotally attached to a D-ring on a barge boat deck and spools a towing cable on a rotating drum, whereas a stationary winch is welded or otherwise secured to the deck.
These marine winches must be quick and easy to use. Barge tows must be first assembled, and must disassembled for movement through locks, then reassembled on the opposite side of the locks. The marine winches are often exposed to an abrasive environment and can become immersed in coal, ore or other material being transported. Consequently, these winches also must have a sturdy construction. Examples of manual winches are sold by W. W. Patterson Company and Nashville Bridge Company. The most common type of manual winch includes a pivoting pawl, or dog, engaging a ratchet gear of a ratchet for the winch. The pawl prevents the unwinding of the reel during engagement of the pawl. W. W. Paterson manufactures a sturdy manual marine winch having an open bottom configuration that saves material and provides easy winch clean-up in U.S. Pat. No. 5,947,450 which is incorporated herein by reference in its entirety. Additionally, W. W. Patterson manufactures a sturdy manual marine winch that incorporates a safety load release mechanism improving the safety to the operator in U.S. Pat. No. 6,572,083 which is also incorporated herein by reference.
The '083 patent discloses one type of safe load release mechanism for the safety of the operators. There still is a need to address the loading operation of the winches. The loading at high tensions can provide some of the same type of dangers to the operator as the load releasing operation, particularly where additional leverage is used for loading. Additional leverage is often provided through a length (e.g. four feet) of pipe, also affectionately known as a “cheater bar”, is placed over the loading lever to effectively increase the length of the loading lever. The mechanical advantage this provides is obvious. The increased in length creates additional concerns since even a small rotation of the drum, less than one gear tooth, will correspond to a noticeable movement in the end of the cheater bar. Further at high tension this can make such bar movement very rapid, such as might occur if the operator slips, or otherwise loses his grip.
It is an object of the present invention to overcome the aforementioned drawbacks of the prior art. It is a further object of the present invention to provide a manual marine swivel winch which provides simple efficient safe loading operation. It is a further object to provide a system that can be easily retrofitted onto existing marine winches.
The above stated objects are achieved with a swivel manual marine winch according to the present invention. A manual swivel winch includes safe loading mechanism. The winch has a pair of spaced side plates, a rotating drum supported between the side plates, a drum gear coaxially mounted with the rotating drum, a pinion drive gear engaging and rotating the drum gear, and a lever supported by at least one side plate for rotating the pinion drive gear. The lever includes a selectable lever gearing assembly. The lever is selected to be operated in an initial tensioning mode for rotating the pinion drive gear, and in a final tensioning mode wherein the lever utilizes the lever gearing assembly to provide a mechanical advantage over the initial tensioning mode.
These and other advantages of the present invention will be clarified in the brief description of the preferred embodiments taken together with the attached figures wherein like reference numerals represent like elements throughout.
The winch 10 includes a pair of spaced side plates 12 defining an open bottom. A rotating spool assembly is supported between the side plates 12. The spool assembly includes a drum, one or two protecting flanges on one side of the drum and at least one drum gear on the side of the drum. A drum loading mechanism is supported by the side plates 12 and includes a drive pinion engaging the drum gear. The drive pinion gear of the loading mechanism engages with the drum gear to rotate the drum for spooling of a cable thereon as is known in the art.
A hand brake 14 may be attached to a side plate 12 for controlling the payout of the drum as known in the art. A swivel link is attached to the pair of side plates 12 at a rear of the winch 10 and pivotally attaches the winch 10 to a D-ring of a barge deck, a boat deck or the like. A rear foot 16 is formed integral with each side plate 12 near a rear of the winch 10. A front foot 18 is formed integral with each side plate 12 at a forward portion of the winch 10, and a cutout 20 extends from each front foot 18 to each rear foot 16 to assist in cleanout of the winch 10. The side plates 12 are maintained spaced from each other by appropriate spacers through associated bolts 22.
The winch 10 additionally includes a tension or load holding mechanism in the form of at least one drum gear engaging pawl. When the pawl is biased, generally by gravity, into engagement with the drum gear it will prevent the drum gear from paying out, or unwinding, the cable. The pawl will allow further tensioning of the drum gear in a ratchet type fashion, as is known in the art.
The key feature of the present invention is the structure of the drum loading mechanism of the winch 10, the other features of the winch 10 being generally known to those of ordinary skill in the art of manual swivel (or stationary) marine winches for barges and the like. The loading mechanism is mounted on the shaft 24 upon which the drive pinion is mounted. A hand wheel 26 is attached to the shaft 24, with the general construction and operation of the hand wheel 26 also being known in the art. Essentially the hand wheel 26 is used for slack take up and low tension payout. The hand wheel 26 is only partially shown in the figures to provide a view of the remaining elements of the loading mechanism.
The drum loading mechanism includes a spur gear 28 mounted on the shaft 24. The spur gear 28 may be rotated through a compound handle 30, or lever 30, according to the present invention. The lever 30 is mounted to the shaft 24 through a pivoting handle hub 32. A handle base 34 is mounted for rotation about a shaft 36 on the handle hub 32. An elongated handle 38 extends from the handle base 34.
As shown in
After the slack take up the operator will use the lever 30 for further tensioning of the winch 10 and
As the load on the winch 10 becomes too great for the operator to further tension the winch 10 using the initial tensioning procedure, the compound handle 30 provides a final, or fine, tensioning procedure that offers a mechanical advantage to the operator.
Various modifications of the present invention may be made without departing from the spirit and scope thereof. For example, the winch may include a safe load release together with the safe loading features of the present invention. The current system can easily retrofitted onto existing marine winches. The described embodiment is not intended to be restrictive of the present invention. The scope of the present invention is intended to be defined by the appended claims and equivalents thereto.
This application claims the benefit of provisional application Ser. No. 60/526,228 entitled “Manual Marine Winch with Compound Handle” filed Dec. 2, 2003.
Number | Date | Country | |
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60526228 | Dec 2003 | US |