Ships – Anchor – Sea anchor
Reexamination Certificate
2002-02-21
2004-02-03
Morano, S. Joseph (Department: 3617)
Ships
Anchor
Sea anchor
Reexamination Certificate
active
06684808
ABSTRACT:
TECHNICAL FIELD AND BACKGROUND OF THE INVENTION
This invention relates to a device, referred to in this application as a “sea bag”, for providing stability and directional control to small boats, including rescue and auxiliary craft. The sea bag disclosed is a flexible container capable of entrapping a significant amount of water ballast that can be deployed external to the boat so that it its forces act primarily on one quadrant of the boat, and that can be fully retrieved from the water when not in use. In bad weather, it is often desirable to enhance a boat's stability to maximize its resistance to a knockdown, capsize or pitchpole. In poor conditions, when large waves lift rudders from the water or ventilate them with entrapped air, boats also can benefit from enhanced directional control. In addition, limiting drift can save a boat from being swept ashore when conditions are bad enough to prevent it from making way offshore. Even in benign weather, many mariners can benefit from deploying devices that control the direction and speed of a vessel's drift. Such devices can keep a vessel aligned to waves in ways that enhance comfort aboard, help prevent seasickness, and/or benefit fishing or other routine activities as well as serving improved safety.
Traditionally, such devices fall into three categories: drogues, sea anchors, and water ballast. Generally, drogues and sea anchors are formed of parachute-like or conical fabric structures that entrap water to build high pressure within the vessels, and they are shaped to promote fluid laminar flow, which develops lower pressure, along the outside. High pressure within and low pressure without creates hydrodynamic drag. Some drogues, however, are solid structures, which are significantly more difficult to store if they are large enough to create sufficient drag. All drogues and sea anchors to date are attached to the boat using a single but substantial length of line (a tether or rode) and are attached to the boat at one point, though a secondary rode sometimes is employed to adjust the drag device's angle to the boat. Sea anchors are usually trailed from the boat's bow and are designed to maximize drag to “anchor” the boat to the water. Drogues are usually trailed from the boat's stern and are designed to provide some drag, though substantially less than a sea anchor, while enhancing directional control. As used in this application, the term “stern” refers to the aftermost quadrant of the vessel from which the device is deployed, “bow” refers to the quadrant of the vessel opposite the end from which the device is deployed, and “port” and “starboard” refer, respectively, to the left and right quadrants of the vessel while facing forward relative to the vessel's direction of travel with the device deployed.
Problems with both drogues and sea anchors include fouling, which usually occurs because passing waves tumble them through their bridles or twist them with their rodes, rendering them ineffective. In addition, because very high loads are generated by a sea anchor or drogue, and these loads are usually carried to the vessel on one line, lines and fittings often fail or become frozen, resulting in additional losses of effectiveness or complete losses of gear. Any failure with the rode or any single device causes the loss or ineffectiveness of the entire system. Too often, such problems have rendered these devices useless just when they are needed most. In addition, a drogue or sea anchor is usually difficult to retrieve, especially in bad weather, because the crew of the vessel must pull against large forces until all of rode is retrieved, making adjustments to drag or retrieval for unfouling virtually impossible while underway or in bad conditions.
Water ballasts are designed primarily to enhance the stability of a boat to resist heeling, knockdowns, capsizes and pitchpoles. Generally water ballast has been carried either inside the vessel in tanks or bladders, or outside in pockets. Internal systems have been employed primarily by large sailing craft to enhance sail-carrying stability. External systems have been employed primarily by inflatable life rafts on which, by industry standards, the ballast pockets are distributed symmetrically around the rafts' perimeters. The weight of contained water lends the life raft stability by increasing resistance to lifting by passing waves. Conventional external water ballast acts directly upon the craft from very close proximity and its containers to date have been attached permanently to the vessel's bottom. The problem with conventional external water ballast is that the pockets can at best be collapsed, but they are not retrievable from the water. In many conditions when maximum propulsion is desired, the pockets add considerable resistance, even if collapsed. In addition, the distribution of pockets around the entire perimeter places as much water-ballast on the “downside” or leeward side of the raft as on the upwind side facing the waves. These leeward pockets add both ballast weight and drag from the pockets on the wrong side, reducing stability by helping to “trip” the raft into a capsize. Also, with drag under the water evenly distributed, such ballast pockets give the vessel no directional stability. In numerous testimonials, life raft survivors complain about how their rafts spun in bad conditions, aggravating seasickness, detracting from efficient watch keeping, and often presenting their rafts' boarding openings to breaking waves, which further endangered the crews directly by fostering hypothermia and physical displacement of crew and gear, and endangering them indirectly by adding to the risk of loss of survival equipment.
By contrast, sea bag according to this invention is applicable to any waterborne vessel, including life rafts, lifeboats, sailing craft, motor craft, paddling craft, and rowing craft of all types. The sea bag's features include a system with a fabric container that combines the hydrodynamic drag capabilities of conventional drogues and/or sea anchors with the water-ballast capabilities of conventional ballast pockets and/or bags by also entrapping a substantial amount of water. Because the invention is attached directly to the craft and is fully deployed in very close proximity using wide-spread attachment points rather than being trailed on a long rode-like conventional drogues and sea anchors, it cannot be tumbled through its bridle or twisted with its rode. The sea bag further eliminates deleterious effects from carrying ballast and drag on the downwind side and applies its force to one portion of the vessel, aiding directional control and preventing the vessel from spinning.
The sea bag also is fully retrievable from the water, unlike conventional water ballast systems, allowing users to enhance drift speeds in benign conditions or whenever desired, and eliminating unnecessary stress on the boat and wear on the invention. Optional tie or hardware attachments allow users to totally remove the device from the vessel not only to eliminate the drag and ballast when desired but also to allow users to replace the unit with one of a different size to ideally control drag and stability, or to eliminate wear and environmental degradation of the device, or to allow users to deploy the device from different parts of the boat—the bow or stern or side—to position the boat at any angle to the waves or to suit other conditions and thereby enhance the user's particular stability and/or directional-control needs at any given time. In some cases and to suit some materials of manufacture, weights might be required to be installed along the bottom edge of the mouth of the container in order to enhance the quick opening of the mouth upon deployment and/or to help retain the opening of the mouth; optionally, a hoop of rigid material may be inserted in a sleeve around the mouth to the same effect.
SUMMARY OF THE INVENTION
Therefore, it is an object of the invention to provide a device that combines the beneficial chara
Adams Evans P.A.
Morano S. Joseph
Vasudeva Ajay
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