The present invention relates generally to the field of anchoring devices for marine vessels, and, in particular, to an articulated anchor system adapted to hold a small boat in a stationary position in shallow water.
Along many coastal areas of the United States, and in certain lakes and estuaries, fishermen fish from small boats in shallow water. In these types of fishing areas, there are extensive shallow, sandy-bottomed or grassy-bottomed regions, generally referred to as flats, that are populated by various sport fish. Fishermen who fish these flats often use one or another of several methods of holding a boat at a selected location. These methods include the use of conventional anchors, the use of a pole shoved into the bottom and secured to the boat, or other methods.
As described by Oliverio et al. in U.S. Pat. No. 6,041,730, the use of anchors such as a Danforth or a similar type of anchor by flats fishermen has several shortcomings. First, such types of anchor do not firmly fix the position of the boat so that the boat can may drift at the end of the anchor line. Second, when setting and retrieving an anchor, the anchor's flukes may rip sea grass out of the bottom and cause ecological damage. Finally, when the anchor is hauled in, mud and sea grass from the anchor can foul the inside of the boat.
Other means of securing a boat in shallow water include a pole-like structure to which the both may be secured. In addition to Oliverio et al., other references dealing with similar means include U.S. Pat. No. 458,473 wherein MacDonald describes a jointed structure hinged to a submersible coastal artillery battery and comprising a pole inserted into the bottom of a shallow body of water. Other elongate pole-like anchoring mechanisms not hingedly secured to a vessel are taught by Mestas et al. in U.S. Pat. No. 4,960,064 and by Stokes in U.S. Pat. No. 4,702,047. Mechanisms other than anchors that are hingedly attached to a vessel hull are taught, inter alia, by Alexander, in U.S. Pat. No. 2,816,521 and by Sherrill in U.S. Pat. No. 3,046,928, both of whom show stem stabilizers, and by Doerffer, in U.S. Pat. No. 4,237,808, who shows a braking device.
The structure of Oliverio et al. requires an upper arm and a lower arm which together form a parallelogram, with one side of the parallelogram anchored to the transom of the boat, and the opposite side of the parallelogram retaining a rigidly fixed anchor pole. With this structure, the total range of movement of the mechanism is by necessity less than 180°. This can limit the depth at which the anchor may be effectively used. The structure shown and described in Oliverio et al. is rigidly dictated in the mounting of the parallelogram to the transom of the boat. In order to adapt the mounting of the structure to a boat with any slant other than that predetermined by the structure requires shims and adapter plates to arrange the anchor pole to the proper deployed position. The Oliverio et al. structure also has numerous pinch points that can damage equipment, injure people and become fouled with weeds or debris in the water.
Thus, there remains a need for a shallow water anchor that provide a range of movement of 180°, or even more, to maximize the effective depth of the anchor. The anchor should preferably be light-weight to make the anchor easier to use and make the most of the prime mover of the mechanism. The mounting structure of the apparatus should also easily adapt the mount to any reasonable slant of the transom relative to the surface of the water. The anchor device should also have a minimal number of pinch points exposed to users, equipment and matter in the water. The present invention is directed to filling these needs and others in the art.
The shallow water anchor shown and described below solves these and other drawbacks of known anchor systems by providing a single arm arrangement with a fixed end of the arm adapted to be mounted to the transom of a boat and the distal end of the arm having a rod coupler for retaining a rod section adapted to be buried into the bottom of a lake, estuary, or other shallow body of water. The fixed end of the arm includes a first sheave and the distal end of the arm includes a second sheave, with a cable under tension between the first and second sheaves. A hydraulic operating mechanism drives a sliding block clamped to the cable. When a hydraulic pressure is applied to one side or the other of a hydraulic piston with a cylinder to drive the operating mechanism, the sliding block moves back and forth thereby moving the arm up and down in a rotary motion about a single shaft forming a single axis rotary mount on the fixed end of the arm. In the down position, the rod section end is adapted to be embedded into the bottom. In the stowed position, the arm is adapted to be oriented straight up in a vertical position.
By providing a single arm for retaining the rod, the entire mechanism can be made much lighter. This also means that the hydraulic means can be much more efficiently used. Further, by using the cable and sheave arrangement, a much shorter hydraulic cylinder stroke is required to move the arm, which results in a faster deployment of the rod (3 seconds vs. 6 seconds for known anchor systems). The single axis rotary mounting system for the fixed end of the arm provides for an adjustment, so that the system can be easily mounted to various angles of transom for boats without any shims or adapting brackets. The single axis rotary mounting system also allows a single arm to rotate 180° to maximize the anchoring depth. A shear pin is provided for the outer sheave to reduce the likelihood of damages to the rod if the boat should be underway with the rod deployed. A spring-loaded flexible subsystem for the arm may be used, to help keep the boat in place when the boat is subjected to wave action.
These and other features and advantages of this invention will be readily apparent to those skilled in the art.
So that the manner in which the above recited features, advantages and objects of the present invention are attained and can be understood in detail, more particular description of the invention, briefly summarized above, may be had by reference to embodiments thereof which are illustrated in the appended drawings.
Opposite the fixed end 20 of the arm 10 is a distal end 22. A bottom engaging member such as a rod section 18 is rotatably connected to the distal end 22 of the arm 10 in a manner to maintain a vertical orientation for the rod section 18 in all positions of the arm 10, as described below in greater detail. The rod section 18 is driven into the bottom 24 of the lake or other body of water, thereby anchoring the boat 16 at a location dictated by the operator.
Referring now to the distal end 22 of the arm 10, a second drive member comprising a single axis rotary connection in the form of a cable sheave 38 is rotatably mounted to the tubular member 36. The second sheave 38 is of the same diameter as the sheave 34. A cable 42 is slung around the sheaves 34 and 38. Pairs of idling sheaves 40, one pair at the fixed end 20 and one pair at the distal end 22, direct the cable 42 into the inside of tubular member 36. Sleeves 44, one sleeve at each end of the arm 10, are swaged onto the cable 42. Each sleeve 44 is nestled inside a notch 46 of its respective sheave 34 or 38 to prevent the cable 42 from slipping relative to the sheave. Tension to the cable 42 is preferably applied by a mechanism as described below in reference to
A sliding block 50 is positioned inside the tubular member 36. The sliding block 50 is preferably attached to the cable 42 by means of a clamp 52 or other appropriate means. Note, however, that the sliding block 50 defines a through-passage 59 through which the cable return passes without obstruction. In this way, movement of the sliding block in one direction pulls the cable at the clamp 52 in that direction. As thus described, the block 50 comprises a link connection member that is affixed to the drive link provided by the cable 42. The tubular member 36 includes an opening 54 to provide access to the clamp 52 for assembly and repair of the device.
A linear drive mechanism, comprising a hydraulic cylinder mechanism 55 is mounted with its cylinder end 56 coupled to the tubular member 36. A piston rod 72 (see
To move the arm to the various positions shown in
A bracket 70 in the rod section 18 is attached to the sheave 38 to hold the rod section in a fixed relation to the sheave 38. Since the sheaves 34 and 38 are connected by the cable 42, and the sheave 34 cannot rotate, the sheave 38 also will not rotate, as the arm 10 moves up or down by rotating around the shaft 30. Thus, since the sheave 38 does not rotate, the bracket 70 also does not rotate and the rod section 18 will always maintain its vertical orientation.
As previously described, a cable is preferably used as the connecting means between sheaves 34 and 38 for economic reasons; however a much more expensive arrangement consisting of chain and sprockets is also possible, expensive because of the environment in which this anchor will be used, all materials used must non-corroding, like aluminum, stainless steel, bronze and plastic. Thus, as used herein, the term “continuous loop of material” refers to a cable, a chain, or other means of engaging the sheaves 34 and 38. The cable 42 shown in
The anchor system thus far described and as shown in
In
This feature of the present invention may also be applied to known structures, as shown in
A common mishap occurs when anglers leave an anchor deployed with a rod embedded into the bottom 24 and set their boat into motion. With enough force, the rod stuck in the bottom may break, or the bracket mounting the rod may be damaged. The embodiment of
In this embodiment, extensions 150 are attached to the sheave 38, holding a bracket 152 in between by a bolt 154 and a shear pin 156. As the boat and anchor start moving and the rod section 18 is still embedded in the ground (as shown in
The principles, preferred embodiment, and mode of operation of the present invention have been described in the foregoing specification. This invention is not to be construed as limited to the particular forms disclosed, since these are regarded as illustrative rather than restrictive. Moreover, variations and changes may be made by those skilled in the art without departing from the spirit of the invention.
This application claims the benefit of U.S. Provisional Application Ser. No. 61/068,087 filed Mar. 5, 2008.
Number | Name | Date | Kind |
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16704 | Cumming | Feb 1857 | A |
3731943 | Wilkes | May 1973 | A |
4073078 | Leitz | Feb 1978 | A |
4860507 | Garza-Tamez | Aug 1989 | A |
5460246 | Burch et al. | Oct 1995 | A |
6041730 | Oliverio et al. | Mar 2000 | A |
20100012013 | Santiago | Jan 2010 | A1 |
20100024712 | Beaty | Feb 2010 | A1 |
Number | Date | Country | |
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20090223429 A1 | Sep 2009 | US |
Number | Date | Country | |
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61068087 | Mar 2008 | US |