1. Field of the Invention
A multi-directional signal assembly deployable in a body of water includes a signal display unit comprising a buoyant construction. The signal display unit comprises one or more signal indicia affixed thereto, wherein the signal indicia are visible from essentially any point along a circle circumscribed along an axis through the assembly.
2. Description of the Related Art
The U.S. dive flag is an internationally recognized symbol indicating that one or more diver, snorkeler, or swimmer is in a body of water in the vicinity of the dive flag. This is a critical indication to alert boaters to the presence of one or more person in the water, such that they can adjust their course and avoid endangering the divers, snorkelers, etc. The most common means for the presentation of the U.S. dive flag is literally a flat, two-dimensional flag that is affixed to one end of a short flagpole, which is then affixed to an upper end of a small float or small buoy. While this may be adequate in calm waters on a clear day, with little wind, where the dive flag remains upright, unfurled, and reasonably visible to approaching boats, such days are few and far between.
As such, a number of devices have been developed in attempts to improve the visibility and alert boaters to the presence of a dive flag, and more importantly, the divers or other person in the water proximate thereto. One such device incorporates three separate two-dimensional dive flags each originating and extending outwardly from a common central flag pole or mast. A U.S. dive flag symbol is displayed across two panels of adjacent ones of the three dive flags. That is to say, one half of the U.S. dive flag is displayed on each side of each of the three two-dimensional dive flags, with adjacent sides forming the complete symbol. While the incorporation of three flags would seem to improve visibility, the fact remains that if a boater is on a course aligned with an edge of one of the three two-dimensional flags, the dive flag symbols may not be readily visible to the boater.
Another device comprises an inflatable body member having three or four sides, each having a dive flag symbol on each side. While this eliminates the issues associated with collapsible two dimensional flags, as well as lack of visibility along certain bearings of an oncoming watercraft, the body is structured to float directly on the surface of the water, such that in even modest wind and waves, the marker may be only intermittently visible to boaters in an oncoming vessel.
As such, it would be beneficial to provide a multi-directional signal assembly which is buoyant, so as to float on the surface of the water, and which includes one or more elongated display surface having an upper portion and a lower portion, and signal indicia affixed to the upper portion of the display surface to increase visibility to oncoming boaters by virtue of being maintained above the surface of the water. A counterweight mechanism structured to maintain the display surface(s) in a generally upright orientation while deployed would provide a further benefit. It would also be advantageous to combine an illumination system with such a multi-directional signal display, once again, to improve visibly of the assembly to oncoming boaters regardless of their course or bearing relative to the assembly while it is deployed in a body of water.
The present disclosure is directed to a new and novel multi-directional signal assembly deployable on a surface of a body of water. More importantly, the present disclosure provides a multi-directional signal assembly which is essentially visible from any point along a circle circumscribed around a vertical axis through the assembly.
A multi-directional signal assembly in accordance with the present disclosure comprises a signal display unit having a buoyant construction. The signal display unit comprises at least one display surface, however, in at least one embodiment, the signal display unit comprises a plurality of display surfaces. In one further embodiment, each of the plurality of display surfaces comprises a substantially rectangular configuration having an upper portion and a lower portion, and yet one further embodiment, each of the display surfaces comprises a rigid material of construction.
A signal display unit in accordance with one embodiment of the present disclosure includes an upper cap member and a lower cap member mounted at oppositely disposed ends of the plurality of display surfaces. In one embodiment, the lower cap member includes a dry storage container, and in at least one other embodiment, a power supply/control containment is provided in the lower cap member. In at least one embodiment, a power supply/control containment is mounted in an upper cap member.
In addition, the multi-directional signal assembly in accordance with the present disclosure comprises at least one signal indicia, and in at least one embodiment, a plurality of signal indicia, wherein at least one of the plurality of signal indicia is affixed onto an upper portion of a different one of each of the plurality of display surfaces. The signal indicia may comprise any of a plurality of images in order to covey a desired message including, in at least one embodiment, the signal indicia comprises a United States dive flag to indicate that one or more diver or snorkeler is in the water in the vicinity of the multi-directional signal assembly.
A counterweight mechanism is interconnected to the signal display unit in at least one embodiment in order to maintain the signal display unit in an operative orientation relative to the surface of the body of water. The operative orientation is at least partially defined by each of the plurality of display surfaces disposed in a substantially upright orientation relative to the surface of the body of water. The operative orientation may be further defined by maintaining the upper portion of each of the plurality of display surfaces substantially above the surface of the body of water, such that the display indicia affixed thereon is readily visible.
In accordance with at least one further embodiment of the present disclosure, an illumination system is mounted to the signal display unit. The illumination system comprises at least one illumination member to increase the visibility of the signal display unit while it is deployed in a body of water. In yet one further embodiment, an illumination system comprises a plurality of illumination members to increase the visibility of the signal display unit while deployed in an operative orientation on the surface of the body of water.
A controller is provided in at least one embodiment and is programmed to independently actuate one or more illumination member(s) upon detection of at least one environmental parameter.
These and other objects, features and advantages of the present invention will become clearer when the drawings as well as the detailed description are taken into consideration.
For a fuller understanding of the nature of the present invention, reference should be had to the following detailed description taken in connection with the accompanying drawings in which:
Like reference numerals refer to like parts throughout the several views of the drawings.
As previously stated, the present disclosure is directed to a multi-directional signal assembly, generally as shown as at 10 throughout the figures. In at least one embodiment, a multi-directional signal assembly 10 in accordance with the present disclosure comprises a signal display unit 20 having a plurality of display surfaces 21, wherein at least one of said plurality of display surfaces 21 is visible from any point along a circle circumscribed around a vertical axis through the signal display unit 20 and planar with the plurality of display surfaces 21. Stated otherwise, at least one of the plurality of display surfaces 21 of the present multi-directional signal assembly 10, and more importantly, a signal indicia 22 displayed thereon, is visible from any direction which is generally perpendicular to the display surfaces 21.
Signal indicia 22, in accordance with at least one embodiment of the present disclosure, comprises a Unites States dive flag, which is a widely known and readily recognizable signal indicating that a diver or snorkeler is in the water in the vicinity of the dive flag. The U.S. dive flag is crucial to mark the location of divers or snorkelers in the water, so that boats can steer clear of the area for obvious safety reasons. The U.S. dive flag consists of a bright red or orange square having a broad white band running diagonally therethrough from the upper left corner to the lower right corner, such as is shown best in the illustrative embodiments of
In one embodiment, the signal indicia 22 comprises a U.S. Coast Guard (“USCG”) approved reflective tape. As one example, an orange 3M™ Marine Grade USCG High Intensity Reflective Adhesive Tape, Product No. 3M USCGFP-34, manufactured by 3M Company, St. Paul, Minn., is utilized to form the square portion of the U.S. dive flag on an upper portion 21′ of a corresponding display surface 21. In a further embodiment, a white 3M™ Marine Grade USCG High Intensity Reflective Adhesive Tape, Product No. 3M USCGFP-30, once again, manufactured by 3M Company, St. Paul, Minn., is utilized to form the diagonal band through the orange square of the U.S. dive flag. In at least one embodiment, signal indicia 22 comprises a U.S. dive flag having a substantially square configuration and being approximately twelve inches by twelve inches.
In yet one further embodiment in accordance with the present disclosure, white 3M™ SOLAS Marine Grade USCG High Intensity Reflective Adhesive Tape, Product No. 3M USCGFP-30, is affixed to the lower portion 21″ of each display surface 21, to provide further overall visibility to the signal display unit 20 while deployed in a body of water. Alternatively, a white marine paint may be applied to the lower portion 21″ of each display surface 21 and/or to each of upper cap member 23 and lower cap member 25, each described in further detail below.
As shown in the illustrative embodiments of
Similarly, and with continued reference to the illustrative embodiment of
In at least one embodiment, both upper cap member 23 and lower cap member 25 are constructed of an acrylonitrile-butadiene-styrene (“ABS”) thermoplastic material and, in one further embodiment, injection molding is utilized to form upper cap member 23 and lower cap member 25 from ABS. In addition, each of the plurality of display surfaces 21, in one embodiment, comprises a urethane foam construction. In yet one further embodiment, the plurality of display surfaces 21 comprise a unitary construction, i.e., the plurality of display surfaces 21 form a singular square rectangular configuration. In one embodiment, a synthetic elastomeric adhesive is utilized to affix upper cap member 23 and lower cap member 25 to the plurality of display surfaces 21. As one example, SCOTCH-WELD™ High performance Industrial Plastic Adhesive, Product Number 4693H, manufactured by 3M Company, St. Paul, Minn., is utilized to affix cap members 23, 25 to each of the plurality of display surfaces 21.
Thus, the combination of a watertight interconnection between the upper cap member 23 and lower cap member 25 with each of the plurality of display surfaces 21 provides a buoyant construction to signal display unit 20, such that, it will float in a body of water. Further, this buoyant construction and the configuration of the plurality of display surfaces 21 is such that a substantial portion of the signal display unit 20 will remain above the surface of the body of water in which it is deployed.
In one alternate embodiment, a signal display unit 20 comprises a polystyrene foam core or shell having a plurality of display surfaces 21 securely affixed to each side of the signal display unit 20. As before, the display panels 21, in one embodiment, comprise a urethane foam construction. In at least one embodiment, the signal display unit 20 comprises a square rectangular polystyrene foam core or shell approximately eleven inches by eleven inches by thirty inches in length, and has one inch thick urethane foam display panels 21 affixed along each side thereof. In this configuration, the display unit 20 comprises a buoyancy of about one hundred and twenty pounds force. Alternatively, a polystyrene core is injected into an assembled arrangement of urethane foam display panels 21. As result of the inherent buoyancy provided by the construction of such an embodiment of a signal display unit 20, the need for a lower cap member 25 being affixed to display panels 21 via a watertight seal or adhesive is eliminated. Of course, a lower cap member 25 may still be incorporated into such embodiment, for example, to seal the polystyrene foam core and/or to provide a housing for a dry storage container 27, as described in further detail below. Similarly, an upper cap member 23 affixed to display panels 21 is not necessary in such an embodiment, but may be included to provide a housing for one or more sensors 44 or illumination members 45, also disclosed in further detail below.
Looking again to the illustrative embodiment of
As indicated above, in at least one embodiment the illumination system 40 further comprises a controller 43 which is programmed to actuate at least one illumination member 45 of the illumination system 40. In accordance with the illustrative embodiments presented in several of the figures, the illumination system 40 in accordance with the present disclosure comprises a plurality of illumination members 45. In one such embodiment, the controller 43 is programmed to independently actuate each of the plurality of illumination members 45. In yet one further embodiment, the controller 43 is programmed to actuate one or more of the plurality of illumination members 45 upon detection of at least one environmental parameter. For example, in one embodiment, a flashing light emitting diode 46 is mounted to an upper cap member 23 of the signal display unit 20, and the controller 43 is programmed to actuate the flashing light emitting diode 46 upon detection of a predetermined level of fog proximate the multi-directional signal assembly 10, via one or more sensors 44, such as shown in
One or more sensors 44 may also be employed to detect pressure or leakage of water into the signal display unit 20, such as may result in failure to properly display the plurality of signal indicia 22. In yet one further embodiment of a multi-directional signal assembly 10 in accordance with the present disclosure, an electronic shark repellent mechanism 49 may be mounted to the signal display unit 20, such as is illustrated in
One or more sensors 44 may be combined with a digital display to indicate one or more environmental parameters including, but not limited to, water temperature, air temperature, wave height, battery capacity, diver depth, depth temperature, etc. A digital display may be mounted directly to the signal display unit 20 and/or attached at one end of diver/snorkeler tether to provide an immediate indication of the parameter(s) to the user.
As previously indicated, and with reference to the illustrative embodiments of
A deployment member lock mechanism 39 is provided which, in at least one embodiment, includes one or more apertures 39′ through the weight deployment member 32, corresponding to an aperture 39′ through deployment lock mechanism 39. In one further embodiment, a pin 39″ is provided to pass through the apertures 39′ of the deployment lock mechanism 39, thereby maintaining weight deployment member 32 in either a deployed orientation as shown, for example, in
Looking further to
In at least one embodiment, the power supply/control containment 28 is formed in an upper cap member 23, and in one further embodiment, a watertight closure 28′ is also affixed in a sealing engagement with the opening of power supply/control containment 28. In such an embodiment, the lower cap member 25 may comprise a plurality of dry containers 27, as shown in the illustrative embodiment of
Since many modifications, variations and changes in detail can be made to the described preferred embodiment of the invention, it is intended that all matters in the foregoing description and shown in the accompanying drawings be interpreted as illustrative and not in a limiting sense. Thus, the scope of the invention should be determined by the appended claims and their legal equivalents.
Now that the invention has been described,
Number | Name | Date | Kind |
---|---|---|---|
D207931 | Huret | Jun 1967 | S |
D210708 | Sorenson | Apr 1968 | S |
D226594 | Teasel | Mar 1973 | S |
4123813 | Adams | Nov 1978 | A |
4283169 | Tuomala | Aug 1981 | A |
4312600 | Schaaf et al. | Jan 1982 | A |
4462145 | Schulze | Jul 1984 | A |
4573933 | Cameron | Mar 1986 | A |
4781636 | Schurr | Nov 1988 | A |
4796553 | Cogswell et al. | Jan 1989 | A |
4932910 | Hayday | Jun 1990 | A |
5066256 | Ward, Sr. | Nov 1991 | A |
D328442 | Sloan | Aug 1992 | S |
5445103 | Bleth et al. | Aug 1995 | A |
5609122 | Jimmie | Mar 1997 | A |
5816187 | Jimmie | Oct 1998 | A |
6162106 | Shieh | Dec 2000 | A |
6200026 | Carmichael | Mar 2001 | B1 |
6227766 | Cook | May 2001 | B1 |
D463306 | Fritz | Sep 2002 | S |
6592416 | Hochschild, III | Jul 2003 | B1 |
6652339 | Carmichael | Nov 2003 | B1 |
6860773 | Carmichael | Mar 2005 | B2 |
7083484 | Carmichael | Aug 2006 | B2 |
7303453 | Bourke | Dec 2007 | B1 |
7337568 | Johnson | Mar 2008 | B2 |
7824238 | Winter | Nov 2010 | B1 |
20070105659 | Kennedy, III et al. | May 2007 | A1 |
20070283877 | Durkin | Dec 2007 | A1 |
20080070457 | Yonover et al. | Mar 2008 | A1 |
20100227517 | Bailey | Sep 2010 | A1 |
20110065342 | Hudson | Mar 2011 | A1 |
20110136399 | Mandrik | Jun 2011 | A1 |
Number | Date | Country | |
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20140199900 A1 | Jul 2014 | US |
Number | Date | Country | |
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61753011 | Jan 2013 | US |