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US20080019777A1 - Buoyancy compensator belt - Google Patents

Buoyancy compensator belt Download PDF

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Publication number
US20080019777A1
US20080019777A1 US11488553 US48855306A US2008019777A1 US 20080019777 A1 US20080019777 A1 US 20080019777A1 US 11488553 US11488553 US 11488553 US 48855306 A US48855306 A US 48855306A US 2008019777 A1 US2008019777 A1 US 2008019777A1
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US
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Patent type
Prior art keywords
belt
buoyancy
diver
bladder
inflation
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Abandoned
Application number
US11488553
Inventor
Chad J. Carney
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Huish Outdoors LLC
Original Assignee
Zeagle Systems Inc
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Filing date
Publication date

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B63SHIPS OR OTHER WATERBORNE VESSELS; RELATED EQUIPMENT
    • B63CLAUNCHING, HAULING-OUT, OR DRY-DOCKING OF VESSELS; LIFE-SAVING IN WATER; EQUIPMENT FOR DWELLING OR WORKING UNDER WATER; MEANS FOR SALVAGING OR SEARCHING FOR UNDERWATER OBJECTS
    • B63C11/00Equipment for dwelling or working underwater; Means for searching for underwater objects
    • B63C11/02Divers' equipment
    • B63C11/18Air supply
    • B63C11/22Air supply carried by diver
    • B63C11/2245With provisions for connection to a buoyancy compensator

Abstract

A buoyancy compensator belt comprising a belt to which is mounted a tubular inflatable bladder positioned within a flexible housing and a small gas cylinder. In one embodiment, one or more weights are mounted onto the belt. A combination power inflation/bleed valve is operatively connected to the inflatable bladder and is fluidly connected to a first stage regulator of the gas cylinder by a hose. A dump valve is operatively connected to the bladder to prevent over-inflation and allow dumping of the air from the bladder. The buoyancy compensator belt is particularly suitable for use by free divers to allow the diver to rapidly descend to the desired depth due to the negative buoyancy produced by the weight of the belt, to allow the diver to partially inflate the inflator bladder to achieve neutral buoyancy at the desired depth, and then, when the diver wishes to ascend, to more fully inflate the inflator bladder to achieve positive buoyancy and rapidly ascend to the surface.

Description

    BACKGROUND OF THE INVENTION
  • [0001]
    1. Field of the Invention
  • [0002]
    This invention relates generally to buoyancy compensators. More particularly, this invention relates to buoyancy compensators having a buoyancy bladder and an inflation valve for inflating the bladder with air to achieve a positive buoyancy.
  • [0003]
    2. Description of the Background Art
  • [0004]
    Early scuba diving equipment typically comprised a scuba tank and a two-stage regulator allowing the diver to breathe air from the tank upon demand. To overcome positive buoyancy, particularly when a diver may don a wet suit for cold water protection, weight belts were developed that typically comprised a belt that would be fitted around the diver's waist. One or more weights, typically in the form of a rectangular blocks of lead with slots formed therein, would be threaded onto the belt to provide the desired weight sufficient to achieve negative buoyancy. The use of weight belts of this nature assured that the diver would remain negatively buoyant during diving. To remain a desired depth, negatively-buoyant divers would have to swim upwardly to some extent. Nevertheless, a negatively-buoyancy was commonly preferred over having positive buoyancy because for most divers, having to constantly swim up to overcome negative buoyancy was easier than having to constantly swim down to overcome positive buoyancy.
  • [0005]
    In response to a need for overcoming negative buoyancy, inflatable buoyancy vests or “buoyancy compensators” or “BCs” comprising an inflatable bladder, were developed. Upon inflation of the bladder of the BC, the diver could adjust the resulting positive buoyancy to equal the negative buoyancy created by the diver's weight belt, thereby achieving neutral buoyancy.
  • [0006]
    The bladders of early models of BCs were designed to be manually inflated via an inflation tube into which the diver would exhale, whereas later models were connected to the scuba tank by an inflation valve and hose such that the diver could selectively inflate the bladder of the BC with air from the scuba tank, thereby obviating the need for manual inflation. In conjunction with the inflation valve, most BCs included a bleed valve to bleed off air within the bladder to more accurately “fine tune” neutral buoyancy. BCs also commonly included an over-inflation “dump” valve which automatically opened at a certain internal pressure within the bladder to prevent the bladder from bursting in the event of over-inflation.
  • [0007]
    Presently there exist many forms and configurations for weight belts and for buoyancy compensator vests. Representative weight belts are reflected in the following U.S. Patents and Patent Applications, the disclosures of which are hereby incorporated by reference herein:
  • [0000]
    2002/00567955A1 Active Control Releasable Ballast System for
    Use With Dive Equipment
    4,305,685 Quick Release Divers Belt
    4,808,033 Flexible Pressure Compensating Divers
    Weight Belt
    5,205,672 Diver's Weight Assembly
    5,337,935 Belt Structure, Particularly for Accessories
    5,746,542 Drop Weight Dive Belt
    5,970,526 Adjustable Multi-Part Belt
    6,132,142 Drop Weight Dive Belt
  • [0008]
    Contemporary buoyancy compensator vests, some integrated with weights, are illustrated in the following U.S. Patents and Patent Applications, the disclosures of which are hereby incorporated by reference herein:
  • [0000]
    2005/0276664A1 Retainer Device for Free Loose Ends of
    Tightening or Fastening Straps or Belts, or
    the Like, Particularly in Articles for Wearing,
    and Buoyancy Compensator Vest Having Such
    a Device
    2005/0235393A1 Diving Vest
    2001/0029951A1 Supplied Air Snorkeling System
    2002/0013107A1 Buoyancy Compensator Weight System
    2002/0009335A1 Vertically Eccentric, Horizontally Symmetric,
    Mobile and Fixed Buoyant in Combination
    With Mobile and Fixed Ballast as a Type A
    Personal Flotation Device
    3,898,705 Convertible Inflation Control For Underwater
    Diving Vests
    4,000,534 Buoyancy Compensator
    4,523,914 Conformable Buoyancy Compensator
    4,694,772 Diver's Buoyancy Compensator Belt
    4,752,263 Custom Underwater Diving System
    4,752,263 Custom Underwater Diving System
    4,778,307 Buoyancy Compensator With An Adjustable
    Strap
    4,810,134 Single Walled Diver's Buoyancy Compensator
    4,913,589 Diver's Buoyancy Compensator And Backpack
    With Independent Suspension
    5,046,894 Buoyancy Compensator With Interchangeable
    Backpack and Cummerbund
    5,363,790 Buoyancy Compensator for Divers
    5,516,234 Pressure Compensating Buoyancy Jacket
  • [0009]
    BCs are universally used throughout the scuba diving industry. However, BCs have not been used by “free divers” who choose not to utilize a scuba tank for breathing. Specifically, the sport of free diving typically comprises a diver who takes a deep breath of air on the surface and then swims downwardly into the water to descend to the desired depth and then, after spending the amount of time that the diver's deep breath would allow, to then swim upwardly to return to the surface for another breath of air. The eloquence of skin diving has been the diver's choice to not use a scuba tank, a BC, or any other cumbersome apparatus.
  • [0010]
    As represented in FIG. 1, typical free diver is naturally buoyant (represented by the +signs in FIG. 1). During a free dive, the diver's buoyancy decreases relative to the depth in which the diver descends. Ultimately, the diver descends to a depth at which the diver becomes neutrally buoyant (represented by the =signs in FIG. 1). Upon further descent, the diver becomes increasingly negatively buoyant (represented by the −signs in FIG. 1). Upon reaching the desired depth (e.g., just above the ocean floor), the diver is appreciably negative buoyant (represented by increased number of the −signs in FIG. 1), thereby requiring considerable effort on the part of the diver to swim partially upwardly just to remain at the desired depth. Then, upon ascent, the diver must exert considerable effort to swim upwardly to overcome the negative buoyancy to the neutral-buoyancy depth; whereupon the diver becomes increasingly positive buoyant until the diver reaches the surface (represented by the increased width of the profile and the increased number of the +signs in FIG. 1).
  • [0011]
    It should be appreciated that a free diver wearing a wet suit would likely not ever achieve negative buoyancy during descent due to the substantially buoyancy force of the wet suit. Accordingly, most free divers who are diving with wet suits (and some who are too buoyant even without a wet suit) wear conventional weight belts to counteract the buoyancy of the wet suit (or their inherent buoyancy). As a general rule, the weight of the weight belt is often selected so that the point of neutral buoyancy upon descent is approximately one-third to one-half of the desired depth at which the free diver will descend and swim around before swimming upwardly to return to the surface.
  • [0012]
    Consequently, as shown in FIG. 1, a diver who is for example free diving to the ocean floor at seventy feet, would likely select the weight of his weight belt relative to his inherent buoyancy and the buoyancy of a wet suit (if one is being worn), such that the diver is appreciably buoyant at the surface of the water and progressively reduces positive buoyancy (represented by the decreased width of the profile and decreased number of the +signs in FIG. 1) until the diver descends to about thirty feet to the point of neutral buoyancy. With the weight so selected, upon further descent, the diver achieves a progressively increasing negative buoyancy to the desired seventy foot depth (represented by the increased width of the profile and increased number of the −signs in FIG. 1). At the seventy foot depth, the diver is appreciably negatively buoyant but is able to maintain a constant depth by slighting swimming upwardly.
  • [0013]
    Before exhausting all of the air in his lungs, the diver must then swim quite vigorously upwardly to overcome the negative buoyancy from the seventy feet depth to the point of neutral buoyancy (thirty feet) whereupon further ascents gradually increases the diver's positive buoyancy to return to the surface.
  • [0014]
    While the dive profile depicted in FIG. 1 is often employed by free divers, there is the unfortunate tendency for divers to “black out” during their ascents because of the vigorous exertion that is required to begin and maintain the ascent against the force of the negative buoyancy. Worst, upon blacking-out during ascent when the diver is negatively buoyant (or by becoming negatively buoyant at the surface upon exhausting all his air), the diver simply sinks to the ocean depths, thereby precluding any rescue.
  • [0015]
    Therefore, there presently exists a need for a streamline, unobtrusive buoyancy compensator that can be worn by a free diver without obstructing the diver's movements to assist the diver during ascents to overcome negative buoyancy and thereby eliminate the exertion that would otherwise be required of the diver to initiate and maintain the diver's ascent to the surface.
  • [0016]
    Therefore, it is an object of this invention to provide an improvement which overcomes the aforementioned inadequacies of the prior art devices and provides an improvement which is a significant contribution to the advancement of the buoyancy compensator art.
  • [0017]
    Another object of this invention is to provide a buoyancy compensator belt, comprising in combination: a belt configured to be worn around a person's waist; a generally tubular inflation bladder mounted relative to the belt to be bent around the person's waist along with the belt; optionally at least one weight mounted relative to the belt; a gas cylinder mounted relative to the belt; a power inflator sealingly connected to the inflation bladder and operatively connected to the gas cylinder to selectively allow gas from the gas cylinder to inflate the inflation bladder; and a dump valve for exhausting the gas from the inflation bladder when the pressure in the inflation bladder reaches a predetermined amount.
  • [0018]
    Another object of this invention is to provide a method for free diving using a weighted buoyancy compensator belt, comprising the steps of: positioning a weighted buoyancy compensator belt around the waist of a diver, the weighted buoyancy compensator belt comprising a belt, a generally tubular inflation bladder mounted relative to the belt and bent around the diver's waist along with the belt, at least one weight mounted relative to the belt, a gas cylinder mounted relative to the belt, a power inflator sealingly connected to the inflation bladder and operatively connected to the gas cylinder to selectively allow the diver to inflate the inflation bladder from the gas cylinder into the inflation bladder to inflate the inflation bladder and create positive buoyancy, and an exhaust valve sealingly connected to the inflation bladder for exhausting the gas from the inflation bladder to decrease buoyancy; operating the exhaust valve to exhaust gas from the inflation bladder to decrease buoyancy thereby causing the diver to descent; and operating the inflation valve to flow gas into the inflation bladder to increase buoyancy thereby causing the diver to ascend.
  • [0019]
    The foregoing has outlined some of the pertinent objects of the invention. These objects should be construed to be merely illustrative of some of the more prominent features and applications of the intended invention. Many other beneficial results can be attained by applying the disclosed invention in a different manner or modifying the invention within the scope of the disclosure. Accordingly, other objects and a fuller understanding of the invention may be had by referring to the summary of the invention and the detailed description of the preferred embodiment in addition to the scope of the invention defined by the claims taken in conjunction with the accompanying drawings.
  • SUMMARY OF THE INVENTION
  • [0020]
    For the purpose of summarizing this invention, this invention comprises a buoyancy compensator (BC) belt, preferably weighted, for use by snorkelers, scuba divers and free divers. When weighted, the BC of the invention is particularly suitable for use for free diving to allow the diver to rapidly descend to the desired depth due to the negative buoyancy produced by the weight of the belt, secondly, to allow the diver to partially inflate the BC to achieve neutral buoyancy at the desired depth, and then, when the diver wishes to ascend, to more fully inflate the BC to achieve positive buoyancy and rapidly ascend to the surface without exerting any effort to do so.
  • [0021]
    The buoyancy compensator belt of the invention comprises a belt to which is mounted an inflatable bladder positioned within a flexible housing and a small gas cylinder. One or more weights may optionally be mounted onto the belt. A combination power inflation/bleed valve is operatively connected to the inflatable bladder and is fluidly connected to a first stage regulator of the gas cylinder by a hose. A dump valve is operatively connected to the bladder to prevent over-inflation and allow dumping of the air from the bladder. Notably, the gas cylinder is small and compact and is intended to be used to inflate the bladder. The gas cylinder is not intended to be used by the diver for breathing.
  • [0022]
    FIG. 2 illustrates the dive profile of a free diver using the weighted buoyancy compensator of the invention. Referring to FIG. 2, during use, the diver may upon entering the water inflate the bladder to create significant buoyancy to relaxingly float on the surface of the water (represented by the =signs in FIG. 2). When the diver desires to descend, the air from the bladder may be “dumped” via the dump valve (or slowly bleed off via the bleed valve) whereupon the diver begins to achieve negative buoyancy (represented by the −signs in FIG. 2). As the diver descends, greater negative buoyancy is attained due to the increasing depth of the water (represented by the increased dive profile and the increased number of the −signs in FIG. 2).
  • [0023]
    As the diver approaches the desired depth, the diver may power inflate the bladder via the power inflator to slow his descent such that upon reaching the desired depth, the diver is substantially neutrally buoyant (represented by the =signs in FIG. 2). The diver may fine tune his neutral buoyancy via the bleed valve. While neutrally buoyant, the diver may swim around as desired (observing the reef, spear fishing, etc.) at a constant desired depth without having to constantly swim up to counteract the affects of negative buoyancy as would otherwise occur without the positive buoyancy created by the air in the bladder.
  • [0024]
    When the diver wishes to surface, the diver would normally kick up slightly while at least partially inflates the bladder via the power inflator to thereby begin to achieve positive buoyancy (represented by the +signs in FIG. 2). As the diver ascends, the volume of air in the bladder expands due to the decreasing water pressure, whereupon additional positive buoyancy is achieved to more rapidly cause the diver to ascend (represented by the increased dive profile and the increased number of +signs in FIG. 2). Once the bladder fully expands due to the increasing volume of air, the dump valve opens to dump (i.e., exhaust) air from the bladder and thereby prevent it from bursting. The diver is thus rapidly ascending to the surface (and continues to increase his rate of ascent until reaching the surface of the water due to the decreasing water pressure). Upon reaching the surface, the bladder is fully inflated such that the diver may relax at the surface until he is ready for his next free dive.
  • [0025]
    It is noted that while the diver is rapidly ascending, there is no concern that the diver's lungs will suffer an embolism since he simply descended from surface with a deep breath of air and, unlike conventional scuba diving, never breathed compressed gas from the gas cylinder.
  • [0026]
    It should be appreciated that the weighted buoyancy compensator belt of the invention allows a free diver to (1) produce significant negative buoyancy to rapidly descend to the desired depth, (2) produce a neutral buoyancy to maintain a constant depth and then (3) produce a significant positive buoyancy to rapidly ascend to the surface of the water and relaxingly float on the surface for a period of rest until the next free dive.
  • [0027]
    The buoyancy compensator belt of the invention is suitable for use as a BC for conventional scuba diving and for snorkelers, as well as for free divers as described above, because it comfortably fits around the person's waist to achieve a streamlined assembly that does not interfere or otherwise create a hindrance. Specifically, the BC belt of the invention provides an upright stable floatation for the person on the surface and eliminates the face forward or backward floatation that would often occur if the person was using a vest-type buoyancy compensators with rear- or chest-mounted internal bladders. The belt of the BC belt of the invention is elastic to allow it to be tightly fitted around the person's waist to expand or contract during diving. Accordingly, use of the BC belt of the invention eliminates “riding-up” of the BC as often occurs with vest-type BCs.
  • [0028]
    The use of the weighted buoyancy compensator belt of the invention by a free diver allows the diver to safely descend to the desired depth and return to the surface with minimal effort, thereby reducing the possibility of the diver blacking-out upon ascent as sometimes occurs without the benefit of the weighted buoyancy compensator belt of the invention. Moreover, if the free diver were to black out upon ascent, the positive buoyancy of the weighted buoyancy compensator belt of the invention may provide sufficient buoyancy (assuming the diver did not black out on the bottom and was not over-weighted) to nevertheless cause the diver to ascend to and float onto the surface of the water to be rescued (instead of sinking to the bottom as would otherwise occur without the benefit of the weighted buoyancy compensator belt of the invention).
  • [0029]
    The foregoing has outlined rather broadly the more pertinent and important features of the present invention in order that the detailed description of the invention that follows may be better understood so that the present contribution to the art can be more fully appreciated. Additional features of the invention will be described hereinafter which form the subject of the claims of the invention. It should be appreciated by those skilled in the art that the conception and the specific embodiment disclosed may be readily utilized as a basis for modifying or designing other structures for carrying out the same purposes of the present invention. It should also be realized by those skilled in the art that such equivalent constructions do not depart from the spirit and scope of the invention as set forth in the appended claims.
  • BRIEF DESCRIPTION OF THE DRAWINGS
  • [0030]
    For a fuller understanding of the nature and objects of the invention, reference should be had to the following detailed description taken in connection with the accompanying drawings in which:
  • [0031]
    FIG. 1 is a dive profile of a conventional prior art free diver;
  • [0032]
    FIG. 2 is a dive profile of a free diver employing the benefit of the weighted buoyancy compensator belt of the invention;
  • [0033]
    FIG. 3 is a front perspective view of the weighted buoyancy compensator belt of the invention shown being fitted around the waist of a mannequin;
  • [0034]
    FIG. 4 is a rear perspective view of the weighted buoyancy compensator belt of the invention shown being fitted around the waist of a mannequin;
  • [0035]
    FIG. 5 is a left side perspective view of the weighted buoyancy compensator belt of the invention shown being fitted around the waist of a mannequin;
  • [0036]
    FIG. 6 is a perspective inside view of the weighted buoyancy compensator belt of the invention showing the inside of the belt that fits against the diver's waist and the manner in which the desired number of weights and the gas cylinder mounting plate are threaded onto belt and the manner in which the belt is threaded through belt loops sewn to the inside surface of the bladder housing such that the bladder housing is supported by the belt about the waist of the diver; and
  • [0037]
    FIG. 7 is a cross-sectional view of FIG. 6 along lines 7-7 showing the cross-sectional configuration of the bladder housing and its internal inflation bladder.
  • [0038]
    Similar reference characters refer to similar parts throughout the several views of the drawings.
  • DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT
  • [0039]
    Referring to the Figures, the buoyancy compensator belt 10 of the invention comprises a thick, wide belt 12, preferably of pliable plastic that is elastic, having a belt buckle 14 at one end which adjustably engages one of a plurality of belt holes 16 at its other end to fit the waist of the free diver (shown in FIGS. 1-3 for illustrative purposes as the mannequin 18). The preferred elasticity of the belt 12 is such that when tightly fitted around the diver's waist, it will expand and contract along the conventional expansion and contraction of the diver's waist during to the dive to thereby remain fitted around the diver's waist without riding-up the diver's chest during head-up ascent or riding-down onto the diver's legs during head-down decent. It is noted that other forms of belts (e.g., fabric or other materials) and belt buckles may optionally be employed without departing from the spirit and scope of this invention.
  • [0040]
    The buoyancy compensator belt 10 of the invention comprises a generally tubular bladder housing 20 in which is positioned an inflation bladder 22 (see FIG. 7). The bladder housing 20 preferably comprises a non-elastic fabric material 20A on its inner surface adjacent the diver's 18 waist and an elastic fabric material 20B on its outer surface. The elastic material 20B is flexible to expand when the inflation bladder 22 is filled with air and then, when the air is exhausted, the elastic material 20B provides a contraction force to urge air contained in the inflation bladder 22 to be exhausted whereupon the bladder housing 20 returns to its streamlined configuration once the bladder 22 is deflated. The length of the bladder housing 20 and its internal bladder 22 preferably approximates the length of the belt 12 to be fitted around a normal-sized free diver's 18 waist (e.g., about 34 inches).
  • [0041]
    The bladder housing 20 includes a plurality of belt loops 24 sewn to its inside surface through which the belt 12 may be threaded as described below in more detail. The length of the belt loops 24 approximates the width of the belt 12 such that when the belt 12 is threaded therein the tendency for the bladder housing to rotate on the belt 12 in minimized.
  • [0042]
    The diameter of the tubular bladder housing 20 and its internal bladder 22 is such that when the bladder 22 is fully inflated, the housing 20 achieves a substantially round or oval uniform cross-sectional tubular configuration (e.g., of about 6 inches) that can be easily bent around the diver's 18 waist as the belt 12 is tighten around the diver's 18 waist. In this regard, the fabric material constituting the bladder housing 20 is preferably non-elastic to retain the substantially round or oval uniform cross-sectional configuration when the inflation bladder 22 is inflated.
  • [0043]
    A generally rectangular air-cylinder mounting plate 26 with opposing vertical belt slots 28 at each end is provided to which is mounted a small gas cylinder 30 (e.g., 5 cubic feet). The mounting plate 26 is supported by the belt 12 by threading the belt 12 through the belt slots 28 in the plate 26. Preferably, for best support, the layout of the belt loops 16 of the bladder housing 20 is such that belt loops 16 are positioned on opposing sides of the mounting plate 26. Also preferably, the layout is such that the mounting plate 26 and hence the gas cylinder 30 is mounted at the small of the diver's 18 back (see FIG. 4) when the weighted buoyancy compensator belt of the invention is worn by the diver 18.
  • [0044]
    The gas cylinder 30 is horizontally mounted to the mounting plate 26 by a conventional tank strap 32 that is threaded through corresponding horizontal slots 34 formed in the mounting plate 26 to releasably secure the gas cylinder 30 to the mounting plate 26 by a conventional releasable tank buckle 36. It is noted that other forms of tank straps and tank buckles may be employed without departing from the spirit and scope of this invention.
  • [0045]
    In one embodiment of the buoyancy compensator belt 10 of the invention, at least one weight 38, but usually several weights 38, such as a conventional rectangular lead weights 38 with vertical belt slots 40 formed therein, are threaded onto the belt 12. It is noted that other forms of weights 38, such as bagged shot weight, may be employed without departing from the spirit and scope of this invention. Preferably, the layout of the belt loops 24 of bladder housing 20 is such that they are positioned on opposing sides of the weights 38 to provide support. It is also noted that the use of weights 38 is optional in that the buoyancy compensator belt 10 of the invention may be used with a conventional weight belt thereby obviating the need for weights 28 mounted onto the belt 12 of the buoyancy compensator belt 10 of the invention.
  • [0046]
    The gas cylinder 30 for inflating the inflation bladder 22 is fitted with a first stage regulator 42 to reduce the gas cylinder pressure to a usable level. The first stage regulator 42 preferably includes an internal pressure gauge indicating to the diver 18 the amount of internal pressure remaining in the gas cylinder 30. Also, the first stage regulator is preferably configured to be refilled with air from a scuba tank or other source of air. In this regard, it is noted that the size and hence the volume of the gas cylinder 30 is very small compared to conventional scuba tanks because it is only used to inflate the inflation bladder 22 and is not used by the diver 18 to breathe from as in the case of a conventional scuba tank. The gas cylinder 30 need only be of sufficient volume to inflate the inflatable bladder 22 a small number of times (e.g., 10-15) consistent with the number of times a free driver would dive before getting back on the boat, whereupon it may then be easily refilled from a conventional scuba tank.
  • [0047]
    A power inflation/bleed valve 44 is positioned at one end of the bladder housing 20 operatively fed by a quick-disconnect hose 46 that runs around the side of the diver's 18 waist to the first stage regulator 42. The power inflation/bleed valve 44 includes an output that is sealingly connected through an opening 48 in the bladder housing 20 to the inflation bladder 22. The power inflation/bleed valve 44 comprises an inflation valve 50 allowing the diver 18 to inflate the inflation bladder 22 with air from the gas cylinder 30. The power inflation/bleed valve 44 preferably includes a bleed valve 52 to allow the diver to bleed air from the inflation bladder 22 to reduce or fine tune the buoyancy created by the air in the inflation bladder 22. The power inflation/bleed valve 44 may also include a manual inflator 56 to allow the diver 18 to manually inflate the inflation bladder 22 via its mouthpiece.
  • [0048]
    A dump valve 58 is fitted through an opening 60 of the bladder housing 20 and is sealingly connected to the inflation bladder 22. The dump valve 58 comprises an internal over-pressurization valve (not shown) that limits the air pressure inside the inflation bladder 22 by opening to “dump” or exhaust air when the internal pressure reaches a predetermined amount, thereby preventing bursting of the inflation bladder 22. Preferably, the dump valve 58 includes a pull handle 62 that is operatively connected to the internal over-pressurization valve by a tether 64 that allows the diver 18, upon pulling of the pull handle 62, to manually dump air from the inflation bladder 22. As best shown in FIG. 1, the dump valve 58 is preferably positioned near the other end of the bladder housing 20 opposite the power inflator/bleed valve 44 where its pull handle 62 may be easily grasped by the diver's 18 hand.
  • [0049]
    The present disclosure includes that contained in the appended claims, as well as that of the foregoing description. Although this invention has been described in its preferred form with a certain degree of particularity, it is understood that the present disclosure of the preferred form has been made only by way of example and that numerous changes in the details of construction and the combination and arrangement of parts may be resorted to without departing from the spirit and scope of the invention.
  • [0050]
    Now that the invention has been described,

Claims (19)

  1. 1. A buoyancy compensator belt, comprising in combination:
    a belt configured to be worn around a person's waist;
    a generally tubular inflation bladder mounted relative to said belt to be bent around the person's waist along with said belt;
    a gas cylinder mounted relative to said belt;
    a power inflator sealingly connected to said inflation bladder and operatively connected to said gas cylinder to selectively allow gas from said gas cylinder to inflate said inflation bladder; and
    a dump valve for exhausting said gas from said inflation bladder when the pressure in said inflation bladder reaches a predetermined amount.
  2. 2. The buoyancy compensator belt of the invention, further comprising at least one weight mounted relative to said belt.
  3. 3. The buoyancy compensator belt of claim 1, further including a bladder housing in which said inflation bladder is positioned, said bladder housing including at least one belt loop through which said belt is threaded to mount said inflation bladder relative to said belt.
  4. 4. The buoyancy compensator belt of claim 2, wherein said weight comprises a belt slot through which said belt is threaded to mount said weight to said belt.
  5. 5. The buoyancy compensator belt of claim 1, further including a first stage regulator operatively connected to said gas cylinder to which said power inflator is operatively connected to selectively allow gas from said gas cylinder to inflate said inflation bladder.
  6. 6. The buoyancy compensator belt of claim 5, wherein said first stage regulator allows refilling of said gas cylinder.
  7. 7. The buoyancy compensator belt of claim 6, wherein said gas cylinder to mounted midway on said belt to be positioned at the small of the diver's back, wherein said inflation valve is mounted relative to one end of said inflation bladder, and wherein said inflation valve is operatively connected to said gas cylinder by a hose that extends around the side of the waist of the diver to the inflation valve.
  8. 8. The buoyancy compensator belt of claim 7, wherein said dump valve is mounted relative to another end of said inflation bladder.
  9. 9. The buoyancy compensator belt of claim 1, wherein said inflation valve includes a bleed valve.
  10. 10. The buoyancy compensator belt of claim 1, wherein said dump valve includes a manual dump valve operable upon pulling on a pull handle.
  11. 11. The buoyancy compensator belt of claim 1, wherein said gas cylinder is mounted relative to said belt by a mounting plate to which said gas cylinder is removably mounted by a tank strap and buckle.
  12. 12. The buoyancy compensator belt of claim 1, wherein said mounting plate comprises at least one slot through which said belt is threaded.
  13. 13. The buoyancy compensator belt of claim 2, wherein said weight is mounted relative to said belt by at least one slot through which said belt is threaded.
  14. 14. A method for free diving using a weighted buoyancy compensator belt, comprising the steps of:
    positioning a weighted buoyancy compensator belt around the waist of a diver, the weighted buoyancy compensator belt comprising a belt, a generally tubular inflation bladder mounted relative to the belt and bent around the diver's waist along with the belt, at least one weight mounted relative to the belt, a gas cylinder mounted relative to the belt, a power inflator sealingly connected to the inflation bladder and operatively connected to the gas cylinder to selectively allow the diver to inflate the inflation bladder from the gas cylinder into the inflation bladder to inflate said inflation bladder and create positive buoyancy, and an exhaust valve sealingly connected to the inflation bladder for exhausting said gas from said inflation bladder to decrease buoyancy;
    operating the exhaust valve to exhaust gas from the inflation bladder to decrease buoyancy thereby causing the diver to descent; and
    operating the inflation valve to flow gas into the inflation bladder to increase buoyancy thereby causing the diver to ascend.
  15. 15. The method as set forth in claim 14, wherein the exhaust valve comprises a dump valve to dump gas from the inflation bladder when the gas pressure in the inflation bladder reaches a predetermined amount such that upon ascent, the increasing volume of gas inside the inflation bladder is exhausted and does not burst the inflation bladder.
  16. 16. The method as set forth in claim 15, wherein the exhaust valve comprises a bleed valve allowing the diver to exhaust gas from the inflation bladder to decrease positive buoyancy thereby allowing the diver to achieve a neutral buoyancy by bleeding gas from the inflation bladder.
  17. 17. The method as set forth in claim 16, wherein the gas cylinder is mounted midway on said belt to be positioned at the small of the diver's back, wherein the dump valve comprises a manual dump valve having a pull handle to allow manual exhaustion of gas from the inflation bladder.
  18. 18. The method as set forth in claim 17, wherein the inflation valve is mounted relative to one end of the inflation bladder, wherein the dump valve is mounted relative to the other end of the inflation bladder, and wherein the inflation valve is operatively connected to the gas cylinder by a hose that extends around the side of the waist of the diver to the inflation valve, whereby the gas cylinder is mounted away from the diver's hands, and whereby the inflation valve and the dump valve may each be easily operated by one of the diver's hands, respectively.
  19. 19. A method for free diving using a buoyancy compensator belt, comprising the steps of:
    positioning a buoyancy compensator belt around the waist of a diver, the weighted buoyancy compensator belt comprising a belt, a generally tubular inflation bladder mounted relative to the belt and bent around the diver's waist along with the belt, a gas cylinder mounted relative to the belt, a power inflator sealingly connected to the inflation bladder and operatively connected to the gas cylinder to selectively allow the diver to inflate the inflation bladder from the gas cylinder into the inflation bladder to inflate said inflation bladder and create positive buoyancy, and an exhaust valve sealingly connected to the inflation bladder for exhausting said gas from said inflation bladder to decrease buoyancy;
    mounting at least one weight on the diver;
    operating the exhaust valve to exhaust gas from the inflation bladder to decrease buoyancy thereby causing the diver to descent; and
    operating the inflation valve to flow gas into the inflation bladder to increase buoyancy thereby causing the diver to ascend.
US11488553 2006-07-18 2006-07-18 Buoyancy compensator belt Abandoned US20080019777A1 (en)

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Publication number Priority date Publication date Assignee Title
US20090140018A1 (en) * 2007-12-03 2009-06-04 X-Rite Europe Ag Supporting Device For A Mobile Colorimeter
US20090232604A1 (en) * 2008-03-17 2009-09-17 Toth Douglas J Expandable air bag construction for protection of an inflatable air cell in a diver's buoyancy compensator
US20130014310A1 (en) * 2011-07-15 2013-01-17 Tang Tai Shun Swimsuit with lifesaving device
FR2990682A1 (en) * 2012-05-16 2013-11-22 Fabrication De Pieces Ind Atel Diving or beach accessory e.g. knife, has tapped interior part, internal cavity delimited by body, and mobile unit arranged with volume that is variable according to position of mobile unit with regard to body

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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20090140018A1 (en) * 2007-12-03 2009-06-04 X-Rite Europe Ag Supporting Device For A Mobile Colorimeter
US8172196B2 (en) * 2007-12-03 2012-05-08 X-Rite Europe Gmbh Supporting device for a mobile colorimeter
US20090232604A1 (en) * 2008-03-17 2009-09-17 Toth Douglas J Expandable air bag construction for protection of an inflatable air cell in a diver's buoyancy compensator
US7704015B2 (en) * 2008-03-17 2010-04-27 Toth Douglas J Expandable air bag construction for protection of an inflatable air cell in a diver's buoyancy compensator
US20130014310A1 (en) * 2011-07-15 2013-01-17 Tang Tai Shun Swimsuit with lifesaving device
FR2990682A1 (en) * 2012-05-16 2013-11-22 Fabrication De Pieces Ind Atel Diving or beach accessory e.g. knife, has tapped interior part, internal cavity delimited by body, and mobile unit arranged with volume that is variable according to position of mobile unit with regard to body

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