Floatable ladder device

A floatable device having a ridged body containing a plurality of tie points near the edge and a substantially central orifice. Several bodies may be tied in series to form a ladder for ingress and egress of boats. The body may be filled with closed cell foam to sustain buoyancy if the ridged body is pierced or cracked. The body may be tinted a bright, safety color. The ties securing the blocks together may be whipped with a clamp having a tapered end to prevent the knots from slipping.

BACKGROUND OF THE INVENTION 
1. Field of the Invention 
The present invention relates to a device which aids the user in the 
ingress and egress from objects which may be moving, especially on the 
surface of a body of water, and, more particularly, to a safety device 
which may be used as a ladder and as a flotation device. 
2. Description of the Prior Art 
Boats have generally been difficult to board by a person immersed in the 
water by the side of the boat. Several devices have been employed. One 
such is a tethered life saver float. The device may be thrown near the 
person to grab and hang onto while being hauled near the side of the boat. 
However, this device does not aid in helping the person out of the water 
and onto the boat. The person in the water may hold onto the device but 
the person on board has the arduous task of hauling the person and the 
device on board by pulling up on the tether, a very difficult task. Even 
if the person on board ties off the tether, the person in the water must 
lift himself out of the water by climbing up the smooth, wet, and usually 
thin rope. 
Several types of platforms and ladders have been employed for this final 
stage. Some ladders are solid and hang or are fixed to the side of the 
boat. A platform may also be fixed to the outside of the boat to assist a 
person with scuba gear to lift up out of the water and then climb into the 
boat. However, these devices appear as cheese cutters to a person in the 
water if even moderate wave action is causing the boat to heave. 
Other soft devices such as a rope ladder have been used to overcome the 
threat of injury from a flaying solid ladder. These rope ladders have 
proven to be difficult to use and introduce their own safety hazard to the 
user. The flexibility of the rope ladder allows it to conform to the side 
of the boat, which when used results in the pressing of the horizontal 
steps up against the boat making it difficult or impossible to obtain a 
secure hand and foot hold. Further, the lateral instability of the rope 
ladder makes it difficult to use, especially for a tired or panic stricken 
victim. 
Several devices such as U.S. Pat. No. 65,901 and U.S. Pat. No. 1,263,824 
teach life saving rafts which may be assembled, and thrown overboard to 
assist a victim. However, as with the life saver, once the device and 
victim are broadside, the solution of the problem of assisting the victim 
from the water onto the boat is not solved. 
Thus, there has long been a need for an arrangement to assist a person in 
safely boarding a boat from the water. 
It is desired that this device be easy to store, easy to use at a moments 
notice. 
It is further desired that the device not itself present a safety hazard to 
the user. 
It is yet further desired that the device, when attached to the outside of 
the boat and used as a ladder, not conform to the side of the boat so that 
the device allows usable hand and foot holds. 
It is yet another desire that the device provide lateral stability yet be 
assembled from elements which withstand the riggers of the elements 
present on board a boat. 
SUMMARY OF THE INVENTION 
Accordingly, it is a object of the present invention to provide an improved 
safety flotation device which may be used to bring a person near the boat, 
be tied off and used as a ladder by the person for easy and safe ingress 
to the boat. 
It is another object of the present invention to provide an arrangement 
which is easy to store out of the way yet is immediately available for 
use. 
Is yet another object of the present invention to provide a ladder 
arrangement on the side of the boat assembled from elements which 
withstand the corrosive elements of sun and sea yet which does not present 
a safety hazard to the person in the water should the boat be heaving. 
It is yet another object of the present invention to provide a ladder 
arrangement which has lateral stability and does not press up against the 
side of the boat when in use. The present invention provides sufficient, 
safe hand and foot holds for easy ingress or egress from the boat even by 
a tired or panic stricken user. 
The above and other objects of the present invention are achieved, 
according to a preferred embodiment thereof, by providing an apparatus 
formed by attaching a number of individual flotation blocks together to 
form a ladder. Usually three such blocks will form a path between the 
water surface and the rail of the boat. 
Each individual flotation block is formed of a hollow molded, high impact 
plastic body of material such as polythene or urea-formaldehyde resin. 
Ultra-violet inhibitor should be added to the selected plastic to improve 
the life of the device in harsh weather conditions. The material in the 
preferred embodiment is dyed a bright, safety yellow color. The body in 
the preferred embodiment is shaped as a square approximately 14" on the 
side and approximately 1" thick. Each block is formed with a plurality of 
holes. A hole approximately 11/2" in diameter is formed near each corner 
and used as tie points. A hole approximately 7 to 8 inches in diameter is 
formed in the center of the block and used as a hand/foot hold. 
Of course other geometrical shapes such as a rectangle, as shown in FIG. 6, 
may be used for the shape of the body. 
Ties may be used to fasten the blocks together. In the preferred 
embodiment, the ties are made of nylon braided dockline, approximately 22" 
long and finished on each end with a molded clamp to whip each bitter end. 
Nylon dockline of a diameter of 3/8" is selected for the preferred 
embodiment as such a cord may have tensile strength of up to 4,200 pounds. 
Further, the color of the nylon will not fade nor will it rot or mildew. 
The molded clamp is formed of plastic and may be tapered from the edge of 
the clamp next to the end toward the center of the tie. Therefore, when 
tied, any slippage of the end of the tie back through a knot will be 
prevented by such tapered surface. 
A first tie is threaded through one tie point in one block and a tie point 
in an adjacent block. A square knot or two half-hitches may be used to 
fasten the ends of the tie together. A second tie is threaded through 
another tie point which is adjacent another tie point in the adjacent 
block and tied. 
This process is continued until the user has assembled the preselected 
number of flotation blocks into the desired configuration. 
The desired configuration may be a simple series of three blocks or a pair 
of such series in parallel to form a three by two block rectangle. This 
configuration has additional lateral stability because it allows the user 
to place his feet in horizontally adjacent steps rather that vertically 
adjacent steps. 
Each body may be formed as a sealed, hollow unit. The air captured inside 
will give each block buoyancy. This buoyancy is lost upon any puncture or 
damage to the integrity of the body. 
In the preferred embodiment, the hollow body is filled by being injected 
with closed cell foam. The density of the foam should not outweigh the 
buoyancy contained in the foam cells. The closed cell foam used in the 
preferred embodiment is urethane. Should the body become pierced or 
cracked, the closed cell foam will retain the majority of the buoyancy of 
the flotation block.

DESCRIPTION OF A PREFERRED EMBODIMENT 
Referring now to the drawing, FIG. 1 shows one flotation block 10 unitarily 
molded of a high impact, ridged plastic such as polythene into a hollow 
body 101. In the preferred embodiment, the block 10 is shaped as a square 
with sides approximately 14 inches long and approximately 1 to 11/2 inch 
thick. 
The front surface 115 of the block 10 and the back surface 116 are 
essentially coextensive. A peripheral edge 117 of a preselected width 
joins the outside edges of the front surface 115 and back surface 116. The 
peripheral edge 117 is shaped so that the corners and edges of the block 
10 are rounded to remove sharp edges and points which may injure the user. 
A plurality of first walls form tie points 102 near each corner of the 
block. The walls are curved into a convex surface as they meet the outside 
surfaces of the block 10 to form a smooth, double curved transition which 
will not chaff the ties 105 which hold adjacent blocks together. 
A second wall forming a central aperture in the block provides a step 104. 
This step 104 also serves as a handhold. This second wall is also curved 
into a convex surface as it meets the outside surfaces of the block 10 to 
form a smooth, double curved transition and eliminates any sharp edges 
which would be uncomfortable to bare hands and feet. In the preferred 
embodiment, the diameter of the central aperture is 73/8 inches so that a 
dive bottle may be mounted through this center aperture of a plurality of 
blocks 10 and secured to the blocks 10. Dive bottles have near neutral 
buoyancy so that one to three blocks will keep the dive bottle afloat on 
the surface of the water for convenient access by a diver. 
The thickness of the block 10 in the preferred embodiment is 1 to 11/2 
inches so that the step 104 ergonomically fits the hand as a hand hold and 
the arm as a catch yet provides enough surface to be a comfortable step 
for even a bare foot. 
The buoyancy of the block 10 may be preserved should the body 101 be 
punctured or cracked by filling the hollow body 101 with closed cell foam 
103. The material selected should be Coast Guard Approved. In the 
preferred embodiment, approximately 1/3 lb. of urethane is blown into the 
hollow body 101. The urethane may be inserted in a liquid form to flow 
into all spaces inside of the body 101. The foam sets up into a solid form 
within a very short time. This type of process is well known in the art 
such as providing shape conforming packaging for shipment of delicate 
instruments and electronics. 
When the block 10 is used as a float by itself or attached to a tether for 
rescue, the block 10 does not sail in the wind but allows the user to 
throw the device near the victim without the chance of the block 10 being 
swept away by the wind or waves. 
If the block 10 is on a tether when thrown, the victim may grab the 
handhold or insert an arm through the step 104. The user may then pull the 
victim near the boat. A preselected configuration of blocks 10 may be 
attached to the side of the boat to allow the victim access to the boat. 
One such configuration is three blocks 10 in a series as shown in FIG. 3. 
The ties 105 may be used to attach the blocks 10 together at the tie points 
102. 
Clamps 106 may be mounted on each of the ends of the ties 105 to whip the 
bitter ends. The clamps 106 may be formed with a conical surface tapering 
from the end toward the center of the tie. After the tie 105 is knotted, 
the clamp 106 will act as a stop to prevent the end of the tie from 
pulling through the knot. 
A longer tie 105 may be used to attach the series of blocks 10 to the boat 
at a convenient cleat. This end tie may utilize quick attachment devices 
such as a tee bracket with a short staff the end of which is secured to 
the tie 105. The tee may have a long cross member so that the tee and tie 
105 will slip through the tie point 102 sideways but when rotated ninety 
degrees cannot be pulled back through because of the long cross member. 
Because the block 10 is long and rigid and contains an integrated step, the 
force of the user on the step 104 tends to make the block 10 tilt away 
from the side of the boat unlike a rope ladder which is forced into the 
side of the boat. Thus the user can climb up and out of the water without 
having hand or foot crushed against the boat. 
If boat side is convex downward, such as a submarine, this device will 
still out-perform a rope ladder in that the thickness of the rigid blocks 
10 act as a stand-off to allow finger and toe holds on the steps 104. 
Certain boat configurations such as the flat bottom whaler and rubber raft 
present unique boarding problems. Although each have low rails, the access 
may still be difficult. 
FIG. 4 shows a configuration of blocks 10 which may be used to ease access 
to a ridged, short sided, flat bottom boat. 
FIG. 5 shows a configuration of blocks 10 which may be used to ease access 
to a soft sided rubber raft. 
The color used in the preferred embodiment is a bright safety yellow. Other 
colors such as safety orange may be utilized. A block 10 or series of 
blocks 10 when used as a float will greatly enhance the visibility of a 
victim in the water. 
The preferred embodiment is shaped essentially as a square with flat sides. 
The sides may be alternately concave and convex so that the blocks 10 
nest. The configurations may be mounted so that the concave side is next 
to the boat to form an integral stand-off of the step 104 from the side of 
the boat. 
The orifice forming the tie points 102 and the steps 104 may be of selected 
geometrical shapes. The preferred embodiment shows the shapes to be 
circular. The shapes may well be selected to be square, rectangular or 
triangular and perform the same function. 
The blocks 10 may be formed in different geometrical shapes such as a 
triangle or rectangle as shown in FIG. 6. The rectangle may contain a 
plurality of steps 104. 
Since certain change may be made in the above apparatus without departing 
from the scope of the invention herein involved, it is intended that all 
matter contained in the above description, as shown in the accompanying 
drawing, shall be interpreted in an illustrative, and not a limiting 
sense.