Locking device for surfboards

A surfboard locking mechanism for use with having a plug with a bottom surface that is substantially planar and may have a notch formed in an edge of said bottom surface, the plug including locking means for engaging a ratchet blade passing through said plug, the blade having means for engaging a cross bar within a recessed cup in surfboard, and a cable secured to the blade for attaching to a stationary object whereby the plug is substantially flush with the top surface of the surfboard and covers the recessed cup when in a locked position.

BACKGROUND OF THE INVENTION 
1. Field of the Invention 
This invention relates to locking devices for surfboards. 
2. Background of the Invention 
The sport of surfing has become very popular and the value of surfboards 
has increased accordingly. A typical surfboard can easily cost $800 to a 
$1,000. Consequently, the value and portability of surfboards make them 
desirable targets for theft. Furthermore, the structure and size of 
surfboards prevents users from securing their boards so that they can take 
part in the many other activities available at the beach. A surfboard is 
too big to lock in a car. The board can get wet and covered in sand so 
even owners of large sport vehicles are unlikely to dirty their vehicles 
to protect their property. Finally, the structure of the boards is such 
that few surfaces avail themselves to locking them up. 
A number of locking devices have been developed to prevent the theft of 
surfboards. However, they present numerous disadvantages to the user. The 
Fruzetti et. al. patent (U.S. Pat. No. 4,820,220) employs the ankle tether 
commonly found on surf boards to secure the board to stationary objects. 
However, the ankle tether is typically a lightweight material such as 
nylon. A thief would need no more than a pocket knife to cut through the 
tether to steal the board. 
Also, the Fruzetti patent, the Ross patent (U.S. Pat. No. 5,127,861) and 
the Bull patent (U.S. Pat. No. 4,712,394) are not manufactured with 
surfboards so they involve retrofitting. The drawback to this type of 
alteration of surfboards is that the common surfboard is made of rigid 
lightweight materials such as fiberglass that can be brittle when the body 
of the board is cracked. Retrofitting can cause the cracking and splitting 
of the fiberglass layers. Thus, the owner of a common surfboard would have 
to damage the surfboard in order to protect it. 
The Humphreys, Jr. patent (U.S. Pat. No. 4,938,040) and the Spence patent 
(U.S. Pat. No. 5,119,649) each uses normal padlocks to secure hooks placed 
around the leash cup cross bar found on most surfboards. However, as 
stated above, surfboards are valuable items of sometimes brittle material. 
The padlocks, when attached, hang loose on the surfboard and can rattle 
about on the surface of the board, causing wear and tear on the surfboard 
and possibly damage. Furthermore, the padlock, when unattached, is a loose 
item that can be easily be lost and separated from the cable, hook and 
board. This is especially true in the beach setting where loose items can 
easily become buried in the sand. 
Finally, one of the preferred versions of the Spence patent embodies the 
lock, cable and hook attachment in a single device. This does eliminate 
the problem of losing the padlock as mentioned above. However, the 
resulting body of the lock is bulky and cumbersome when attached to the 
surfboard. No space exists for the leash so the body of the lock rubs the 
leash against the board and causes wear and tear. Also, the lock relies on 
the key to engage the lock. Thus, the process of engaging the lock is 
cumbersome too. 
A common draw back among all the prior art devices involves their 
interaction with the recessed cup that contains the cross bar. The cup and 
cross bar are typically installed by forming a recess in the surfboard. A 
plastic cup is inserted into the recess and glued into place. The cross 
bar is mounted into opposing sides of the cup. The prior art locking 
devices are secured to the cross bar. The problem with this approach is 
that the locking device can be circumvented merely by prying the cup out 
of the recess with a screw driver and taking off with the freed surf 
board. While this causes some damage to the board, the thief can repair 
the damage in his lair at his leisure. 
Hence, a need exists for a small simple locking device, readily and quickly 
attachable to conventional surfboards, that will not damage the boards 
when attached and will not be easily circumvented by prying the cup out of 
the recess in the surfboard. 
SUMMARY OF THE INVENTION 
The present invention is directed to a surfboard lock that satisfies the 
needs identified above: easily attachable to conventional surfboards 
without retrofitting. The invention is an improvement over the prior art 
because it involves a single mechanism so that pieces are not lost, it 
prevents a common practice among surfboard thieves of prying off the 
recessed cup, it includes a durable lock cable that prevents theft, and a 
lock that will engage without the key for quick and easy security. 
The preferred version of the invention comprises: i) a cable with a loop on 
one end and the lock on the other; ii) a slide that allows the lock to be 
adjusted to cover the recess and secured without the key or combination; 
iii) a plug large enough to cover the entire recess and lay flush against 
the surfboard; iv) a hook that will anchor the lock to the leash plug 
crossbar; and v) a notch to allow the tether or leash to hang out of the 
recess without undue wear and tear. 
The lock allows a user to wrap the cable around a stationary object and 
thread the lock through the loop to create a slip knot with the cable. The 
hook is then anchored to the cross bar and the plug is slid down the 
ratchet blade into place over the leash plug and flush with the surface of 
the board. This allows the user to lock the surfboard almost anywhere 
there is a fixed object without fear of theft and without the possibility 
of damaging the board with the lock itself. 
These and other objects and advantages of the present invention will become 
apparent from the following detailed description of the preferred 
embodiment of the invention without intending to limit the scope of the 
invention which is set forth in the appended claims.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT 
FIG. 1 illustrates the present invention 10, a surfboard locking device, 
securing a surfboard 12 to a stationary object 14. The locking device 10 
includes a cable 16 having a first end 18 and a second end 20. The cabling 
16 should be made of strong material that resists cutting and 
deterioration such as metal cabling covered with plastic. The first end 18 
of the cable 16 is secured to a ratchet blade 22 having an edge 23, which 
includes teeth 24. The ratchet blade 22 can be secured to the cable by any 
appropriate means. The inventor has found it useful to use a metal 
terminal crimp 19 secured to the ratchet blade 22 by a hinge 21. In the 
preferred embodiment, the ratchet blade 22 is approximately four and 
three-eights inches long and a half inch wide. The teeth 24 can extend 
along the entire edge 23 of the blade 22 or any shorter length that will 
still engage the lock. However, the inventor prefers for the teeth 24 to 
extend along the edge 23 for approximately 70% of the total length of the 
blade 22. However, the ratchet blade 22 may also be a rod having recesses 
for slideably engaging a locking means or any other construction that 
permits the blade 22 to pass through the plug and slideably engage a 
locking mechanism. 
To understand the remaining features of the ratchet blade 22 requires that 
we briefly digress to explain one of the common features of surfboards. 
Most surfboards typically include a circular recess 34 within their top 
surface 36. The recess 34 is usually formed by carving it out of the 
surfboard and inserting a cup 48 in the recess 34, which is typically made 
out of plastic and glued into place. The cup 48 has a circular inner wall 
46 and typically contains a rod 38, which is mounted within the recess 34 
by imbedding each end of the rod 38 within the circular inner wall 46. The 
rod 38 is usually about one-eighth of an inch in diameter. The purpose of 
the rod 38 is to have a means of securing a tether line 40 to the 
surfboard 12, which can be secured to the ankle of the surfer to keep the 
two from parting company. The invention takes advantage of these existing 
features in the following manner: 
The ratchet blade 22 has a hooked end 42, which includes a lip 44. To 
operate properly, the hooked end 42 must conform to certain specific 
criteria. Namely, the lip 44 must be sufficiently short so as to fit 
between the rod 38 and the inner wall 46 during installation as shown in 
FIG. 3. But the lip 44 must be sufficiently long so that the hooked end 42 
will not slip off the cross bar 38 during operation. As a practical 
matter, there are various sized recesses 34 used with surf boards on the 
market. Therefore, the limiting factor for the present invention must be 
defined by the smallest recess 34 on the market, which is approximately 
one inch in diameter. As a result, the lip 44 in the preferred embodiment 
should not be more than approximately three-eighths inches in length, but 
no shorter than approximately two-eighths inches. However, the invention 
can work outside of this range depending upon the size of the recess 34 
and the size of the cross bar 38. The ratchet blade 22 and lip 44 are 
preferably made of 100% grade A tool steel, which has been case hardened 
and chrome plated to protect against salt water corrosion. 
One of the key features of the invention involves the construction of a 
plug 26. As shown in FIG. 2, the ratchet blade 22 passes through the plug 
26. A conventional locking mechanism is located within the plug 26 and 
engages the teeth 24 of the ratchet blade 22 to lock the plug 26 in place. 
The plug 26 includes a bottom surface 50 having a bottom edge 52. In the 
preferred embodiment, the bottom surface 50 is substantially planar so 
that it can be substantially flush with the top surface 36 of the 
surfboard 12 in the locked position as shown in FIG. 5. The bottom surface 
50 must also be sufficiently large to completely cover the recess 34. By 
completely covering the recess 34, it prevents thieves from prying the cup 
48 out of the recess 34, which is how prior art surfboard locking 
mechanisms have been circumvented. In the case of a cup 48 having an outer 
diameter of approximately 1.25 inches, the bottom surface 50 of the plug 
26 should have an diameter of approximately 1.75 inches. In the preferred 
embodiment, these relative dimensions should be followed. 
If the shape of the recess 34 or cup 48 has been modified, then the shape 
of the bottom surface 50 of the plug 26 should be adapted to accommodate 
the modification. For example, if the cup 48 is rectangular, then the 
maximum diameter of the bottom surface 50 of the plug 26 should be greater 
than the maximum diameter of the rectangle (i.e., greater than the length 
of the rectangle). This insures the bottom surface 50 of the plug 26 
always covers the cup 48. 
But regardless of the specific construction of the bottom surface 50, at 
least the edge 52 of the bottom surface 50 must be substantially flush 
with the top surface 36 of the surfboard 12. By insuring that at least the 
edge 52 is flush, a similar result can be achieved. The plug 26 should be 
constructed of a hard, durable material that cannot be easily deformed, by 
a would-be thief seeking to gain access with a screw driver to the cup 48. 
Suitable materials include metals, epoxy, or polycarbonate plastic, and/or 
high density polyethylene. 
An important feature of the plug 26 is a notch 54 located in the bottom 
edge 52 of the plug 26. The notch 54 provides room for the tether 40 so 
that the tether does not hinder the ability of the bottom surface 50 or 
edge 52 to lie flush with the top surface 36 of the surfboard 12 as shown 
in FIG. 5, which is important for the reasons stated above. It would be a 
significant inconvenience if the surfer had to disconnect the tether to 
effectively use the present invention. Hence, the notch 54 provides an 
important advantage for the user. 
The second end 20 of the cable 16 can be folded back and secured to the 
cable 16 using a conventional crimping means 28 thereby forming a loop 30. 
The loop 30 must be of sufficient diameter to permit the plug 26 to pass 
through the loop 30. The plug 26 and ratchet blade 22 are passed through 
the loop 30 prior to securing the invention to the surfboard 12. This 
creates a slip knot 32 around the stationary object 14 to prevent the 
theft of the surfboard 12. 
As shown in FIG. 3, the hook 42 slips over the cross bar 38 to secure the 
lock 10 to the board 12. Then, as shown in FIGS. 4 and 5, the plug 26 is 
adjusted down the ratchet blade 22 to fit flush against the surface of the 
surfboard 12. The teeth 24 of the ratchet blade 22 interact with the key 
lock 41 so that, as is shown, securing the plug 26 to the board 12 does 
not require a key 43. 
Although the present invention has been described in considerable detail 
with reference to certain preferred versions thereof, other versions are 
possible. For example, as stated above, the key lock 41 could be replaced 
with a combination lock 60 that can be disengaged by entering a series of 
letters or numbers as is shown in FIG. 8. A combination lock would provide 
the additional advantage of not having a key that could be easily lost at 
the beach. Also, a loop 25 and a crimp can be attached to a plurality of 
locking cables 16 and plugs 26 so that several activity boards can be 
secured together as is shown in FIG. 6. Therefore, the spirit and scope of 
the appended claims should not be limited to the description of the 
preferred versions contained herein.