Tamper proof seal

A tamper proof seal comprising a tie member makes a seal with a coupling seal on a plug which is movable laterally into the seal body portion while said tie member is movable into said body portion perpendicularly to the movement of said plug, said tie member, said seal body portion and said plug capable of being molded out of a plastic material as a unit.

BACKGROUND OF THE INVENTION 
This invention relates generally to seals, and is especially concerned with 
a tamper proof seal. A tamper proof seal is a seal which is used to secure 
closures over various items wherein the purpose of the seal is not so much 
to prevent unauthorized entry but to indicate that the item has been 
tampered with. The tamper proof seal is not strong enough to prevent the 
item from being opened. It is a seal which makes a permanent closure and 
which can be opened or unsealed only by destroying the seal itself. 
There are two general requirements for such a seal. Since the seal is 
expendable and may be only used once there is a general requirement that 
it be inexpensive. The second general requirement is that the seal should 
be constructed in such a way that all of its parts are in close tolerance 
and that there are no openings through which a person can pry with a screw 
driver or other instrument to open the seal in a manner which would permit 
it to be resealed without destruction. 
It is therefore an object of the present invention to provide such a seal 
which is self locking and which positively and automatically affects 
sealing action through its component parts and which cannot be opened or 
unlocked without destruction or defacement so as to clearly indicate at a 
glance the results of any tampering. It is another object of the invention 
to provide such a seal which may be economically mass produced, preferably 
of plastic material, to effectively reduce costs in removal and 
replacement of such tamper proof seals. Other objects of the present 
invention will become apparent upon reading the following specification 
and referring to the accompanying drawings.

DETAILED DESCRIPTION OF THE INVENTION 
The seal 10 illustrated in the drawings has a main body portion 12 and a 
second body portion 14. The main body portion 12 is provided with 
receiving means for the secondary body portion 14 and these receiving 
means are designated as a socket 16. The secondary body portion, which is 
preferably in the form of a plug 14, which fits snugly through a plug 
entry 15 in the main body portion into the socket 16. The plug 14 is 
designed to fit snugly within the socket 16 so that when it is in place it 
cannot be disturbed by tampering or meddling without destroying the seal 
of the seal 10. This is done by providing the plug 14 with outside walls 
which close the plug entry 15 when the plug is in position, and inside 
walls which are closed by facing inner walls of the socket when the plug 
14 is in position. 
Referring now to FIGS. 1 and 2 of the drawings, it can be seen that the 
plug 14 is provided with a top wall 20, side walls 22, 24, 26 and 28, and 
a bottom wall 30. The plug 14 is sized to fit in close tolerance so that 
its top 20 will fit in close facing relation to an upper wall 20a of the 
socket 16 and its bottom 30 in facing relation to a bottom wall 30a of the 
socket 16 when the plug 14 is in position within the socket 16. When in 
such position the side wall 22 will face outwardly as in FIG. 2. Side 
walls 26 and 28 will be within the socket in facing relation to socket 
walls 26a and 28a. 
In order to make the seal 10 as tamper proof as possible, it is desirable 
to have as few openings as possible for the sealing mechanism. This is 
accomplished by having only one opening from the outer surface into the 
main body portion 12 for the engaging member 32 of the tying means 34. The 
engaging member 32 of tie member 34 fits into the opening of passageway 36 
in body portion 16 so that it may engage the plug 14 when it is in 
position, as shown in FIG. 2, to couple with it to make the seal. The plug 
entry 15 is in offset relationship to the passageway 36. 
In the preferred form of invention the secondary body portion or plug is 
hinged integrally to the main body portion 12 by hinge means 38. The plug 
may be rolled or rotated sideways into the socket to be engaged by the 
engaging member 32. This permits the entire seal 10 to be made of plastic 
in one molding operation as will be explained below. 
The secondary body portion, or plug 14, has a chamber 40, an opening 41 
matching the cross section of the passageway 36, and coupling means such 
as a flexible protuberance 42 which is engaged by the notch 44 of the 
engaging member 32 to make a coupling. The coupling makes a permanent seal 
in the sense that it cannot be opened without destroying the seal 10 
itself. 
The two body portions 12 and 14 can be molded as one piece with hinge 38 
between them by providing mold form means including several cores. The 
first core would be placed in the mold in the direction of arrow A and 
have a configuration to form the socket 16 and part 48 of hinge 38. A 
second core in the direction of arrow B would have a configuration to form 
the lower half of chamber 40 below the protuberance 42 and part 50 of 
hinge 38. 
A third core in the direction of arrow C would abut against core A to form 
passageway 36 into socket 16. A fourth core in the direction of arrow D 
would have a configuration to abut against core B and to form the 
protuberance 42 in the chamber 40. The balance of the mold, including the 
formation of the tying means 34 and its engaging member 32, could be made 
in any manner known to the art. 
The principal advantage of this invention is the provision of a one piece 
single operation molded body portion which results in only one major 
opening 36 which becomes sealed by inserting the engaging member 32 of the 
member 34. 
FIG. 4 shows another seal 60 which is identical in all respects to seal 10 
except that it has a very thin taglike body portion 62. 
FIG. 5 shows another seal 64 which operates in the same manner as seal 10, 
but has a long strap tie member 66 instead of a filament tie member 34. 
The engaging means 68 has a notch 70 which is the equivalent of notch 44. 
In FIGS. 6 through 8 another seal 80 is shown which operates in 
substantially the same manner as the seals of the invention described 
hereinabove. However, there are some modifications to the plug 84, the 
engaging member 82 and in the addition of a blind hole 86, as shown in 
FIGS. 6 and 8 of the drawings. The plug 84 is provided with a pair of 
protuberances 88 which cooperate with the notches 90 of the engaging 
member 82. Engaging member 82 is connected to tie member 94 by means of a 
weakened portion made by cutting into the material, as shown at reference 
numeral 96 in FIGS. 6 and 8, designed to cause engaging member 82 to break 
away from tie member 94 along dotted line 98 when a tampering pressure is 
placed on the device after the plug 84 and engaging member 82 are in 
locked position, as in FIG. 8. The engaging member 82 is of a relatively 
greater length between its end at line 98 and its leading end 100 than the 
depth of plug 84. This is so that leading end 100 will fit or pass through 
opening 102 in the bottom wall 104 of the plug 84 and into the blind hole 
86, as shown in FIG. 8. This provides for an extra securing of the plug 84 
into the body portion 80 at a part where engaging member 82 fits through 
the apertures 106 and 108 and at a second part where engaging member 82 
fits through the aperture 102 and into the blind hole 86. 
Spacing provision as shown at 110 and 112 in FIG. 8 permit engaging member 
82 to ride up and down against the end 114 of blind hole 86 and the 
meeting point of protuberances 88 and shoulders 90. Thus some leaway is 
given when the plug engaging member 82 is placed through aperture 106 for 
the couple between notches 90 and protuberances 88 to be made. The seal is 
made by placing tie member 94 through the item to be protected in the 
usual manner and putting engaging member 82 into the plug 84 within the 
body portion 80, as shown in FIG. 8. 
While the invention has been illustrated with a notch 44, or notches 90 and 
protuberance 42, or protuberances 88 to form the coupling, the coupling 
may have equivalent types of coupling elements such as spears, hooks, 
ratchets, or the like.