1. Field of the Invention
The present invention relates generally to security and locking mechanism for the double door type security safe, vault or bunker wherein the door is constructed by conventional means or by modular panels, the security and locking mechanism utilizing a plurality of horizontal throw bolts and bolt channels to effectuate the sealing and locking of the double door.
2. Description of the Prior Art
Security safes and vaults are used for a wide variety of protection. Security safes and vaults can be room size as in the case with many bank safes or vaults and can vary in size down to a wall safe utilized in homes and offices. The sizes and scales of such safes and vaults can vary widely between these two extremes. Applicant is the holder of a series of patents, U.S. Pat. No. 6,044,776 and a divisional and continuation-in-part applications which have matured into patents set forth above there from for modular safes which would typically be utilized for all sizes of the safe-vault continuum. Applicant's module safes allow the safes or vaults of any size to be assembled in situ and still provide superior security and integrity and weight to the typical smaller safes utilized heretofore which could be easily breached or in many instances completely removed from the premises for being breached.
In order to increase the security of safes and vaults, efforts have been made to design modular safes which can be moved piece by piece to a location where it will be used and then assembled. The modular style safe allows for ease of transportation, but prevents such transportation once assembled. It also provides a higher degree of security than other small application safes which, in some instances, can be carried away from the location.
Applicant has further developed the modular concept of safe or vault to include the ability to expand the safe or vault to a larger size utilizing the modular concept which would allow for an individual or entity having a safe or vault already installed of one particular size to be able to expand that safe or vault in situ, by utilizing additional modular panels and security devices such that the size of the safe or vault could be expanded in a geometric progression.
With Applicant's module and expandability characteristics, the time, expense and labor of moving and installing a safe or vault are obviated. Applicant's panels are limited to a weight of 200 pounds per panel and can allow for the installation and construction of a safe or vault without a third parties knowledge that a safe or vault has been installed. Still further, the modularity and expandability characteristics allow for the expansion of an existing safe or vault constructed of Applicant's modular panels to be accomplished without third parties knowledge of such expansion or existence of such safe or vault. This concept alone further heightens the security of the safe or vault. Since if no one knows of its existence except for the owner and the installer, no temptation exists to burglarize the safe or vault.
The present invention relates to a security and locking mechanism for a double door, double hinged, security safe vault or bunker wherein the double doors are constructed of either conventional construction or of modular construction as described in Applicant's prior applications and patents. If a security safe, vault or bunker is to be assembled in situ, the locking and security mechanism must be of a size and weight which is easily transportable yet will provide the necessary security.
The security and locking mechanism of Applicant's invention is comprised of a mechanism having a plurality of horizontal throw bolts which provide at least four contact points with vertically disposed bolt channels between the double doors and eliminate the need for vertical throw bolts necessitated by the prior art in which one of the double doors was secured to the second door by a plurality of horizontal interior throw bolts with the second door being secured to the frame of the safe vault or bunker body by a plurality of vertical throw bolts which were releasable only after the horizontal throw bolts of the first door were released and the door opened. Therefore, the opening of a double door, double hinged entry way required a two step process.
Applicant by incorporating modular elements as here after set forth in Applicant's prior applications can construct a double security door of desired height, and width, for varying sized security safes, vaults or bunkers. The security and locking mechanism can be dimensioned for such size door and the components installed in situ in a modular fashion using threaded fasteners.
While the securing or locking mechanism is particularly designed for Applicant's modular elements, it can also have application to a conventional double door, double hinged security safe, vault or bunker door which conventional security safe, vault or bunker and doors would suffer from the concomitant weight prohibitions, transportation and installation assembly difficulties, whereas Applicant's modular security safe, vault and bunker with modular door and security and locking mechanism can be transported to the site as separate elements and be assembled in situ.
Some of the numerous prior art efforts to provide modular safes can be found in the following references which are discussed in detail in Applicant's prior applications which are incorporated herein: Ouellette, U.S. Pat. No. 5,488,914; Nikoden, Jr., U.S. Pat. No. 4,426,935; Sands, et al., U.S. Pat. No. 4,389,948; Sands, et al, G.B. Patent No. 2,081,335; Stone, U.S. Pat. No. 4,388,874; Dippold, et al., U.S. Pat. No. 4,158,338; Simmons, U.S. Pat. No. 470,017; Farrel, U.S. Pat. No. 328,113; Hall, U.S. Pat. No. 115,728; and Hall, U.S. Pat. No. 70,202.
None of these efforts, taken either alone or in combination, teach or suggest all of the benefits and the utility of the present invention.
It is an object of the present invention to provide a novel security and locking means for a double door security safe vault or bunker.
It is a further object of the present invention to provide for a novel security and locking means for a double door security safe, vault or bunker which security safe, vault or bunker is constructed from modular panels.
It is a further object of the present invention to provide for a novel security and locking means for a double door security safe vault or bunker wherein the security safe vault or bunker is constructed of conventional means.
It is a further object of the present invention to provide for a novel security and locking means for a double door security safe, vault or bunker in which the security safe, vault or bunker and the double door are constructed of modular panels easily transported in pieces to a location and assembled at the location.
It is an additional object of the present invention to provide for a novel security and locking means for a double door security safe, vault or bunker constructed of modular panels which would allow for the erection and assembly of a security safe, vault or bunker in locations where it would be impossible to install an entire, premade safe, vault or bunker.
It is a still further object of the present intention to provide for a novel security and locking means for a double door security safe vault or bunker constructed of modular panels which would be difficult, if not impossible, to move after assembly.
It is a further object of the present invention to provide for a novel security and locking means for a double door security safe, vault or bunker, which is secured by horizontal throw bolts and obviates the need for vertical throw bolts.
It is an additional object of the present invention to provide for a novel security and locking means for a double door security safe, vault or bunker of modular design and assembly which is suitable for mass production.
It is a still further object of the present invention to provide for a novel security and locking means for a double door security safe, vault or bunker constructed of modular panels which is inexpensive to manufacture and easy to assembly.
It is still a further object of the present invention to provide for a novel security and locking means for a double door security safe, vault or bunker constructed of modular panels which can have a greater or smaller size by using more or less modular panels.
A security and locking mechanism for the double door type security safe, vault or bunker wherein the double door can be manufactured by conventional means or the through the use of a plurality of modular panels, the locking and securing means comprising a pair of longitudinal, vertically oriented bolt channels secured to the inner surface of each of the double doors proximate the vertical edges of the double doors, the bolt channels proximate the hinged edge of each door having a plurality of passive locking rods extending there through and extending beyond the hinged edge of the door, the second longitudinal bolt channels on the doors having a plurality of apertures through vertical web members, are secured proximate the seam formed between the double doors, one bolt channel being positioned such that it overlaps the seam formed between the two doors, the active locking and securing mechanism comprising a plurality of horizontally oriented throw bolts passing through the longitudinal bolt channels proximate the seam, the plurality of horizontal throw bolts supported by a throw bolt support bar vertically oriented, with at least one of the horizontally oriented throw bolts having a toothed gear formed thereon in communication with a round gear secured to the inner surface of the door, the round gear in communication with a throw bolt wheel located on the outer surface of the door, the throw bolt wheel activatable by a keypad combination member.
These and other objects of the present invention will become apparent, particularly when taken in light of the following illustrations.
a is a perspective view of the modular security safe of the present invention shown in an assembled form;
b is a perspective view of the apparatus of
c is an exploded perspective view of the apparatus of
a is a perspective view of a side panel shell in a first stage of manufacture;
b is a perspective view of the side panel shell shown in
a is a perspective view of the side panel shell shown in
b is a perspective view of the side panel shell of
a is a perspective view of the side panel shell of
b is a perspective view of the side panel shell of
a is an alternate perspective view of the modular security safe of the present invention shown in an assembled form;
b is a perspective view of the apparatus of
c is an exploded perspective view of the apparatus of
a is a perspective view of an alternate embodiment of the modular safe of the present invention in assembled form;
b is a perspective view of the apparatus shown in
c is an exploded perspective view of the apparatus of
For purposes of continuity, Applicant sets forth a detailed description of Applicant's modular panels and safes as described in Applicant's prior applications. The improved modular security safe with offset security bolt box of the present invention is shown in
As can be seen in
Top panel 30 includes an outer portion 32 with an outer surface 33 and an inner portion 34 with an inner surface 35. The inner portion 34 is generally smaller than the outer portion 32 in terms of length l and width w. A rabbet face 36 is created on the outer portion 32. The rabbet face 36, in connection with the perimeter 37 of the inner portion 34, forms a step between the inner portion 34 and the outer portion 32.
Similarly, the bottom panel 40 includes an outer portion 42 with an outer surface 43 and an inner portion 44 with an inner surface 45. The inner portion 44 is generally smaller than the outer portion 42 in terms of length l and width w. A rabbet face 46 is created on the outer portion 42. The rabbet face 46, in connection with the perimeter 47 of the inner portion 44, forms a step between the inner portion 44 and the outer portion 42.
Attached to the inner surface 35 of the inner portion 34 of the top panel 30 is a security bolt box generally indicated at 50. Likewise, a security bolt box 50 is attached to the inner surface 45 of the inner portion 44 of the bottom panel 40. The security bolt box 50 includes a bottom face 52 and upstanding walls 54 to form a tray-like configuration. The upstanding walls 54 can be interconnected with the bottom face 52 or can be formed through a bending and folding operation that will be hereinafter described. The security bolt box 50 is attached to the inner portion 34 of top panel 30 and inner portion 44 of bottom panel 40 by means of anchor bolts (not shown) which extend through anchor bolt apertures 56 in the security bolt box 50. The security bolt box 50 is also provided with attachment bolt apertures 58 extending about the upstanding walls 54 for receiving attachment bolts (not shown) to attach side panels 70 and back panel 60 with the top and bottom panels 30 and 40 to form the safe.
The back panel 60 is a generally rectangular wall formed with a plurality of bolt apertures along upper and lower edges for interconnecting with the security bolt box 50 by attachment bolts.
Side panels 70 include outer portions 72 and inner portions 74. The outer portion 72 includes an outer surface or facia plate 73, and the inner portion 74 includes an inner surface 75. Like the top panel and bottom panel, the inner portion 74 is stepped in relation to the outer portion 72 creating a rabbet face 76, which extends the length of the side panels, in a direction orthogonal to width W of the top panel 30 and bottom panel 40. However, unlike the top panel 30 and the bottom panel 40 which are stepped down on all four sides, the top and bottom surfaces of the inner portion 74 remain flush with the outer portion 72. Again, upper and lower edges of the inner surfaces 75 of the side panels 70 include apertures for receiving attachment bolts (not shown) that extend through the security bolt boxes 50 to join the side walls 70, back wall 60 and top and bottom panels 30 and 40.
Referring now to
Referring now to
a and 4b show the next steps involved in the construction of the side panel. First, attachment bolts 57 are fitted through the attachment bolt apertures 58. The attachment bolts 57 are then fitted with attachment plate spaced 63. Thereafter a layer of expanded metal 90 is placed within the shell and covers the entire shell bottom plate 86 with the exception of the space occupied by the locking bolt aperture covers 89. Next, the attachment bolts 57 are fitted through an attachment bolt plate 62 and locked into place by attachment nuts 61. Then, a second layer of expanded metal 90 is positioned with the shell over the first layer.
a and 5b detail the final steps of construction. The second layer of expanded metal 90 is secured in place by support brackets 94 which are held in place by support bolts 97. Then, a single pour of high density concrete 100 is poured into the shell. Then the shell is vibrated to permit the concrete to settle, and the concrete is allowed to set. Importantly, the panel is constructed with the smaller, inner portion down so that only one pour is necessary. At this point all that is required is the attachment of a cover or fascia plate of any desired material which can be glued or otherwise attached to the exterior of the panel to provide any desired appearance. This step can be performed before or after the construction of the safe.
Construction of the top and bottom panes 30 and 40 follow generally the same method of construction. Likewise, the door 21 is a panel and does not require any special top and bottom filler panels.
It should be noted that the concrete can be formulated in accordance with the requirements of the application. For example, high density concrete can be used for high security application, while ready mix or other more economic concrete mixtures can be used in connection with lower security applications. Further, the other components of the panels, i.e. the expanded metal or reinforcement plates or aluminum or stone can be varied as desired.
After the panels set, the attachment bolts 57 and anchor bolts are removed from the panels. Security bolt boxes 50 are then placed on both the top and bottom panels 30 and 40, and are fixed in place with the anchor bolts which pass through the anchor bolt apertures 56 of the security bolt box 50 and into security anchor bolt apertures at the top and bottom panel 30 and 40 where they are locked into place by anchor nuts 61 which remain within the panels from the panel fabrication process. The back and side panels 60 and 70 can then be attached to both the top and bottom security bolt boxes 50 and are fixed into place by the attachment bolts which pass through the attachment bolt apertures of the security bolt boxes fixed into place by the attachment nut to form the basic enclosure of the safe. Finally a hinged door can be affixed to the open wall to provide a complete security enclosure. Importantly, the on-site assembly process can be conducted on a ground-up basis. In other words, the bottom panel is positioned in a desired location and then the back and side panels placed thereon and attached thereto. The bottom thereby provides a flat, even work base or foundation. Also, with reference back to
Finally, the inside of the safe can be finished off with a plate 55 that sits on top of upstanding walls 54 of the security bolt box 50. Preferably, such a cover has a depending side wall at one side for covering the forward base seam between the security bolt box and the inner portion 34 or 44 of the top or bottom panel 30 or 40. This cover plate can be screwed down on a bolt box and/or can be hingedly attached to provide for a “secret compartment.” Referring now to
Similarly, the bottom panel 140 includes an outer portion 142 with an outer surface 143 and an inner portion 144 with an inner surface 145. The inner portion 144 is generally smaller than the outer portion 142 in terms of length l and width w. A rabbet face 146 is created on the outer portion 142, which in connection with the perimeter 147 of the inner portion 144, forms a step between the inner portion 144 and the outer portion 142.
Attached to the inner surface 135 of the inner portion 134 of the top panel 130 is a security bolt box generally indicated at 150. Likewise, a security bolt box 150 is attached to the inner surface 145 of the inner portion 144 of the bottom panel 140. The security bolt box 150 includes a bottom face 152 and upstanding walls 154 to form a tray like configuration. The upstanding walls 154 can be interconnected with the bottom face 152 or can be formed through a bending and folding operation as previously described. The security bolt box 150 is attached to the inner portion 134 of top panel 130 and inner portion 144 of bottom panel 140 by means of anchor bolts (not shown) which extend through the anchor bolt box apertures 156 in the security bolt box 150. The security bolt box 150 is also provided with attachment bolt apertures 158 extending about the upstanding walls 154 for receiving attachment bolts not shown to attach side and back panels 170 with the top and bottom panels 130 and 140 to form a safe. Importantly, the upstanding side walls 154 of the security bolt box 150 are recessed from the edges of inner portion 144 to provide an exposed portion of the inner surface 145 of inner portion 144 for facilitating interconnection of the top and bottom panels with the side and back panels 170.
The side and back panels 170 include outer portions 172 and inner portions 174. The outer portions 172 include an outer surface 173 and the inner portions 174 includes an inner surface 175. Like the top panel and bottom panel, the inner portions 174 are stepped in relation to the outer portion 172 creating a rabbet face 176 which extends about all four sides of the side and back panels 170. Upper and lower surfaces of inner surfaces 175 of the side and back panels 170 include apertures for receiving attachment bolts (not shown) that extend through the security bolt boxes 150 to join the side walls 170, back wall 170 and top and bottom panels 130 and 140.
Front panel 121 is constructed similarly to side and pack panels 170 with an outer portion and a stepped down inner portion along all edges of the outer portion. The front panel 121 can be hingedly attached to one side wall 170.
The panels shown in
Referring now to
The panels shown in
In
In the cross section illustrated in
Applicant's development of a manner in which to secure a double door safe, vault or bunker constructed of Applicant's modular panels or for conventional double door assemblies for safes, vaults or bunkers is first illustrated in
Mounted on the rear surface 426 of first door 402 is a first longitudinal bolt channel 428 and a second longitudinal bolt channel 430. First and second longitudinal bolt channels 428 and 430 are C-shaped sections as illustrated in
First longitudinal bolt channel 428 is positioned proximate to the vertical outer edge 406 of first door 402 with lip member 438 oriented so that it is extending towards the seam 420 formed between first door 402 and second door 404.
Second longitudinal member 430 is positioned along the inner edge 416 of first door 402 which is the seam 420 formed between first door 402 and second door 404 with its lip member oriented towards the outer edge 406 of first door 402. First and second longitudinal bolt channels 428 and 430 are secured to the inner surface 426 of first door 402 by a plurality of threaded fasteners or bolts 440 which are secured through elongated planar base web 423 into the panels 300 forming first door 402.
First longitudinal bolt channel 428 has a plurality of fixed rods 442 or deadbolts secured to perpendicular side wall 436 and extending through apertures 444 in opposing perpendicular side wall 434, the rods 442 or deadbolts extending beyond the outer edge 406 of first door 402.
Second door 404 has a similar C-shaped first longitudinal bolt channel 450 positioned along its outer edge 408 with identical fixed rods 446 or dead bolts exending beyond the outer edge 408 of second door 404. First longitudinal bolt channel 450 of second door 404 also has a plurality of apertures 452 in perpendicular side wall 436 for receipt of movable throw bolts described hereafter when the door is in an unlocked and open position. First longitudinal bolt channel 450 of second door 404 is secured to second door 404 in a manner similar to that described with the longitudinal bolt channels of door 402.
Second door 404 has a second C-shaped longitudinal bolt channel 454 (
Perpendicular side walls 458 and 460 of second C-shaped bolt channel 454 of door 404 has at least one aligned aperture guide 464 formed therein for the passage of movable throw bolts as described hereafter.
In operation, with the double door 400 closed and in a locked position, one seeking entry into the safe, vault or bunker, would enter in the appropriate combination or code on the keypad 24. The entering of the proper code or combination would cause a releasing mechanism to become unlocked on the interior surface of the double door opposite the throw bolt wheel 414. The user would then rotate the throw bolt wheel 414 which in turn would engage linear toothed gear 478 on one of the throw bolts 472 by means of rounded tooth gear 480 such that all of the horizontal throw bolts 472 and support bar 476 would move away from seam 420 of double door 400 and become disengaged from second longitudinal bolt channel 430 on first door 402 and be withdrawn such that second end 475 of horizontal throw bolts 472 are positioned within second longitudinal C-shaped bolt channel 454 of second door 404. The user would then engage the handle means 23 on first door 402 to open first door 402 and subsequently open second door 404 allowing access to the safe, vault or bunker through the opened double doors. In closing and securing the safe, vault or bunker, the aforementioned steps would be taken in reverse. First, door 404 would be closed and then door 402 would then be closed. The user would then engage the throw bolt wheel 414 and rotate it so that the horizontal throw bolts 472 would again extend through second C-shaped longitudinal bolt channel 454 of door 404, across seam 420 formed between door 404 and door 402 and into second longitudinal C-shaped channel 430 on door 402. The user would then enter an appropriate code on the keypad 24 which would again engage the locking device on the interior of door 404. The horizontal throw bolts 472 are now in a locked engaging position and access to the safe, vault or bunker cannot be had without proceeding with the opening process as heretofore described.
This assembly illustrated allows for a minimum of four contact points for securing the double doors in a locked and secure position. Four contact points eliminate rattle in the doors by allowing more contact point pressure. The number of contact points can be increased by increasing the number of bolt channels on door 402. The concomitant increase in number of bolt channels would require an increase in the length of the throw bolts and this would only be limited by the width of the door which would dictate the amount of room available for the throw bolt mechanism when the door was in the unlocked or unsecure position. It eliminates the need as required by the prior art for their to be vertical throw bolts on the interior of the double doors such that one of the doors could be opened, but the second door could not be opened until the user had reached inside and released the vertical throw bolts from their locked and secured position. The current assembly provides for security of the safe, vault of bunker with less mechanical operation. Still further, the securing means disclosed herein, allows for a safe, vault or bunker having a double door, to be erected or fabricated in situ because of the use of modular panels and the modularity of the locking mechanism. Still further, the locking and securing mechanism as disclosed herein can have application to a double door utilized in a safe vault or bunker of conventional construction, e.g. not of modular panels, without departing from the spirit and scope of the invention.
While the present invention has been described with respect to the exemplary embodiments thereof, it will be recognized by those of ordinary skill in the art that many modifications or changes can be achieved without departing from the spirit and scope of the invention. Therefore it is manifestly intended that the invention be limited only by the scope of the claims and the equivalence thereof.
This is a continuation-in-part application of U.S. Patent Application Serial No. US2002/0166483, filed May 14, 2002, published Nov. 14, 2002, which is a continuation-in-part application of U.S. patent application Ser. No. 09/526,388, filed Mar. 16, 2000, now U.S. Pat. No. 6,273,007, issued Aug. 14, 2001, which was a divisional application of U.S. patent application Ser. No. 09/271,714, filed Mar. 18, 1999, now U.S. Pat. No. 6,044,776, issued Apr. 4, 2000. The entire disclosures of these related applications are expressly incorporated herein by reference.
Number | Date | Country | |
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Parent | 09271714 | Mar 1999 | US |
Child | 09526388 | Mar 2000 | US |
Number | Date | Country | |
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Parent | 10145402 | May 2002 | US |
Child | 10912304 | Aug 2004 | US |
Parent | 09928928 | Aug 2001 | US |
Child | 10145402 | May 2002 | US |
Parent | 09526388 | Mar 2000 | US |
Child | 09928928 | Aug 2001 | US |