This application is a divisional that claims the benefit of application Ser. No. 16/616,698 filed Nov. 11, 2009. Furthermore, application Ser. No. 16/616,698 is hereby incorporated by reference.
Pin tumbler locks generally feature four primary components: an outer casing, a plug, a locking mechanism and a series of parallel pin stacks. Formed through the casing is a cylindrical bore within which the cylindrical plug is rotatably housed. Opening at the front end of the plug is a slot, or “keyway,” that extends axially into it and is configured to receive a key having a specific cut. At the rear end of the keyway typically is a lever or cam arrangement that actuates the locking mechanism to engage or release the lock upon relative rotation of the plug and casing. Formed within both the casing and plug is a parallel series of aligned holes (typically, four to six, but can be more or less) that open to the keyway and extend radially upward (when the keyway's front opening is vertically oriented) into the casing where their respective upper ends are closed. The plug and casing portions of these aligned holes meet along an imaginary plane line commonly referred to as the “shear line.”
Within each aligned hole is a tumbler pin stack defined by a spring-loaded “driver pin” pressing downward against a sliding “key pin.” When the keyway is empty (i.e., no key is within it) the bottom of each key pin rests along a short flange that juts into the keyway and runs transverse to the pin axis to prevent key pins sliding completely down into the keyway slot. The upper ends of the driver pins abut coil springs that force the driver pins, and therefore the key pins, down toward the keyway.
When no key is filling the keyway, either the driver pin or key pin within each pin stack straddles the shear line and thereby collectively prevent the plug from rotating within the casing. Moreover, because the key pins are not all uniform in length (the driver pins are), when a key that is not cut to operate with the specific lock at hand is inserted into the keyway, one or more of the key pins and/or driver pins will be positioned straddling the shear line. However, when the proper key is inserted, the flat top of each key pin will abut the bottom of its driver pin counterpart precisely at the shear line boundary between the plug and casing. This precise alignment of the pin contact surfaces with the shear line renders the pin stacks ineffective in inhibiting plug rotation so that the locking mechanism can be released by delivering torque to the plug via the key.
in situations in which a pin tumbler lock must be opened, but a properly cut key is not available to the lock owner, the owner or a locksmith will likely be forced to either destroy the lock or employ a lock “picking” or “bumping” technique in order to open a lock. Generally speaking, lock picking involves manipulation of all the existent pin stacks, in one-by-one sequence, until they are all aligned with the shear line so as to permit plug rotation. A variety of devices, ranging from crude took to more sophisticated instruments have been recognized as effective in picking pin tumbler and other types of locks. In contrast, lock bumping is a technique practiced exclusively on pin tumbler locks. Bumping basically involves utilization of a specially cut key to impart to the key pins and, in turn, to the driver pins an impact force that causes each driver pin and key pin pairing to momentarily separate such that all of the driver pins are elevated entirely above the shear line, while all key pins remain entirely below it. Bumping further requires that a rotational force be applied to the plug during that extremely brief moment of pin stack displacement.
That the present inventor is aware, all prior art devices known to be effective in opening pin tumbler type locks, be they picking devices or bumping devices, are designed to manipulate the pin stacks such that each driver pin ends up being disposed entirely within a lock's outer casing while each key pin is disposed entirely within its plug. Depending on the sophistication of the particular tools used, lock picking can be a tedious proposition simply due to the incremental manner in which each pin stack must be properly aligned with the shear line before the locking mechanism can be released. Lock bumping can also be difficult due to the delicateness and precise timing that may be needed in applying to the key pins an impact force of appropriate magnitude and direction to cause the desired separations of the key pins and driver pins about the shear line while also initiating plug rotation during the fleeting moment in which the pins are so displaced. Consequently, it can be appreciated that there exists a need for a new technique for opening pin tumbler locks that represents an alternative to known picking and bumping techniques, and there is a concomitant need for tools that would enable a user to practice such a technique without having acquired any particular expertise or exhibiting any particular skill. The present inventor submits that the present system of tools and his conceived method for using them on a pin tumbler lock substantially fulfill these outstanding needs.
The present invention generally relates to non-destructive lock picking, and it is specifically directed to a system of tools used for releasing a lock of the “pin tumbler” type in a novel fashion that neither damages the lock nor requires use of a typical lock key.
It is an object of the present invention to provide tools for actuating release of any lock that employs a pin tumbler mechanism without the intended key.
It is an associated object of the present invention to provide at least one combination of tools that a person possessing no adeptness whatsoever at lock picking can easily use to practice the instant lock releasing method.
one aspect of the invention, pin tumbler locks are opened in a manner that is quite unconventional in the respect that it does not involve an aligning of driver and key pin contact surfaces with the imaginary shear line between the plug and outer casing elements of a pin tumbler lock, hut rather involves using a system of tools to press key pins beyond the plug's periphery and entirely into the outer casing, along with their abutting driver pins, so that the bottoms, not the tops, of the key pins become coplanar with the shear line. In distinguishing it from well-known picking and bumping techniques, the present inventor has coined the term “jamming” (as entire pin stacks are essentially “jammed” above the shear line) in reference to the pin tumbler lock releasing technique performed using the system of the present invention.
In another aspect of the invention, the aforedescribed jamming technique can be manually implemented using, combination, two, three, or four devices which include (1) a pin stack lifting tool, (2) a key having a uniformly toothed blade, (3) a shim for providing underlying support for the key, and (4) a common torque wrench to aid in turning a lock plug.
Preferably, the lift device comprises a handle as well as a blade that can be inserted into an upper portion of most pin tumbler lock keyways. The key device similarly comprises a handle and a blade that has the same vertical profile as that of the lift blade. However, along the key blade is a series of uniformly spaced teeth that are adapted to fit into the vertical holes formed within the lock plug (those in which pin stacks reside). The respective thicknesses of the blade portions of the lift and key devices are such that both blades snugly fit side-by-side into the keyway. The shim device also comprises a handle and blade, and it is configured so that its blade can be wedged underneath the key blade in order that the key teeth push the key pin bottoms up into alignment with the shear line. Finally, in some embodiments of the present invention, a torque wrench can be inserted into the keyway next to the shim device to provide the user a moment arm for transmitting torque that rotates the plug and disengages the lock.
It should be noted that the term “blade,” as it is used throughout this disclosure, generally denotes a portion of the pertinent instrument that is relatively elongate and is adapted to be inserted into a typical keyway, but does not necessarily imply anything regarding the contour or sharpness of the edge(s) of that portion nor any other of its structural aspects.
This disclosure, as defined by the claims that follow and as illustrated, by way of example, in the accompanying drawings, relates to an apparatus system and method for releasing pin tumbler-type locks. Most of the accompanying drawings depict the system being used on a pin tumbler padlock 60. This particular lock 60 comprises a cylindrical plug 80 disposed within an outer casing 70. The lock 60 has a keyway 82 and four pin stacks that each comprise a driver pin 68 and a key pin 64 disposed within aligned vertical apertures, or “tumbler pin holes,” formed within both its plug 80 and casing 70. Coil springs 68 are mounted to both the closed top ends of the pin holes and the driver pins 68 to bias both pins 68, 64 downward. The lock 60 also features a locking mechanism comprising a pair of oppositely oriented cams 96, 98 that pivot, upon rotation of the plug 80, to lock and release a spring-loaded shackle 90. Nevertheless, pin tumbler locks adapted for use with dwelling doors (interior and exterior), vehicles, etc, may be operated upon using the present system in the present manner.
It should be understood that the presently disclosed lock releasing system has utility in the opening of pin tumbler locks generally, and its relevance is not limited to pin tumbler-type locks of the particular configuration depicted in the accompanying drawings and described above and throughout this disclosure. In fact, the present system is compatible with a plethora of pin tumbler locks of varying features, such as differences in total numbers of tumbler pin stacks, in number of pins within individual stacks (e.g., some pin tumbler locks may include an additional “spacer” pin(s) situated between each driver pin and key pin) and in the configurations of their locking mechanisms. Of course, certain specifications of the instruments employed in the present invention may need to be varied accordingly.
The lift device 30 also comprises a handle 32 and a blade 34. As shown in
The first step of the preferred “jamming” method of the present invention involves simultaneously inserting the key 20 and lift device 30 into an upper portion of the keyway 82, as shown in
Theoretically, the key 20 can then be carefully raised, without its handle 22 being rocked upward or downward, in order to press the key pins 64a-d in alignment with the shear line 78. However, because that would require a user to manually exert precisely constant and identical upward pressure on every key pin 64a-d while simultaneously attempting to revolve the key handle 22 about an axis that is offset from the key handle's rotation axis, it is preferred that a shim device 10 be used as an underlying support for the key 20. Therefore, as a third step shown in
Because the sum of the height H1 of the key blade base 20 and the height H3 of the shim blade 14 (see
Finally, as a fourth step, the shim 10 is turned clockwise to transmit torque to the plug 80. As the plug 80 is then rotated, the cams 96, 98 also rotate and dislodge from conforming notches 94, 92 along the shackle 90. Consequently, one end of the spring-loaded shackle 90 releases from the casing 70 as shown in
Alternatively, and as illustrated in
It is understood that substitutions and equivalents for and combinations of various elements set forth above may be obvious to those skilled in the art and may not represent a departure from the spirit of the invention. Therefore, the full scope and definition of the present invention is to be set forth by the claims that follow.
Number | Name | Date | Kind |
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4667494 | Joosten | May 1987 | A |
6148652 | Magini et al. | Nov 2000 | A |
7434431 | Armstrong et al. | Oct 2008 | B2 |
Number | Date | Country | |
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Parent | 12616698 | Nov 2009 | US |
Child | 13195474 | US |