Mogul driver lp

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Other attempts have been made to produce a pick-proof lock. These have included locks which use a key having a pivoted free end which is adapted to turn or rotate a predetermined angular distance upon full insertion of the key into the lock to engage an element which would not otherwise be engageable by a straight shank.

When the key is turned approximately degrees, the pivoted end portion moves, due to gravity, to a position which permits the same to engage a latch. Further rotation of the key causes the latch to move. In order to provide somewhat more control over the action of the key, and more particularly over the pivoted free end thereof, further constructions have been proposed wherein the position of the pivotally mounted free end may be controlled at the exposed end of the key or in the region of the gripping portion thereof.

Such constructions are disclosed in U. In all of these patents, however, the movement of the pivoted end towards the final or operative position only causes the pivoted portion to engage a latch or the like and could not, in and of itself, be utilized with the more modern and more complex locks which are in use today.

Other locks which are known in the prior art include a key which has a pivotally mounted finger thereon, the finger itself being provided with a cam surface which engages an abutment upon insertion of the key into the cylinder to cause the finger to be deflected from its initial axially aligned position to one where the fingers may be displaced approximately 90 degrees from that initial position.

The last described construction has the disadvantages above described since the spring loaded pins or plungers are mounted substantially in line with the keyhole and, therefore, this allows for the lock to be defeated by simply drilling through the keyhole.

Another such lock is described in U. In accordance with this design, each of the bores of the core are flanked by two relatively shallow recesses, or grooves, extending over a limited arch of the periphery of the barrel, or core, the depth of the grooves increasing toward the extremities remote from each bore to form an abutment. Accordingly, when an attempt is made to pick the lock, the core will begin to rotate as soon as the top of a disk lies flush with its periphery.

The end terminations of the driver pins now ride in the grooves, and the maximum angle of rotation, which will be reached after all the tumbler pins have been picked, is fixed by the abutments, which is insufficient to retract a latch controlled by the lock. It can thus be seen that each of the aligned tumbler bores must carry a plurality of relatively small components or elements, some of which must be relied on to carry extreme shear load in the case where an attempt is made to pick the lock.

There are a number of approaches to lock-picking, but most are built around the idea of imparting a certain level of random motion to the pins while placing a certain level of torque on the lock cylinder.

First, in certain embodiments the lock cylinder assembly employs two or more separate arrays of pass key pins. With this arrangement, a person attempting to pick the lock cylinder assembly would have to contend with all pin arrays simultaneously, rather than only a single pin array as found in many earlier designs.

Rotation of the cylinder blank in the cylinder bore can only be performed when all of the pass key pins are properly aligned along the shear lines of the lock cylinder assembly. Placing the pins in separate arrays makes picking of the lock cylinder assembly more difficult as compared to picking of a more traditional lock cylinder assembly having its pass key pins aligned in a single array.

In addition to the advantages described above, certain embodiments of the lock cylinder assembly of the present invention incorporate certain features designed to prevent the defeat of the lock cylinder assembly by destructive means. It is known that traditional lock cylinder assemblies can be defeated through the use of drills or similar metal-cutting tools to either destroy the pass key pins or remove the surrounding material to allow removal of the pass key pins. Certain embodiments of the lock cylinder assembly of the present invention incorporate a number of features designed to thwart the defeat of the lock cylinder assembly through such methods.

First, the arrangement of the pass key pins in separate arrays requires that separate cuts be made into the lock housing mogul or cylinder blank in order to defeat the lock cylinder assembly. Second, certain embodiments of the lock cylinder assembly of the present invention incorporate separate sets of hardened dowel pins to prevent drilling through the lock housing mogul in the area of the side driver pins and top driver pins.

Third, certain embodiments of the lock cylinder assembly of the present invention incorporate a hardened cylinder shield behind the front face of the cylinder blank to prevent drilling through the cylinder blank in the area of the top pass key pins or the side pass key pins.

In certain embodiments of the present invention, the cylinder shield is designed so that the area protected by the cylinder shield partially or completely overlaps the area protected by the dowel pins. For a more complete understanding of the features and advantages of the present invention, reference is now made to the detailed description of certain embodiments of the invention along with the accompanying figures in which corresponding numerals in the different figures refer to corresponding parts and in which: [].

While the making and using of various embodiments of the present invention are discussed in detail below with reference to certain contexts, it should be appreciated that the present invention provides many applicable inventive concepts that can be embodied in a wide variety of specific contexts.

The specific embodiments discussed herein are merely illustrative of specific ways to make and use the invention and do not delimit the scope of the invention.

As can be seen in FIG. Lock housing mogul has several additional arrays of bores, which include top key pin bore and side key pin bore , sized to accept key pins, including top pass key pins and side pass key pins and In the embodiment shown in FIG.

Further, there is no requirement that each array of key pin bores include the same number of key pin bores. Further, side pass key pin bore of FIG. In alternate embodiments, the side pass key pin bore may be aligned with different planes, or may be aligned with a single plane not orthogonal to plane P1 without departing from the spirit and scope of the present invention. Disposed within each key pin bore, such as key pin bore [] or , there is a pass key pin such as pass key pin , , or The mogul cylinder assembly of FIG.

Disposed within the key pin bores [] and and behind the pass key pins - are a set of driver pins, which include side driver pins and and top driver pins With all pass key pins - and driver pins and installed in the mogul cylinder assembly , the pass key pins - are disposed principally in the cylinder blank , while driver pins and are disposed principally in the body of the lock housing mogul Disposed within the key pin bores [] and behind each of the driver pins and in the mogul cylinder assembly is a compression spring , , or Each compression spring , , or is held captive in the respective key pin bore or by a socket screw , , or As installed, the compression springs , , and act to force the driver pins and , and therefore the pass key pins , , and , away from the socket screws , , and and toward the center of the cylinder blank If the pass key pins [] , , and were the exact same length as the bores in the cylinder blank , then the mating points between the pass key pins - and the driver pins - would be perfectly aligned with the outside surface of the cylinder blank , and the cylinder blank could freely rotate within the cylinder bore within the lock housing mogul without the necessity for any key.

In order for the mogul cylinder assembly [] to function as a keyed lock, it is necessary for at least one of the pass key pins , , or to have a length different than the depth of the pin bore within which it is disposed. Under this circumstance, a pass key pin , , or will be recessed within, or will protrude from, the pin bore in which it sits.

This recessed or protruding position of the pass key pin , , or will cause an interference between one of pass key pins - or one of driver pins - , and the outer surface of cylinder blank Due to this interference, the cylinder blank cannot be rotated within lock housing mogul without shifting the relevant pass key and driver pin within the bores and within which they are disposed so as to align the contact point between the pins with the outer surface of the cylinder blank When such a key is fully inserted into the broach of the cylinder blank , the pattern on the key will push the pass key pins - to appropriate heights to allow for rotation of the cylinder blank within the lock housing mogul The lock cylinder assembly [] of the present invention incorporates a number of features designed to defeat attempts to pick or destroy the lock.

First, the lock cylinder assembly employs three separate arrays of pass key pins , , and With this arrangement, a person attempting to pick the lock cylinder assembly would have to contend with all three pin arrays simultaneously, rather than only a single pin array as found in many earlier designs.

As noted above, rotation of the cylinder blank in the cylinder bore can only be performed when all of the pass key pins , , and are properly aligned along the shear lines of the lock cylinder assembly Placing the pins - in three separate arrays makes picking of the lock cylinder assembly at least three times as difficult as picking of a more traditional lock cylinder assembly having its pass key pins aligned in a single array.

In addition to the advantages described above, the lock cylinder assembly [] of the present invention incorporates certain features designed to prevent the defeat of the lock cylinder assembly by destructive means. The lock cylinder assembly of the present invention incorporates a number of features designed to thwart the defeat of the lock cylinder assembly through such methods.

First, the arrangement of the pass key pins - in three separate arrays requires that at least three separate cuts be made into the lock housing mogul or cylinder blank in order to defeat the lock cylinder assembly Second, the lock cylinder assembly of the present invention incorporates three separate sets of hardened dowel pins , , and to prevent drilling through the lock housing mogul in the area of the side driver pins and and top driver pins Third, the lock cylinder assembly of the present invention incorporates a hardened cylinder shield behind the front face of the cylinder blank to prevent drilling through the cylinder blank in the area of the top pass key pins or the side pass key pins and In certain embodiments of the present invention, the cylinder shield is designed so that the area protected by the cylinder shield partially or completely overlaps the area protected by the dowel pins -