Patent Grant
9540844
The present disclosure generally relates to lock cylinders, and more particularly but not exclusively relates to assemblies for use in re-pinning lock cylinders.
Re-pinning a lock cylinder can pose certain difficulties. Persons that are inexperienced or inattentive to the task may unintentionally eject one or more pins that are not intended to be removed. This can result in a difficult and time consuming task that the consumer often foregoes in favor of returning the disassembled lock to the manufacturer as damaged goods. These issues may be of particular concern to lock manufacturers to whom an otherwise operational lock cylinder may be returned as a damaged product. Therefore, a need remains for further improvements in this technological field.
An exemplary lock re-pinning assembly includes two or more housings and a mounting block. Each housing is configured for use with a corresponding one of a plurality of lock cylinder shells. Each of the housings includes a cylindrical chamber and a channel. The chamber is configured to receive the body of the corresponding shell, and the channel is configured to receive the tower of the corresponding shell. The mounting block includes a mounting block having two or more sections. Each section is configured for use with a corresponding one of a plurality of lock cylinder plugs. Each section includes a cavity configured to receive an end of at least one of the housings, and a cylindrical follower bar having a diameter substantially equal to a diameter of the corresponding plug. Each of the housings is releasably engageable with the mounting block at each of the plurality of sections.
For the purposes of promoting an understanding of the principles of the invention, reference will now be made to the embodiments illustrated in the drawings and specific language will be used to describe the same. It will nevertheless be understood that no limitation of the scope of the invention is thereby intended. Any alterations and further modifications in the described embodiments, and any further applications of the principles of the invention as described herein are contemplated as would normally occur to one skilled in the art to which the invention relates.
With reference to
The lock plug 120 includes a keyway 122, a plurality of bottom pin chambers 124, and a plurality of driven or bottom pins 126 positioned in the bottom pin chambers 124. When a key is inserted into the keyway 122, the key urges the bottom pins 126 radially outward, and the bottom pins 126 urge the top pins 116 into the tower 112. If the key is a proper key, ends of the top and bottom pins 116, 126 align with a shear line between the plug 120 and the shell 110, thereby enabling rotation of the plug 120.
In order to re-pin the cylinder 100, the plug 120 must be removed from the shell 110 such that one or more of the bottom pins 126 can be replaced and/or rearranged for recombinating. When the plug 120 is removed from the shell 110, the springs 118 will tend to eject the top pins 116 from the shell chambers 114 and into the cavity 113. This ejection of the top pins 116 is sometimes referred to as “exploding”, and the resulting state of the cylinder 100 is often referred to as a “blown” condition.
In an effort to prevent the cylinder 100 from exploding, certain conventional re-pinning operations include inserting the follower bar 130 into the shell 110 as the plug 120 is removed, such that the follower bar 130 takes the place of the plug 120 and retains the top pins 116 within the tower 112. The follower bar 130 may be inserted into the shell 110 at the same rate as the lock plug 120 is removed from the shell 110, such that a contacting interface between the follower bar 130 and an end 128 of the plug 120 is maintained as the plug 120 slides out of the cavity 113. If the person performing the re-pinning operation is inexperienced or inattentive to the task of inserting the follower bar 130, a gap 102 may form between the follower bar 130 and the plug 120. When the gap 102 occurs, one or more of the top pins 116 may be ejected from the pin chambers 114 and into the gap 102, thereby resulting in a blown condition of the cylinder 100. Without proper training and locksmith tools, the task of properly reassembling a cylinder 100 in the blown condition may be difficult and time consuming operation.
When the lock re-pinning assembly 200 is assembled with the lock cylinder 100, the lock cylinder 100, the follower bar 230, and the spring 240 are retained within the front and rear housings 210, 220. The follower bar 230 is positioned between the lock cylinder 100 and the spring 240 such that the spring 240 biases the follower bar 230 against the lock plug 120 to prevent formation of a gap. This biasing force effectively couples the lock plug 120 and follower bar 230 such that the lock plug 120 and follower bar 230 are stationary with respect to one another. As a result, any axial movement of the lock plug 120 within the assembly 200 may be mimicked by the follower bar 230, thereby maintaining tight contact or engagement between the two elements.
In order to perform the re-pinning operation, the lock cylinder 100 is placed in the front housing 210, preferably in a locked state to keep the lock cylinder 100 in an assembled configuration. With the follower bar 230 and spring 240 positioned in the rear housing 220, the two housings 210, 220 may be joined or mounted together and secured with the bayonet attachment features 211, 221. The lock cylinder 100 is placed in a first configuration (
When the lock cylinder 100 is in the first configuration, the key 104 may be inserted into the plug 120 through the opening 216. When the key 104 is inserted, the pins 116, 126 align with the shear line of the lock cylinder 100, thereby allowing the shell 110 to rotate with respect to the plug 120. The cylinder 100 may then be placed in a second configuration by rotating the shell 110 about the lock plug 120 to a second shell position, all while the plug 120 remains in the first plug position. In the illustrated embodiment, the second shell position is offset from the first shell position by approximately 45°, although other offset angles are contemplated. When the shell 110 is in the second shell position, the top pins 116 are captured within the pin chambers 114 and are biased into contact with the outer surface of the lock plug 120 via the springs 118. Additionally, the bottom pins 126 are retained within the pin chambers 124 between the key 104 and the shell 110.
Once the shell 110 has been rotated to the second position, the tower 112 is aligned with the channel 214 and the shell 110 is axially movable with respect to the plug 120. The cylinder 100 may then be placed in a third configuration (
With the shell 110 in the third shell position, the bottom pin chambers 124 and the pins 126 are exposed. The user may then remove the bottom pins 126 and the key 104 from the plug 120. With the plug 120 empty, a new key 104 may be inserted into the plug 120, and a corresponding set of new bottom pins 126 may be inserted into the bottom pin chambers 124. Due to the fact that the new set of bottom pins 126 corresponds to the new key 104, the ends of the bottom pins 126 will be aligned with the outer surface of the plug 120. Once the bottom pins 126 have been replaced, the above-described steps may be followed in reverse order to reassemble the newly re-pinned lock cylinder 100.
It should be appreciated that the outer edges and general cross-sectional profile of the follower bar 230 and the lock plug 120 may be substantially congruent to provide a smooth transition for the top pins 116 as they travel along the outer surfaces of the plug 120 and the follower bar 230, such that the top pins 116 are retained within the top pin chambers 114. In addition, the outer diameter OD of the follower bar 230 may correspond to the inner diameter ID of the shell 110, thereby enabling the shell 110 to easily and smoothly translate over and along the follower bar 230 without interference. When the assembly 200 is assembled with the lock cylinder 100, the lock plug 120 and the follower bar 230 may share a common longitudinal axis such that the two parts work in unison to maintain alignment of the shell 110 with respect to the lock plug 120 throughout the re-pinning process.
The housing 310 is substantially cylindrical, and is configured to receive a lock shell of a corresponding format or configuration. For example, the housing 310 may be configured to receive the lock shell 110, or a shell of a similar format or configuration. The housing 310 includes a chamber 311 sized and configured to receive the body of the corresponding shell format such as, for example, the body 111 of the shell 110. The chamber 311 extends from an open first end of the housing 310 toward a partially closed second end of the housing 310. In other words, the chamber 311 extends proximally from the distal end of the housing 310.
The housing 310 also includes a partial circumferential opening 312 having an axial length and an angular span. The axial length of the opening 312 corresponds to the axial length of the tower 112, and the angular span of the opening 312 is such that the shell 110 can rotate between the first and second shell positions described above. In other words, the opening 312 is sized and configured to receive the tower 112, and to enable limited rotational movement of the shell 110 when the tower 112 is received therein. The housing 310 also includes a channel 313 which extends proximally from the distal end of the housing 310 and connects to the opening 312. The width of the channel 313 corresponds to the width of the base 112′ of the tower 112 such that the tower 112 can travel through the channel 313 and into the opening 312 as the cylinder 100 is inserted into the housing 310.
The second or proximal end of the housing 310 is partially enclosed by a face 315 which includes an opening 314 through which a key may be inserted. The housing 310 may further include one or more alignment features to provide proper alignment of the housing 310 with respect to the mounting block 400. In one form, the alignment features may include a post 316. The housing 310 may further include one or more attachment features by which the housing 310 can be releasably coupled to the mounting block 400 such as, for example, arms 318 including hooks 318′. The housing 310 may further include indicia 319 relating to the shell format corresponding to the housing 310.
With additional reference to
As depicted in
With continued reference to
With the cylinder 100 in the second configuration, the user may urge the shell 110 toward the mounting block 400. As the shell 110 slides off of the plug 120 and onto the follower bar 414, the tower 112 enters the aligned channels 313, 413. Additionally, the top pins 116 travel along the outer surface of the plug 120, across an interface between the plug 120 and the follower bar 414, and along the outer surface of the follower bar 414. If there is a gap between the plug 120 and the follower bar 414, one of the pins 116 may be urged into the gap such that the pin 116 is no longer positioned in the tower 112. If this occurs, the pin 116 may prevent the shell 110 from moving to the third shell position. Additionally, if the gap is large enough, the pin 116 may fully eject, thereby resulting in a blown cylinder. In order to prevent such complications, the follower bar 414 may include an end portion 415 having a geometry corresponding to the plug end 128 such that the plug-bar interface provides a smooth transition for the pins 116 traveling across the interface. Further details regarding such a feature are described below.
When the shell 110 reaches the third shell position, the cylinder 100 is in the third configuration (
With the new bottom pins 126′ seated in the plug pin chambers 124, the shell 110 may be pushed back onto the plug 120 and rotated to the first shell position such that the cylinder 100 is once again in the first configuration. The key 104′ may then be extracted from the plug 120, and the housing 310 may be unclipped from the mounting block 400. The newly re-pinned cylinder 100 may then be removed from the housing 310 and reinstalled into a lockset such that the lockset is operable by the new key 104′.
The second and third housings 320, 330 are substantially similar to the first housing 310, and similar reference characters are used to indicate similar elements. In the illustrated form, each of the housings 310, 320, 330 includes substantially similar outer diameters, alignment features (such as the post 316), and engagement features (such as the arms 318). Additionally, each of the sections 410, 420, 430 includes substantially similar inner diameters, alignment features (such as the slot 416), and engagement features (such as the groove 418). As such, each of the housings 310, 320, 330 is operable with each of the sections 410, 420, 430. It is also contemplated that that each of the housings 310, 320, 330 may be operable with only one of the sections 410, 420, 430, or that a subset of the housings 310, 320, 330 may be operable with a subset of the other sections 410, 420, 430.
While other forms are contemplated, the illustrated housings 310, 320, 330 are configured substantially identical to one another, and differ only in the axial length of the partial circumferential openings 312, 322, 332. As noted above, the length of the openings 312, 322, 332 may correspond to the length of the tower of the corresponding shell format. Accordingly, the length of the opening 312 of the first housing 310 may correspond to the length of the tower of a first shell format, and the length of the opening 322 of the second housing 320 may correspond to the length of the tower of a second shell format.
The counterweight 340 may serve a number of functions in the assembly 300. In certain forms, the mounting block 400 may be substantially hollow, and the counterweight 340 may be seated in the hollow portion. In other forms, the counterweight 340 may be integrally formed with the mounting block 400. When positioned in the mounting block 400, the counterweight 340 may counteract torques produced when the housing 310 and the cylinder 100 are attached to the mounting block 400. Thus, the counterweight 340 may balance the assembly 300 to prevent tipping during the re-pinning operation. The counterweight 340 may further include a recesses 342 configured to receive the housings 310, 320, 330, and arms 344 configured to retain the housings 310, 320, 330 within the mounting block 400. In other words, the counterweight 340 may provide a place to store the housings that are not currently being used, thereby discouraging the housings from being separated from the rest of the assembly 300.
With additional reference to
The back ends of each of the illustrated plugs 530, 540, 550 have different configurations, each of which may be configured for use in a particular type of lockset. For example, the end 538 of the first plug format 530 has a generally circular recess 539. The first plug format 530 may, for example, be utilized in lock cylinders configured for use with dead bolts, handle sets and/or electronic locks. The end 548 of the second plug format 540 includes a generally elliptical protrusion 549, the longitudinal axis of which is arranged substantially parallel with the pin chambers 544. The second plug format 540 may, for example, be utilized in a lock cylinders configured for installation in a knob. The end 558 of the third plug format 550 includes a generally elliptical protrusion 559, the longitudinal axis of which is arranged substantially perpendicular to the pin chambers 554. The third plug format 550 may, for example, be utilized in a lock cylinder configured for installation in a lever.
While the first housing 310 is operable with shells having a configuration similar to the shell 110, the second and third housings 320, 330 may be configured to receive shells of another format. For example, the second housing 320 may be configured to receive the key-in-lever shell 510. In such a configuration, the dimensions of the opening 322 and channel 323 may correspond to the dimensions of the key-in-lever tower 512, and the indicia 329 may relate to the corresponding shell format 510. The third housing 330 may be configured to receive the SFIC shell 520. In such a configuration, the dimensions of the opening 332 and channel 333 may correspond to the dimensions of the small format tower 522, and the indicia 339 may correspond to the shell format 520. As noted above, each of the housings may differ only in the axial length of the partial circumferential openings. In such configurations, each of the housings may be configured to receive both key-in-lever and SFIC towers, so long as the tower is of an appropriate length.
Similarly, each of the sections of the mounting block 400 may be configured for use with a particular format of plug. For example, each of the follower bar end portions may have a geometry with is configured to mesh with or flushly engage the back or distal end of one of the plug formats. The meshing or flush engagement may ensure proper contact between the front or proximal end of the follower bar and the distal end of the corresponding plug during a re-pinning operation such as that described above.
By way of example, the first section 410 may be configured for use with the first format plug 530, and the end portion 415 of the first follower bar 414 may include a protrusion 417 sized and configured to be received in the circular recess 539. The second section 420 may be configured for use with the second plug format 540, and the end portion 425 of the follower bar 424 may include an elliptical recess 427 sized and configured to receive the elliptical protrusion 549. The third section 430 may be configured for use with the third plug format 550, and the end portion 435 of the follower bar 434 may include an elliptical recess 437 sized and configured to receive the elliptical protrusion 559.
In certain embodiments, the assembly 300 may be configured such that the pin chambers in the plug are oriented vertically during re-pinning operations, thereby facilitating removal and replacement of the driven pins. For example, the mounting block 400 may be operable in a plurality of positions, and in each of the positions a different one of the follower bars may be positioned above and between the other two follower bars. Additionally, the geometries of the follower bar end portions may be provided such that when the back end of the plug is engaged with the end portion of the corresponding follower bar, the pin chambers in the plug are arranged in a vertical orientation.
For example,
As can be seen from the foregoing, the exemplary lock re-pinning assembly 300 is operable to re-pin lock cylinders having a wide variety of configurations. For example, if a lock cylinder includes a key-in-lever shell of the first shell format 510 and a plug of the third plug format 550, the mounting block 400 may be oriented such that first and second sections 410, 420 are positioned below the third section 430. The lock cylinder may be placed in the second housing 320 which corresponds to the first shell format 510. The housing 320 may then be mounted to the third section 430 which corresponds to the third plug format 550. With the housing 320 and lock cylinder coupled to the mounting block 400, the re-pinning operation may proceed as described above.
While the illustrated housings are configured to receive the illustrated shells, it should be appreciated that the assembly 300 may include additional or alternative housings configured to receive lock shells of additional or alternative formats. Furthermore, while the illustrated sections include follower bars configured to matingly, meshingly, flushly, or closely engage end portions of the illustrated plugs, it should be appreciated that the assembly 300 may include additional or alternative sections including bars configured to engage end portions of additional or alternative plug formats. As a result, a single assembly 300 can be utilized to re-pin lock cylinders including a wide variety of shells and plugs of varying formats. Given a particular format lock cylinder, the user need only select the housing corresponding to the shell and the section corresponding to the plug. When the cylinder is placed in the housing and the housing is mounted to the mounting block, the assembly supports and aligns the cylinder during the re-pinning process.
With reference to
The process 600 may proceed to an operation 610 which includes selecting a housing 611 corresponding to the format of the shell 110 of the lock cylinder 100. For example, the selected housing 611 may be the first housing 310. The process 600 may continue to an operation 612 which includes placing the lock cylinder into the selected housing 611. For example, the operation 612 may include inserting the body 111 of the lock shell 110 into the chamber 311 such that the tower 112 passes through the channel 313 and into the opening 312.
The process 600 may continue to an operation 620, which includes selecting a section 621 corresponding to the format of the plug of the lock cylinder. For example, if the plug is of the first plug format 530, the selected section 621 may be the first section 410. The operation 620 may further include orienting the mounting block 400 such that the selected section 621 is positioned above the remaining sections of the mounting block 400.
With the cylinder 100 mounted in the selected housing 611, the process 600 may continue to an operation 622 which includes attaching the housing 611 to the mounting block 400 at the selected section 621. For example, the operation 622 may include engaging the hooks 318′ with the ridges 418′. As a result of the operation 622, the follower bar 414 mates with and supports the distal end of the plug 120. As a result of orienting the mounting block 400 with the selected section 621 above the remaining sections, the driven or bottom pins 126 may be arranged in a substantially vertical orientation, thereby facilitating removal and replacement.
The process 600 also includes an operation 624 which includes inserting the current key 104 to align the pins 116, 126 with the shear line such that shell 110 is movable relative to the plug 120. Once the ends of the pins 116, 126 are aligned with the shear line, the process 600 may continue to an operation 630 which includes moving the shell 110 to expose the bottom pins 126. For example, the operation 630 may include rotating the shell 110 away from home position, and moving the shell body into the mounting block cavity 412 such that the tower 112 extends through the mounting block channel 413. The top pins 116 and springs 118 are retained in the tower 112 via the follower bar 414, thereby preventing the cylinder 100 from exploding.
With the bottom pins 126 exposed, the process 600 may continue to an operation 632 which includes removing the bottom pins 126 from the plug 120. The process 600 may then continue to an operation 634 which includes removing the old key 104 from the plug 120. With the old bottom pins 126 and key 104 removed, the process 600 may continue to an operation 640 which includes inserting a new key 104′ with a new bitting code into the plug 120. The process 600 may continue to an operation 642 which includes inserting the new set of bottom pins 126′ into the plug pin chambers 124. The new bottom pins 126′ correspond to the key code of the new key 104′ such that the ends of the new pins 126′ align with the outer surface of the plug 120.
With the new bottom pins 126′ inserted and aligned with the outer surface of the plug 120, the process 600 may continue to an operation 644 which includes returning the shell 110 to the home position, and may further include extracting or removing the new key 104′. The process 600 may continue to an operation 660 which includes removing the housing 310 from the mounting block 400, and thereafter to an operation 662 which includes removing the re-pinned cylinder 663 from the housing 510. The re-pinned cylinder 663 now has a new key combination, and may be reassembled and re-installed into the lockset.
In one form, a method may include selecting a lock cylinder including a shell, a plug seated in the shell, a plurality of driving pins, and a plurality of driven pins. The shell may have a first shell format selected from a plurality of shell formats, wherein each of the shell formats includes a body and a tower extending from the body. The plug may have a first plug format selected from a plurality of plug formats, wherein each of the plug formats includes a distal end. Additionally, each of the driving pins is positioned at least partially in the tower, and each of the driven pins is positioned at least partially in the plug.
The method may further include selecting a housing from a plurality of housings. Each of the housings may correspond to one of the plurality of shell formats, and each may include a chamber sized and configured to receive the body of the corresponding lock shell format, and a channel sized and configured to receive the tower of the corresponding lock shell format. The selecting the housing may include selecting the housing corresponding to the first shell format.
The method may further include selecting a section of a mounting block, wherein the mounting block includes a plurality of the sections, and each of the sections corresponds to one of the plurality of plug formats. Each of the sections may include a follower bar having an end portion, wherein the end portion is configured to flushly engage at least a portion of the distal end of the corresponding plug format. The selecting the section may include selecting the section corresponding to the first plug format.
The method may further include placing the lock cylinder in the selected housing, coupling the selected housing to the mounting block with the follower bar of the selected section aligned with the plug, and inserting a key into the plug, thereby aligning ends of the driven pins with an outer surface of the plug and enabling movement of the shell with respect to the plug. The method may further include exposing the driven pins. The exposing may include engaging the end portion of the follower bar with the back end of the plug, wherein as a result of the engaging, the follower bar resists axial movement of the plug. The exposing may further include moving the shell toward the mounting block. As a result of the moving, the tower travels along the channel, the follower bar enters the body of the shell and retains the driving pins in the tower, and the driven pins are exposed. The exposing of the driven pins may further include rotating the shell about the plug prior to the moving the shell.
The method may further include removing the key and at least one of the driven pins from the plug, inserting a second key into the plug, and replacing each of the removed driven pins, and wherein as a result of the replacing, an end of each of the driven pins in the plug is aligned with the outer surface of the plug. The method may further include moving the shell away from the mounting block, wherein as a result of the moving, the plug enters the body of the shell, thereby forming a re-pinned lock cylinder, removing the housing from the mounting block, and removing the re-pinned lock cylinder from the housing.
In certain forms, the selected housing further includes an opening, and the placing the lock cylinder in the selected housing includes passing the tower through the channel and rotating the lock cylinder, wherein as a result of the rotating of the lock cylinder, the tower travels along the opening. In certain forms, the tower may travel along the opening and become aligned with the channel as a result of the rotating of the shell about the plug.
While the invention has been illustrated and described in detail in the drawings and foregoing description, the same is to be considered as illustrative and not restrictive in character, it being understood that only the preferred embodiments have been shown and described and that all changes and modifications that come within the spirit of the inventions are desired to be protected.
It should be understood that while the use of words such as preferable, preferably, preferred or more preferred utilized in the description above indicate that the feature so described may be more desirable, it nonetheless may not be necessary and embodiments lacking the same may be contemplated as within the scope of the invention, the scope being defined by the claims that follow. In reading the claims, it is intended that when words such as “a,” “an,” “at least one,” or “at least one portion” are used there is no intention to limit the claim to only one item unless specifically stated to the contrary in the claim. When the language “at least a portion” and/or “a portion” is used the item can include a portion and/or the entire item unless specifically stated to the contrary.
The present application claims the benefit of U.S. Provisional Patent Application No. 61/953,729 filed on Mar. 14, 2014, the contents of which are incorporated herein by reference in their entirety.
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| Number | Date | Country | |
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| Number | Date | Country | |
|---|---|---|---|
| 61953729 | Mar 2014 | US |
