[0004] BACKGROUND [0005] The present invention is directed to a tamper resistant lock and, more specifically, is directed to a reinforced lock that engages a lock closure member in a manner that prevents the lock from being disabled.

[0006] Referring to Figure 31, a typical lock 110, similar to those commonly used with bicycles, is shown. The lock 110 has a U-shaped shackle 112 with two legs 114 that are engageable with a crossbar 116. The crossbar 116 is typically cylindrical and formed of low quality steel 118 covered by rubber 120. A left lock end 122 is typically formed of rubber only. The lock 110 is secured in the engaged position by inserting a bent foot 124 into a first hole 126A and rotating the U-shaped shackle 112 until a notch bearing end 128 is inserted into a second hole 126B. Once the U-shaped shackle 112 is engaged with the crossbar 116, a lock 130 is manipulated to engage lock member 132 with a notch 134 in the notch bearing leg end 128. The lock member is only secured in the U-shaped shackle 112 by metal sliver 133 which is typically an eighth of an inch or less in thickness of generally brittle steel.

[0007] While many years ago the above described conventional lock 110 was initially successful, today's thieves are well aware of many common techniques for quickly and easily disabling such locks. For example, a crowbar, or similar lever is commonly inserted between the legs 114 and, in combination with a fulcrum (which may consist of a lamppost, bike frame, bike rack, or other structure that the lock encloses), spreads the legs 114 generally outwardly causing either the bent foot 124 or the notch bearing end 128 to be disengaged from the crossbar 116. Typically it is the thin metal sliver 133 that is broken from the U- shaped shakle which allows a thief to easily remove the lock. The breaking of the thin metal sliver 133 to remove the lock 110 is why so many disabled locks 110 are found with a broken metal piece inside the crossbar 116. Alternatively, a hardened member can be driven through the rubber end 122 of the lock 110 to deform the bent foot 124 sufficiently to remove the crossbar 116 from the U-shaped shackle 112.

[0008] The easy disabling of the lock 110 makes such locks unsuitable for use today.

Due to the growing popularity of cycling and other outdoor recreational activities, more expensive and specialized sporting equipment such as mountain bikes with shock absorbing members and ultralight composite touring bicycles have been developed. With the increased value of bicycles and other recreational equipment, it is no longer acceptable to use the locks 110 currently available to secure one's possessions.

[0009] Clearly, what is needed is an improved tamper resistant lock, that is easy install, that preferably does not have a rubber end, that can not easily be dismantled using a crowbar or the like, and that is configured to allow use with sporting equipment, such as bicycles, or with any other items, such as to secure metallic shutters used to cover store fronts or the like.

[0010] SUMMARY [0011] One embodiment of the present invention is directed to a lock that is tamper resistant and includes a lock member. Two tubes are disposed on the lock member. Each of the two tubes extend generally outwardly therefrom and each define a bore therethrough.

The lock includes a closure member which has two shafts. The two shafts are inserted through the two tubes and detachable within the lock member when the lock is an installed configuration. A locking mechanism detachably locks the closure member to the lock member when the lock is in the installed configuration wherein the two tubes substantially cover the two shafts.

[0012] Another embodiment of the present invention is directed to a lock that is tamper resistant. The lock includes a lock member having a generally elongated shape and a longitudinal axis. Two tubes are disposed on the lock member. Each of the two tubes extends generally outwardly therefrom and each define a bore therethrough. Each of the two tubes extends generally perpendicularly to the longitudinal axis. A closure member includes a transverse part having an outer surface and two shafts located on the outer surface. The two shafts are inserted through the two tubes and detachably lock within the lock member when the lock is an installed configuration. A locking mechanism detachably locks the closure member to the lock member when the lock is in the installed configuration wherein the two tubes, in combination with the lock member, completely enclose the two shafts.

[0013] BRIEF DESCRIPTION OF THE DRAWINGS [0014] The foregoing summary, as well as the following detailed description of the preferred embodiments of the present invention, will be better understood when read in conjunction with the appended drawings. For the purposes of illustrating the invention, there are shown in the drawings embodiments which are presently preferred. It is understood, however, that the invention is not limited to the precise arrangements and instrumentality shown. In the drawings: [0015] Figure 1 is an exploded perspective view of a first preferred embodiment of a lock according to the present invention; [0016] Figure 2 is a perspective view of the lock of Figure 1 in an installed configuration; [0017] Figure 3 is perspective view of the lock of Figure 1 securing a trailer to a lamppost; [0018] Figure 4 is a cross-sectional view of a portion of a closure member of Figure 2 as taken along the line 4-4 of Figure 2 illustrating a first preferred method of making the closure member; [0019] Figure 5 is a perspective partial view of a second embodiment of the closure member of Figure 1 illustrating a groove extending around a perimeter of a shaft of the closure member; [0020] Figure 6 is cross-sectional view similar to that of Figure 4 illustrating a tube of the lock member enclosing the shaft of the closure member and extending into the recess of Figure 5; [0021] Figure 7 is cross-sectional view of the lock of Figure 2 as taken along the line 7- 7 of Figure 2 illustrating the preferred positive engagement of each of the shafts of the closure member by a locking mechanism disposed in the lock member; [0022] Figure 8 is a cross-sectional view of the lock of Figure 2 as taken along the line 8-8 of Figure 2 illustrating the preferred positive engagement of each of the shafts of the closure member by the locking mechanism 52; [0023] Figure 9 is view similar to that of Figure 7 illustrating the locking mechanism manipulated to disengage lock catches from the shafts of the closure member to allow the closure member to be removed from the lock member; [0024] Figure 10 is view similar to Figure 9 illustrating the insertion of the shafts of the closure member into the lock member and the abutment of ratchets along the shaft with catches of the locking mechanism to allow the lock to be moved into the installed configuration and secured without a user having to adjust the lock mechanism; [0025] Figure 11 is cross-sectional view of the lock of Figure 2 as taken along the line 11-11 of Figure 2 illustrating the preferred tumbler and lock mechanism; [0026] Figure 12 is a perspective view of a second preferred embodiment of the lock according the present invention illustrating the keyed portion of the locking mechanism located on an end of the lock member; [0027] Figure 13 is a partial cross-sectional view of the lock of Figure 12 illustrating a preferred embodiment of the locking mechanism used to positively engage each of the shafts of the closure member when the keyed portion of the locking mechanism is located on an outer end of the lock member; [0028] Figure 13A is cross-sectional view of the lock of Figure 13 as taken along the line 13A-13A in Figure 13 illustrating the two preferred lock slides used to drive the catches of a slot assembly out of the equilibrium position; [0029] Figure 14 is an exploded perspective view of the lock member of Figure 1 used with the second preferred embodiment of the closure member which is generally U-shaped; [0030] Figure 15 is exploded perspective view of the lock member of Figure 1 used with the third preferred embodiment of the closure member which has a generally rectilinear three sided shape; [0031] Figure 16 is an exploded perspective view of a third preferred embodiment of the lock according to the present invention illustrating the closure member having a thickened portion that is preferably sized to be flush with the tubes of the lock member when the lock is the installed configuration; [0032] Figure 17 is a perspective view of the lock of Figure 16 in the installed configuration; [0033] Figure 18 is cross-sectional view of the lock of Figure 17 as taken along the line 18-18 of Figure 17 illustrating the flush engagement of the thickened portion of the closure member with the tube disposed on the lock member; [0034] Figure 19 is an exploded perspective view of the lock member of Figure 1 ready to receive a fourth preferred embodiment of the closure member; [0035] Figure 20 is a perspective view of the lock of Figure 19 in the installed configuration; [0036] Figure 21 is a cross-sectional view of the lock of Figure 20 as taken along the line 21-21 of Figure 20 illustrating the engagement between one shaft of the closure member and a tube disposed on the lock member; [0037] Figure 22 is an exploded perspective view of a fourth preferred embodiment of a lock according to the present invention which is adjustable in size; [0038] Figure 23 is perspective view of the lock of Figure 22 in the installed configuration; [0039] Figure 24 is cross-sectional view similar to the view shown in Figure 21 as taken along line 24-24 of Figure 22 that illustrates the engagement of the closure member with the lock member when the lock is in the installed configuration; [0040] Figure 25 is perspective view of a fifth preferred embodiment of the closure member illustrating a reinforcement flange positioned to reinforce the closure member; [0041] Figure 26 is perspective view of a sixth preferred embodiment of the closure member illustrating another reinforcement flange that can be used to reinforce the closure member; [0042] Figure 27 is cross-sectional view the closure member of Figure 25 as taken along the line 27-27 of Figure 25; [0043] Figure 28 is a perspective view of the lock member of Figure 1 in combination with a sixth preferred embodiment of the closure member which has a reinforcement shield thereover; [0044] Figure 29 is perspective view of a lock of Figure 28 in the installed configuration; [0045] Figure 30 is a perspective view of a seventh preferred embodiment of the closure member illustrating a reinforcement flange having a generally rectilinear upper right end which secures two shafts therein; [0046] Figure 31 is partial cross-sectional view of a prior art lock.

[0047] DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS [0048] Certain terminology is used in the following description for convenience only <BR> <BR> and is not limiting. The words"right, ""left,""top,"and"bottom"designate directions in the drawings to which reference is made. The words"inwardly"and"outwardly"refer to directions toward and away from, respectively, the geometric center of the lock and designated parts thereof. This terminology includes the words above specifically mentioned, derivatives thereof, and words of similar import. Additionally, the words"a"and"one"are defined as including one or more of the referenced item unless specifically stated otherwise.

[0049] Referring to Figures 1-30, wherein like numerals indicate like elements throughout, multiple preferred embodiments of a lock according to the present invention are shown. Briefly stated, the lock 40: 1-40 : 4 includes a lock member 48 that detachably engages a closure member 42 and that is tamper resistant.

[0050] It is preferred that the lock 40: 1-40: 4, and its individual components, is formed of high strength, durable, impact resistant material, such as hardened steel. Those of ordinary skill in the art will appreciate from this disclosure that any other suitable metals, steels, alloys, or the like that can be used to form the lock 40: 1-40: 4 without departing from the present invention. Preferably an outer surface of the lock 40: 1-40: 4 is coated with a brightly colored paint or coating, such as a fluorescent orange colored paint or vinyl coating, so that the lock 40: 1-40: 4 is prominently visible and noticeable when installed.

[0051] Referring to Figures 1-11, a first preferred embodiment of the lock 40: 1 is shown. The lock 40: 1 includes the lock member 48. It is preferred, but not necessary, that the lock member 48 has a generally cylindrical shape. Referring to Figure 1, it is preferred that the lock member 48 has a generally elongated shaped and a longitudinal axis 68.

[0052] Two tubes 50 are disposed on the lock member 48. The two tubes 50 extend generally outwardly from the lock member 48 and preferable extend generally perpendicularly to the longitudinal axis 68. Those of ordinary skill in the art will appreciate from this disclosure that the two tubes 50 can be askew from perpendicular by up to approximately fifteen (15) degrees while still being considered"generally perpendicular"to the lock member 48.

[0053] While the tubes 50 are preferable generally cylindrical in shape, those of ordinary skill in the art will appreciate from this disclosure that the tubes 50 can have any cross-sectional shape, such as a triangular, square, octagonal, or other cross-sectional or shape without departing from the scope of the present invention. Each of the tubes 50 preferably defines a bore 70 therethrough and has a distal end 72 opposite from the lock member 48. [0054] As best shown in Figure 7, it is preferable that a central flange 74 is positioned between the two tubes 50 to reinforce the two tubes 50 to resist bending thereof. Thus, the central flange 74 greatly increases the strength of the lock 40: 1-40: 4 and makes it exceedingly difficult, if not impossible, to disable the lock 40: 1-40: 4.

[0055] It is preferred that a side 78 of the central flange 74 opposite from the lock member 48 is curvilinear. By forming the side 78 of the central flange 74 as a curvilinear surface, it is more difficult for a potential thief to use a lever or similar spreading device to apply pressure between the lock member 48 and the closure member 42. While the curvilinear side 78 is shown as being concave when viewed from above, those of ordinary skill in art will appreciate from this disclosure that any curvilinear contour can be formed by side 78 of the central flange 74 without departing from the scope of the present invention.

[0056] It is also preferred that a tapered flange 80 is positioned between a surface 76, opposite from the central flange 74, of each of the two tubes 50 and the lock member 48. It is preferred that a separate tapered flange 80 is positioned on the left and right sides of the lock 40: 1-40: 4. It is also preferred that the tapered flanges 80 have a generally triangular shape. However, those of ordinary skill in the art will appreciate from this disclosure that the tapered flanges 80 can have any shape without departing from the scope of the present invention. The tapered flanges 80 make it difficult for a potential thief to use prying force against the left or right ends of the lock member 48. Levers or other spreaders will tend to slide downwardly and outwardly until they disengage from the lock 40: 1-40: 4.

[0057] It is preferred, but not necessary, that each of the tubes has generally the same length and is between approximately one (I) inch and approximately fifteen (15) inches in length. It is further preferred that each of the two tubes be between approximately four (4) inches and approximately eight (8) inches in length. It is further preferred that each of the tubes be approximately five (5) inches in length.

[0058] A closure member 42 preferably has a transverse part 82 that is preferably generally cylindrical and has two shafts 46 that extend generally perpendicularly therefrom.

It is preferred, but not necessary, that the transverse part 82 of the closure member 42 and the lock member 48 are generally equally sized and shaped.

[0059] Referring to Figure 14, a second preferred embodiment of the closure member 42: 2 is shown. The closure member 42: 2 preferably has a generally U-shape with a curved transverse part 82 and two generally parallel shafts 46. Referring to Figure 15, a third preferred embodiment of the closure member 42: 3 has a generally rectilinear shape preferably formed by three components oriented at generally ninety (90) degree angles to each other. It is preferred that the transverse part 82 form a generally ninety (90) degree angle with each of the shafts 46.

[0060] Referring to Figure 19, a fourth preferred embodiment of the closure member 42: 4 is shown. The closure member 42: 4 has a generally U-shape with a bent transverse part 82 and two straight shafts 46. The closure member 42: 4 preferably includes a separate capped collar 84 on each of the shafts 46. Referring to Figure 20, when the closure member 42: 4 is fully engaged the lock member 48, each of the capped collars is slideably positioned over the corresponding tube 50. Referring to Figure 21, the capped collar 84 is preferably welded to the closure member 42: 4 so that when the shaft 46 is inserted in the tube 50, the capped collar 84 overlaps the distal end 72 of the tube 50. Welds 86 are illustrated for example only. Those of ordinary skill in the art will appreciate from this disclosure that the capped collars 84 can be integrally formed with the closure member 42: 4 via a casting process or the like without departing from the scope of the present invention.

[0061] Referring to Figure 25, a fifth preferred embodiment of the closure member 42: 5 illustrates a U-shaped member having a reinforcement flange 64 positioned to reinforce the closure member 42: 5. The shafts 46 of the closure member 42: 5 include a notch 88 that can be used to engage the locking mechanism 52. While some of the preferred embodiments of the closures members 42: 1-42: 9 are shown as using ratchets, those of ordinary skill in the art will appreciate from this disclosure that a single notch 88 or the like can be used on one or both of the shafts 46 with any of the embodiments of the closure member 42: 1-42: 9 without departing from the scope of the present invention. Referring to Figure 27, a cross-sectional view of the transverse part 82 and the reinforcement flange 64 is shown. While welds 86 are shown due to the preferable welding of the reinforcement flange 64 to the closure member 42: 5, those of ordinary skill in the art will appreciate from this disclosure that the reinforcement flange can be integrally formed with the closure member 42: 5 without departing from the present invention. As illustrated by Figure 26, the closure member 42: 5 can incorporate a reinforcement flange 64 having any shape. In Figure 25, the reinforcement flange is shown as generally crescent shaped while in Figure 26 the reinforcement flange 64 is shown as having a straight edge on a side opposite from the transverse part 82 of the closure member 42: 5.

[0062] Referring to Figure 28, a sixth preferred embodiment of the closure member 42: 6 is shown. The closure member 42: 6 preferably includes a reinforcement shield 66 that is welded thereover to reinforce the closure member 42: 6. While the transverse part 82 of the closure member 42: 6 is generally bent to form a U-shape in combination with the shafts 46, those of ordinary skill in the art will appreciate from this disclosure that the transverse part 82 and the legs 46 can form any shape without departing from the scope of the present invention and can be used with the reinforcement shield 66 regardless of the particular shape or configuration used. Referring to Figure 29, when a closure member 42: 6 incorporating a reinforcement flange 66 is in the installed configuration, it is preferable that the inner edge of the reinforcement flange 66 abut the distal end 72 of the tube 50. It is also preferable that the top and bottom surfaces of the reinforcement flange 66 be generally flush with corresponding top and bottom diametric points on the tubes 50 and form tangents thereto.

[0063] Referring to Figure 30, a seventh preferred embodiment of the closure member 42: 7 is shown. The closure member 42: 7 includes a reinforcement shield 66 having a generally rectilinear folded end 90 shown in the upper right portion of Figure 30. This closure member 42: 7 uses the reinforcement shield 66 as the transverse part 82 and positions each of the shafts 46 within the reinforcement shield as shown. While various closure members 42: 1-42: 9 have been shown, those of ordinary skill in the art will appreciate from this disclosure that any of the closure members, or any of the features of the individual members 48 can be used with any of the lock members 48 to form the lock 40: 1-40: 4 of the present invention without departing from claimed invention.

[0064] Referring again to Figure 7, it is preferable that the two shafts 46 are inserted through the two tubes 50 and detachably locked within the lock member 48 when the lock 40 is in the installed configuration. It is preferable, but not necessary, that the two tubes 50, in combination with the lock member 48, completely enclose the two shafts 50. While a portion of the two shafts 46 is seated within the transverse part 82 in the enlarged cross- section of Figures 4 and 6, those of ordinary skill in the art will appreciate from this disclosure that the terms"shaft"or"shafts", as used in the claims, is defined to only includes the portion of the shafts 46 that extend outwardly past the outer surface of the transverse part 82.

[0065] Referring to Figures 2 and 7, it is preferred that the distal end 72 of the tubes 50 each abut a separate portion of a surface of the closure member 42: 1-42: 9 on which one of the two shafts 50 is positioned when the lock 10 is in installed configuration.

[0066] Referring to Figures 25 and 26, one alternative embodiment of the closure member 42: 5 includes at least two grooves therein each extending around a perimeter of one of the two shafts 46. Each of the at least two grooves 44 receives the distal end 72 of one of the two tubes 50 when the lock 10 is in the installed configuration. As shown in Figure 6, this allows the distal end 72 of the tubes 50 to lodge within the transverse part 82 of the closure member 42: 1-42: 9 to eliminate a thief s ability to apply prying force between the tubes 50 and the transverse part 82 in a direction generally parallel to the longitudinal axis of one of the shafts 46. This further increases the tamper resistance of the lock 10.

[0067] Referring to Figures 7 and 8, a locking mechanism 52 detachably locks the closure member 42: 1-42: 9 to the lock member 48 once the lock 40: 1-40: 4 is in the installed configuration wherein the two tubes 50 substantially cover the two shafts 46.

[0068] As also shown in Figure 7, the locking mechanism 52 includes first and second lock fingers 92A, 92B that are operated by rotation of a tumbler mechanism (not shown in Figure 7). The first and second lock fingers 92A, 92B can be used to move first and second lock slides 94A, 94B out of their biased position (as shown in Figure 7). The first and second lock slides 94A, 94B have a biased position in which their corresponding catches 56 engage ratchets 54 in the corresponding shaft 46 to secure the closure member 42: 1-42: 9 in the lock member 48. The first and second lock slides 94A, 94B are maintained in their biased position by springs 96 that bias each lock slide 94A, 94B away from its respective spring 96 and toward an engagement point with one of the shafts 46. Figure 8 illustrates the engagement between a lock catch 56 and shaft ratchet 54.

[0069] Referring to Figure 9, the lock tumbler 58 can be rotated to drive the first and second fingers 92A, 92B against a portion the corresponding lock block 94A, 94B to compress the biasing spring 96 and slide the respective lock block 94A, 94B generally away from a contact point with the shaft 46. When the lock fingers are 92A, 92B so rotated, the closure member 42: 1-42: 7 can be freely removed from the lock member 48. Referring to Figure 10, the shaft 46 can preferably be inserted into the lock member 48 without rotating the lock fingers 92A, 92B due to the sliding engagement of the shaft ratchets 54 and the beveled edges of the lock catches 56 which cause the lock slides 94A, 94B to be displaced out of the biasing position to allow the full insertion of the shaft 46. Once the shafts 46 are fully inserted into the lock member 48, the upper flat side of the ratchets 54 engages the lower flat side of the catches 56 to prevent the withdrawal of the shaft 46 without activating the tumbler 58 via a key or the like to move the first and second lock fingers 92A, 92B against the first and second lock slides 94A, 94B, as discussed above. Figure 11 illustrates a cross-sectional view of the tumbler 58 and the corresponding first and second lock fingers 92A, 92B.

[0070] While one preferred locking mechanism is shown and described, those of ordinary skill in art will appreciate from this disclosure that any locking mechanism 52 can be used with the lock 40: 1-40: 4 of the present invention without departing therefrom. For example, the keyed portion 60 of the tumbler 58 can be located on a right or left end of the lock member 48 as shown in Figure 12. Referring to Figures 13 and 13A, the locking mechanism 52 can positively engage each of the two shafts 46 to secure the two shafts 46 within the lock member 48 regardless of where the tumbler 58 is positioned.

[0071] Referring to the right side of Figure 13, a lock finger 98 can be rotated in a shaped groove 100 to leftwardly displace a sliding assembly 102. The sliding assembly 102 is preferably formed by multiple connected blocks 104 and lock slides 106. As shown in left portion of Figure 13, a spring 96 biases the sliding assembly 102 generally rightwardly and into engagement with each of the shafts 46. The sliding assembly 102 is shown in the equilibrium position in which the spring 96 has positioned the catches 56 at the shaft contact point. To disengage the shafts 46 from the catches 56 of a sliding assembly 102, a user rotates the lock finger 98 via the tumbler mechanism 58 to drive the rightmost block 104 generally leftwardly. This leftwardly motion of the rightmost block 104 is mirrored by whole lock assembly 102. Thus, the lock finger 98 is capable of driving the catches 56 generally leftwardly out of engagement with the ratchets 54 to allow removal of the shafts 46 from the lock member 48.

[0072] While both of the described locking mechanisms 52 are designed for engagement with shafts 46 having ratchets 54 thereon, those of ordinary skill in the art will appreciate from this disclosure that these locking mechanisms, or any other, can also be used with shafts 46 having a single notch 88 therein, such as those shafts 46 shown in Figures 25 and 26.

[0073] Referring to Figures 16-18, a third preferred embodiment of the lock 40: 3 is shown. The lock 40: 3 has tubes 50 with distal ends 72 having an inwardly beveled surface 108. These inwardly beveled surfaces 108 are configured to compliment the beveled edges 140 of the thickened portion 62 of the closure member 42. Those of ordinary skill in the art will appreciate from this disclosure that the closure members 42 in Figures 16-18 and 22-24 can be freely interchanged with any of the embodiments shown and described in this application. The angled mating beveled edges 140,108 of the lock 40 : 3 generally eliminates a pry point for thieves and further enhances the tamper resistance of the lock 40: 3. Referring specifically to Figure 18, a portion of the beveled surface 140 can be irregular to allow welds 86 along the shafts 46 without interfering with the cooperative abutting fit between the inwardly beveled surface 108 of the tubes 50 and the beveled surfaces 140 of the thickened portion 62 of the closure member 42.

[0074] Referring to Figures 22-24, a fourth preferred embodiment of the lock 40: 4 allows the distance between the side 78 of the central flange 74 and the inner surface of the transverse part 82 of the closure member 42 to be adjustable depending upon the application for which the lock 40: 4 is used. This adjustability is achieved by positioning the locking mechanism 52 on one the of tubes 50. The locking mechanism 52 can engage ratchets 54 anywhere along the length of one the shafts 46. As shown in Figure 24, the tumbler mechanism 58 operates a lock finger 68 to manipulate a lock slide 142. The lock block 142 is biased so that catch 56 is maintained at shaft engaging point by a spring 96. In a fashion similar to that described above in conjunction with Figure 10, the ratchets 54 of at shaft 46 can be inserted into the tube 50 without a user having to operate the tumbler mechanism 58.

This, in combination with the biasing of the lock slide 142 toward the shaft engaging point, results in the lock 40: 4 being self-locking. Once the lock 40: 4 has been adjusted to the desired size, the lock slide 142 is biased by spring 96 to engage the catch 56 with the flat left surface of one of the ratchets 54 to maintain the shaft 46 within tube 50. To release the closure member 42, a user operates the tumbler mechanism 58 to move the lock finger 98 downward against the lower portion of the lock slide 142 to disengage the catch 56 from the ratchets 54.

[0075] Referring to Figures 1-7, one embodiment of the present invention operates as follows. A user positions the closure member 42: 1 so that the shafts 46 are aligned with bores 70 in tubes 50 and inserts the shafts 46 into the tubes 50. Referring to Figure 10, it is preferred that as the lower beveled surfaces of the ratchets 54 engage the top beveled edges of the catches 56, the shafts 46 displace the first and second lock slides 94A, 94B to allow the shaft 46 to be fully engaged with the lock member 48. When the user decides to disengage the lock, the user manipulates the tumbler mechanism 58 to disengage the catches 56 from the ratchets 54 as described above.

[0076] While various shapes, configurations, lock positions, and tamper resistant features have been described above in various embodiments of the present invention, those of ordinary skill in the art will appreciate from this disclosure that any combination of the above features, flanges, closure members, lock members or the like can be used without departing from the scope of the present invention. For example, the locks 40: 1-40: 4 can have more than three tubes 50 without departing from the scope of the present invention. It is recognized by those skilled in the art, that changes may be made to the above described embodiments of the invention without departing from the broad inventive concept thereof. It is understood, therefore, that this invention is not limited to the particular embodiments disclosed, but is intended to cover all modifications which are within spirit and scope of the invention as defined by the appended claims and/or shown in the attached drawings.

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