The present invention relates generally to a universal box lock, and more particularly to a universal lock that may be securely mounted to both a side and a bottom surface of a ringless meter box or similar enclosure.
Utility boxes, such as electric meter boxes, are typically secured to prevent unauthorized access to the meter. Some boxes feature a ring, which is placed directly around the meter and locked. Other utility boxes, referred to as “ringless” boxes, do not include a lockable meter ring. Ringless boxes include a cover which is secured over the meter by placing a lock on either a side wall or a bottom wall of the box. The location of the lock is determined largely by the amount of space available. In certain applications, such as multi-unit dwellings, meter boxes abut one-another making a side installation difficult if not impossible. In other applications, a bottom installation may be logistically difficult.
Despite the above, known ringless box locks are location specific. That is, separate side and bottom locks are required for the side and bottom walls of a meter box, respectively. An example of such a lock is described in U.S. Pat. No. 6,763,691, which is incorporated by reference in its entirety herein. As will be appreciated, known locks require a utility worker to carry both side and bottom locks in the field. Moreover, utility companies must purchase and stock both side and bottom locks.
Additionally, known ring-style locks include both a lock and an integral meter seal which provides an additional level of security. The meter seal, generally a plastic and wire tab, must be broken to remove the ring-style lock. As such, the meter seal provides a utility worker with a convenient visual indicator of whether a ring-style lock has been removed. Known ringless locks, however, do not incorporate an integral meter seal in the form of a tab. Ringless locks typically employ plastic or metal ferrules, which do not offer the same level of security as a tab.
Finally, it is desirable to have a ringless box lock in which the lock is preloaded. In many cases, locks are supplied as separate components, which must be assembled on site. This complicates installation and can lead to locks being misplaced or lost. Moreover, a key must be employed to assemble such locks with their associated lock components. This requires widespread distribution of keys to utility workers, which in turn increases the danger that keys will be lost or stolen, thereby seriously compromising overall system security.
With the forgoing problems and concerns in mind, it is the general object of the present invention to provide a preloadable universal box lock for ringless meter boxes that may be mounted on both a side and a bottom wall of a box and can accommodate an integral meter seal tab.
It is an object of the present invention to provide a universal box lock.
It is another object of the present invention to provide a universal box lock for a ringless meter box.
It is another object of the present invention to provide a universal box lock that may be secured to both a side wall and a bottom wall of a ringless meter box.
It is another object of the present invention to provide a universal ringless box lock that provides a convenient means of determining whether the lock has been removed.
It is another object of the present invention to provide a universal ringless box lock that accepts a sealing tab to provide a convenient means of determining whether the lock has been removed.
It is another object of the present invention to provide a universal ringless box lock in which the lock is preloaded thereby eliminating the need for a key to install the lock.
This and other objectives of the present invention, and their preferred embodiments, shall become clear by consideration of the specification, claims and drawings taken as a whole.
As will be appreciated, the ability to secure the universal lock assembly to both a side wall and the bottom wall of a ringless meter box is an important aspect of the present invention. Known ringless box locks are location specific, i.e., there are separate side and bottom locks for side and bottom walls of a meter box. As such, known locks require a utility worker to carry both side and bottom locks in the field. Moreover, utility companies must purchase and stock both side and bottom locks. The present lock assembly allows workers and utility companies to carry and stock one universal ringless lock.
Turning now to
In use, the clamping mechanism 16 is secured to either a side wall or a bottom wall of a meter box. A cover is then placed on the box and the lock body 18 is placed over the clamping mechanism's tab 28, which is located on the exterior the meter box. When the bore 31 of the lock body 18 is aligned with the tab aperture 32, (
Referring now to FIGS. 5B and 6A-6D, the hinge plate 24 is pivotally attached to the clamp bracket 22 through two substantially C-shaped leg portions 36, which engage notches 34 on opposite sides of the bracket 22. The bracket 22 also includes two openings 38 that allow the passage of a series of protrusions or teeth 40 so that the lock assembly 2 may be mounted on a bottom wall of a meter box. As depicted, the teeth 40 are located on the hinge plate 24 and are bent or angled outward, away from the plate 24. The teeth 40, 42 are also cut such that they are relatively pointed and sharp to bite or dig into a wall of a meter box, though as will be appreciated, the teeth need not be pointed or sharp for the lock to function.
More specifically, the hinge plate 24 includes a first set of teeth 40 and a second set of teeth 42. The first set of teeth 40 are angled and engage a peripheral lip of a bottom wall of a meter box facilitating a bottom installation. The second set of teeth 42 are both angled and have chisel-shaped tips. The second set of teeth 42 engage a peripheral flange of a side wall of a meter box allowing the assembly 2 to be installed on a side of a box. As shown in
The teeth 40, 42 are an important aspect of the present invention in that they prevent the lock assembly 2 from being removed from a box wall by engaging and/or biting into the wall when the lock assembly 2 is pulled or otherwise forced away from the wall. Moreover, as stated, the configuration of first and second sets of teeth 40, 42 allow the clamping mechanism 16 to be secured to a bottom wall or a side wall of a meter box.
As mentioned above, the bracket 22 contains openings 38 that receive the hinge plate's teeth in certain installations. In particular, the first set of teeth 40 protrude into the openings 38 when the lock assembly is installed on a side wall of a meter box so that the second set of teeth 42 contact the side wall and press the wall against an inner portion of the bracket 22 thereby securing the clamping mechanism 16 to the meter box. With bottom installations, the first set of teeth 40 do not extend into the openings 38 as they are utilized to grip a flange 52 of the bottom wall of a meter box (
Moreover, the hinge plate 24 also includes a leveling support 44, which contacts the bottom wall of the meter box during bottom installations. The support 44 levels the hinge plate 24 with the bottom wall which positions the first set of teeth 40 so that they may dig into or bite the flange 52 preventing removal. The support 44 also allows the thumb screw 26 to be rotated and the plate urged toward the bottom wall and clamp bracket 22 without misaligning the hinge plate 24.
The clamping mechanism 16 may be secured to a side wall or bottom wall of a meter box. This is generally accomplished by placing a meter box wall between the clamp bracket 22 and the hinge plate 24. The thumb screw 26, or other force generating means, is then rotated urging the hinge plate 24 toward the clamp bracket 22 until the first or second set of teeth 40, 42 on the hinge plate 24 contact the box wall and press the wall against the bracket 22.
In use, the wall 8 and its peripheral lip 50 are placed between the bracket 22 and hinge plate 24. The thumb screw 26 is then tightened until the hinge plate 24 is firmly pressed against the wall 8. The lip 50 is in turn pressed against the bracket 22 securing the clamping mechanism 16 to the wall 8. As shown, the portion of the bracket 22 that is in contact with the lip 50 has substantially the same profile as the lip 50.
Additionally, the second set of teeth 42 are in contact with the side wall 8 just before the lip 50. As will be appreciated, if the clamping mechanism 16 is forced away from the box, these teeth will bite or dig into the peripheral lip 50 preventing removal from the box. The first set of teeth 40 extend through the openings 38 in the bracket 22 and do not bite or cut into the side wall 8 when removal is attempted. The tab 28 protrudes outward away from the side wall 8 so that the lock body 18 may be attached and the barrel lock 20 inserted through the body and tab aperture 32 (
After the lock assembly 2 has been secured to either a side wall or bottom wall of a meter box, and a cover placed over the box, a meter seal may be attached to the assembly 2. The seal provides a visual indicator of whether someone has tampered with the assembly as any attempt to remove the lock body 18 from the clamping mechanism 16 would require removal of the seal.
Turning to
The opening 29 in the tab 28 is an important aspect of the present invention as known ringless box locks do not allow for the attachment of a seal 60 that permits the use of a ferrule. The meter seal provides an additional level of security, as it must be broken to remove the lock body 18. Therefore, the meter seal provides a utility worker with a convenient visual indicator of whether the box lock has been removed.
Further, the barrel lock 20 is preferably preloaded into the lock body 18, which simplifies installations as the lock 20 does not need to be inserted into the body during installation. Moreover, utility workers do not need to carry keys to install lock assemblies and the probability of a lost or stolen key is reduced. Preloaded lock assemblies are described in greater detail in U.S. Pat. No. 6,684,670, which is incorporated by reference in its entirety herein.
Finally, the lock body 18 is preferably manufactured from hardened ductile iron. This prevents the body 18 from being sawed or drilled off thereby preventing unauthorized access to a box. In the past, lock bodies have included pins of hardened metal to prevent a top surface of the body 18 from being removed. The present use of induction hardened ductile iron renders the pins unnecessary and provides an ease of manufacture not present with known lock bodies. As will be appreciated, other metals with a hardness similar to induction hardened ductile iron may be employed.
In sum, the present invention provides a universal box lock for ringless meter boxes that may be mounted on both a side and a bottom wall of a box and can accommodate a meter seal tab. The present invention also provides a universal box lock in which the barrel lock is preloaded into the lock body for ease of installation and enhanced security.
While the invention has been described with reference to the preferred embodiments, it will be understood by those skilled in the art that various obvious changes may be made, and equivalents may be substituted for elements thereof, without departing from the essential scope of the present invention. Therefore, it is intended that the invention not be limited to the particular embodiments disclosed, but that the invention includes all embodiments falling within the scope of the appended claims.
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