1. Field of the Invention
The present invention is related to security devices, and more particularly, to a security device for preventing access to electrical conductors behind a cover on a conduit.
2. Description of Related Prior Art
Lamp posts in public areas, such as parking lots, parks and other locations generally not frequented during nighttime are susceptible to vandalism and theft. Usually, a series of lamp posts are electrically interconnected by electrical conductors extending underground between the lamp posts. These electrical conductors are of insulated copper or aluminum. The generally long runs between lamp posts require that the gauge of the copper or aluminum electrical conductors be much larger than 10 gauge.
Most lamp posts include electrical conductors extending from a location close to the base up to the fixtures supporting a lamp or lamps. The underground electrical conductors are snaked through the underground conduits between lamp posts and between the lamp post and a source of electric power. The underground electrical conductors are electrically joined with the wires within the hollow lamp post close to the ground. Access for such junctions is provided through an access port in the wall of the lamp post. Generally, a cover extends across this access port and is secured by sheet metal screws or the like.
It is therefore evident that access to the electrical conductors is a simple matter of removing the cover from lamp posts of interest and cutting the wires. Thereafter, the wires can be pulled out and removed.
Because the prices of copper and aluminum are significant, thieves cut the wires between lamp posts and pull the wires out of the ground for subsequent resale. The costs to replenish these electrical conductors along with the costs of the labor involved in doing so is significant. A deterrent to prevent such theft would be of significant benefit to prevent both such theft and the loss of illumination in public areas until repairs can be effected.
Aside from lamp posts, electrically illuminated or otherwise electrically energized above ground signs include conduits extending therefrom for housing electrical conductors connected to a source of electrical power or other signs. Access to such electrical conductors for maintenance, repair or replacement is provided by access ports in the conduit.
As with lamp posts, thieves can easily remove any cover on an access port to cut and withdraw the exposed electrical conductors. The costs for any repair to damage done and the costs for replacing the electrical conductors is significant.
A security device encircles a lamp post to enclose a cover in the lamp post that, upon removal, provides access to electrical conductors within the lamp post. Most lamp posts are of standard 4-inch square tubing and the cover extends across one side of the tubing. A U-shaped bracket encircles three sides of the lamp post and is secured thereto by a plate extending across the fourth side. The plate nests within a channel at the bottom of the opening and includes a slot for receiving an apertured tang from a fitting attached to the top of the bracket. Upon mounting of the plate, a padlock may be used to engage the aperture in the tang and thereby prevent sliding movement of the plate off the tang resulting in exposure of the cover attached to the lamp post. For circular or other non-rectangular cross-section lamp posts, the bracket may include two half brackets. One-half of the bracket includes cutouts commensurate with the cross-section of the rear half of the lamp post. A second half bracket includes cutouts commensurate with the cross-section of the front half of the lamp post and includes an opening positionally commensurate with the cover attached to the lamp post. The two half brackets are secured to one another and clamp the lamp post therebetween with machine screws or the like. The opening disposed in the front half of the bracket is closed by a plate in the manner discussed above. Conduits containing electrical conductors for providing electrical power to signs and the like are subject to theft of the electrical conductors through access ports in the conduit. These conduits are generally circular in cross-section. The security device particularly adapted to such conduits includes a U-shaped bracket having half round cutouts in the top and bottom surfaces to mate with one half the cross-section of the conduit. Each of top and bottom plates include half round cutouts to mate with the other half cross-section of the conduit. A plate across the front of the bracket, as described above, prevents sliding movement of the top and bottom plates and may be locked in place, as described above.
With any of the embodiments of this security device, removal of the plate by an authorized repairman is a simple matter of unlocking the lock and disengaging the lock from the tang. Thereby, access to the cover is available to permit its removal to expose the opening or access port in the lamp post or conduit. Thereafter, any necessary electrical work can be performed. On completion of the electrical work within the lamp post or conduit, the cover is reinstalled and the plate mounted on the bracket and secured in place with the padlock to prevent unauthorized access to the electrical conductors.
It is therefore a primary object of the present invention to provide a security device that prevents access to electrical conductors within a lamp post or a conduit.
Another object of the present invention is to provide a lockable security device for shielding a cover for an access port in a lamp post or a conduit.
Still another object of the present invention is to provide a security device for a lamp post or a conduit that is easily mountable in the field.
Yet another object of the present invention is to provide a security device that does not restrict authorized access to electrical conductors within a lamp post or a conduit.
A further object of the present invention is to provide a security device that clamps about a lamp post or a conduit and that does not require any alteration to the lamp post or conduit and yet prevents unauthorized access to electrical conductors therewithin.
A still further object of the present invention is to provide a method for restricting access to electrical conductors within a lamp post or a conduit to authorized personnel.
A yet further object of the present invention is to provide a method for preventing theft of electrical conductors from within a lamp post or a conduit.
These and other objects of the present invention will become apparent to those skilled in the art as the description thereof proceeds.
The present invention will be described with greater specificity and clarity with reference to the following drawings, in which:
Referring to
When a plurality of lamp posts 10 are located in a generally common area, such as a parking lot or a city park, electrical conductors 16 are routed underground and interconnect numerous light posts to provide electrical power to the light fixtures of each lamp post. Unfortunately, access to port 18 amounts to little more than removing a cover (not shown). With such access, thieves are known to cut electrical conductors 16 in adjacent light posts and pull out the interconnecting electrical conductors for sale of the copper or aluminum, depending on the type of electrical conductors. The costs for replacement electrical conductors and the labor involved in rewiring the lamp posts is significant. The function and purpose of the present invention is to prevent or least deter access to electrical conductors 16 and theft thereof.
The fourth side of bracket 22 is closed by a plate 24, the lower edge 26 of which is supported within a channel 28. A tang 30 extends from bracket 22 for penetrable engagement with slot 32 in plate 24. The tang includes an aperture 34 located exterior of plate 24. This aperture may be engaged by the shackle of a padlock 36. The lock illustrated is Model No. 6271NKA manufactured by Master Lock of Milwaukee, Wis.; however, other conventional locks may also be used. Thereby, removal of plate 24 cannot come about except upon destruction of plate 24 or bracket 22. Thereby, security device 20 serves as a deterrent to unauthorized access to port 18 and the electrical conductors within lamp post 10.
Referring jointly to
Strap 62 includes a bottom section 64 extending therefrom adjacent both sides of bottom flange 44. The bottom section is terminated by a channel 66. Plate 24 includes a flange 70 extending from side edges and top edge of the plate. The sizing of this flange is commensurate with the interior dimensions of bracket 22 to nest therewithin and enclose lamp post 10 within bracket 22. The plate includes a bottom edge 72 for insertion within channel 66. A slot 74 is formed toward the top of plate 24 to penetrably receive tang 30. The tang extends beyond plate 24 a sufficient distance to permit the shackle of a lock, such as lock 36, to engage aperture 34 of the tang. Thereby, outward pivotal movement of the plate about channel 66 is precluded and access to the interior of security device 20 is not possible. It is to be noted that arced section 76 extending from plate 24 is a function of the configuration of lock 36 which locates the body of the lock essentially adjacent the plate. However, a more conventional padlock engaging aperture 34 of tang 30 would also serve the purpose of preventing outward pivotal movement of the plate.
Some lamp posts are tube-like circular in cross-section. Other lamp posts have different cross-sections such as oval, hexagonal, etc. and primarily for decorative purposes. Referring jointly to
The front of security device 80 is essentially the same as that described above with regard to security device 20. In particular, a plate 24 rests within channel 66 and is penetrably engaged with tang 30 to accommodate locking of the plate with half bracket 84. Half bracket 82 includes a right angle flange 110 secured to the inside of side 112 of the half bracket. Preferably, such a right angle flange is attached close to the top and close to the bottom of side 112. Similarly, a right angle flange 114 is secured to the inside of side 116 of half bracket 82. Preferably, right angle flange 114 is secured proximate the top and proximate the bottom of side 116. A machine screw 118 extends through flange 46 in the manner of screw 58 (see
As noted above, cutouts 94, 102 in the top and bottom surfaces of security device 80 may be configured to jointly replicate the cross-section of essentially any lamp post. Thereby, the cover of a lamp post covering the access port to electrical conductors within the lamp post are enclosed within the security device to prevent unauthorized removal and theft of the electrical conductors.
Referring jointly to
A member 160 is slidably engageable with shroud 132 to engage the remaining half circle of the conduit or lamp post. The member includes a first right angle flange 162 having a top side 164. The top side includes a semi-circular cutout 166 sized to mate with a half cylinder of the conduit or lamp post with which the variant security device is to engage. Front side 168 supports a tang 167 having an aperture 169 formed therein for engagement with the shackle of a lock. A second right angle flange 170 includes a bottom side 172 which has a semi-circular cutout 174. Cutout 152 in combination with cutout 174 engages and encircles the conduit or lamp post to which variant security device 130 will be or is connected. Tabs 176 and 178 may be formed as part of the second right angle flange and extend upwardly from bottom side 172. Alternatively, they may be welded to second right angle flange 170. A channel 180 is attached to or formed as part of second right angle flange 170.
Strap 182 interconnects tab 176 with front side 168 and strap 184 interconnects tab 178 with front side 168. Thereby, top side 164 and bottom side 172 are formed as a unit. Straps 186, 188 are attached to and extend from sides 134, 136, respectively. These straps are spaced apart from top surface 140 and bottom surface 150 to provide a small gap therebetween.
To assemble variant security device 130 about a circular conduit or lamp post, shroud 132 is brought into engagement with the rear side of the conduit or lamp post. Thereafter, member 160 is slid into the shroud which sliding motion locates top side 164 intermediate top surface 140 and the ends of straps 186, 188. Simultaneously, bottom side 172 is brought into sliding engagement between bottom surface 150 and the lower ends of straps 186, 188. Thereby, cutouts 142, 166 and cutouts 152, 174 encircle the lamp post.
Member 160 and shroud 132 are in engagement with one another through use of a plurality of bolts, of which bolt 189 is illustrated. These bolts extend through front side 168 and strap 184 into engagement with a threaded aperture in strap 188. A similar bolt extends through the front side and strap 182 into threaded engagement with strap 186. A further bolt extends through tab 178 and strap 184 into threaded engagement with the lower end of strap 188. A yet further bolt extends through tab 176 and strap 182 into threaded engagement with the lower end of strap 186.
As particularly shown in
As discussed above and illustrated in
Number | Name | Date | Kind |
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4518817 | Kirby et al. | May 1985 | A |
7560642 | Ygnelzi et al. | Jul 2009 | B2 |
7884283 | Ousley | Feb 2011 | B1 |
8935844 | Ramgattie | Jan 2015 | B2 |
20120230004 | Atchley | Sep 2012 | A1 |
Number | Date | Country | |
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20140352368 A1 | Dec 2014 | US |