Electrical panel lockout

Abstract
An electrical panel lockout that locks the electrical panel door closed and prevents the panel cover from being removed. Two telescoping hollow tubes extend between two panel screws. Two slots in the ends of the hollow tubes slide under the screw heads of each of the loosened panel screws. The outer hollow tube and inner hollow tube extend across the panel door keeping it locked closed. The shackle of a padlock is inserted into one of the openings of the inner hollow tube to keep the device locked in the extended position onto the panel screws. The screw heads are encapsulated by the device rendering them inaccessible and preventing the electrical panel cover from being removed. Hollow tube extension fittings can be employed to increase the length of the device for use on electrical panels of larger widths. A guide screw attached to the inner hollow tube rides in a slot in the outer hollow tube to keep both tubes from separating.
Description
FIELD OF THE INVENTION

The present invention relates to electrical panels and, more particularly, to the electrical panel door and the electrical panel cover.


BACKGROUND OF THE INVENTION

In order to protect themselves from electric shock when working on electrical wiring, electricians need to turn off the electrical power and to be sure that no one else can turn the power back on. Fuses must be removed or circuit breakers must be shut off before electrical work can proceed. If someone replaces the fuse or turns the circuit breaker on while the electrical work is being done, the electrician can be injured or killed by electric shock.


In addition, users of critical equipment are fearful that accidental shutdowns may have severe consequences. Some examples would be the accidental shutdown of: hospital equipment serving an operating room or life support system; airport equipment for air traffic control or communication equipment used by emergency personnel.


The present invention is a solution to both of these problems. Electricians can turn off the circuit breakers they need to work on, lock the electrical panel door with the electrical panel lockout using their own lock. They can be confident that no one will turn those circuit breakers back on while work is being performed. Users of critical equipment can prevent accidental shutdowns by keeping unauthorized persons from entering the electrical panels controlling said equipment by installing the electrical panel lockout with their own lock.


Prior art patents which seek to provide solutions to these problems can be seen in the U.S. Pat. No. 3,044,815, to Soss, for a latching mechanism wherein a panel door can be locked with a key. In the U.S. Pat. No. 5,147,991, to Jordan, Sr., an electrical switch locking system locks a circuit breaker with a padlock. In the U.S. Pat. No. 5,419,165, to Perkins, an electrical panel locking apparatus has a pair of sliding iron bars that clip around the outside of the panel door and are locked in place with a padlock.


To limit the number of persons having access to circuit breakers or fuses, many electrical panel doors are equipped with a latching mechanism that can be locked with a key. One problem with these locks is that many people have the keys for them. The keys for most panel doors from particular electrical panel manufacturers are keyed alike so that electricians, maintenance people and others can have access to a locked panel. Another problem is that access to the circuit breakers can be gained even without a key by simply removing the screws that attach the panel cover to the panel backbox and removing the panel cover and door.


Electrical switch locking systems, also known as circuit breaker lockouts, can be used to lockout a circuit breaker in the off position. They are commonly used by electricians but they have many shortcomings. First, although these devices are claimed to be universal, they are not. There are many different types and sizes of circuit breakers due to amperage ratings, voltage ratings, the number of poles and different manufacturer's models. An electrician must have every different type of circuit breaker lockout available to be able to lockout each particular circuit breaker. Second, each circuit breaker lockout requires its own lock. Many locks will be needed when a number of breakers need to be shut off. This can be quite cumbersome. Third, when the circuit breaker lockout and lock is installed, the panel door cannot be closed. Other circuit breakers in the panel are left accessible to others. It is not desirable to have circuit breakers controlling critical equipment left accessible because of an open panel door. Fourth, while installing circuit breaker lockouts and locks there is the possibility of accidentally shutting off an adjacent circuit breaker causing an equipment shut down. Fifth, many circuit breaker lockouts are flimsy. They fall off or can be easily removed. Sixth, circuit breaker lockouts cannot be used to lock a circuit breaker in the on position. If a circuit breaker was locked in the on position, it could not trip and would not provide the over-current protection that is needed.


The electrical panel locking apparatus is designed to lock an electrical panel door closed but it has some shortcomings. First, being made of iron makes the apparatus heavy and unlikely to be carried by an electrician with his or her standard tools. Also, iron is a conductor of electricity. Many situations require that a panel that needs to be locked is in an electrical closet with other panels and switches. This other equipment may be open with live electricity present. It can be dangerous to employ an iron device in the vicinity of live electrical equipment. Second, during installation this device needs to extend beyond the panel being locked. Thus it can not be used on a panel that is located in a corner next to a wall, or, on a panel located next to another electrical panel or other equipment. These conditions occur often in crowded electrical closets. Third, access to the circuit breakers or fuses can be obtained by removing the panel cover screws and the panel cover thereby defeating the apparatus' intent.


In contrast to these prior art devices, the present invention provides a lightweight and universal method to lockout both circuit breakers and fuses. The key used to lock the device is the user's own key. The device locks the electrical panel door closed and locks the panel cover onto the panel backbox. The device is tamperproof so that it can not be removed without the key. The device can be used on most electrical panels regardless of the electrical panel's proximity to adjacent panels or walls. The device is simple and economical to produce.


It is therefore an object of the invention to lock an electrical panel door with the users own lock. The circuit breakers can then be locked in the desired on or off positions. Fuses can be locked in the installed state or the removed state.


It is another object of the invention to be tamperproof. The device encapsulates two of the electrical panel screws rendering them inaccessible so that the panel cover cannot be removed.


It is another object of the invention to provide an electrical panel lockout device that is portable. The device is lightweight and small enough to fit in an electrician's tool bag when retracted.


It is another object of the invention to be a universal lockout device. The electrical panel is designed to fit various sized panels. Hollow tube extension fittings extend the length of the electrical panel lockout to fit larger panels while maintaining portability.


It is another object of the invention to be usable on most electrical panels regardless of the panel's proximity to walls or other equipment. The device does not extend beyond the width of the electrical panel being locked, either during the installation or after it is installed.


It is another object of the invention that it can be made of a material that is safe to use in all applications. When used in close vicinity to live open electrical equipment, the device can be constructed of PVC, polyvinyl chloride hollow tube, which does not conduct electricity. Where live open electrical equipment is not present, the device can be made from metal hollow tube.


It is another object of the invention is to be affordably priced. The simple design of the device makes it inexpensive to produce.


SUMMARY OF THE INVENTION

In accordance with the present invention, there is a provided an electrical panel lockout that locks the electrical panel door and prevents the panel cover from being removed. An inner hollow tube slides inside a larger outer hollow tube so that both hollow tubes telescope. Each hollow tube has a slot in the end. The hollow tubes extend between two panel screws. The slots in the ends of the hollow tubes slide under each of the loosened panel screws attaching the device to the panel cover. The hollow tubes extend across the panel door. The locking mechanism keeps the hollows tubes in the extended position locking the panel door closed. The inner hollow tube has a plurality of openings therein for alignment in different positions for the locking mechanism so as to fit different sized electrical panels. The screw heads are encapsulated by the device rendering them inaccessible and preventing the electrical panel cover from being removed. A guide screw attached to the inner hollow tube rides in a slot in the outer hollow tube to keep both tubes from separating. Hollow tube extension fittings can be employed for use on larger electrical panels.





BRIEF DESCRIPTION OF THE DRAWINGS

A complete understanding of the present invention may be obtained by reference to the accompanying drawings, when considered in conjunction with the subsequent, detailed description in which:



FIG. 1 is a perspective view of an electrical panel lockout partially extended.



FIG. 2 is a perspective view of the hollow tube extension fitting.



FIG. 3 is a perspective view of an electrical panel backbox, panel cover and panel door having an electrical panel lockout attached in accordance with the present invention.



FIG. 4 is an exploded side elevation showing the outer hollow tube installed over the panel screw.



FIG. 5 is an exploded side elevation showing the inner hollow tube installed over the panel screw.





For purposes of clarity and brevity, like elements and components will bear the same designations and numbering throughout the Figures.


DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

Referring to FIGS. 1-5 of the drawings, an electrical panel backbox 12 has a panel cover 10 with a panel door 11 and hinges 15 to access circuit breakers or fuses in the electrical panel backbox 12. The present invention relates to a panel door locking device which attaches to the panel screws 7 of the panel cover 10 and spans across the panel door 11. The device is kept locked in place with a padlock 13 that has a shackle 14 which fits through the appropriate hole 6 in the inner hollow tube 2 keeping the device in the extended position attached to the panel screws 7. The present invention comprises an outer hollow tube 1 with a slot 3 to slide under one panel screw 7 and a inner hollow tube 2 that is smaller than the outer hollow tube 1 so that the two tubes can telescope to extend across the panel door 11 so that the slot 3 in the inner hollow tube can slide under the second panel screw 7. The inner hollow tube 2 has a plurality of openings 6 evenly spaced on the top and bottom that are aligned so that the shackle 14 of a padlock 13 can fit through them keeping the outer hollow tube 1 and the inner hollow tube 2 extended onto the panel screws 7 and attached to the panel cover 10 across the panel door 11. The outer hollow tube 1 and the inner hollow tube 2 encapsulate the panel screws 7 making them inaccessible so they can not be removed. The outer hollow tube 1 has a long slot 4 in the front for the guide screw 5 to ride in. The guide screw 5 attaches to a hole in the inner hollow tube 2 through the slot 4 of the outer hollow tube 1. The guide screw 5 and slot 4 serve to keep the outer hollow tube 1 and the inner hollow tube 2 from separating. A hollow tube extension fitting 8 has an internal coupling 9 on the right side that fits into the left side of the outer hollow tube 1. On the left side and in the rear of the hollow tube extension fitting 8 is a slot 3. When the hollow tube extension fitting 8 is used, the slot 3 of the hollow tube extension fitting 14 slides under the left panel screw 7 to attach the extension fitting 14 and the outer hollow tube 1 to the panel cover 10.


Since other modifications and changes varied to fit particular operating requirements and environments will be apparent to those skilled in the art, the invention is not considered limited to the example chosen for purposes of disclosure, and covers all changes and modifications which do not constitute departures from the true spirit and scope of this invention.

Claims
  • 1. An electrical panel lockout for locking the electrical panel door closed and locking the electrical panel cover onto the electrical panel backbox, comprising: an outer hollow tube, for attaching the device to the first panel screw and encapsulating the panel screw to make it inaccessible;an inner hollow tube, for attaching the device to the second panel screw and encapsulating the panel screw to make it inaccessible;a locking mechanism which keeps the device locked in the extended position and locked onto the panel screws and panel cover; anda hollow tube extension fitting, for extending the size of the device to fit onto larger sized electrical panels.
  • 2. The electrical panel lockout in accordance with claim 1, wherein said outer hollow tube is shaped and sized to receive said inner hollow tube so that both may telescope.
  • 3. The electrical panel lockout in accordance with claim 1, wherein said locking mechanism is a padlock having a shackle.
  • 4. The electrical panel lockout in accordance with claim 1, wherein said inner hollow tube has a plurality of openings therein for alignment in different positions for said shackle of said padlock to fit into to accommodate different sized electrical panels.
  • 5. The electrical panel lockout in accordance with claim 1, wherein said outer hollow tube has a long slot for a guide screw to ride in.
  • 6. The electrical panel lockout in accordance with claim 1, wherein said inner hollow tube has a hole for said guide screw to attach to after said guide screw is inserted through said long slot in said outer hollow tube.
  • 7. The electrical panel lockout in accordance with claim 1, wherein said outer hollow tube, said inner hollow tube and said hollow tube extension fitting are made of polyvinyl chloride, PVC, square hollow tube.
  • 8. The electrical panel lockout in accordance with claim 1, wherein said outer hollow tube, said inner hollow tube and said hollow tube extension fitting are made of metal square hollow tube.
RELATED APPLICATIONS

The present application is a continuation-in-part application of the U.S. provisional patent application, Ser. No. 60/934,030, filed Jun. 11, 2007, for ELECTRICAL PANEL LOCKOUT, by Richard Michael Cannon, included by reference herein and for which benefit of the priority date is hereby claimed.

Provisional Applications (1)
Number Date Country
60934030 Jun 2007 US