Electrical connectors – With supporting means for coupling part – Outlet box
Reexamination Certificate
2000-04-19
2002-01-29
Paumen, Gary (Department: 2833)
Electrical connectors
With supporting means for coupling part
Outlet box
C174S053000, C174S057000, C200S051060
Reexamination Certificate
active
06341981
ABSTRACT:
BACKGROUND OF THE INVENTION
Installation of a standard AC electrical system in a new residence or commercial site occurs in three phases, corresponding to the building construction. The rough phase corresponds to rough framing of the building, prior to attachment of wall panels to the frame. During this phase, blue boxes or similar electrical boxes are mounted to wall studs at predetermined locations, so that outlets are 18″ and switches are 36″ from the floor. Various box types are available, such as single-, double-, triple- or quadruple-wide configurations, among others. After the boxes are installed, a journeyman electrician, following a predetermined layout, routes Romex® brand or equivalent power cables through the framing to the appropriate boxes. A typical power cable has two solid core insulated conductors and a ground conductor, all surrounded by a non-metallic sheath. The power cable is fed through openings in the rear or sides of the electrical boxes. The journeyman typically labels the conductors by writing a code on the insulation that indicates the wiring connectivity and the type of module to be installed in each box. Then these cables are folded back into the boxes, unterminated, so as to be out of the way until the next phase. After all of the electrical wiring is routed in this manner, the electrical subcontractors leave the construction site, waiting for other subcontractors to finish their tasks.
The makeup phase corresponds to wall panel installation and painting. During this phase, the journeyman returns to the construction site to install modules into the electrical boxes. The journeyman retrieves the cable from each box, reviews the labeling, and connects the cable conductors to the appropriate module. One module choice is a duplex outlet that receives standard two-prong or three-prong grounded AC plugs. The outlet can be wired fall-hot, where each outlet is always connected to power, or half-hot, where one outlet is connected to power under control of a wall switch. Another module choice is a switch, which can be a standard on/off switch, a three-way switch or a dimmer switch, for example. After conductors are wired to a module, the module and attached conductors are pushed into the electrical box and the module is attached to the top and bottom of the box with screws. Once all modules are installed, the general contractor verifies the dwelling wiring against the electrical plans. If all of the wiring is correct, power can be connected to the dwelling for the first time.
The final phase corresponds to construction thing and finishing work. During the trim phase, face plates are mounted over the open-end of the electrical boxes, completing the standard electrical wiring process.
SUMMARY OF THE INVENTION
Problems with Standard Wiring Construction
There are multiple problems with standard electrical wiring construction. From the electrical contractor perspective, there are unnecessary costs associated with installation. Two separate trips are required for each job site, one for the rough phase and one for the makeup phase. Further, a journeyman electrician is required for each phase. During the makeup phase, installation of the wall panels can damage the work completed during the rough phase. One way in which damage occurs is router contact with exposed cables when drywallers create a hole to accommodate electrical box openings. Another form of damage occurs when drywall compound or paint fouls the exposed cables, insulation and labeling.
From the general contractor perspective, there are other problems with the standard electrical wiring construction. Verification of the electrical contractor's work is not possible until after the makeup phase. Until then, the electrical cables are unterminated. After the makeup phase, however, miswiring typically requires cutouts in the installed wall panels and associated patches after corrections are completed. Further, the electrical system cannot be activated until after verification. Thus, during the rough and makeup phases, electricity for tools and lighting must be supplied by generators, which create hazards due to fumes, fuel, and noise and are an unreliable electrical source. In addition, until the trim phase is completed, unskilled personnel have access to the electrical cable. Tampering can comprise the integrity of the electrical wiring and also create a safety problem after power is activated.
From a homeowner's perspective, there are problems with repair of the standard electrical wiring.
FIG. 1
illustrates a prior art electrical wiring assembly
100
, which includes a standard electrical box
110
and a standard duplex outlet
120
. Replacement of a broken outlet
120
first requires removal of a face plate (not shown). The screws
130
that attach the outlet
120
to the top and bottom of the electrical box
110
must be removed next. The outlet
120
is then removed from the box
110
and the conductors
140
are removed by loosing the screws
150
on the outlet sides. The process is then reversed to attach the conductors
140
to a new outlet
120
and mount the new outlet
120
into the electrical box
110
.
The prior art outlet replacement procedure described above exposes the homeowner to AC wiring upon removal of the face plate. This exposure creates a shock hazard. Further, a homeowner's reluctance to change out broken outlets or to spend the money to hire an electrician also creates a shock and a fire hazard from continued use of cracked, broken or excessively worn outlets. In addition, the integrity of the original wiring becomes questionable if a homeowner or other third party removes and replaces an outlet or switch. Miswiring by a third party can violate building codes and create shock and fire hazards, such as inadvertently switching the hot and neutral conductors, failing to attach ground wires, kinking or nicking conductors and improperly tightening connections.
Benefits of the Present Invention
The safety electrical outlet and switch system according to the present invention, benefits the electrical contractor in several respects. An aspect of the present invention is an electrical box, a wiring panel installed internally to the box and associated outlet and switch modules which snap into and out of the panel without exposure to or access to electrical system wiring attached behind the panel. The journeyman's work is completed at the rough phase, when installation of the wiring panel is complete. Thus, there is no need for the journeyman to return to the job site during the makeup phase because any semi-skilled laborer, following a punch-out code or other indicator on the panel, can snap-in an appropriate outlet or switch module. Further, there is no wiring access after the rough phase, protecting wiring integrity. Also, there are no exposed conductors or parts inside the electrical box that can be inadvertently damaged during wall panel installation. A protective cover is provided that prevents fouling by drywall compound or other materials during the makeup phase.
The safety electrical outlet and switch system according to the present invention also benefits the general contractor. Because wiring is completed during rough framing, verification and activation of the building electrical system can be performed at the rough phase. Miswiring can be corrected before wall panels are installed and painted, eliminating cut and patch repairs. Early electrical system activation eliminates the need to use generators. Lack of third party access to the journeyman's wiring preserves integrity after verification and eliminates shock exposure to other workers.
The present invention also benefits the homeowner. Replacement of broken sockets and switches can be easily and safely accomplished. Safety is enhanced by reducing exposure to electrical wiring and encouraging replacement of defective outlets and switches. Further, maintenance costs are reduced by reducing the need to hire an electrician for repairs. Wiring integrity is insured by reducing the opportunity
Gilman Alexander
Paumen Gary
Smith Glenn R.
LandOfFree
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