Wiring device/wallplate installation tool

Abstract

Disclosed is an electrical device installation tool configured to aid in spacing, aligning, leveling, and securing, singly or in series electrical device in their boxes before installation on wall plates. The tool comprises a lower overlay with width, length and having at least a first opening configured to substantially conform to engage a portion of one type of electrical device; an upper overlay with width, length and having at least a set of first openings separated by a second opening defining a central bridge, the first and second openings configured to substantially conform to engage a portion of another type of electrical device; a pair of leveling means arranged orthogonally with each other, the leveling means mounted on the tool; and a plurality of gripping means mounted on the tool configured to facilitate a firm and accurate hold on the tool and all its secured electrical devices while in use.

Description

FIELD OF THE INVENTION

The present invention relates generally to a an installing device, and more particularly, to a system and method of installing electrical wiring devices and their wallplates.

BACKGROUND OF THE INVENTION

The electrical industry has essentially standardized components of many types of electrical switch and electrical receptacle systems for everyday residential and commercial use with conventional electrical power. Each of these systems generally comprises an electrical box, a faceplate, and one or more wiring devices or switches of various types e.g., toggle switches, rocker switches, rotary switches, duplex receptacles, and the likes.

Many of these systems allow for the ganging, i.e., locating within the same electrical box, of wiring devices in various numbers and combinations. Typically, each wiring device is secured positively to the corresponding electrical box at opposing edges of the box, and the wall plates in turn secured to them.

Generally, without any sort of wiring device installation tool or gang installation tool, the process of aligning and spacing ganged wiring devices can be difficult and time consuming because it is often difficult to ensure that each wiring device is truly vertical or horizontal, as the case may be. Therefore, misaligned, misplaced, and misoriented switches and outlets remain a common complaint in the building industry despite varied attempts over the years to solve this installation problem.

U.S. Pat. No. 6,818,824 discloses a ganging tool for adjusting the position of a pair of ganged wiring devices in an electrical box. This ganging tool has a frame having a pair of apertures for receiving and holding different kinds of wiring devices, rotatable toggle adaptors mounted across these apertures allowing the positioning of toggle switches when in the first of two possible positions and allowing the positioning of other types of wiring devices when in the second of two possible positions, and a leveling means for determining the level of the wiring devices. This ganging tool has a complex design that hinders the performance of the tool. It requires a rotatable toggle adapter to position combinations of different types of wiring devices, which makes the device inconvenient to use. Further, because the adapter engages only half of the margin of a toggle switch and is itself subject to movement while in use, its accuracy is unreliable.

U.S. Pat. No. 4,888,880, discloses an electrician's tool, which comprises a combination template, spirit level, and a pair of locating pins stored in the housing when not being used to locate a standard duplex outlet. A lip on the right-hand edge of the template defines a stop-forming abutment for locating a second duplex outlet or a toggle switch in the precise ganged relation necessary to accept an appropriately apertured trimplate. The edge of the tool used to locate the margin of the toggle switch is not properly positioned to do so, firstly because the margin is not defined by industry standards and varies from manufacturer to manufacturer, and secondly because it has already been defined by the margin of another ganged receptacle. Further, there is no way to incorporate into this device a means to install the newer Decora (or GFIC) switches and outlet. Moreover, it requires a user to install removable screws every time the user needs to position a receptacle which makes the tool clumsy to use.

U.S. Pat. No. 3,279,080 discloses a template with integrated spirit level for positioning a pair of standard duplex outlets or toggle switches in electrical boxes. The template being of substantial thickness and having opposing faces, one of which is provided with speed recesses adapted to accommodate and shaped to fit outlet fixtures to position them on the box. While the portions of the recesses which are remote from each other are spanned by webs at one face of the template, and the webs being offset from the other face of the template to receive the outlet fixtures. Each web carrying a positioning dwell projecting from that face of the template at which the respective webs are located. This whole section above is incomprehensible. Try this. On one face of the template are dowel pins positioned to engage the precise tapped openings in toggle switches for the mounting of their wall plates. On the opposite face of the template are recesses configured to engage the margins of standard duplex outlets. These recesses are spanned by webs which hold the positioning dowels on the opposite face. There is no reference either in the description or the drawings to a recess defined by the contours of Decora switches and outlets (including GFIC outlets). The slot necessary opening through the template shaped to position receive a switch toggle is so scant in its contours relative to the full contours of a toggle switch that it lacks significant “positioning” utility. It The template is limited to adjusting the position of either ganged toggle type switches or ganged duplex electrical receptacles. It cannot be used for ganged combinations of different types of wiring devices. A further problem with the interface between the two faces is the impracticality of the positioning dowel(s) located for precise registry with the tapped openings of in toggle switches. switch mounting brackets. While positioning a switch fixture or pair of such fixtures is described, there is simply no place for the second pair of dowels to go when positioning either a single switch fixture or a switch fixture with a duplex outlet fixture. Further, this template is clumsy and dangerous to carry due to pointed dowel pins that project from one of its surfaces.

The electrical industry has essentially standardized components of many types of electrical switch and electrical receptacle systems for everyday residential and light commercial use with conventional electrical power, e.g., 120 VAC 60 Hz power, 240 VAC 60 Hz power, etc. Each of these systems generally comprises an electrical box, one or more wiring devices of various types and a faceplate. Examples of wiring devices include switches, e.g., toggle switches, rocker switches, rotary switches and duplex receptacles, among others. Many of these systems allow for the ganging, i.e., locating within the same electrical box, of wiring devices in various numbers and combinations. The process of roughing-in wiring devices into their respective boxes is straightforward and requires little precision in the manner of work. In order to complete the job, the wiring devices must first be secured positively to the boxes, and then the wall plates secured to the wiring devices.

Typically, each wiring device is secured to the corresponding electrical box at opposing edges of the box. Without any sort of wiring device installation tool, it is often difficult to ensure that each wiring device is truly vertical or horizontal, as the case may be. In addition, when wiring devices are ganged with one another and a matching faceplate is used, the several wiring devices must not only be oriented properly, but they must also be precisely spaced from one another and aligned with each other so that the faceplate engages all of the wiring devices properly. Without any sort of gang installation tool, the process of aligning and spacing ganged wiring devices can be difficult and time consuming. Misaligned, misspaced and misoriented switches and outlets remain a common complaint in the building industry despite varied attempts over the years to solve this installation problem.

All the devices disclosed in the prior arts either cannot be adapted to a wide variety of electrical devices available today. Most of the prior arts are very complex, are not convenient in operation, do not have any have limited utility, or are not reliably accurate.

SUMMARY OF THE INVENTION

In view of the foregoing disadvantages inherent in the above-mentioned prior arts, the general purpose of the present invention is: to provide an improved combination of convenience and utility, to include all the advantages of the prior arts, and to overcome the abovementioned disadvantages or drawbacks of the prior art.

It is therefore, a principal aspect of the present invention is to provide an improved and simplified, electrical wiring devices installing installation tool which can be mass produced inexpensively and provides means to orient, align and space a plurality of wiring devices by properly engaging each wiring device with the corresponding group of recesses or opening i.e. to aid in accurately spacing, aligning, leveling, and securing singly or in series, electrical wiring devices in their boxes before installation on a wall plate in a manner, which is quick, easy and effective installing their wallplates.

In another aspect of the present invention, an electrical wiring device installation tool comprises a lower overlay with width, length and having at least a first opening configured to substantially conform to conformally engage a portion of one type of electrical device, an upper overlay with width, length and having at least a set of first openings separated by a second opening a second opening and a third opening defining a central bridge containing a third fourth opening, the openings of the upper overlay configured to substantially conform to conformally engage a portion of another type of electrical device, a pair of leveling means arranged orthogonally with each other and mounted on the electrical wiring device installation tool, and a plurality of gripping means mounted on the electrical wiring device installation tool configured to facilitate a firm and accurate hold on the electrical device installation tool and all its secured electrical wiring devices while in use.

In another aspect of the present invention, an electrical wiring device installation tool comprises a lower overlay and an upper overlay which may be aligned and secured by securing means including adhesive bonding, fusing, mechanical fastening or the like. Furthermore, the electrical wiring device installation tool may be a monolithic structure and the lower and upper overlays may be integral with one another.

In yet another aspect, the present invention provides for an electrical wiring device installation tool wherein the openings of the upper and lower overlays configure contours corresponding to margins of different types of electrical wiring devices. The openings singly and in combination with each other are configured to aid in spacing, aligning, leveling, and securing singly or in series, electrical wiring devices in their boxes before installation on installing a wall plate wallplate.

In yet another aspect of the present invention, the electrical wiring devices that are spaced, aligned, leveled, and secured singly or in series, may include toggle switches, duplex outlets, rotary switches, Decora switches and outlets including GFIC outlets, in any order or combination.

In yet another aspect, the present invention provides for a an electrical wiring device installation tool wherein the third fourth opening configured by the central bridge receives the margin of a standard toggle switch thereby aiding in the placement of the switch relative to any other device with which it is ganged. Furthermore, the central bridge may also be beveled in on its underside to receive a rocker of a rocker switch or the like electrical devices for aligning and securing the devices with the electrical wiring device installation tool.

In yet another aspect, the present invention provides for an electrical wiring device installation tool wherein the leveling means may include spirit levels, liquid levels or the likes and the or other leveling means allowing the electrical wiring device installation tool to be used with horizontally and vertically oriented electrical wiring devices and gangs for aligning and leveling the electrical devices and gangs.

In yet another aspect, the present invention provides for an electrical wiring device installation tool wherein the first opening of the lower overlay is further configured to substantially conformally engage a standard duplex outlet.

In a further aspect, the present invention provides a method for spacing, aligning, leveling, and securing singly or in series, electrical wiring devices in their boxes before installation on installing a wall plate wallplate using an electrical wiring device installation tool having upper and lower overlay overlays with openings and mounted with leveling means. The method comprises roughly securing the electrical wiring devices to their boxes, laying the electrical wiring device installation tool over the loosely secured electrical wiring devices, aligning the electrical wiring devices with the properly spaced and aligned openings in the tool, bringing them into level or plumb with one of the leveling means; and holding the electrical wiring devices firmly using said electrical device installation tool while the devices are being secured.

In yet another aspect, the present invention provides for a method for spacing, aligning, leveling, and securing a plurality of electrical wiring devices in their boxes in ganged installations on a wall plate using an electrical wiring device installation tool having upper and lower overlays with openings and mounted with leveling means, the The method comprises roughly securing the electrical wiring devices to their boxes, laying the electrical wiring device installation tool over the loosely secured electrical wiring devices at or near the center of the gang, aligning the electrical wiring devices with the properly spaced and aligned openings in the tool and securing them to the box, moving the tool over to the next electrical wiring device, one at a time, aligning the tool with previously secured wiring devices thereby allowing for the proper alignment, orientation, spacing spacing, aligning, leveling and securing of each additional electrical device in seriatim.

These together with other aspects of the present invention, along with the various features of novelty that characterize the invention, are pointed out with particularity in the claims annexed hereto and forming a part of this disclosure. For a better understanding of the invention, its operating advantages and the specific objects attained by its uses, reference should be had to the accompanying drawings and descriptive matter in which there are illustrated exemplary embodiments of the invention.

DETAILED DESCRIPTION OF THE INVENTION

In general, the present invention is a tool for aiding a wiring device installer, e.g., an electrician or homeowner, in installing one or more wiring devices into an electrical box, particularly simplifying the process of orienting each device and/or aligning and spacing two or more devices relative to each other so that a faceplate may be readily installed and the installation is high quality. The unique design of the present invention allows it to be used with a number of standard wiring devices, including toggle switches, duplex receptacles, rotary switches and rocker switches. An example of rocker switches includes DECORA® switches manufactured by Leviton Manufacturing Corporation, Little Neck, N.Y. Various ground fault circuit interrupt (GFCI) type receptacles, e.g., DECORA® receptacles, may also be oriented, aligned and/or spaced using the tool of the present invention.

One utility of the invention may be found in each group of recesses/openings formed within the tool that correspond to the various margins found on many standard wiring devices. The utility flowing from each of these groups is the ability to orient any of the standard wiring devices corresponding to the various recesses/openings in the desired orientation, e.g., vertical or horizontal. Another utility of the invention may be found in the placement of two or more of these groups side-by-side with one another at a particular spacing (e.g., the U.S. industry standard wiring device 1.812 inches for 120 VAC 60 Hz devices) that allows an installer to not only orient two or more wiring devices, but also properly align and space the devices. The tool may also include one or more levels, e.g., spirit levels, that provide an installer with information pertinent to determining proper orientation and/or alignment.

FIGS. 1, 2, 3A-3D and 4 show one embodiment of a tool 10 of the present invention. Although this embodiment is shown as being essentially monolithic (except for spirit levels and associated retainers), the main portion of tool 10 may be thought of as comprising two layers 12, 14 (FIG. 3B), or “overlays,” particularly aligned with, and secured to, each other. Generally, lower overlay 12 comprises one or more openings 16 each corresponding to the margins of a rocker switch (not shown) (and a GFCI duplex outlet, which typically has the same marginal dimensions as a rocker switch). An example of such a rocker switch and GFCI duplex outlet are available under the trademark DECORA®, noted above.

Upper overlay 14 comprises one or more central openings 18 each corresponding to the margins of a standard toggle switch (not shown), e.g., a toggle switch having a boxed base, and two openings each designed to receive an end portion of the toggle. When upper and lower overlays 14, 12 are attached to, or integrated with, one another, each central opening 18 may be considered to be present within a corresponding bridge 20 that spans corresponding respective opening 16 in lower overlay 12. Each bridge is generally defined by two openings 21 in upper overlay 14 that are in registration with portions of respective openings 16 in lower overlay 12. When tool 10 is used with rocker switches, openings 21 receive therein portions of the rocker so that the tool properly seats with the switches. Depending upon the width and thickness of each bridge 20, it may be necessary to provide the underside of each bridge with two beveled regions 22 that correspond to the rocker of a rocker switch. These beveled regions 22 allow tool 10 to fully seat over a rocker switch, which protrudes from the faceplate (not shown) of a finished installation, so as to provide the utilities of the present invention discussed above. Each beveled region 22 may have any slope and length needed to allow tool 10 to properly seat over a rocker switch. If each bridge 20 is narrow enough and/or thin enough, it may not be necessary to provide beveled regions 22.

In order to accommodate standard (i.e., non-DECORA® type) duplex receptacles, lower overlay 12 may include edge rabbets 24 and/or contoured regions (see FIG. 5C) sized to receive corresponding portions of such a receptacle so as to allow tool 10 to properly seat with the receptacle. In addition, each opening 21 in upper layer 14 may also include a notch 26 useful in orienting, spacing and/or aligning wiring devices other than toggle switches, rocker switches and duplex outlets, such as rotary switches and non-boxed toggle switches not having any margins that snugly engage any of openings 16, 18, 21. In this case, notches 26 may be located to align with faceplate mounting holes present in the metal supports that attach these devices to an electrical box.

The particular embodiment of tool 10 as shown includes two spirit levels 28 oriented orthogonally with respect to one another. This allows tool 10 to be used with both horizontally and vertically oriented wiring devices and gangs. Tool 10 may also be provided with one or more grips 30 or other structures that allow an installer to firmly grip the tool while in use. FIGS. 1, 2, 3A-3D and 4 show exemplary dimensions for one embodiment of tool 10. Of course, those skilled in the art will readily understand that other dimensions and configurations may be used.

Whereas FIGS. 1, 2, 3A-3D and 4 illustrate a monolithic embodiment of the present invention, FIGS. 5A-5C and 6A-6D illustrate how a tool (not shown) of the present invention may be made from actual faceplates 32, 34 designed for toggle and rocker switches. First, a bottom overlay 12′ may be derived from gang-type DECORA® faceplate 32, e.g., a four or five gang faceplate, as shown in FIG. 5A. The top and bottom of faceplate 32 may be trimmed off, leaving enough material, e.g., 0.125 inches, to maintain the original openings 16′. As shown in FIG. 5B, most of the right and left hand portions of faceplate 32 may be trimmed off to form trimmed openings 36 so as to leave enough material, e.g., 0.125 inches, to engage the corners of a corresponding DECORA® rocker switch or DECORA® outlet. Openings 16′ and the sides of trimmed openings 36 may then be contoured, e.g., by laser cutting, routing or other machining, so as to form regions 38 that accommodate the ever-so-slightly larger contours of a standard (e.g., non-DECORA®) duplex receptacle. The result of these steps is shown in FIG. 5C, which is a completed lower overlay 12′ of the tool.

Referring to FIG. 6A, an upper overlay (14′, FIG. 6D) may be made from a gang-type toggle switch faceplate 34, e.g., a two or three gang faceplate, having a plurality of toggle openings 18′. Referring to FIG. 6B, openings 21′ above and below each toggle opening 18′ may be formed, e.g., by laser cutting, routing or other machining, leaving enough material (e.g., 0.125 inches) to form a corresponding bridge 20′ that maintains the corresponding original toggle opening 18′. The shapes and sizes of these openings 21′ substantially correspond to the shapes and sizes of openings 16′ in lower overlay 12′ (FIG. 5C) when upper overlay 14′ is properly laid over the lower overlay. Regions 40 on the left and right hand sides of upper overlay 14′ may be formed to correspond to the size and shape of openings 16′ in bottom overlay 12′. As shown in FIG. 5C, top and bottom edges of faceplate 34 may be trimmed off so as to leave enough material (e.g., 0.125 inches) to maintain openings 21. FIG. 6D shows that openings 21 and regions 40 may be contoured so as to form regions 42 that can receive a standard duplex outlet, similar to openings in lower overlay 12′ (FIG. 5C). FIG. 6D shows a completed upper overlay 14′. As discussed above relative to FIGS. 1, 2, 3A-3D and 4, depending upon the thickness and width of each bridge 20′, the backside of faceplate 34 may need to be beveled (see FIG. 4) to allow the tool to properly seat over a rocker switch. Notches (not shown) may also be made to complete upper overlay.

Once upper and lower overlays 14′, 12′ have been formed, they may be aligned and secured to one another, e.g., by adhesive bonding, fusing, welding, mechanical fastening, among other securing methods. Levels (not shown) may then be installed into tool 10′, if desired.

A tool of the present invention, e.g., tool 10, may be used as follows to orient, align and space a plurality of wiring devices (not shown). After the wiring devices have been roughed in to their electrical box, i.e., loosely secured to the electrical box, the tool may be laid over the wiring devices that may then be adjusted as necessary to properly orient, align and space them by properly engaging each wiring device with the corresponding group of recesses/openings. Once the wiring devices are positioned and oriented properly, the tool holds them firmly in place while they are more securely fastened to the electrical box. For ganged wiring devices of greater than two devices, the process may be begun at or near the center of the gang, with the tool then being moved, e.g., one device at a time, so as to be engaging at least one device already fully secured to the electrical box with the aid of the tool. In this manner, each additional wiring device may be properly oriented, aligned and spaced in seriatim.

Most toggle switches made today have a rectangular protruding box surrounding the toggle where the toggle extends into the body of the switch. It is this box that it typically held in place by the tool during installation. Some toggle switches, especially older ones, as well as rotary switches do not have such a box. When using the tool with these switches, it is generally necessary to estimate their proper position by aligning the wallplate mounting holes on the device with the notches centered at the opposing ends of each recess/opening group of the tool.

All specifications of the tool relating to its core function may be determined by a balance between industry standards for the different wiring devices and their faceplates, actual measurements of wiring devices, both old and new, and practical limitations on the manufacture of the tool.

The exemplary embodiments described herein detail for illustrative purposes are subject to many variations in structure and design. It should be emphasized, however that the present invention is not limited to a particular electrical wiring device installation tool as shown and described. Rather, the principles of the present invention can be used with a variety of electrical wiring device installation tool configurations and structural arrangements. It is understood that various omissions, substitutions of equivalents are contemplated as circumstances may suggest or render expedient, but is intended to cover the application or implementation without departing from the spirit or scope of the claims of the present invention.

The present invention provides an electrician's tool and more particularly, an electrical wiring device installation tool hereinafter referred to as tool, for the quick, easy, and effective installation of electrical wiring devices e.g switches, and outlets, so as to facilitate the installation of the appropriately configured wallplates. The present invention may be made available in metal or plastic or in the a like light weight material. It has low cost of manufacture with regard to both materials and labor thereby serving the commercial viability of a cost effective electrical wiring device installation tool capable of reducing the installation time and overcoming all the existing drawbacks and making such products economically available to the buying public.

The present invention provides for an electrical wiring device installation tool that is configured to aid in spacing, aligning, leveling, and securing singly or in series, electrical devices in their boxes before installation on a wall plate in a manner, which is quick, easy and effective. The present invention also eliminates the need of a multiple tool for addressing requirement of installation of ganged electrical devices into an electrical box thus simplifying the process of orienting each device and/or aligning and spacing two or more devices relative to each other so that a faceplate may be readily installed through an installation process that is simple, quick, effective, and is of high quality thus overcoming the drawbacks in the prior art. The unique design of the present invention allows it to be used with a number of standard electrical devices, including toggle switches, duplex receptacles, rotary switches and rocker switches e.g. DECORA switches, as well as DECORA outlets and various ground fault circuit interrupt (GFCI) type receptacles.

One utility of the present invention may be found in each group of recesses or openings formed within the electrical wiring device installation tool that correspond to the various margins found on many standard electrical devices. The utility flowing from each of these groups is the ability to orient any of the standard electrical devices corresponding to the various recesses or openings in the desired orientation, e.g., vertical or horizontal. Another utility of the invention may be found in the placement of two or more of these groups side-by-side with one another at a particular spacing (e.g., the U.S. industry standard wiring device 1.812 inches for 120 VAC 60 Hz devices) that allows an installer to not only orient two or more electrical devices, but also properly align and space the devices. The electrical device installation tool may also include one or more leveling means, e.g., spirit levels that provide an installer with information pertinent to determining proper orientation and/or alignment.

FIGS. 1, 2, 3A-3B show one embodiment of an electrical device installation tool 10 of the present invention. Although this embodiment is shown as being essentially monolithic (except for spirit levels and associated retainers), the main portion of tool 10 may be thought of as comprising two overlays 30, 40 (FIG. 1), particularly aligned with, and secured to, each other. Generally, lower overlay 12 comprises one or more first openings 16 each corresponding to the margins of a rocker switch (not shown) and a GFCI duplex outlet, which typically has the same marginal dimensions as a rocker switch. An example of such a rocker switch and GFCI duplex outlet are available under the trademark DECORA noted above. Upper overlay 40 comprises of at least a set of first openings 42, each designed to receive an end portion of the toggle, separated by a second opening 44 each corresponding to the margins of a standard toggle switch (not shown), e.g., a toggle switch having a boxed base. The set of first opening and second openings define a central bridge 46. When upper and lower overlays 40, 30 are attached to, or integrated with, one another, each second opening 44 may be considered to be present within a corresponding central bridge 46 that spans corresponding respective first opening 32 in lower overlay 30. Each central bridge 46 is generally defines set of first openings 42 in upper overlay 40 that are in registration with portions of respective first openings 32 in lower overlay 30. When tool 10 is used with rocker switches, set of first openings 42 of upper overlay 40 receive therein portions of the rocker so that the tool 10 properly seats with the switches. Depending upon the width and thickness of each central bridge 46, it may be necessary to provide the underside of each bridge with two beveled regions 48 that correspond to the rocker of a rocker switch. These beveled regions 48 allow tool 10 to fully seat over a rocker switch, which protrudes from the faceplate 80 of a finished installation, so as to provide the utilities of the present invention discussed above. Each beveled region 48 may have any slope and length needed to allow tool 10 to properly seat over a rocker switch. If each central bridge 46 is narrow enough and/or thin enough, it may not be necessary to provide beveled regions 48.

In order to accommodate standard (i.e., non-DECORA type) duplex receptacles, lower overlay 30 may include edge rabbets 34 and/or contoured regions (see FIG. 4C) sized to receive corresponding portions of such a receptacle so as to allow tool 10 to properly seat with the receptacle. In addition, each first opening 42 in upper overlay 40 may also include a notch 26 useful in orienting, spacing and/or aligning electrical devices other than toggle switches, rocker switches and duplex outlets, such as rotary switches and non-boxed toggle switches not having any margins that snugly engage any of openings 32, 42, 44. In this case, notches 20 may be located to align with faceplate mounting holes present in the metal supports that attach these devices to an electrical box. The particular embodiment of tool 10 as shown includes two leveling means, e.g. spirit levels 50 oriented orthogonally with respect to one another. This allows tool 10 to be used with both horizontally and vertically oriented electrical devices and gangs. Tool 10 may also be provided with one or more gripping means 60 or other structures that allow an installer to firmly grip the tool 10 while in use. FIGS. 1, 2, 3A-3B show exemplary dimensions for one embodiment of tool 10. Those skilled in the art will readily understand that other dimensions and configurations may be used.

FIGS. 1, 2, 3A-3B illustrate a monolithic embodiment of the present invention, FIGS. 4A-4C and 5A-5D illustrate how a tool 10 of the present invention may be made from actual faceplates 80, 90 designed for toggle and rocker switches. First, a lower overlay 30 may be derived from gang-type DECORA faceplate 80, e.g., a four or five gang faceplate, as shown in FIG. 4A. The top and bottom of faceplate 80 may be trimmed off, leaving enough material, e.g., 0.125 inches, to maintain the original first openings 32. As shown in FIG. 4B, most of the right and left hand portions of faceplate 80 may be trimmed off to form trimmed openings 82 so as to leave enough material, e.g., 0.125 inches, to engage the corners of a corresponding DECORA rocker switch or DECORA outlet. The lower overlay further has contoured regions 84 at faceplate 80. First openings 32 and the sides of trimmed openings 82 may then be contoured, e.g., by laser cutting, routing or other machining, so as to form regions 92 that accommodate the ever-so-slightly larger contours of a standard (e.g., non-DECORA duplex receptacle. The result of these steps is shown in FIG. 4C, which is a completed lower overlay 30 of the tool 10.

Referring to FIG. 5A, an upper overlay 40 (FIG. 5D) may be made from a gang-type toggle switch faceplate 90, e.g., a two or three gang faceplate, having a plurality of second opening 44. Referring to FIG. 5B, first openings 42 above and below each second opening 44 may be formed, e.g., by laser cutting, routing or other machining, leaving enough material (e.g., 0.125 inches) to form a corresponding central bridge 46 that maintains the corresponding original second opening 44. The shapes and sizes of the first openings 42 substantially correspond to the shapes and sizes of first openings 32 in lower overlay 30 (FIG. 5C) when upper overlay 40 is properly laid over the lower overlay 30. Regions 92 on the width of upper overlay 40 may be formed to correspond to the size and shape of first openings 32 in lower overlay 30. As shown in FIG. 5C, top and bottom edges of faceplate 90 may be trimmed off so as to leave enough material (e.g., 0.125 inches) to maintain first openings 42. FIG. 5D shows that first openings 42 and regions 92 may be contoured so as to form contoured regions 94 that can receive a standard duplex outlet, similar to first openings 32 in lower overlay 30 (FIG. 4C). FIG. 5D shows a completed upper overlay 40. As discussed above, relative to FIGS. 1, 2, 3A-3B depending upon the thickness and width of each central bridge 46, the backside of central bridge 46 may need to be beveled to allow the tool 10 to properly seat over a rocker switch. Notches 20 may also be made to complete the upper overlay 40. Once upper and lower overlays 40 and 30 have been formed, they may be aligned and secured to one another, e.g., by adhesive bonding, fusing, welding, mechanical fastening, among other securing methods. Leveling means (not shown) may then be installed into tool 10, if desired.

A tool 10 of the present invention, may be used as follows to orient, align and space a plurality of electrical devices (not shown). After the electrical devices have been roughed in to their electrical box, i.e., loosely secured to the electrical box, the tool 10 may be laid over the electrical devices that may then be adjusted as necessary to properly orient, align and space them by properly engaging each electrical devices with the corresponding group of recesses or openings. Once the electrical devices are positioned and oriented properly, the tool 10 holds them firmly in place while they are more securely fastened to the electrical box.

For ganged electrical devices of greater than two devices, the process may be begun at or near the center of the gang, with the tool 10 then being moved, e.g., one device at a time, so as to be engaging at least one device already fully secured to the electrical box with the aid of the tool 10. In this manner, each additional electrical device may be properly oriented, aligned and spaced in seriatim. Most toggle switches made today have a rectangular protruding box surrounding the toggle where the toggle extends into the body of the switch. It is this box that it typically held in place by the toll 10 during installation. Some toggle switches, especially older ones, as well as rotary switches do not have such a box. When using the tool with these switches, it is generally necessary to estimate their proper position by aligning the wallplate mounting holes on the devices with the notches 20 centered at the opposing ends of each recess/opening group of the tool 10. FIG. 6 shows the block diagram of the complete electrical device installation tool 10 in one exemplary embodiment of the present invention.

All specifications of the tool relating to its core function may be determined by a balance between industry standards for the different electrical devices and their faceplates, actual measurements of electrical devices, both old and new, and practical limitations on the manufacture of the tool.

The foregoing descriptions of specific embodiments of the present invention have been presented for purposes of illustration and description. They are not intended to be exhaustive or to limit the invention to the precise forms disclosed, and obviously many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and its practical application, to thereby enable others skilled in the art to best utilize the invention. It is understood that various omissions, substitutions of equivalents are contemplated as circumstance may suggest or render expedient, but is intended to cover the application or implementation without departing from the spirit or scope of the claims of the present invention.

Claims

1. An electrical device installation tool, comprising: a lower overlay with width, length and having at least a first opening configured to substantially conform to engage a portion of one type of electrical device; and an upper overlay with width, length and having at least a set of first openings, separated from a second opening, said separation defining a central bridge, said first and second opening configured to substantially conform to engage a portion of second type of electrical device

2. The electrical device installation tool as claimed in claim 1 wherein said lower overlay and said upper overlay may be aligned and secured by at least one of an adhesive bonding, fusing, or mechanical fastening.

3. The electrical device installation tool as claimed in claim 1 wherein said tool may be a monolithic structure and said lower and upper overlays may be integral with one another.

4. The electrical device installation tool as claimed in claim 1 wherein said openings of said upper and lower overlays configure contours corresponding to margins of different types of said electrical devices.

5. The electrical device installation tool as claimed in claim 1 wherein said tool with said openings singly and in combination with each other are configured to aid in spacing, aligning, leveling, and securing singly or in series, electrical devices in their boxes before installation on a wall plate.

6. The electrical device installation tool as claimed in claim 1 wherein said electrical devices may include toggle switches, duplex outlets, rotary switches, Decora switches including GFIC outlets, in any order or combination.

7. The electrical device installation tool as claimed in claim 1 wherein said central bridge is configured to receive a margin of a standard toggle switch thereby aiding in the placement of said switch relative to any other device with which it is ganged.

8. The electrical device installation tool as claimed in claim 1 wherein said central bridge may be beveled in its underside to receive a rocker of a rocker switch or the like electrical devices for aligning and securing said devices with said electrical device installation tool.

9. The electrical wiring device installation tool as claimed in claim 1 wherein said leveling means may include at least a spirit level, or a liquid level.

10. The electrical device installation tool as claimed in claim 9 wherein said leveling means may be of transparent cylindrical, capsule shaped surfaces or the likes having gauges to be used with horizontal and vertically oriented electrical devices and gangs for aligning and leveling said electrical devices and gangs.

11. The electrical device installation tool as claimed in claim 1 wherein said first opening of said lower overlay is further configured to substantially conformally engage a standard duplex outlet.

12. The electrical device installation tool as claimed in claim 1 wherein upon securing said upper overlay on said lower overlay, said set of said first openings of said upper overlay are aligned with corresponding said first opening of said lower overlay.

13. The electrical device installation tool as claimed in claim 1 wherein said lower overlay may be constructed from actual faceplates designed for toggle and rocker switches.

14. The electrical device installation tool as claimed in claim 1 wherein said upper overlay may be constructed from gang-type toggle switch faceplate.

15. The electrical device installation tool as claimed in claim 1 wherein said width of said lower overlay may be configured for accommodating ever-so-slightly larger contours of a standard duplex receptacle.

16. The electrical device installation tool as claimed in claim 1 wherein said width of said upper overlay may also be configured to form contours conforming to shape and size of contours of said lower overlay.

17. The tool of claim 1, further comprising: a pair of leveling means arranged orthogonally with each other, said leveling means mounted on said electrical device installation tool.

18. The tool of claim 1, further comprising: a plurality of gripping means mounted on said electrical device installation tool, said gripping means configured to facilitate a firm and accurate hold on said tool and all its secured electrical device while in use.

19. A method of spacing, aligning, leveling, and securing singly or in series, electrical devices in their boxes before installation on a wall plate using an electrical device installation tool having upper and lower overlay with openings and mounted with leveling means, the method comprising: roughly securing said electrical devices to their boxes; laying said electrical device installation tool over said loosely secured electrical devices; aligning them with the properly spaced and aligned openings in said tool; bringing them into level or plumb with one of the leveling means; and holding said electrical devices firmly using said electrical device installation tool while the devices are being secured.

20. A tool for orienting at least one electrical device having one of a first tpe and a second type, comprising: a lower overlay having a first opening configured to substantially conformally engage a portin of the first type of electrical device; and a second overlay having a second opening and a third opening defining a central bridge having a fourth opening configured to conformally engage a portion of the second type of electrical device.