Patent Application
20090280673
The present invention relates to electrical connectors and fixtures, and more particularly, to an electrical plug and socket combination allowing quick connection and mounting of electrical fixtures at electrical outlets.
Traditional techniques for installing electrical fixtures and appliances such as lighting fixtures and fans on walls or ceilings usually require the assistance of a qualified electrician, and the use of a variety of tools and specialized hardware. The procedure for installing or uninstalling such fixtures can also be relatively time consuming, even when performed by an experienced installer. In addition to the need for hand-wiring the necessary electrical connections between the fixture and electrical power supply wiring, the installer must make separate mechanical connections for supporting or suspending the fixture in place.
One solution to the problem is disclosed in PCT Publication No. WO 0016442 (“PCT '442”). PCT '442 discloses a plug and socket combination that permits quick connection of an electrical fixture or appliance at an electrical junction box on a wall or ceiling. The socket is secured on the wall or ceiling near electrical power supply wiring and includes a pair of hollow, female receptacles which receive male electrical prongs carried on the plug. The electrical fixture is secured to the plug. In addition to the quick electrical connection provided by this plug and socket combination, a mechanical connection between the plug and socket carries the mechanical load of the electrical fixture.
An improvement to the plug and socket described above is disclosed in PCT Publication No. WO 03044906 (“PCT '906”). The plug and socket combination shown in PCT '906 employs arcuately shaped electrical interconnections in the form of ring shaped male plug elements received within correspondingly shaped female receptacle openings. By this arrangement, the plug, along with the electrical fixture to which it is attached, can be freely rotated by the installer to a desire rotational position.
A still further improvement in the art is shown in Israeli Patent Application No. 159032 filed Nov. 24, 2003. In this Israeli application, a revolvable plug and socket combination is disclosed which includes means for selectively locking the plug and socket against relative rotation. By this feature, a user may lock the fixture against further rotation once the installer has indexed it to a desired orientation.
Accordingly, there exists a need for a universal device that can be used in a wider range of applications and gain widespread acceptance, while satisfying local and national building codes and standards. The present invention is intended to satisfy this need in the art.
According to one aspect of the invention, a device is provided for quickly connecting an electrical fixture with electrical power supply wiring, and for mounting the fixture on a support. The device includes a socket including a socket body having at least one internal cavity therein; an electrically conductive contact terminal disposed within the cavity for establishing an electrical connection between the electrical power supply wiring and the socket, the contact terminal having a portion thereof captured between internal surfaces of the socket body to hold the contact terminal in a fixed position without the need for fasteners; a plug rigidly fixed to the fixture and insertable into the socket, the plug having at least one male connector electrically connected to the fixture and engageable with the contact terminal within the socket to establish a circuit between the electrical fixture and the electrical power wiring; and, a releasable latch carried on the combination of the plug and the socket for releasably mounting the fixture on the support. The elimination of fasteners to hold the contact terminal in place not only reduces the cost of the device but also speeds manufacturing and assembly of the device.
According to another aspect of the device, compression springs are mounted within the socket cavities to supplement the spring force of the contact terminals, thus assuring reliable connection between the contact terminals and male connectors within the plug.
According to still another aspect of the invention, wire access holes are provided in both the top and the sides of the socket, thus giving the installer a choice of either top feed or side feed of the electrical supply wires into the socket. The contact terminals are configured to provide a similar choice of top or side feed, allowing the device to be installed in a wide range of applications.
According to a further aspect of the invention, a cover may be installed in the socket, overlying the wall or ceiling area around the device to provide a more pleasing aesthetic appearance when a fixture has not yet been installed.
In those installations where it is not possible to gain direct access to the centrally located latch, a lateral actuator assembly is provided for controlling the latch.
Accordingly, it is a primary object of the present invention to provide a device that facilitates quick electrical and mechanical connections between an electrical fixture and an electrical outlet on a wall, ceiling or floor.
Another object of the invention is to provide a device of the type mentioned above that can be used by unskilled or inexperienced users to quickly and easily install electrical fixtures.
A further object of the invention is to provide a device as described above which permits the electrical fixture to be rotated into a desired position during or after installation, and then locked in place.
Another object of the invention is to provide a device of the type mentioned which is suitable for universal use in a complete range of applications and environments, and which meets existing building codes and national electrical standards.
A still further object of the invention is to provide a device of the type referred to above which allows a user to install or remove an electrical fixture from an electrical supply box without the need of special tools or the assistance of a trained electrician and to do so easily and quickly.
Another object of the invention is to provide a device as described which is capable of connecting a wide variety of electrical appliance and fixture configurations to various types of wall, ceiling or floor outlets, electrical junction boxes or even flat wall surfaces that are not provided with electrical outlets.
A still further object of the invention is to provide a device as described above which possesses a minimum number of parts, avoids the use of fasteners where possible and can be manufactured in high volume using automated production techniques.
These, and further features and advantages of the present invention will be made clear or will become apparent during the course of a description of a preferred embodiment of the invention.
In the drawings, which form an integral part of the specification and are to be read in conjunction therewith, and in which like reference numerals employed to designate identical components in the various views:
Referring first to
The socket 24 comprises a cylindrically shaped, essentially hollow body 25 having a flat circular cover 66, both formed of non-conductive material such as phenolic resin. Four concentric, ring shaped, female recesses or slots 26a, 26b, 26c, 26d are formed in one face of the socket 24, and are configured to matingly receive four, later discussed male connector rings on the plug 22 to establish electrical connections between the plug 22 and the socket 24. The socket 24 includes a center through hole within which there is fixedly secured a metal bushing 28. The bushing 28 is provided with two concentric bores 30, 32 of differing diameters to define a circumferentially extending shoulder 34. In the illustrated embodiment, bushing 28 passes through and is fixedly secured to an elongate mounting strap 36 as by welding. It should be noted here however, that the bushing 28 and the strap 36 could be of unitary construction, formed of a single piece of high strength material, such as metal as by casting, machining or other metal working processes.
As best seen in
The cover 66 is received within a ring shaped recess in one face of the socket 24 and may be affixed to the body 25 of the socket 24 by any suitable means such as, for example, ultrasonic welding or snap fit. The cover 66 is provided with four upstanding bosses 68 circumferentially spaced around its periphery. Each of the bosses 68 includes a tapered access opening 70 communicating with the hollow interior of the socket 24. A second set of four access openings 72 are provided in the outer wall of the socket body 25.
As best seen in
Referring now to
The lower extremity of each of the contact terminals 48a-48d includes a spring leg 54 which extends downwardly into a corresponding one of the contact openings 64. Each of the spring legs 54 is flexible about its upper end which is connected by a bend to the intermediate section 58. The lower end of each of the spring legs 54 is provided with an electrical contact member 56 which overlies and is in radial registration with a corresponding one of the recesses 26a-26d, as best seen in
Each of the contact terminals 48a-48d is provided with a split or narrow gap or slot 52 which extends through the length of angularly offset top and sides of the upper extremity of each terminal 48a-48d. The width of each of the slots 52 is selected so as to be substantially less (close to zero) than the diameter of the electrical connecting wire which delivers power to the socket 24. Thus, the exact width of the slots 52 will depend on the gauge of the electrical wiring in a given application. The bare, stripped end of the electrical supply wire is connected to the socket 24 by inserting the wire end into one of the tapered access openings 70 and forcing the end of the wire through or into the slot 52 wherein the bifurcated parts of the terminal provide a spring pressure against the inserted wire and thereby tightly grip the wire. Because the slot 52 extends completely to the end of the upper extremity of the terminal 48a-48d, the sides of the upper portion of the terminal yields to the entering supply wire, causing slot 52 to expand which both accommodates the passage of the supply wire and captures it under spring pressure, thereby making a reliable electrical connection.
In some applications, it may not be convenient or possible to feed the electrical supply wires through the top face of the socket body 25. In this case, the electrical supply wires may be positioned through access openings 72 in the side wall of the socket body 25, where again they are forced through the corresponding slot 52 in order to establish electrical connection to the socket 24.
Referring now to
The plug 22 as well as the fixture attached thereto, is mechanically connected to the socket 24 and to the mounting strap 36 by means of a centrally located, releasable spindle assembly 100 which will now be described in detail. The spindle assembly 100 includes a barrel 94 having a series of coaxial bores therein, and a plunger or pin 114 axially slidable within the barrel 94. The barrel 94 includes a plurality of retaining balls 104 captured within radial openings 107 in the barrel 94. The upper end 106 of pin 114 is provided with a reduced diameter section forming a recess or ball detent 122 into which the retaining balls 104 may be inwardly displaced. The lower end of the barrel 94 includes two axially aligned bores having successively greater diameters, so as to define a pair of annular shoulders 110, 124. A compression spring 112 is sleeved over the pin 114 and is captured between shoulder 110 and the bottom portion of the pin 114, thereby normally biasing the pin 114 to move downwardly (outwardly) into a latched or locking position, wherein the pin 114 forces retaining balls 104 outwardly until they rest against the shoulder 34 within bushing 28. Downward travel of the pin 114 is limited by an annular retainer 120 received within the end of the barrel 94. Pin 114 includes an annular flange or lateral extension 118 which slides within barrel opening 108 until it contacts the retainer 120.
In an exemplary embodiment, the spindle assembly 100 is attached to the plug body 27 by means of annularly shaped, lateral extensions or flanges 105 on the barrel 94 which are integrally molded into the plug body 27. A push button 116, which extends from the lower end of the barrel 94, provides a means of actuating the spindle assembly 100 using either a finger or a tool. A guard cover 126 is secured to the lower end of the barrel 94 and includes a splayed lower portion surrounding the end of the push button 116. As seen in
The electrical fixture may be secured to the plug 22 in any of a variety of ways. For example, the fixture may be fixedly attached by or to the guard cover 126, or directly to the lower threaded section of the barrel 94. Alternatively, the fixture may be secured to a piece of mounting hardware, such as a “hickey” threaded onto the lower end of the barrel 94. In any event, it may be appreciated that the weight of the fixture is transmitted through the barrel 94, retaining balls 104, and bushing 28 to the mounting strap 36, which in turn is secured to the junction box, wall or other structure on which the fixture is to mounted.
Referring now to
In some installations, a recessed electrical junction box may not be available to provide the means of mechanically mounting the device 20 on a surface. In this case, as shown in
In some installations where the electrical fixture includes a structure such as a motor, it may not be possible to gain direct access to the centrally located spindle assembly 100 and push rod 116, even if the length of the latter is extended. In such installations, a modified form of the device 20 may be used, as shown in
Canopy 148, which is employed primarily for aesthetic purposes, encloses the exposed box 130 as well as wiring and structure such as a motor (not shown) or other equipment forming part of the electrical fixture. A pair of mounting spacers 140 secured to the support member 138 extend downwardly from the latter and have secured thereto one end of a flexible lever 142 formed, for example, of spring steel, synthetic material or other spring-like material, and constitutes a flat leaf spring which returns to its original shape after deflection. Medial portions of the lever 142 are secured to the push rod 116 by a retainer 150, which can simply be the top portion of rod 116. The opposite end of the lever 142 has an extension rod 144 secured thereto which includes a downwardly extending reduced diameter section 146 passing through an opening in the canopy 148 and having a knob 146a on its free lower end.
With rod 144 in its normal, down position shown in
In order to release the plug 22 from the socket 24 and disengage the mechanical connection supporting the fixture, the user moves rod 144 upwardly, causing lever 142 to deflect, which in turn displaces the push rod 116 upwardly. This upward movement of the push rod 116 also displaces the pin 114 upwardly, allowing the retaining balls 104 to move into the depressions 122, thus releasing the spindle assembly 100 and allowing the barrel 94 to be removed from the bushing 28.
Having described details of the preferred embodiment of the device 20, and various modifications thereto, the use and operation of the device 20 will now be explained. The socket 24 is first installed either on an electrical junction box 130 or directly on a wall or ceiling surface. The installer then connects electrical supply wires 128 to the socket 24 by passing the bare ends of the wires 128 into either wire openings 70 or 72, depending how the socket 24 is mounted. The wire ends are then forced into the slots 52 in the contact terminals 48a-48d which securely retain the wires within the socket 24 and establish an electrical connection between the electrical supply wires 128 and the electrical contact members 56.
The electrical fixture to be installed is first mounted on the plug 22. As previously discussed, the exact mounting method will vary, depending on the type, size and configuration of the fixture. Wiring from the fixture is routed through the lateral wire openings 95 in the side of the plug body 27, and fed into the lateral openings in the terminal blocks 84. The set screws 82 are then screwed down onto the wire ends to secure the latter in place.
Having secured the fixture to the plug 22, the installer first depresses the push rod 116, to displace the pin 114 until the depressions 122 align with the balls 104. The balls 104 move into the depressions 122, allowing the upper cylindrical section 106 of the barrel 94 to pass into the bore 30. As the insertion process continues, the male connector rings 78a-78d enter and move through the respectively associated female socket recesses 26a-26d until they engage the respectively associated contact members 56, thereby establishing electrical connection between the fixture and the contact terminals 48a-48d. The springs 60 hold contacts 56 firmly against the rings 78a-78d to assure a continuous, reliable electrical connection. At this point, the installer releases the push rod 116, whereupon spring 110 axially displaces the pin 114 to its normal locking position, forcing the balls 104 outwardly until they engage the shoulder 34 to hold the pin 114 in its locked position. The two sets of indexing teeth 88, 90 respectively carried on the socket body 25 and the plug body 27 respectively, mesh and matingly engage each other to lock the plug 22 and socket 24 against relative rotation, causing the fixture to be held in a desired orientation selected by the installer.
If it is desired to rotate the fixture to a different position, the installer need only depress the push rod 116 and withdraw the plug 22 from the socket 24 a slight distance sufficient to disengage the teeth 88, 90 from each other, at which point the fixture may be rotated to a different position. With the fixture repositioned, the plug 22 is inserted back into its fully seated position against the socket 24 and the push rod 116 is released to lock the fixture in place. The full circle configuration of the connector rings 78 and the recesses 26 allows the fixture to be fixed in virtually any rotational position. However, it should be noted here that the connector rings 78 in the plug 22 and the mating recesses 26 in the socket 24, could be configured to extend less than a full 360 degrees, for example 180 degrees, in which case the fixture will only be rotatable to positions with the range permitted by the circumferential extent of the connector rings and corresponding recesses.
With the fixture installed as described above using the device 20, the supplied electrical power flows from the supply wiring to the contact terminals 48a-48d, and thence through the contacts 56 to the connector rings 78a-78d. From the connector rings 78a-78d, electrical power flows to the terminal blocks 84, and then to the fixture. In an exemplary embodiment, four connections are shown: a ground, a neutral and two lines, however, it is to be understood that fewer or a greater number of connections can be made (such as three or five), depending on the requirements of a given application. Advantageously, in the illustrated embodiment, connector ring 78d carries the ground connection. Because connector ring 78d possess a greater depth or height than the other connector rings, the ground connection is made before the other connections are established, thus assuring that any unintended short circuit electrical current present in the device 20 is safely carried to ground before the other “hot” connections are made.
In another exemplary embodiment shown in
The socket 24 comprises a cylindrically shaped, essentially hollow body 25 having a flat circular cover, both formed of non-conductive material such as phenolic resin. Four concentric, ring shaped, female recesses or slots 26a, 26b, 26c, 26d are formed in one face of the socket 24, and are configured to matingly receive four, later discussed, male connector rings on the plug 22 to establish electrical connections between the plug 22 and the socket 24. The socket 24 includes a center through hole within which there is fixedly secured a metal bushing 28. The bushing 28 is provided with two or more concentric bores of differing diameters to define one or more circumferentially extending shoulders 34. The circumferentially extending shoulders 34 within the bushing 28 engage one or more retaining balls of a spindle assembly 100 of the plug 22. (The retaining balls and spindle assembly are described in more detail later.) For a spindle assembly having one set of radially projecting retaining balls, the bushing 28 may include one circumferentially extending shoulder 34 for engaging the retaining balls and connecting the plug 22 to the socket 24. Alternatively, the bushing 28 may include two or more shoulders 34 when used with a spindle assembly having one set of retaining balls. In this embodiment, one circumferentially extending shoulder may engage the retaining balls to hold the plug 22 in a temporary hanging position to facilitate other assembly or maintenance steps before the plug 22 is fully seated in a locked configuration.
It is further contemplated that the bushing 28 may include two or more circumferentially extending shoulders 34 dimensioned and configured to engage two or more sets of radially projecting retaining balls. (Again, the retaining balls are described later.) Increasing the number of shoulders 34 that engage the retaining balls increases the holding power of the plug 22 to the socket 24. For example, a bushing 28 having two circumferentially extending shoulders 34 engaged with two sets of retaining balls may at least double the strength of the plug/socket connection as compared to a single shoulder, single set of balls design. Additionally, the double shoulder, double set of balls configuration allows the plug 22 to be temporarily hung from the socket 24 to facilitate other assembly steps or maintenance. This is accomplished by engaging one set of retaining balls of the plug 22, preferably the leading set of balls, with a circumferentially extending shoulder 34 of the bushing 28, preferably the first encountered shoulder. Thereafter, the plug 22 may be further mated with the socket 24 to engage both sets of retaining balls with both shoulders 34.
The socket 24 of the quick connect device further includes one or more bosses 68 circumferentially spaced around the periphery of the cover. Each of the bosses 68 includes a tapered access opening 70 communicating with the hollow interior of the socket 24. A second set of four access openings 72 are provided in the outer wall of the socket body 25. As shown in
Referring now to
The plug body 27 is provided with four, spaced-apart, lateral wire openings 95 therein which are circumferentially aligned with the connector blocks 84. The lateral wire openings 95 form wire channels. A wire channel may extend from a lateral wire opening 95 to a connector block 84 thereby making the wire channel radially extending. Alternatively, the wire channels may be tangentially extending. In this configuration, the wire channels extend generally perpendicular to a radius of the plug body 27 or generally tangent to a circle passing through the connector blocks 84 and having its center at the center of the plug 22. Tangentially extending wire channels provide for enhanced safety of the plug 22. Since a tangentially extending wire channel may be generally greater in length or depth than a radially extending wire channel, the stripped end portion of an electrical wire may be more fully enclosed or covered thereby reducing the risk of electrocution, shorting, or fire from the exposed wire. Furthermore, radially extending wire channels may require the electrical wires therein to extend from the plug 22 radially outward. This configuration may require more space surrounding the plug to accommodate the wires. The tangentially extending wire channels permit the electrical wires protruding therefrom to reside closer to the outer wall of the plug 22 thereby requiring less space to accommodate the wires around the plug 22.
Four additional; circular openings 83 are provided in the top face of the plug body 27 which are circumferentially aligned with and provide access to the terminal blocks 84. Set screws 82 pass through openings 83 and are received within threaded holes in the top of the terminal blocks 84. Electrical wiring from the electrical fixture which is attached to the plug 22 is trained through the lateral wire openings 95 so that the stripped ends of the wire pass into the lateral openings in the terminal blocks 84. Set screws 82 provide a means of tightly securing the electrical wire ends on the terminal blocks 84, thereby connecting the fixture with the male connector rings 78a-78d.
It is further contemplated that the radial projections or ears 73 previously described in relation to the socket 24 may be applied to the plug 22. The wire channels of the plug 22 extending between the lateral wire openings 95 and the connector blocks 84 may be extended with ears 73. For radially extending wire channels, the ears 73 may be radial projections. For tangentially extending wire channels, the ears 73 may be tangential projections. In either configuration, the projections or ears provide additional enclosure of the stripped wire ends.
The plug 22, as well as the fixture attached thereto, is mechanically connected to the bushing 28 of the socket 24 by means of a centrally located, releasable spindle assembly 100 which was previously mentioned but will now be described in more detail. The spindle assembly 100 includes a barrel 94 having a series of coaxial bores therein, and a pin 114 axially slidable within the barrel 94. The barrel 94 includes a plurality of retaining balls 104 captured within radial openings 107 in the barrel 94. One or more balls may form a set of retaining balls 104 positioned within radial openings 107 of the barrel 94. Furthermore, one or more sets of balls 104 may be spaced apart along the barrel 94. Each set of retaining balls 104 are captured within radial openings 107 in the barrel 94. Therefore, a spindle assembly having two sets of retaining balls 104 may include two sets of radial openings. It is contemplated that two, three, four, or more sets of retaining balls 104 and corresponding sets of radial openings may be included in the spindle assembly 100.
As previously described, the retaining balls 104 of the spindle assembly 100 allow for the plug 22 to be mated within the bushing 28 of the socket 24. The bushing 28 includes one or more circumferentially extending shoulders 34 which engage the one or more sets of retaining balls 104 of the spindle assembly 100. Having two or more sets of shoulders 34 and retaining balls 104 increases the holding strength of the quick connect device.
In further describing the spindle assembly 100, the end portion 106 of pin 114 is provided with one or more reduced diameter sections forming recesses or ball detents 122 into which the retaining balls 104 may be inwardly displaced. The lower end of the barrel 94 includes two axially aligned bores having successively greater diameters, so as to define a pair of annular shoulders 110, 124. A compression spring 112 is sleeved over the pin 114 and is captured between shoulder 110 and the bottom portion of the pin 114, thereby normally biasing the pin 114 to move downwardly (outwardly) into a latched or locking position, wherein the pin 114 forces retaining balls 104 outwardly until they rest against the shoulders 34 within bushing 28 of the socket 24. Downward travel of the pin 114 is limited by an annular retainer 120 received within the end of the barrel 94. Pin 114 includes an annular flange or lateral extension which slides within barrel opening 108 until it contacts the retainer 120. The spindle assembly 100 is attached to the plug body 27 by way of extensions or flanges on the barrel. The flanges may be integrally molded into the plug body 27. A push rod 116, which is secured to and extends from the end of the barrel 94, provides a means of moving the pin 114 to thereby actuate the spindle assembly 100.
In some installations where the electrical fixture includes a structure such as a motor, it may not be possible to gain direct access to the centrally located spindle assembly 100 and push rod 116, even if the length of the latter is extended. In such installations, a modified form of the device may be used, as shown in
Generally, the latching mechanism 202 includes a base plate 204, an adapter 206, a leaf spring 208, a clamp 210, a pivot rod 212, and a handle 214. The adapter 206 is connected to the bottom side of the base plate 204. Preferably, the adapter 206 includes two feet that may be positioned against the bottom side of the base plate 204 and screwed, bolted, adhered, or welded thereto. The adapter 206 also includes two apertures 216. The apertures 216 are dimensioned and configured for receiving a portion of the pivot rod 212. The pivot rod 212 includes a generally offset portion 218 which is positioned between the apertures 216 of the adapter 206. A proximal portion 220 of the pivot rod 212 extends from the adapter 206. Preferably, the proximal portion 220 extends beyond an end of the base plate 204. At the proximal end of the pivot rod 212, the handle 214 is attached so the rod 212 may be easily rotated. The clamp 210 is mounted against a leg of the adapter 206. Preferably, the clamp 210 is positioned on an inner side of a leg and adjacent to the pivot rod 212. The clamp 210 includes one or more elements which engage the offset portion 218 of the pivot rod 212 as the pivot rod 212 is rotated. The elements of the clamp 210 restrict the range of motion that the pivot rod 212 may rotate.
Connected with the base plate 204 is the plug 22. The distal portion of the plug 22 is positioned through an opening in the base plate 204 with the distal portion being placed adjacent the offset portion 218 of the pivot rod 212. A nut or other retaining member 222 may be screwed onto the distal portion of the plug 22 to secure the plug 22 to the base plate 204. The leaf spring 208 is attached to the base plate and positioned adjacent the push rod 116 for selectively contacting the push rod 116. The leaf spring 208 may be generally V-shaped having two portions. One portion of the leaf spring 208 may be connected with the base plate 204. For example, one portion may include an opening which is placed over the distal portion of the plug 24. When the nut 222 is screwed onto the distal portion, the plug 24 and the leaf spring 208 are connected with the base plate 204.
The other portion of the V-shaped leaf spring 208 may be positioned between the push rod 116 and the offset portion 218 of the pivot rod 212. In its normal, non-deformed or non-actuated configuration, the leaf spring does not activate or press the push rod 116. However, when the pivot rod 116 is rotated, the offset portion 218 of the pivot rod 116 pushes the leaf spring into contact with the push rod 116 to thereby release the plug 22 from the socket 24. This exemplary embodiment of the latching mechanism 202 permits an electrician or other person to remove an electrical appliance from a wall, ceiling, or floor by rotating the handle 214 which is spaced away from the centerline of the appliance. This embodiment allows the appliance to be quickly connected and released when the push rod 116 is not accessible because the appliance or a cover or canopy is in the way.
In another embodiment shown in
Unlike the previously described embodiment, in the embodiment of
In a further embodiment, the quick connect device and latching mechanism may be used in combination with a canopy and a remote control. In
Referring to
The bushing 28 includes a cylindrically shaped, essentially hollow tube having an enlarged bore 30 in one end thereof which forms an annular internal shoulder 34. The tubular bushing 28, which is preferably formed of metal, can be attached to the strap 36 by welding or can be integrally formed with the strap 36, if desired.
The mounting strap 36 is provided with apertures on its outer extremities which receive screws 40 that mount the strap 36 and thus the bushing 28 on an electrical junction box 130. The U-shaped configuration of the strap 36 allows the bushing 28 to be recessed within the junction box 130. However, in those applications where it is necessary to mount the bushing 28 directly on a wall or ceiling without use of a junction box, a flat strap may be employed.
The spindle assembly 100 includes a tubular main body or barrel 94, a plunger or pin 114 slidably disposed within the barrel 94 and a finger hold or guard cover 126 which is screwed onto the threaded lower end of the barrel 94. The upper end of the barrel 94 includes openings 107 which receive retaining balls 104. The upper end of the plunger 114 includes a reduced diameter section 122 that allows the balls 104 to shift radially inward when the reduced diameter potion 122 is aligned with the balls 104. A spring 112 captured within the barrel 94 normally urges the plunger 114 downwardly, forcing the balls 104 to move outwardly, so that the weight of the fixture is loaded onto the shoulder 34. Immobilized in the their most outward position, the balls 104 cause interference with the shoulder 34, preventing the spindle assembly 100 from withdrawing from the bushing 28, thus mechanically mounting the fixture 69 on the junction box 130, via the strap 36.
The plunger 114 is fitted with a release button 116 which is surrounded by the finger hold 126. The user may unlock (release) the device 420 by depressing the button 116. Displacement of button 116 in this manner moves the plunger 114 upwardly, until the balls 104 align with the reduced diameter portion 122 of the plunger 114, which allows the balls 104 to move inwardly, so as to clear the shoulder 34. While continuing to hold the button 116 in its depressed position, the user may then remove the spindle assembly 100 from the bushing 28 and strap 36 and disconnect the fixture 69 from the junction box 130. A long push rod 152 may be thread into the end 117 of the release button 116 to extend the button for easier access. Furthermore, the push rod 152 may be replaced by a threaded extension rod 152′ where it is necessary to operate the device 420 from a greater distance beneath the device due to fixture obstructions or the like.
The fixture 69 can be secured to the spindle assembly 100 in a variety of ways. As shown in the drawings, the barrel 94 includes a ring shaped outer flange 105. A portion of the fixture 69 can be captured between this flange 105 and a nut 67, thereby tightly securing the fixture to the spindle assembly 100 of the device 420.
The finger hold 126 not only protectively covers the sides of the push button 116 in order to prevent inadvertent actuation of the latter, but acts as a guide to lead a user's finger onto the end of the button 116. Further, the finger hold 126 provides a means of gripping and holding the spindle assembly 100 during the installation process; the user places the index and middle finger fingers on the sprayed lower portion of the hold 126 while the thumb actuates the push button 116.
As previously mentioned, the electrical fixture may be secured to the spindle assembly 100 in any of a variety of ways. For example, the fixture may be fixedly attached to the finger hold 126, or directly to the barrel 94. Alternatively, the fixture may be secured to a piece of mounting hardware, such as a “hickey” 154 threaded onto the lower end of the barrel 94. In any event, it may be appreciated that the weight of the fixture 69 transmitted through the barrel 94, retaining balls 104, and bushing 28 to the mounting strap 26, which in turn is secured to the junction box, wall or other structure on which the fixture is to mounted.
In some installations it may be necessary to effectively extend the length of the push button 116 where, for example, a motor or other parts of the electrical fixture are covered by a downwardly extending shroud or canopy (not shown). In this event, additional hardware such as the threaded hickey 154 is screwed onto the lower threaded portion of the barrel 94. A threaded guide barrel 94a is in turn screwed into the lower end of the hickey 154. An elongate push rod 152 or 152′ is utilized which is attached at its end to the plunger 114. The push rod 152 or 152′ is guided by the guide barrel 94a, with its lower end extending beyond the lower end of the guide barrel 94a.
After a fixture is installed using the device 420, electrical wiring between a supply line and the fixture may be performed in the normal manner. For example, electrical supply lines 128 fed into the junction box 130 are connected with lead wires 129 on the fixture using a connector junction 131, wire terminals or the like.
Having described details of the preferred embodiment of the device 420, and various modifications thereto, the use and operation of the device 420 will now be explained. The bushing 28 and strap 36 are first installed either on an electrical junction box 130 or directly on a wall or ceiling surface. The electrical fixture to be installed is first mounted on the spindle assembly 100. As previously discussed, the exact mounting method will vary, depending on the type, size and configuration of the fixture. Having secured the fixture to the spindle assembly 100, the installer first depresses the push button 116 to displace the plunger 114 until the depression in the sides of the plunger 114 aligns with the balls 104. The balls 104 move into the plunger depression 122, allowing the upper cylindrical section of the barrel 94 to pass into the central bore in the bushing 28. At this point, the installer releases the push button 116, whereupon spring 112 axially displaces the plunger 114 to its normal locking position, forcing the balls 104 outwardly until they engage the shoulder 34 to hold the plunger 114 in its locked position. This sequence of events is reversed when the user wishes to disconnect the fixture from the junction box 130.
Another exemplary embodiment of the quick connect device is shown in
An exploded view of the plug 22 is shown in
As shown in
In an unactuated configuration, the retaining balls 104 are pressed by the pin 114 in a radial direction forcing a portion of each ball 104 to extend out of the radial openings 107. In an actuated configuration when the pin 114 is pressed and the spring 112 is compressed, the depressions 122 on the pin 114 are aligned with the radial openings 107 of the barrel 94 allowing the retaining balls 104 to move radially inward and not extend outwardly from the radial openings 107. The spindle assembly 100 is secured to the plug body 27 by way of extensions or flanges 105.
The plug body 27 is generally cylindrical in shape, like a wheel. The plug body 27 is hollow or has a cavity on one side. In
Disposed within the cavity of the plug body 27 are a ring support member 79 and a plurality of connector rings 78a, 78c, and 78d. The support member 79 and rings 78 may be fastened to or molded within the socket body 27. As seen in
When the plug 22 is assembled, the ring support member 79 is positioned within the cavity of the plug body 27. Each connector ring 78 is positioned within the cavity of the plug body 27 with the center axes of the rings 78 being generally aligned with the center axis of the plug body 27. In this configuration, since the connector rings 78 have different diameters, the rings 78 are spaced apart from each other. The extension arms 80 of the rings 78 extend radially outward toward the outer edge portion of the plug body 27. A plurality of terminal blocks 84 is positioned in the outer edge portion of the body 27 generally adjacent to and in line with the wire openings 95. Each terminal block 84 is connected with one of the arms 80 of a ring 78 such that an electrical wire positioned in a wire opening 95 is connected with a terminal block 84 with a screw 82. For each of the connector rings 78, an electrical connection is made from a wire to a terminal block to an extension arm and to a connector ring. The plug body 27 may include three terminal blocks 84: one for the “hot” wire, one for the “neutral” wire, and one for the “ground” wire. The three terminal blocks 84 may be positioned in the plug body 27 and spaced apart about 45 degrees from each other.
The socket 24 of the quick connector device is illustrated in
The socket body 25 further includes a sunken rim disposed on the same side of the body 25 as the slots 26a-26d. The rim allows the socket body 25 to be mated with the plug 22 by permitting that portion of the socket body 25 which creates the slots 26 to be positioned within the cavity of the plug body 27 and thereby positioning the connector rings 78 within the slots 26. A surface of the rim of the socket body 25 may include teeth or ridges 88. A surface of the plug body 27 may also include teeth or ridges 88 as best seen in
Radial projections or ears 73 and 73a extend from the outer wall of the socket body 25 thereby extending the length or depth of access openings 72. The radial projections or ears 73 may have any cross-sectional shape including a rectangle, circle, triangle, square, etc. Furthermore, the ears 73 and 73a may be spaced equidistantly about the circumference of the socket body 25; for example, at 90; 180, 270, and 360 degrees. Preferably, ear 73, which holds or contains the “ground” wire, is cube shaped with an access opening extending therethrough. The other ears 73a, which contain “hot L1” and “hot L2” and “neutral”, have a half-round edge. The radial projections or ears 73 and 73a provide additional enclosure of the electrical wires positioned therein. Without an ear on the outer wall of the socket body 25, a stripped end portion of an electrical wire inserted into an access opening 72 may be exposed and create an unsafe condition. Therefore, the radial projection 73 and 73a enhances the safety of the socket 24 by covering any exposed, stripped electrical wire.
Within the cavity or cavities of socket body 25, a plurality of terminal blocks 84 are aligned with the access openings 72 and the slots 26. Each terminal block 84 provides an electrical connection between an electrical wire and slot. The terminal block 84 holds or pinches the wire between a terminal frame 84a and a spring plate 84b which are described in more detail later. Each terminal block includes a spring arm 54 and a contact member 56 positioned at the distal end of the arm. A spring 60 is positioned between each contact member 56 and a cover plate 66. The cover plate 66 is generally a flat disk dimensioned to cover the cavity or cavities of the socket body 25. The plate 66 may include a flat edge which aligns with a flat edge of the socket body 25 to limit the positioning of the cover 66 to one orientation relative to the socket body 25. The cover plate 66 may also include an opening through which a grounding strap, described in more detail later, may be positioned. When assembled, the socket completes electrical connections as follows: an electrical wire is positioned with an access opening 72 and is connected with a terminal block 84. Current travels from the wire to the terminal block 84, through the spring arm 54, and to the contact member 56. When the plug 22 is mated with the socket 24, the current continues to flow from the contact member 56, to a connector ring 78, through an extension arm 80, to a terminal block 84, and to an electrical wire connected with the terminal block 84.
To mount the socket 24 to a junction box or other structure, a mounting strap 36b is connected to the socket body 25 with screws 158. As shown in
When the plug 22 and socket 24 are mated, they not only form electrical connections as previously described, but also provide a mechanical connection between the fixture and ceiling/mounting surface. For example, the fixture is attached to the spindle assembly 100; the spindle assembly 100 is firmly secured in the bushing 28; the bushing 28 is fixed to the mounting strap 36b; and the mounting strap 36b is connected to a junction box or other structure. In this configuration, the weight of the fixture is transmitted through metal components and not through the material of the socket 24 and plug 22.
The terminal frame 84a and spring plate 84b are shown in
A socket skirt 137 is illustrated in
As previously shown in
It will be appreciated by persons skilled in the art that the present invention is not limited to what has been particularly shown and described herein above. In addition, unless mention was made above to the contrary, it should be noted that all of the accompanying drawings are not to scale. A variety of modifications and variations are possible in light of the above teachings without departing from the scope and spirit of the invention.
| Number | Date | Country | Kind |
|---|---|---|---|
| 11/003570 | Dec 2004 | US | national |
| Filing Document | Filing Date | Country | Kind | 371c Date |
|---|---|---|---|---|
| PCT/US05/43934 | 12/2/2005 | WO | 00 | 6/1/2007 |
| Number | Date | Country | |
|---|---|---|---|
| 60643673 | Jan 2005 | US | |
| 60680258 | May 2005 | US |
