1. Field of the Invention
The present invention relates to an electrical distribution system, and, more particularly, to an electrical distribution system, which limits the activation of more than a predetermined number of electrical receptacles.
2. Description of the Related Art
Electrical codes limit the number of receptacles which can be sequentially connected. It is common for an electrical power source to be routed to an electrical receptacle and power then routed from that electrical receptacle to a subsequent electrical receptacle and this is continued for several electrical receptacles. While there is no physical limitation in wiring in this manner, there are electrical considerations such as contact resistance that may preclude the subsequent connection of electrical receptacles ad infinitum. An electrician can circumvent the electrical code by wiring too many receptacles in a sequential manner.
A method to prevent the connection of too many electrical receptacles is to key cables and connectors on electrical receptacles to thereby preclude the attachment of too many electrical receptacles in a single circuit. A disadvantage of this method is that numerous unique cables and receptacle connections must be made. This reduces flexibility and increases inventory.
What is needed in the art is a system that will limit the number of electrical receptacles in a single power circuit without relying on unique keyed connector cable systems.
The present invention provides a smart connect receptacle for use in a modular wall panel system.
The invention comprises, in one form thereof, an electrical assembly includes a plurality of electrical modules. Each of the plurality of electrical modules are sequentially electrically connected to at least one other of the plurality of electrical modules. Each of the plurality of electrical modules include a prior module detection circuit.
The present invention advantageously allows an installer to connect electrical receptacles in a sequential manner.
Another advantage is that only one type of interconnecting cable is necessary.
A further advantage of the present invention is that each of the receptacles can be identical.
A still further advantage of the present invention is that any receptacles beyond a predetermined number will not be electrically activated.
Yet another advantage of the present invention is that compliance with the electrical code is automatic and not circumventable by an installer.
The above-mentioned and other features and advantages of this invention, and the manner of attaining them, will become more apparent and the invention will be better understood by reference to the following description of an embodiment of the invention taken in conjunction with the accompanying drawings, wherein:
Corresponding reference characters indicate corresponding parts throughout the several views. The exemplification set out herein illustrates one preferred embodiment of the invention, in one form, and such exemplification is not to be construed as limiting the scope of the invention in any manner.
Referring now to the drawings, and more particularly to
Now, additionally referring to
Receptacle assemblies 16 are electrical modules and include a smart circuit assembly 22, incoming signal conductors 24, outgoing signal conductors 26, a line conductor 28, a neutral conductor 30, a ground conductor 32, a receptacle socket assembly 34 and a receptacle back cover 36. Receptacle socket assembly 34 includes a cover 38, electrical sockets 40 having socket lugs 42 and mounting bosses 44. Holes 46 in smart circuit assembly 22 as well as holes 48 in receptacle back cover 36 allow for the mounting of smart circuit assembly 22 in smart connect receptacle assembly 16.
Now additionally referring to
Initial smart connector assembly 54 includes a line conductor 56, a neutral conductor 58, a ground conductor 60 and a connector circuit assembly 62. Connector circuit assembly 62 includes a transformer 64, a rectification circuit 66, a voltage regulator 68, a capacitor 70, signal lines 72 and a reference ground 74. Connector circuit assembly 62 provides initial signal lines 72 to be utilized by smart circuit assemblies 22 to thereby preclude the attachment of more than a predetermined number of electrical receptacles. In this example, there is a limitation of eight sequentially connected smart connect receptacle assemblies 16. The first eight receptacle assemblies 16 are electrically functional, because the eight separate signal lines of signal lines 72 provide information, which is interpreted by each electrical module 16 to thereby only activate the next electrical module 16 if there are fewer than seven prior electrical modules 16. Connector circuit assembly 62 provides a digital logic value or signal level by way of signal lines 72 to subsequent smart connect receptacle assemblies 16. Also, reference ground line 74 is a reference to which subsequent digital circuits determine the status of signal lines 72. Signal lines 72 and reference ground 74 are small gauge wires for the transfer of electrical signals. In contrast, line conductor 56, neutral conductor 58 and ground conductor 60 are of appropriate size to carry power, such as for a 15 amp. circuit.
Intermediate cables 20 include first connector 76 and second connector 78. Connector 76 receives power and signal lines from a preceding smart connect receptacle assembly 16, while connector 78 passes it on to a succeeding receptacle assembly 16. Receptacles 76 and 78 may be identical, however, connectors 76 and 78 may be keyed to only allow power to be supplied to connector 76.
Smart circuit assembly 22 includes line conductor 80, neutral conductor 82, a ground conductor 84, a modified line conductor 86, a modified neutral conductor 88, a DC power supply 90, a relay 92, a transistor 94, an inverting circuit 96 and an OR gate 98. Conductors 80, 82 and 84, respectively, supply power, return and ground connections for sockets 40. Modified line conductor 86 and modified neutral conductor 88 provide power to a subsequent smart connect receptacle assembly 16 if relay 92 is energized, which depends upon the number of preceding smart connect receptacle assemblies 16. If, as in this example, a subsequent smart connect receptacle assembly 16 is the ninth in the power circuit, then line conductor 86 and neutral conductor 88 are not energized in the previous (the eighth) receptacle assembly 16. In this way circuit assembly 22 is a prior module detection circuit 22, detecting the number of receptacle assemblies 16 that are connected precedent to itself.
DC power supply 90 provides DC power to smart circuit assembly 22. Alternatively, DC power supply 90 could be replaced by a power source in initial smart connector assembly 54 with a power and return line provided therefrom to each smart connect receptacle assembly 16.
Incoming signal lines 24 provide digital information to OR gate 98. It should be noted that line 1 of incoming signal conductors 24 is directed to inverter circuit 96, where the logical value coming in on line 1 is inverted to be the logical negative thereof. The output of inverter circuit 96 is directed to line 2 of outgoing signal conductors 26 and to an input of OR gate 98. It should also be noted that incoming lines 2-7 are respectively directed to lines 3-8 of outgoing signal conductors 26. If the output of OR gate 98 is a logic one or positive voltage, the base of transistor 94 is driven to cause NPN transistor 94 to conduct causing a current to flow from the collector through the emitter of transistor 94, thereby driving an energizing coil in relay 92. OR gate 98, transistor 94 and relay 92 function as a subsequent module activation circuit causing power to be conveyed out of smart circuit assembly 22 by way of modified line conductor 86 and modified neutral conductor 88. Conversely smart circuit assembly 22 does not activate any subsequent modules 16, when the predetermined number, in this example seven previous electrical modules 16, are detected. Relay 92 has two normally open contacts, one for line conductor 28 and one for neutral conductor 30, which are then, respectively, connected to modified line conductor 86 and modified neutral conductor 88 when relay 92 is energized.
Outgoing signal conductors 26 of each subsequent smart connect receptacle assembly 16 are one-by-one modified to be logical zero, such that when lines 2-8 of incoming signal conductors 24, are logical zero and line 1 is logical one, which occurs in the eighth smart connect receptacle assembly 16, then the inputs to OR gate 98 are all zero, causing the output of OR gate 98 to be a logic zero. When the output of OR gate 98 is a logic zero, there is no current to drive the base of transistor 94, which in turn leaves the coil of relay 92 unenergized, thereby leaving line conductor 86 and neutral conductor 88 unenergized for any subsequent smart connect receptacle subassembly 16, or for that matter, for any other modules that may be attached thereto.
Alternatively, the signals conveyed by incoming signal conductors 24 and outgoing signal conductors 26 may be replaced by a binary coded decimal system or other coded method to reduce the number of signal conductors needed to convey the information to subsequent smart connect receptacle assemblies 16. In addition, other manners of providing information to subsequent assembly 16 may be in the form of fiber optics or a single communication line.
While this invention has been described as having a preferred design, the present invention can be further modified within the spirit and scope of this disclosure. This application is therefore intended to cover any variations, uses, or adaptations of the invention using its general principles. Further, this application is intended to cover such departures from the present disclosure as come within known or customary practice in the art to which this invention pertains and which fall within the limits of the appended claims.
This is a non-provisional application based upon U.S. provisional patent application Ser. No. 60/371,311, entitled “SMART CONNECT”, filed Apr. 10, 2002.
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Number | Date | Country | |
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20030194904 A1 | Oct 2003 | US |
Number | Date | Country | |
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60371311 | Apr 2002 | US |