Patent Application
20130201001
The disclosure relates generally to a method and apparatus for identifying the opposing ends of a connector, and specifically to identification of wire node ends.
Connection points of components are often interconnected with multiple conduits. These conduits may contain wires, fiber optics, hollow channels for fluid transfer, or other suitable items.
Any conduit, such as a tube, hydraulic hose, duct, or a wire may be desirably connected from a specific connection point of a first component to a specific connection point of a second component. Often multiple components must be interconnected with multiple conduits. Conduits may be color coded to aid a user in ensuring a proper connection to the desired connection points. When multiple components are improperly interconnected, that is, when conduits are connected to an incorrect connection point, the system may not function properly and the user may not know what specific connection is incorrect.
What is needed is an apparatus and method for interconnecting connection points of multiple devices in a manner that reduces incorrect connections.
The interconnecting device selectively interconnects a first component to a second component for delivery therethrough. The apparatus includes an interconnecting member including at least a first portion and a second portion, and a first identifying device positioned on the first portion. The first identifying device includes a first activation portion and a first identification portion. The apparatus also includes a second identifying device positioned on the second portion. The second identifying device includes a second activation portion and a second identification portion. An identifying signal transmitted by the first identification portion is identifiable with a signal emitted by the second identification portion.
The drawings are illustrative embodiments. The drawings are not necessarily to scale and certain features may be removed, exaggerated, moved, or partially sectioned for clearer illustration. The embodiments illustrated herein are not intended to limit or restrict the claims.
With reference to
In operation, when a user desires to interconnect the first component 22 and the second component 24, the user may interconnect the components by interconnecting connection point A1 with connection point A2, interconnecting connection point B1 with connection point B2, interconnecting connection point C1 with connection point C2, and interconnecting connection point D1 with connection point D2 using the interconnector 26.
The user may start by activating the switch 74 of the connector 40. When switch 74 is activated, both the first LED 72 of the connector 40 and the second LED 82 of the connector 40 are illuminated. The user may then connect the first end 60 of the interconnecting portion 50 of the connector 40 to the connection point A1. Further, the user may then connect the second end 62 of the interconnecting portion 50 of the connector 40 to the connection point A2. In this manner, the connection point A1 and the connection point A2 are interconnected. After the desired interconnection has been made, the user may then deactivate the switch 74 to cease illumination of the first LED 72 and the second LED 82 of the connector 40. The remainder of the connection points may be interconnected as desired using this method.
In the embodiment illustrated, the LEDs at both opposing ends of a single connector (such as the connector 40) emit the same color in order to aid the user in making a proper interconnection of the components 22, 24. Further, the LEDs of differing connectors (such as the connectors 40, 42, 44) emit a different color within a single interconnector (such as the interconnector 26) to aid the user in making a proper interconnection of the components 22, 24. When differing colors (and/or blinking rates) are used for differing connectors of the interconnector 26, more than one switch on a connector 40, 42, 44 may be activated such that more than one connector 40, 42, 44 has ends that are illuminated simultaneously.
In the embodiment illustrated, the connector 50 is a material that will transmit electricity although other suitable materials may be used, as desired. Further, the power source 76 may be adequate for only a single use or may be provided for multiple uses, such as when multiple disconnections and re-connections are contemplated.
Accordingly, the first LED 172, the first switch 174, the power source 176, and the second LED 182 are electrically interconnected in a closed loop by the first conductor 152, the third conductor 156 and the interconnecting members 178. Further, the first LED 172, the second switch 184, the power source 176, and the second LED 182 are electrically interconnected in a closed loop by the second conductor 154, the third conductor 156 and the interconnecting members 178. Therefore, by activating either the first switch 174 or the second switch 184 both the first LED 172 and the second LED 182 may be illuminated.
In operation, when a user desires to interconnect the first component 22 and the second component 24, the user may interconnect the components by interconnecting connection point A1 with connection point A2, interconnecting connection point B1 with connection point B2, interconnecting connection point C1 with connection point C2, and interconnecting connection point D1 with connection point D2 using the interconnector 26.
The user may start by activating either first switch 174 or the second switch 184 of the connector 140. When either switch is activated, both the first LED 172 of the connector 140 and the second LED 182 of the connector 140 are illuminated. The user may then connect the first end 160 of the interconnecting portion 150 of the connector 140 to the connection point A1. Further, the user may then connect the second end 162 of the interconnecting portion 150 of the connector 140 to the connection point A2. In this manner, the connection point A1 and the connection point A2 are interconnected. After the desired interconnection has been made, the user may then deactivate the switch to cease illumination of the first LED 172 and the second LED 182 of the connector 140. The remainder of the connection points may be interconnected as desired using a similar method.
In operation, a user may activate the switch 286 to illuminate the LED module 280. Therefore, by activating the LED module 280 both the first LED lens 272, the second LED lens 274, and the third LED lens 276 may be illuminated. Further, each of the ends 260, 262, 264 may include a LED module 280 for illuminating the LED lenses. Additionally, the connector 240 may include as many ends as desired with the light splitter 254 providing light to each LED lens.
In operation, when a user desires to interconnect the first component 22 and the second component 24, the user may interconnect the components by interconnecting connection point A1 with connection point A2, interconnecting connection point B1 with connection point B2, interconnecting connection point C1 with connection point C2, and interconnecting connection point D1 with connection point D2 using the interconnector 26.
The user may start by activating the switch 286 and thereby illuminating the first LED lens 272, the second LED lens 274, and the third LED lens 276. The user may then connect the first end 260 of the interconnecting portion 250 of the connector 240 to the connection point A1. Further, the user may then connect the second end 262 of the interconnecting portion 250 of the connector 240 to the connection point A2; and the third end 264 of the connector 240 to a desired connection point. In this manner, the desired connection points are interconnected. After the desired interconnection has been made, the user may then deactivate the switch 286 to cease illumination of the LED lenses of the connector 240. The remainder of the connection points may be interconnected as desired using a similar method.
In a further embodiment, the LEDs may replaced by vibration emitters to produce a vibration at opposing ends of a connector, thereby aiding a user when interconnecting devices.
Although the steps of the method of assembling the system 20 may be listed in an order, the steps may be performed in differing orders or combined such that one operation may perform multiple steps. Furthermore, a step or steps may be initiated before another step or steps are completed, or a step or steps may be initiated and completed after initiation and before completion of (during the performance of) other steps.
The preceding description has been presented only to illustrate and describe exemplary embodiments of the methods and systems of the present invention. It is not intended to be exhaustive or to limit the invention to any precise form disclosed. It will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the invention without departing from the essential scope. Therefore, it is intended that the invention not be limited to the particular embodiment disclosed as the best mode contemplated for carrying out this invention, but that the invention will include all embodiments falling within the scope of the claims. The invention may be practiced otherwise than is specifically explained and illustrated without departing from its spirit or scope. The scope of the invention is limited solely by the following claims.
