Class / Patent application number | Description | Number of patent applications / Date published |
439699100 | Having only two duplicate contacts arranged bilaterally symmetric about longitudinal axis of engagement | 10 |
20110097944 | Connector and Light Source Apparatus - A connector adapted to be disposed on a carrier and electrically connected to the carrier is provided. The connector includes an insulating base and two electrodes. The insulating base has a first side surface, a second side surface, a bottom surface, and two through holes. The bottom surface connects the first and the second side surfaces. The through holes extend from the first side surface to the second side surface. The electrodes respectively penetrate the through holes. Each electrode has a bar portion and a bending portion extending from the bar portion. The bar portion is located in the corresponding through hole and protrudes away from the first side surface. The bending portion extends on the second side surface and toward the carrier. An end of the bending portion penetrates through the carrier and is electrically connected to the carrier. A light source apparatus is also provided. | 04-28-2011 |
20120264338 | WIRING DUCT CONNECTION DEVICE - A wiring duct connection device includes a connection body to be inserted into an end portion of a wiring duct having conductors arranged on side walls within an elongated grove-like core along a longitudinal direction; contactors held in the connection body in such a manner that the contactors can protrude from opposite side surfaces of the connection body; and elastic bodies which biases the contactors outward. The elastic bodies are arranged side by side along the longitudinal direction at an inner side of each of the contactors, and each of the contactors includes convex contact portions that are one-piece formed at an outer end thereof, the contact portions being arranged along the longitudinal direction. | 10-18-2012 |
439699200 | Lamp-receiving socket | 8 |
20080242157 | NON-CONDUCTIVE COATING FOR LIGHTING DEVICES - A device and method are disclosed that facilitate removal of an electric lamp, such as a light bulb, from a socket. A thin layer of electrically non-conductive material is applied to the contact surface of the lamp and/or the socket prior to the lamp being inserted into the socket. | 10-02-2008 |
20090191766 | Bulb Socket Structure for Onboard Interior Lighting System - Disclosed is a bulb socket structure for an onboard interior lighting system, in which: a bulb attachment hole | 07-30-2009 |
20090280695 | BI-PIN CONNECTOR AND A LAMP EMPLOYING THE SAME - A bi-pin connector for a luminaire includes a base and pins that can rotate relative to the base. The pins can also translate relative to a light fixture housing in a direction transverse to the axis about which the pins rotate. A luminaire including the bi-pin connector is also disclosed. | 11-12-2009 |
20090311917 | Socket for Bulb - An electric bulb socket is provided, which includes a socket body ( | 12-17-2009 |
20100081339 | LAMP SOCKET HAVING A ROTOR ASSEMBLY - A socket assembly includes a rotor assembly, a housing, and at least one electrical contact. The rotor assembly has an axis of rotation and defines a channel having a length about perpendicular to the axis of rotation. The rotor assembly is adapted to receive at least one lamp pin within the channel from an edge of the rotor assembly. Each of the at least one lamp pin defines a longitudinal axis. Each of the axis of each of the at least lamp pin is about parallel to the axis of rotation when each of the at least one lamp pin is received from the edge of the rotor assembly to within the channel. The housing is adapted to receive the rotor assembly such that the rotor assembly is rotatable along its axis of rotation therein. The housing defines a notch adapted to receive each of the at least one lamp pin when each of the axis of each of the at least one pin is about parallel to the axis of rotation. The rotator assembly is rotatable to at least first and second positions and the channel of the rotor assembly aligns with the notch of the housing when in the first position such that each of the at least one lamp pin is received through the notch of the housing and into the channel of the rotor assembly. A least one electrical contact is disposed within the housing and an electrical contact of the at least one electrical contact is adapted for operative engagement with a lamp pin of the at least one lamp pin. The electrical contact is operatively disengaged from the lamp pin when the rotor assembly is in about the first position and operatively engages the lamp pin when the rotor assembly is rotated at least substantially to the second position. | 04-01-2010 |
20100144211 | LAMP SOCKET - A lamp socket is disclosed for connecting an electric bulb, having a base, base contact, and bottom contact, to an electrical grid. The socket comprises (a)—a clamp including a spring-loaded embracing section with a first contact, capable of passing the base through in an open position and gripping it in a closed position, and—a spring-loaded dielectric retainer, having a second contact, capable of retaining the section in the open position and releasing it into the closed position upon being depressed by the base, and (b) a spring-loaded clasp, capable of expanding the section in to the open position. While the clamp is being in the closed position, the first contact is depressed by the base contact, and the second contact is depressed by the bottom contact. The section and retainer can be made as a single whole, and spring-loaded by one spring. The socket increases safety of operation. | 06-10-2010 |
20110269353 | LIGHT STRING SYSTEM - A lamp system used in a light string system comprises a light assembly and a socket assembly. The light assembly comprises a light source, a base in communication with the light source, and a bypass activating system. The socket assembly comprises a socket adapted to receive the light assembly and a bypass mechanism having a first position and a second position. The bypass mechanism is in the first position when the light assembly is not seated in the socket assembly. When the bypass mechanism in the first position, current flows across the bypass mechanism. When the light assembly is inserted into the socket assembly, the bypass activating system of the light assembly moves the bypass mechanism into the second position, and current flows through the light source instead of the bypass mechanism. | 11-03-2011 |
20120178311 | LAMP SOCKET HAVING A ROTOR - A socket assembly includes a rotor, a housing, and first and second conductors. The rotor includes a channel formed therein and defines an axis of rotation. The channel has a length about perpendicular to the axis of rotation and defines first and second ends. The housing receives the rotor such that the rotor is rotatable about its axis of rotation between first and second positions when secured therein. The housing includes a notch. The channel of the rotor aligns with the notch of the housing when in the first position such that first and second lamp pins can be received through the notch of the housing arid into the channel of the rotor. The first conductor has first and second ends each disposed on opposite sides of the rotor. The first end of the conductor contacts the first lamp pin when the rotor is in the second position and the second end of the conductor contacts the second lamp pin when the rotor is in the second position. The second conductor is electrically isolated from the first conductor when the rotor is in the first position and is in electrical communication with the first conductor when the rotor is in the second position. | 07-12-2012 |