| Patent Number |
Title Of Patent |
Date Issued |
| D501784 |
Emergency trunk release handle for automobiles |
February 15, 2005 |
|
| 6798934 |
Optical data throughput protection switch |
September 28, 2004 |
| An optical data throughput protection switch is provided which provides access to a data-carrying first optical path in a manner which protects the data from interference from equipment utilizing said access, and eliminates optical connectors along the first optical path. The protection |
| 6786647 |
Mechanically constrained connection |
September 7, 2004 |
| An optical connector is secured to a body member which can be rotated away from the outer surface faceplate of the circuit pack for inspection, cleaning or repair. The body member is otherwise constrained to move along the outer surface of the circuit pack in a fixed path such that the |
| 6748154 |
Optical module access tray |
June 8, 2004 |
| An optical module includes an optical amplifier to amplify optical signals received over optical fiber and an access tray that slides into and out of the optical module. The access tray provides access to optical fiber connections to and from the optical amplifier. The access tray includ |
| 6394511 |
Automotive vehicle decklid latch system |
May 28, 2002 |
| A truck latch system has a handle presented from the decklid within the trunk in substantially vertical fashion and is operative to move a trunk latch to an unlatched position when grasped and pulled in a generally downward direction to prevent the decklid from latching to a rear trunk |
| 6037071 |
Current interrupter for electrochemical cells |
March 14, 2000 |
| A current interrupt mechanism for electrochemical cells is disclosed. A thermally activated current interrupt mechanism is integrated into an end cap assembly for an electrochemical cell. The thermally responsive mechanism preferably includes a free floating bimetallic disk or shape |
| 5998051 |
Current interrupter for electrochemical cells |
December 7, 1999 |
| A current interrupt assembly for electrochemical cells is disclosed. The current interrupter assembly may be a self-contained, sealed unit which may be separately inserted into the cell during cell construction. Several current interrupt assemblies may be inserted in the cell. The curren |
| 5722845 |
Electrical connectors |
March 3, 1998 |
| An electronic shelf having a back plane and side walls which are themselves printed circuit boards in communication with the back plane. Each side walls has connectors which may be opened for the sliding reception of an edge card into the shelf, the connectors then being closed to make |
| 5708047 |
Decorating method and products |
January 13, 1998 |
| A method for decorating a substrate with hot stamping foil comprising the steps of:a) applying an ink composition comprised of a cationically radiation cured cycloaliphatic epoxide to the substrate in a predetermined design, said ink being operable when cured to bond to the substrate,b) |
| 5667856 |
Radiation curable pigmented compositions and decorated substrates |
September 16, 1997 |
| A pigmented ink composition comprising a radiation curable component and a pyrrolopyrrol or isoindolinone pigment; a method for decorating a substrate with the pigmented ink compositions; and a method for decorating a substrate with hot stamping foil and the pigmented ink compositions. |
| 5585153 |
Hot stamping glass |
December 17, 1996 |
| A method for applying a decorative coating to glass and the resulting glass products. |
| 5571359 |
Radiation curable pigmented compositions |
November 5, 1996 |
| A pigmented ink composition comprising a radiation curable component and a pyrrolopyrrol or isoindolinone pigment; a method for decorating a substrate with the pigmented ink compositions; and a method for decorating a substrate with hot stamping foil and the pigmented ink compositions. |
| 5520973 |
Decorating method and products |
May 28, 1996 |
| A method for decorating a substrate with hot stamping foil comprising the steps of:a) applying an ink composition comprised of a cationically radiation cured cycloaliphatic epoxide to the substrate in a predetermined design, said ink being operable when cured to bond to the substrate,b) |
| 5487927 |
Decorating method and products |
January 30, 1996 |
| A method for decorating a substrate with hot stamping foil comprising the steps of:a) applying an ink composition comprised of a cationically radiation cured cycloaliphatic epoxide to the substrate in a predetermined design, said ink being operable when cured to bond to the substrate,b) |
| 5391247 |
Hot stamping glass |
February 21, 1995 |
| A method for applying a decorative coating to glass and the resulting glass products. |
| 5104719 |
Heat activated, quick release decals and associated methods |
April 14, 1992 |
| A decal which is adapted to decorate bottles, containers and similar devices of the type having surfaces with high wetting angles is fabricated without the use of wax. The decal can be printed upon utilizing various inks to provide aesthetic container surfaces as for example utilized in |
| 4648502 |
Transport conveyor for conical object |
March 10, 1987 |
| A transport conveyor for empty conical winding tubes includes a recirculating band system to drive jammed tubes for rotation in a direction causing them to remain mutually parallel along the chute of the conveyor. Every alternate tube is reversed by means of a holding pin and a rotat |
| 4622277 |
Electrochemical cells |
November 11, 1986 |
| This invention provides a design for spirally wound electrochemical cells which improves their safety during abuse such as voltage reversal. The invention comprises coupling a first segment of inert conductive metal to the cathode and a dendrite target comprised of an inert conductive me |
