Abstract: A cleaning apparatus in a waste toner removal system of an image forming device includes a waste toner moving device that is movably mounted in a waste toner housing. The housing has an inlet where waste toner enters the housing. The toner moving device is movable between a first position and a second position to displace accumulated toner within the housing. The toner moving device is spring-biased toward the first position. A rotating actuator displaces the toner moving device from the first position to the second position to move the toner in the housing away from the inlet. The toner moving device is also self-cleaning via vibration and impact movements.

Abstract: Bulges in a wire having helically coiled strands are formed by untwisting the strands in an anti-helical direction at a predetermined position, to form an electrical connector from a length of the stranded wire. The wire is gripped by moving two spaced apart clamp members to a closed position and thereafter rotating the clamp members relative to one another in at least one complete relative revolution in a direction which is anti-helical relative to the coiled strands to form the bulge. The wire is gripped and rotated in the anti-helical direction for a relative rotational interval of greater than one-half, and preferably three-fourths, of a complete relative revolution. Thereafter, during the remaining rotational interval of each relative revolution, the clamp members are opened to permit the wire to be advanced to the next position where a bulge is to be formed.

Abstract: An apparatus and method for ink-jet printing onto an intermediate drum in a helical pattern while correcting for image skew and aliasing. A plurality of ink-jet print heads place an image on an intermediate drum, impervious to ink, in a helical patter. To compensate for helical printing, the image is altered by nozzle placement and image manipulation to correct for skewing errors, and thereafter, the nozzle timing is adjusted to correct for aliasing. The plurality of print heads move parallel to the axis of rotation of the drum while the drum is simultaneously rotating, causing the image to be placed in a helical pattern. Once the entire image is placed on the drum, paper is rolled against the drum under pressure and the image is transferred thereto.

Abstract: Bulges in a wire having helically coiled strands are formed by untwisting the strands in an anti-helical direction at a predetermined position, to form an electrical connector from a length of the stranded wire. The wire is gripped by moving two spaced apart clamp members to a closed position and thereafter rotating the clamp members relative to one another in at least one complete relative revolution in a direction which is anti-helical relative to the coiled strands to form the bulge. The wire is gripped and rotated in the anti-helical direction for a relative rotational interval of greater than one-half, and preferably three-fourths, of a complete relative revolution. Thereafter, during the remaining rotational interval of each relative revolution, the clamp members are opened to permit the wire to be advanced to the next position where a bulge is to be formed.

Abstract: Bulges in a wire having helically coiled strands are formed by untwisting the strands in an anti-helical direction at a predetermined position, to form an electrical connector from a length of the stranded wire. The wire is gripped by moving two spaced apart clamp members to a closed position and thereafter rotating the clamp members relative to one another in at least one complete relative revolution in a direction which is anti-helical relative to the coiled strands to form the bulge. The wire is gripped and rotated in the anti-helical direction for a relative rotational interval of greater than one-half, and preferably three-fourths, of a complete relative revolution. Thereafter, during the remaining rotational interval of each relative revolution, the clamp members are opened to permit the wire to be advanced to the next position where a bulge is to be formed.

Abstract: Twist pins having bulges are fabricated from helically coiled stranded wire. Wire is advanced from a source such as a spool to create slack wire configuration, and wire is then advanced from the slack wire configuration to a position where each bulge is formed. Each bulge is formed by gripping the wire in two spaced apart locations and rotating the wire in an anti-helical direction in a single continuous relative revolution to untwist the strands and form the bulge. The wire is thereafter advanced to the position of the next bulge or the position where the wire will be severed to release the fabricated twist pin. The severed fabricated twist pin is conveyed through a flow of gas in a delivery tube into a receptacle of a cassette where the twist pin is stored until used. The cassette is automatically moved to position an occupied receptacle to receive each newly fabricated twist pin.

Abstract: A segment of wire from which an electrical connector has been fabricated is conveyed from a point where the electrical connector wire segment is severed from a length of remaining wire into a receptacle within which the electrical connector wire segment is stored until use. A reduced pressure is applied by a venturi assembly to the wire segment, and a gas flow conveys the wire segment to the receptacle. A cassette defines the receptacles, and the cassette is repeatedly positioned to each newly fabricated wire segment in a different receptacle.

Abstract: Twist pins having bulges are fabricated from helically coiled stranded wire. Wire is advanced from a source such as a spool to create slack wire configuration, and wire is then advanced from the slack wire configuration to a position where each bulge is formed. Each bulge is formed by gripping the wire in two spaced apart locations and rotating the wire in an anti-helical direction in a single continuous relative revolution to untwist the strands and form the bulge. The wire is thereafter advanced to the position of the next bulge or the position where the wire will be severed to release the fabricated twist pin. The severed fabricated twist pin is conveyed through a flow of gas in a delivery tube into a receptacle of a cassette where the twist pin is stored until used. The cassette is automatically moved to position an occupied receptacle to receive each newly fabricated twist pin.

Abstract: Bulges in a wire having helically coiled strands are formed by untwisting the strands in an anti-helical direction at a predetermined position, to form an electrical connector from a length of the stranded wire. The wire is gripped by moving two spaced apart clamp members to a closed position and thereafter rotating the clamp members relative to one another in at least one complete relative revolution in a direction which is anti-helical relative to the coiled strands to form the bulge. The wire is gripped and rotated in the anti-helical direction for a relative rotational interval of greater than one-half, and preferably three-fourths, of a complete relative revolution. Thereafter, during the remaining rotational interval of each relative revolution, the clamp members are opened to permit the wire to be advanced to the next position where a bulge is to be formed.

Abstract: A segment of wire from which an electrical connector has been fabricated is conveyed from a point where the electrical connector wire segment is severed from a length of remaining wire into a receptacle within which the electrical connector wire segment is stored until use. A reduced pressure is applied by a venturi assembly to the wire segment, and a gas flow conveys the wire segment to the receptacle. A cassette defines the receptacles, and the cassette is repeatedly positioned to each newly fabricated wire segment in a different receptacle.

Abstract: A method is provided for forming a plurality of solder joints for electrically and mechanically coupling a printed circuit board (100) and a flexible circuit (101). Solder is applied to the connection surfaces of the printed circuit board (100), and the connection surfaces of the flexible circuit (101) are tinned. The circuit board (100) and flexible circuit (101) are then positioned so that the connections surfaces of each are in alignment and a gap exists between circuit board (100) and flexible circuit (101). The gap between circuit board (100) and flexible circuit (101) is precisely controlled and permits the solder of the printed circuit to be in contact with the connection surfaces of the flexible circuit (101). The solder is reflowed by applying heat by vapor phase condensation.

Abstract: A removable cover for towing balls featuring, in its preferred embodiments: (a) a towing ball hitch cover; (b) locking apparatus for maintaining said towing ball hitch cover engaged on said towing ball and/or for preventing its unauthorized removal and theft; and (c) electrically operative apparatus capable of being plugged into a trailer plug connector and responsive to electrical current received therefrom.

Abstract: A connection assembly includes a coaxial cable to microstrip flexible circuit connector and a mating microstrip flex circuit to electronic circuit connector. The coaxial cable to microstrip flex circuit connector comprises a portion which is mechanically attached to the coaxial cable and a portion which is mechanically attached to the microstrip flex circuit. The coaxial cable attachment portion includes a first electrical connector electrically connected to the center conductor and a second electrical connector electrically connected to the shielding conductor of each coaxial cable. The microstrip flex circuit attachment portion includes a third electrical connector electrically connected to each trace and a fourth connector electrically connected to the ground plane conductor. The flex circuit to electrical circuit connector comprises a plurality of unsupported extensions of a trace or the ground plane conductor.

Abstract: Male and female portions of a multi-pin connector (MPC) are separated and connected using a tool or a method in which the two MPC portions are securely retained in lateral and longitudinal alignment throughout separation and connection, to alleviate the difficulties of breaking, bending, mis-aligning and twisting pins of the male MPC portion relative to sockets of the female MPC portion, which may easily occur during separation and connection. The pins and the sockets in lateral and longitudinal alignment while the MPC portions are moved toward and away from one another. The risk of lead-wire breakage due to fatigue from grasping the lead wires during connection and separation is also avoided, because the only contact is with the body portions, not the lead wires, of even small MPCs. A tool includes a receptacle adapted for receiving the two portions of the MPC.

Abstract: A connection assembly includes a coaxial cable to microstrip flexible circuit connector and a mating microstrip flex circuit to electronic circuit connector. The coaxial cable to microstrip flex circuit connector comprises a portion which is mechanically attached to the coaxial cable and a portion which is mechanically attached to the microstrip flex circuit. The coaxial cable attachment portion includes a first electrical connector electrically connected to the center conductor and a second electrical connector electrically connected to the shielding conductor of each coaxial cable. The microstrip flex circuit attachment portion includes a third electrical connector electrically connected to each trace and a fourth connector electrically connected to the ground plane conductor. The flex circuit to electrical circuit connector comprises a plurality of unsupported extensions of a trace or the ground plane conductor.