Abstract: A method of providing a map with imbedded, authenticated data is described. A geographic feature is represented on a map with one or more of points, lines and polygons in a first layer of the map. Data corresponding to the geographic feature is provided. The provided data is encoded, in a first block, with the one or more of points, lines and polygons from the first layer of the map. The block is combined with other blocks of a blockchain. The blockchain is associated with the geographic feature on the map as represented by the one or more of points, lines and polygons in the first layer of the map.

Abstract: Provided herein are LED warning lights and related methods for detecting oncoming traffic around corners, including in a warehouse. The warning lights have: a LED light module and an external motion sensor operably connected to the LED light module. The device is self-contained with respect to power, communication and alerts in that no other components are required, so that the warning lights are portable and readily positioned as desired and are immediately operable.

Abstract: Provided herein are LED warning lights and related methods for detecting oncoming traffic around corners, including in a warehouse. The warning lights have: a LED light module and an external motion sensor operably connected to the LED light module. The device is self-contained with respect to power, communication and alerts in that no other components are required, so that the warning lights are portable and readily positioned as desired and are immediately operable.

Abstract: A melt assembly that includes a drip plate; and a self regulating heating device thermally connected to the drip plate, wherein the heating device is a positive temperature coefficient material (PTC material). Also, a drip plate having an open interior into which a heating device may be inserted or molded.

Abstract: A solid ink stick melting apparatus is incorporated in a phase change printer to provide melted ink under pressure to a print head. The solid ink stick melting apparatus includes an ink stick melt chamber having an enclosure with at least one heated wall, an inlet for receiving an ink stick, and an outlet for melted ink flow from the enclosure, and a seal mounted proximate the inlet to engage an ink stick passing through the seal so that the seal and the ink stick form a barrier and retain melted ink within the enclosure.

Abstract: An ink stick for use in a phase change ink jet printer is provided wherein the ink jet printer has an ink feed channel having a feed direction leading to a melt plate. The ink stick comprises an ink stick body having an external surface and an axis of rotation. The ink stick body is adapted for insertion into the ink feed channel so that the axis of rotation is oriented substantially perpendicular to the feed direction. The external surface of the ink stick body forms a circle on a plane that is substantially perpendicular to the axis of rotation.

Abstract: An ink jet printer includes an ink supply system and a printhead with nozzles for ejecting ink drops. The printer determines the average size of the ejected ink drops by comparing the number of ink drops ejected in a predetermined time with the quantity of ink delivered through the printers ink supply system during that time. If the determined average ink drop size does not match predetermined ink drop size criteria, the printer adjusts the activation signals for the ink jet nozzles to alter the ink drop size. A solid ink printer determines the quantity of ink delivered through the ink supply system by counting the number of whole or partial ink sticks that pass a predetermined point in the ink supply system. The counter detects a sensing element formed on an external surface of the ink stick. Exemplary detectors include a mechanical arm, or a thermistor to detect a change in the printer melt plate temperature due to a change in the cross sectional area of an ink stick being melted.

Abstract: An ink jet printer includes an ink supply system and a printhead with nozzles for ejecting ink drops. The printer determines the average size of the ejected ink drops by comparing the number of ink drops ejected in a predetermined time with the quantity of ink delivered through the printers ink supply system during that time. If the determined average ink drop size does not match predetermined ink drop size criteria, the printer adjusts the activation signals for the ink jet nozzles to alter the ink drop size. A solid ink printer determines the quantity of ink delivered through the ink supply system by counting the number of whole or partial ink sticks that pass a predetermined point in the ink supply system. The counter detects a sensing element formed on an external surface of the ink stick. Exemplary detectors include a mechanical arm, or a thermistor to detect a change in the printer melt plate temperature due to a change in the cross sectional area of an ink stick being melted.

Abstract: A melt assembly that includes a drip plate; and a self regulating heating device thermally connected to the drip plate, wherein the heating device is a positive temperature coefficient material (PTC material). Also, a drip plate having an open interior into which a heating device may be inserted or molded.

Abstract: A melt assembly that includes a drip plate; and a self regulating heating device thermally connected to the drip plate, wherein the heating device is a positive temperature coefficient material (PTC material). Also, a drip plate having an open interior into which a heating device may be inserted or molded.

Abstract: A media path control device has two sets of parallel arms with opposing rollers to manipulate the movement of print media. The arms are moveable in a substantially vertical plane through motors. The arms can be of different lengths to establish an optimal trajectory or height of the media to change the trajectory or travel path of the media. The rollers are reversible to change the trajectory or travel path of the media. Rotation of the arms may be stopped at various points along their travel arc to position the media at a desired or plane.

Abstract: An upper piggybacked unit of a tandem unit is provided with a hinge unit and at least one motion lock to prevent the upper unit from falling away from the lower unit when it is tandemly coupled to the lower unit and the lower unit is pivoted to a non-horizontal position. The motion lock may inhibit rotation and/or translation of the upper unit. The motion lock may also be self-actuating, such as a gravity dependent lock mechanism. A lock override mechanism may be provided to allow the lock to yield to excessive force without causing damage. The lock enable condition may be automatically reset after the override condition so that no special knowledge or action on the part of the user is required to return the hinge to normal operation.

Abstract: A novel solid ink supply container adapted for use with solid ink printers, at least includes: removable housing adapted to receive solid ink masses, the housing adapted to be coupled to at least one printhead; a heater subsumed by the housing, the heater adapted to liquefy solid ink masses; an outlet port adapted to facilitate fluid ink transfer to at least one printhead; an ink sensor adapted to sense the amount of ink in the supply container; at least one electronic storage device attached to the housing, the electronic storage device adapted to exchange printer operation information with the printer to which the ink supply container is attached; and electrical contacts attached to the housing; the electrical contacts adapted to exchange power and information between the printer, and exchange power and information between the storage device and other components of the housing.

Abstract: A melt assembly that includes a drip plate; and a self regulating heating device thermally connected to the drip plate, wherein the heating device is a positive temperature coefficient material (PTC material). Also, a drip plate having an open interior into which a heating device may be inserted or molded.

Abstract: A solid ink melt assembly for use in a phase change printer, includes a drip plate with first and second sides and a heater mounted to the first side of the plate. A lower portion of the plate is shaped to form a drip point. A second side of the drip plate is exposed to ink sticks for melting. In embodiments, a melt plate is fastened to the second side of the drip plate.

Abstract: A drip plate that is part of a melt plate assembly in a phase change ink jet printer using solid ink. The drip plate includes an upper portion having substantially flat upper first and second opposing sides, and a lower pointed portion having substantially flat lower first and second opposing sides. The lower portion is not coplanar with the upper portion. The drip plate can be fastened to a melt plate. The ink side surface of the drip or the melt plate can include cutouts anchor tabs, and a sliver strainer located near a lower portion of the drip or melt plate. A flange may extend upwards from the upper portion of the drip plate to block ink overflow.

Abstract: Disclosed are methods for compensating for failed ink jets in an ink jet apparatus. The method in embodiments determines if one or more ink jets are nonfunctioning or have failed and substitutes for the one or more nonfunctioning ink jets by using one or more operational ink jets. The operational ink jets used are neighboring operational ink jets that fill in for the one or more failed ink jets. The one or more failed ink jets are disabled wherein a primary image pass is performed followed by one or more additional imaging passes to fill in for the one or more disabled ink jets by enabling the one or more neighboring operational ink jets. The additional imaging passes may be a right fill imaging pass, a left fill imaging pass or a combination of both.

Abstract: Each ink stick of a set of ink sticks for a phase change ink jet printer has formed on the top of the ink stick a three dimensional visually recognizable symbol. At least a portion of the visually recognizable symbol on each of the ink sticks is different, so that the printer user can distinguish which ink stick is intended for each of the ink feed channels of the ink jet printer.

Abstract: An ink stick for a phase change ink jet printer has a guide element formed in one portion of the ink stick body (such as the lower portion) for engaging a feed channel guide rail in a feed channel of a solid ink feed system of the printer. The guide element is substantially offset from the lateral center of gravity of the ink stick body. The guide element engages a feed channel guide rail in the printer. The feed channel guide rail is substantially narrower than the width of the feed channel. A second guide element is formed on the opposite side of the lateral center of gravity of the ink stick body. The second guide element engages a second feed channel guide rail in the feed channel.