Disclosed herein is a battery operated vacuum scratch device that is small, powerful, handheld and cylindrical shaped primarily for use when scratching off and cleaning up the scrapings left behind from a scratch-off lottery cards. Activated by a power switch and battery, the vacuum scratch device comprises of a blade for scratching, along with a holding arrangement for holding a coin providing an alternate option for scratching, a catch-mouth suction of the debris, a light source, a grip on its body, battery compartment, a motor, a fan, an external vented port, a removable scratch card debris catch tray. The device becomes a scraping device through use of the scraper blade or coin mechanism which is affixed to one end of the unit near the vacuum accessory piece.

An electronic user device is configured to obtain from an application server image data associated with a ticket having a scratching area, display a digital simulation of the scratching area of the ticket on a user interface; receive user-provided scratching input at an input module, and digitally simulate the scratching area of the ticket being scratched on the user interface in accordance with the user-provided scratching input.

A method for adjusting a pressure profile exerted on input media by a scratching assembly, the method comprising: rotating a pin of an adjustment mechanism; wherein the adjustment mechanism is configured so that rotation of the pin causes a threaded end of the pin to thread into or out from a threaded hole of a mounting block connected to an end of a roller, such that rotation of the pin causes a corresponding vertical motion of the mounting block and results in a vertical adjustment of the end of the roller, the vertical adjustment adjusting a pressure profile exerted by the roller on the input media.

An electronic user device is configured to obtain from an application server image data associated with a ticket having a scratching area, display a digital simulation of the scratching area of the ticket on a user interface; receive user-provided scratching input at an input module, and digitally simulate the scratching area of the ticket being scratched on the user interface in accordance with the user-provided scratching input.

Systems and methods for mechanically processing physical media elements, e.g., automatically scratching scratch-off lottery tickets, may include receiving a batch of tickets at an input chute of a scratching system. Tickets may be serially fed through the scratching system that includes a series of roller scratching mechanisms. Pressure rollers may be individually adjustable to set a pressure of the scratching mechanisms. One or more scanners may obtain information from the tickets before and/or after scratching. A pair of parallel plates may be used to form a feed path to guide tickets through the system. A vacuum manifold may isolate some elements of the system from debris, and remove the debris from the system via negative pressure. One or more presence sensor may detect presence of a current ticket to control operation of feed motors. Various functions or elements of the system may be distributed over a plurality of removable modules.

Systems and methods for mechanically processing physical media elements, e.g., automatically scratching scratch-off lottery tickets, may include receiving a batch of tickets at an input chute of a scratching system. Tickets may be serially fed through the scratching system that includes a series of roller scratching mechanisms. Pressure rollers may be individually adjustable to set a pressure of the scratching mechanisms. One or more scanners may obtain information from the tickets before and/or after scratching. A pair of parallel plates may be used to form a feed path to guide tickets through the system. A vacuum manifold may isolate some elements of the system from debris, and remove the debris from the system via negative pressure. One or more presence sensor may detect presence of a current ticket to control operation of feed motors. Various functions or elements of the system may be distributed over a plurality of removable modules.

Systems and methods for mechanically processing physical media elements, e.g., automatically scratching scratch-off lottery tickets, may include receiving a batch of tickets at an input chute of a scratching system. Tickets may be serially fed through the scratching system that includes a series of roller scratching mechanisms. Pressure rollers may be individually adjustable to set a pressure of the scratching mechanisms. One or more scanners may obtain information from the tickets before and/or after scratching. A pair of parallel plates may be used to form a feed path to guide tickets through the system. A vacuum manifold may isolate some elements of the system from debris, and remove the debris from the system via negative pressure. One or more presence sensor may detect presence of a current ticket to control operation of feed motors. Various functions or elements of the system may be distributed over a plurality of removable modules.

Systems and methods for mechanically processing physical media elements, e.g., automatically scratching scratch-off lottery tickets, may include receiving a batch of tickets at an input chute of a scratching system. Tickets may be serially fed through the scratching system that includes a series of roller scratching mechanisms. Pressure rollers may be individually adjustable to set a pressure of the scratching mechanisms. One or more scanners may obtain information from the tickets before and/or after scratching. A pair of parallel plates may be used to form a feed path to guide tickets through the system. A vacuum manifold may isolate some elements of the system from debris, and remove the debris from the system via negative pressure. One or more presence sensor may detect presence of a current ticket to control operation of feed motors. Various functions or elements of the system may be distributed over a plurality of removable modules.

A device to automate the removal of a layer of opaque film applied to a card stock to obscure printed information residing underneath the film layer without introducing damage to the card stock itself that would significantly impair access to the printed information after such removal.

Systems and methods for mechanically processing physical media elements, e.g., automatically scratching scratch-off lottery tickets, may include receiving a batch of tickets at an input chute of a scratching system. Tickets may be serially fed through the scratching system that includes a series of roller scratching mechanisms. Pressure rollers may be individually adjustable to set a pressure of the scratching mechanisms. One or more scanners may obtain information from the tickets before and/or after scratching. A pair of parallel plates may be used to form a feed path to guide tickets through the system. A vacuum manifold may isolate some elements of the system from debris, and remove the debris from the system via negative pressure. One or more presence sensor may detect presence of a current ticket to control operation of feed motors. Various functions or elements of the system may be distributed over a plurality of removable modules.