Abstract: An electronic device for aligning orientations of scanning images includes a scanning module, a storage module, an identification module, a timing unit, an alignment module, and a control unit. The control unit controls the scanning module to scan N scanned objects at different times and to store N scanning images corresponding to the N scanned objects into the storage module. The control unit controls the identification module to identify orientations of the N scanning images. The control unit controls the timing unit to calculate time intervals among the N scanning images. The control unit determines whether to control the alignment module to align orientations of a second scanning image to an Nth scanning image of the N scanning images with orientation of a first scanning image of the N scanning images according to the time intervals among the N scanning images calculated by the timing unit.

Abstract: A controlled device, a control device, a control system using the same and a control method using the same are provided. The controlled device is configured for receiving a trigger event, and outputting a trigger signal in response to the trigger event. The control device is configured for receiving the trigger signal from the controlled device, and loading an application program corresponding to the trigger event in response to the trigger signal.

Abstract: A printing equipment including a host and a electrophotographic apparatus having an OPC drum unit and a toner cartridge unit is provided. The OPC drum unit has an organic photoconductor, a first memory and a first electrical connector coupled to the organic photoconductor and the first memory. The toner cartridge unit has a developing roller, a second memory and a second electrical connector coupled to the developing roller and the second memory. The first electrical connector is direct contacted to the second electrical connector physically. The host includes a controller, a data carrier transporting module and a third electrical connector coupled to the controller. The third electrical connector is direct contacted to one of the first electrical connector or the second electrical connector physically.

Abstract: A two-sided scanning device includes a first image scanning module, a second image scanning module, a first scanning background component, a first brightness calibration component, a second scanning background component, and a second brightness calibration component. When the second image scanning module moves relative to the first image scanning module to a scanning position, the second image scanning module drives the first scanning background component to move relative to the first image scanning module, so that the first image scanning module and the second image scanning module are aligned with the first scanning background component and the second scanning background component, respectively. Therefore, the first scanning background component and the second scanning background component can be scanning backgrounds for the first image scanning module and the second image scanning module to generate a scanning image of an object with a size corresponding to an actual size of the object.

Abstract: A fusing device includes a driving roller and a fusing unit. The driving roller is for driving a printing media to move. The fusing unit includes a heat insulating component, a heating component, a heat conductive component, a heat reflecting component and a fusing component. The heating component is for generating heat. The heat reflecting component includes a reflecting portion having a cross section formed in a conic section substantially. The reflecting portion is located at a side of the heating component away from the heat conductive component for reflecting the heat generated from the heating component to the heat conductive component. The heat conductive component transfers the heat to the fusing component. The fusing component contacts with the printing media to fuse toners onto the printing media when the driving roller drives the printing media to move.

Abstract: A printer module includes a frame body, a drum, a print head and a print-head moving mechanism. The drum is detachably connected to the frame body. The print-head moving mechanism movably connected to the frame body moves the print head in a horizontal direction substantially perpendicular to a direction of gravity exerted on the print-head moving mechanism. The print-head moving mechanism includes: a shaft rotatably connected to the frame body; an actuating rod connected to the shaft and rotated to rotate the shaft; and an actuating member connected to shaft and rotated with rotation of the shaft, so that the print head is moved between a first position and a second position. Thus, the volume occupied by the printer module can be reduced, the user's operation can be simplified, the influence and interference of the gravity can further be eliminated to simplify the design of the print-head moving mechanism.

Abstract: An adhesive dispensing apparatus comprises a base, a carrier and a feeding assembly. The carrier is rotatably disposed on the base, and the carrier configured for containing an adhesive material. The feeding assembly is disposed between the base and the carrier. The feeding assembly comprises a guide roller set, a conduit and a nozzle. One end of the conduit is connected to the nozzle, and another end of the conduit corresponds to the guide roller set. In addition, the guide roller set is configured for feeding the adhesive material through the conduit to the nozzle.

Abstract: A heating roller includes: a roller cylinder rotatably disposed; a base rotatably disposed in the roller cylinder; first to third heaters, which are mounted on the base and respectively have a first heating section, a second heating section and a third heating section extending respectively in directions substantially parallel to an axial direction of the roller cylinder; and a driving mechanism, which is connected to the base and rotates the base to multiple position states. An image forming apparatus using the heating roller is also disclosed.

Abstract: An output method and an output device include steps below. A first electronic device sends a file to a server and generates a piece of verification information corresponding to the file. A second electronic device receives the piece of verification information. An output device reads the piece of verification information, and obtains the file from the server according to the piece of verification information. The output device receives a first verification code via a user interface, determines whether the first verification code matches the piece of verification information, and outputs the paper document of the file when the first verification code matches the piece of verification information. The output device sends a second verification code, generated according to encode data of the file, to the second electronic device for a further verification and deletes the file after the output device output the paper document of the file.

Abstract: A printer is disclosed, which comprises a frame, an image forming module, a controller, a light guide unit, and an optical detector. The image forming module is disposed opposite to the frame and forms a passage. The light guide unit is disposed in the frame and is connected to the controller. The optical detector comprises an illuminating part and a receiving part. The illuminating part illuminates a beam to the light guide d unit, and the receiving part is for receiving the light.

Abstract: A rotary encoder includes a rotating shaft, first and second encoder wheels, first and second detectors and a processor. The first encoder wheel includes coaxially disposed first and second portions. The first portion has first graduation features. The second portion has a first positioning structure. The second encoder wheel includes coaxially disposed third and fourth portions. The third portion has second graduation features. The fourth portion has a second positioning structure meshing with the first positioning structure, so that the first graduation features and the second graduation features are staggered, and the first encoder wheel and the second encoder wheel are coaxially mounted on the rotating shaft. The first and second detectors detect the first and second graduation features and output first and second signals, respectively. The processor calculates a rotating angle of the rotating shaft according to the first and second signals.

Abstract: A multi-stage sheet ejection device including a tray and a level adjusting structure is provided. The level adjusting structure includes a body and a sliding element. The body has a plurality of stages arranged on a vertical surface of the body in order. The sliding element is disposed on the body and horizontally movable with respect to the vertical surface of the body. Through the movement of the sliding element, the tray can be controlled to move on the vertical surface stage by stage and be supported on one of the stages in sequence.

Abstract: An electronic device for file conversion includes a receiving end, a storage medium, a processor and a transmitting end. The receiving end is configured to receive a data source code. The processor is electrically connected to the receiving end and the storage medium, and is configured to store the data source code into the storage medium and convert the data source code, stored in the storage medium, into printing data. The transmitting end is electrically connected to the processor, and is configured to transmit the printing data to a printing apparatus via a network.

Abstract: An image processing apparatus includes an image processing device. The image processing device includes a receiving port and a processor connected together. The receiving port receives old image data corresponding to a document image of a document. The processor divides the old image data into first area image data corresponding to a first area image of the document, and second area image data corresponding to a second area image of the document, and further performs image enhancement processing on the first area image data to obtain enhanced first area image data. Thus, the first area image may be separated from the second area image, and the image enhancement processing is performed on the first area image. The enhanced first area image data and the second area image data are separately outputted or combined for output.