Abstract: The present disclosure provides a transmission assembly and an office machine comprising the same. The transmission assembly includes a body, a first roller, a second roller, a flexible element, a third roller and a transmission element. The first roller is pivoted at a first position of the body, the second roller is pivoted at a second position of the body, one end of the flexible element connects to the body, the third roller is pivoted besides the first roller in parallel and rotates with the first roller simultaneously, and a transmission element is used to surround axes of the first roller and the second roller; wherein, the rotating directions of the first roller, the second roller, the third roller and the transmission element are the same. The present disclosure provides another office machine using the same.
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 disassemblable imaging apparatus includes a photo sensing assembly and a toner cartridge. The photo sensing assembly has an accommodating space, a photosensitive side and a fastening side. The photosensitive side and the fastening side are respectively located at two sides of the accommodating space, which are opposite to each other. The toner cartridge includes a main body and a handle. The handle is swingably connected to a side of the main body in order to move an end of the handle, which is away from the main body, close to or away from the main body. The toner cartridge is detachably installed in the accommodating space, and the handle is detachably fastened to the fastening side of the photo sensing assembly.
Abstract: A disassemblable imaging apparatus includes a photo sensing assembly, a toner cartridge, and at least one torsion spring. The photo sensing assembly includes a casing and a photosensitive drum. The casing has an accommodating space. The photosensitive drum is installed on the casing and located at a side of the accommodating space. The toner cartridge is detachably located in the accommodating space. The at least one torsion spring is located in the accommodating space. A part of the at least one torsion spring is installed on the casing, and another part of the at least one torsion spring presses a side of the toner cartridge facing away from the photosensitive drum for pushing the toner cartridge toward the photosensitive drum.
Abstract: A multifunction peripheral system includes a server and a multifunction peripheral. The server is configured to access printing information from a first electronic device, and is further configured to generate printing verification information corresponding to the printing information. The multifunction peripheral has a communication connection with the server. The multifunction peripheral is configured to access a detectable identifier, which comprises information to be verified, from a second electronic device, and the multifunction peripheral further configured to ask the server the printing information according to the detectable identifier. When the information to be verified is identical to the printing verification information, the server provides the printing information to the multifunction peripheral.
Abstract: An image forming apparatus includes a housing, a drum, a toner processing module and a first mounting space. The drum is disposed in the housing. The toner processing module supplies toners to the drum. The first mounting space accommodates a first print head. The first print head provides a light ray to perform a writing operation on the drum. When the first print head is present, the light ray of the first print head disposed in the first mounting space passes through an optical channel of the toner processing module to perform the writing operation on the drum. Thus, the optimum configurations of the print head and the drum can be achieved, to effectively reduce a size of the image forming apparatus and satisfy diversified requirements without spending a high cost.
Abstract: A scanning device comprises a scan assembly, a control processor and an output interface. The scan assembly comprises two scanner modules for scanning front and reverse sides of a data medium to obtain front side analog data and reverse side analog data. The control processor electrically connected to the scan assembly controls the scan assembly, and executes an analog-to-digital converting process to convert the front side analog data and the reverse side analog data into front side digital data and reverse side digital data. The output interface electrically connected to the control processor outputs even sets of digital data, comprising the front side digital data and the reverse side digital data, to an image forming apparatus, so that the image forming apparatus performs even-set data typesetting and outputting after the even sets of digital data are completely outputted. An image forming system using the scanning device 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 fusing device includes a pressure roller, a heating roller, a pressure applying element and a releasing element is provided. The pressure roller is installed in a frame. The heating roller opposite to the pressure roller is installed in a housing. The pressure applying element connects the pressure roller and the housing at a first side and applies a force on the pressure roller and the heating roller. The releasing element releases and locks the pressure roller and the housing at a second side. A printer from which jammed sheet may be easily removed is provided. The printer includes a frame, a housing, an image forming device, and the fusing device. The first and second sides are parallel to axial direction of the pressure roller and the heating roller. The image forming device forms an image on a medium. The fusing device fuses the image on the medium.
Abstract: A delivery mechanism of business machine including a carrier board, an assembly rack, a delivery wheel group and at least one linkage assembly is provided. The assembly rack is disposed above the carrier board. The delivery wheel group includes at least one first roller and at least one second roller. The first roller is disposed on the carrier board. The second roller is disposed on the assembly rack and leans on the first rollers. The linkage assembly includes a rotation member and a paper flattening member. The rotation member is pivotally disposed on the assembly rack. The two opposite ends of the paper flattening member are respectively disposed at the rotation member and the assembly rack, such that the paper flattening member can be displaced along a curved path.
Abstract: A feeding mechanism comprises a base body, a feeding roller and a linkage assembly. The base body has a feeding channel. The feeding roller is disposed on the base body, and a part of the feeding roller is located in the feeding channel. The linkage assembly comprises a guiding component and a pressing component. The guiding component is pivotally coupled to the base body. Two ends of the pressing component are respectively and slidably disposed on the base body and the guiding component. The guiding component is rotatable relative to the base body so as to drive the pressing component to move along an extension direction of the feeding channel relative to the guiding component.