1. Field of the Invention
The present inventive concept relates to an image forming apparatus which forms an image on a printing medium, and more particularly, to an image forming apparatus which improves an arrangement configuration of a main board and a high voltage power supply, and a connection configuration between a sub electronic element and various boards.
2. Description of the Related Art
As illustrated in
The feeding unit 30 includes first and second cassettes 31 and 35 which are provided below a cabinet 1 of the image forming apparatus, and a multi-purpose printing medium feeding tray 41 which is provided at a lateral side of the cabinet 1.
The first and second cassettes 31 and 35 may include a sensor to detect a residual amount of a printing medium P stored therein, to detect the supply of the printing medium P and to register a front end of the printing medium P, and a sub electronic element having a driving circuit.
As illustrated in
The printing engine includes the photosensitive medium 11, the charger 13 which forms the electrostatic latent image and the visible image on the photosensitive medium 11, the light scanning unit 20 and the developing unit 10 as illustrated in
The conventional image forming apparatus further includes a high voltage power supply (HVPS) 140 which is electrically connected with the main board 120 and applies a high voltage to the developing unit 10, the charger 13, the transfer unit 50 and a static eliminator.
The engine frame 110 includes a first detecting sensor 111 which detects whether the printing medium P is stored in the first cassette 131 (refer to
The main board 120 includes a system engine controller 121, a video controller 123 which controls a video signal, and a memory 125 which stores information therein to form an image. The system engine controller 121 controls the engine frame 110, the control panel display unit 130, the high voltage power supply 140 and the sub electronic elements of the second cassette 150. The second cassette 150 includes the sub electrode elements, i.e. a second detecting sensor 151 which detects whether the printing medium P is stored in the second cassette 150, and a second pickup solenoid 153. The memory includes a flash memory, a DRAM (dynamic random access memory), an EEPROM (electrically erasable programmable read-only memory), etc.
As illustrated in
As the sub electronic elements of the first and second cassettes 131 and 150 are directly connected with the main board 120, the connection line therebetween extends depending on a position of the main board 120, thereby raising costs. Also, the sub electronic elements are difficult to replace, assemble and disassemble.
As the respective sub electronic elements are directly connected with the main board 120, noise signal components such as static electricity generated during the printing medium feeding process are also directly transmitted to the main board 120, thereby lowering reliability of the connection.
The present inventive concept provides an image forming apparatus to optimize an arrangement configuration of a main board and a high voltage power supply and to simplify a signal connection line between sub electronic elements and the main board.
Additional aspects and utilities of the present inventive concept will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the present inventive concept.
The foregoing and/or other aspects and utilities of the present general inventive concept can be achieved by providing an image forming apparatus including a printing engine to form an image on a printing medium through printing processes; an engine frame to support the printing engine and having a driving system to drive the printing engine, a high voltage power supply provided in a surface of the engine frame to apply a high voltage to at least one of units performing the printing processes, a main board provided in a surface of the engine frame adjacent to the surface having the high voltage power supply, and having a system engine controller to control the printing engine and a video controller to control a video signal, first and second main connectors respectively provided at lateral sides of the high voltage power supply and the main board adjacent to each other, and a connection control line to connect the first and second main connectors.
The high voltage power supply may be provided at a lateral side of the engine frame to directly contact an electrode of at least one of the units performing the printing processes to apply a high voltage thereto, and the main board may be provided at a rear side of the engine frame.
The image forming apparatus may further include a first control panel to display an operation state of the printing engine and to control the printing engine, and a first control panel board to control the first control panel, wherein the first control panel board is connected with a first control panel connector provided in the high voltage power supply.
The first control panel board may be provided in an upper portion of the engine frame, and the first control panel connector may be adjacent to an upper portion of the high voltage power supply.
The image forming apparatus may further include a second control panel to display an operation state of the main board and to control the main board, and a second control panel board to control the second control panel, wherein the second control panel board is connected with a second control panel connector provided in the main board.
The image forming apparatus may further include a discharging sensor to detect whether a printing medium fused through the fusing process is discharged, and is connected with a discharging sensor connector adjacent to the upper portion of the high voltage power supply.
The image forming apparatus may further include a first cassette having at least one sub electronic element among a printing medium detecting sensor to detect whether a printing medium is stored therein, a pickup unit to pick up the printing medium and a duplexer unit to print on both sides of the printing medium, a first feeding connector provided in the first cassette to be electrically connected with the sub electronic element, and a second feeding connector electrically connected with the high voltage power supply, and connected with the first feeding connector if the first cassette is installed.
The first cassette may be attached to a lower side of the engine frame to be detachable from a front side to a rear side of the engine frame, and the second feeding connector may be adjacent to a lower side of the high voltage power supply, and is selectively connected with the first feeding connector depending on an attachment and detachment state of the first cassette.
The high voltage power supply may include a high voltage generating circuit to generate a high voltage to be applied to at least one of the units performing the printing processes, a control signal relay circuit to relay an input control signal to the main board, and a cover switch which is switched on and off by opening and closing a cover of the image forming apparatus and to control a signal supplied by the high voltage generating circuit.
The control signal relay circuit may further include a filter to filter noise components included in the relayed control signal.
The image forming apparatus may further include a second cassette having at least one sub electronic element among a printing medium detecting sensor to detect whether the printing medium is provided therein, and a pickup unit to pick up the printing medium, and is electrically connected with the main board.
The image forming apparatus may further include a first light scanning connector provided in a predetermined position of a light scanning unit to perform an exposing process, and a second light scanning connector which is provided in a predetermined position of the main board facing the first light scanning connector, and is connected with the first light scanning connector.
The image forming apparatus may further include a fusing driver board controlled by the main board to supply AC power to the fusing unit to perform a fusing process and to drive the fusing unit, and a switching mode power supply to convert AC power applied by the fusing driver board into DC power to be supplied to the main board, wherein, the fusing driver board and the switching mode power supply are disposed in the rear side of the engine frame to be adjacent to the main board.
The foregoing and/or other aspects and utilities of the present general inventive concept can also be achieved by providing an image forming apparatus including an engine frame to support a printing engine to form an image on a printing medium, a cassette detachably attached to the engine frame having a sub electronic element, a high voltage power supply to apply a high voltage to at least one of units of the printing engine to perform printing processes, a main board to control the printing engine and a video signal, a first feeding connector provided in the cassette to be electrically connected with the sub electronic element, and a second feeding connector which is electrically connected with the high voltage power supply, and is connected with the first feeding connector if the cassette is installed.
The high voltage power supply may be provided at a lateral side of the engine frame, and the main board may be provided in a rear side of the engine frame.
The image forming apparatus may further include first and second connectors respectively provided at lateral sides of the high voltage power supply and the main board adjacent to each other, and a connection control line which may connect the first and second connectors.
The foregoing and/or other aspects and utilities of the general inventive concept may also be achieved by providing an image forming apparatus including a main board having a connector and one or more controllers, a high voltage power supply (HVPS) adjacent to the main board, and having an other connector, and a connection control line to connect the one connector and the other connectors.
The one connector and the other connector may be disposed at lateral sides of the HVPS and the main board adjacent to each other, respectively.
The foregoing and/or other aspects and utilities of the general inventive concept may also be achieved by providing an image forming apparatus including a high voltage power supply (HVPS), an engine frame having a feeding connector electrically connected with the HVPS, one or more cassettes detachably attached to the engine frame, and having one or more sub electronic elements and an other feeding connector to be electrically connected with the one or more sub electronic elements, wherein the one feeding connector and the other feeding connector are selectively connected with each other depending on an attachment state of the one or more cassettes.
The image forming apparatus may further include a grounding signal line electrically connecting the one or more sub electronic elements and the HVPS.
These and/or other aspects and utilities of the present general inventive concept will become apparent and more readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:
Reference will now be made in detail to embodiments of the present general inventive concept, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout. The embodiments are described below in order to explain the present general inventive concept by referring to the figures.
As illustrated in
The printing engine 200 forms an image on a printing medium through printing processes including, for example, charging, exposing, developing, transferring and fusing processes. As illustrated in
The light scanning unit 220 is turned on and off by a video signal applied by the main board 420. The light scanning unit 220 scans light to the color photosensitive media 211 charged with a predetermined electric potential by a charger (not illustrated) to form an electrostatic latent image on the photosensitive media 211. The developing unit 210 develops the electrostatic latent image with a predetermined color toner to form a visible image on the photosensitive media 211. The transfer unit 250 and the fusing unit 260 respectively transfer and fuse the visible image on a printing medium P fed by the feeding unit 230, thereby printing an image on the printing medium. The feeding unit 230 may include first and second cassettes 231 and 235 which are provided, for example, in an upper and lower arrangement including an upper position and lower position both being below a cabinet 201 of the image forming apparatus.
The first and second cassettes 231 and 235 include a sensor to detect a residual amount of the printing medium P stored therein, to detect the supply state of the printing medium P and to register a front end of the printing medium P, and a sub electronic element 240 including a driving circuit.
As illustrated in
If the first and second cassettes 231 and 235 having the sub electronic elements to provide printing medium feeding are provided in a main body of the image forming apparatus as described above, power can be supplied from the main body to the sub electronic elements and the signal detected by the sub electronic elements can be transmitted to the main board 420. To satisfy the requirement, the image forming apparatus according to the exemplary embodiment of the present inventive concept includes a first feeding connector 441 which is provided in the first cassette 231 to be electrically connected with the sub electronic elements and a second feeding connector 445 which is electrically connected with the HVPS 410 as illustrated in
The first cassette 231 is attached to a lower side of the engine frame 300 so that the first cassette 231 is detachable from a front side to a rear side of the engine frame 300 (i.e. from the right to the left in
The second feeding connector 445 is firmly attached corresponding to the first feeding connector 441 of the engine frame 300. That is, the second feeding connector 445 is provided in the engine frame 300 to be adjacent to a lower side of the HVPS 410.
The first and second feeding connectors 441 and 445 are selectively connected with each other depending on an attachment and detachment state of the first cassette 231. The first and second feeding connectors 441 and 445 may include a drawer connector, respectively. The first feeding connector 441 includes a grounding structure as illustrated in
As illustrated in
The HVPS 410 is provided in one side of the engine frame 300, and applies a high voltage to at least one of the units performing the printing processes.
The HVPS 410 can be provided at a lateral side of the engine frame 300 to be directly connected with an electrode of at least one of the units performing the printing processes and to apply a high voltage thereto. If the HVPS 410 is provided at the lateral side of the engine frame 300 as described above, the HVPS 410 may be electrically connected with the first cassette 231 including the sub electronic elements (to be described later) without difficulty and may apply the high voltage generated by the HVPS 410 to electrodes of the respective units performing the printing processes.
As illustrated in
As illustrated in
The HVPS 410 further includes a first control panel connector 461 which is connected with a first control panel board 451 of the first control panel display unit 450, a discharging sensor connector 463 which is connected with a discharging sensor and a second feeding connecting unit 465 which is connected with the second feeding connector 445. The configuration of the connectors will be described later in detail.
The main board 420 is provided in one side of the engine frame 300 adjacent to the HVPS 410. The main board 420 can be disposed in a rear side of the engine frame 300.
The main board 420 includes an integrated board to control the printing engine 200 and the video signal. The main board 420 can include a system engine controller 421 to control the printing engine 200, a video controller 423 to control the video signal applied to the light scanning unit 220 and a memory 425 to store information therein to form an image. The memory 425 includes a flash memory, a DRAM (dynamic random access memory), an EEPROM (electrically erasable programmable read-only memory), etc.
The system engine controller 421 is directly connected with the engine frame 300, the HVPS 410, a second control panel display unit 460 and the sub electronic elements 236 and 237 of the second cassette 235 and controls the foregoing elements. The system engine controller 421 is indirectly connected with the first control panel display unit 450 and the sub electronic elements 232 and 233 of the first cassette 231 through the HVPS 410, and controls the foregoing elements. The foregoing connection configuration is set in consideration of the position of the respective boards in the engine frame 300, the attachment and detachment state of the first cassette 231 and an installation position of the first control panel display unit 450. That is, the respective elements are connected through the connectors and the control signal line, thereby simplifying a harness path.
The first and second main connectors 431 and 435 and the connection control line 437 are provided to connect the main board 420 and the HVPS 410. The main board 420 and the HVPS 410 are adjacent to each other to minimize a length of the connection control line 437. The first and second main connectors 431 and 435 are provided at the lateral sides of the HVPS 410 and the main board 420, respectively, adjacent to each other.
For example, if the HVPS 410 is provided at the lateral side of the engine frame 300 and if the main board 420 is provided in the rear side of the engine frame 300 as illustrated in
If the first and second main connectors 431 and 435 are provided as described above, the first and second connectors 431 and 435 become adjacent to each other when the HVPS 410 and the main board 420 are disposed with respect to the engine frame 300. Thus, the first and second main connectors 431 and 435 may be connected with a shorter connection control line 437, thereby reducing signal loss on the control line 437, reducing costs and simplifying an overall structure.
Referring to
The first control panel board 451 is connected with the first control panel connector 461 provided in the HVPS 410. That is, the first control panel board 451 is provided in the upper portion of the cabinet 201. The first control panel connector 461 is provided to be adjacent to the upper portion of the HVPS 410 as illustrated in
The image forming apparatus according to the present embodiment may further include the second control panel display unit 460 to display and control an operation state of the main board 420. The second control panel display unit 460 includes a second control panel board 461 which is connected with the second control panel connector 461 provided in the main board 420, and a second control panel 466 to display and control the operation state of the main board 420.
The image forming apparatus according to the present embodiment may further include a discharging sensor 270 to detect whether the printing medium having the toner image fused by the fusing unit 260 is discharged. In this case, the discharging sensor 270 is connected with a discharging sensor connector 463 which is adjacent to an upper side of the HVPS 410. As the discharging sensor connector 463 is provided in the upper side of the HVPS 410 in consideration of the discharging sensor 270 provided in an upper side of the first and second cassettes 231 and 235, the discharging sensor 270 and the discharging sensor connector 463 may be connected with each other through a shorter connection line.
The image forming apparatus according to the present inventive concept may further include first and second light scanning connectors 471 and 475 which are connected with each other through a connection line 477 to electrically connect the main board 420 and the light scanning unit 220.
The first light scanning connector 471 is provided in a predetermined position of the light scanning unit 220 to perform the exposing process, e.g. provided in a central portion of a surface opposite to a surface facing the developing unit 210. The second light scanning connector 475 is provided in a predetermined position of the main board 420 facing the first light scanning connector 471. As illustrated in
As illustrated in
The FDB 473 is controlled by the main board 420 to supply external AC power input through an input unit 471 to the fusing unit 260 and the SMPS 475. Thus, the fusing unit 260 may be turned on and off according to a fusing condition. The SMPS 475 converts the AC power applied by the FDB 473 into DC power to be supplied to the main board 420. The FDB 473 and the SMPS 475 are disposed in a rear side of the engine frame 300 to be adjacent to the main board 420. Then, the connection configuration between the FDB 473, the SMPS 475 and the main board 220 may be simplified, thereby making the circuit configuration compact.
As described above, the image forming apparatus includes the main board 420 and the HVPS 410 in the surfaces adjacent to the engine frame 300, and includes the connectors connected with each other, thereby simplifying the control connection signal line.
The connectors are disposed in the HVPS 410 or in the main board 420 depending on an arrangement of the first and second control panel display units, thereby connecting the elements through a shorter connection signal line.
The feeding unit including the sub electronic elements may be electrically connected with the HVPS, thereby reducing the signal line of the sub electronic elements. The signal is transmitted between the elements through the HVPS, thereby simplifying the assembly configuration of the overall system.
The HVPS, for example, includes the filter and the signals are transmitted from the sub electronic elements to the main board through the HVPS. Accordingly, the noise signal components such as static electricity generated during the printing medium feeding process may be removed. Thus, fair signal components filtered by the HVPS are transmitted to the main board, thereby improving reliability of a connection.
The ground signal line of the various sub electronic elements is also used to connect the HVPS and the main board, thereby reducing a number of the control connection signal lines.
Although various exemplary embodiments of the present general inventive concept have been illustrated and described, it will be appreciated by those skilled in the art that changes may be made in these exemplary embodiments without departing from the principles and spirit of the general inventive concept, the scope of which is defined in the appended claims and their equivalents.
Number | Date | Country | Kind |
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10-2007-0077944 | Aug 2007 | KR | national |
This is a Continuation Application of prior application Ser. No. 12/099,239, filed on Apr. 8, 2008 in the United States Patent and Trademark Office, which claims priority under 35 U.S.C. §119(a) from Korean Patent Application No. 10-2007-0077944, filed on Aug. 3, 2007, in the Korean Intellectual Property Office, the disclosure of which is incorporated herein by reference in its entirety.
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Number | Date | Country | |
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20130223868 A1 | Aug 2013 | US |
Number | Date | Country | |
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Parent | 12099239 | Apr 2008 | US |
Child | 13856558 | US |