Patent application number | Description | Published |
20090027735 | Shutter structure for light scanning unit and image forming apparatus using the same - A shutter structure for a light scanning unit, which is used in the light scanning unit that scans a photosensitive medium of a developing unit with a beam deflected by a beam deflector accommodated in a housing having an emission window, and selectively blocks the beam directed at the emission window, and an image forming apparatus using the same. The shutter structure includes a shutter that is rotatably provided outside the housing and selectively blocks the beam directed at the emission window, a joining unit that is formed at corresponding positions of the shutter and the housing so that the shutter is rotatably joined with the housing, and a push member that pushes the shutter so that the shutter is rotated in a direction in which the emission window is opened. | 01-29-2009 |
20090074458 | IMAGE FORMING APPARATUS AND CHARGE REMOVING DEVICE THEREOF - An image forming apparatus and a charge removal device thereof capable of evenly irradiating light to a photosensitive body are disclosed. The charge removal device includes a charge removal lamp, which may be mounted outside the length of the photosensitive body, and the optical axis of which forms an angle with respect to the surface of the photosensitive body, and a lens provided between the photosensitive body and the charge removal lamp. The lens can collimate or make less divergent the light beam emitted by the charge removal lamp, and directs the collimated or less divergent light beam onto the surface of the photosensitive body. The light beam from the lens may be incident upon an area of the surface extending across the length of the photosensitive body. | 03-19-2009 |
20110050833 | Image forming apparatus - An image forming apparatus including a black developer with increased capacity. The image forming apparatus includes optical scanners, where the optical scanners have the same focusing distance from the light source to the photo conductor, and the light reflecting unit of one of the optical scanners is arranged at a position different from the light reflecting unit of another optical scanner, such that intervals between the developers vary. Accordingly, although developers of the same type are used, the capacity of the black developer, which is most frequently used, may be easily increased by arranging the relative positions of the developers. | 03-03-2011 |
20120127252 | Polygon mirror assembly, light scanning unit employing polygon mirror assembly, and image forming apparatus - A polygon mirror assembly, a light scanning unit employing the polygon mirror assembly, and an image forming apparatus. The polygon mirror assembly includes a polygon mirror formed of a plastic material and having a plurality of reflection surfaces; and a motor unit to support and rotate the polygon mirror, where the polygon mirror is coupled to the motor unit by using an adhesive material. | 05-24-2012 |
20120141167 | Polygonal mirror, light scanning unit using the polygonal mirror, and image forming apparatus - A polygonal mirror, a light scanning unit using the polygonal mirror, and an image forming apparatus. The polygonal mirror is formed of a plastic and includes a plurality of reflection surfaces that are formed in an outer portion of the polygonal mirror and rotate around a rotational axis, and an internal mirror surface that defines a hole, wherein a ratio of an internal diameter d to an outer diameter D satisfies 0.1≦d/D≦0.3. | 06-07-2012 |
20130064576 | IMAGE FORMING APPARATUS HAVING VARIABLE DEVELOPER INTERVALS - An image forming apparatus including a plurality of developers and optical scanners, each of the optical scanners having a light source and a light reflecting unit and forming an electrostatic latent image on a photo conductor of each of the developers. The optical scanners have the same focusing distance from the light source to the photo conductor. The light reflecting unit of one of the optical scanners is arranged at a position different from the light reflecting unit of another optical scanner, such that intervals between the developers vary. The plurality of developers include a yellow (Y) developer, a magenta (M) developer, a cyan (C) developer, and a black (K) developer. The optical scanners include a first optical scanner, which forms electrostatic latent images on two of the developers including the black (K) developer, and a second optical scanner, which forms electrostatic latent images on the other two developers. | 03-14-2013 |
20140198171 | WEIGHT-BALANCED POLYGONAL MIRROR, LIGHT SCANNING UNIT USING THE POLYGONAL MIRROR, AND IMAGE FORMING APPARATUS - A light scanning unit includes a light source to emit a light beam; a polygonal mirror to deflect the light beam in a main scanning direction; and an imaging optical system to image the light beam onto a scanning surface. The polygonal mirror includes a plurality of reflection surfaces that are formed in an outer portion of the polygonal mirror and rotate around a rotational axis and an internal mirror surface that defines a hole. A ratio of an internal diameter d to an outer diameter D satisfies 0.1≦d/D≦0.3. The polygonal mirror is adhered to a motor unit that supports and rotates the polygonal mirror, using an adhesive. The internal mirror surface of the polygonal mirror defining the hole is point-bonded to the motor unit using the adhesive, and the point-bonding is conducted in a direction toward a corner of the reflection surfaces. | 07-17-2014 |
20140376966 | POLYGON MIRROR ASSEMBLY, LIGHT SCANNING UNIT EMPLOYING POLYGON MIRROR ASSEMBLY, AND IMAGE FORMING APPARATUS - A polygon mirror assembly, a light scanning unit employing the polygon mirror assembly, and an image forming apparatus. The polygon mirror assembly includes a polygon mirror formed of a plastic material and having a plurality of reflection surfaces; and a motor unit to support and rotate the polygon mirror, where the polygon mirror is coupled to the motor unit by using an adhesive material. | 12-25-2014 |