Abstract:
An image reading apparatus includes: a contact glass provided at an upper surface of a main body of the apparatus to set a manuscript thereon, an image sensor being positioned below the contact glass and having a reading surface on contact glass side for reading an image from the manuscript on the contact glass, a carriage supporting the image sensor accommodated in a sensor container formed to have a recess open to the contact glass side, a rail member slidably supporting the carriage, and a biasing member biasing the image sensor to the contact glass side via a biased portion adjacent to the reading surface of the image sensor. An upper end of the biasing member is positioned below the contact glass and above the lower surface of the image sensor.
Abstract:
This image reading apparatus, includes: a first retaining member that retains a lens unit; a second retaining member that retains a sensor unit; and a positioning member that sets a relative position between the first retaining member and the second retaining member, wherein the positioning member comprises: a first concave portion that is sagged from a first contact surface to be in contact with the first retaining member; and a second concave portion that is sagged from a second contact surface to be in contact with the second retaining member, and the positioning member is fixed to the first retaining member and the second retaining member by an adhesive filled in the first concave portion and the second concave portion.
Abstract:
An image reading apparatus includes: a contact glass setting a manuscript thereon; an image sensor extending in a first direction and having a reading surface which faces the contact glass for reading an image from the manuscript on the contact glass; a rail member extending inside the apparatus main body in a second direction perpendicular to the first direction; a carriage having a sensor container to contain the image sensor, a taper end portion formed in an end portion in the first direction to become smaller in height toward the end side, and an opening formed in the bottom of the sensor container on the taper end portion side; a biased portion adjacent to the reading surface of the image sensor in the second direction; and a biasing member biasing the image sensor toward the contact glass via the biased portion.
Abstract:
A scanning device comprising a first image sensor, a second image sensor module and a housing. The first image sensor module has a first image array sensor for scanning information from a first side of media. The second image sensor module is mounted opposite the first image sensor module so that the media can move to a scanning region between the first image sensor module and the second image sensor module. The second image sensor module has a second image array sensor for scanning information from a second side of the media. A housing is attached to the second image sensor module. When the media moves to the scanning region between the first image sensor module and the second image sensor module and exits the scanning region, when the media reenters the scanning region, the media impacts a convex region of the housing that causes the second image sensor module to move with respect to the first image sensor module and to thus provide sufficient separation distance between the second image sensor module and the first image sensor module to allow the media to re-enter the scanning region.
Abstract:
An image reading device according to one aspect of the invention comprises: a conveying unit configured to convey a recording medium; a first transmissive portion having a first surface that allows the recording medium to pass the first surface; a second transmissive portion having a second surface on which a recording medium is allowed to be placed; an image reading unit comprising a line sensor extending in a first direction and movable on a second path, the second path continuously extending below the first transmissive portion and the second transmissive portion; and a driver configured to move the image reading unit on the second path. A relative distance between the line sensor and the first surface changes in the second path below the first transmissive portion. The recording medium can be read at positions having the relative distances different one another.
Abstract:
A scanning device scans both sides of a document. The document is fed between a first image sensor module and a second image sensor module. The second image sensor module is moved with respect to the first image sensor module so that a separation distance between the second image sensor module and the first image sensor module is based on a thickness of the document. A first side of the document is scanned using a first scan line located in the first image sensor module. A second side of the document is scanned using a second scan line located in the second image sensor module. When the document is fed between the first image sensor module and the second image sensor module, the document does not reach the first scan line and the second scan line simultaneously.
Abstract:
An inkjet printer cartridge that has a. an orifice plate; and b. a platform surrounding said orifice plate, said platform defining a surface for sealably engaging a cap. By keeping the capping and maintenance separate from the replaceable cartridge, the production cost of the cartridge is reduced. Providing a support platform around the orifice plate that is configured to engage the cap and seal the printhead requires less manufacturing precision than a capping mechanism that directly engages the orifice plate. Production efficiencies from lower precision assembly have particular significance for high volume products.
Abstract:
In a line head, a plurality of light emitters are arrayed on a substrate in a first direction. Each of the light emitters is operable to emit a light beam. In a rod lens array, a plurality of rod lenses are arrayed in the first direction, and each of the rod lenses is adapted to focus the light beam emitted from an associated one of the light emitters onto a target surface. The substrate and the rod lens array are attached to a holder elongated in the first direction. Positioning members are provided at both end portions of the holder in the first direction. A relative position between the substrate and at least one of the positioning members is variable in a second direction perpendicular to the first direction.
Abstract:
A printer assembly includes an ink supply mechanism that incorporates a printhead. A platen is operatively connected to the ink supply mechanism. A capping mechanism is mounted on the platen and has an elongate capping arm for moving towards the printhead into a capped position and away from the printhead into an uncapped position. A biasing arrangement biases the capping arm into the uncapped position. A moving arrangement moves the capping arm into the capped position.
Abstract:
An image reading apparatus includes a line light source having a light guide plate and red-, green-, and blue-LEDs, for a light transmitting original, and a contact image sensor unit for detecting light from the line light source. The light transmitting original is arranged between the line light source and the contact image sensor unit. The light transmitting original is read by moving the line light source and the contact image sensor unit relative to the light transmitting original. The line light source is moved interlockingly with the contact image sensor unit by the attraction between a magnet provided at both ends of the line light source in the longitudinal direction thereof and a magnet provided at both ends of the contact image sensor unit in the longitudinal direction thereof.