An illumination device includes a light emitting unit, a light guide member, and a support member. The light guide member has a flat plate part that extends in the longitudinal direction and a light guide body, and is molded such that a sectional shape vertical to the longitudinal direction is a hat shape. The support member has a pair of end support parts that support both end parts in the longitudinal direction of the light guide member and a flat plate part-support part that supports a surface of the flat plate part of the light guide member, which is opposite to a side of the light guide body. A support surface of the flat plate part-support part abuts the surface in an entire area in the longitudinal direction of the surface of the light guide member.

An image reading apparatus includes an illumination unit that illuminates light on an image surface of a sheet, and a photoelectric conversion element that converts reflected light from the sheet illuminated by the illumination unit into an electric signal. The illumination unit includes a circuit board including a light emitting element, and a light guide that guides light, emitted from the light emitting element, to a sheet read surface. In the image reading apparatus, the light guide includes a positioning surface that abuts against a first surface of the circuit board and that performs positioning of the light guide and the circuit board, and a pressing portion that abuts against a second surface of the circuit board on an opposite side of the first surface and that presses the circuit board against the positioning surface.

An image reading device has a document placement stage, a light source unit, and a sensor unit. The light source unit has a first light source part having a first light source at one end in the main scanning direction and a first light guide, a second light source part having a second light source at the other end in the main scanning direction and a second light guide, a first board where the first light source is mounted, and a second board where the second light source is mounted. The first and second boards each have a board base, a mounting part where the first or second light source is mounted, and a reflection face formed next to the first or second light source. The reflection faces of the first and second board faces face, to overlap the facing faces of the second and first light guides.

An image reading apparatus includes an illumination unit that illuminates light on an image surface of a sheet, and a photoelectric conversion element that converts reflected light from the sheet illuminated by the illumination unit into an electric signal. The illumination unit includes a circuit board including a light emitting element, and a light guide that guides light, emitted from the light emitting element, to a sheet read surface. In the image reading apparatus, the light guide includes a positioning surface that abuts against a first surface of the circuit board and that performs positioning of the light guide and the circuit board, and a pressing portion that abuts against a second surface of the circuit board on an opposite side of the first surface and that presses the circuit board against the positioning surface.

An image reading apparatus includes: a reading unit configured to read an image of an original and output an image signal; and a white reference plate to be used for shading correction. The image reading apparatus drives the reading unit with maximum power consumption for a predetermined time period and thereafter drives the reading unit with reduced power consumption. The image reading apparatus causes the reading unit with reduced power consumption to read the white reference plate and generates shading data to be used for the shading correction. After that, the image reading apparatus causes the reading unit to read an original and corrects a reading result of the original based on the shading data.

An image reading device has a document placement stage, a light source unit, and a sensor unit. The light source unit has a first light source part having a first light source at one end in the main scanning direction and a first light guide, a second light source part having a second light source at the other end in the main scanning direction and a second light guide, a first board where the first light source is mounted, and a second board where the second light source is mounted. The first and second boards each have a board base, a mounting part where the first or second light source is mounted, and a reflection face formed next to the first or second light source. The reflection faces of the first and second board faces face, to overlap the facing faces of the second and first light guides.

The diffusing member includes a diffusing surface with protruding portions arrayed in a first direction. The protruding portions include a first group of protruding portions in which tops thereof are arranged on a first line parallel to the first direction when they are projected on a first cross section parallel to the first direction. Frequencies of inclination angles of the first group of protruding portions ? within a range of 0??5?, ? within a range of

[00001]$\left[{\sin }^{-1}\left(\frac{1}{n}\right)+\frac{1}{2}{\sin }^{-1}\left(\frac{\sin ?}{n}\right)\right]?5?\mathrm{and}$$-\left[{\sin }^{-1}\left(\frac{1}{n}\right)+\frac{1}{2}{\sin }^{-1}\left(\frac{\sin ?}{n}\right)\right]?5?,$

and ? within a range of

[00002]$\left[{\sin }^{-1}\left(\frac{1}{n}\right)+\frac{1}{2}{\sin }^{-1}\left(\frac{\sin ?}{n}\right)\right]?5?\mathrm{and}$$ - [ sin - 1 ( 1 n< Light guiding member and illumination device 10459156 · 2019-10-29 · Canon Kabushiki Kaisha · Ikutaro Mitsutake Provided is the light guiding member including an incident surface, an exit surface extending in a first direction, a light guiding surface opposed to the exit surface, and being configured to guide light entering the incident surface to the exit surface, a side surface connecting the exit surface and the light guiding surface, and a held portion formed on the side surface. The light guiding surface includes a plurality of deflection portions arrayed in the first direction. At least one of a density or a depth of each of the plurality of deflection portions differs between a first region on the light guiding surface, which corresponds to a region at which the held portion is present in the first direction, and a second region on the light guiding surface adjacent to each of both sides of the first region in the first direction. Image sensor unit, paper sheet distinguishing apparatus, reading apparatus, and image forming apparatus 10462324 · 2019-10-29 · CANON COMPONENTS, INC. · Takeshi Sugiyama An image sensor unit includes a light condenser that collects light from a reading target object; an image sensor that receives light and converts the light into an electric signal; an elongated housing that houses the light condenser and the image sensor; and an elongated rigid member attached to a side surface extending in the elongated direction of the housing. The side surface of the housing is provided with an attachment protrusion. The rigid member is provided with an attachment hole that penetrates from a surface facing the side surface of the housing to a non-facing surface on the opposite side, and the non-facing surface of the rigid member is provided with a concave. The attachment protrusion is inserted into the attachment hole, and a part of the attachment protrusion is fit into the concave. ILLUMINATING DEVICE, IMAGE READING APPARATUS INCLUDING THE ILLUMINATING DEVICE, AND IMAGE FORMING APPARATUS INCLUDING THE IMAGE READING APPARATUS 20190281180 · 2019-09-12 · SHARP KABUSHIKI KAISHA · YASUHIRO SUTO, Mitsuharu YOSHIMOTO, Tomohiko OKADA, HISASHI YAMANAKA, SHOHICHI FUKUTOME, KENJI NAKANISHI An illuminating device capable of stably illuminating an irradiated object such as a document while suppressing light loss with a simply structure is provided. An LED array and a reflective plate are disposed sandwiching a slit (St) through which light reflected by a document MS passes and a light-guiding member is disposed on the side of the LED array. The light-guiding member includes a direct emission unit disposed between an illumination range y centered on a document reading position and the LED array and an indirect emission unit disposed between the reflective plate and the LED array, a light incidence face of the direct emission unit and a light incidence face of the indirect emission unit are disposed at mutually different position around the LED array, and the LED array is disposed on a side of an interior angle formed by the light incidence faces. $