Installation for improving a scanning range of scanner along an axial direction of a light source
Abstract
An installation for increasing the usable scanning range along the axial direction of a light source. The installation includes a linear light source and a light-channeling panel. The linear light source has a light axis whose brightness near the mid-portion is higher than the brightness level on either side. The light-channeling panel is adjacent to the linear light source and is capable of concentrating more light in the end sections rather than the mid-portion of the light axis. The light-channeling panel is made from a plurality of panels, each made from materials having different light transparencies. The light transparency of the light-channeling panel near the central section of the light axis is lower than the light transparency at the end sections of the light axis. Hence, after light from the linear light source has passed through the light-channeling panel, a band of light having a more homogenous brightness level than the linear light source is produced.
Claims
exact text as granted — not AI-modified1. An installation on a scanner capable of increasing a usable scanning range along an axial direction of a light source, comprising:
a linear light source having a light axis, wherein a brightness level near a mid-portion on the light axis is higher than brightness levels near two end portions of the light axis and the linear light source provides a light beam necessary for scanning a document; and
a light-channeling panel adjacent to the linear light source, wherein the light-channeling panel concentrates more light from the linear light source in the two end portions rather than the mid-portion and the light-channeling panel is formed from a plurality of panel materials, each having a different light transparency, so that the mid-portion of the light axis has a lower light transparency than the two end portions of the light axis, wherein after light originating from the linear light source has passed through the light-channeling panel, a band of light having a more homogenous brightness level than the linear light source is produced.
2. The installation of claim 1 , wherein the linear light source further includes a plurality of parallel linear light tubes.
3. An installation on a scanner capable of increasing the usable scanning range along the axial direction of a light source, comprising:
a linear light source having a light axis, wherein a brightness level near a mid-portion on the light axis is higher than brightness levels near two end sections of the light axis, and the linear light source provides a light beam necessary for scanning a document;
a light-channeling panel adjacent to the linear light source, wherein the light-channeling panel concentrates more light from the linear light source in the two end portions rather than the mid-portion and the light-channeling panel is formed using a plurality of panel materials, each having a different light transparency, so that the mid-portion of the light axis has a lower light transparency than the two end portions of the light axis, wherein after light originating from the linear light source has passed through the light-channeling panel, a band of light having a more homogenous brightness level than the linear light source is produced;
an optical transmission system for transmitting a light image of the document produced by light from the linear light source that has passed through the light-channeling panel and reflected from the document; and
an optical sensor that receives the light from the optical transmission system to produce a scan image.
4. The installation of claim 3 , wherein the linear light source includes a plurality of parallel linear light tubes.
5. The installation of claim 3 , wherein the optical transmission system further includes a lens.
6. The installation of claim 3 , wherein the optical transmission system further includes one or more reflecting mirrors.
7. The installation of claim 6 , wherein the optical transmission system further includes a lens.
8. An installation on a scanner capable of increasing a usable scanning range along an axial direction of a light source, comprising:
a linear light source having a light axis, wherein a brightness level near a mid-portion on the light axis is higher than brightness levels near the end sections of the light axis, and the linear light source provides a light beam necessary for scanning a document;
a light-channeling panel adjacent to the linear light source, wherein the light-channeling panel concentrates more light from the linear light source at the two end portions rather than the mid-portion and the light-channeling panel is formed using a plurality of panel materials, each having a different light transparency, so that the mid-portion of the light axis has a lower light transparency than the two end portions of the light axis, wherein after light originating from the linear light source has passed through the light-channeling panel, a band of light having a more homogenous brightness level than the linear light source is produced; and
a contact image sensor, wherein the sensor receives a light image of the document produced by the light from the linear light source that has passed through the light-channeling panel and reflected from the document so that a scan image is formed.
9. The installation of claim 8 , wherein the linear light source further includes a plurality of parallel linear light tubes.
10. An apparatus, comprising:
a light - channeling panel, adapted to be illuminated by a linear light source having a light axis, wherein a brightness level near a mid - portion on the light axis is higher than brightness levels near end sections of the light axis, the light - channeling panel including a mid - portion and two end portions having different light transparency characteristics and adapted to concentrate more light received from the linear light source in the two end portions relative to the mid - portion such that, upon illumination by the linear light source, light passing through the light - channeling panel produces a band of light having a more homogenous brightness level than the linear light source.
11. The apparatus of claim 10 , wherein the mid- portion of the light - channeling panel comprises a different material than the materials for one or more of the two end portions.
12. The apparatus of claim 10 , wherein the mid- portion has a light transparency that is less than a light transparency of one or more of the two end portions.
13. The apparatus of claim 10 , further comprising a linear light source disposed proximate to the light- channeling panel so as to illuminate the light - channeling panel upon operation.
14. The apparatus of claim 10 , wherein the mid- portion comprises a plurality of sub - portions having different light transparency characteristics.
15. The apparatus of claim 10 , wherein the light- channeling panel is adapted to be implemented in a scanner employing the linear light source.
16. A method, comprising:
disposing a light - channeling panel proximate to a linear light source in a scanner, the linear light source having a light axis, wherein a brightness level near a mid - portion on the light axis is higher than brightness levels near end sections of the light axis, the light - channeling panel including a mid - portion and two end portions having different light transparency characteristics and adapted to concentrate more light received from the linear light source in the two end portions relative to the mid - portion such that, upon illumination by the linear light source, light passing through the light - channeling panel produces a band of light having a more homogenous brightness level than the linear light source; and illuminating the light - channeling panel with the light source to produce a band of light to facilitate a scanning operation with the scanner.
17. A scanner, comprising:
a linear light source; and a light - channeling panel adapted to be illuminated by the linear light source having a light axis, wherein a brightness level near a mid - portion on the light axis is higher than brightness levels near end sections of the light axis, the light - channeling panel including a mid - portion and two end portions having different light transparency characteristics and adapted to concentrate more light received from the linear light source in the two end portions relative to the mid - portion such that, upon illumination by the linear light source, light passing through the light - channeling panel produces a band of light having a more homogenous brightness level than the linear light source.Cited by (0)
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