Image formation apparatus

Abstract

An image formation apparatus includes an imaging light source, a photosensitive body and a correction light source. The imaging light source outputs light modulated in accordance with image data representing an image. An electrostatic latent image is formed at the photosensitive body by the light output from the imaging light source. The correction light source is provided separately from the imaging light source, and outputs light toward the photosensitive body for correcting one of variations in potential on the photosensitive body and irregularities in density distribution of an image, which image is to be formed in accordance with the electrostatic latent image that is formed on the photosensitive body by the imaging light source.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

Exemplary embodiments of the present invention will be described in detail based on the following figures, wherein:

FIG. 1 is a diagram showing schematic structure of a tandem color printer which is useable for an image formation apparatus relating to a first exemplary embodiment of the present invention;

FIG. 2 is a diagram for describing a light source for correction of intra-page density irregularities, in the tandem color printer relating to the first exemplary embodiment;

FIG. 3 is a block diagram showing structure of a control system of the tandem color printer relating to the first exemplary embodiment;

FIG. 4 is a flowchart showing an example of flow of intra-page density irregularity correction processing, which is performed by the tandem color printer relating to the first exemplary embodiment;

FIG. 5 is a diagram for describing a light source for correction of intra-page density irregularities, in a tandem color printer relating to a second exemplary embodiment of the present invention;

FIG. 6 is a flowchart showing an example of flow of intra-page density irregularity correction processing, which is performed by the tandem color printer relating to the second exemplary embodiment;

FIGS. 7A and 7B are views showing structure of an optical system in a laser scanning apparatus relating to a third exemplary embodiment of the present invention;

FIGS. 8A and 8B are views for describing a laser light source for image formation and a laser light source for correction in the laser scanning apparatus relating to the third exemplary embodiment;

FIGS. 9A, 9B and 9C are views for describing laser light sources in a laser scanning apparatus relating to a fourth exemplary embodiment of the present invention; and

FIG. 10 is a diagram showing structure of a control system of a tandem color printer relating to the fourth exemplary embodiment.

Claims

1. An image formation apparatus comprising: an imaging light source that outputs light modulated in accordance with image data representing an image;a photosensitive body at which an electrostatic latent image is formed by the light output from the imaging light source; anda correction light source that is provided separately from the imaging light source, and that outputs light toward the photosensitive body to correct variations in potential on the photosensitive body or irregularities in density distribution of an image, the image being formed in accordance with the electrostatic latent image that is formed on the photosensitive body by the imaging light source.

2. The image formation apparatus of claim 1, further comprising: a detector that detects at least one of the potential on the photosensitive body and the density distribution of the image that has been formed; anda controller that controls the correction light source on the basis of detection results from the detector such that at least one of the potential on the photosensitive body and the density distribution of an image to be formed is substantially uniform.

3. The image formation apparatus of claim 2, further comprising a reference position detector that detects a reference position of the photosensitive body, wherein the controller controls the correction light source on the basis of detection results from the detector and the reference position detector.

4. The image formation apparatus of claim 1, wherein the correction light source exposes the photosensitive body with a spot diameter of a different size from a spot diameter that is output from the imaging light source and focused onto the photosensitive body.

5. The image formation apparatus of claim 4, wherein the spot diameter that is output from the correction light source and focused onto the photosensitive body is larger than the spot diameter that is output from the imaging light source and focused onto the photosensitive body.

6. The image formation apparatus of claim 1, wherein the imaging light source and the correction light source are disposed such that the photosensitive body is exposed with light output from the imaging light source subsequent to the photosensitive body being exposed with light output from the correction light source.

7. The image formation apparatus of claim 1, wherein the correction light source comprises a plurality of LEDs.

8. The image formation apparatus of claim 2, further comprising a charge removal light source that eliminates charge on the photosensitive body, wherein the correction light source comprises: an optical sheet bus which guides a portion of light of the charge removal light source, anda light amount modulator which modulates a light amount of the light that is guided in the optical sheet bus,and the controller controls the light amount modulator on the basis of detection results from the detector.

9. The image formation apparatus of claim 8, further comprising a reference position detector that detects a reference position of the photosensitive body, wherein the controller controls the correction light source on the basis of detection results from the detector and the reference position detector.

10. The image formation apparatus of claim 1, further comprising an exposure apparatus at which the imaging light source is disposed, wherein the correction light source is disposed in the exposure apparatus together with the imaging light source, and comprises a light-guide portion for guiding light to an optical path of the imaging light source, and exposes the photosensitive body with the light-guide portion via an optical system which includes a portion of the optical path of the imaging light source.

11. The image formation apparatus of claim 10, further comprising: a detector that detects at least one of the potential on the photosensitive body and a density distribution of an image that has been formed; anda controller, that controls the correction light source on the basis of detection results from the detector such that at least one of the potential on the photosensitive body and the density distribution of an image to be formed is substantially uniform.

12. The image formation apparatus of claim 11, further comprising a reference position detector that detects a reference position of the photosensitive body, wherein the controller controls the correction light source on the basis of detection results from the detector and the reference position detector.

13. The image formation apparatus of claim 10, wherein the imaging light source and the correction light source comprise laser light sources, and are structured such that a size of a laser light emission window of the correction light source is larger than a laser light emission window of the imaging light source.

14. The image formation apparatus of claim 1, wherein the photosensitive body comprises one of a photosensitive body drum and a continuous photosensitive body belt, and the correction light source corrects irregularities in one of the potential and density distribution on the photosensitive body at least one of continuously and stepwise over a full turn of the one of the photosensitive body drum and the photosensitive body belt.

15. An image formation apparatus comprising a surface light-emission device for image formation that includes a plurality of light-emitting elements that emit laser light, wherein the surface light-emission device comprises:a plurality of light-emitting elements for imaging that emits laser light modulated in accordance with image data representing an image; andat least one light-emitting element for correction that is provided for correcting irregularities in potential or density on a photosensitive body that is exposed by the light emitted from the light-emitting elements for imaging, the at least one light-emitting element for correction being structured with a size of a laser light emission window being larger than a laser light emission window of the light-emitting elements for imaging.

16. The image formation apparatus of claim 15, further comprising: a detector that detects at least one of the potential on the photosensitive body and a density distribution that has been formed; anda controller that controls the at least one light-emitting element for correction on the basis of detection results from the detector such that at least one of the potential and the density distribution on the photosensitive body is substantially uniform.

17. The image formation apparatus of claim 16, further comprising a reference position detector that detects a reference position of the photosensitive body, wherein the controller controls the at least one light-emitting element for correction on the basis of detection results from the detector and the reference position detector.

18. The image formation apparatus of claim 15, wherein the photosensitive body comprises one of a photosensitive body drum and a continuous photosensitive body belt, and the at least one light-emitting element for correction corrects irregularities in one of potential and density on the photosensitive body at least one of continuously and stepwise over one of a full turn of the photosensitive body drum and a full turn of the photosensitive body belt.