1. Field of Invention
The invention relates to a cleaning patch and method thereof for cleaning a toner. More explicitly, the invention pertains to a cleaning patch and method thereof for cleaning a residual toner in a developing unit.
2. Related Art
Electrophotographic image systems utilize the principle of ElectroPhotoGraphy (EPG) to print images. The EPG involves several steps: charging, exposure, developing, transferring, and fusing.
When the image forming device prints an image, a high-voltage corona charging unit distributes negative charges all over the surface of a photoreceptor. This is the charging step. In the exposure step, the image to be printed is converted into an optical signal and irradiated using a light-emitting diode (LED) or a laser on the photoreceptor that is already charged with negative charges. The irradiated region has a higher potential than the un-irradiated region. Such a potential difference is used to represent the potential image, also called the latent image.
The developing step starts right after the required latent image is formed on the photoreceptor. The developing unit has the toners with the same potential as the un-exposed region. The toners cannot adhere onto the un-exposed region due to the repulsive electrostatic force. However, they are attracted to the exposed region with a higher potential. Therefore, the exposed region is disposed with toners.
Once the developing step is finished, the toners adhered on the photoreceptor are transferred to paper. This is the transferring step. In this step, a transfer roller is used to distribute positive charges on the back of the paper. Thus, the toners on the photoreceptor are transferred onto the paper. Finally, a heat roller and a pressure roller are used to fix the toners on the paper. This is the fusing step. A cleaning station then cleans the cleaning patch on the photoreceptor after transferring step.
In order to prevent the residual toners from a previous developing from affecting the current developing, the photoreceptor can be provided with a cleaning patch during the developing step, as disclosed in U.S. Pat. No. 6,687,473. That patent only discloses the idea of effectively removing possible residual toners in order not to pollute the developing step, thus improving the image quality. It does not explicitly disclose the implementation method.
Therefore, it is imperative to provide a method that can evenly distribute residual toners on a cleaning patch in order not to pollute the developing step and increase the efficiency of the cleaning station to remove the toner from the photoreceptor.
An objective of the invention is to provide a method for cleaning residual toners on a developing unit. This effectively avoids the pollution of residual toners and improves the image quality.
Another objective of the invention is to provide a cleaning patch for the residual toners to evenly distribute thereon. The cleaning efficiency of removing the toner from the cleaning patch is then increased by evenly distributed toner.
In accord with the above objectives, the disclosed cleaning patch includes several cleaning regions. The cleaning regions are disposed alternately on a photoreceptor to effectively absorb the residual toners thereon. The positions of the cleaning regions are predetermined through the settings of the image forming device.
These and other features, aspects and advantages of the invention will become apparent by reference to the following description and accompanying drawings which are given by way of illustration only, and thus are not limitative of the invention, and wherein:
The present invention will be apparent from the following detailed description, which proceeds with reference to the accompanying drawings, wherein the same references relate to the same elements.
The invention provides a cleaning patch for absorbing residual toners on a developing unit possibly produced during a printing process. Different cleaning patches may be used to reduce variations in the toner absorption ability of individual cleaning patches. In the following, a color electrophotographic image system with two sets of exposure elements is taken as an example to explain the invention. Nevertheless, the invention is not limited to this particular case.
As shown in
To print the first color, cyan image as an example, a charging unit 130a evenly distributes negative charges on the photoreceptor 110. When the photoreceptor 110 rotates and passes the exposure element 140a, a cleaning patch 170 is first built on the photoreceptor 110 by the exposure element 140a. Afterwards, the photoreceptor 110 is exposed to form a latent image 180 based on the image data. Then, the cleaning patch 170 and the latent image 180 pass through the cyan developing unit 150a for developing. According to the present invention, the cleaning patch 170 first passes through the cyan developing unit 150a and the magenta developing unit 150b to absorb toners left thereon from the previous developing. Afterwards, the latent image 180 passes through the cyan developing unit 150a. The cyan developing unit 150a distribute toners onto the latent image 180. The toners absorbed on the cleaning patch 170 are removed using the cleaning station 160. The cleaning patch 170 can be disposed at the front end of the latent image position 180 on the photoreceptor 110 to completely remove the residual toners in the developing units.
In other words, the present invention uses the interval type cleaning region as shown in the
Suppose the color electrophotographic image system shown in
More cleaning regions (212 and 214) are built to cleaning the remaining toner on the developing units. It should be noted that the additional cleaning regions 212, 214 can be straight stripes or alternate patterns since most of the residual toners on the developing unit are removed by the cleaning regions 202, 206, 208, 210. In other words, the user can adjust the cleaning regions. However, for the first cleaning region that passes through a developing unit, its pattern is preferably arranged in a complementary way, such as the cleaning regions 202 and 208 in
To clean the residual toners on a yellow developing unit 150c and a black developing unit 150d can be achieved using the above-mentioned pattern. As shown in
It should be noted that the cleaning regions of the yellow developing unit 150c and the black developing unit 150d in this embodiment are stacked on the cleaning region 214. That is, they are stacked on the cleaning regions that absorb less residual toners on the developing unit 150a and 150b. This can effectively reduce the length of the cleaning patch 170. Note that the pattern of the cleaning patch for absorbing the developing unit 150a and 150b and the pattern of the cleaning patch for absorbing the developing unit 150c and 150d can be different. For example, the pattern of the cleaning patch for absorbing the developing unit 150c and 150d may use the cleaning patch pattern shown in
In summary, the disclosed cleaning patch has at least one cleaning region formed in an alternate way on a photoreceptor. By changing the sizes and the patterns of different absorption regions in each cleaning region, the toner absorption of each cleaning region is reduced for minimizing the resistance when cleaning the toners. In accordance with a preferred embodiment of the invention, the cleaning region for cleaning a developing unit has an absorption pattern that is formed with an alternate pattern between two cleaning regions. Therefore, for a single cleaning region, the toner absorption quantity is less than having straight stripe toner absorption patterns distributed all over the cleaning patch. Therefore, the scraping resistance in this case is also relatively smaller than the straight stripe cleaning patch. This can avoid damages to the photoconductor while removing the toner from the cleaning patch.
The invention being thus described, it will be obvious that the same may be varied in many ways. Such variations are not to be regarded as a departure from the spirit and scope of the invention, and all such modifications as would be obvious to one skilled in the art are intended to be included within the scope of the following claims.
Number | Name | Date | Kind |
---|---|---|---|
6687473 | Wang et al. | Feb 2004 | B2 |
Number | Date | Country |
---|---|---|
63303384 | Dec 1988 | JP |
Number | Date | Country | |
---|---|---|---|
20070172249 A1 | Jul 2007 | US |