Japanese Patent Application No. 2016-175767 filed on Sep. 8, 2016, including description, claims, drawings, and abstract the entire disclosure, is incorporated herein by reference in its entirety.
The present invention relates to an art in an image forming system and a control program for image formation that surely identifies a dirty roller or rollers (a roller or rollers with toner) that has/have caused a smudge on a paper sheet.
Electrophotographic image forming apparatuses are used for forming an image on a paper sheet by transferring a toner image, which corresponds to a data image, to the paper sheet in various apparatuses such as printers and coping machines. In such an electrophotographic image forming apparatus, after a toner image is transferred to a paper sheet, the paper sheet is subjected to heat and pressure to fix the toner image on the paper sheet.
When a paper sheet with unfixed toner is conveyed, the toner on the paper sheet may adhere to a conveying roller. In another case, when a user cleans a paper jam by removing a jammed paper sheet with unfixed toner from an apparatus, the toner on the jammed paper sheet may adhere to a conveying roller. In yet another case, unfixed toner may repeatedly migrate between a paper sheet and conveying rollers or even fixed toner may adhere to a conveying roller.
When the amount of toner on a conveying roller exceeds a certain amount, some toner is transferred from the conveying roller to a paper sheet being conveyed, which causes a smudge (streak) on the paper sheet.
Since an image forming apparatus includes many rollers on its conveyance paths, it is difficult to identify a dirty roller that has caused the smudge on the paper sheet. To clean the dirty roller, a user has to check every roller, which takes a lot of time and effort. JP 2009-51618 A discloses a related art.
JP 2009-51618 A discloses an image forming apparatus in which conveying rollers are disposed at different positions in the paper width direction and a sensor is disposed on a conveyance path for detecting a smudge to identify a dirty conveying roller based on the position of the smudge.
In the art of JP 2009-51618 A, a detector detects a smudge at a different position from that of the dirty roller to identify the dirty roller.
In the art of JP 2009-51618 A, there is a problem that an image forming system having many branched conveyance paths requires sensors to be disposed on every conveyance path for detecting a smudge. In addition, since the intervals between the rollers are different, it is difficult to perform conveyance control when a large-sized paper sheet is conveyed in a small interval between rollers.
The present invention has been made to solve the above problems, and an object thereof is to provide an image forming system and a control program for image formation.
To achieve the abovementioned object, according to an aspect of the present invention, an image forming apparatus reflecting one aspect of the present invention comprises: an image formation part that forms an image on a paper sheet; a conveyor that includes a plurality of conveying members and conveys the paper sheet; a hardware processor that acquires information on a smudge on a paper sheet on which an image has been formed by the image formation part, and identifies, from the plurality of conveying members, one or more dirty conveying member(s) that may have caused the smudge based on at least one of the information on the smudge, information on the conveying members, and information on a job for image formation executed by the image formation part.
The advantages and features provided by one or more embodiments of the invention will become more fully understood from the detailed description given hereinbelow and the appended drawings which are given by way of illustration only, and thus are not intended as a definition of the limits of the present invention:
Hereinafter, one or more embodiments of the present invention will be described in detail with reference to the drawings. However, the scope of the invention is not limited to the disclosed embodiments.
[General Structure]
With reference to
As shown in
The image forming apparatus 100 includes a controller 101, a communication unit 102, an operation display unit 103, a storage unit 104, a paper feed unit 105, a conveyor 110, a reader 120, an image data storage unit 130, an image processing unit 140, and an image formation part 150.
The controller 101 includes a central processing unit (CPU), and memories such as a read only memory (ROM) and a random access memory (RAM). The controller 101 reads control programs from the ROM and the storage unit 104 and expands the programs in the RAM to execute them for controlling the other units. The post-processing apparatuses 200 to 500 also include respective controllers 201 to 501 that function as in the controller 101.
The controller 101 controls not only the individual units of the image forming apparatus 100 but also the whole image forming system including the image forming apparatus 100 and the post-processing apparatuses. The controller 101 selects some potentially dirty rollers that may have caused a smudge on a paper sheet and narrows down the potentially dirty rollers to identify a dirty roller or rollers. The communication unit 102 communicates with other apparatuses connected to the image forming apparatus. The operation display unit 103 sends operational input signals in response to operational data entry by an operator to the controller 101 and displays an operational status of the image forming apparatus 100. The storage unit 104 stores the control programs and other setting data and functions as a work area for executing the control programs. The paper feed unit 105 feeds the paper sheets stored in the unit. The conveyor 110 conveys a paper sheet fed to be subjected to image formation at a predetermined speed. The reader 120 scans an original to generate image data. The image data storage unit 130 stores image data for image formation and other data. The image processing unit 140 performs various image processing procedures necessary for image formation. The image formation part 150 prints (forms) an image on a paper sheet based on the instructions on image formation and the processed image data.
The post-processing apparatus 200 is connected to the image forming apparatus 100, and includes a controller 201, a communication unit 202, a storage unit 204, a conveyor 210, and a paper processing unit 250. The controller 201 controls the individual units of the post-processing apparatus 200. The communication unit 202 communicates with the image forming apparatus 100. The storage unit 204 stores the control programs and other setting data and functions as a work area for executing the control programs. The conveyor 210 conveys a paper sheet at a predetermined speed. The paper processing unit 250 performs various post-processing procedures on a paper sheet being conveyed.
The post-processing apparatus 300 is connected to the post-processing apparatus 200, and includes a controller 301, a communication unit 302, a storage unit 304, a conveyor 310, a paper processing unit 350, and an ejection unit 390. The ejection unit 390 includes a main ejection port 390m and a secondary ejection port 390s. The controller 301 controls the individual units of the post-processing apparatus 300. The communication unit 302 communicates with the image forming apparatus 100 and other apparatuses. The storage unit 304 stores the control programs and other setting data and functions as a work area for executing the control programs. The conveyor 310 conveys a paper sheet at a predetermined speed. The paper processing unit 350 performs various post-processing procedures on a paper sheet being conveyed. The ejection unit 390 ejects a paper sheet from the main ejection port 390m or the secondary ejection port 390s to the outside of the apparatus.
The post-processing apparatus 400 is connected to the post-processing apparatus 300, and includes a controller 401, a communication unit 402, a storage unit 404, a conveyor 410, a paper processing unit 450, and an ejection unit 490. The ejection unit 490 includes a main ejection port 490m and a secondary ejection port 490s. The controller 401 controls the individual units of the post-processing apparatus 400. The communication unit 402 communicates with the image forming apparatus 100 and other apparatuses. The storage unit 404 stores the control programs and other setting data and functions as a work area for executing the control programs. The conveyor 410 conveys a paper sheet at a predetermined speed. The paper processing unit 450 performs various post-processing procedures on a paper sheet being conveyed. The ejection unit 490 ejects a paper sheet from the main ejection port 490m or the secondary ejection port 490s to the outside of the apparatus.
The post-processing apparatus 500 is connected to the post-processing apparatus 400, and includes a controller 501, a communication unit 502, a storage unit 504, a conveyor 510, a paper processing unit 550, and an ejection unit 590. The ejection unit 590 includes a main ejection port 590m and a secondary ejection port 590s. The controller 501 controls the individual units of the post-processing apparatus 500. The communication unit 502 communicates with the image forming apparatus 100 and other apparatuses. The storage unit 504 stores the control programs and other setting data and functions as a work area for executing the control programs. The conveyor 510 conveys a paper sheet at a predetermined speed. The ejection unit 590 ejects a paper sheet from the main ejection port 590m or the secondary ejection port 590s to the outside of the apparatus.
It should be noted that the structural elements of the image forming apparatus 100 and the post-processing apparatuses 200 to 500 and their functions are not limited to the above.
[Operation]
With reference to the flow chart of
When a user finds a smudge on a paper sheet that has undergone image formation by the image forming system 1 and clicks a tab for identifying a dirty roller or rollers that has/have caused the smudge on the paper sheet, on the screen of the operation display unit 103, the controller 101 starts operation following the flow chart of
In the image forming system 1, the storage unit of each apparatus (the storage unit 104 of the image forming apparatus 100, the storage unit 204 of the post-processing apparatus 200, the storage unit 304 of the post-processing apparatus 300, the storage unit 404 of the post-processing apparatus 400, and the storage unit 504 of the post-processing apparatus 500) stores information on the rollers of the apparatus including information on the positions of the rollers (in the main scanning direction), information on the widths of the rollers, information on the intervals between the pairs of rollers (when a plurality of pairs of rollers are provided), and information on the tread patterns (surface patterns) of the rollers. The controller 101 retrieves the information on the rollers of each apparatus and collectively stores the information in the storage unit 104 (step S100 in
The controller 101 acquires information on the smudge on the paper sheet with the image (step S101 in
In order to enable the user to input the information on the smudge on the paper sheet, the controller 101 instructs the operation display unit 103 to display a smudge position input window 103G1 as shown in
When the smudge has a pattern due to a roller tread pattern, the user can tap the [Next] button in the smudge position input window 103G1 to go to a smudge pattern input window 103G2 (
The smudge pattern input window 103G2 includes a smudge pattern sample field 103G2a for showing a smudge pattern sample and a number input field 103G2b for enabling the user to input the number corresponding to the pattern of the smudge. The user can easily input the information on the pattern of the smudge on the paper sheet by inputting the number corresponding to the pattern of the smudge on the paper sheet through the smudge pattern input window 103G2 on the operation display unit 103. In
The controller 101 can acquire the information on the smudge on the paper sheet through the user's input of the information on the position and pattern of the smudge as shown in
The controller 101 then acquires information on an executed job (step S102 in
In the example job information input window 103G3 in
The user can determine the information on the executed job by tapping an enter button 103G3c and an OK button 103G3d. Other than the job information input window 103G3 as shown in
The controller 101 may acquire the information on the executed job (step S102 in
After acquiring the information on the smudge as above, the controller 101 refers to the acquired information on the smudge and the information on the rollers to select the rollers that are disposed at the positions corresponding to that of the smudge on the paper sheet (step S103 in
With reference to the flow chart of
When any one of the post-processing apparatuses includes a printed-sheet reader, the controller 101 refers to the information on the position of the printed-sheet reader and its read results to narrow down the selected possibly dirty rollers (step S104 in
As shown in
If the printed-sheet reader reads an image with no smudge (NO at step S1042 in
The exclusion with reference to the position of the printed-sheet reader 220 and its read results only requires simple parameters such as the presence of a smudge and the position of the printed-sheet reader 220. The controller 101 can thus narrow down the suspect rollers at high speed under low load. The early-stage exclusion can reduce the number of the suspect rollers at an early stage.
With reference to the information on the executed job, the controller 101 further narrows down the possibly dirty rollers by excluding the rollers outside the conveyance paths that have been used for the job causing the smudge on the paper sheet or the rollers on the conveyance paths that have been used for the job causing no smudge on a paper sheet (step S105 in
As shown in
As shown in
The exclusion of the rollers outside the conveyance paths conveying a sheet with a smudge or the rollers on the conveyance paths conveying a sheet with no smudge, which is surely performed, can surely narrow down the possibly dirty rollers. In addition, by repeatedly excluding the rollers irrelevant to the smudge with reference to information on different executed jobs, the possibly dirty rollers can surely be narrowed down.
The controller 101 also refers to the information on the smudge and the information on the rollers and compares the information on the pattern of the smudge with the information on the tread patterns of the rollers to exclude the rollers having the tread patterns irrelevant to the pattern of the smudge from the possibly dirty rollers (step S106 in
When the exclusion by the comparison of the information on the pattern of a smudge with the information on the tread patterns of the rollers is performed to narrow down the possibly dirty rollers, a plurality of different tread patterns of the rollers help to narrow down the suspect rollers to the rollers having one specific tread pattern. The controller 101 can thus narrow down the suspect rollers at high speed under low load. In this embodiment, since a plurality of parameters are used for narrowing down the possibly dirty rollers, a few tread patterns of the rollers are enough and there is no need to have all the rollers provided with different tread patterns.
The controller 101 also refers to the information on the smudge and the information on the rollers and compares the information on the width of the smudge with the information on the widths of the rollers to exclude the rollers having the widths irrelevant to the width of the smudge from the possibly dirty rollers (step S107 in
When the exclusion by the comparison of the information on the width of a smudge with the information on the widths of the rollers is performed to narrow down the possibly dirty rollers, a plurality of different widths of the rollers help to narrow down the suspect rollers to the rollers having one specific width. The controller 101 can thus narrow down the suspect rollers at high speed under low load. In this embodiment, since a plurality of parameters are used for narrowing down the possibly dirty rollers, a few widths of the rollers are enough and there is no need to have all the rollers provided with different width.
The controller 101 also refers to the information on the smudge and the information on the rollers and compares the information on the interval(s) between the smudges with the information on the intervals between the rollers (or the pairs of rollers) to exclude the rollers having the intervals irrelevant to the interval(s) between the smudges from the possibly dirty rollers (step S108 in
When the exclusion by the comparison of the information on the interval(s) between smudges with the information on the intervals between the pairs of rollers is performed to narrow down the possibly dirty rollers, a plurality of different intervals between the pairs of rollers help to narrow down the suspect pairs of rollers to the pairs of rollers having one specific interval. The controller 101 can thus narrow down the suspect rollers at high speed under low load. In this embodiment, since a plurality of parameters are used for narrowing down the possibly dirty rollers, a few intervals between the pairs of rollers are enough and there is no need to have all the pairs of rollers provided with different intervals as in the conventional example.
After the controller 101 refers to the information on the smudge to select some possibly dirty rollers, and refers to the information on the smudge and the information on the executed job to narrow down the possibly dirty rollers, the controller 101 determines whether a dirty roller or rollers is/are identified (step S109 in
If there are still many possibly dirty rollers and the possibly dirty rollers are not narrowed down enough (NO (many suspect rollers) at step S109 in
If the possibly dirty rollers are narrowed down to one roller or a few rollers (YES (identified) at step S109 in
If there are still many possibly dirty rollers even after the narrowing-down, the controller 101 instructs the operation display unit 103 to first show the user the most upstream roller, which has higher possibility of coming into contact with unfixed toner.
If no dirty roller is identified through the selection and narrowing-down (NO (not identified) at step S109 in
As described above, in the image forming system according to an embodiment of the present invention, the controller 101 can properly select some possibly dirty rollers and narrow down the possibly dirty rollers to identify a dirty roller or rollers without increasing sensors or complicating conveyance control by setting different intervals between the rollers even in the image forming system 1 including many branched conveyance paths. In addition, since a plurality of parameters are used for the identification, the controller 101 can select and narrow down possibly dirty rollers to identify a dirty roller or rollers at high speed under low load even in the image forming system 1 including many rollers.
Although embodiments of the present invention have been described and illustrated in detail, it is clearly understood that the same is by way of illustration and example only and not limitation, the scope of the present invention should be interpreted by terms of the appended claims.
Number | Date | Country | Kind |
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2016-175767 | Sep 2016 | JP | national |
Number | Name | Date | Kind |
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9389566 | Takahashi | Jul 2016 | B2 |
20110002702 | Niijima | Jan 2011 | A1 |
20110299862 | Kozuka | Dec 2011 | A1 |
20120286042 | Sawano | Nov 2012 | A1 |
20130155422 | Kuo | Jun 2013 | A1 |
20150192884 | Sone | Jul 2015 | A1 |
20170219979 | Arimoto | Aug 2017 | A1 |
Number | Date | Country |
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2005125633 | May 2005 | JP |
2009-051618 | Mar 2009 | JP |
Number | Date | Country | |
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20180067437 A1 | Mar 2018 | US |