1. Field of the Invention
The disclosures herein generally relate to a multi-feed judging device, an image forming apparatus, a multi-feed judging method, and multi-feed judging program.
2. Description of the Related Art
An image forming apparatus, a copying apparatus, and the like, with a multi-feeding detecting function detects whether recording media are transported while overlapping each other (multi-feed) or not. Such image forming apparatus detects, for example, a thickness of the recording medium and judges whether the recording media are transported while overlapping each other.
Japanese Published Patent Application No. 2009-227404 discloses detecting a position of the driven roller on transporting a recording medium and a position on not transporting the recording medium in a transporting operation by rotating a driving roller. A thickness of the recording medium is detected based on a difference between these positions of the driven roller. According to the thickness of the recording medium, it is judged whether the recording media are transported while overlapping each other.
However, the art disclosed in Japanese Published Patent Application No. 2009-227404 cannot detect precisely the thickness of the recording medium, when a motion of the position of the driven roller includes an error, in the case of continuously transporting plural recording media. Accordingly, the detecting method disclosed in Japanese Published Patent Application No. 2009-227404 has a problem that when the thickness of the recording medium cannot be detected precisely, whether the recording media are transported while overlapping each other cannot be judged.
It is a general object of at least one embodiment of the present invention to provide a multi-feed judging device, an image forming apparatus, a multi-feed judging method, and a multi-feed judging program that substantially obviates one or more problems caused by the limitations and disadvantages of the related art.
According to one embodiment of the present invention, a multi-feed judging device includes: a transporting unit that holds a recording medium between a driving roller and a driven roller, which is driven by the driving roller, and transports the recording medium by rotating the driving roller; a detecting unit that detects a position of the driven roller; a calculating unit that calculates a thickness of the recording medium based on a position of the driven roller when the recording medium is transported and a position of the driven roller when the recording medium is not transported; a reference value updating unit that updates a reference value of the thickness by using the calculated thickness; a judging unit that judges, using the reference value updated by the reference value updating unit, whether recording media, which are transported after the reference value was updated, are transported while overlapping each other or not. The calculating unit calculates the thickness by using the position detected by the detecting unit, when the position detected by the detecting unit is within a predetermined range.
According to another embodiment of the present invention, a multi-feed judging method includes: a transporting step for holding a recording medium between a driving roller and a driven roller, which is driven by the driving roller, and for transporting the recording medium by rotating the driving roller; a detecting step for detecting a position of the driven roller when the recording medium is transported, and a position of the driven roller when the recording medium is not transported; a calculating step for calculating a thickness of the recording medium based on a position of the driven roller when the recording medium is transported and a position of the driven roller when the recording medium is not transported; a reference value updating step for updating a reference value for the thickness by using the thickness calculated in the calculating step; a judging step for judging, using the reference value updated in the reference value updating step, whether recording media, which are transported after the reference value was updated, are transported while overlapping each other or not. In the calculating step the thickness is calculated by using the position detected in the detecting step, when the position detected in the detecting step is within a predetermined range.
According to the exemplary embodiments, the multi-feed judging apparatus or the multi-feed judging method, in the case of transporting plural recording media, and even when the detected position of the recording medium includes an error, can judge whether the recording media are transported while overlapping each other or not.
Other objects and further features of embodiments will be apparent from the following detailed description when read in conjunction with the accompanying drawings, in which:
In the following, embodiments of the present invention will be described with reference to the accompanying drawings.
A non-limiting exemplary embodiment according to the present application will be described using a multi-feed judging device, which detects a thickness of a recording medium by detecting a position of the recording medium, and judges whether the recording media are transported while overlapping each other based on the thickness. The present invention can be applied to any of a medium feeding device, a medium detecting device, and a transporting detecting device, as well as the multi-feed judging device, which will be explained later. The present invention can be applied also to any apparatus, a device, a unit, a system, or the like, which uses a recording medium, such as an image forming apparatus, a recording apparatus, an image recording apparatus, a combined apparatus, a printer, a scanner, a plotter, or a facsimile apparatus. Moreover, a recording medium detected by the multi-feed judging device according to the present exemplary embodiment includes a medium such as a sheet of paper, a thin or thick paper, a recording paper, an OHP (over head projector) sheet, a synthetic resin film, or a metallic thin film.
Moreover, in the following explanations, recording media being transported while overlapping each other will be denoted as “multi-feed” for simplicity. In the following explanations, to the same or corresponding members or parts in the attached drawings, the same reference sign is given and redundant explanations are omitted. Furthermore, the drawings are not intended to show a relative ratio between the members or parts. Accordingly, specific sizes of the members or parts may be determined by a person skilled in the art referring to the non-limiting exemplary embodiment in the following.
The exemplary embodiment will be explained using a multi-feed judging device in the following order:
1. A configuration of the multi-feed judging device, 2. An operation for judging the multi-feed, 3. A program of a method for judging the multi-feed and a recording medium storing the program, and 4. An example of an image forming apparatus.
(1. Configuration of the Multi-Feed Judging Device)
Referring to
The multi-feed judging device 100 detects a thickness of the transported recording medium by detecting a position of the recording medium. Moreover, the multi-feed judging device 100 compares the detected thickness of the recording medium and a reference value, and judges whether the transporting of the recording medium is a multi-feed or not.
The multi-feed judging device 100, as shown in
The transporting unit 10 transports the recording medium P. In the transporting unit 10, the recording medium P is inserted between the pair of rollers, 10a and 10b, and is transported by rotations of the pair of rollers. Moreover, the transporting unit 10 according to the present exemplary embodiment may include plural pairs of rollers.
The pair of rollers includes a driving roller 10a, which rotates to drive the transporting, and a driven roller 10b, which is driven by the driving roller. The transporting unit 10 inserts the recording medium P into a gap between the driving roller 10a and the driven roller 10b, as shown in
Moreover, the transporting unit 10 according to the present exemplary embodiment, the driven roller 10b is provided so that the driven roller 10b can move away from the driving roller 10a. That is, the driven roller 10b is depressed toward the driving roller 10a by a pressing unit (not shown). Moreover, the driven roller 10b moves, when the recording medium P is inserted into the pair of rollers, away from the driving roller 10a in a direction of the arrow Ms, as shown in
The detecting unit 20 detects a position of the driven roller 10b of the transporting unit 10. The detecting unit 20 detects, as a position of the recording medium P inserted between the driving roller 10a and the driven roller 10b, the position of the driven roller 10b. Moreover, the detecting unit 20 according to the present exemplary embodiment may include plural detecting units corresponding to the number of the pairs of rollers.
The detecting unit 20 according to the present exemplary embodiment includes, as shown in
Specifically, when the recording medium P is not inserted into the gap in the pair of rollers, the detecting unit 20 detects the position where the driven roller 10b is depressed to contact the driving roller 10a, as shown in
Moreover, the detecting unit 20, as shown by N3 in
The detecting unit 20 is not limited to the one in the present exemplary embodiment, as long as the detecting unit can detect the position of the driven roller 10b. Furthermore, the detecting unit 20 according to the present exemplary embodiment may include, for example, a photo sensor, a rotary encoder, an encoder sensor, an optical sensor, a magnetic sensor, an electrostatic sensor, a direct acting sensor, or the like.
The control unit 30 issues instructions to respective members of the multi-feed judging device 100 and controls operations of the respective members.
The control unit 30 controls the operation of the transporting unit 10, and thus controls the operations for transporting the recording medium P, including moving, importing, discharging, pinching, holding and the like. The control unit 30 controls the operation of the detecting unit 20, and thus controls the operations for detecting the recording medium P.
Moreover, the control unit 30 controls the operation for the calculating unit 31, and thus controls the operation for calculating the thickness of the recording medium P. The control unit 30 controls the operation of the reference value updating unit 32, and thus controls the operation for updating the reference value Y. The control unit 30 controls the operation of the judging unit 33, and thus controls the operation for judging whether the recording media overlap each other or not.
The control unit 30 may include an arithmetic processing unit which includes a central processing unit (CPU) and a memory unit (ROM (read-only memory) and RAM (random access memory)) of a related art. Moreover, the control unit may control the operations of the respective members of the multi-feed judging device 100 by using a program stored in advance, such as a control program and an application program. Furthermore, the control unit 30 may control the respective members of the multi-feed judging device 100 based on information or the like input by an inputting unit (not shown).
The calculating unit 31 calculates the thickness X. The calculating unit 31 calculates the thickness X of the recording medium P, by using the positions of the pair of rollers, i.e. the driven roller 10b, when the recording medium is transported, and the position of the pair or rollers when the recording medium is not transported. The multi-feed judging device 100 detects an amount of the displacement of the driven roller 10b when the recording medium P is transported, using the detecting unit 20, as shown in
The calculating unit 31 according to the present exemplary embodiment calculates the thickness X, by using a detection value detected by the detecting unit 20, the position of the driven roller 10b, when the position detected by the detecting unit 20 is in a predetermined range. That is, when the detection value detected by the detecting unit 20 includes an error, the calculating unit 31 excludes the detection value including the error and calculates the thickness X. The multi-feed judging device 100 estimates previously, for example, a difference (range) between the maximum of the detection value and the minimum of the detection value taking account of the error previously assumed. When the plural thicknesses of the recording media are detected, by using only the detection values included in the range, and the thickness X is calculated. According to the process as above, an accuracy of the calculated thickness X is improved.
Specifically, the calculating unit 31, as shown in
The predetermined range with the threshold Ts may be a range corresponding to a kind or a mounting position of the detecting unit 20 (a sensor, for example), a kind or a material of the transporting unit 10 (a roller, for example), or a specification of the multi-feed judging device 100. Moreover, the predetermined range may be, for example, a range which is changed according to a status of use or a temperature of the multi-feed judging device 100. Furthermore, the predetermined range may be determined by an experiment or by numerical calculations. Furthermore, the predetermined range may be defined by at least two of the above-described ranges.
The reference value updating unit 32 updates the reference value Y for the thickness. The reference value updating unit 32 updates or stores the reference value Y for the recording medium P, using the thickness X calculated by the calculating unit 31. The reference value updating unit 32 according to the present exemplary embodiment updates the reference value Y by using a reference value Y previously updated and a thickness X newly calculated by the calculating unit 31.
The reference value updating unit 32, for example, in the case that plural feeding devices (trays) are provided, may set (update) a reference value for each of the feeding devices. Moreover, the reference value updating unit 32, as the reference value Y, for example, in the case of transporting plural kinds of recording media, may set (update) a reference value for each of the kinds of the recording media. Furthermore, the reference value updating unit 32 may reset the reference value Y, when the feeding device is open or close, power of the multi-feed judging device is off, or in the energy saving mode, or the like. Moreover, an example of the operation for updating the reference value by the reference value updating unit 32 will be described in the following section of the operation for judging the multi-feed, and in example.
2. Operation for Judging Multi-Feed
Referring to
As shown in
Next, the multi-feed judging device 100, as a detecting step, detects a position of the recording medium P pinched by the pair of rollers. Specifically, the multi-feed judging device 100, by using the detecting unit 20, detects a quantity of displacement of the position of the driven roller 10b of the pair of rollers pinching the recording medium P. The multi-feed judging device 100 (the detecting unit 20), as shown in
Next, the multi-feed judging device 100, as a calculating step, calculates a thickness X of the transported recording medium P, based on the position of the driven roller 10b detected in the detecting step when the recording medium is transported and the position of the driven roller 10b when the recording medium is not transported. Specifically, the multi-feed judging device 100, when the position of the driven roller 10b detected for each of the recording media in the detecting step is within the predetermined range with the threshold Ts, uses the calculating unit 31, calculates sequentially a difference between the position of the driven roller when the recording medium is transported and the position of the driven roller when the recording medium is not transported, and thus obtains the thickness X from the calculated difference.
The multi-feed judging device 100, then, as a reference value updating step, by using the thickness X calculated in the calculating step, updates the reference value Y for the recording medium P.
Specifically, the reference value updating unit 32, as shown in
Y(n)=(Y(n−1)+X(n))/2. (Formula 1)
Moreover, the reference value updating unit 32, for example, in the case that the detection value for the third sheet of the recording media includes an error, as shown by N3 of
Furthermore, the reference value updating unit 32, may set an average of plural thicknesses calculated by the calculating unit 31, as shown by X1, X2, X3 and X4 of
Next, the multi-feed judging device 100, as a judging step, by using the reference value Y updated in the reference value updating step, judges the next sheet of the recording media whether the recording media overlap each other.
Specifically, the judging unit 33, as shown in
The predetermined threshold Tp according to the present exemplary embodiment may be a value corresponding to a kind of the transported recording medium, a kind or a mounting position of the detecting unit 20 (a sensor, for example), a kind or a material of the transporting unit 10 (a roller, for example), or a specification of the multi-feed judging device 100. Moreover, the predetermined threshold Tp may be a value, which is changed according to the temperature of the recording medium. Furthermore, the predetermined threshold Tp may be determined by an experiment or by numerical calculations. Moreover, the judging unit 33 may further using information input to the multi-feed judging device 100, such as information on the kind of the recording medium or the like and information on the threshold, judge whether the recording media overlap each other.
3. Program and Recording Media Storing the Program
According to an aspect of the present exemplary embodiment, a program executes a multi-feed judging method. The multi-feed judging method includes: a step of holding a recording medium between a driving roller and a driven roller, which is driven by the driving roller, and transporting the recording medium by rotating the driving roller; a step of detecting a position of the driven roller when the recording medium is transported, and a position of the driven roller when the recording medium is not transported; a step of calculating a thickness of the recording medium based on a position of the driven roller when the recording medium is transported and a position of the driven roller when the recording medium is not transported; a step of updating a reference value for the thickness by using the thickness calculated in the step of calculating the thickness; a step of judging, using the reference value updated in the step of updating the reference value, whether recording media, which are transported after the reference value was updated, are transported while overlapping each other or not, wherein in the step of calculating the thickness the thickness is calculated by using the position detected in the step of detecting the position, when the position detected in the step of detecting the position is within a predetermined range. Moreover, according to another aspect of the present exemplary embodiment, in the program, the step of calculating the thickness further comprises, in the case that the plurality of recording media are intermittently transported in the step of transporting the recording medium, when positions detected in series in the step of detecting the position are in the predetermined range, a step of calculating the thickness by using the positions detected in series in the step of detecting the position, and the step of updating the reference value further includes a step of updating in series the reference value by using the reference value previously updated and the thickness calculated in the step of calculating the thickness. According to the above configuration, the same effect as the multi-feed judging device 100 can be obtained.
Moreover, the program may be provided in an installable form or in an executable form stored in a recording medium readable by a computer, such as a FD (flexible disk), a CD-ROM (Compact Disk-ROM), a CD-R (CD recordable), a DVD (Digital Versatile Disk), and other computer readable media. Furthermore, a flush memory, a semiconductor memory, such as a RAM (random access memory), and a ROM (read-only memory), a memory card, a HDD (Hard Disk Drive), and other computer readable device may be used. Furthermore, the program may be downloaded via a network and installed. The network is a communication line, such as the internet, a LAN (Local Area Network), or a WAN (Wide Area Network).
According to the present exemplary embodiment, the multi-feed judging device 100, in the case of transporting plural recording media, even when a detected value of the position of the recording medium includes an error, such as a noise, can judge whether the recording media overlap each other or not. Moreover, according to the present exemplary embodiment, the multi-feed judging device 100, even when a detection value detected by the detecting unit 20 includes an error, excludes the detection value including the error, and can calculate a thickness X of the recording medium. Furthermore, according to the present exemplary embodiment, since the multi-feed judging device 100, excludes the detection value including the error and calculates the thickness X of the recording medium, accuracy of a reference value Y updated for each of the recording media is improved. That is, the multi-feed judging device 100, even when the detection for the recording medium includes an error, excludes the detection value including the error, calculates the thickness X, updates the reference value Y using the thickness X, and thus accurately judges whether the transporting recording media overlap each other or not without being affected by the error.
An example of an image forming apparatus 100E including the multi-feed judging device 100 according to the present exemplary embodiment will be described. The image forming apparatus 100E, in the Example, is an electrophotographic apparatus. Moreover, in the image forming apparatus a paper is employed for the recording medium P and a detecting sensor is employed for the detecting unit 20.
Moreover, the image forming apparatus according to the Example is not limited to the eletrophotographic apparatus. That is, the image forming apparatus may employ other image forming methods, such as an ink-jet printing method.
(Configuration of the Image Forming Apparatus)
Referring to
The image forming apparatus 100E according to the Example, as shown in
The image forming apparatus 100E according to the Example includes, as the image forming unit 101, plural developing units including the photoreceptors 110 which form toner images in different colors. The image forming unit 101 forms a color image on the recording medium accommodated in the feeding unit 160.
The charging device 111 uniformly charges a surface of the rotating photoreceptor 110. The exposing device 112 exposes the surface of the photoreceptor 110, based on, for example, an image data read out by the reading unit 151 from the document placed on the ADF 150, and generates an electrostatic latent image. The developing device 113 develops the electrostatic latent image formed on the surface of the photoreceptor 110 by using developer, and forms a toner image.
On the intermediate transfer belt 120, the toner images on the rotating photoreceptors 110 are transferred overlapping each other, after the toner images with different colors are formed on the photoreceptor by the plural developing units in the image forming unit 101. In the secondary transferring part between the intermediate transfer belt 120 and the secondary transfer roller 130, the toner image transferred onto the intermediate transfer belt 120 is secondarily transferred onto the paper transported by the plurality of rollers, 131-134, from the feeding unit 160.
The fixing device 140 heats and pressurizes the paper on which the toner image has been transferred. The heated and pressurized toner image is fixed on the paper.
The cleaning device 114 cleans the surface of the photoreceptor 110 after the toner image was transferred to the intermediate transfer belt 120. The image forming apparatus 100E prepares the next image to be formed by removing toner, which remains after the transferring, on the surface of the photoreceptor 110 using the cleaning device 114.
The feeding unit 160 accommodates and feeds a paper on which an image is formed. The feeding unit 160 in the Example includes plural feeding trays.
The image forming apparatus 100E according to the Example can include the multi-feed judging device 100 according to the present exemplary embodiment for the plurality of rollers, 131 or the like, in the feeding unit 160. The image forming apparatus 100E according to the Example detects a thickness of a paper on which an image is formed by using the multi-feeding judging device 100. Moreover, the image forming apparatus 100E according to the Example configures settings for conditions, for example, for the secondary transferring, for the fixing or the like, according to the thickness detected by the multi-feed judging device. The image forming apparatus according to the Example can form an image on a paper in the condition that appropriately corresponds to the thickness of the paper.
Furthermore, the image forming apparatus according to the Example judges whether the transported recording media overlap each other or not based on the thickness of the recording medium detected by using the multi-feed judging device 100. Moreover, the image forming apparatus 100E according to the Example, when the multi-feed judging device judges that the transported recording media overlap each other, outputs information of the multi-feed using an outputting unit (not shown), such as aborting an image forming operation or the like.
The image forming apparatus 100E according to the Example further includes an engine control unit including the calculating unit 31, the reference value updating unit 32 and the judging unit 33 of the control unit 30. The engine control unit controls the operation of the calculating unit 31, the reference value updating unit 32 and the judging unit 33. Moreover, the engine control unit configures arbitrarily settings for a process condition, such as a timing of feeding from the feeding unit 40, a fixing temperature at the fixing unit 60, a condition for generating a toner image in the image forming unit 50, or the like, according to at least one of image data to be formed and a thickness of the paper calculated by the calculating unit 31.
Moreover, the control unit 30 (the engine control unit 30E) may include a CPU (Central Processing Unit), ROM (Read-only Memory), and RAM (Random Access Memory), or the like. The CPU reads an Operation System or a program from a storing unit and executes it, and then provides a variety of functions. Moreover, the CPU executes logical operations using a controlling program or the like stored in the ROM, and then controls the respective units, and calculates and processes data. The ROM stores the controlling program and information on operating conditions or the like. The RAM is a work memory (cache memory), which temporarily holds necessary data in executing a program. RAM is used as a work area in the case that the CPU executes logical operations.
(Operation for Judging Multi-Feed on Forming Images in the Image Forming Apparatus)
Referring to
The image forming apparatus 100E according to the Example, on forming an image, at first, as a transporting step, transports respective plural papers continuously or intermittently from the feeding unit 160 in
Next, the image forming apparatus 100E, as a calculating step, based on a difference between the position of the driven roller when the paper is inserted and the position when the paper is not inserted which was detected in the detecting step, calculates a thickness X of the transported paper. Specifically, for example, the image forming apparatus 100E, detects a thickness X1 of the first paper as 70, a thickness X2 of the second paper as 80, a thickness X3 of the third paper as 110 and a thickness X4 of the fourth paper as 145, using the calculating unit 31, as shown in a column of detected thickness X(n) in
Next, the image forming apparatus 100E, as a reference value updating step, using the thickness X calculated in the calculating step, updates a reference value Y, which is set for each of the papers. Specifically, the image forming apparatus 100E, using the reference value updating unit 32, sets the thickness of the first paper X1 to a reference value Y1 for the second paper. Moreover, an average of the thickness of the second paper X2 and the reference value Y1 for the second paper, 75, is set to a reference value Y2 for the third paper. Furthermore, the image forming apparatus sets the reference value Y2 for the third paper to a reference value Y3 for the fourth paper, since the thickness of the third paper X3 is out of the predetermined range with the threshold Is (greater than or equal to 60 and less than 100, for example). That is, the image forming apparatus 100E judges that the detection value for the thickness of the third paper X3 includes an error, since the detection value of the thickness X3 is 110 and is out of the range with the threshold Ts. The reference value Y2 is updated to the reference value Y3 by not including the thickness of the third paper X3, i.e. the reference value Y2 is set to the reference value Y3 for the fourth paper, so as to exclude the detection value including the error.
Furthermore, the image forming apparatus 100E, as the judging step, judges a multi-feed, using the reference value Y updated for each of the papers in the reference value updating step. Specifically, the image forming apparatus 100E, using the judging unit 33, compares the thickness X2 of the second paper with the reference value Y1, and judges that a multi-feed does not occur, i.e. a ratio of the thickness X2 to the reference value Y1 is 1.14, which is in the predetermined range with the threshold Tp (greater than or equal to 0.8 and less than 1.7, for example), as shown in the column of ratio (X(n)/Y(n−1)) in
The image forming apparatus 100E, then, in the case when the multi-feed is judged to occur, judges whether to finish the operation for forming an image on a paper or not. The image forming apparatus 100E may output information on the multi-feed using the outputting device, and then based on information input by a user or the like the image forming apparatus may judge whether to finish the operation for forming the image on the paper.
As described above, for the image forming apparatus 100E the same effect is obtained as for the multi-feed judging device 100. Moreover, the image forming apparatus, according to the Example, can temporarily halt the operation for forming an image, in the case that the multi-feed is judged to occur for the transporting paper (recording media).
On the other hand, in a comparative example, as shown in
Referring to
As shown in
On the other hand, as shown in
Referring to
While the image forming apparatus continuously transports the recording media P (papers, for example), a disturbance may enter the image forming apparatus, and the output value from the detecting unit 20 may be shifted by a certain value. Specifically, as shown in
Further, the present invention is not limited to these embodiments, but various variations and modifications may be made without departing from the scope of the present invention.
The present application is based on Japanese priority application No. 2012-281306 filed on Dec. 25, 2012, with the Japanese Patent Office, the entire contents of which are hereby incorporated by reference.
Number | Date | Country | Kind |
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2012-281306 | Dec 2012 | JP | national |