The present application claims priority from Japanese Patent Application No. 2011-069586, filed on Mar. 28, 2011, the disclosure of which is incorporated herein by reference in its entirety.
1. Field of the Invention
The present invention relates to a printing apparatus, and in particular, to a printing apparatus which is provided with a plurality of mounting mechanisms on which a plurality of recording media subjected to printing can be placed.
2. Description of the Related Art
Japanese Patent Application Laid-Open No. H07-10344 discloses a printing apparatus which is provided with a plurality of paper discharge trays and which performs a link-tray process in which when any error occurs in the paper discharge tray being used, printing is continued by performing the paper discharge on the other paper discharge tray. The link-tray process is configured as follows. That is, when there is no paper discharge tray on which the paper discharge can be performed and when the errors occur in all of the paper discharge trays, the printing is discontinued and is made to wait until the one of the errors is cleared.
According to the printing apparatus disclosed in Japanese Patent Application Laid-Open No. H07-10344, for example, when a user removes only a part of recording media from the paper discharge tray having the error, the error of said paper discharge tray is cleared and the paper discharge is resumed. This may prevent from the user from removing a remaining part of recording media and may bring about any unfavorable influence on the user's work.
The present teaching has been made in order to solve the problem as described above, and an object of which is to provide a printing apparatus which makes it possible to resume printing without causing any unfavorable influence on a user's work for clearing a paper discharge error.
According to a first aspect of the present teaching, there is provided a printing apparatus which performs a printing on a plurality of sheets, including:
According to this printing apparatus, each of the detection mechanisms detects whether the height of the sheets stacked on one of the trays is not less than the predetermined threshold value, and thus it is possible to judge whether more sheets can be discharged on the tray. For example, when paper sheets are used as the sheets, it is possible to detect an error (paper discharge error) indicating a state that it is not possible to further perform the paper discharge onto the tray. Then, when the paper discharge errors are cleared in at least two or more trays, the paper discharge is resumed by discharging the paper sheets on the tray, which is other than the tray in which the paper discharge error is cleared last. Accordingly, it is possible to resume the paper discharge by discharging the paper sheets on the tray, in which it is assumed that the user is not currently working for clearing the paper discharge error. Therefore, it is possible to continue the print process without causing any unfavorable influence to the user's work.
An explanation will be made below in detail with reference to
<Structure of Printing Apparatus>
An internal structure of a printing apparatus 100 will be explained with reference to
As shown in
The paper discharge section 20 is disposed above the image printing section 10 and is provided with two paper discharge trays including a first paper discharge tray 92 and a second paper discharge tray 93.
The image printing section 10 is provided with a process section 50, which includes four process units 50C, 50M, 50Y, 50K forming toner images of cyan (C), magenta (M), yellow (Y), and black (K) respectively and then transferring the toner images onto the paper sheet. Further, the image printing section 10 is provided with a fixing device 8 which fixes the toner images transferred by the process section 50 on the paper sheet by heating the toner which is not yet fixed while applying pressure on said toner.
The process section 50 forms a color image by overlapping, on the paper sheet, each of the toner images formed by one of the process units 50C, 50M, 50Y, 50K. On the other hand, when a monochrome (black and white) image is formed, the toner image is formed by the process unit 50K only and the printing is performed.
The image printing section 10 takes the paper sheets placed on the paper feed tray 91 one-by-one by a paper feed roller 71, transports the paper sheet to the process section 50, and transfers the toner image formed by the process section 50 onto the paper sheet. The paper sheet on which the toner image is transferred is transported to the fixing device 8 and the toner image is thermally fixed on the paper sheet. Then, the paper sheet on which the toner image is fixed is discharged on the first paper discharge tray 92 or the second paper discharge tray 93.
A transport route 120, which is a substantially S-shaped in cross-section, is provided in the image printing section 10. Various rollers used for transporting the paper sheet (the paper feed roller 71, a resist roller 75, a plurality of pairs of paper discharge rollers 76, 77) and an unillustrated motor for driving these rollers are provided in the transport route 120.
The transport route 120 has a main transport route 21, a first subsidiary transport route 22, and a second subsidiary transport route 23. The main transport route 21 extends from the paper feed tray 91 to the resist roller 75 (depicted by the alternate long and short dash lines in
As described above, the paper sheet taken from the paper feed tray 91 is guided to the first discharge tray 92 via the main transport route 21 and the first subsidiary transport route 22. Or, the paper sheet taken from the paper feed tray 91 is guided to the second paper discharge tray 93 via the main transport route 21 and the second subsidiary transport route 23.
A first paper discharge sensor 60A, which detects whether the first paper discharge tray 92 is full, is provided in the vicinity of a paper discharge port of the first paper discharge tray 92 of the first subsidiary transport route 22. A second paper discharge sensor 60B, which detects whether the second paper discharge tray 93 is full, is provided in the vicinity of a paper discharge port of the second paper discharge tray 93 of the second subsidiary transport route 23. In the present description, an error reporting the following state is referred to as a FULL-ERROR. That is, an amount of the discharged paper sheets has reached a maximum stackable capacity, which is a maximum capacity in which the discharged paper sheets can be stacked on the paper discharge tray, and thus it is not possible to further perform the paper discharge onto said paper discharge tray.
Next, a construction of the first paper discharge sensor 60A will be explained with reference to
As shown in
When the paper sheets each transported from the paper feed tray 91 are stacked on the first paper discharge tray 92 to a certain height, the end surface 39c of the paper detector 39 becomes in a state of being lifted upwardly, thereby blocking the optical axis of the first paper discharge sensor 60A by the arm section 39b of the paper detector 39 as shown in
The second paper discharge sensor 60B provided in the vicinity of the paper discharge port of the second paper discharge tray 93 has the same structure of that of the first paper discharge sensor 60A, and thus the description thereof is omitted.
<Electrical Construction of Printing Apparatus>
Subsequently, an electrical construction of the printing apparatus 100 will be described. As shown in
In the ROM 32, various control programs, various settings for controlling the printing apparatus 100, and an initial value, etc., are stored.
The RAM 33 is used as an operation area for performing an operation for reading out the variety of kinds of control programs, for temporarily storing a print data, for performing an operation for analyzing a print data written in PDL (page description language) and expanding the print data into a bit map image, etc.
The CPU 31 controls the respective constitutive parts or components of the printing apparatus 100 in accordance with the control programs read out from the ROM 32 and/or signals transmitted from the various sensors, while storing the result of processing in the RAM 33 or NVRAM 34.
The network interface 36 is connected to a communication line such as a LAN and enables connection with respect to an external apparatus such as a computer into which a driver for the printing apparatus 100 is installed. The printing apparatus 100 is capable of performing exchange of print data via the network interface 36.
<Printing Operation>
Subsequently, a printing operation of the printing apparatus 100 will be explained by focusing attention on a paper discharge process for discharging the paper sheet subjected to printing. The printing apparatus 100 has a function in which the paper discharge tray (hereinafter referred to as a discharge target tray which is a tray to be subjected to the paper discharge) is automatically switched between the first paper discharge tray 92 and the second paper discharge tray 93 in accordance with a priority order of the paper discharge. In this automatic switching function, even when the FULL-ERROR occurs in the discharge target tray, when the FULL-ERROR does not occur in the other paper discharge tray, the discharge target tray is automatically switched to said other paper discharge tray to continue the printing. However, when the FULL-ERRORs occur in both of the paper discharge trays, the printing is discontinued. When the FULL-ERRORs of both of the paper discharge trays are cleared by the user, the paper discharge tray in which the FULL-ERROR is cleared first is made to be a first priority tray to be subjected to the paper discharge, and the printing is resumed.
<Print Control Process>
Hereinbelow, a procedure of a print control process of the printing apparatus 100, which realizes the printing operation described above, will be explained with reference to a flowchart of
At first, the printing apparatus 100 becomes a stand-by state when the power is switched on. Subsequently, the CPU 31 judges whether or not a printing job is received via the network interface 36 (S101). When the CPU 31 judges that the printing job is not received (S101: NO), the CPU 31 waits until the printing job is received. When the CPU 31 judges that the printing job is received (S101: YES), the printing job is once stored in the RAM 33.
Next, the CPU 31 judges, based on the priority order of the paper discharge stored in RAM 33, whether or not the FULL-ERROR occurs in the first priority paper discharge tray (S102). Here, whether or not the FULL-ERROR occurs in the paper discharge tray is judged based on output signals of the first and second paper discharge sensors 60A, 60B provided in the respective paper discharge trays.
When the CPU 31 judges that the FULL-ERROR occurs in the first priority paper discharge tray (S102: YES), the process proceeds to a process to judge as to whether or not the FULL-ERROR occurs in a second priority paper discharge tray (S108). On the other hand, when the CPU 31 judges that the FULL-ERROR does not occur in the first priority paper discharge tray (S102: NO), this first priority paper discharge tray is made to be the discharge target tray (S103). An image is printed on one paper sheet based on the printing job received in S101 (S104), and then the one paper sheet is discharge on said discharge target tray (S105).
Then, the CPU 31 judges whether or not the print process of the printing job is completed (S106). When the print process of the printing job is completed (S106: YES), the process is returned to S101 and the CPU 31 waits until a new printing job is received.
On the other hand, when the print process of the printing job is not completed (S106: NO), the CPU 31 judges whether or not the FULL-ERROR is caused in the discharge target tray by the paper discharge in S105 (S107). When the FULL-ERROR does not occur in the discharge target tray (S107: NO), the print process of the printing job is completed by the CPU 31 or the process ranging from the S104 to S107 is performed repeatedly by the CPU 31 until the FULL-ERROR occurs in the discharge target tray. When the FULL-ERROR occurs in the discharge target tray (S107: YES), the process is returned to S102.
Further, the CPU 31 judges, based on the priority order of the paper discharge stored in the RAM 33, whether or not the FULL-ERROR occurs in the second priority paper discharge tray (S108). When the CPU 31 judges that the FULL-ERROR does not occur in the second priority paper discharge tray (S108: NO), the second priority paper discharge tray is made to be the discharge target tray (S109), and the process is shifted to S104.
On the other hand, when the CPU 31 judges that the FULL-ERROR occurs in the second priority paper discharge tray, that is, the FULL-ERRORs occur in both of the first priority paper discharge tray and the second priority paper discharge tray (S108: YES), the print process is discontinued and the CPU 31 waits until the FULL-ERRORs of both of the paper discharge trays are cleared (S110). In this situation, the CPU 31 may report, to the user, that the printing is discontinued due to the FULL-ERRORs of both of the paper discharge trays.
In that case, the CPU 31 judges whether or not the FULL-ERROR is cleared in any one of the two paper discharge trays (S111). The print process is discontinued until the FULL-ERROR is cleared in any one of the two paper discharge trays (S111: NO).
Further, when the CPU 31 judges that the FULL-ERROR is cleared in any one of the two paper discharge trays (S111: YES), said paper discharge tray in which the FULL-ERROR is cleared is made to be the first priority paper discharge tray (S112). Here, the priority order of the paper discharge stored in the RAM 33 may be updated.
Next, the CPU 31 judges whether or not the FULL-ERROR of the other paper discharge tray is cleared (S113). The print process is discontinued until the FULL-ERROR of the other paper discharge tray is cleared (S113: NO).
When the CPU 31 judges that the FULL-ERROR of the other paper discharge tray is cleared, that is, the paper discharge can be performed on both of the paper discharge trays (S113: YES), the other paper discharge tray is made to be the second priority paper discharge tray (S114). Here, the priority order of the paper discharge stored in the RAM 33 is updated. Then, the process is returned to S103, and the print process is resumed.
Accordingly, the priority order of the paper discharge, which is stored in the RAM 33 during a period of time after the print process is discontinued and before the print process is resumed, corresponds to a descending order of the tray starting from the tray in which the FULL-ERROR is cleared first.
Hereinbelow, an exemplary embodiment of the print control process in
At first, it is assumed that the CPU 31 judged the paper discharge can be performed on both of the paper discharge trays in an initial state which is immediately after the printing apparatus 100 is turned on (S102: NO). In this situation, as shown in
Next, as shown in
Further, as shown in
On the other hand, when the CPU 31 judges that the FULL-ERRORs occur in both of the first paper discharge tray 92 and the second paper discharge tray 93 (S102: YES, S108: YES), the print process is discontinued (S110) and the CPU 31 waits until the FULL-ERRORs of both of the paper discharge trays are cleared, as shown in
In this situation, even when the FULL-ERROR of the second paper discharge tray 93 is cleared by the user (S111: YES), the CPU 31 does not resume the print process and the second paper discharge tray 93 is made to be the first priority paper discharge tray (S112), as shown in
Then, as shown in
The first priority paper discharge tray is made to be the discharge target tray by the CPU 31 (S103) in accordance with the latest priority order stored in the RAM 33 (S102: NO). That is, in
When the FULL-ERROR recurs in the second paper discharge tray 93 (S107: YES), as shown in
According to the print control process described above, when the print process is discontinued due to the FULL-ERRORs occurred in both of the paper discharge trays, and when the FULL-ERRORs of both of the paper discharge trays are cleared, the CPU 31 resumes the print process. Further, the priority order of the paper discharge with respect to both of the paper discharge trays is determined based on the descending order starting from the tray in which the FULL-ERROR is cleared first, and the paper discharge is resumed based on said priority order of the paper discharge.
According to this embodiment, the print process is resumed so that the paper discharge tray, which is at least other than the paper discharge tray in which the FULL-ERROR is cleared last, is made to be the first priority. Here, it can be assumed that the user is not currently working for clearing the FULL-ERROR in the paper discharge tray other than the paper discharge tray in which the FULL-ERROR is cleared last. By resuming the print process so that the paper discharge tray other than the paper discharge tray in which the FULL-ERROR is cleared last is made to be the first priority, it is possible to continue the print process without causing, to the user's work, any unfavorable influence due to the resumption of the print process.
Further, it is assumed that the user is much less likely to be working for clearing the FULL-ERROR in the paper discharge tray in which the FULL-ERROR is cleared first. According to this embodiment, the print process is resumed by using the paper discharge tray in which the FULL-ERROR is cleared first. Thus it is possible to reduce possibility that the resumption of the print process has any unfavorable influence on the user's work.
Further, after the resumption of the print process, when the FULL-ERROR recurs in the paper discharge tray, and when the print process is continued by switching the discharge target tray from the paper discharge tray in which the FULL-ERROR is cleared first to the paper discharge tray in which the priority order of the paper discharge is low, any unfavorable influence is more likely to be brought about on the user's work. According to this embodiment, after the resumption of the print process, the discharge target tray is switched based on the priority order of the paper discharge to discharge the paper sheet subjected to printing. By doing so, it is possible to delay the paper discharge on the paper discharge tray in which the user is more likely to be working for clearing the FULL-ERROR. Accordingly, since the discharge target tray is switched to continue the print process, it is possible to reduce the possibility that any unfavorable influence is brought about on the user's work.
It is noted that this embodiment is provided merely as an example, and the present teaching is not limited thereto. Therefore, it is needless to say that various modifications which fall within the basic teaching herein set forth may be made to the present teaching.
In the above embodiment, the present teaching is applicable, without being limited to the printing apparatus, to those which include a plurality of paper discharge trays, such as copy machines, multifunction machines, etc. Further, the image forming type of the process section 50 may be an ink jet type without being limited to the electro-photographic type.
Further, in the above embodiment, the paper discharge section 20 includes the two paper discharge trays. However, the paper discharge tray 20 may include three or more paper discharge trays. In such a construction, when the FULL-ERRORs occur in all of the three or more paper discharge trays, the print process is discontinued by the CPU 31. After the FULL-ERRORs of at least two or more paper discharge trays are cleared, the print process is resumed.
In this case, similar to the above embodiment, it is allowable that the paper discharge tray in which the FULL-ERROR is cleared first is made to be the first priority paper discharge tray and that the paper discharge tray in which the FULL-ERROR is cleared second is made to be the second priority paper discharge tray. That is, the priority order of the paper discharge may be determined in accordance with the descending order of the paper discharge tray starting from the tray in which the FULL-ERROR is cleared first.
However, the present teaching is not limited to this manner. The priority order of the paper discharge may be determined in accordance with any manner, provided that the print process is resumed so that the paper discharge tray, which is at least other than the paper discharge tray in which the FULL-ERROR is cleared last, is made to be the first priority paper discharge tray. For example, the print process may be resumed so that the paper discharge tray in which the FULL-ERROR is cleared first is made to be the first priority paper discharge tray. In this case, the priority order of the paper discharge with respect to each paper discharge tray, which follows the paper discharge tray in which the FULL-ERROR is cleared first, may be arbitrarily determined.
Further, when the FULL-ERRORs occur in all of the three or more paper discharge trays, the CPU 31 is also capable of executing the following process. That is, the print process is not resumed unless the FULL-ERRORs of all of the paper discharge trays are cleared.
Further, in the above embodiment, the print process is discontinued when the FULL-ERROR is detected. However, another configuration is also available, in which a JAM-ERROR is detected in addition to the detection of the FULL-ERROR. The paper detector 39 in the above embodiment can be utilized as a jam sensor. For example, when the paper jam occurs at the pair of paper discharge rollers 76 while the paper sheet is passing through the pair of paper discharge rollers 76, the front-end of the paper sheet reaches the paper detector 39 in a state of being intervened between the pair of paper discharge rollers 76 in some cases. In such a case, the end portion 39a of the paper detector 39 makes contact with the paper sheet to pivotably move the arm portion 39b thereby blocking the optical axis of the first paper discharge sensor 60A. When the arm portion 39b continues to block the optical axis of the first paper discharge sensor 60A over a predetermined time, it is judged that discharge failure of the paper sheet (FULL-ERROR or JAM ERROR) occurs in the first paper discharge tray 92. Further, it is allowable that a plurality of jam sensors (for example, optical sensors) for detecting the paper jam are provided in the first subsidiary transport route 22 and the second subsidiary transport route 23, respectively. The jam sensor outputs a detection signal to the CPU 31, when occurrence of the paper jam is detected while the paper sheet subjected to printing is transported in the first subsidiary transport route 22 or the second subsidiary transport route 23. Accordingly, the CPU 31 is capable of judging on which paper discharge tray the paper jam occurs, based on the detection signal. When the above JAM-ERROR occurs, it is also possible to judge whether the discharge failure of the paper sheet occurred in the first paper discharge tray 92 is caused by the FULL-ERROR or the JAM-ERROR by combining the paper detector 39 and the jam sensor disposed at the first subsidiary transport route 22.
According to this construction, it is possible to continue the print process without causing any unfavorable influence on a user's work by resuming the print process so that the paper discharge tray, in which the user is not working for clearing the paper jam just before the print process is resumed, is made to be the first priority paper discharge tray. In a printing apparatus which is capable of detecting both the FULL-ERROR and the JAM-ERROR, when at least any one of the errors occurs in the paper discharge tray and when it is judged that the error occurs in said paper discharge tray, the print control process of the above embodiment may be executed.
Further, in the above embodiment, the transport route having the substantially S-shaped is provided in the printing apparatus 100. In addition to this, as shown in
Number | Date | Country | Kind |
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2011-069586 | Mar 2011 | JP | national |
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4501419 | Takahashi et al. | Feb 1985 | A |
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8235387 | Tanaka | Aug 2012 | B2 |
20110175284 | Tanaka | Jul 2011 | A1 |
Number | Date | Country |
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H07-010344 | Jan 1995 | JP |
H10-087154 | Apr 1998 | JP |
H10-273261 | Oct 1998 | JP |
2001-042749 | Feb 2001 | JP |
Entry |
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Japan Patent Office, Notice of Reasons for Rejection of Japanese Patent Application No. 2011-069586 (counterpart to above-captioned patent application), mailed Apr. 2, 2013. |
Number | Date | Country | |
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20120248694 A1 | Oct 2012 | US |