JP2009241293A - Printing apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a printing apparatus in which a page rearranging operation after printing is unnecessary without changing the page order of the printing even in a case when a face down paper discharging opening and a face up and down paper discharging opening are switched in the middle of the printing. <P>SOLUTION: The printing apparatus is equipped with a face up paper discharging opening, a face up paper discharging stand, the face down paper discharging opening, and a face down paper discharging stand. It is also equipped with a circulating reversing route, a paper discharging amount detecting means for detecting that the papers carried on a paper discharging stand reaches a predetermined amount, and a printing controlling means for controlling printing processing based on the printing data containing designation of the paper discharging opening. When it is detected that the papers carried on the paper discharging stand corresponding to the designated paper discharging opening reaches the predetermined amount after the printing performing paper discharging to the designated paper discharging opening is started, the printing controlling means conveys the printing papers after printing on the circulating reversing route and then, discharges them from another paper discharging opening different from the designated paper discharging opening. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a printing apparatus having a face-up discharge port and a face-down discharge port.

  In general, a printing apparatus performs printing on a printing sheet fed from a sheet feeding mechanism and discharges the sheet from a sheet discharge port. The paper discharge port includes a face-up paper discharge port through which the printing surface of the printing paper is discharged upward and a face-down paper discharge port through which the printing surface of the printing paper is discharged downward. Some printing apparatuses have both a face-up paper discharge port and a face-down paper discharge port. In such a printing device, paper can be discharged from an arbitrary paper discharge port.

  When printing a plurality of pages, printed sheets are stacked one after another on the paper discharge tray at the face-up paper discharge port with the printing surface facing upward. For this reason, in order to obtain a printing result in the page order, it is necessary to print in the reverse order of the pages. On the other hand, at the face-down paper discharge port, printed sheets are stacked one after another on the paper discharge table with the printing surface facing downward. For this reason, in order to obtain the print result in the page order, it is necessary to print in the page order. In this way, it is necessary to change the printing order of pages according to the paper discharge port, and the host computer connected to the printing apparatus transmits print data to the printing device in the page order according to the paper discharge port.

  By the way, because of the structure of both the discharge tray for the face-up discharge slot and the discharge tray for the face-down discharge slot, the maximum loading capacity of printing paper is determined. There is a risk of malfunction. In order to prevent this problem, a technique is known in which when the maximum stacking capacity of one paper discharge tray is exceeded during printing, the paper discharge port is switched to stack printed sheets on the other paper discharge tray.

However, when the paper discharge port is switched, the upper and lower surfaces of the printing paper are reversed from those before the switching. Therefore, there is a problem that the user has to rearrange the printed pages after the switching in the reverse order after the printing is completed. In order to solve this problem, Japanese Patent Application Laid-Open No. 2004-228688 discloses that when the maximum stacking capacity of one paper discharge tray is exceeded, the paper discharge port is switched to the other and the page printing order is reversed to reverse the page arrangement after printing. It describes a technique that eliminates the need for replacement work.
Japanese Patent Laid-Open No. 11-157746

  In the technique described in Patent Document 1, when switching the paper discharge port, printing is performed in the reverse order of the page order sent from the host computer, so print data must be stocked. Storage capacity must be prepared.

  For example, when print data is sent in the order of “1” “2” “3”... “7” “8” and printing is performed in this order, it is sufficient if at least one page of print data can be stocked. On the other hand, if the maximum stacking capacity of the delivery tray is exceeded after delivery of “4”, the delivery outlet is switched and the order of “8”, “7”, “6” and “5”, that is, sending In order to perform printing in the reverse order of the page order of the print data, the print data for pages “5” to “8” must be stocked on the printing apparatus side. If the storage capacity for the stock cannot be secured, print data in which the page order is reversed for an unprinted page must be retransmitted from the host computer. For this reason, it is desirable not to change the page order of printing even when the paper discharge port is switched.

  The present invention has been made in view of such a situation. Even when the face-down discharge port and the face-up / down discharge port are switched during printing, the page order of printing is not changed. An object of the present invention is to provide a printing apparatus that does not require page rearrangement after printing.

  In order to solve the above-described problems, a printing apparatus according to the present invention includes a face-up discharge port that discharges paper with a printing surface facing upward, and a face-up discharge table that stacks sheets discharged from the face-up discharge port. A face-down discharge port that discharges paper with the print side down, and a face-down discharge tray that stacks sheets discharged from the face-down discharge port. A reversing path for reversing the front and back of the paper, a face-up discharge amount detecting means for detecting that the paper loaded on the face-up discharge tray has reached a predetermined amount, and a stack mounted on the face-down discharge tray. A face-down discharge amount detection unit for detecting that the sheet has reached a predetermined amount, and a print control unit for controlling a print process based on print data including designation of a discharge port. When the stage detects that the paper stacked on the paper discharge tray corresponding to the designated paper discharge outlet has reached a predetermined amount after starting printing for paper discharge to the designated paper discharge outlet. The printing paper after printing is transported through the circulation reversal path, and is then ejected from a paper ejection port different from the designated paper ejection port.

  In other words, when the paper is discharged from the switched paper discharge port, the front and back sides of the printing paper are reversed by the circulation reversal path, so that even when the paper is discharged from the face-up paper discharge port, the paper is discharged in a face-down state. . Even when the paper is discharged from the face-down paper discharge port, the paper is discharged in a face-up state. That is, the paper is discharged in the same state as the paper discharged from the paper discharge port before switching. At this time, there is no need to change the printing order of the pages.

  The printing control unit further includes a display unit, and the print control unit is configured to discharge the paper corresponding to the designated paper discharge port after the completion of printing discharged from the specified paper discharge port. It is preferable to display on the display means a guide for processing for stacking the paper stacked on the paper and the paper stacked on a paper discharge tray different from the paper discharge tray corresponding to the designated paper discharge outlet.

  Specifically, when the designated paper discharge port is a face-up paper discharge port, the guide prints the face-down paper discharge tray with the print side up and the printed material on the face-up paper discharge tray. If the specified paper discharge port is a face-down paper discharge port, the printed material on the face-up paper discharge tray is overlaid on the printed material on the face-down paper discharge table with the print side down. The content of the effect.

  By doing so, the user can easily obtain the print results arranged in the page order by superimposing a bundle of two printed products stacked on the respective paper discharge trays according to the guide displayed on the display means. be able to.

  Embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a diagram illustrating an outline of a printing apparatus 10 including a circulation conveyance path with a sheet reversing mechanism according to the present invention. In this figure, the printing paper conveyance path is particularly shown in detail. As shown in the figure, the printing apparatus 10 is a sheet feeding mechanism that supplies printing paper, and includes a side sheet feeding table 320 exposed outside the side of the casing and a plurality of sheet feeding trays (inside the casing). 330a, 330b, 330c, 330d). Further, a face-down paper discharge port 340 and a face-up paper discharge port 360 are provided as a paper discharge mechanism for discharging printed printing paper. The paper discharged from the face-down paper outlet 340 is stacked on the face-down paper outlet 350, and the paper discharged from the face-up paper outlet 360 is stacked on the face-up paper outlet 362.

  The printing apparatus 10 includes a plurality of head units 310 including a print head that extends in a direction orthogonal to the paper conveyance direction and includes a plurality of nozzles as a print mechanism, and discharges black or color ink from each print head. This is an inkjet line color printer that performs printing in line units. However, a serial color printer that performs image formation by scanning in the line direction may be used. Moreover, you may employ | adopt another printing system, for example, a laser system etc.

  Print sheets fed one by one from one of the side paper feed tray 320 and the paper feed tray 330 are fed by a drive mechanism such as a roller in a paper feed system conveyance path (indicated by a thick black line in the figure). And is guided to the resist portion Rg. Here, the registration portion Rg is provided for performing alignment and skew correction of the leading edge of the printing paper, and includes a pair of registration rollers. The fed printing paper is temporarily stopped at the registration unit Rg and conveyed toward the printing mechanism at a predetermined timing.

  A plurality of head units 310 are provided further on the conveyance direction side of the resist unit Rg. The printing paper is conveyed in units of lines by ink ejected from the printing heads provided in each head unit 310 while being conveyed at a speed determined by printing conditions by an annular conveying belt 352 provided on the opposite surface of the head unit 310. An image is formed.

  When the printing paper having the upper surface printed thereon is discharged from the face-up discharge port 360, it is conveyed in the direction of the face-up discharge port 360 by the switching mechanism 372, and is discharged as it is with the print surface facing up. Then, the paper is stacked on the face-up discharge tray 362. When the paper is discharged from the face-down paper discharge port 340, the paper is further conveyed through the housing by a switching mechanism 372 and a driving mechanism such as a roller. Then, the switching mechanism 370 guides and discharges the paper to the face-down paper discharge port 340, and is stacked on the face-down paper discharge tray 350 provided as a receiving base for the face-down paper discharge port 340 with the printing surface facing down. .

  The face-down discharge tray 350 and the face-up discharge tray 362 have a tray shape protruding from the casing and have a certain thickness. The face-down discharge tray 350 and the face-up discharge tray 362 are inclined, and are discharged from the face-down discharge outlet 340 and the face-up discharge outlet 360 by the wall formed at the lower position of the inclination. The printing paper that slides down is arranged naturally and overlaps.

  Both the face-down paper discharge tray 350 and the face-up paper discharge tray 362 have a maximum print paper stack amount, and a face down paper discharge tray paper stack amount that detects that the print paper stack amount has reached the maximum stack amount. A sensor 381 and a face-up sheet tray paper loading amount sensor 382 are provided.

  In the case of double-sided printing in which printing is performed on both sides of the printing paper, the face-down discharge tray 350 and the front side (the first printed side is “front side” and the next printed side is “back side”) Without being guided to the face-up discharge tray 362, the switching mechanism 370 further conveys the inside of the housing. Then, it is drawn into the switchback route SR and performs switchback, and the front and back are reversed with respect to the conveyance route. After reversing the front and back, it is guided again to the registration portion Rg by a driving mechanism such as a roller and temporarily stops. Thereafter, the sheet is conveyed in the direction of the printing mechanism at a predetermined timing, and the back side is printed by the same procedure as that for the front side. The printing paper on which the back side is printed and images are formed on both sides is guided to the face-down paper outlet 340 or the face-up paper outlet 360 according to the specification of the paper outlet included in the printing conditions, and is discharged. Then, the sheets are stacked on the face-down discharge tray 350 or the face-up discharge tray 362.

  In the printing apparatus 10, switchback at the time of double-sided printing is performed using a space provided in the face-down paper discharge tray 350. The space provided in the face-down paper discharge tray 350 is covered so that the printing paper cannot be taken out from the outside during switchback. As a result, it is possible to prevent the user from accidentally pulling out the printing paper during the switchback operation. In addition, the face-down paper discharge tray 350 is originally provided in the printing apparatus 10, and the space inside the face-down paper discharge tray 350 is used to perform switchback, so that the printing apparatus 10 can be separately provided. It is not necessary to provide a switchback space. Therefore, an increase in the size of the housing can be prevented. Furthermore, since the face-down paper discharge port 340 and the switchback path are not shared, the switchback process and the paper discharge of other sheets can be performed in parallel.

  FIG. 2 is a block diagram illustrating a functional configuration of the printing apparatus 10. The printing apparatus 10 includes a main control unit 100 including a CPU, a memory, and the like, and a print control unit 101 and a drive control unit 102 are configured by the CPU operating according to a program stored in the memory. . A part of the memory functions as the print data storage unit 103.

  In addition, the printing apparatus 10 includes an operation receiving unit 110 that receives setting of printing conditions and the like via an operation panel, a display unit 120 that displays information about the printing apparatus, and a communication processing unit 130 for connecting to a computer network and the like. I have.

  The print control unit 101 generates image data in accordance with print data received from a host computer (not shown) via the communication processing unit 130, and controls print processing in the print execution unit 140 including a print mechanism such as a print head. To do. The drive control unit 102 operates the conveyance drive unit 150 under the control of the print control unit 101. The conveyance driving unit 150 includes a driving roller, a conveyance belt 352, a switching mechanism 370, a switching mechanism 372, and the like, and conveys printing paper.

  Next, the paper discharge control process in the present embodiment will be described with reference to the flowchart of FIG. This process is started by receiving print data from the host computer (S101). The print data sent from the host computer includes information for designating a paper discharge port as a print condition. When the face-up discharge port 360 is designated as the paper discharge port, the print data is sent in the reverse order of the pages. When the face-down paper discharge port 340 is designated as the paper discharge port, the print data is printed in the order of the pages. Data is being sent. The designation of the discharge port and the management of the page order of the print data are performed by a printer driver corresponding to the printing apparatus 10 installed in the host computer, as in the past.

  When the print data is received, the print control unit 101 temporarily stores the print data for each page in the print data storage unit 103, and determines the discharge port information based on the discharge port designation information included in the print data. Setting is performed (S102). That is, when the face-down paper discharge port 340 is designated, the printed mechanism is conveyed to the face-down paper discharge port 340 by the switching mechanisms 372 and 370, and the face-up paper discharge port 360 is designated. If the print paper is printed, the switching mechanism 372 transports the printed print paper to the face-up paper discharge port 360.

  Then, printing is performed page by page in the order of the print data (S103). The printed printing paper is discharged from the set paper discharge port, that is, either the face-up paper discharge port 360 or the face-down paper discharge port 340 (S104). When the paper is ejected from the paper ejection slot, it is determined whether the printed paper stacked on the paper ejection tray has exceeded the maximum stacking capacity of the paper ejection platform (S105). Whether or not the printed sheet exceeds the maximum stacking capacity of the paper discharge tray is set in the face-down paper discharge tray paper stack sensor 381 or the face-up paper discharge tray 162 arranged in the face-down paper discharge tray 350. Further, the determination can be made based on the detection result of the sheet-up amount sensor 382 of the face-up discharge tray. However, without providing the face-down discharge tray paper stacking amount sensor 381 and the face-up discharge tray paper stacking amount sensor 382, the maximum number of discharge trays can be determined by counting the number of print sheets discharged to the discharge tray. You may make it determine whether the load amount was exceeded. In addition, the maximum load capacity does not have to be the physical maximum load capacity, and may be a standard value handled as the maximum load capacity for convenience.

  As a result, when the maximum load amount is not exceeded (S105: No), the above-described printing process (S103), paper discharge process (S104), and maximum load amount determination process (S105) are performed until the printing of all pages is completed. Repeatedly (S106: No), when the printing of all pages is completed (S106: Yes), this process is terminated.

  On the other hand, when the printed sheets stacked on one of the paper discharge trays exceed the maximum stacking capacity of the paper discharge tray (S105: Yes), the paper discharge port is switched (S107). That is, when the face-down paper discharge port 340 is designated, the paper discharge port is switched to the face-up paper discharge port 360. In addition, when the face-up paper discharge port 360 is designated, the paper discharge port is switched to the face-down paper discharge port 340.

  Subsequently, printing is performed page by page according to the order of the print data (S108). The printed printing paper is not discharged immediately from the switched discharge outlet, but is conveyed through the circulation conveyance path in the same manner as in double-sided printing, and is reversed by switching back through the switchback path SR. It is conveyed again to the resist section Rg. In other words, if the paper is ejected as it is from the switched paper ejection slot, the page order will be stacked in the reverse order. Therefore, by switching back, the top and bottom surfaces are reversed and ejected. The page order can be continued.

  Thereafter, the back side printing is not performed, and the paper is discharged from the switched paper discharge port (S110). When the paper is discharged from the switched paper discharge port, the front and back sides of the printing paper are reversed by the switchback, so that even when the paper is discharged from the face-up paper discharge port 360, it is discharged face-down. Even when the paper is discharged from the face-down paper discharge port 340, the paper is discharged in a face-up state. That is, the paper is discharged in the same state as the paper discharged from the paper discharge port before switching. At this time, there is no need to change the printing order of the pages.

  The drive control unit 102 dynamically controls the operations of the switching mechanisms 370 and 372 of the transport driving unit 150 so that such transport can be performed. The above printing process (S108), circulation / paper reversal process (S109), and paper discharge process (S110) are repeated until the printing of all pages is completed (S111).

  In this case, after the printing of all pages is finished, the printed matter is divided and placed on two discharge trays. For this reason, in order to obtain a printing result arranged in the page order, a bundle of two printed materials must be appropriately overlapped. Therefore, a guide display about the handling of the printed material is displayed on the display unit 120 (S112), and this process is terminated. The user can obtain a print result arranged in the page order by superimposing a bundle of two printed materials according to the guide displayed on the display unit 120.

  Next, the above process will be described in more detail using a specific example. First, the case where the face-up discharge port 360 is designated as a discharge port will be described with reference to FIGS. 4, 5, and 6. Here, for the sake of clarity, an 8-page printed material is taken as an example, and the maximum stacking capacity of the face-up discharge tray 362 is assumed to be four sheets.

  When the face-up discharge port 360 is designated as the discharge port, the printing order is the reverse order of the pages as shown in FIG. That is, print data is sent from the host computer in the order of “8”, “7”... “2”, “1”. “N” indicates the Nth page. When printing is performed in such a page order and discharged from the face-up discharge port 360, as shown in FIG. It is possible to obtain printed materials that overlap in the order of “7” and “8”.

  At this time, the conveyance path of the printing paper is as shown in FIG. That is, the printing paper printed by the head unit 310 is guided to the face-up paper discharge port 360 as it is with the printing surface up, and is discharged. At this time, the switching mechanism 372 may function so as to always guide the print sheet to the face-up discharge port 360 side.

  When printing is started and the maximum stacking capacity of the face-up discharge tray 362 is reached after printing the fifth page, the discharge port is switched to the face-down discharge port 340. However, the printing paper is not discharged immediately, but is conveyed through the circulation conveyance path, reversed by switchback, and discharged from the face-down paper discharge port 340. For this reason, the printing paper from the fourth page to the first page is conveyed along a route as shown in FIG. At this time, the switching mechanism 372 always functions to guide the printing paper to the circulation conveyance path side in the housing, and the switching mechanism 370 guides the printing paper before the switchback to the switchback path SR side, and after the switchback The printing paper is caused to function so as to be guided to the face-down paper discharge port 340 side.

  As a result, as shown in FIG. 4C, from the fifth page to the eighth page, “5”, “6”, “7”, “8” are printed on the face-up discharge tray 362 from the top with the printing surface facing up. Are stacked in page order. The first to fourth pages are stacked on the face-down paper discharge tray 350 in the order of pages “1”, “2”, “3”, and “4” from the top with the print side up.

  Therefore, in order to obtain a print result that is stacked in the page order of “1” “2”... “7” “8” from the top with the print surface as shown in FIG. The printed material on the paper discharge tray 350 may be superimposed on the printed material on the face-up paper discharge tray 362 with the printing surface facing up. For this reason, in this embodiment, as shown in FIG. 6, a letter and a guide visually indicating that the printed material on the face-down discharge tray is to be superimposed on the printed material on the face-up discharge tray with the printing surface facing up are displayed. The information is displayed on the unit 120.

  Next, a case where the face-down paper discharge port 340 is designated as a paper discharge port will be described with reference to FIGS. 7, 8, and 9. Here, in order to make it easy to understand, a printed matter of 8 pages is taken as an example, and the maximum stacking capacity of the face-down discharge tray 350 is 4 sheets.

  When the face-down discharge port 340 is designated as the discharge port, the printing order is the page order as shown in FIG. That is, print data is sent from the host computer in the order of “1” “2”... “7” “8”. When printing is performed in such a page order and discharged from the face-down discharge port 340, as shown in FIG. It is possible to obtain printed materials that overlap in the order of “7” and “8”. In addition, the inverted number in the figure indicates that it is printed on the lower surface.

  At this time, the conveyance path of the printing paper is as shown in FIG. That is, the printing paper printed by the head unit 310 is guided to the face-down paper discharge port 340 and discharged with the printing surface facing down. At this time, the switching mechanism 372 may function so as to always guide the printing paper to the circulation conveyance path side in the housing, and the switching mechanism 370 may function so as to always guide the printing paper to the printing paper face-down discharge port 340 side. .

  When printing is started and the maximum stacking capacity of the face-down paper discharge tray 350 is reached after printing the fourth page, the paper discharge port is switched to the face-up paper discharge port 360. However, the print sheet is not discharged immediately, but is conveyed through the circulation conveyance path, reversed by switchback, and discharged from the face-up discharge port 360. For this reason, the printing sheets from the fifth page to the eighth page are conveyed along a route as shown in FIG. At this time, the switching mechanism 370 always functions to guide the printing paper to the switchback path SR side, and the switching mechanism 372 guides the printing paper before the switchback to the circulation conveyance path side in the housing, and after the switchback The printing paper is caused to function so as to be guided to the face-up paper discharge port 360 side.

  As a result, as shown in FIG. 7C, from the first page to the fourth page, “1”, “2”, “3”, and “4” are printed on the face-down discharge tray 350 from the bottom with the printing surface facing down. Are stacked in page order. Further, pages 5 to 8 are stacked on the face-up discharge tray 362 in the order of pages “5”, “6”, “7”, and “8” from the bottom with the print side down.

  Accordingly, in order to obtain a print result in which the print surface as shown in FIG. 7B is turned down and the print results are stacked in the page order of “1” “2”... “7” “8” from the bottom, face up The printed material on the paper discharge tray 362 may be superimposed on the printed material on the face-down paper discharge tray 350 with the printing surface facing down. For this reason, in this embodiment, as shown in FIG. 9, a letter and a guide visually indicating that the printed material on the face-up discharge tray is superimposed on the printed material on the face-down discharge tray with the print side down are displayed. The information is displayed on the unit 120.

It is a figure which shows the outline | summary of the printing apparatus provided with the circulation conveyance path with a paper inversion mechanism. FIG. 2 is a block diagram illustrating a functional configuration of a printing apparatus. 6 is a flowchart for explaining a paper discharge control process in the printing apparatus. It is a figure which shows the page printing order when a face-up discharge port is designated. FIG. 10 is a diagram illustrating a sheet conveyance path when a face-up sheet discharge port is designated. It is a figure which shows a guide display when a face-up discharge port is designated. It is a figure which shows the page printing order when a face-down paper discharge port is designated. FIG. 6 is a diagram illustrating a sheet conveyance path when a face-down sheet discharge port is designated. It is a figure which shows a guide display when a face-down paper discharge port is designated.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 ... Printing apparatus, 100 ... Main control part, 101 ... Print control part, 102 ... Drive control part, 103 ... Print data storage part, 110 ... Operation reception part, 120 ... Display part, 130 ... Communication processing part, 140 ... Printing Execution unit 150 ... transport driving unit 162 ... face-up discharge tray, 310 ... head unit, 320 ... side paper feed tray, 330 ... paper feed tray, 340 ... face-down discharge port, 350 ... face-down discharge tray , 352 ... Conveying belt, 360 ... Face-up discharge port, 362 ... Face-up discharge tray, 370 ... Switching mechanism, 372 ... Switching mechanism, 381 ... Face-down discharge tray, paper load sensor, 382 ... Face-up discharge Mount paper load sensor

Claims (3)

A face-up discharge port that discharges paper with the print side facing up, a face-up discharge tray on which the sheets discharged from the face-up discharge port are stacked,
A printing apparatus comprising: a face-down discharge port that discharges paper with the printing surface facing down; and a face-down discharge tray on which the sheets discharged from the face-down discharge port are stacked.
Circulation reversal path that reverses the front and back of the printing paper
Face-up discharge amount detection means for detecting that the paper loaded on the face-up paper discharge tray has reached a predetermined amount, and that the paper loaded on the face-down paper discharge tray has reached a predetermined amount A face-down discharge amount detecting means for detecting
A print control means for controlling print processing based on print data including designation of a discharge port,
The print control means detects that a predetermined amount of sheets stacked on a paper discharge tray corresponding to the designated paper discharge port has been reached after starting printing for paper discharge to the designated paper discharge port. Then, after the printed printing paper is conveyed through the circulation inversion path, the printing paper is discharged from the designated paper discharge port and another paper discharge port. The printing apparatus according to claim 1,
A display means,
The print control means comprises: a sheet stacked on a paper discharge tray corresponding to the designated paper discharge port after completion of printing discharged from the designated paper discharge port and another paper discharge port; A printing apparatus, characterized in that a guide for processing for stacking sheets stacked on a paper discharge tray different from a paper discharge tray corresponding to a designated paper discharge port is displayed on the display means. The printing apparatus according to claim 2,
The guide indicates that if the designated paper discharge port is a face-up paper discharge port, the printed material on the face-down paper tray is overlaid on the printed material on the face-up paper tray with the print side up. If the designated paper discharge port is a face-down paper discharge port, the printed material on the face-up paper discharge tray is overlaid on the printed material on the face-down paper discharge surface with the print side down. A printing apparatus characterized by being.