JP2006110792A - Printer - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a printer which can prevent defects due to the fact that a paper discharging performance and a printing speed become unmatched. <P>SOLUTION: In the case where printing papers of different sizes in a paper feeding direction are set in a plurality of paper feeders, if the paper feeder is changed, it is judged whether or not the size of the printing papers set in the changed paper feeder is longer than a predetermined length. A usable proper printing speed is displayed at a display device of an operation panel by the judged result. Discharged paper jamming due to the fact that the paper size is long can be prevented by selecting the printing speed from the range of the displayed printing speed. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a printing apparatus such as a stencil printing apparatus, and more particularly to a printing apparatus in which a plurality of feeding apparatuses can be mounted.

For example, in a stencil printing apparatus, a main body sheet feeding apparatus as a first sheet feeding apparatus and a multistage sheet feeding apparatus (sheet feeding bank) as a second sheet feeding apparatus are simultaneously mounted, and a user can arbitrarily select them on the operation panel. It is like that. The printing speed can be arbitrarily selected and set on the operation panel.
Conventionally, the stencil printing machine has a maximum printing speed of 120 sheets / minute (print setting speed 5 speed (5 stages)). However, in recent years, printing has been performed at a higher printing speed to improve productivity. There is a user's request to do so, and a product with a maximum printing speed of 130 sheets / minute (print setting speed 6 speeds (6 stages)) has been developed.

JP-A-5-318899 JP-A-6-199028 Japanese Patent Laid-Open No. 6-247027 JP-A-8-72380 JP-A-9-11597 JP 2004-167806 A

However, when the printing speed is increased, when the printed paper (recording medium) ejected from the paper ejection unit is stacked on the paper ejection tray, the next printing paper is ejected before the previous printing paper is completely stacked. There was a problem that paper jamming occurred due to the collision.
For example, in a stencil printing apparatus having 6-speed print setting speed (also simply referred to as “printing speed”), when printing is performed using a long printing paper, for example, A3 size (420 mm long) printing paper, a paper discharge jam occurs. Had occurred. In such a case, the user changed the printing speed from the 6th speed, which is the maximum speed, to the 5th speed, which is one step lower, for printing.
That is, the operator can recognize that the paper discharge performance does not match the printing speed due to the paper size only after the jam occurs, and then resets the printing speed.
For this reason, there is a problem that the jam processing is troublesome and wasteful working time (down time) is generated.

Also, regarding paper types, it is known that thick paper and thin paper have different paper discharge performance from plain paper. For example, if thick paper is ejected vigorously when ejected, there is no problem even if the printing speed is high, but if thin paper is stiff and the paper is not ejected vigorously when ejecting, the printing speed is fast. A paper jam occurred.
In addition, even for the same paper type, there is a paper discharge jam depending on the paper size. For example, a large-size paper and a small-size paper have different discharge states even with the same thick paper. When the printing speed is fast, a discharge jam occurs at a large size.

  SUMMARY OF THE INVENTION The main object of the present invention is to provide a printing apparatus that can prevent problems caused by the paper discharge performance and the printing speed not being matched.

  In order to achieve the above object, according to the first aspect of the present invention, in a printing apparatus to which a plurality of feeding devices can be mounted, a feeding device to be used can be selected and changed from among the plurality of feeding devices. Based on feeding device selection / change means, printing speed display means, printing speed selection / change means capable of selecting and changing the printing speed, and size data of the recording medium set in the selected feeding apparatus And a control means for displaying an appropriate printing speed on the printing speed display means.

  According to a second aspect of the present invention, in a printing apparatus capable of mounting a plurality of feeding devices, a feeding device selecting / changing means capable of selecting and changing a feeding device to be used from among the plurality of feeding devices. A printing speed display means; a printing speed selection / change means capable of selecting and changing the printing speed; a recording medium type selecting / changing means capable of selecting and changing the type of the recording medium; and the selected feeding device. Control means for displaying an appropriate printing speed on the printing speed display means based on the type data of the recording medium set in the recording medium.

  According to a third aspect of the present invention, in a printing apparatus capable of mounting a plurality of feeding devices, a feeding device selecting / changing means capable of selecting and changing a feeding device to be used from among the plurality of feeding devices; A printing speed display means; a printing speed selection / change means capable of selecting and changing the printing speed; a recording medium type selecting / changing means capable of selecting and changing the type of the recording medium; and the selected feeding device. Control means for displaying an appropriate printing speed on the printing speed display means based on the size data of the recording medium and the type data of the recording medium set in the recording medium.

  According to a fourth aspect of the present invention, in the printing apparatus according to the first or third aspect, when a large-volume sheet feeding unit is connected to any one of the plurality of feeding apparatuses and the large-volume sheet feeding unit is used. The control means determines the printing speed based on the size data of the recording medium transmitted from the mass feeding unit.

  According to a fifth aspect of the present invention, in the printing apparatus according to the first or third aspect, the feeding device is provided with recording medium size detecting means for detecting the size of the recording medium, and the control means is the recording medium size detecting means. The printing speed is determined based on the detection information from.

  According to a sixth aspect of the present invention, in the printing apparatus according to the first aspect, the feeding device selection / change means, the printing speed display means, and the printing speed selection / change means are integrally provided on an operation panel of the apparatus main body. It is characterized by.

  According to a seventh aspect of the present invention, in the printing apparatus according to the second or third aspect, the feeding device selection / change means, the printing speed display means, the printing speed selection / change means, and the recording medium type selection / change means. Is integrally provided on the operation panel of the apparatus main body.

  According to the first aspect of the present invention, in the printing apparatus in which a plurality of feeding devices can be mounted, the feeding device selection / change capable of selecting and changing the feeding device to be used from among the plurality of feeding devices. A printing speed display means, a printing speed selection / change means capable of selecting and changing the printing speed, and an appropriate printing speed based on the size data of the recording medium set in the selected feeding device. Since the control means for displaying on the printing speed display means is provided, when the feeding device is changed, even if the operator does not care about the size of the recording medium, the condition is met without causing a paper discharge jam. Printing at the maximum speed below is possible.

  According to the second aspect of the present invention, in the printing apparatus in which a plurality of feeding devices can be mounted, the feeding device selection / change capable of selecting and changing the feeding device to be used from among the plurality of feeding devices. Means, a printing speed display means, a printing speed selection / change means capable of selecting and changing the printing speed, a recording medium type selecting / changing means capable of selecting and changing the type of the recording medium, and the selected feed Since it has a control means for displaying an appropriate printing speed on the printing speed display means based on the type data of the recording medium set in the feeding apparatus, when the feeding apparatus is changed, the operator Even without worrying about the type of recording medium, it is possible to print at the maximum speed under these conditions without causing a paper discharge jam.

  According to the third aspect of the present invention, in the printing apparatus in which a plurality of feeding devices can be mounted, the feeding device selection / change capable of selecting and changing the feeding device to be used from among the plurality of feeding devices. Means, a printing speed display means, a printing speed selection / change means capable of selecting and changing the printing speed, a recording medium type selecting / changing means capable of selecting and changing the type of the recording medium, and the selected feed Since it has a control means for displaying an appropriate printing speed on the printing speed display means based on the recording medium size data and the recording medium type data set in the feeding apparatus, the feeding apparatus is When the change is made, the operator can print at the maximum speed under that condition without causing a paper discharge jam without worrying about the size and type of the recording medium.

  According to a fourth aspect of the present invention, in the printing apparatus according to the first or third aspect, a mass feeding unit is connected to any one of the plurality of feeding devices, and the mass feeding unit is used. In this case, since the control means determines the printing speed based on the recording medium size data transmitted from the mass feeding unit, the feeding device is changed even when the mass feeding unit is connected. Then, even if the operator does not care about the size and type of the recording medium, printing can be performed at the maximum speed under that condition without causing a paper discharge jam.

  According to a fifth aspect of the present invention, in the printing apparatus according to the first or third aspect, the feeding device is provided with a recording medium size detecting means for detecting a size of the recording medium, and the control means is configured to detect the recording medium size. Since the printing speed is determined based on the detection information from the detection means, when changing the feeding device, the operator sets the size of the recording medium without worrying about the size and type of the recording medium. It is possible to perform printing at the maximum speed under the condition without requiring time and trouble without causing a paper discharge jam.

  According to a sixth aspect of the present invention, in the printing apparatus according to the first aspect, the feeding device selection / change means, the printing speed display means, and the printing speed selection / change means are integrated with an operation panel of the apparatus main body. Since it is provided, simplification of the configuration can be achieved as compared with the case where it is provided individually.

  According to a seventh aspect of the present invention, in the printing apparatus according to the second or third aspect, the feeding device selection / change means, the printing speed display means, the printing speed selection / change means, and the recording medium type selection / change Since the changing means is provided integrally with the operation panel of the apparatus main body, the configuration can be simplified as compared with the case where the changing means is provided individually.

  According to the invention described in claim 8, since the printing apparatus according to any one of claims 1 to 5 has the configuration of the stencil printing method, the stencil printing has a low mass printing cost. In the apparatus, the effect of any one of claims 1 to 7 can be obtained.

Hereinafter, a first embodiment of the present invention will be described with reference to FIGS.
First, based on FIG. 1, the outline of the structure of the stencil printing apparatus as a printing apparatus in this embodiment is demonstrated. Reference numeral 1 denotes a scanner (original reading apparatus) for reading an original image. A pressure plate 2 that can be opened and closed on the upper surface of the scanner 1 and an automatic original conveying apparatus for automatically and sequentially feeding a plurality of originals. (ADF) 3 is provided. A document size detection sensor 4 for detecting the size of the document is disposed inside the scanner 1.
In the plate making unit 5, the master 6 fed out from the roll state is pressed against the thermal head 8 by the platen roller 7, and conveyed while being perforated and made by rotation of the platen roller 7. The master 6 which has been subjected to plate making is conveyed by a pair of plate feeding rollers 10 toward a master clamper 11 provided on the outer peripheral surface of the printing drum 12, and its leading end is clamped by the master clamper 11 and the printing drum 12 is rotated. And wound around the outer peripheral surface of the printing drum 12. The master 6 is cut at a predetermined length by a cutter 9 composed of an upper blade 9a and a lower blade 9b.

The printing paper 13 as a recording medium is supplied from a main body paper feeding device (hereinafter also referred to as “first paper feeding device”) 14 as a feeding device or multistage feeding as a feeding device disposed at the lower part of the printing device main body. Paper is fed from a paper device (hereinafter also referred to as “second paper feeding device”) 15.
The first sheet feeding device 14 includes a sheet feeding table 16 that can be moved up and down, a sheet feeding roller 17, a pickup roller 18, and the like. The printing paper 13 is separated one by one in order from the uppermost one by a paper feeding roller 17 and a pickup roller 18 and fed to a registration roller pair 19.
The first sheet feeding device 14 has a performance of 6 speeds, the first speed is 60 sheets / minute, the second speed is 75 sheets / minute, the third speed is 90 sheets / minute, the fourth speed is 105 sheets / minute, The 5th speed is 120 sheets / minute, and the 6th speed is 130 sheets / minute. These transport speeds correspond to the printing speed of each stage.
The paper feed stand 16 is provided with a paper sensor 52A for detecting the presence or absence of the print paper 13 and a paper size detection sensor 53A as a recording medium size detection means for detecting the print paper 13 longer than a predetermined length (here, 309 mm). It has been. The paper size detection sensor 53A is disposed at a position 309 mm from the front end of the paper, and when detected by the paper sensor 52, the length is 309 mm or more. Both the paper sensor 52A and the paper size detection sensor 53A are constituted by reflection type photo sensors.

The second sheet feeding device 15 includes sheet feeding cassettes 20 and 21, a sheet feeding roller 22 and a pickup roller 23 disposed in each. The printing paper 13 accommodated in each of the paper feeding cassettes 20 and 21 is separated and fed one by one from the uppermost one by a paper feeding roller 22 and a pick-up roller 23, and a pair of registration rollers is provided via a conveying roller pair 24. It is conveyed toward 13.
The second paper feeding device 15 has the performance of the speed change number 6 similarly to the first paper feeding device 14. Similarly to the paper feed tray 16, the paper feed cassettes 20 and 21 are also provided with a paper sensor 52B, a paper size detection sensor 53B, a paper sensor 52C, and a paper size detection sensor 53C, respectively.

After the printing paper 13 is temporarily stopped by the registration roller pair 19 to correct the oblique shift, it is conveyed to the printing pressure section between the printing drum 12 and the press roller 25 as the pressing means at a predetermined timing.
In the printing pressure section, the printing paper 13 is pressed against the printing drum 12 by the press roller 25. The ink supplied by an ink supply means (not shown) provided inside the printing drum 12 bleeds through the hole of the printing drum 12 and the master 6 punching portion by printing pressure, and is transferred to the printing paper 13 to transfer the image. It is formed.
The printed printing paper 13 is conveyed while its back surface is sucked by a paper discharge conveying device 26 having a suction fan, and is sequentially discharged and stacked on a paper discharge tray 27. The used master 6 is peeled off from the outer peripheral surface of the printing drum 12 by the plate discharge roller pair 29 of the plate discharge section 28 and stored in the plate discharge storage box 30.

As shown in FIG. 2, an operation panel 32 is provided in an apparatus main body (not shown) of the stencil printing apparatus, and information input (set) by the operation panel 32 is output to the control means 33. The control means 33 is a microcomputer having an I / O interface, CPU, ROM, RAM and the like. The control means 33 controls the first paper feed device drive motor 50 and the second paper feed device drive motor 51 via a transmission (not shown) based on the information input from the operation panel 32, and thereby, in each paper feed device. The speed is obtained.
As shown in FIG. 3, the operation panel 32 includes a plate making start key 34, a printing start key 35, a trial printing key 36, a stop key 37, a numeric key 38, a clear key 39, a display device 40 including a 7-segment LED, and an LCD. A display device 41 as a printing speed display means, a paper feed device selection key 42, a printing speed selection key 43, and the like are provided.
Various numerical values are entered in the display device 40, and the display device 41 has a hierarchical structure and displays various information.

When the paper feeding device selection key 42 is pressed, the first paper feeding device 14 and the second paper feeding device 15 are displayed on the display device 41, and one of them can be selected on the screen of the display device 41. Strictly speaking, the second paper feeding device 15 is further divided into a paper feeding cassette 20 and a paper feeding cassette 21 so that one of them can be selected. Assume that it is handled as the paper feeding device 15.
When changing the paper feeding device after the selection, the clear key 39 is pressed and the same procedure is taken. The paper feeding device selection key 42 and the display device 41 constitute a feeding device selection / change means.
When the print speed selection key 43 is pressed, six stages of printing speeds are displayed on the display device 41 (the first speed is 60 sheets / minute, the second speed is 75 sheets / minute, the third speed is 90 sheets / minute, and the fourth speed is 105 sheets / minute. 5th speed is 120 sheets / minute, and 6th speed is 130 sheets / minute), which can be selected on the screen of the display device 41. When the printing speed is to be changed after the selection is made, the same procedure is performed by pressing the clear key 39. The printing speed selection key 43 and the display device 41 constitute printing speed selection / change means.

For example, when the A3 size printing paper 13 is set in the horizontal direction on the first paper feeding device 14 and the A4 size printing paper 13 is set in the vertical direction on the second paper feeding device 15, the operation panel 32 is used. When the second paper feeding device 15 is selected in accordance with the paper size when selecting the paper feeding device after selecting the print setting speed 6th speed at the time of setting the print mode, the second paper feeding device 15 Since the A4 size printing paper 13 is set in the vertical direction, printing can be performed at 6th speed without causing a paper discharge jam.
However, when the first paper feeding device 14 is selected, the A3 size printing paper 13 is set in the first paper feeding device 14 in the horizontal direction. There is a case. In this case, the operator can recognize that printing cannot be performed at the maximum speed (sixth speed) only after a jam occurs, and then the printing setting speed is reset to the fifth speed and printing is performed.
If it can be seen that the paper discharge performance and the printing speed do not match due to the paper size after printing, troublesome jam processing and downtime are inevitable.

The present embodiment aims to prevent such problems, and the control operation will be described based on the flowchart of FIG.
When the power is turned on, the previously set or default printing speed is displayed on the display device 41 (S1), and the paper feeding device is selected in the initial setting (S2).
The control means 33 reads the paper size detection data in the first paper supply device 14 and the second paper supply device 15 based on the output data from the paper size detection sensors 53A, 53B, 53C (S3).
Next, the control means 33 checks whether or not the paper feeding device has been changed (S4), and if it has been changed, further checks whether or not it is the first paper feeding device 14 (S5).

If it is the first paper feeding device 14, the display device 41 of the operation panel 32 displays that the first paper feeding device 14 has been selected (S6). Next, it is determined based on the read data whether the paper size of the selected paper feeding device (first paper feeding device 14) is longer than a predetermined length (here, 309 mm) (S7). Sixth speed is displayed on 32 display devices 41 (S8). The predetermined length of 309 mm for determining whether or not the paper size is a length that causes paper discharge jam is an experimentally obtained value and is merely an example. A value obtained in advance by an experiment or the like is stored in the ROM of the control means 33, and this value is compared with the output data of the paper size detection sensor 53 (the same applies to other embodiments below). .
Here, “6-speed display” means that all stages whose upper limit (maximum speed) is 6-speed are displayed. That is, an appropriate printing speed range that can be used without causing paper discharge jam is displayed.

Based on this display, the operator presses the printing speed selection key 43 to select a desired printing speed from the first to sixth speeds. If the printing speed in S1 is maintained as it is and the printing speed in S1 is in the range of 1 to 6, the above printing speed selection operation is not necessary. In the present embodiment, since the sixth speed is the maximum speed, it is naturally within the range.
Instead of displaying an appropriate printing speed in a range, only an appropriate maximum speed (here, 6th speed) may be displayed. That is, a display method that cannot use a printing speed higher than this may be used (the same applies to other embodiments below).
In S5, if the changed paper feeding device is not the first paper feeding device 14, the display device 41 of the operation panel 32 displays that the second paper feeding device 15 has been selected (S9). In S7, when the paper size of the selected paper feeder is longer than 309 mm, the fifth speed is displayed on the display device 41 of the operation panel 32 (S10).

Based on this display, the operator presses the printing speed selection key 43 to select a desired printing speed from the first to fifth speeds. If the printing speed in S1 is maintained as it is and the printing speed in S1 is in the range of 1 to 5 speeds, the selection operation of the printing speed is not necessary.
By adopting such control, even when the selection of the paper feeding device is changed, the operator can print at the maximum speed under the conditions without causing a paper discharge jam even if the operator does not care about the size of the printing paper 13. It becomes possible.
It should be noted that when the first paper feeding device 14 is in the 6th speed and the second paper feeding device 15 is in the 5th speed and the specifications (speeds) are different, when the second paper feeding device 15 is selected, it is related to the size of the printing paper 13. The maximum printing speed is 5th.

The second embodiment will be described with reference to FIGS. Note that the same parts as those in the above embodiment are denoted by the same reference numerals, and unless otherwise specified, description of the configuration and functions already described is omitted, and only the main part will be described (the same applies to other embodiments below).
In the present embodiment, as shown in FIG. 5, a paper type selection key 54 for selecting the type of the printing paper 13 is provided on the operation panel 32.
When the paper type selection key 54 is pressed, thick paper, thin paper, plain paper, special paper, or the like is displayed on the display device 41, and any one can be selected on the screen of the display device 41.
When the type of the printing paper 13 is changed after being selected, the same procedure is performed by pressing the clear key 39. The paper type selection key 54 and the display device 41 constitute a recording medium type selection / change means.

For example, when a B4 size thick print paper 13 is set in the horizontal direction in the first paper supply device 14 and a B4 size thin paper print paper 13 is set in the horizontal direction in the second paper supply device 15, On the operation panel 32, the paper type of the first paper feeder 14 is set to thick paper and the paper type of the second paper feeder 15 is set to thin paper in advance.
When the print mode is set on the operation panel 32, when the first paper supply device 14 is selected to select the thick paper after first selecting the print setting speed 6th speed, the first paper supply device 14 has a B4 size thick paper. Since the printing paper 13 is set in the horizontal direction, printing can be performed at 6th speed without causing a paper discharge jam.

However, when the second paper feeding device 15 is selected to select the thin paper, the B4 size thin paper 13 is set in the second paper feeding device 15 in the horizontal direction. In some cases, paper jams may occur due to weakness. In this case, the operator can recognize that printing cannot be performed at the maximum speed (sixth speed) only after a jam occurs, and then the printing setting speed is reset to the fifth speed and printing is performed.
If it is understood that the paper discharge performance and the printing speed do not match due to the paper type after printing, troublesome jam processing and downtime are inevitable.

The present embodiment aims to prevent such problems, and the control operation will be described based on the flowchart of FIG.
When the power is turned on, the previously set or default printing speed is displayed on the display device 41 (S1), and the paper feeding device is selected in the initial setting (S2).
The control means 33 reads the paper type data in the first paper feeder 14 and the second paper feeder 15 based on the setting information on the operation panel 32 (S3).
Next, the control means 33 checks whether or not the paper feeding device has been changed (S4), and if it has been changed, further checks whether or not it is the first paper feeding device 14 (S5). If it is the first paper feeding device 14, the display device 41 of the operation panel 32 displays that the first paper feeding device 14 has been selected (S6). Next, it is determined on the basis of the read data whether the paper type of the selected paper feeding device (first paper feeding device 14) is thin paper (S7). Is displayed (S8).

Based on this display, the operator presses the printing speed selection key 43 to select a desired printing speed from the first to sixth speeds. If the printing speed in S1 is maintained as it is and the printing speed in S1 is in the range of 1 to 6, the above printing speed selection operation is not necessary.
In S5, if the changed paper feeding device is not the first paper feeding device 14, the display device 41 of the operation panel 32 displays that the second paper feeding device 15 has been selected (S9). If the paper type of the selected paper feeding device is thin in S7, the fifth speed is displayed on the display device 41 of the operation panel 32 (S10).
Based on this display, the operator presses the printing speed selection key 43 to select a desired printing speed from the first to fifth speeds. If the printing speed in S1 is maintained as it is and the printing speed in S1 is in the range of 1 to 5 speeds, the selection operation of the printing speed is not necessary.

With such control, even when the selection of the paper feeding device is changed, the operator can print at the maximum speed under the conditions without causing paper discharge jam even if the operator does not care about the type of the printing paper 13. It becomes possible.
It should be noted that when the first paper feeding device 14 is in the 6th speed and the second paper feeding device 15 is in the 5th speed and the specifications (speeds) are different, when the second paper feeding device 15 is selected, it is related to the size of the printing paper 13. The maximum printing speed is 5th.

A third embodiment will be described with reference to FIG.
For example, an irregular (eg, 420 mm × 150 mm) size thick printing paper 13 is set in the first paper feeding device 14 in the horizontal direction, and a B4 size thin paper printing paper 13 is set in the second paper feeding device 15 in the horizontal direction. If it is set, the operation panel 32 sets the paper type of the first paper supply device 14 to thick paper and the paper type of the second paper supply device 15 to thin paper in advance.
When the print mode is set on the operation panel 32, when the print setting speed of 6th speed is selected first and then the second paper feeder 15 is selected from the paper size, B4 size thin paper is printed on the second paper feeder 15. Since the paper 13 is set in the horizontal direction, the length is shorter than 309 mm when viewed from the paper size, and printing can be performed at 6th speed without causing a paper discharge jam.
However, when looking at the data of the paper type, the type is thin paper, so there may be a paper discharge jam at the 6th speed.
In this case, the operator can recognize that printing cannot be performed at the maximum speed (sixth speed) only after a jam occurs, and then the printing setting speed is reset to the fifth speed and printing is performed.
If it is understood that the paper discharge performance and the printing speed do not match due to the paper type after printing, troublesome jam processing and downtime are inevitable.

The present embodiment aims to prevent such problems, and the control operation will be described based on the flowchart of FIG.
When the power is turned on, the previously set or default printing speed is displayed on the display device 41 (S1), and the paper feeding device is selected in the initial setting (S2).
The control means 33 reads the paper size detection data in the first paper supply device 14 and the second paper supply device 15 based on the output data from the paper size detection sensors 53A, 53B, 53C (S3). Further, the control means 33 reads the paper type data in the first paper feeder 14 and the second paper feeder 15 based on the setting information on the operation panel 32 (S4).

  Next, the control means 33 checks whether or not the paper feeding device has been changed (S5), and if it has been changed, further checks whether or not it is the first paper feeding device 14 (S6). If it is the first paper feeder 14, the display device 41 of the operation panel 32 displays that the first paper feeder 14 has been selected (S7). Next, it is determined based on the read data whether the paper type of the selected paper feeding device (first paper feeding device 14) is thin paper (S8). Whether or not the paper size of one paper feeding device 14) is longer than a predetermined length (here, 309 mm) is determined based on the read data (S9). If not longer, the sixth speed is displayed on the display device 41 of the operation panel 32. (S10).

Based on this display, the operator presses the printing speed selection key 43 to select a desired printing speed from the first to sixth speeds. If the printing speed in S1 is maintained as it is and the printing speed in S1 is in the range of 1 to 6, the above printing speed selection operation is not necessary.
In S6, when the changed paper feeding device is not the first paper feeding device 14, the display device 41 of the operation panel 32 displays that the second paper feeding device 15 has been selected (S11). If the paper type of the paper feeding device selected in S8 is thin or the paper size of the paper feeding device selected in S9 is longer than 309 mm, the fifth speed is displayed on the display device 41 of the operation panel 32 (S12). ).
Based on this display, the operator presses the printing speed selection key 43 to select a desired printing speed from the first to fifth speeds. If the printing speed in S1 is maintained as it is and the printing speed in S1 is in the range of 1 to 5 speeds, the selection operation of the printing speed is not necessary.

A fourth embodiment will be described based on FIGS. 8 and 9.
The present embodiment is characterized in that a mass feeding unit (also simply referred to as “LCIT”) is connected to the first sheet feeding device 14.
As shown in FIG. 8, the mass feeding unit 55 includes a feeding body 56 and an intermediate conveyance unit 57 whose tip is connected to the first feeding device 14 so that the printing paper 13 can be delivered. . The paper feed main body 56 includes a paper feed base 58 that is lifted and lowered by an elevator system using a drive mechanism (not shown) (having a paper feed motor, a pinion gear, and a rack), and a front end of the print paper 13 that is loaded on the paper feed base 58. A front plate 59 for aligning the sections, a paper feed roller 60, a separation roller 61, and the like are provided.
A paper sensor 62 that detects the presence or absence of the print paper 13, a paper size detection sensor 63 that detects the length of the print paper 13 in the paper feed direction, and a width direction orthogonal to the paper feed direction of the print paper 13 are provided on the paper feed stand 58. A paper width detection sensor (not shown) for detecting the length of the paper is provided. The maximum loading capacity of the paper feed tray 58 in this embodiment is 3000 sheets.
The intermediate conveyance unit 57 of the mass feeding unit 55 includes a conveyance path 64, a cover 65 that can open the conveyance path 64, and a sheet sensor (not shown) that is provided on the cover 65 and detects the print sheet 13. Yes.

The mass feeding unit 55 and the control unit 33 of the stencil printing apparatus can communicate with each other, and the mass feeding unit 55 receives information such as printing speed data and a feeding start signal from the control unit 33, and receives paper size data, paper It has a function of transmitting information such as presence / absence information to the control means 33.
The paper size detection sensor 63 is disposed at a position 309 mm from the front end of the paper, and can determine whether or not the paper size is longer than 309 mm. The width detection of the printing paper 13 has a known detection configuration based on the amount of movement of a pair of side fences (not shown).
As described above, the cover 65 is provided with the paper sensor, and the length of the print paper 13 can be calculated using the paper sensor. In this case, the paper size detection sensor 63 may not be used.

The present embodiment is characterized in that the printing speed is determined based on the paper size data transmitted from the large-volume paper feeding unit 55.
For example, when the A3 size printing paper 13 is set in the horizontal direction on the paper feed tray 58 of the large volume paper feeding unit 55 and the A4 size printing paper 13 is set in the vertical direction on the second paper feeding device 15, When the printing mode is set on the operation panel 32, the second paper feeding device 15 is selected when the second paper feeding device 15 is selected in accordance with the paper size when the paper feeding device is first selected after selecting the 6th printing setting speed. Since A4 size printing paper 13 is set in the apparatus 15 in the vertical direction, printing can be performed at 6 speeds without causing a paper discharge jam.

However, when the first paper feeding device 14 is selected, a mass feeding unit 55 is connected to the first paper feeding device 14, and A3 size printing paper 13 is set in the horizontal direction in the mass feeding unit 55. Therefore, there is a case where a paper discharge jam occurs when printing.
In this case, the operator can recognize that printing cannot be performed at the maximum speed (sixth speed) only after a jam occurs, and then the printing setting speed is reset to the fifth speed and printing is performed.
If it can be seen that the paper discharge performance and the printing speed do not match due to the paper size after printing, troublesome jam processing and downtime are inevitable.

The present embodiment aims to prevent such problems, and the control operation will be described based on the flowchart of FIG.
When the power is turned on, the previously set or default printing speed is displayed on the display device 41 (S1), and the paper feeding device is selected in the initial setting (S2).
The control means 33 checks whether or not the mass feeding unit 55 is connected to the first paper feeding device 14 (S3). If not, the paper size detection data in the first paper feeding device 14 is used as the paper size. While reading based on the output data from the detection sensor 53A (S4), the paper size detection data in the second paper feeder 15 is read based on the output data from the paper size detection sensors 53B and 53C (S5).

  Next, the control means 33 checks whether or not the paper feeding device has been changed (S6), and if it has been changed, further checks whether or not it is the first paper feeding device 14 (S7). If it is the first paper feeder 14, the display device 41 of the operation panel 32 displays that the first paper feeder 14 has been selected (S8). Next, it is determined based on the read data whether the paper size of the selected paper feeding device (first paper feeding device 14) is longer than a predetermined length (here, 309 mm) (S9). Sixth speed is displayed on 32 display devices 41 (S10).

Based on this display, the operator presses the printing speed selection key 43 to select a desired printing speed from the first to sixth speeds. If the printing speed in S1 is maintained as it is and the printing speed in S1 is in the range of 1 to 6, the above printing speed selection operation is not necessary.
In S3, when the mass feeding unit 55 is connected to the first feeding device 14, the paper size data transmitted from the mass feeding unit 55 is read (S11).
In S7, if the changed paper feeding device is not the first paper feeding device 14, the display device 41 of the operation panel 32 displays that the second paper feeding device 15 has been selected (S12). If the paper size of the selected paper feeding device is longer than 309 mm in S9, the fifth speed is displayed on the display device 41 of the operation panel 32 (S13).

Based on this display, the operator presses the printing speed selection key 43 to select a desired printing speed from the first to fifth speeds. If the printing speed in S1 is maintained as it is and the printing speed in S1 is in the range of 1 to 5 speeds, the selection operation of the printing speed is not necessary.
By adopting such control, even when the selection of the paper feeding device is changed, the operator can print at the maximum speed under the conditions without causing a paper discharge jam even if the operator does not care about the size of the printing paper 13. It becomes possible.
It should be noted that when the first paper feeding device 14 is in the 6th speed and the second paper feeding device 15 is in the 5th speed and the specifications (speeds) are different, when the second paper feeding device 15 is selected, it is related to the size of the printing paper 13. The maximum printing speed is 5th.

1 is a schematic front view of a stencil printing apparatus as a printing apparatus according to a first embodiment of the present invention. It is a control block diagram. It is a principal part top view of an operation panel. It is a flowchart which shows control operation. It is a principal part top view of the operation panel in 2nd Embodiment. It is a flowchart which shows the control action in 2nd Embodiment. It is a flowchart which shows the control action in 3rd Embodiment. It is a general | schematic front view of the stencil printing apparatus as a printing apparatus in 4th Embodiment. It is a flowchart which shows the control action in 4th Embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 14 1st sheet feeder as feeding apparatus 15 2nd sheet feeder as feeding apparatus 32 Operation panel 33 Control means 41 Display apparatus as printing speed display means 53 Paper size detection sensor 55 as recording medium size detection means 55 Mass feed unit

Claims (8)

In a printing device that can be equipped with a plurality of feeding devices,
Feeding device selection / change means capable of selecting and changing a feeding device to be used from among the plurality of feeding devices, a printing speed display means, and a printing speed selection / change capable of selecting and changing the printing speed. And a control means for displaying an appropriate printing speed on the printing speed display means based on the size data of the recording medium set in the selected feeding device. In a printing device that can be equipped with a plurality of feeding devices,
Feeding device selection / change means capable of selecting and changing a feeding device to be used from among the plurality of feeding devices, a printing speed display means, and a printing speed selection / change capable of selecting and changing the printing speed. A recording medium type selecting / changing means capable of selecting and changing the type of the recording medium, and an appropriate printing speed based on the recording medium type data set in the selected feeding device. A printing apparatus comprising control means for displaying on a display means. In a printing device that can be equipped with a plurality of feeding devices,
Feeding device selection / change means capable of selecting and changing a feeding device to be used from among the plurality of feeding devices, a printing speed display means, and a printing speed selection / change capable of selecting and changing the printing speed. Means, a recording medium type selection / change means capable of selecting and changing the type of the recording medium, and an appropriate value based on the size data of the recording medium and the type of recording medium set in the selected feeding device. A printing apparatus comprising control means for displaying a printing speed on the printing speed display means. The printing apparatus according to claim 1 or 3,
When a mass feeding unit is connected to any one of the plurality of feeding devices, and the mass feeding unit is used, the control means size of the recording medium transmitted from the mass feeding unit A printing apparatus that determines a printing speed based on data. The printing apparatus according to claim 1 or 3,
A printing apparatus comprising: a recording medium size detection unit configured to detect a size of the recording medium in the feeding device; and the control unit determines a printing speed based on detection information from the recording medium size detection unit. . The printing apparatus according to claim 1.
A printing apparatus, wherein the feeding device selection / change means, the printing speed display means, and the printing speed selection / change means are integrally provided on an operation panel of the apparatus main body. The printing apparatus according to claim 2 or 3,
Printing characterized in that the feeding device selection / change means, the printing speed display means, the printing speed selection / change means, and the recording medium type selection / change means are integrally provided on the operation panel of the apparatus main body. apparatus. The printing apparatus according to any one of claims 1 to 5,
A printing apparatus having a configuration of a stencil printing system.

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