JPH11348262A - Random machining system in ink jet print system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a random machining system in ink jet print system in which random machining units are coupled in line on the downstream side of an ink jet printer so that random every direction stitching, file hole punching, and the like, can be carried out. SOLUTION: In an ink jet print system performing multicolor printing according to a desired layout pattern on the opposite sides of a continuous sheet moving relatively to an ink jet printer, random machining units 53, 54, 55 having a mark detection means 61 are disposed on the downstream side of the ink jet printer and operated in response to an output signal from the mark detection means which reads out a random mark put on the continuous sheet.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an ink jet printing system capable of continuous printing on continuous paper, and in particular, performs perforation processing and punch hole processing at the downstream side of an ink jet printer at random. Processing device in an ink-jet printing system in which random processing units are continuously arranged.

[0002]

2. Description of the Related Art As is well known, various ink jet printers using an ink jet print head have been developed and provided. However, at present, the information processing system has been greatly advanced due to the diversification of information transmission, and existing inkjet printers that have been developed and provided in various ways cannot meet the needs of users. In other words, in the information processing system accompanying the diversification of information transmission, on the user side, there is a demand for the development of a system capable of separating various information for each specific person and continuously processing the information.
Furthermore, there is a demand for the development of a system that is compatible with the high quality, high resolution, and high-speed processing of such information processing.

Further, there is a demand for the development of an ink jet printing system capable of performing ultra-high-speed and accurate print processing on both sides, multi-color print processing and multi-layout print processing in processing various information. An ink jet printer that sufficiently satisfies the above-mentioned demands on the user side has not been provided so far.

[0004]

SUMMARY OF THE INVENTION The same applicant responds to the user's demands for the above-mentioned conventional ink-jet printer and, in order to solve the problems found in the conventional ink-jet printing system, divides a variety of information into specific information. High-quality, high-resolution, high-quality, high-resolution printing, multi-color printing, multi-layout printing, and multi-color printing can be performed at high speed. An inkjet printing system that can be accurately performed has been developed, and several problems have been raised in the course of the development of the inkjet printing system.

One of the problems is that when a variety of information is classified for each specific person and is continuously processed according to a desired layout pattern, for example, a vertical perforation is formed in one printed information processing area. In some cases, random post-processing such as horizontal perforation processing and file hole punching is required. In this case, the conventional inkjet print system has not provided any apparatus having a configuration capable of processing the data in a line.

Therefore, in the present invention, in an ink jet printing system, a random processing device is connected downstream of the ink jet printer to form a line, so that a random printed image can be randomly processed in a desired information processing area. An object of the present invention is to provide a random processing apparatus in an ink jet printing system capable of performing random post-processing such as perforation processing, random horizontal perforation processing, and punching of holes for random files.

[0007]

SUMMARY OF THE INVENTION In order to achieve the above object, the present invention specifically provides multi-color printing on both the front and back sides of continuous paper moving relatively to an ink jet printer in accordance with a desired layout pattern. An ink jet printing system for performing printing, which constitutes a random processing device in an ink jet printing system provided with a random processing unit provided with a mark detection means downstream of the ink jet printer.

Further, according to the present invention, the random processing unit is configured to operate in response to an output signal of a mark detecting means for reading a random mark provided on continuous paper.

Furthermore, in the present invention, the random processing unit is a random jumping sewing machine, and is a random vertical sewing machine processing unit and a random horizontal sewing machine processing unit.

Still further, according to the present invention, a random processing apparatus in an ink jet printing system in which at least two of the random processing units are connected in a random vertical sewing machine and operated alternately.

Further, according to the present invention, the random processing unit constitutes a random processing device in an ink jet printing system including a punched hole processing device.

Still further, according to the present invention, there is provided an ink jet printing system for performing multicolor printing on both front and back sides of continuous paper moving relative to an ink jet printer in accordance with a desired layout pattern, wherein A first and second inkjet printheads that form inkjet rows at regular intervals in the length direction of the continuous paper so that the printheads can be printed in a plurality of rows. and a print station for controlling, the M ₁ that performs printing of M color ink jet printing unit and the other surface of the continuous paper of the n ₁ ~ the n _n that performs printing of n colors on one surface of the continuous paper To the _Mn-th inkjet print unit, An ink-jet printing system for performing multi-color printing in accordance with a desired layout pattern on both front and back sides of continuous paper moving relatively to a printer, wherein a random processing unit having a mark detection means on the downstream side of the ink-jet printer is provided. A random processing device in an ink jet printing system which is provided and operates in response to an output signal of a mark detecting means for reading a random mark provided on continuous paper.

[0013]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a random processing device in an ink jet printing system according to the present invention will be described in detail based on a specific embodiment shown in the drawings. FIG. 1 is an overall view of a basic device configuration example of an inkjet printing system according to the same applicant, FIG. 1A is a schematic plan view of the device, and FIG. FIG. 7 is a corresponding schematic front view. FIG.
And FIG. 3 shows a state of a traveling path of continuous paper as a print medium in the apparatus, and FIG. 2 shows a print processing unit on the upstream side of the apparatus and the front side of the continuous paper. FIG. 3 is a schematic front view showing the continuous paper in a see-through manner, and FIG.
FIG. 2 is a schematic front view showing a print processing unit on the downstream side of the apparatus and on the back side of the continuous paper through the continuous paper.
2 and FIG. 3, the upward arrow at the right end shown in FIG.
Is connected to the leftward upward arrow shown in FIG.

FIG. 4 is a block diagram showing an apparatus for explaining an outline of the ink jet printing system in connection with a plan view of the apparatus. FIG. 5 is a schematic perspective view illustrating an example of a sheet feeding unit in the apparatus. FIG. 6 is a schematic perspective view showing an example of a printed pattern by the ink jet printing system. FIG. 7 shows an example of a print layout in the length direction of the continuous paper. FIG. 7B is a schematic plan view showing an example of a single layout, and FIG. 7B is a schematic plan view showing an example of a multi-layout, which includes an invoice with a description of a different information amount in the length direction of the continuous paper. FIG. 7C is a schematic plan view showing another example of the multi-layout, and showing an example for direct mail including a letterhead area in the length direction of the continuous paper.

On the other hand, FIG. 8 is a schematic front view showing a specific embodiment of a random processing device according to the present invention, which is lined by combination on the downstream side of an ink jet printer in an ink jet printing system. FIG. FIG. 9 is a schematic plan view corresponding to FIG. FIG. 10 is a schematic plan view showing an example of an embodiment of random processing on continuous paper.

First, a specific configuration of an ink jet printing apparatus to which the present invention is applied will be described with reference to FIGS. According to this specific embodiment, the inkjet printing apparatus includes a paper feed unit 6, a first print processing unit 1, a second print processing unit 2, and a third print processing unit 3 for continuous paper CP. , Fifth print processing unit 5, fourth print processing unit 4, processing unit 7, and paper discharge unit 8
Consists of one line. In this configuration, what is particularly noticed is that the fourth print processing unit 4 and the fifth print processing unit 5 are reversed in one line. A detailed description on this point will be described later.

As shown in detail in FIG.
Has a continuous paper holding unit 9 that rotatably holds a roll of continuous paper CP. The continuous paper holding unit 9 is provided with a lifting arm 10, an arm guide plate 11, a side lay handle 12, a lifting lever 13, and an impact wrench 14.

The paper feed unit 6 is provided with a powder brake mechanism 15. The powder brake mechanism 15 includes a tension control detection roll 1 installed in the paper feeding unit 6.
6 controls the powder brake provided on the paper feed shaft so as to obtain a desired tension. The tension control detection roll 16 detects the continuous paper tension (tension) in the machine, and controls the powder brake so that the continuous paper keeps a constant tension (set value by the tension control) while the continuous paper is running at a constant speed. I do. Reference numeral 17 denotes a powder brake operation panel.

The paper feeding section 6 is provided with a paper dust removing device 18, a static electricity removing device 19, a first guide roller 20, and an edge guider 21. The first guide roller 20 and each of the guide rollers 22 provided in the running path of the continuous paper CP in the machine are constituted by ball bearings having a small rotational load, whereby the tension of the continuous paper is reduced. And enable ultra-high speed running. Further, the edge guider 21 is for preventing the continuous paper from meandering, thereby also enabling ultrahigh-speed traveling.

Next, the relationship between the running path of the continuous paper CP and the ink jet printing apparatus will be described with reference to FIGS. The continuous paper CP set in the paper supply unit 6 includes a first guide roller 20, an edge guider mechanism 21, a guide roller group 22, and a platen roller P.
Along the continuous paper path formed by R1 to PR5, an average of 200
Super high speed running at m / min. (MAX 260m / min.) is possible.

The continuous paper CP is supplied to a first drying unit 24 provided downstream of the second print processing unit 2 and the third drying unit 24.
Drying means 2 provided downstream of the print processing unit 3
5, a third print processing unit 5 provided downstream of the fifth print processing unit 5;
Detouring through the drying means 26 via the guide roller group 22.

Each of the drying means 24, 25, and 26 is of a microwave drying type using a microwave, and reduces damage (expansion and contraction) to the running continuous paper CP.
Ultra-high-speed printing is enabled by performing efficient drying. The temperature of the microwave drying apparatus is set to be between room temperature and 55 ° C. for the purpose of preventing dew condensation in the drying oven. The surface temperature of the continuous paper after drying was about 70 ° C.

The ink jet printing apparatus has a continuous paper reversing and traveling mechanism 27 for running the continuous paper CP in a state where the continuous paper is turned inside out in the ink jet printing apparatus. The continuous paper reversing and traveling mechanism 27 is provided between the third print processing unit 3 and the fourth print processing unit 4, and is connected to the first print processing unit 1 to the third print processing unit 3. The running direction of the continuous paper in the fourth print processing unit 4 to the fifth print processing unit 5 is configured to be opposite to the running direction of the continuous paper.

Therefore, the continuous paper CP is the first paper.
The first to third print processing units 3 travel in the inkjet printing apparatus with the first surface (front surface) facing upward, and the fourth print processing unit 4
The fifth print processing unit 5 travels in the inkjet printing apparatus with the second surface (back surface) facing upward, and as shown in FIG. The printing process is performed on the front surface, and the printing process is performed on the back surface of the continuous paper CP on the downstream side of the apparatus as shown in FIG.

The ink jet printing apparatus includes a first monitoring means 28 for monitoring a printing process state and a second monitoring means
Monitoring means 29. The first monitoring means 28
Is a television camera for monitoring the printing state of the printing performed on the front side of the continuous paper CP by the first print processing unit 1 to the third print processing unit 3, and the second monitoring unit 29 4 is a television camera that monitors the print state of the continuous paper CP printed on the back side by the print processing unit 4 to the fifth print processing unit 5.

The ink jet printing apparatus has platen rollers PR1 to PR5 for each of the print processing units. The platen rollers PR1 to PR5 are installed below the print head. For example, in the first platen roller PR1, the third platen roller PR3, and the fourth platen roller PR4, the continuous paper CP is used.
Is run so that the contact angle in the running direction is about 120 °. The continuous paper wound around is held down by a rubber roller or the like to prevent slippage between the continuous paper and the platen roller, thereby improving the print quality at ultra-high speed with a precise feed amount.

The ink jet printing apparatus has a random processing section 7 for a printed continuous paper.
The random processing unit 7 performs, on the printed continuous paper, punching of a marginal hole row, punching of a filing hole, horizontal perforation, vertical perforation, etc., based on a detection mark printed online. Do it. In the processing position alignment in the random processing section 7, the entire drive box for vertical and horizontal perforation processing and file punch processing is controlled to be aligned with the detection mark position, so that the load on the continuous paper is reduced without difficulty, and the driving of the processing apparatus is performed. By adopting the method of directly controlling the system, it is hardly affected by the continuous paper, the control time is short, and random processing at ultra high speed is possible.

In the random processing section 7, mainly for perforation processing, two of the perforations may be installed and operated alternately to cope with high-speed processing.

The ink jet printing apparatus has a paper discharge section 8 at the final stage of the apparatus. In the embodiment shown in the figure, the paper discharge section 8 is constituted by a winding means for winding the printed continuous paper into a roll.
The printed continuous paper can be appropriately processed into a roll shape, a folded shape, and a sheet shape according to the final product form.

Further, in the ink jet printing apparatus, a system in which the print heads PH1 to PH10 are pulled out to the operation side can be adopted. With this configuration, it is possible to run continuous paper with stable in-machine tension immediately after the start of the next work without changing the in-machine tension during printhead maintenance work required for ink-jet printing work. can do.

Next, the configuration of the first to fifth print processing units 5 in the ink jet printing apparatus will be described in detail. First, FIG.
In the embodiment shown in FIGS. 4 to 4, the inkjet printing apparatus has a 10-head configuration, and prints the front side of the continuous paper CP in three colors of black, blue, and red, and prints the continuous paper CP. The back side is configured to print in two colors, black and blue. The above configuration is
In one embodiment, the number of colors and the types of colors are not limited at all.

[0032] The ink jet printing apparatus includes:
Of the ten ink jet print heads PH1 to PH10. Two of the ten ink jet print heads PH1 to PH10 are paired to form print units PU1 to PU5, and these print units PU1 to PU5 are formed. This constitutes the inkjet printing means 30.

The ink-jet printing means 30 comprises:
The system controller 31 comprises a data system DS1 to DS5 for controlling each of the print units PU1 to PU5 and a print station PS1 to PS10 for controlling each of the ink jet print heads PH1 to PH10. A print signal is supplied to the heads PH1 to PH10.

The ink jet print head PH1
PH10 to PH10 are arranged so as to perform continuous printing over the page width on continuous paper CP which moves relatively in the direction of arrow A with respect to the ink jet printing apparatus. Each inkjet print head PH1 to P
H10 consists of a printhead that forms a regularly spaced array of inkjet rows, 4.25 inches long and 240 dots per inch.

The ink jet printing apparatus comprises platen rolls PR1 to PR5 each having a tach encoder TE1 to TE5 for each of the print units PU1 to PU5.
And the tach encoders TE1 to TE5 are
The movement of the continuous paper CP is monitored, and a speed signal for cooperating with the movement of the continuous paper CP is transmitted via the tach encoder / queue controller 50 to the data systems DS1 to DS1.
Output to DS5.

Further, the ink jet printing apparatus detects a cue mark 32 for detecting the cue mark 32 printed on the continuous paper CP or printed by the first print unit PU1 for each of the print units PU1 to PU5. Means MS1 to MS5 are provided. The cue mark detecting means MS1 to MS5
Detects the cue mark 32 and outputs a cue mark detection signal, which adjusts the printing of information on the continuous paper CP. The output signal of the cue mark detecting means MS1 is transmitted to the sheet transport device 51, the system controller 31.
And the output signals of the cue mark detecting means MS2 to MS5 are supplied to the data systems DS1 to DS via the tacho encoder / queue controller 50 and the system controller 31, respectively.
Supplied to 5.

The cue mark 32 is a timing mark for adjusting the print position in each of the data systems DS1 to DS5. A cue mark read signal is sent to each of the data systems DS1 to DS5, whereby printing is performed. Be started. The cue mark 32 is printed at a predetermined position on the continuous paper at the supply stage of the continuous paper CP,
For the blank continuous paper in the supply stage of the continuous paper CP, the first
Print processing by the print unit PU1.

The cue mark 32 is provided for the cue mark display area 33. The cue mark 32 is a rectangular mark having a size in the length direction of the continuous paper of about 6 mm and a size in the width direction of the continuous paper of about 5 mm.

Next, a pattern of a product printed by the ink jet printing system will be described with reference to FIGS. According to the inkjet printing system described above, a printed product having a pattern as shown in FIG. 6 can be provided. That is,
Provide printed products that enable front and back double-sided printing, front and back double-sided multicolor printing, and front and back double-sided multi-layout printing. According to the example shown in FIG. 6, one side (front side) CPa and the other side (back side) CPb of the continuous paper are provided with an address and a name 34 for each customer, an individual message 35, a detail item 36 (a detail item 36). Can be printed as many as the number of pages required for each individual, and can be printed continuously on the back side for customers with many specification items), imprints 37, frames 38, logos, illustrations, maps 39, etc. Is done.

Further, according to the above-described ink jet printing system, it works extremely effectively particularly for a multi-layout print as exemplified in FIGS. 7B and 7C. For example, according to the example shown in FIG. 7B, when laying out a bill with a statement, one bill in the length direction of the continuous paper CP is allocated to the bill area 4 in accordance with the number of detail items.
With respect to 0, the specification area 41 for writing specification items can be set by appropriately changing the number of pages. FIG. 7C
According to the example shown in FIG. 7, when laying out a direct mail, the mail is divided into one in the length direction of the continuous paper CP such as a letter head area 42, a greeting area 43, a product guidance area 44, and an application form area 45. Can be set. FIG.
B and FIG. 7C show an example of a multi-layout on the front side of the continuous paper, but this multi-layout can be carried out without change on the back side of the continuous paper as shown in FIG. it can. These are merely examples, and the range of the multi-layout is not limited to the above configuration and the example shown in the drawings.

Next, a description will be given of a specific embodiment of a random processing apparatus connected to the downstream side of the ink jet printer and lined with the above ink jet printing system. The random processing device according to the present invention is basically a random processing such as random vertical perforation processing, random horizontal perforation processing, and random file hole punching for a desired information processing area printed out. The two random vertical perforation processing units 53, 53 that individually perform post-processing are lined by appropriately combining the two random horizontal perforation processing units 54, 54. The two random vertical perforation processing units 53, 53 and the random horizontal perforation processing units 54, 54 are alternately operated to correspond to high-speed processing.

In the embodiment shown in FIGS. 8 and 9, the random file hole punching unit 5 is used.
5 is not shown, but according to a preferred combination example, the random vertical perforation processing units 53, 53 or the random horizontal perforation processing units 54, 54
May be replaced with the random file hole punching unit 55 and combined.

Further, in the embodiment shown in FIGS. 8 and 9, a marginal hole row punching unit 56 for processing a marginal hole row, and the burrs generated by processing by each processing unit on the upstream side are crushed. Pressure processing unit 57 is combined.

According to the present invention, the variable data printed by the ink jet printer is subjected to random vertical perforation, random horizontal perforation, and random file hole punching at required positions. The random vertical perforation, the random horizontal perforation, and the random file hole punching are operated based on, for example, the cue mark 32 and the random mark 60 printed online. The random mark 60 is provided in a page section of the continuous paper CP that requires random processing, and is printed, for example, at the position shown in FIG. The position where the random mark 60 is provided is not limited to the embodiment shown in FIG.

In the random machining apparatus according to the present invention, the random mark detecting means 6 for reading the random mark 60
1, a cue mark detecting means 62 for reading the cue mark 32, and a positioning control detecting means 63 for reading and positioning the cue mark 32. The random mark detecting means 61 comprises a random mark detecting sensor,
Read 0 and output a signal for random processing.
The cue mark detection means 62 is configured by a cue mark detection sensor, configured to read the cue mark 32, set a paper transport position after the cue mark detection in advance, and perform random processing on the set position. I have.

The alignment control detecting means 63 operates based on the cue mark 32 printed online, detects the cue mark 32, and verifies the random processing position. Based on the detected output signal, the gear control amounts of the drive gear boxes 64, 65, 66, and 67 combined to drive the respective processing units can be adjusted and finely adjusted.

The drive system of the random processing apparatus is the same as the drive system of the paper transport, and is configured to receive the drive shaft 68 via the drive gear boxes 64, 65, 66 and 67.

In the random processing device according to the present invention, when the random mark 60 printed on the continuous paper CP online is read by the random mark detecting means 61, the random mark 60 on the continuous paper CP is displayed. In the information processing section, a random vertical perforation 69 by the random vertical perforation processing unit 53, a random horizontal perforation 70 by the random horizontal perforation processing unit 54,
The file holes 71 by the random file hole punching unit 55 are selectively processed according to preset programs.

Processing of the marginal hole row 72 on the continuous paper CP is performed by the marginal hole row punching unit 56.

The positioning control detecting means 63 detects the cue mark feed timing by reading the cue mark 32, and outputs a detection signal to the driving gear box when the cue mark timing is shifted. The position of the sheet is adjusted by changing the gear rotation amount in the drive gear box.

In one embodiment of the random processing of the continuous paper shown in FIG. 10, a transverse line 73 for dividing each page at a predetermined interval in the length direction of the continuous paper is cut by a cutter. Alternatively, a perforation may be performed by a horizontal perforation processing unit combined with the processing section 7.

[0052]

As described above, the random processing device in the ink jet printing system of the present invention having the above-described structure is provided with a random processing unit for randomly processing perforation processing and punch hole processing at the downstream side of the ink jet printer. It is very effective for various information processing in that variable data printed by ink-jet can be processed to required parts (vertical and horizontal random sewing processing, random file punch processing). It can be said that.

Further, according to the random processing device in the ink jet print system according to the present invention, the entire drive gear box for vertical and horizontal random sewing processing and random file punch processing is controlled in accordance with the detection mark position. By adopting a method that reduces the load without difficulty and directly controls the drive system of the processing device, it is extremely effective in that it is not easily affected by paper, the control time is fast, and random processing at ultra high speed is possible. It works.

Further, according to the random machining apparatus according to the present invention, the random vertical perforation unit having the two random vertical perforations is alternately operated to perform the processing by the random vertical perforation unit. With a random horizontal perforation processing unit equipped with two
It can be said that this is also very advantageous in that the processing is performed by alternately operating the processing so as to correspond to high-speed processing.

[Brief description of the drawings]

FIG. 1 is an overall view of an example of a basic device configuration of an ink jet printing system, and FIG.
1 is a schematic plan view of the device, and FIG.
It is a schematic front view corresponding to A.

FIG. 2 is a view showing a state of a running path of continuous paper as a print medium in the apparatus, in which a print processing unit on an upstream side of the apparatus and a front side of the continuous paper is continuously printed; It is a schematic front view shown by seeing through paper.

FIG. 3 is a schematic front view showing a print processing unit on the downstream side of the apparatus and on the back side of the continuous paper as seen through the continuous paper.

FIG. 4 is a block diagram shown in connection with a plan view of an apparatus for explaining an outline of an inkjet printing system.

FIG. 5 is a schematic perspective view illustrating an example of a sheet feeding unit in the apparatus.

FIG. 6 is a schematic perspective view showing an example of a pattern printed by the inkjet printing system.

7A and 7B illustrate an example of a print layout in the length direction of continuous paper. FIG. 7A is a schematic plan view illustrating an example of a single layout.
FIG. 7B is a schematic plan view showing an example of a multi-layout including an invoice with a description having a different information amount in the length direction of the continuous paper, and FIG. FIG. 11 is a schematic plan view showing an example for direct mail including a letterhead area in the length direction of the continuous paper.

FIG. 8 relates to the present invention, and forms a line by appropriately combining a random vertical perforation processing unit 53, a random horizontal perforation processing unit 54, and a random file hole punching unit 55. is there.

FIG. 9 is a schematic plan view corresponding to FIG. 8;

FIG. 10 is a schematic plan view showing an example of an embodiment of random processing on continuous paper CP.

[Explanation of symbols]

 CP continuous paper 1 First print processing unit 2 Second print processing unit 3 Third print processing unit 4 Fourth print processing unit 5 Fifth print processing unit 6 Paper feed unit 32 Cue mark 53 Random vertical perforation Processing unit 54 Random horizontal perforation processing unit 55 Random file hole punch processing unit 56 Marginal hole row punch processing unit 57 Pressurization processing unit 60 Random mark 61 Random mark detection means 62 Cue mark detection means 63 Alignment control detection means 64 ６７67 Drive gear box 68 Drive shaft 69 Random vertical perforation 70 Random horizontal perforation 71 File hole 72 Marginal hole row DS1 to DS5 Data system PS1 to PS10 Print station PU1 to PU5 Print unit PH1 to PH 10 Print head PR1 to PR5 Platen roller TE1 to TE5 Tacho encoder MS1 to MS5 Cue mark detecting means

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[Procedure amendment]

[Submission date] April 30, 1999

[Procedure amendment 1]

[Document name to be amended] Statement

[Correction target item name] Full text

[Correction method] Change

[Correction contents]

[Document Name] Statement

[Title of the Invention] Random processing device in ink jet printing system

[Claims]

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an ink jet printing system capable of continuous printing on continuous paper, and in particular, performs perforation processing and punch hole processing at the downstream side of an ink jet printer at random. Processing device in an ink-jet printing system in which random processing units are continuously arranged.

[0002]

2. Description of the Related Art As is well known, various ink jet printers using an ink jet print head have been developed and provided. However, at present, the information processing system has been greatly advanced due to the diversification of information transmission, and existing inkjet printers that have been developed and provided in various ways cannot meet the needs of users. In other words, in the information processing system accompanying the diversification of information transmission, on the user side, there is a demand for the development of a system capable of separating various information for each specific person and continuously processing the information.
Furthermore, there is a demand for the development of a system that is compatible with the high quality, high resolution, and high-speed processing of such information processing.

Further, there is a demand for the development of an ink jet printing system capable of performing ultra-high-speed and accurate print processing on both sides, multi-color print processing and multi-layout print processing in processing various information. An ink jet printer that sufficiently satisfies the above-mentioned demands on the user side has not been provided so far.

[0004]

SUMMARY OF THE INVENTION The same applicant responds to the user's demands for the above-mentioned conventional ink-jet printer and, in order to solve the problems found in the conventional ink-jet printing system, divides a variety of information into specific information. High-quality, high-resolution, high-quality, high-resolution printing, multi-color printing, multi-layout printing, and multi-color printing can be performed at high speed. An inkjet printing system that can be accurately performed has been developed, and several problems have been raised in the course of the development of the inkjet printing system.

One of the problems is that when a variety of information is classified for each specific person and is continuously processed according to a desired layout pattern, for example, a vertical perforation is formed in one printed information processing area. In some cases, random post-processing such as horizontal perforation processing and file hole punching is required. In this case, the conventional inkjet print system has not provided any apparatus having a configuration capable of processing the data in a line.

Therefore, in the present invention, in an ink jet printing system, a random processing device is connected downstream of the ink jet printer to form a line, so that a random printed image can be randomly processed in a desired information processing area. An object of the present invention is to provide a random processing apparatus in an ink jet printing system capable of performing random post-processing such as perforation processing, random horizontal perforation processing, and punching of holes for random files.

[0007]

SUMMARY OF THE INVENTION In order to achieve the above object, the present invention specifically provides multi-color printing on both the front and back sides of continuous paper moving relatively to an ink jet printer in accordance with a desired layout pattern. An inkjet printing system for performing printing, wherein a random processing unit including a random mark detection unit is provided downstream of the inkjet printer, wherein the random processing unit reads a random mark provided on continuous paper. Comprising at least one of a random vertical sewing machine unit and a random horizontal sewing machine unit consisting of a random jumping sewing machine configured to operate in response to an output signal of the random vertical sewing machine unit and the random horizontal sewing machine. Processing unit At least one of the Tsu: it is two units continuously provided, and constitutes a random machining apparatus in an inkjet printing system which is adapted to operate them alternately.

Further, according to the present invention, the random processing unit constitutes a random processing apparatus in an ink jet printing system comprising a random file hole punch processing unit and a marginal hole row punch processing unit.

Still further, according to the present invention, there is provided an ink jet printing system for performing multicolor printing on both front and back sides of a continuous paper moving relatively to an ink jet printer in accordance with a desired layout pattern, wherein the continuous paper has a widthwise direction. First and second ink jet print heads arranged to form an ink jet line, a platen roll having a tacho encoder, and mark detecting means for detecting a cue mark on continuous paper and outputting a cue mark detection signal. anda jet printing unit of the first n ₁ ~ the n _n which is regularly spaced in the longitudinal direction of the continuous paper to perform printing of the n colors on one surface of the continuous paper, the continuous paper The M ₁ -M _{n -th} inks are regularly spaced in the longitudinal direction of the continuous paper so as to print M color on the other surface of the paper. An ink jet printer constituted by an ink jet print unit and a random processing unit including a random mark detecting means provided downstream of the ink jet printer, wherein the random processing unit reads a random mark provided on continuous paper. The random vertical sewing machine unit and / or the random vertical sewing machine unit comprising at least one of a random vertical sewing machine unit and a random horizontal sewing machine unit configured to operate in response to an output signal of the detection means. At least one of the horizontal sewing processing units is connected in series, and constitutes a random processing apparatus in an ink jet printing system in which the two units are alternately operated.

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a random processing device in an ink jet printing system according to the present invention will be described in detail based on a specific embodiment shown in the drawings. FIG. 1 is an overall view of a basic device configuration example of an inkjet printing system according to the same applicant, FIG. 1A is a schematic plan view of the device, and FIG. FIG. 7 is a corresponding schematic front view. FIG.
And FIG. 3 shows a state of a traveling path of continuous paper as a print medium in the apparatus, and FIG. 2 shows a print processing unit on the upstream side of the apparatus and the front side of the continuous paper. FIG. 3 is a schematic front view showing the continuous paper in a see-through manner, and FIG.
FIG. 2 is a schematic front view showing a print processing unit on the downstream side of the apparatus and on the back side of the continuous paper through the continuous paper.
2 and FIG. 3, the upward arrow at the right end shown in FIG.
Is connected to the leftward upward arrow shown in FIG.

FIG. 4 is a block diagram related to a plan view of the apparatus for explaining the outline of the ink jet printing system. FIG. 5 is a schematic perspective view illustrating an example of a sheet feeding unit in the apparatus. FIG. 6 is a schematic perspective view showing an example of a printed pattern by the ink jet printing system. FIG. 7 shows an example of a print layout in the length direction of the continuous paper. FIG. 7B is a schematic plan view showing an example of a single layout, and FIG. 7B is a schematic plan view showing an example of a multi-layout, which includes an invoice with a description of a different information amount in the length direction of the continuous paper. FIG. 7C is a schematic plan view showing another example of the multi-layout, and showing an example for direct mail including a letterhead area in the length direction of the continuous paper.

On the other hand, FIG. 8 is a schematic front view showing a specific embodiment of a random processing device according to the present invention, which is lined by combination on the downstream side of an ink jet printer in an ink jet printing system. FIG. FIG. 9 is a schematic plan view corresponding to FIG. FIG. 10 is a schematic plan view showing an example of an embodiment of random processing on continuous paper.

First, a specific configuration of an ink jet printing apparatus to which the present invention is applied will be described with reference to FIGS. According to this specific embodiment, the inkjet printing apparatus includes a paper feed unit 6, a first print processing unit 1, a second print processing unit 2, and a third print processing unit 3 for continuous paper CP. , Fifth print processing unit 5, fourth print processing unit 4, processing unit 7, and paper discharge unit 8
Consists of one line. In this configuration, what is particularly noticed is that the fourth print processing unit 4 and the fifth print processing unit 5 are reversed in one line. A detailed description on this point will be described later.

As shown in detail in FIG.
Has a continuous paper holding unit 9 that rotatably holds a roll of continuous paper CP. The continuous paper holding unit 9 is provided with a lifting arm 10, an arm guide plate 11, a side lever handle 12, a lifting lever 13, and an impact wrench 14.

The paper feed section 6 is provided with a powder brake mechanism 15. The powder brake mechanism 15 includes a tension control detection roll 1 installed in the paper feeding unit 6.
6 controls the powder brake provided on the paper feed shaft so as to obtain a desired tension. The tension control detection roll 16 detects the continuous paper tension (tension) in the machine, and controls the powder brake so that the continuous paper keeps a constant tension (set value by the tension control) while the continuous paper is running at a constant speed. I do. Reference numeral 17 denotes a powder brake operation panel.

The paper feed section 6 is provided with a paper dust removing device 18, a static electricity removing device 19, a first guide roller 20, and an edge guider 21. The first guide roller 20 and each of the guide rollers 22 provided in the running path of the continuous paper CP in the machine are constituted by ball bearings having a small rotational load, whereby the tension of the continuous paper is reduced. And enable ultra-high speed running. Further, the edge guider 21 is for preventing the continuous paper from meandering, thereby also enabling ultrahigh-speed traveling.

Next, the relationship of the running path of the continuous paper CP to the ink jet printing apparatus will be described with reference to FIGS. The continuous paper CP set in the paper supply unit 6 includes a first guide roller 20, an edge guider mechanism 21, a guide roller group 22, and a platen roller P.
Along the continuous paper path formed by R1 to PR5, an average of 200
Super high speed running at m / min. (MAX 260m / min.) is possible.

The continuous paper CP is supplied to a first drying unit 24 provided downstream of the second print processing unit 2 and the third drying unit 24.
Drying means 2 provided downstream of the print processing unit 3
5, a third print processing unit 5 provided downstream of the fifth print processing unit 5;
Detouring through the drying means 26 via the guide roller group 22.

Each of the drying means 24, 25 and 26 is of a microwave drying type using a microwave, and reduces damage (expansion and contraction) to the running continuous paper CP.
Ultra-high-speed printing is enabled by performing efficient drying. The temperature of the microwave drying apparatus is set to be between room temperature and 55 ° C. for the purpose of preventing dew condensation in the drying oven. The surface temperature of the continuous paper after drying was about 70 ° C.

The ink jet printing apparatus includes a continuous paper reversing and traveling mechanism 27 for running the continuous paper CP in a state where the continuous paper is turned upside down in the ink jet printing apparatus. The continuous paper reversing and traveling mechanism 27 is provided between the third print processing unit 3 and the fourth print processing unit 4, and is connected to the first print processing unit 1 to the third print processing unit 3. The running direction of the continuous paper in the fourth print processing unit 4 to the fifth print processing unit 5 is configured to be opposite to the running direction of the continuous paper.

Accordingly, the continuous paper CP is the first paper.
The first to third print processing units 3 travel in the inkjet printing apparatus with the first surface (front surface) facing upward, and the fourth print processing unit 4
The fifth print processing unit 5 travels in the inkjet printing apparatus with the second surface (back surface) facing upward, and as shown in FIG. The printing process is performed on the front surface CPa, and as shown in FIG.
A print process is performed on the back surface CPb of P.

The ink jet printing apparatus includes a first monitoring means 28 for monitoring a printing process state and a second monitoring means 28 for monitoring a printing process state.
Monitoring means 29. The first monitoring means 28
Is a television camera that monitors the print state of the continuous paper CP printed on the front surface CPa side by the first print processing unit 1 to the third print processing unit 3, and the second monitoring unit 29 This is a television camera that monitors the state of printing on the back side CPb of the continuous paper CP by the fourth print processing unit 4 to the fifth print processing unit 5.

The ink jet printing apparatus has platen rollers PR1 to PR5 for each of the print processing units. The platen rollers PR1 to PR5 are installed below the print head. For example, in the first platen roller PR1, the third platen roller PR3, and the fourth platen roller PR4, the continuous paper CP is used.
Is run so that the contact angle in the running direction is about 120 °. The continuous paper wound around is held down by a rubber roller or the like to prevent slippage between the continuous paper and the platen roller, thereby improving the print quality at ultra-high speed with a precise feed amount.

The ink jet printing apparatus has a random processing section 7 for a printed continuous paper.
The random processing unit 7 performs, on the printed continuous paper, punching of a marginal hole row, punching of a filing hole, horizontal perforation, vertical perforation, etc., based on a detection mark printed online. Do it. In the processing position alignment in the random processing section 7, the entire drive box for vertical and horizontal perforation processing and file punch processing is controlled to be aligned with the detection mark position, so that the load on the continuous paper is reduced without difficulty, and the driving of the processing apparatus is performed. By adopting the method of directly controlling the system, it is hardly affected by the continuous paper, the control time is short, and random processing at ultra high speed is possible.

In the random processing section 7, mainly for perforation processing, two of the perforations may be installed and operated alternately to cope with high-speed processing.

The ink jet printing apparatus has a paper discharge section 8 at the final stage of the apparatus. In the embodiment shown in the figure, the paper discharge section 8 is constituted by a winding means for winding the printed continuous paper into a roll.
The printed continuous paper can be appropriately processed into a roll shape, a folded shape, and a sheet shape according to the final product form.

Further, in the ink jet printing apparatus, a system in which the print heads PH1 to PH10 are pulled out to the operation side can be adopted. With this configuration, it is possible to run continuous paper with stable in-machine tension immediately after the start of the next work without changing the in-machine tension during printhead maintenance work required for ink-jet printing work. can do.

Next, the configuration of the first to fifth print processing units 5 in the ink jet printing apparatus will be described in detail. First, FIG.
In the embodiment shown in FIGS. 4 to 4, the ink jet printing apparatus has a 10-head configuration, and prints the surface CPa side of the continuous paper CP in three colors of black, blue, and red. The back side CPb is printed in two colors, black and blue. still,
The above configuration is an example, and the number of colors and types of colors are not limited at all. That is, the continuous paper C
N _n color print processing can be performed on one surface of P, and M _n color print processing can be performed on the other surface of the continuous paper CP.

[0029] The ink jet printing apparatus has a 10
Of the ten ink jet print heads PH1 to PH10, and two of the ten ink jet print heads PH1 to PH10 are paired to form print units PU1 to PU5, and these print units PU1 to PU5 are formed. This constitutes the inkjet printing means 30.

The ink jet printing means 30 comprises:
The system controller 31 comprises a data system DS1 to DS5 for controlling each of the print units PU1 to PU5 and a print station PS1 to PS10 for controlling each of the ink jet print heads PH1 to PH10. A print signal is supplied to the heads PH1 to PH10.

The ink jet print head PH1
PH10 to PH10 are arranged so as to perform continuous printing over the page width on continuous paper CP which moves relatively in the direction of arrow A with respect to the ink jet printing apparatus. Each inkjet print head PH1 to P
H10 consists of a printhead that forms a regularly spaced array of inkjet rows, 4.25 inches long and 240 dots per inch.

The ink jet printing apparatus includes platen rolls PR1 to PR5 each having a tach encoder TE1 to TE5 for each of the print units PU1 to PU5.
And the tach encoders TE1 to TE5 are
The movement of the continuous paper CP is monitored, and a speed signal for cooperating with the movement of the continuous paper CP is transmitted via the tach encoder / queue controller 50 to the data systems DS1 to DS1.
Output to DS5.

Further, the ink jet printing apparatus detects a cue mark 32 for detecting the cue mark 32 printed on the continuous paper CP or printed by the first print unit PU1 for each of the print units PU1 to PU5. Means MS1 to MS5 are provided. The cue mark detecting means MS1 to MS5
Detects the cue mark 32 and outputs a cue mark detection signal, which adjusts the printing of information on the continuous paper CP. The output signal of the cue mark detecting means MS1 is transmitted to the sheet transporting device 51 and the system controller 31.
And the output signals of the cue mark detecting means MS2 to MS5 are supplied to the data systems DS1 to DS via the tacho encoder / queue controller 50 and the system controller 31, respectively.
Supplied to 5.

The cue mark 32 is a timing mark for adjusting the print position in each of the data systems DS1 to DS5. A cue mark read signal is sent to each of the data systems DS1 to DS5, whereby printing is performed. Be started. The cue mark 32 is printed at a predetermined position on the continuous paper at the supply stage of the continuous paper CP,
For the blank continuous paper in the supply stage of the continuous paper CP, the first
Print processing by the print unit PU1.

The cue mark 32 is provided for the cue mark display area 33. The cue mark 32 is a rectangular mark having a size in the length direction of the continuous paper of about 6 mm and a size in the width direction of the continuous paper of about 5 mm.

Next, a pattern of a product printed by the ink jet printing system will be described with reference to FIGS. According to the inkjet printing system described above, a printed product having a pattern as shown in FIG. 6 can be provided. That is,
Provide printed products that enable front and back double-sided printing, front and back double-sided multicolor printing, and front and back double-sided multi-layout printing. According to the example shown in FIG. 6, one side (front side) CPa and the other side (back side) CPb of the continuous paper are provided with an address and a name 34 for each customer, an individual message 35, a detail item 36 (a detail item 36). Can be printed as many as the number of pages required for each individual, and can be printed continuously on the back side for customers with many specification items), imprints 37, frames 38, logos, illustrations, maps 39, etc. Is done.

Further, according to the above-described ink jet printing system, it works extremely effectively particularly for a multi-layout print as exemplified in FIGS. 7B and 7C. For example, according to the example shown in FIG. 7B, when laying out a bill with a statement, one bill in the length direction of the continuous paper CP is allocated to the bill area 4 in accordance with the number of detail items.
With respect to 0, the specification area 41 for writing specification items can be set by appropriately changing the number of pages. FIG. 7C
According to the example shown in FIG. 7, when laying out a direct mail, the mail is divided into one in the length direction of the continuous paper CP such as a letter head area 42, a greeting area 43, a product guidance area 44, and an application form area 45. Can be set. FIG.
B and FIG. 7C show an example of a multi-layout on the front side of the continuous paper, but this multi-layout can be carried out without change on the back side of the continuous paper as shown in FIG. it can. These are merely examples, and the range of the multi-layout is not limited to the above configuration and the example shown in the drawings.

Next, a description will be given of a specific embodiment of a random processing apparatus connected to the downstream side of the ink jet printer and formed into a line with respect to the above ink jet printing system. The random processing device according to the present invention is basically a random processing such as random vertical perforation processing, random horizontal perforation processing, and random file hole punching for a desired information processing area printed out. The two random vertical perforation processing units 53, 53 that individually perform post-processing are lined by appropriately combining the two random horizontal perforation processing units 54, 54. The two random vertical perforation processing units 53, 53 and the random horizontal perforation processing units 54, 54 are alternately operated to correspond to high-speed processing.

In the embodiment shown in FIGS. 8 and 9, the random file hole punching unit 5 is used.
5 is not shown, but according to a preferred combination example, the random vertical perforation processing units 53, 53 or the random horizontal perforation processing units 54, 54
May be replaced with the random file hole punching unit 55 and combined.

Further, in the embodiment shown in FIGS. 8 and 9, a marginal hole row punching unit 56 for processing a marginal hole row, and the burrs generated by the processing by each of the upstream processing units are crushed. Pressure processing unit 57 is combined.

According to the present invention, the variable data printed by the ink jet printer is subjected to random vertical perforation, random horizontal perforation, and random file hole punching at necessary places. The random vertical perforation, the random horizontal perforation, and the random file hole punching are operated based on, for example, the cue mark 32 and the random mark 60 printed online. The random mark 60 is provided in a page section of the continuous paper CP that requires random processing, and is printed, for example, at the position shown in FIG. The position where the random mark 60 is provided is not limited to the embodiment shown in FIG.

In the random machining apparatus according to the present invention, the random mark detecting means 6 for reading the random mark 60
1, a cue mark detecting means 62 for reading the cue mark 32, and a positioning control detecting means 63 for reading and positioning the cue mark 32. The random mark detecting means 61 comprises a random mark detecting sensor,
Read 0 and output a signal for random processing.
The cue mark detection means 62 is configured by a cue mark detection sensor, configured to read the cue mark 32, set a paper transport position after the cue mark detection in advance, and perform random processing on the set position. I have.

The alignment control detecting means 63 operates based on the cue mark 32 printed online, detects the cue mark 32, and verifies the random processing position. Based on the detected output signal, the gear control amounts of the drive gear boxes 64, 65, 66, and 67 combined to drive the respective processing units can be adjusted and finely adjusted.

The drive system of the random processing device is the same as the drive system of the paper transport, and is configured to receive the drive shaft 68 via the drive gear boxes 64, 65, 66 and 67.

In the random processing apparatus according to the present invention, when the random mark 60 printed on the continuous paper CP online is read by the random mark detecting means 61, the random mark 60 on the continuous paper CP is displayed. In the information processing section, a random vertical perforation 69 by the random vertical perforation processing unit 53, a random horizontal perforation 70 by the random horizontal perforation processing unit 54,
The file holes 71 by the random file hole punching unit 55 are selectively processed according to preset programs.

The processing of the marginal hole row 72 on the continuous paper CP is performed by the marginal hole row punching unit 56.

The positioning control detecting means 63 detects the cue mark feed timing by reading the cue mark 32, and outputs a detection signal to the drive gear box when the cue mark timing is shifted. The position of the sheet is adjusted by changing the gear rotation amount in the drive gear box.

In one embodiment of the random processing for continuous paper shown in FIG. 10, a transverse line 73 for dividing each page at a predetermined interval in the length direction of the continuous paper is cut by a cutter. Alternatively, a perforation may be performed by a horizontal perforation processing unit combined with the processing section 7.

[0049]

As described above, the random processing device in the ink jet printing system of the present invention having the above-described structure is provided with a random processing unit for randomly processing perforation processing and punch hole processing at the downstream side of the ink jet printer. It is very effective for various information processing in that variable data printed by ink-jet can be processed to required parts (vertical and horizontal random sewing processing, random file punch processing). It can be said that.

Further, according to the random processing apparatus in the ink jet printing system according to the present invention, the entire drive gear box for vertical and horizontal random sewing processing and random file punch processing is controlled in accordance with the detection mark position. By adopting a method that reduces the load without difficulty and directly controls the drive system of the processing device, it is extremely effective in that it is not easily affected by paper, the control time is fast, and random processing at ultra high speed is possible. It works.

Further, according to the random machining apparatus according to the present invention, the random vertical perforation unit having two random vertical perforations is alternately operated to process the random horizontal perforations. With a random horizontal perforation processing unit equipped with two
It can be said that this is also very advantageous in that the processing is performed by alternately operating the processing so as to correspond to high-speed processing.

[Brief description of the drawings]

FIG. 1 is an overall view of an example of a basic device configuration of an ink jet printing system, and FIG.
1 is a schematic plan view of the device, and FIG.
It is a schematic front view corresponding to A.

FIG. 2 is a view showing a state of a running path of continuous paper as a print medium in the apparatus, in which a print processing unit on an upstream side of the apparatus and a front side of the continuous paper is continuously printed; It is a schematic front view shown by seeing through paper.

FIG. 3 is a schematic front view showing a print processing unit on the downstream side of the apparatus and on the back side of the continuous paper as seen through the continuous paper.

FIG. 4 is a block diagram shown in connection with a plan view of an apparatus for explaining an outline of an inkjet printing system.

FIG. 5 is a schematic perspective view illustrating an example of a sheet feeding unit in the apparatus.

FIG. 6 is a schematic perspective view showing an example of a pattern printed by the inkjet printing system.

7A and 7B illustrate an example of a print layout in the length direction of continuous paper. FIG. 7A is a schematic plan view illustrating an example of a single layout.
FIG. 7B is a schematic plan view showing an example of a multi-layout including an invoice with a description having a different information amount in the length direction of the continuous paper, and FIG. FIG. 11 is a schematic plan view showing an example for direct mail including a letterhead area in the length direction of the continuous paper.

FIG. 8 relates to the present invention, and forms a line by appropriately combining a random vertical perforation processing unit 53, a random horizontal perforation processing unit 54, and a random file hole punching unit 55. is there.

FIG. 9 is a schematic plan view corresponding to FIG. 8;

FIG. 10 is a schematic plan view showing an example of an embodiment of random processing on continuous paper CP.

[Description of Signs] CP Continuous Paper 1 First Print Processing Unit 2 Second Print Processing Unit 3 Third Print Processing Unit 4 Fourth Print Processing Unit 5 Fifth Print Processing Unit 6 Paper Feeding Unit 32 Cue Mark 53 random vertical perforation processing unit 54 random horizontal perforation processing unit 55 random hole perforation processing unit 56 marginal hole row punch processing unit 57 pressurization processing unit 60 random mark 61 random mark detection means 62 cue mark detection means 63 positioning Control detecting means 64 to 67 Drive gear box 68 Drive shaft 69 Random vertical perforation 70 Random horizontal perforation 71 File hole 72 Marginal hole row DS1 to DS5 Data system PS1 to PS10 Print station PU1 to PU5 Print uni DOO PH1 ～PH10 printhead PR1 ～PR5 platen roller TE1 ～TE5 octopus encoder MS1 ～MS5 cue mark detecting means

Claims (6)

[Claims] 1. An ink jet printing system for performing multi-color printing in accordance with a desired layout pattern on both sides of continuous paper moving relatively to an ink jet printer, wherein a mark detecting means is provided downstream of the ink jet printer. A random processing apparatus in an ink-jet printing system, comprising a random processing unit provided. 2. The ink jet printing system according to claim 1, wherein said random processing unit operates in response to an output signal of a mark detecting means for reading a random mark provided on continuous paper. Random processing equipment. 3. The random processing device according to claim 1, wherein the random processing unit comprises a random jumping sewing machine, and is a random vertical sewing machine processing unit and a random horizontal sewing machine processing unit. 4. The random processing apparatus according to claim 3, wherein at least two of the random processing units are arranged in series and operated alternately. 5. The random processing device according to claim 1, wherein the random processing unit comprises a punch hole processing device. 6. An ink-jet printing system for performing multi-color printing according to a desired layout pattern on both sides of continuous paper moving relatively to an inkjet printer, wherein the width direction of the continuous paper is divided into a plurality of rows. First and second inkjet printheads forming inkjet rows at regular intervals in the length direction of the continuous paper for printing, and a print station controlling the printheads for each of the printheads. hints, the ink jet printing unit and the other surface of the continuous paper of the n ₁ ~ the n _n that performs printing of n colors on one surface of the continuous paper of the M ₁ ~ the M _n for performing printing of color M Ink-jet printer composed of ink-jet print units, which move relative to the ink-jet printer An ink-jet printing system for performing multi-color printing according to a desired layout pattern on both front and back sides of a continuous paper, comprising a random processing unit provided with mark detection means on the downstream side of the ink-jet printer, provided on a continuous paper. A random processing device in an ink jet printing system, which operates in response to an output signal of a mark detecting means for reading the random mark.