JP2005001256A - Imposition system and method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To make it unnecessary for an operator to make a calculation again for allocating pages or putting a mark on a printing plate even when a printing machine or paper is changed. <P>SOLUTION: The imposition system comprises a storage means for hierarchically storing management information on an imposing component to be allocated on the printing plate and an allocating means for allocating the imposing component on the printing plate by determining an allocation criterion for allocating the imposing component by referring to the storage means and calculating an offset value to the allocation criterion. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention belongs to the technical field of offset printing, and particularly relates to an imposition system and method in a plate making process.
[0002]
[Prior art]
Conventionally, imposition work in the process of creating a printing plate is performed while considering the specifications of the printing press, such as the size of the printing plate, the order of folding, and the position of the mark added to operate each sensor. The position of each page image and mark is determined at which position on the printing plate.
[0003]
In addition, in order to reduce the time and labor of imposition work and eliminate erroneous work, an automatic imposition device that performs imposition calculation based on page data and specification data and creates a printing plate image has been conventionally used. (For example, refer to Patent Document 1).
[0004]
[Patent Document 1]
Japanese Patent Laid-Open No. 2000-326473
These imposition operations are performed when the operator determines the size of the printing plate, the size of the paper, the printing plate and the paper, even if a certain mark enters 5 mm from the right edge of the paper according to the specifications of the printing press. However, there is a problem that the arrangement position on the basis of the left end of the holding plate side of the printing plate must be calculated and instructed.
[0006]
In particular, when a change of the printing press or paper is made, the worker needs to recalculate the placement position of each page on the printing plate and the placement of the additional mark according to the contents of the change. It takes a lot of time and effort and is a heavy load.
[0007]
[Problems to be solved by the invention]
The present invention has been made to solve the above problem, and even when the printing machine or paper is changed, the worker recalculates the layout position of each page and the layout of additional marks on the printing plate. The purpose is not to do.
[0008]
[Means for Solving the Problems]
According to a first aspect of the present invention, in an imposition system for arranging a page image and a mark on a printing press plate, storage means for hierarchically storing management information of imposition components arranged on the printing plate; An arrangement means for determining an arrangement reference for the imposition component with reference to the storage means, and arranging the imposition part on the printing plate by calculating an offset value with respect to the arrangement reference; is there.
[0009]
According to a second aspect of the present invention, in the imposition system according to the first aspect described above, reference setting means for setting an arrangement reference for arranging the imposition component in the arrangement means, and an offset from the arrangement reference Position calculating means for calculating an arrangement position on the printing plate on which the imposition part is arranged according to a value; rotating means for rotating the imposition part based on information stored in the storage means; and And an imposition component placement means for placing on the board.
[0010]
According to a third aspect of the present invention, in the imposition system according to the first or second aspect described above, the imposition part is virtually arranged on a printing plate part such as a page image or a plate-making surface image, and on the printing plate. This is composed of virtual parts assumed in the above and marks arranged on the printing plate.
[0011]
According to a fourth aspect of the present invention, in the imposition system according to any one of the first to third aspects described above, the storage means stores component storage means for storing management information of the printing plate part and the virtual part, and the mark. Mark storage means for storing the management information.
[0012]
According to a fifth aspect of the present invention, in the imposition system according to the first to fourth aspects described above, the component storage means includes hierarchical information for arranging the printing plate component and the virtual component, and each component in the same hierarchy. A part number for identifying the part, an upper part number indicating a part in the upper hierarchy of the part, an offset value from the origin position of the part in the upper hierarchy of the part, and a component placement direction for the part in the upper hierarchy of the part Information.
[0013]
According to a sixth aspect of the present invention, in the imposition system according to the first to fifth aspects described above, the mark storage means includes hierarchical information for arranging the mark, and a specific component on the hierarchy for arranging the mark. , The origin position information serving as a reference for calculating the arrangement position of the mark, and the offset value of the mark from the origin position.
[0014]
According to a seventh aspect of the present invention, in the imposition system according to the first to sixth aspects described above, when the imposition component to be arranged is the printing plate component or the virtual component in the reference setting means, the component A component reference setting unit that refers to a storage unit, identifies an upper layer component of the arrangement component, and sets an arrangement coordinate on the printing plate at a predetermined origin position of the upper layer component as an arrangement reference of the imposition component. It is provided.
[0015]
According to an eighth aspect of the present invention, in the imposition system according to the first to seventh aspects described above, when the imposition component to be arranged is the mark, the reference setting means refers to the mark storage means, A mark reference setting unit is provided for specifying a hierarchy in which the mark is arranged and setting an arrangement coordinate on the printing plate of the origin position information stored in the mark storage unit as an arrangement reference of the mark.
[0016]
According to a ninth aspect of the present invention, in the imposition system according to the first to eighth aspects described above, the position calculation unit stores an offset value stored in the component storage unit or the mark storage unit from the set arrangement reference. The arrangement position of the imposition part on the printing plate is calculated based on the above.
[0017]
According to a tenth aspect of the present invention, in the imposition system according to the first to ninth aspects, the rotating means refers to the component storage means when the imposition component to be arranged is the printing plate part. The printing plate part is configured to rotate based on the part arrangement direction information.
[0018]
According to an eleventh aspect of the present invention, in the imposition method for arranging a page image and a mark on a printing press plate, the step of hierarchically storing management information of imposition parts arranged on the press plate, With reference to the stored imposition component management information, a step of setting an arrangement reference serving as a reference for calculating the arrangement position of the imposition component, and an offset value stored in the storage means from the set arrangement reference The step of calculating the arrangement position of the imposition part on the printing plate is performed.
[0019]
According to a twelfth aspect of the present invention, in the imposition method according to the eleventh aspect described above, the placement means, the printing plate part to be placed on the printing plate, and the management of the reference part virtually assumed as a reference on the printing plate. The step of storing information in association with other parts in the upper layer and the step of storing in association with hierarchical information on the printing plate on which management information of marks to be arranged on the printing plate are stored are performed.
[0020]
According to a thirteenth aspect of the present invention, in the imposition method according to the eleventh or twelfth aspect, in the step of setting the arrangement reference, the imposition part to be arranged is the printing plate part or the virtual part. Identifying the upper layer component of the imposition component with reference to the component storage means, and setting the arrangement coordinates of the upper layer component at the predetermined origin position on the printing plate as the arrangement reference of the imposition component Stage.
[0021]
According to a fourteenth aspect of the present invention, in the imposition method according to the above eleventh to thirteenth aspects, in the step of setting the arrangement reference, the imposition part in the lower hierarchy is arranged in the order of the imposition part in the lower hierarchy. An arrangement reference is set.
[0022]
According to a fifteenth aspect of the present invention, in the imposition method according to the eleventh to fourteenth aspects described above, in the step of setting the arrangement reference, the mark storage means is provided when the imposition component to be arranged is the mark. The step of referring to and specifying the hierarchy in which the mark is arranged and the step of setting the arrangement coordinates on the printing plate of the origin position information stored in the mark storage means as the arrangement reference are performed.
[0023]
According to a sixteenth aspect of the present invention, in the imposition method according to the above eleventh to fifteenth aspects, when the imposition part to be arranged is the printing plate part, the storage means is referred to and the component arrangement direction information is referred to. Based on this, a step of rotating the printing plate part is performed.
[0024]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described based on the illustrated embodiments. FIG. 1 is a configuration diagram showing an embodiment of the imposition system of the present invention.
[0025]
The imposition system is actually a computer system. From the viewpoint of hardware, a computer recording device (magnetic disk, optical disk, etc.) for recording information, and an input device (keyboard, mouse, Bar code reader, etc.), a CPU for performing calculations, a display device such as a CRT for displaying results, a communication device for exchanging information with other devices, and the like from the viewpoint of software, storage means 1 and arrangement means 2 It has.
[0026]
The storage unit 1 includes a component storage unit 3 and a mark storage unit 4, a printing plate part such as a page image and a plate making imposition image arranged on the printing plate, a virtual part arranged virtually like a paper, a mark For example, the management information of the imposition parts arranged on the printing plate is stored in the storage device.
[0027]
The component storage unit 3 stores management information (including size information of each component, not shown) of the printing plate component and the virtual component, and each component can be identified by the hierarchical information and the component number.
[0028]
Further, the component storage means 3 can identify the component in the upper hierarchy by the upper component number, and indicates the arrangement position coordinate from the predetermined origin of the component in the upper hierarchy by the offset value.
[0029]
If there is a printing plate part whose top and bottom is reversed with respect to the upper layer part, the difference from the upper layer part direction is specified by an angle such as “180 °”, for example, by the part arrangement direction information. To do.
[0030]
The mark storage means 4 stores mark management information (including size information of each mark, etc., not shown), and designates a hierarchy and a part on which the mark is arranged by hierarchy information and a part number.
[0031]
The origin position information is used to specify which position of the part where the mark is to be specified, which is specified by the hierarchical information and the part number, is used as the origin, and the offset value is a position coordinate from the origin position. Show.
[0032]
The arrangement unit 2 includes a reference setting unit 5, a position calculation unit 6, a rotation unit 7, and an imposition component arrangement unit 8. The storage contents of the storage unit 1, an imposition template created in advance, specification data, and the like. Is used for imposition.
[0033]
The reference setting unit 5 sets an arrangement reference for arranging imposition parts based on the storage items of the component storage unit 3 and the mark storage unit 4, and includes a component reference setting unit 9 and a mark reference setting unit 10. Yes.
[0034]
The component reference setting unit 9 refers to the component storage unit 3 when the imposition component to be arranged is a printing plate component or a virtual component, identifies the upper layer component of the imposition component, and determines the upper layer component in advance. The arrangement coordinates on the printing plate at the origin position are set as the arrangement reference of the imposition parts.
[0035]
When the imposition part to be arranged is a mark, the mark reference setting means 10 refers to the mark storage means 4, identifies the hierarchy in which the mark is arranged, and stores the origin position information stored in the mark storage means 4 on the printing plate. Is set as an arrangement reference.
[0036]
The position calculation means 6 calculates the placement position of the imposition part on the printing plate by calculating the offset value stored in the storage means 1 based on the placement reference set by the reference setting means 5.
[0037]
The rotation unit 7 refers to the component arrangement direction information stored in the component storage unit 3 when the imposition component to be arranged is a printing plate part, and based on the specified component arrangement direction information, the plate part Is rotated with respect to the upper layer part.
[0038]
The imposition component arranging means 8 actually arranges each imposition component on the printing plate after calculation of arrangement positions for all the imposition components is completed.
[0039]
Here, the printing plate produced by the imposition system of the present invention will be described with reference to a general 16-page folding plate shown in FIG.
[0040]
In the printing plate 11 of FIG. 2, four pages 1, 8, 9, 16 are printed on the fourth left side of the first plate-making imposition 12 on the fourth page, 4, 5, 12, 13 and the second Based on the lower left end of the plate imposition 13, it is arranged on each plate imposition.
[0041]
The first plate making imposition 12 and the second plate making imposition 13 are respectively arranged at predetermined positions on the paper 14 with the lower left end of the paper 14 as a reference.
[0042]
Although the paper 14 is not actually placed on the printing plate 11, it is a reference when placing the plate making imposition, and is virtually on the printing plate 11 with the lower left end of the printing plate 11 as a reference. To arrange.
[0043]
The first mark 15 is a mark added to the printing plate indicating the printing plate information, and is arranged at the upper left of the printing plate 11 with the lower left end of the printing plate 11 as a reference, for example.
[0044]
The second mark 16 is a mark added to the plate making imposition such as a spine, for example, at the center of the first plate making imposition 12 with the lower left end of the first plate making imposition 12 as a reference. Deploy.
[0045]
The third mark 17 is a mark used by a printing machine sensor such as a register mark, and is arranged at the upper right of the paper 14 with the lower left end of the paper 14 as a reference, for example.
[0046]
An example of the management information of the printing plate parts and the virtual parts in the printing plate 11 is shown in FIG. The printing plate 11 has hierarchical information “1”, and since there is only one part in the same hierarchy, the part number is “1”. Since it is the highest hierarchy, other items may be blank.
[0047]
Next, since the sheet 14 is a lower layer of the plate 11, the layer information is set to “2”, and since there is only one component in the same layer, the part number is set to “1”, and the upper part number is printed. The part number “1” of the plate 11 is designated.
[0048]
Since the printing plate 11 and the paper 14 have the same arrangement direction, the component arrangement direction information is set to “0 °”, and an offset value “(10, 40)” from the lower left end of the printing plate 11 is set. specify.
[0049]
Next, plate making imposition management information to be arranged on the paper 14 is determined. Since both the first plate making imposition 12 and the second plate making imposition 13 are lower layers of the paper 14, the hierarchical information is set to “3”, and the upper component information designates the component number “1” of the paper 14. Then, since the components are arranged in the same direction as the upper hierarchy, the component arrangement direction information is set to “0 °”.
[0050]
Since the two plate making impositions are arranged on the paper 14, the part number of the first plate making imposition 12 is "1", the part number of the second plate making imposition 13 is "2", and each paper is The offset values “(10, 10)” and “(450, 10)” from the lower left end of 14 are set.
[0051]
Finally, management information for each page arranged on the plate making imposition is determined. Since the upper hierarchy is imposition for each plate making, the hierarchy information of each page is “4”, and a serial number or page number is set as a part number for each page.
[0052]
The pages 1, 8, 9, and 16 arranged in the first plate making imposition 12 of the upper hierarchy designate the part number “1” of the first plate making imposition 12 and the first plate making imposition. Each offset value from the lower left end of 12 is set.
[0053]
Each of pages 4, 5, 12, and 13 arranged in the second plate making imposition 13 of the upper hierarchy designates the part number “2” of the second plate making imposition 13 and the second plate making imposition. Each offset value from the lower left end of 13 is set.
[0054]
For pages where the plate making imposition and the top and bottom, which are higher layers, such as pages 5, 8, 9, 12 are specified, “180 °” is designated as the component placement direction information, and other top and bottom same as the plate making imposition The page designates “0 °” in the component arrangement direction information.
[0055]
An example of mark management information in the printing plate 11 is shown in FIG. Since the first mark 15 is a mark arranged at the upper left on the printing plate 11, referring to the component storage means 3 in FIG. 3, the hierarchical information “1” and the component number “1” of the printing plate 11 are respectively set. set.
[0056]
Next, it is set which position on the printing plate 11 the first mark 15 is to be placed at the origin. For example, as shown in FIG. 2, when the first mark 15 is arranged at a position (10, −10) away from the upper left of the printing plate 11, “top left” is the origin position information and “(10, − 10) "is set.
[0057]
Since the second mark 16 is arranged on the first plate making imposition 12, the hierarchical information “3” and the part number “1” of the first plate making imposition 12 are set, for example, the first plate making imprint. When the second mark 16 is arranged at a position (0, 20) away from the center of the tick 12, “center” is set in the origin position information and “(0, 20)” is set in the offset value.
[0058]
Since the third mark 17 is arranged on the paper 14, the hierarchical information “2” and the part number “1” of the paper 14 are set, for example, (−10, −10) away from the upper right edge of the paper 14. When the third mark 17 is arranged at the position, “upper right” is set as the origin position information and “(−10, −10)” is set as the offset value.
[0059]
Next, an operation for imposing the printing plate 11 of FIG. 2 using the management information of FIGS. 3 and 4 will be described based on the flowchart of FIG.
[0060]
The imposition process is performed in the order of 1) layout of plate parts and virtual parts, and 2) the layout of marks. Since both layouts are performed in order from the upper level, they are rearranged in ascending order of hierarchical information as necessary. deep.
[0061]
The first imposition part of the part storage means 3 is the printing plate 11 whose hierarchical information is “1”. Since the printing plate 11 is the highest layer, (0, 0) below the left end of the printing plate 11 itself is set as an arrangement reference for the paper 14.
[0062]
The arrangement reference may be stored in each record of the component storage unit 3 by adding an area, or may be stored in another storage area in a state associated with the hierarchical information and the component number.
[0063]
Next, the imposition component management information is sequentially read from the component storage means 3, and the hierarchy information is subtracted by one to obtain the hierarchy of the upper hierarchy component, and stored in the component storage means 3 within the hierarchy of the upper hierarchy component. The offset value is added to the placement reference of the upper-layer component having the part number that matches the higher-order part number and set as the placement reference for the imposition component, and the management information for all the imposition components ends. Repeat until.
[0064]
At this time, when the arrangement direction of the imposition component is reversed with respect to the upper layer component, the imposition component is rotated based on the angle specified in the component arrangement direction information.
[0065]
For example, when the management information of the imposition component that has been read is paper 14, the hierarchy information “2” is subtracted from the hierarchy information “2” to obtain the hierarchy “1” of the upper component, and the hierarchy information is “1”. The offset value (10, 40) is calculated with respect to the placement standard (0, 0) of the printing plate 11 having the part number “1” specified in the number, and the placement standard of the paper 14 is set to (10, 40).
[0066]
Further, when the management information of the imposition component that has been read is the first plate making imposition 12, “1” is subtracted from the hierarchy information “3” to obtain the hierarchy “2” of the upper part, and the hierarchy information is “2”. Then, the offset value (10, 10) is calculated with respect to the placement standard (10, 40) of the paper 14 having “1” specified as the upper part number as the part number, and the first plate making imposition is performed. The arrangement reference on the 12 printing plates is set to (20, 50).
[0067]
Since the placement reference (10, 40) of the paper 14 is the result of calculating the offset value of the paper 14 with respect to the origin of the printing plate 11, the first plate making imposition 12 with respect to the paper 14 position reference. The calculated offset value is the arrangement position on the printing plate 11 of the first plate making imposition 12 as viewed from the origin of the printing plate 11.
[0068]
On page 8, “180 °” is designated in the component arrangement direction information, and this indicates that the top and bottom of page 8 is reversed with respect to the first plate making imposition 12 of the upper layer. Therefore, it is rotated “180 °” at the time of arrangement.
[0069]
Next, the arrangement of marks will be described. The management information of the mark is sequentially read from the mark storage unit 4, and the offset value considering the origin position information is added to the layout information of the imposition component matching the hierarchical information and the part number stored in the mark storage unit 4, This is set as the mark arrangement reference, and is repeated until the management information of all marks is completed.
[0070]
For example, when the management information of the read mark is the first mark 15, the origin position information is relative to the arrangement reference (0, 0) of the printing plate 11 corresponding to the hierarchy information “1” and the part number “1”. Since it is “upper left”, the offset value (10, −10) is calculated by adding (0,700) to the vertical length of the printing plate 11 (for example, 700) to obtain the first mark 15 on the printing plate. The placement reference is set to (10,690).
[0071]
After calculating the arrangement positions for all the printing plate parts, virtual parts, and mark management information stored in the storage unit 1, the respective parts are arranged on the printing plate based on the calculated arrangement positions.
[0072]
As described above, the hierarchical management of units of printing plate, paper, plate-making imposition, and page has been described in detail based on the embodiment of the present invention. It can be changed and used.
[0073]
【The invention's effect】
As described above, according to the imposition system and method according to the present invention, by specifying the upper hierarchy and the relative position in the hierarchy, for example, “the edge of the sheet” can be used as in the normal work performed by the worker. It is possible to specify “how many mm inside from”.
[0074]
In addition, by managing the parts necessary for imposition hierarchically and specifying the upper hierarchy and the relative position in the hierarchy, the parts that will change even if there is a change in the printing press or paper It is possible to re-arrange the arrangement on the printing plate without having to calculate the arrangement on the printing plate only by correcting the management information of the parts related to the.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of an imposition system of the present invention.
FIG. 2 is an explanatory diagram of a printing plate handled in the present invention.
FIG. 3 is an example of the component storage means of the present invention.
FIG. 4 shows an embodiment of the mark storage means of the present invention.
FIG. 5 is a flowchart showing an operation for calculating an arrangement position of an imposition component of the imposition system of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Storage means 2 Arrangement means 3 Parts storage means 4 Mark storage means 5 Reference setting means 6 Position calculation means 7 Rotation means 8 Imposition part placement means 9 Parts reference setting means 10 Mark reference setting means 11 Plate 12 First plate making surface Attaching 13 Second plate-making imposition 14 Paper 15 First mark 16 Second mark 17 Third mark

Claims (16)

An imposition system for arranging a page image and a mark on a printing plate,
Storage means for hierarchically storing management information of imposition parts arranged on the printing plate;
An arrangement means for locating the imposition component on the printing plate by determining an arrangement reference for the imposition component with reference to the storage means, and calculating an offset value with respect to the arrangement reference;
An imposition system comprising: The imposition system according to claim 1,
The placement means comprises:
Reference setting means for setting a placement reference for placing the imposition component;
A position calculating means for calculating a position on the printing plate on which the imposition component is arranged according to an offset value from the arrangement calculation reference;
Rotating means for rotating the imposition component according to information stored in the storage means;
Imposition component arrangement means for arranging the imposition component on the printing plate;
An imposition system comprising: The imposition system according to claim 1 or 2,
The imposition part is
Printing plate parts such as page image, image with plate making surface,
Virtual parts virtually assumed on the printing plate;
A mark to be placed on the printing plate;
An imposition system characterized by comprising: The imposition system according to any one of claims 1 to 3,
The storage means
Component storage means for storing management information of the printing plate component and the virtual component;
Mark storage means for storing management information of the mark;
An imposition system characterized by comprising: The imposition system according to any one of claims 1 to 4,
The component storage means
Hierarchical information for arranging the printing plate part and the virtual part;
A part number that identifies each part in the same hierarchy, and
An upper part number indicating an upper layer part of the part;
An offset value from the origin position of the upper layer part of the part;
Component placement direction information for a component in a higher hierarchy of the component,
An imposition system comprising: The imposition system according to any one of claims 1 to 5,
The mark storage means
Hierarchical information for placing the mark;
A part number for designating a specific part on the hierarchy in which the mark is arranged;
Origin position information serving as a reference for calculating the arrangement position of the mark;
An offset value from the origin position of the mark;
An imposition system comprising: The imposition system according to any one of claims 1 to 6,
The reference setting means is
When the imposition component to be arranged is the printing plate component or the virtual component, the component storage means is referred to, the upper layer component of the imposition component is specified, and the printing of the predetermined origin position of the upper layer component is performed. Component reference setting means for setting the arrangement coordinates on the plate as the arrangement reference of the imposition component;
An imposition system comprising: The imposition system according to any one of claims 1 to 7,
The reference setting means is
When the imposition part to be arranged is the mark, the mark storage unit is referred to, the hierarchy in which the mark is arranged is specified, and the arrangement coordinates on the printing plate of the origin position information stored in the mark storage unit are Mark reference setting means for setting as a mark placement reference;
An imposition system comprising: The imposition system according to any one of claims 1 to 8,
The position calculating means is
From the set arrangement reference, the arrangement position of the imposition part on the printing plate is calculated based on the offset value stored in the part storage unit or the mark storage unit.
An imposition system characterized by that. An imposition system according to any one of claims 1 to 9,
The rotating means is
When the imposition component to be arranged is the printing plate component, refer to the component storage means and rotate the printing plate component based on the component arrangement orientation information;
An imposition system characterized by that. An imposition method for arranging a page image and a mark on a printing plate,
A step of hierarchically storing management information of imposition parts arranged on the printing plate;
Referring to the stored imposition component management information, and setting an arrangement reference serving as a reference for calculating the arrangement position of the imposition component;
Calculating the placement position of the imposition part on the printing plate based on the offset value stored in the storage unit from the set placement reference;
The imposition method characterized by providing. The imposition method according to claim 11,
Storing the arrangement means and the printing plate parts to be arranged on the printing plate and the management information of the reference parts virtually assumed as the reference on the printing plate in association with other parts of the upper layer;
Storing management information of marks to be arranged on the printing plate in association with hierarchical information on the printing plate to be arranged;
The imposition method characterized by providing. The imposition method according to claim 11 or 12,
In the step of setting the arrangement reference,
When the imposition part to be arranged is the plate part or the virtual part,
Referring to the component storage means and identifying an upper layer component of the imposition component;
Setting an arrangement coordinate on the printing plate at a predetermined origin position of the upper layer part as an arrangement reference of the imposition part;
The imposition method characterized by providing. An imposition method according to any one of claims 11 to 13,
In the step of setting the arrangement reference,
Set the placement criteria in the order of the upper-level imposition parts to the lower-level imposition parts.
An imposition method characterized by that. The imposition method according to any one of claims 11 to 14,
In the step of setting the arrangement reference,
When the imposition part to be placed is the mark,
Referring to the mark storage means and identifying a hierarchy in which the mark is arranged;
Setting the arrangement coordinates on the printing plate of the origin position information stored in the mark storage means as an arrangement reference;
The imposition method characterized by providing. The imposition method according to any one of claims 11 to 15,
When the imposition part to be arranged is the printing plate part,
An imposition method comprising the step of referring to the storage means and rotating the printing plate part based on the part arrangement direction information.

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