JP2006035512A - Gravure printing plate, gravure printed matter and booklet - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a gravure printing plate which can thicken the density of a shadow part beyond the conventional density level in a direct gravure printing process, and a gravure printed mater and a booklet. <P>SOLUTION: This gravure printing plate for direct gravure printing comprises an outer frame parts 12 which retain no ink and ink retention parts 14 which are arranged inside the outer frame parts 12 and can retain the ink and further, an assembly of almost rectangular cells 10 as single units capable of regulating the size of halftone dots by regulating the area of the ink retention parts 14, formed on a printing plate. When the solid cells which enable the area of the ink retention parts 14 to be enlarged to a maximum possible size are adjacently present, a part of the outer frame part 12 of each mutually adjacent solid cell 10, is replaced with a connection part 16 which can retain the ink, in such a way that the ink retention parts 14 of the mutually adjacent solid cells 10 connect with each other. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a gravure printing plate, a gravure printed material, and a booklet, and more specifically, a gravure printing plate suitable for increasing the density of a shadow part in direct gravure printing, and a gravure printed material printed by the gravure printing plate And a booklet formed by binding the gravure printed matter.

  The direct gravure printing method is one of the main methods of gravure printing similar to the conventional gravure printing method and the engraving gravure printing method (Patent Document 1).

  In general, a gravure printing plate for direct gravure printing has a matrix of substantially rectangular cells 10 as a unit in which the size of halftone dots can be adjusted, as shown in the plan view of FIG. It is formed on the printing plate. Moreover, FIG.5 (b) is the figure which put in order two standing sectional conceptual diagrams in the cut surface along the XX line in Fig.5 (a).

  That is, the cell 10 has a so-called bank function for forming an outer frame of the cell 10 and includes an outer frame portion 12 that does not hold ink. Further, as shown in FIG. 5B, a frame-like recessed area surrounded by the outer frame part 12 is provided inside the outer frame part 12, and ink can be held by this recessed area. Ink holding portion 14 is formed. When adjusting the size of the halftone dot, the area of the ink holding part 14, that is, the area of the outer frame part 12 is adjusted.

  In order to form a solid halftone dot, the area of the ink holding part 14 is maximized as much as possible, that is, the outer frame part 12 is minimized as shown in FIG. This is done by using the holding unit 14.

  For example, when the cell 10 is formed by a rectangular cell of 20 × 20 = 400 as shown in FIG. 5A, in order to form a solid halftone dot, only the outermost 76 cells are formed. Is the outer frame portion 12, and 324 squares that are all squares other than the outer frame portion 12 are used as the ink holding portion 14. In this case, the area ratio of the ink holding portion 14 in the cell 10 is 324/400 = 81%.

In the case of forming a halftone dot other than a solid shape, it is performed by appropriately adjusting the area of the ink holding part 14, that is, the area of the outer frame part 12. That is, when it is desired to make the darkness of the halftone dots thinner, the area of the ink holding part 14 is made smaller, that is, the area of the outer frame part 12 is made larger.
Japanese Patent Laid-Open No. 10-157273

  However, the gravure printing by the direct gravure printing method has the following problems.

  That is, in the case of the conventional gravure printing method and the engraving gravure printing method, it is possible to increase the density of the shadow part by gradually deepening the cell 10 from the light toward the medium and the shadow, but direct gravure printing. The law cannot do that. Therefore, the density of the shadow part in direct gravure printing is determined by the area ratio of the ink holding part 14 in the solid cell 10 as described above.

  However, in direct gravure printing, the upper limit of the area ratio of the ink holding portion 14 in the cell 10 is determined due to the physical restriction that the outer frame portion 12 is provided in the cell 10, and the density of the shadow portion is reduced. There is a problem that there is a practical limit to increase it.

  The present invention has been made in view of such circumstances, and a first object of the present invention is to provide a gravure printing plate capable of increasing the density of the shadow portion more than before in the direct gravure printing method. It is in.

  A second object of the present invention is to provide a gravure printed matter and a booklet that can be printed with this gravure printing plate and can easily realize darker printing than the conventional one.

  In order to achieve the above object, the present invention takes the following measures.

  That is, the invention of claim 1 includes an outer frame portion that does not hold ink and an ink holding portion that is arranged inside the outer frame portion and can hold ink, and adjusts the area of the ink holding portion. In a gravure printing plate for direct gravure printing in which a collection of substantially rectangular cells, which is a unit whose dot size can be adjusted, is formed on the plate surface, the area of the ink holding part is maximized as much as possible. If there are adjacent solid cells, a part of each outer frame portion of the adjacent solid cells is connected so that the ink holding portions of the adjacent solid cells are connected to each other. In this case, it is replaced with a connecting portion capable of holding ink.

  The invention of claim 2 comprises an outer frame portion that does not hold ink and an ink holding portion that is arranged inside the outer frame portion and can hold ink, and by adjusting the area of the ink holding portion In a gravure printing plate for direct gravure printing in which a collection of substantially rectangular cells, which is a unit that can adjust the size of the halftone dots, is formed on the plate surface, a solid surface that maximizes the area of the ink holding part as much as possible. When a plurality of cells are adjacent to each other in a square lattice, the solid cells existing in the square lattice are connected to each other so that the ink holding portions of the adjacent solid cells are connected to each other. A part of each outer frame portion of the solid cells adjacent to each other is replaced with a connecting portion capable of holding ink.

  The invention of claim 3 is the gravure printing plate of the invention of claim 1, wherein the square lattice is 2 rows and 2 columns.

  According to a fourth aspect of the present invention, in the gravure printing plate according to any one of the first to third aspects of the present invention, the connecting portion is provided so as to bisect the outer frame portion of the solid cells adjacent to each other. ing.

  Therefore, in the gravure printing plate according to the first to fourth aspects of the present invention, it is possible to easily increase the density of the shadow portion in the direct gravure printing method by taking the above-described means.

  The invention of claim 5 is a gravure printed matter printed by the gravure printing plate of any one of claims 1 to 4.

  The invention of claim 6 is a booklet formed by binding the printed matter of the invention of claim 5.

  Therefore, in the inventions of Claims 5 and 6, by taking the above-described means, it is possible to realize gravure printing and booklet that can easily realize dark printing.

  According to the gravure printing plate of the present invention, in the direct gravure printing method, the density of the shadow part can be made higher than before. Further, by printing using this gravure printing plate, it is possible to realize a gravure printed material and a booklet that can easily realize darker printing than before.

  The best mode for carrying out the present invention will be described below with reference to the drawings.

  FIG. 1A is a plan view showing a configuration example of a cell of a gravure printing plate for direct gravure printing according to an embodiment of the present invention. Moreover, FIG.1 (b) and FIG.1 (c) are the vertical cross-section conceptual diagrams in the cut surface along the AA line in FIG.1 (a) and the BB line.

  That is, in the gravure printing plate for direct gravure printing according to the embodiment of the present invention, as shown in FIG. 1A, when the solid cells 10 are adjacent to each other, the solid gravure printing plates are adjacent to each other. Cell 10 (for example, cell 10 (# 1) and cell 10 (# 2), cell 10 (# 2) and cell 10 (# 3), cell 10 (# 3) and cell 10 (# 4), cell 10 ( # 4) and the ink holding portions 14 of the cell 10 (# 1) (for example, the ink holding portion 14 (# 1) and the ink holding portion 14 (# 2), the ink holding portion 14 (# 2) and the ink holding portion 14). (# 3), the ink holding unit 14 (# 3) and the ink holding unit 14 (# 4), and the ink holding unit 14 (# 4) and the ink holding unit 14 (# 1)) are adjacent to each other. A part of the outer frame portion 12 is replaced with a connecting portion 16 for holding ink. .

  That is, when attention is paid to the cell 10 (# 1) and the cell 10 (# 2) adjacent to each other, a part of the outer frame portion 12 (# 1) and the outer frame portion 12 (# 2) is connected to the connecting portion 16 ( #A). Similarly, for the cells 10 (# 2) and 10 (# 3) adjacent to each other, a part of the outer frame portion 12 (# 2) and the outer frame portion 12 (# 3) is connected to the connecting portion 16 ( #B). For the cells 10 (# 3) and 10 (# 4) adjacent to each other, a part of the outer frame portion 12 (# 3) and the outer frame portion 12 (# 4) is connected to the connecting portion 16 (#c). ). Further, for the cells 10 (# 4) and 10 (# 1) adjacent to each other, a part of the outer frame portion 12 (# 4) and the outer frame portion 12 (# 1) is connected to the connecting portion 16 (#d ). The connecting portions 16 are preferably arranged so as to bisect the outer frame portions 12 of the solid cells adjacent to each other, but this need not be the case.

  The connecting portion 16 is also engraved in the same manner as the ink holding portion 14 so that the ink can be held. The depth of engraving is preferably 5 microns or more and 30 microns or less, and more preferably 15 microns or more and 25 microns or less, similarly to the ink holding portion 14. Accordingly, as shown in FIG. 1C, by providing the connecting portion 16 (#a), the ink holding portion 14 (# 1) and the ink holding portion 14 (# 2) are continuously connected. Yes.

  As a result, the ratio of the area where the ink can be held in the cell 10 can be increased, and the density of the shadow portion in the gravure printed material can be made higher than before. As in FIG. 5, when the cell 10 is formed by a rectangular mass of 20 × 20 = 400, and 324 squares other than the outer frame part 12 which is the outermost 76 squares are the ink holding part 14, FIG. 2 × 2 = 4 connecting portions 16 (#a to #d) are provided for four cells 10 (# 1 to # 4) adjacent to each other in a square pattern of 2 rows and 2 columns as shown in FIG. In this case, the area ratio of the area where ink can be held in each cell 10 (# 1 to # 4) is 328/400 = 82%, and the ink can be held more than 81% when the connecting portion 16 shown in FIG. 5 is not provided. The area ratio of the region can be increased.

  FIG. 2 shows that each of the cells 10 (# 1 to # 4) adjacent to each other in a square grid of 2 rows and 2 columns is provided with 4 × 2 = 8 square connecting portions 16 (#a to #d). FIG. 10 is a plan view showing a case where the area ratio of the area where ink can be held in each cell 10 (# 1 to # 4) is increased to 332/400 = 83%. FIG. 3 similarly shows the same area ratio up to 340/400 = 85% by providing each of the connecting portions 16 (#a to #d) of 8 × 2 = 16 cells, and FIG. It is a top view which shows the case where the same area ratio is raised to 361/400 = 90.25% by making all the outer-frame parts 12 in the middle into the connection part 16, respectively.

  Thus, by replacing the outer frame portion 12 with the connecting portion 16, the area ratio of the area where ink can be held in the cell 10 is increased.

  As shown in FIG. 1, the pattern of cells adjacent to each other is not limited to a 2 × 2 square lattice, but for example, for 9 cells adjacent to each other in a 3 × 3 square lattice. Even can be applied. Further, the present invention is not limited to a square lattice, and can also be applied to, for example, six cells arranged in 2 rows and 3 columns.

  Next, the operation of the gravure printing plate according to the embodiment of the present invention configured as described above will be described.

  That is, in the gravure printing plate according to the embodiment of the present invention, when the solid cells 10 are adjacent to each other, the ink holding portions 14 in the solid cells 10 adjacent to each other are connected to each other. A part of the outer frame portions 12 adjacent to each other is replaced with a connecting portion 16 capable of holding ink. The connecting portions 16 are preferably arranged so as to bisect the outer frame portions 12 of the solid cells adjacent to each other, but this need not be the case.

  The connecting portion 16 can also hold ink by being carved in the same manner as the ink holding portion 14. Thereby, the ratio of the area | region which can hold | maintain the ink in the cell 10 can be raised, and the density | concentration of the shadow part in gravure printed matter can be made darker than before.

  For example, in the prior art, as shown in FIG. 5, in the case of the cell 10 formed by a rectangular mass of 20 × 20 = 400, at least the outermost 76 masses must be the outer frame portion 12. The area ratio of the area capable of holding ink at the maximum was 81%. On the other hand, for example, by providing four connecting cells 16 (#a to #d) for four solid cells 10 (# 1 to # 4) adjacent to each other in a square grid of 2 rows and 2 columns, FIG. As shown in FIG. 4, it is possible to arbitrarily increase the area ratio of the area where ink can be held in the cell 10 in the range of 82% to 90.25%.

  As described above, according to the gravure printing plate for direct gravure printing according to the embodiment of the present invention, it is possible to increase the density of the shadow part more than before by the above-described action. Further, by printing using this gravure printing plate, it is possible to realize a gravure printed material and a booklet that can easily realize darker printing than before.

  The best mode for carrying out the present invention has been described above with reference to the accompanying drawings, but the present invention is not limited to such a configuration. Within the scope of the invented technical idea of the scope of claims, a person skilled in the art can conceive of various changes and modifications. The technical scope of the present invention is also applicable to these changes and modifications. It is understood that it belongs to.

The top view which shows the structural example of the cell of the gravure printing plate for direct gravure printing concerning embodiment of this invention, and each standing in the cut surface along the AA line and BB line in Fig.1 (a) Cross-sectional conceptual diagram. The top view which shows the structural example of the cell of the gravure printing plate for direct gravure printing which concerns on embodiment of this invention (area ratio 83% of the area | region which can hold ink). The top view which shows the structural example of the cell of the gravure printing plate for direct gravure printing which concerns on embodiment of this invention (area ratio 85% of the area | region which can hold ink). The top view which shows the structural example of the cell of the gravure printing plate for direct gravure printing which concerns on embodiment of this invention (area ratio 90.25% of the area | region which can hold ink). The top view which shows the structural example of the cell of the gravure printing plate for direct gravure printing, and the figure which arranged two standing sectional conceptual diagrams in the cut surface along the XX line in Fig.5 (a).

Explanation of symbols

  10 ... cell, 12 ... outer frame part, 14 ... ink holding part, 16 ... connecting part

Claims (6)

It consists of an outer frame part that does not hold ink and an ink holding part that is arranged inside the outer frame part and can hold ink, and the size of the halftone dot by adjusting the area of the ink holding part In a gravure printing plate for direct gravure printing in which a collection of substantially rectangular cells, which is a unit that can be adjusted, is formed on the plate surface,
When there are adjacent solid cells having the largest possible ink holding area, the adjacent solid cells are connected so that the ink holding portions of the adjacent solid cells are connected to each other. A gravure printing plate in which a part of each outer frame portion of each cell is replaced with a connecting portion capable of holding ink. It consists of an outer frame part that does not hold ink and an ink holding part that is arranged inside the outer frame part and can hold ink, and the size of the halftone dot by adjusting the area of the ink holding part In a gravure printing plate for direct gravure printing in which a collection of substantially rectangular cells, which is a unit that can be adjusted, is formed on the plate surface,
When a plurality of solid cells having the maximum area of the ink holding portion as much as possible are adjacent to each other in a square lattice, the solid cells existing in the square lattice are adjacent to each other. Gravure printing in which a part of each outer frame portion of the solid cells adjacent to each other is replaced with a connecting portion capable of holding ink so that the ink holding portions of each cell are connected to each other. Edition. In the gravure printing plate according to claim 1,
The square lattice is a gravure printing plate having 2 rows and 2 columns. In the gravure printing plate according to any one of claims 1 to 3,
A gravure printing plate in which the connecting portions are provided so as to bisect the outer frame portions of the solid cells adjacent to each other.   The gravure printed matter printed by the gravure printing plate of any one of Claims 1 thru | or 4.   A booklet formed by binding the gravure printed matter according to claim 5.

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