JP2001247155A - Material and structure for packaging lithographic form plate - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a lithographic form plate packaging material which can be made up at a low cost and has a high separability against a non-image- forming surface of a lithographic form plate, and also to provide a packaging structure using such packaging material. SOLUTION: A laminated paper 14 has a Bekk smoothness in 35 seconds or more and not exceeding 55 seconds at its non-contacting surface which does not contact with a coated surface of the lithographic form plate 10. The non- contacting surface contacts with the non-image-forming surface of the adjoining lithographic form plate 10 in a piled-up layer 12. However, because of its high separability against the non-image-forming surface, the interleaving paper 14 does not stick fast to the non-image-forming surface of the lithographic form plate 10, and the lithographic form plate 10 is not supplied to an auto-processor or the like together with the interleaving paper 14, preventing stoppage of plate feeding operation. With low-cost materials selected for forming the laminated paper 14, the packaging structure can be made up at a low cost.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a lithographic printing plate packaging material and a lithographic printing plate packaging structure. More specifically, at least a part of the lithographic printing plate is in contact with an image forming surface of the lithographic printing plate in a packaged state. The present invention relates to a lithographic printing plate packaging material that protects an image forming surface by being applied thereto, and a lithographic printing plate packaging structure using the lithographic printing plate packaging material.

[0002]

2. Description of the Related Art Recent plate making methods (including electrophotographic plate making methods)
In order to facilitate the automation of the plate making process, lithographic printing plates such as photosensitive printing plates and heat-sensitive printing plates are widely used.
A lithographic printing plate is generally formed on a support such as a sheet-like or coil-like aluminum plate by, for example, graining, anodic oxidation,
A surface treatment such as a silicate treatment or other chemical conversion treatment is performed alone or in an appropriate combination, and then, a photosensitive layer or a heat-sensitive layer (hereinafter collectively referred to as a “coating film”, and the surface on which the coating film is applied is referred to as “image forming”). The surface on which the coating film is not formed is referred to as a “non-image forming surface”), and is then cut into a desired size.

The lithographic printing plate is subjected to plate making processes such as exposure, development, gumming, and the like, and is set in a printing machine. By applying ink, characters, images, and the like are printed on paper.

[0004] Incidentally, in a lithographic printing plate, paper called interleaving paper is sometimes brought into contact with a coating film (image forming surface) in order to protect the coating film. In particular, in order to efficiently handle the lithographic printing plate, there is a case where a plurality of lithographic printing plates are stacked in the thickness direction to form a lithographic printing plate laminated stack, but in this case, For example, the above-mentioned interleaving paper is alternately laminated with a lithographic printing plate so as to be in contact with the image forming surface, or a thick paper for protection (referred to as a “contact ball”) is provided at each end face of the lithographic printing plate in the laminating direction or a predetermined number of sheets. It is preferable to protect the image forming surface (coating film) by disposing it.

When a lithographic printing plate in which such a slip sheet or protective cardboard is in contact with the image forming surface is used in an automatic plate making machine or the like, it is necessary to peel off the slip sheet or the protective cardboard from the lithographic printing plate. is there. Therefore, if an automatic plate making machine having an automatic plate feeding function for automatically separating the interleaving paper and supplying the lithographic printing plate or a so-called plate setter is used, the plate making operation can be made more efficient.

However, when a plurality of lithographic printing plates and interleaf paper are alternately stacked in the thickness direction to form a stacked bundle, the opposite side of the surface of the interleaf paper that is in contact with the image forming surface is interposed. The surface (non-contact surface) comes into contact with the non-image forming surface of the adjacent lithographic printing plate. If the non-contact surface is strongly adhered to the non-image forming surface, the slip sheet is supplied without being peeled off from the planographic printing plate during plate feeding. May occur. For example,
When the lithographic printing plate is lifted by sucking the image forming surface of the lithographic printing plate, the interleaving paper that protected the image forming surface of the adjacent lithographic printing plate adheres to the non-image forming surface of the lifted lithographic printing plate. And the lithographic printing plate and the slip sheet are fed together. In addition, even when the non-image forming surface of the lithographic printing plate is sucked and lifted, a plurality of slip sheets and the lithographic printing plate are brought into close contact with one another under the lower surface, and the plate is supplied in this state. The plate feeding operation may be stopped.

On the other hand, Japanese Patent Application Laid-Open No. 25845/1990 discloses an interleaf made of a synthetic pulp-mixed paper which has been subjected to a heat and pressure treatment. By configuring the slip sheet in this manner, the releasability of the slip sheet from the lithographic printing plate is improved, and the coating film is prevented from being damaged.

However, the synthetic pulp itself is expensive, so that the material cost of the slip paper is high. Also, synthetic pulp mixed paper must be manufactured separately from general paper,
The production cost of the slip sheet also increases.

[0009]

SUMMARY OF THE INVENTION In view of the above facts, the present invention provides a lithographic printing plate packaging material having high releasability from a non-image forming surface of a lithographic printing plate and capable of being manufactured at low cost. It is an object to obtain a planographic printing plate packaging structure using this packaging material.

[0010]

According to the first aspect of the present invention, the lithographic printing plate is used for packaging a lithographic printing plate supplied by an automatic plate feeding mechanism. A lithographic printing plate packaging material for protecting an image forming surface by being in contact with an image forming surface on which a coating film of a plate is formed, wherein a Beck smoothness of a non-contact portion not in contact with the image forming surface is 3 seconds or more and 55 or more. Seconds or less.

Using the lithographic printing plate packaging material (hereinafter simply referred to as “packaging material”), the packaging material is brought into contact with the image forming surface of the lithographic printing plate and packaged, whereby the image forming surface of the lithographic printing plate is obtained. (Coating film) can be protected.

When the lithographic printing plates and the packaging material are alternately laminated in the thickness direction, the non-contact portion of the packaging material contacts the non-image forming surface of the adjacent lithographic printing plate. In the present invention, the Beck smoothness of the non-contact portion of the packaging material is set to 3 seconds or more and 55 seconds or less, and the packaging material has high releasability from the non-image forming surface of the lithographic printing plate. Therefore, when using an automatic plate-making machine or a so-called plate setter with an automatic plate feeding function to automatically peel the packaging material and supply the lithographic printing plate,
The packaging material does not come into close contact with the non-image forming surface of the lithographic printing plate and is supplied in a state where the packaging material and the lithographic printing plate are integrated, and the automatic plate feeding operation does not stop.

Moreover, if the packing material has a Beck smoothness of the non-contact portion within the above-mentioned range, it is sufficient to exhibit the effects of the present invention, and the range of material selection is not narrowed. For example, it is possible to manufacture a packaging material using paper having a low manufacturing cost.

The packaging material of the present invention is used for packaging a lithographic printing plate supplied by an automatic plate feeding mechanism, and is brought into contact with the image forming surface of the lithographic printing plate to change the image forming surface. All that are protected are included. Examples of such packaging materials include, but are not limited to, slip sheets and protective cardboard (contact balls).

According to the second aspect of the present invention, the planographic printing plate supplied by the automatic plate feeding mechanism, and the packaging material for the planographic printing plate according to the first aspect contacted with the image forming surface of the planographic printing plate. And the following.

That is, in this planographic printing plate packaging structure,
The packaging material according to claim 1 is used, and the image forming surface of the lithographic printing plate is protected by the packaging material.

The Beck smoothness of the non-contact portion of the packaging material is set to 3 seconds or more and 55 seconds or less, and has high releasability from the non-image forming surface of the lithographic printing plate. When using an automatic plate making machine with a plate feeding function or a so-called plate setter, the packaging material may come into close contact with the non-image forming surface of the lithographic printing plate and the packaging material and the lithographic printing plate may be supplied integrally. The automatic plate feeding operation can be prevented from stopping.

Moreover, in the packaging material of the present invention, if the Beck smoothness of the non-contact portion is within the above-mentioned range, it is sufficient to exhibit the effects of the present invention, so that the range of material selection becomes narrow. Nor. For example, a lithographic printing plate packaging structure can be formed at low cost by using paper with low manufacturing cost.

The "lithographic printing plate supplied by the automatic plate feeding mechanism" in the claims 1 and 2 is a planographic printing plate manufactured on the premise that the plate is supplied by the automatic plate feeding mechanism. Plates and all lithographic printing plates that may be supplied by the automatic plate feeding mechanism. That is,
In an actual use situation, it does not depend on how the user of the lithographic printing plate supplies the lithographic printing plate by the automatic plate feeding mechanism or manually supplies the plate.

[0020]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 1 shows a lamination in which a lithographic printing plate 10 and an interleaving paper 14 are alternately laminated using an interleaf paper (lithographic printing plate packaging material) 14 according to one embodiment of the present invention. Bundle 12 is shown.

The lithographic printing plate 10 is coated with a coating film (a photosensitive layer in the case of a photosensitive printing plate, or a heat-sensitive layer in the case of a heat-sensitive printing plate) on a thin aluminum support formed in a rectangular plate shape. ) Is applied. Exposure,
A plate making process such as a developing process and a gumming process is performed, the plate is set in a printing machine, and ink is applied, so that characters, images, and the like are printed on paper. Hereinafter, the surface on which the coating film is applied is referred to as an image forming surface, and the opposite surface, that is, the surface on which the coating film is not applied, is referred to as a non-image forming surface. The lithographic printing plate 10 according to the present embodiment is a stage before a process required for printing (exposure, development, and the like) is performed, and is sometimes referred to as a lithographic printing plate precursor or a lithographic printing plate material. Sometimes.

The specific configuration of the lithographic printing plate 10 is not particularly limited as long as the lithographic printing plate has such a configuration. For example, a lithographic printing plate for a heat mode type and a photon type laser printing plate may be used. A lithographic printing plate can be made directly from digital data.

The lithographic printing plate 10 can be made a lithographic printing plate corresponding to various plate making methods by selecting various components in the photosensitive layer or the heat-sensitive layer. Examples of specific embodiments of the lithographic printing plate of the present invention include the following (1) to
(11) is mentioned. (1) An embodiment in which the photosensitive layer contains an infrared absorber, a compound that generates an acid by heat, and a compound that crosslinks with the acid. (2) An embodiment in which the photosensitive layer contains an infrared absorbing agent and a compound which becomes alkali-soluble by heat. (3) An embodiment in which the photosensitive layer includes two layers: a layer containing a compound that generates radicals by laser beam irradiation, a binder soluble in alkali, and a polyfunctional monomer or prepolymer, and an oxygen barrier layer. (4) An embodiment in which the photosensitive layer comprises two layers: a physical development nucleus layer and a silver halide emulsion layer. (5) An embodiment in which the photosensitive layer includes three layers: a polymerized layer containing a polyfunctional monomer and a polyfunctional binder, a layer containing silver halide and a reducing agent, and an oxygen barrier layer. (6) An embodiment in which the photosensitive layer includes two layers: a layer containing a novolak resin and naphthoquinonediazide; and a layer containing silver halide. (7) An embodiment in which the photosensitive layer contains an organic photoconductor. (8) An embodiment in which the photosensitive layer includes two or three layers composed of a laser light absorbing layer removed by laser light irradiation, and a lipophilic layer and / or a hydrophilic layer. (9) a compound in which a photosensitive layer absorbs energy to generate an acid, a polymer compound having a functional group capable of generating a sulfonic acid or a carboxylic acid in a side chain by an acid, and an acid generator by absorbing visible light The embodiment which contains the compound which gives energy to. (10) An embodiment in which the photosensitive layer contains a quinonediazide compound and a novolak resin. (11) An embodiment in which the photosensitive layer contains a compound which is decomposed by light or ultraviolet rays to form a crosslinked structure with itself or another molecule in the layer, and a binder which is soluble in alkali.

Particularly, in recent years, a lithographic printing plate coated with a high-sensitivity photosensitive type coating film exposed by a laser or a heat-sensitive type lithographic printing plate may be used (for example, the above-mentioned (1) to ()). In the case of such a lithographic printing plate of the high sensitivity type, the use of the lithographic printing plate packaging material of the present invention can surely prevent the quality deterioration of the image forming surface.

Further, the lithographic printing plate 10 of the present embodiment (the lithographic printing plate of all aspects of (1) to (11) described above)
The lithographic printing plate is set in an automatic plate making machine having an automatic plate feeding function or a so-called plate setter in a state where the stacked bundle 12 is formed, and is supplied (plate feeding) to the plate making process. Therefore, in an actual use situation, the user of the lithographic printing plate does not depend on how the lithographic printing plate 10 is supplied by the automatic plate feeding mechanism or the plate is fed manually (in other words, By using the lithographic printing plate packaging material of the present invention (as a problem before the plate feeding method), it is possible to reliably prevent the quality deterioration of the image forming surface. Of course, (1)-(1
Even lithographic printing plates of modes other than 1) are set on an automatic plate-making machine having an automatic plate-feeding function or a so-called plate setter, and may be supplied to the plate-making process (plate-feeding). All the plates are included in the lithographic printing plate 10 of the present embodiment.

When set in an automatic plate making machine having an automatic plate feeding function or a so-called plate setter, there is no protective thick paper 22 described later, and the planographic printing plate 10 and the slip sheet 1 are not provided.
4 may be set with a small amount of about two each.

As can be seen from FIG. 1, a slip sheet 14 for protecting the image forming surface (coating film) and a lithographic printing plate 10 are provided.
Are alternately overlapped in the thickness direction, and further, the protective cardboard 22 is disposed on the upper and lower surfaces thereof, thereby forming the stacked bundle 12 of the lithographic printing plate 10. Hereinafter, the surface of the slip sheet 14 that contacts the image forming surface is referred to as a “contact surface”, and the surface on the opposite side (the surface that does not contact the image forming surface) is referred to as a “non-contact surface”. The non-contact surface is in contact with the non-image forming surface of the adjacent lithographic printing plate 10 in a state where the stacked bundle 12 is configured.

Lithographic printing plate 1 constituting one laminated bundle 12
The number of zeros is not particularly limited, but may be, for example, 10 to 100 from the viewpoint of efficient transportation and storage. Also, as described above, 10 to 100 lithographic printing plates 1 are used.
In the case where the stacked bundle 12 is constituted by 0, it is preferable that the planographic printing plate 10 and the protective cardboard 22 are fixed by a fixing means such as an adhesive tape so as not to be displaced. Further, it is also possible to configure the stacked bundle 12 with more lithographic printing plates 10 so that transport and storage can be performed more efficiently (with a smaller number of times of handling the load). For example, the number of the lithographic printing plates 10 may be about 3000 at the maximum, and the protective cardboard 22 may be inserted for every 20 to 100 lithographic printing plates 10. Further, the number of the lithographic printing plates 10 may be about 1500 at the maximum, and the protective thick paper 22 may be arranged only above and below the lithographic printing plates 10. In addition, depending on the type of the lithographic printing plate 10, the protective cardboard 22 may be omitted.

As shown in FIG. 2, the laminated bundle 12 constructed as described above is mounted on the interior paper 16, and the interior paper 16 is adhered at a predetermined position by the adhesive tape 24. Thereby, the lithographic printing plate packaging structure 18 of the present invention is configured. Since the interior paper 16 is fixed by the adhesive tape 24 so as not to accidentally fall off, the planographic printing plate 10 is reliably shielded from light and protected from moisture. Depending on the type of the lithographic printing plate 10, the transport method, and the like, the laminated bundle 12 may be further exteriorized by an outer box such as a cardboard box, or a loading member such as a pallet or skid (material such as paper, resin, metal, etc. Or the like is not particularly limited). Further, depending on the type of the lithographic printing plate 10, the lithographic printing plate 10 may be directly packaged in an outer box or loaded on a pallet without being wrapped with the inner paper 16.

Here, the slip sheet 14 of the present embodiment has a Beck smoothness (defined in JIS P8119) of the non-contact surface of not less than 3 seconds and not more than 55 seconds.

Table 1 shows the relationship between the Beck smoothness of the non-contact surface of the lithographic printing plate packaging material and the releasability from the non-image forming surface of the lithographic printing plate 10. This “peelability” means that the lithographic printing plate 10 is prepared by setting the layered bundle 12 on an automatic plate making machine having an automatic plate feeding function or a so-called plate setter.
Is the ease of peeling of the slip sheet 14 from the non-image forming surface when the plate is supplied to the automatic plate making machine, and “「 ”indicates that the slip sheet 14 is peeled off from the non-image forming surface without any problem. Is interleaf paper 14
Indicates that the planographic printing plate 10 and the interleaf 14 may be fed together as a single plate without being separated from the non-image forming surface.

The "application examples" in Table 1 are merely examples. For example, a packaging material having a Beck smoothness of 3 seconds or more and 11 seconds or less may be used as the slip sheet 14, or a Beck smoothness of 15 or more and 55 or more. Protective cardboard 3 (to be described later)
It may be used as 2.

[0033]

[Table 1]

From Table 1, it can be seen that the Beck smoothness is 3 seconds or more and 5
In the case of a packaging material of 5 seconds or less, when the lithographic printing plate 10 is supplied to the automatic plate-making machine by setting the stacked bundle 12 on an automatic plate-making machine or a plate setter having an automatic plate-feeding function, the packaging material may be non-image. It can be seen that it is surely separated from the formation surface. The slip paper 14 of the present embodiment has a Beck smoothness of the non-contact surface of 3 seconds or more and 5 seconds or more.
Since the time is set to 5 seconds or less, the slip sheet 14 comes into close contact with the non-image forming surface of the planographic printing plate 10 and is supplied to an automatic plate making machine or the like while the planographic printing plate 10 and the slip sheet 14 are integrated. And the plate feeding operation does not stop.

As described above, in the present embodiment, by setting the Bekk smoothness of the slip sheet 14 to 3 seconds or more and 55 seconds or less, the slip sheet 14 can be reliably separated from the non-image forming surface in the automatic plate feeding mechanism. In addition, the quality of the image forming surface is prevented from deteriorating.

Moreover, as long as the interleaf paper 14 satisfies the Beck smoothness condition as described above, its material and physical properties other than Beck smoothness are not particularly limited. Therefore, by selecting a material having a low material cost, the interleaf 14 can be manufactured at low cost. For example, as the interleaf paper 14, paper using 100% wood pulp or 100% wood pulp
%, A paper using a synthetic pulp without using the same, and a paper having a low-density polyethylene layer provided on the surface of such paper can be used. Particularly, in the case of paper that does not use synthetic pulp, the material cost is low, so that the interleaf paper 14 can be manufactured at low cost. More specifically, a basis weight of 30 to 45 g / m ² and a density of 0.7 to 0.85 g formed from bleached kraft pulp
/ Cm 3, water content of 4 to 6%, and pH of 4 to 6, but the present invention is not limited thereto.

FIG. 3 shows a process of packaging the lithographic printing plate 10 using the protective cardboard (lithographic printing plate packaging material) 32 according to the second embodiment of the present invention.

In the second embodiment, only the lithographic printing plate 10 is laminated without using the slip sheet 14 so that the coating films face in the same direction (downward in FIG. 3). The protective thick paper 32 is arranged so as to contact the non-image forming surface (the upper surface in FIG. 3) of the lithographic printing plate 10 located at the uppermost position. Then, the laminated lithographic printing plate 10 and the protective cardboard 32 are
A stacked bundle 12 is configured. In the second embodiment, as in the first embodiment, the lithographic printing plate packaging structure 34 of the present embodiment is configured by embedding the laminated bundle 12 with the interior paper 16.

Also, in the second embodiment, the Beck smoothness of the non-contact surface (the surface in contact with the non-image forming surface, the lower surface in FIG. 3) of the protective cardboard 32 is 3 seconds or more and 55 seconds, as in the first embodiment. Seconds or less. Therefore, also in the second embodiment, the slip sheet 14 is reliably separated from the non-image forming surface in the automatic plate feeding mechanism.

Further, as long as the protection cardboard 32 satisfies the Beck smoothness condition as described above, its material and physical properties other than the Beck smoothness are not particularly limited. For example,
As a material of the protective cardboard 32, natural fibers such as wood pulp and hemp, synthetic pulp obtained from a linear polymer such as polyolefin, and regenerated cellulose can be used alone or in combination. In particular, by selecting low-cost materials such as wood pulp and natural fiber, the protective cardboard 32 can be manufactured at low cost. More specifically, for example,
The raw waste paper is beaten, and the sizing agent is added to the paper stock diluted to a concentration of 4% with 0.1% of the weight of the cardboard, and the paper strength agent with 0.2% of the weight of the cardboard.
And protective paper 32 having a density of 0.72 g / cm ³ and a basis weight of 640 g / m ² obtained by making paper using a stock to which aluminum sulfate was further added until the pH became 5.0. But of course is not limited to this.

As described above, in any of the embodiments of the present invention, the Beck smoothness of the non-contact surface (non-contact portion) of the lithographic printing plate packaging material (the slip sheet 14 and the protective cardboard 32) is 3 The time is set to not less than 55 seconds and not more than 55 seconds, so that the lithographic printing plate packaging material is reliably peeled off from the non-image forming surface of the lithographic printing plate 10 in the automatic plate feeding mechanism, and the quality of the image forming surface is prevented from deteriorating. In addition, since the material and physical properties of the lithographic printing plate packaging material are not particularly limited except for setting the Beck smoothness of the non-contact surface in this way, the range of material selection is widened, and for example, a material that can be manufactured at low cost is used. It is also possible.

The lithographic printing plate packaging material of the present invention is not limited to the above-mentioned interleaf paper 14 and protective cardboard 32. In short, according to the packaging form of the lithographic printing plate 10, the lithographic printing plate 10 contacts and protects the image forming surface, and the non-contact portion in contact with the non-image forming surface satisfies the value of the Beck smoothness described above. Are included in the lithographic printing plate packaging material of the present invention.

[0043]

According to the first aspect of the present invention, the lithographic printing plate is used for packaging a lithographic printing plate supplied by an automatic plate feeding mechanism, and at least a part of the coating film of the lithographic printing plate in a state where the lithographic printing plate is packaged. A lithographic printing plate packaging material for protecting the image forming surface by being in contact with the image forming surface on which is formed, wherein the Beck smoothness of the non-contact portion not in contact with the image forming surface is 3 seconds or more.
Since the time is set to 5 seconds or less, the packaging material comes into close contact with the non-image forming surface of the lithographic printing plate, and the packaging material and the lithographic printing plate are supplied in an integrated state, or the automatic plate feeding operation stops. In addition, it is possible to use paper having a low manufacturing cost as a packaging material.

According to the second aspect of the present invention, the planographic printing plate supplied by the automatic plate feeding mechanism, and the packaging material for the planographic printing plate according to the first aspect, which is in contact with the image forming surface of the planographic printing plate. Since the packaging material comes into close contact with the non-image forming surface of the lithographic printing plate, the packaging material and the lithographic printing plate may be supplied in an integrated state, or the automatic plate feeding operation may be stopped. In addition, it is possible to use a low-cost paper as a packaging material and to configure a planographic printing plate packaging structure at low cost.

[Brief description of the drawings]

FIG. 1 is a perspective view showing a process of packaging a lithographic printing plate using a lithographic printing plate packaging material according to a first embodiment of the present invention.

FIG. 2 is a perspective view showing a state in which the planographic printing plate is packaged using the planographic printing plate packaging material according to the first embodiment of the present invention.

FIG. 3 is a perspective view showing a process of packaging the lithographic printing plate using the lithographic printing plate packaging material according to the first embodiment of the present invention.

[Explanation of symbols]

 Reference Signs List 10 lithographic printing plate 14 interleaf paper (lithographic printing plate packaging material) 18 lithographic printing plate packaging structure 32 protective cardboard (lithographic printing plate packaging material)

 ──────────────────────────────────────────────────続 き Continued on the front page F term (reference) 2H096 AA07 DA10 LA22 2H114 AA04 AA23 AA24 BA01 BA10 DA43 DA73 EA07 EA10 FA06 3E067 AA12 AB39 AC03 BA19A BB01A BC06A EA01 EC32 ED02 FA02 FC01 3E086 AA02 BB01 BA02 BA14

Claims (2)

[Claims] 1. A lithographic printing plate packaged by an automatic plate feeding mechanism, wherein at least a part of the lithographic printing plate is in contact with an image forming surface on which a coating film of the lithographic printing plate is formed in a packaged state. A lithographic printing plate packaging material that protects an image forming surface by being applied, wherein the Beck smoothness of a non-contact portion that does not contact the image forming surface is set to 3 seconds or more and 55 seconds or less. Plate packaging material. 2. A lithographic printing plate supplied by an automatic plate feeding mechanism, and the lithographic printing plate packaging material according to claim 1, which is in contact with an image forming surface of the lithographic printing plate. And lithographic printing plate packaging structure.