Printing – Printing members – Rolling contact
Reexamination Certificate
2000-07-25
2002-06-18
Funk, Stephen R. (Department: 2854)
Printing
Printing members
Rolling contact
C101S382100
Reexamination Certificate
active
06405650
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to camera-ready copy sheet for use with lithographic printing plates to ensure that they will not be positionally offset on plate cylinders in a press.
2. Description of the Related Art
To perform printing with lithographic presses, a lithographic plate is wrapped around a plate cylinder and fixed mechanically.
Conventionally, the base of lithographic printing plates is made of either metals or non-metals such as plastics and paper. Compared to lithographic plates using metallic bases, those using non-metallic bases have good handling properties but, on the other hand, they do not have high dimensional stability.
When lithographic presswork is performed with plates having a non-metallic base on at least the back side, the softness of the base tends to reduce the accuracy of the positions in which the plate is gripped on to the leading edge of the plate cylinder. If this phenomenon occurs, the accuracy of the plate in the vertical position (i.e., the accuracy in the around-the-cylinder direction) decreases and, in an extreme case, the plate may be fixed slantwise. As a further problem, the friction with the cylinder during printing causes local distortion in the plate, eventually reducing the accuracy in position relative to the paper to be printed.
Under these circumstances, the use of lithographic plates having a n on-metallic base on at least the back side has been limited to the case of short-run work where no problem is caused even if printed pieces have low accuracy in register on the other hand, exquisite multi-color printing and long-run work on massive presses often fail to achieve the desired color register.
Platemaking and printing operations based on the computer-to-plate (CTP) technology have gained increasing acceptance these days and compared to the conventional approaches (in which the plate material is subjected to contact printing with a lithographic film), the new processes have the advantage of providing good dimensional and positional accuracy for the image (exposure) with respect to the plate material, as well as permitting easy registration in multi-color printing.
Of the two distinctive advantages of the CTP technology, the ease in registration for multi-color printing cannot be realized with lithographic plates based on non-metallic materials such as paper and plastics because they have the problems already described above.
In order to solve the above problem, it has recently been proposed that a sheeting having an initial elastic modulus of no more than 300 kg/mm
2
should be inserted between the lithographic printing plate and the plate cylinder [see Unexamined Japanese Patent Publication (kokai) No. 11-20130(1999)]. The sheet has fine particulate matter such as glass beads adhered and fixed thereto so that it has a center-line average roughness Ra of at least 2.
According to the specification of the patent, the sheet is prepared by adhering and fixing fine particulate matter such as glass beads on to the surface of a sheet material at high and uniform density. In other words, a highly concentrated liquid dispersion of fine particles is needed to form asperities on the sheeting.
Since the fine particulate matter of the type used in the patent is generally expensive, adhering and fixing it at high and uniform density inevitably increases the cost of the sheet. In addition, the fine particles cannot be easily dispersed in liquid at high concentration and, what is more, agglomeration often occurs in the highly concentrated dispersion and the resulting coarse particles will deteriorate the quality of printed matter.
SUMMARY OF THE INVENTION
It is an object of the present invention to provide a camera-ready copy sheet with which lithographic printing plates can be prevented from being positionally offset on a plate cylinder in a press. In the presence of such camera-ready copy sheet, lithographic plates using bases made of non-metallic materials can be applied to multi-color printing or long-run work. In addition, positional offset of plates can be suppressed by merely providing a small amount of particles on the surface of the copy sheet and this contributes to both cost reduction and easy production.
The present inventors conducted intensive studies in order to attain the stated object of the invention. As a result, it was found that by using a camera-ready copy sheet having asperities of a predetermined shape on the front side that are urged against the back side of a lithographic printing plate to depress it and in which the height of the projections in the asperities ranges from 5 &mgr;m to 50 &mgr;m and the sum per unit area of maximum cross-sectional areas of planes in said projections that are parallel to the surface of the sheet ranges from 0.2% to 4% of the unit area, the plate with which lithographic printing is being performed on a press can be positively prevented from being positionally offset on a plate cylinder primarily under the printing pressure. The present invention has been accomplished on the basis of this finding.
DETAILED DESCRIPTION OF THE INVENTION
The present invention will be described as follows in detail.
The present invention relates to a camera-ready copy sheet to be inserted between a plate cylinder and a lithographic printing plate at least the back side of which is made of a non-metallic material. In the camera-ready copy sheet, the copy sheet has asperities of a predetermined shape on the front side that are urged against the back side of the lithographic printing plate to depress it. The height of the projections in the asperities ranges from 5 &mgr;m to 50 &mgr;m. The sum per unit area of maximum cross-sectional areas of planes in the projections that are parallel to the surface of the sheet ranges from 0.2% to 4% of the unit area.
In the following description, the proportion of unit area that is occupied by the sum per unit area of maximum cross-sectional areas of planes in the projections that are parallel to the surface of the sheet is sometimes referred to as “occupied area percentage”.
The fine particles to be used in forming asperities in the camera-ready copy sheet of the present invention are those having high hardness and ranging from 5 &mgr;m to 50 &mgr;m in diameter and examples include fine inorganic particles such as glass beads and the fine particles of comparatively hard polymers such as polystyrene. If the particles are coarsely distributed to occupy 0.2-4% of unit area, there is no need to use as large a number of fine particles as specified in Unexamined Japanese Patent Publication (kokai) No. 11-20130(1999), supra; instead, a comparatively small number of fine particles suffice to achieve positive prevention of positional offset of lithographic plates on the plate cylinder.
To compute the occupied area percentage as defined herein, the surface of a sample is photographed with an optical microscope from right above, the number (n) of projecting particles in a predetermined area S (&mgr;m
2
) is counted, and the occupied area percentage is calculated from the average diameter R (&mgr;m) of the particles by the following formula:
Occupied area percentage=[
n
×(&pgr;
R
2
/4)/
S]×
100(%).
If the projections occupy no more than 3.14% of unit area, the center-line-average roughness Ra is smaller than 2 and the reason is as follows. If it is assumed that the projections are formed of particles, the center-line-average roughness Ra is practically governed by the larger particles. Assume here that the larger particles are 5-50 &mgr;m in diameter and also assume that the largest particles in this class are used. These particles have a diameter (height) of 50 &mgr;m, so in order for the center-line-average roughness Ra to be smaller than 2, no more than one particle with a diameter of 50 &mgr;m should exist in a rectangular space whose area is equivalent to 25 particles of the same diameter and may be expressed as the unit area S. If n=1 and S=25 R
2
are substituted into the
Kasai Seishi
Nakayama Takao
Ohishi Hiroyuki
Fuji Photo Film Co. , Ltd.
Funk Stephen R.
Reed Smith LLP
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