Incremental printing of symbolic information – Ink jet – Fluid or fluid source handling means
Reexamination Certificate
2000-01-27
2002-10-29
Barlow, John (Department: 2853)
Incremental printing of symbolic information
Ink jet
Fluid or fluid source handling means
C347S105000
Reexamination Certificate
active
06471349
ABSTRACT:
FIELD OF THE INVENTION
This invention relates to a printing plate printing, a method of making such a printing plate, and a method of printing using such a plate to form a desired image on a medium. More particularly, the printing plate of this invention employs a printing plate substrate and a fluid composition comprising a compound that comprises a nitrogen-containing heterocyclic moiety that exhibits strong adhesion to a substrate. The fluid composition is applied by ink jetting to the substrate, providing a printing plate that is ready-to-use on a press without having to develop it.
BACKGROUND OF THE INVENTION
The offset lithographic printing process has long used a developed planographic printing plate having oleophilic image areas and hydrophilic non-image areas. The plate is commonly dampened before or during inking with an oil-based ink composition. The dampening process utilizes an aqueous fountain solution such as those described in U.S. Pat. Nos. 3,877,372, 4,278,467 and 4,854,969. When water is applied to the plate, the water will form a film on the hydrophilic areas, which are the non-image areas of the plate, but will contract into tiny droplets on the oleophilic plate areas, which are the image areas. When a roller carrying an oil-based ink composition is passed over the dampened plate, it will not ink the non-image areas that are covered by the aqueous film, but will emulsify the water droplets on the water repellant image areas, which will then take up ink. The resulting ink image is transferred, or “offset,” onto a rubber blanket, which is then used to print onto a medium such as paper.
It has been proposed to apply “direct” ink jet printing techniques to lithographic printing. For example, European Patent Publication No. 503,621 discloses a direct method to make lithographic plates by jetting a photocurable ink onto the plate substrate, and then exposing the plate to ultraviolet radiation to harden the image area. An oil-based ink may then be transferred to the image area for printing onto a printing medium. But, neither the resolution of ink drops jetted onto the substrate, nor the durability of the lithographic printing plate with respect to printing runlength was disclosed.
It has also been proposed to apply the direct ink jet printing techniques without the additional steps of chemical development of the plate. This approach advantageously results in lower production costs and a more environmentally acceptable printing process. However, in such techniques it is difficult to control the spreading of the ink jetted fluid that forms the oleophilic ink-accepting regions on the printing plate substrate. Such “dot spreading” causes lower printing image resolution and reduced image quality. For example, European Patent Application No. 591,916 A2 discloses a water-based ink having a polymer containing anhydride groups which are thermally cross-linked with a hydroxy-functional polymer. This formulation is applied by jetting the formulation which is at room temperature onto a room temperature substrate. However, this formulation does not achieve good control of dot spreading.
U.S. Pat. No. 4,833,486 discloses the apparatus and process for imaging a plate with a “hot melt” type of ink jet printer. The image is produced by jetting at high temperature a “phase change” type of ink which solidifies when it hits the cooler substrate. The ink becomes instantaneously solid rather than remaining a liquid or gel which is thereafter cured to form a solid. However, such an ink does not provide good resistance to press run due to the wax-type nature of the ink formulation.
U.S. Pat. No. 5,942,335 discloses the use of a polymer containing a nitrogen-containing heterocyclic group, namely a polymer of 4-vinylpyridine, in the formulation of an ink receiving layer of an ink jet recording sheet. However, the use of such a compound in a fluid composition applied directly to a printing plate substrate to form an imaged, ink-receptive layer is not disclosed.
Thus, it would be advantageous to employ a printing plate capable of extended press run length which does not require chemical development.
It is one object of this invention to provide such a printing plate. It is another object of this invention to provide a method of preparing such a printing plate. It is yet another object of this invention to provide a method of using such a printing plate. The printing plate of this invention may advantageously be prepared without a chemical development step typically required. The printing plate of this invention is also capable of extended press run length.
SUMMARY OF THE INVENTION
The fluid composition of this invention is suitable for ink jetting upon a substrate and comprises a compound which comprises at least one nitrogen-containing heterocyclic moiety, the compound being dissolved in a diglyme or glycolic solution and ink jetted.
The printing plate of this invention is prepared by: (a) providing a substrate; and (b) applying by ink jetting to the substrate a fluid composition as described. Optionally, a surfactant is applied to at least one surface of the substrate to prepare a “printing plate precursor” upon which the fluid composition is imagewise ink jetted. In preferred embodiments, the compound that comprises at least one nitrogen-containing heterocyclic moiety is selected from the group consisting of polymers or copolymers of 2-vinylpyridines, polymers or copolymers of 4-vinylpyridines, polymers or copolymers of ethylimidazolidone methacrylates, 2-pyridyl ethyl trimethoxysilanes, and mixtures thereof. In a particularly preferred embodiment, the nitrogen-containing heterocyclic moieties of the compound are free basic amines in non-aqueous solution.
The printing plate of this invention is capable of extended press run length and advantageously avoids the need of chemical development.
DETAILED DESCRIPTION OF THE INVENTION
To achieve extended printing runs with printing plates the oleophilic material must adhere well to the substrate. Adhesion of the oleophilic material may be controlled in at least two ways. First, the oleophilic material should have a chemical interaction with the substrate that provides a type of chemical binding and promotes adhesion. For example, the chemical composition of the oleophilic material can be varied to promote its adhesion to the substrate. Also, the composition of the substrate can be varied to increase binding of the oleophilic material. Second, the substrate should provide microscopic topology that allows the oleophilic material to interlock mechanically with the substrate when dry or hardened. Mechanical interlocking can be affected by roughening the surface of the substrate. Thus, by controlling these variables, a printing plate can be made with increased adhesion of the oleophilic material, and correspondingly longer printing run operation.
In the invention described here, the oleophilic material is placed on the substrate by ink jetting a fluid composition comprising the oleophilic layer-forming compound. Here, the fluid composition provides excellent adhesion of the oleophilic layer for longer press runs of the printing plate because the oleophilic layer-forming compound used in the fluid composition exhibits remarkable adhesion to the substrates employed.
Without intending to be bound by any one particular theory, the oleophilic layer-forming compound used in the fluid composition comprises at least one nitrogen-containing heterocyclic moiety in free basic amine form which can chemically interact with the substrate in several ways to provide adhesion. First, the nitrogen-containing heterocyclic moieties can react with Bronsted acidic sites on the substrate in acid-base neutralization. Second, the nitrogen-containing heterocyclic moieties can react with Lewis acidic sites on the substrate surface and form chemical bonds as a Lewis base electron donor. These two types of interactions occur only if the nitrogen-containing heterocyclic moieties are not previously reacted with acid, but remain substantially in the free base form in non-aqueous
Aurenty Patrice M.
Grant Alexander
Keaveney William P.
Stone Edward
Baker & Botts LLP
Barlow John
Kodak Polychrome Graphics LLC
Shah Manish S.
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