JP2005246765A - Doctor blade - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a doctor blade which has a good adhesiveness between a plate cylinder and a blade edge, has little abrasion of the blade edge, does not abrade the surface of a printing plate, can decrease the number of polishing and interchanging, and can be manufactured at a low cost. <P>SOLUTION: The doctor blade is applied to a plate cylinder with a chrome-plated surface. At least a tip part of a strip of matrix sheet comprising a steel sheet, a resin, a ceramic, other arbitrary materials and a composite material is coated with a copper material layer, and the coated tip is made to be the doctor blade edge. The thickness of the copper material layer is 50-150 μm, and it is preferable that the copper material layer is formed by a copper pyrophosphorate plating. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention belongs to technical fields such as gravure printing and gravure coating. In particular, the present invention relates to a doctor blade that scrapes off excess ink on a printing plate.

  If the doctor blade has subtle uneven portions in the surface state such as swell and surface roughness, a gap may be generated when the blade edge of the doctor blade is pressed against the plate cylinder surface. Ink that cannot be scraped off leaks from the cutting edge due to the gap, and the ink is transferred from the plate surface to the web that is the printing material. As a result, there is a problem in gravure printing and the like that causes printing stain defects called plate fogging.

  In order to avoid this, the conventional doctor blade requires an idle operation of several minutes to 30 minutes before the start of printing in order to rub the plate cylinder and the blade edge of the doctor blade to improve the adhesion. . In addition, even after obtaining adhesion by idle operation, the blade edge of the doctor blade progresses while it is pressed against the plate cylinder surface during printing, so the doctor blade is printed every thousands to tens of thousands of meters. There is a need to polish or replace.

As a doctor blade with little cutting edge wear, for example, there is a doctor blade that uses ZrO ₂ as a main component and zirconia ceramics containing 3 to 8 mol% of CeO ₂ as a cutting edge material (Patent Document 1). In addition, for example, there is a doctor blade that uses a composite material reinforced by providing an intermediate layer including a plurality of reinforcing fibers on both sides of an inner core made of a polymer material (Patent Document 2). However, these doctor blades are expensive, and their use is limited because the effect of scratching the plate surface and scraping off depending on conditions may be insufficient. In addition, there exists a proposal about the doctor blade which gave metal plating etc. to the blade edge | tip (patent document 3). The purpose is to prevent rusting of the substrate surface against water-based ink. There is a problem that the blade edge and the plate surface are worn in the plating material and configuration.
JP-A-9-150100 Special table 2003-512537 JP2002-172751

  An object of the present invention is to provide a doctor blade that has good adhesion between the plate cylinder and the blade edge, less wear on the blade edge, does not wear the plate surface, can reduce the number of polishing and replacement, and can be manufactured at low cost. There is.

According to a first aspect of the present invention, there is provided a doctor blade in which at least a tip portion of a thin strip base material made of metal, resin, ceramics, other arbitrary material, or composite material is coated with a copper material layer, and the coated tip is formed. It is designed to be a doctor blade.
A doctor blade according to claim 2 of the present invention is the doctor blade according to claim 1, wherein the doctor blade is applied to a plate cylinder having a chrome-plated surface.
The doctor blade according to claim 3 of the present invention is the doctor blade according to claim 1 or 2, wherein the copper material layer has a thickness of 50 to 150 μm.
The doctor blade according to claim 4 of the present invention is the doctor blade according to any one of claims 1 to 3, wherein the surface of the copper material layer is a copper material layer formed by copper pyrophosphate plating. Is.

According to the doctor blade of claim 1 of the present invention, at least the tip portion of the thin strip-shaped base material made of metal, resin, ceramics, other arbitrary material, or composite material is coated with the copper material layer, and the coating is performed. The tip is a doctor blade. That is, the doctor blade edge that rubs against the plate surface is made of a copper material. The copper material is soft (compared to steel) and thus easily undergoes plastic deformation and is easily adapted to the plate surface. In addition, the normal plate surface is a chrome-plated surface, but the copper material has a low affinity with the chromium material (compared to the steel material), and even if it is soft, the wear due to adhesion is small compared to the steel material. It will not wear out. Therefore, there is provided a doctor blade that has good adhesion between the plate cylinder and the blade edge, less wear on the blade edge, does not wear the plate surface, can reduce the number of polishing and replacement, and can be manufactured at low cost.
According to the doctor blade of claim 2 of the present invention, the doctor blade according to claim 1 is applied to a plate cylinder having a chrome-plated surface. According to the present invention, it is possible to exhibit the characteristics that the compatibility with the plate cylinder to be applied is good, the adhesion is good, and the wear of the blade edge and the plate surface is small.
According to the doctor blade according to claim 3 of the present invention, in the doctor blade according to claim 1 or 2, the thickness of the copper material layer is 50 to 150 μm. According to the present invention, it is possible to achieve both friction resistance (requires 50 μm or more) and ease of fitting to the plate surface (150 μm or less is appropriate).
According to the doctor blade according to claim 4 of the present invention, in the doctor blade according to any one of claims 1 to 3, the copper material layer surface is a copper material layer formed by copper pyrophosphate plating. It is a thing. According to the present invention, the copper material layer is excellent in leveling properties and glossiness, quickly adapts to the plate cylinder surface, and can scrape ink well.

  The configuration of the doctor blade of the present invention will be described with reference to FIGS. FIG. 1 is a sectional view showing a state where the doctor blade 1 of the present invention is mounted on a doctor holder. FIG. 2 is a side view showing a state where the doctor blade 1 of the present invention is applied to a printing unit. 1 and 2, 1 is a doctor blade, 2a and 2b are contact plates, 3a and 3b are doctor holders, 11 is a base material, 12 is a copper material layer, 100 is a web (printed material), 101 plate cylinder, 102 Is an impression cylinder, 103 is a finisher roller, and 111 is a chromium layer.

As shown in FIG. 1, the doctor blade 1 includes a base material 11 and a copper material layer 12.
As the base material 11, a steel material subjected to band-shaped quenching is generally used. When the base material 11 is a steel material, one having a thickness of about 0.12 to 0.2 mm is often used. However, in the present invention, other metal plates, resins, ceramics, other arbitrary materials, and composite materials may be used. The reason is that the role of the base material 11 in the doctor blade 1 is limited to the role as an elastic body that presses the doctor blade against the surface of the plate cylinder 101 with an appropriate force in the present invention. The surface of the plate cylinder 101 is a chrome layer 111, but it is not the base material 11 but the copper material layer 12 that is in direct contact with the chrome layer 111. Therefore, the role of the copper material layer 12 is more important than the base material 11 with respect to the frictional resistance and the familiarity with the plate surface.

  The copper material layer 12 is a layer made of copper that covers at least the tip portion of the base material 11. The covered tip becomes a doctor blade edge. Copper which is the material of the copper material layer 12 is high purity copper, and the thickness of the layer is preferably 50 to 150 μm. When the thickness is 30 μm or less, the copper material layer 12 is easily broken, and the base material 11 is exposed during use, leading to accelerated wear. Further, when the thickness is 200 μm or more, the plastic deformation of the doctor blade edge is not settled even after being pressed against the surface of the plate cylinder 101, and the printing quality is not stable due to intermittent plate fogging.

  The copper material layer 12 can be formed by, for example, copper plating when the base material 11 is a steel material. For this, a method using a copper cyanide plating solution or a copper pyrophosphate plating solution can be applied. Further, after performing strike plating with a copper cyanide plating solution or a copper pyrophosphate plating solution, if a copper sulfate plating solution is used, the plating process can be performed at a high speed. In any method, the copper material layer 12 formed by plating with excellent leveling properties and glossiness is suitable in terms of wear resistance and adhesion. In particular, it is preferable to use a copper pyrophosphate plating solution for forming the copper material layer 12 because dense copper plating can be performed and the plating solution can easily deal with pollution.

  When the base material 11 of the copper material layer 12 is not a steel material, the copper material layer 12 may be formed by a method suitable for the material. When the electroless plating method can be applied, the copper material layer can be formed by the electroless plating method. Alternatively, after performing strike plating by an electroless plating method, the copper material layer 12 can be formed by an electrolytic plating method. The rough surface of the copper material layer formed by thermal spraying can be additionally processed to form the copper material layer 12 having a surface excellent in leveling properties and glossiness. Further, the copper material layer 12 can be formed by laminating a copper foil on the base material 11.

  The abutting plates 2a and 2b are for adjusting the strength (elasticity) of the waist at the cutting edge of the doctor blade 1. As shown in FIG. 1, the contact plates 2a and 2b are used in such a manner that the doctor blade 1 is sandwiched between both surfaces thereof. If the extension of the blade edge of the doctor blade 1 from the contact plates 2a, 2b is lengthened, the blade edge is soft and can scrape ink softly. Moreover, if it is shortened, the ink can be scraped off hard and sharply. Usually, the image reproduction in printing is adjusted by the angle of the doctor blade with respect to the plate cylinder surface and the magnitude of the pressing force, but it can also be adjusted by adjusting the contact plates 2a and 2b. As the plates 2a and 2b, generally steel plates having a thickness of about 0.2 to 0.5 mm are used.

  The doctor holders 3a and 3b are holders that firmly hold the doctor blade 1 in the printing unit so that the cutting edge of the doctor blade 1 can contact the plate cylinder at a predetermined position and angle. The doctor holders 3a and 3b hold the doctor blade 1 together with the abutting plates 2a and 2b stacked on the doctor blade 1 and mechanically tighten them with screws or the like. The doctor holders 3a and 3b are generally made of a steel plate having a thickness of about 10 mm or an aluminum alloy or the like for lightening and handling.

In the above configuration, operations and effects of the doctor blade 1 of the present invention will be described.
The doctor blade 1 is obtained by forming a copper material layer 12 on a base material 11 as described above. However, like the conventional doctor blade, before actually using, the part which becomes the blade edge | tip of the doctor blade 1 in the copper material layer 12 needs the process which has the suitability with respect to use conditions. That is, it is necessary to polish the blade edge and prepare the surface and shape so that ink scraping is sufficient and uniform over the entire width of the plate cylinder 101. For example, the blade edge surface of the doctor blade 1 is polished to a glossy surface and polished so that the angle of the blade edge is 30 °.

  Alternatively, instead of polishing, the plate cylinder 101 and the blade edge of the doctor blade 1 may be rubbed to improve the adhesion by idling. Since the copper material is soft and has an easy plastic deformation, it can follow the surface shape of the plate cylinder 101 in a short time.

  The doctor blade 1 with a trimmed edge is attached to a printing unit of a gravure printing machine, for example. FIG. 2 shows only the main components of the printing unit of the gravure printing machine. Ink is supplied from the ink tank between the plate cylinder 101 and the finisher roller 103 using an ink pump or the like. The finisher roller 103 is a form roller for sufficiently reaching the cells formed in the plate cylinder 101. A concave cell is formed on the plate cylinder 101, and the surface thereof is a chromium layer 111. Excess ink is supplied to the surface of the plate cylinder 101, and the ink supplied by the rotation of the plate cylinder 101 reaches the cutting edge of the doctor blade 1.

Excess ink present on the surface of the plate cylinder 101 is scraped off by the doctor blade 1, and an appropriate amount of ink remains inside the cell formed on the surface of the plate cylinder 101. The excess ink supplied to the finisher roller 103 and the excess ink scraped off by the doctor blade 1 are received by an ink pan (not shown) provided under the plate cylinder 101, and returned from the ink pan to the ink tank. It is.
On the other hand, the ink remaining in the cell reaches a portion (a portion to which printing pressure is applied) where the web 100 is pressed against the plate cylinder 101 by the rotation of the plate cylinder 101, and the ink at that portion. Is transferred to the web 100 and printing is performed.

  While printing is in progress, the blade edge of the doctor blade 1 is in contact with the surface of the plate cylinder 101, and friction force acts by the rotation of the plate cylinder 101, and naturally wear progresses. Of course, since ink is present on the surface of the plate cylinder 101, there is an ink lubricating effect. However, the cutting edge of the doctor blade 1 and the surface of the plate cylinder 101 interact with the chromium layer 111. Among the interactions, wear due to adhesion, in particular, is a major factor in the progress of wear.

  Depending on the printing conditions, wear due to adhesion closes 80%. When the copper material is compared with a conventional steel material, the copper material has a lower affinity for chromium than the steel material, and even if it is soft, wear due to adhesion is small compared to the steel material. According to the experiment, when the other conditions are the same, the wear amount of the copper material by volume is about 1/3 of the steel material. Further, the wear amount of the chromium layer 111 on the surface of the plate cylinder 101 is also small.

  Thus, since the doctor blade 1 of the present invention progresses slowly, the number of doctor blade replacements can be reduced, the setup time can be shortened, and the idle operation time can be reduced. In addition, since the progress of the wear of the plate cylinder 101 can be slowed, the number of re-chromium plating of the plate cylinder can be reduced, and the printing cost can be reduced. In addition, copper has been proven to be harmless, including its oxides, and it does not wear chrome, which is toxic depending on the oxidation number, compared to conventional doctor blades. The safety is high.

It is a figure which shows the state with which the doctor blade of this invention was mounted | worn with a doctor blade. It is a figure which shows the state which applied the doctor blade of this invention to the printing unit.

Explanation of symbols

1 Doctor blade 2, 2a, 2b Contact plate 3, 3a, 3b Doctor holder 11 Base material 12 Copper material layer 100 Web (printed material)
101 Plate cylinder 102 Impression cylinder 103 Furnisher roller 111 Chrome layer

Claims (4)

  A doctor blade characterized in that at least a tip portion of a thin strip base material made of metal, resin, ceramics, any other material or composite material is coated with a copper material layer, and the coated tip is a doctor blade tip.   2. The doctor blade according to claim 1, wherein the doctor blade is applied to a plate cylinder having a chrome plated surface.   3. The doctor blade according to claim 1, wherein the copper material layer has a thickness of 50 to 150 μm. 4. The doctor blade according to claim 1, wherein the copper material layer surface is a copper material layer formed by copper pyrophosphate plating.

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