JPH0332841A - Ink scraper in printing press and blade mounting method - Google Patents

Abstract

PURPOSE:To easily mount or remove a blade and to form an ink layer having a uniform thickness on a rotating body by a method wherein the blade having flexibility and coming into contact with the rotating body at the tip end thereof is inserted into a blade insertion groove in a deflected state, and in this state the blade is fixed to a blade shaft. CONSTITUTION:A recessed part 16 is formed on a blade shaft 11 all over the area thereof in the axial direction (in the vertical direction to a paper surface). A blade supporter 12 is fitted into the recessed part and fixed thereto by a screw 17. A thickness T of the blade supporter 12 is determined so that a blade insertion groove 18 can be formed between the upper part of the blade supporter 12 and the blade shaft 11 in the state that the blade supporter 12 is fitted into the blade shaft 11. A projected part 19 is formed on the left end of the blade supporter 12. A blade 13 is inserted into the groove 18 along the projected part 19 of the blade supporter 12 and fitted into the groove 18 so as to be warped upwards or deflected downwards by the action of the projected part 19. In this manner, the blade 13 is fixed to the blade shaft 11 by the own elastic force.

Description

[Detailed description of the invention]

[Industrial Field of Application] The present invention relates to printing presses such as offset printing presses and the like. In particular, is it an ink that makes the ink supplied to the plate cylinder, blanket cylinder, etc. uniform across the axial direction of each side? ! Regarding the dropping device. The present invention also relates to a method for attaching a blade used in the ink scraping device.

[Conventional technology]

In a general printing press, ink contained in an ink container is supplied to a plate cylinder or a blanket cylinder through rotating bodies such as fan rollers, metering rollers, ink cylinders, etc. Prints on print media such as printing paper. In that case, the ink sent to the plate cylinder, etc. is axially (
In other words, if the layer is not uniform in thickness across the width of the printing paper, uneven printing will appear on the printing paper, which is undesirable.To avoid this, the blade, which is a thin plate material, is Conventionally, a technique has been adopted in which excess ink on the rotating body is removed by bringing it into contact with a rotating body such as a ring roller. However, in the past, the blade was fixed in a position facing the rotating body by simply tightening the blade to the machine frame with bolts or the like. This fixing method had the disadvantage that the blade was wavy and the ink could not be scraped off to an accurate layer thickness. Further, since the blade is fixed with a plurality of bolts, it is troublesome to install and remove the blade. The above-mentioned work is extremely troublesome because there are many devices installed inside the printing press and they are all dirty with ink.

【Problems to be solved】

The present invention allows easy installation and removal of the blade,
Moreover, it is an object of the present invention to provide an ink scraping device capable of forming an ink layer of uniform thickness on a rotating body. Another object of the present invention is to attach the blade simply, reliably, and safely.

[Means for solving problems]

Is there a way to solve the above problem by scraping off the excess ink that adheres to the outer periphery of the rotating body? i, M
The blade has a blade shaft disposed substantially parallel to the rotating body, a blade insertion groove provided in the blade shaft, and a flexible blade whose tip contacts the rotating body. , The above blade is inserted into the blade insertion groove in a bent state, and in this state the blade is fixed to the blade shaft! ! Drop '4t
It is cH. In addition, there is a blade mounting method used in the ink scraping device having the above configuration, in which a pushing jig with a recess is used, and the tip of the blade is inserted into the recess, and the blade is moved by the pushing jig. This is a blade attachment method characterized by inserting the blade into an insertion groove. In the above configuration, the rotating body is any rotating body placed from the ink container containing ink to the plate cylinder.6 In a normal printing press, the metering roller is Corresponds to a rotating body. Therefore, the blade, blade shaft, etc. can be arranged corresponding to the metering roller. [Operation] The blade (13) is inserted into the blade shaft insertion W (18) in the blade shaft (11) in a bent state. Therefore, the blade is fixed to the blade shaft by its own elastic force. Various methods can be considered as means for deflecting the blade (13).
L9) may be provided, and the blade may be forcibly warped by its protrusion. The pushing jig (30) is used when inserting the blade into the blade insertion groove. This pushing jig is provided with four parts (31), and one end of the blade is inserted into the recessed part.The six workers in this state push the blade into the blade insertion groove via the pushing jig. [Example] In FIG. 1, an ink scraping device according to the present invention was used. FIG. 1 is a schematic diagram of the main parts of an offset printing press. In the figure, ink 2 contained in ink container l
is fanchin roller 3. Metering roller 4. @Rerolla 5. Ink layer cylinder 6 and ink forming roller 7.7
The ink on the 8th plate cylinder 8 is sent to the 8th plate cylinder 8 via
- After being first transferred to the blanket cylinder 9, it is transferred onto paper fed in the direction of arrow A, thereby performing printing. Each roller and cylinder rotate in the direction of the arrow. The ink scraping device 10 is attached to a metering roller 4 as a rotating body. This ink scraper W
As shown in FIG. 2, the IO is supported by a blade shaft 11 arranged approximately parallel to the metering roller 4, a blade supporter 12 fixed to the blade shaft 11, and the blade shaft 11 and the blade supporter 12. It has a blade 13 whose tip is in contact with the metering roller 4. The blade shaft 11 is supported at both ends by brackets 14 fixed to a machine frame (not shown). Reference numeral 15 indicates the blade shaft 11
This is a set screw for fixing to the bracket 14. As shown in FIG. 4, the blade shaft 11 and the blade 13 attached thereto have the same length as the metering roller 4. In FIG. 4, the blade 13 and metering roller 4 are shown separated for explanation, but in reality, they are in contact with each other as shown in FIG. 2. In FIG. 1, ink pumped up by fan tin roller 3 adheres to metering roller 4. In FIG. The layer thickness of the ink initially deposited is non-uniform in the axial direction (ie, in the direction perpendicular to the plane of the paper). A blade 13 in contact with the metering roller 4 scrapes off unnecessary ink on the outer periphery of the metering roller to make the ink layer thickness on the outer periphery of the roller uniform. As shown in FIG. 3, the blade shaft 11 has four parts 16 formed in the entire axial direction (perpendicular to the plane of the paper), and a blade supporter 12 is fitted into the recessed part and further fixed with screws 17. . The thickness T of the blade supporter 12 is determined so that a blade insertion groove 18 is formed between the upper part of the blade supporter 12 and the blade 13 when the blade supporter 12 is fitted into the blade shaft 11. . Furthermore, a protrusion 19 is formed at the left end of the blade supporter 12. The blade 13 is fitted into the blade insert [18]. In that case, the blade 13 is first inserted into the fi 18 along the protrusion 8819 of the blade supporter 12. Due to the action of the protrusion 19, the blade 13 is fitted into the groove 18 in an upwardly warped state, that is, in a downwardly bent state. As a result, the blade 13 is fixed to the blade shaft 11 by its own elastic force. The blade 13 is preferably made of a flexible and relatively hard material. For example, SK material (tool steel) with a thickness of about 0.15 to 0.25 mm can be used. In addition, it is preferable to use a polishing machine to finish it with high precision so that it hits the metering roller 4 evenly. If you try to insert the blade 13 into the groove 18 with your bare hands, your hands will slip due to the ink, which is dangerous. Therefore, as shown in FIG. 3, by inserting the blade 13 into the recess 31 of the pushing jig 30 and pushing the pushing jig 30 in the direction of arrow B, the blade 13
can be attached to the blade shaft 11. Pushing jig 3
The length of 0 in the direction perpendicular to the paper surface is not limited to a particular length, but considering that people use both hands to work, it is recommended to set it to the length when a person spreads both hands. good. As shown in FIG. 5, the pushing jig 30 has a recess 31 formed between the base material 32 and the zero-stage member 33 formed by fixing the step member 33 on the base material 32. has been done. At both ends of the base material 32, grips 34, 34 are provided for the operator to hold the base material 32 by hand. In FIG. 2, an air cylinder 21 is connected to the lower end of the bracket 14. When the air cylinder 21 is actuated, the bracket 14 is turned counterclockwise by a small distance. As a result, the blade 13 and the metering roller 4
A slight gap is formed between the two. Such measures are taken when the printing press is not working. After a long period of operation, it becomes necessary to replace the blade 13 with a new one. In that case, loosen the set screw 15 in Fig. 2, rotate the blade shaft 11 counterclockwise, and move the blade 13 to a position where it is easy for the operator to perform the work. For example, rotate the blade 13 by approximately 180 degrees. . Thereafter, the blade 13 is removed from the blade shaft 11, and a new blade is installed. Since no fixing means such as screws are required, the work is extremely easy. In addition, in the above embodiment, as shown in FIG. 3, the blade shaft 11 and the blade supporter 12 are made separately.
By assembling these together, the blade can be inserted.
l1118 was formed. However, the present invention is not limited to this, and the blade shaft 11, blade supporter 12, and blade insertion groove 1B may be made integrally in advance. [Effects of the Invention] According to the invention of claim 1, the installation of the blade is completed by simply inserting the blade (13) into the blade insertion groove (18), so the installation of the blade is very simple. Further, since the blade can be removed by simply pulling it out, the removal operation is also very easy. The installed blade does not cause undulations like conventional screw-fastened blades, so it is a one-rotation body (e.g.
An ink layer of uniform thickness can be formed on the metering roller 4). According to the invention of claim 2, the blade is inserted into the blade insertion groove using the pushing jig (30) having the recess (31). In this case, since the blade is inserted into the recess and pushed in, it is reliably installed into the groove. Also,
It is safer than when workers do it with their bare hands.

[Brief explanation of drawings]

FIG. 1 is a schematic diagram of an example of an offset printing machine using an ink scraping device according to the present invention, FIG. 2 is a side view showing an embodiment of the ink scraping device according to the present invention, and FIG. 2 is a side view showing the main parts and the blade attachment method according to the present invention, FIG. 4 is a plan view of an ink scraping device, etc., and FIG. 5 is a perspective view showing an example of a pushing jig. 4: Metering roller (rotating body) 11; Blade shaft 18 Two blade insertion grooves 13 Two blades 30: Pushing jig

Claims (2)

[Claims] (1) An ink scraping device for scraping off excess ink adhering to the outer periphery of a rotating body, comprising: a blade shaft disposed approximately parallel to the rotating body; a blade insertion groove provided in the blade shaft; It has a flexible blade whose tip contacts the rotating body, and the blade is inserted into the blade insertion groove in a bent state, and in this state, the blade is fixed to the blade shaft. An ink scraping device characterized by: (2) It has a blade shaft disposed approximately parallel to the rotating body, a blade insertion groove provided in the blade shaft, and a flexible blade whose tip contacts the rotating body. The above-mentioned blade is inserted into a blade insertion groove in a bent state, and the blade is fixed to the blade shaft in this state. A blade mounting method characterized by using a jig to insert the tip of the blade into the recess, and in that state inserting the blade into the blade insertion groove using a pushing jig.