JPH0383646A - Apparatus for washing web guide roller - Google Patents

Abstract

PURPOSE:To automatically wash a guide roller by mounting a mechanism applying reciprocating motion to a roller shaft in the axial direction thereof to reciprocally move the whole of a guide roller in the axial direction to the non- movable member of a main machine. CONSTITUTION:Since a guide roller reciprocating moving mechanism 10 is in a stop state at the time of non-washing, a guide roller main body 4a is rotated only in the running direction A of a web 3. When a guide roller 4 is contaminated with ink, the operating speed of a printing press is lowered and a blanket cylinder and a plate cylinder are separated from the web 3 to stop printing. At this time, the guide roller main body 4a is moved in a roller shaft direction by the driving of the motor 40 of the guide roller reciprocating moving mechanism 20 while rotated in a state in contact with the web 3 running at a low speed. That is, the guide roller main body 4a is reciprocally moved in the direction B crossing the running direction A of the web 3 at a right angle and the ink adhered to the surface of the guide roller 4 is wipen off by the web 3 running in a blank paper state by the slip between the guide roller main body 4a and the web 3.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a cleaning device for web guide rollers (hereinafter referred to as guide rollers) of a rotary printing press. The present invention relates to a guide roller cleaning device that wipes off dirt such as ink adhering to the guide roller surface by causing slippage between the web and the guide roller by reciprocating the guide roller.

[Conventional technology]

FIG. 5 shows a side view of the newspaper rotary press. During normal printing, a web 3 fed from a web roll 2 of a paper feed stand 1 is guided to an impression cylinder 6 of a printing unit 5 via a number of guide rollers 4. Here, the ink transferred from the plate cylinder 8 to the blanket cylinder 7 while being pressed against the impression cylinder 6 by the blanket cylinder 7 is transferred onto the web 3.

The printed web 3 is guided again to a number of guide rollers 4, pulled by drag rollers 9, folded by a folding machine 11, and then conveyed to another process by a delivery conveyor (not shown).

The guide roller becomes dirty with ink, paper powder, etc. as printing time passes. If printing is performed in this state, the dirt on the guide roller will be transferred to the printing paper surface, reducing the product value. For this reason, in the case of newspaper rotary presses, printing operations are interrupted to clean the guide rollers. In this work, each guide roller is manually cleaned using a cloth moistened with cleaning oil or the like.

On the other hand, an automatic cleaning device for guide rollers has also been proposed.
For example, in the method described in Japanese Patent Application Laid-open No. 149449/1989, the peripheral speed of rotation of the guide roller is slightly different from the running speed of the web, and the surface of the guide roller is wiped by slipping caused by this speed difference. It is configured. The speed difference is generated by controlling the rotation of the guide roller using a rotation speed control device.

[Problem to be solved by the invention]

In printing machines such as newspaper rotary presses that have more than 100 guide rollers in one series, cleaning each guide roller manually requires a lot of effort, and the guide rollers are located in high places. Cleaning is risky.

Depending on the location where the guide roller is installed, it may be difficult for a worker to reach, or the location may be narrow, making it difficult to work, which poses problems in terms of workability and safety.

In addition, the conventional guide roller automatic cleaning device has a roller drive V &
This requires a horizontal brake mechanism, and the web tension becomes unbalanced, which can cause paper to break. Therefore, the device configuration and operation become complicated, as it is necessary to correct fluctuations in paper tension. Further, there was a drawback that dirt remained on the guide roller in the vicinity of one inch where both ends of the web touched.

An object of the present invention is to provide a guide roller cleaning device that eliminates the inconvenience of cleaning the guide rollers by hand.

Another object of the present invention is to provide a guide roller cleaning device in which sliding between the web and the guide roller is caused by reciprocating motion in the axial direction of the guide roller and the web is used to wipe the guide roller.

Another object is to provide a simple mechanism for reciprocating the guide roller in the axial direction.

[Means to solve the problem]

In order to achieve the above object, the present invention provides a guide roller cleaning device in which a guide roller main body is rotatably fitted to a roller shaft but cannot be slid on the shaft. This mechanism is attached to a non-movable member of the machine.

The guide roller reciprocating mechanism includes means for generating rotational power, means for converting the rotational motion into linear reciprocating motion in the direction of the roller axis, and the roller shaft is connected to the converting means.

The guide roller reciprocating mechanism includes means for generating reciprocating power, and the roller shaft is connected to a drive shaft of the means.

[For production]

By reciprocating the guide roller in the axial direction while the web is running, dirt on the surface of the guide roller is wiped off by the slippage that occurs between the web and the guide roller.

〔Example〕

Embodiments of the present invention will be described below based on the drawings.

(First Embodiment) FIG. 1 is a front view of a guide roller reciprocating mechanism 20 that reciprocates the roller shaft 10 of the guide roller 4 in the roller axial direction.

The guide roller 4 includes a guide roller shaft 10 attached to the machine frame 30, and a guide roller main body 4a supported on the shaft through a bearing 12 so as to be non-slidable and rotatable. The guide roller shaft 10 is non-rotatably provided on a sliding bearing 14 provided on the machine frame 30 and is movable in the roller axial direction.As shown in the figure, a link 21 is attached to the shaft end protruding from the machine frame. A slit 22 is formed for pivotally attaching one end of the holder. The other end of the sink is pivotally supported at a position offset from the center of rotation of the wheel 23. The wheel 23 is fixed to a shaft 25 rotatably supported by a bracket 24 mounted on the machine frame, and this shaft 25 is rotated by a drive section 40. The drive unit 40 may be configured to include a motor as a drive source, and a belt, gears, etc. as a transmission mechanism for transmitting power to the shaft 25, and a geared motor may be directly connected to the shaft 25. .

In this embodiment, the swing width (amount) of the guide roller 4 in the roller axial direction is determined by changing the pivot position P of the link 21 to the wheel 23, that is, from the center of rotation O of the wheel, as shown in FIG. By changing the distance e, the number of reciprocating movements of the guide roller can be arbitrarily set by changing the number of rotations of the wheel.

Next, the operation of the above embodiment will be explained.

During non-cleaning, the guide roller reciprocating mechanism 10 is in a stopped state, so the guide roller main body 4a rotates only in the running direction A of the web 3.

If the guide roller 4 is stained with ink, reduce the operating speed of the printing press and move the blanket fR7 and plate cylinder 8 to the web 3.
Release the button to interrupt printing. Without changing the route of Web 3,
When the web is pulled by a drag roller 9, the web 3 is not printed, passes through each guide roller 4 and impression cylinder 6, and is folded as a blank sheet by a folding machine 13. At this time, the dirt attached to the guide roller 4 is transferred to the blank web 3 and the guide roller 4 is transferred to the blank web 3.
becomes pure.

That is, after shifting to slow operation and reducing the traveling speed of the web 3, the drive section is operated by a command from a controller (not shown). Then, the guide roller main body 4a is rotated by the running of the web and moved in the roller axial direction. Therefore, the guide roller 4 is reciprocated in the direction B perpendicular to the running direction A of the web due to the reciprocating movement of the roller shaft.

At that time, between the web 3 and the guide roller main body 4a,
As a result of the slippage, the ink adhering to the guide roller surface is wiped away by the web.

(Second Embodiment) FIG. 3 is a front view of another guide roller reciprocating mechanism. Note that the same reference numerals are given to the same members as in the first embodiment, and the explanation thereof will be omitted.

A mounting portion 11 provided on the roller shaft is formed on the roller shaft 10 between the guide roller book *4a and the machine frame 30 in order to pivotally attach the operating lever 100. The actuating lever 100 is rotatably provided in the roller axis direction by being pivotally supported in the middle by a support 110 which is attached to the frame 30 of the machine, and has elongated holes 101 and 102 at both ends thereof.
is formed. One end of the link 100 is fitted into the mounting hole 11 of the roller shaft and pivoted by loosely fitting a pin 103 into the elongated hole 101, and the other end is attached to the reciprocating motion generator 1.
It is connected to the drive shaft 121 of No. 20 by loosely fitting the bottle 104 into the elongated hole 102. Reciprocating motion generator 1
20 is composed of a pneumatic or electric vibrator, and is attached to the machine frame 30 via a bracket 122 so that the operating direction of its drive shaft 121 is parallel to the roller shaft 10.
installed on.

Next, the operation of the above embodiment will be explained.

When the reciprocating motion generating device operates, the operating lever swings in the roller axial direction about the fulcrum of the support, and transmits this swinging motion to the roller shaft to cause the guide roller to reciprocate in the roller axial direction.

This reciprocating movement of the guide roller functions in the same manner as in the first embodiment.

According to this embodiment, since there is no mechanism for converting to reciprocating motion, the device configuration can be simplified, and depending on the installation space, as shown in FIG. 120 drive shafts 121 may be configured to be directly connected to the roller shaft 10.

Note that 123 is a coupling that connects the roller shaft 10 and the drive shaft 121.

Further, in each of the embodiments described above, since the operation timing of the drive unit can be controlled for each guide roller, the relative direction and number of reciprocating movements of each guide roller can be set arbitrarily. For example, since adjacent guide rollers can be moved in opposite directions, it is possible to perform control to prevent the web from shifting or meandering. The width and the number of reciprocating movements can be easily created by changing the operating specifications of the lateral part of the link machine and the drive unit, such as the number of revolutions of the motor and the number of reciprocating movements of the vibrator.

Further, a special mechanism for stopping the axial movement of the guide roller is not required, and the structure is simplified.

Furthermore, since the operation timing of the drive unit can be controlled for each guide roller, the relative direction and number of reciprocating movements of each guide roller can be set arbitrarily. Therefore, since adjacent guide rollers arranged in front and behind with respect to the running direction of the web can be moved in opposite directions, it is possible to prevent the web from shifting or meandering.

Furthermore, since the guide roller moves in the axial direction, the web ii
# There will be no residue left on the guide roller body near where the ends meet, and the web will not be stained with ink remaining in that area.

[Brief explanation of drawings]

FIG. 1 is a front view of a guide roller reciprocating mechanism according to a first embodiment of the present invention, FIG. 2 is a side view of the wheel portion of FIG. 1, and FIG. 3 is a guide according to a second embodiment of the present invention. FIG. 4 is a front view of the kite roller reciprocating mechanism which is a modification of the second embodiment, and FIG. 5 is a side view of the newspaper rotary press. DESCRIPTION OF SYMBOLS 1... Paper feed stand, 3... Web, 4... Guide roller, 4a... Guide roller body, 5... Printing unit, 10... Roller shaft, 20... Guide roller reciprocation Movement mechanism, 21... Link, 23... Wheel, 30... Machine frame, 40... Drive unit, 100
...Operating lever, 120... Reciprocating motion generating device.

Claims (3)

[Claims] (1) In a cleaning device for a guide roller in which a guide roller main body is rotatably fitted to a roller shaft but cannot slide on the shaft, the entire guide roller is cleaned by applying reciprocating motion in the axial direction to the roller shaft. A web guide roller cleaning device that has a mechanism for reciprocating in the axial direction, and the mechanism is attached to a non-movable member of the machine. (2) The guide roller reciprocating mechanism according to claim 1, wherein the guide roller reciprocating mechanism includes means for generating rotational power, means for converting rotational motion into linear reciprocating motion in the roller axis direction, and the roller shaft is connected to the converting means. Web guide roller cleaning device. (3) The web guide roller cleaning device according to claim 1, wherein the guide roller reciprocating mechanism includes means for generating reciprocating power, and the roller shaft is connected to a drive shaft of the means.