JPH029636A - Flexographic rotary press - Google Patents

Abstract

PURPOSE:To enhance printing quality and the printing durability of a printing plate by detecting the displacement of a plate cylinder and that of an anilox roller to hold not only the printing pressure between the plate cylinder and an impression cylinder but also that between the plate cylinder and the anilox roller. CONSTITUTION:The aqueous ink supplied to an anilox roller 3 by an inking arrangement is transferred to the printing plate P on a plate cylinder 1 and further transferred to the printing paper 4 running between the plate cylinder 1 and an impression cylinder 2 to be printed thereon and, at this time, displacement detectors 7a, 7a detect the displacement of the plate cylinder 1 while displacement detectors 7b, 7b detect the displacement of the anilox roller 3 and the obtained detection signals are processed by a printing controller 9 to be sent to a printing pressure control motor 12. The printing pressure control motor 12 is driven in a forward or reverse direction corresponding to displacement and the rotation thereof is transmitted to an eccentric bearing 11 to control not only the shaft-to-shaft distance between the plate cylinder 1 and the impression cylinder 2 but also that between the plate cylinder 1 and the anilox roller 3, and the printing pressure between the plate cylinder 1 and the impression cylinder 2 as well as that between the plate cylinder 1 and the anilox roller 3 are held to proper values.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a flexographic rotary press applied to a flexographic letterpress newspaper rotary press that prints using water-based ink.

(Prior Art) A conventional flexo rotary press is explained with reference to Fig. 3 (1) (n). (1) is a plate cylinder, (P) is a printing plate on the plate cylinder (1), and (2) is a printing plate on the plate cylinder (1). An impression cylinder adjacent to the plate cylinder (1), (3) an anilox roller adjacent to the plate cylinder (1), (4) a printing paper, (5) an eccentric bearing of the plate cylinder (1), ( 6) is a printing pressure adjustment shaft attached to the eccentric bearing (5), and the water-based ink supplied to the anilox roller (3) by the inking device (not shown) is transferred from the anilox roller (3) to the anilox roller (3). 3) is transferred to the printing plate (P) on the plate cylinder (1) adjacent to the plate cylinder (1), and then transferred to the plate (P) on the plate cylinder (1) and the impression cylinder (2).
It is transferred to the printing paper (4) running between the printing plate (
Pictures and characters corresponding to the picture P) are printed on the printing paper (4).

(Problems to be Solved by the Invention) In order to obtain high-quality printed matter using the conventional flexo rotary press shown in FIGS. 3(1) and (n).

It is extremely important to set and manage the printing pressure (C+) between the plate cylinder (1) and the impression cylinder (2), and the printing pressure (G2) between the plate cylinder (1) and the 7-nitrox roller (3). be. Print pressure (GI
) (Gz) is set by adjusting the length of the printing pressure adjustment shaft (6) and rotating the eccentric bearing (5). Also, printing pressure (GI)
(After setting G, fix the printing pressure adjustment system to the frame (not shown) so that printing pressure (Gl) (Gz) does not change. Between plate cylinder (1) and impression cylinder (2) It is said that the printing pressure (G,) for the printing plate (P) is optimal for the kiss press (see Fig. 5 (+)), but in reality, the printing pressure (G,) for the printing plate (P) is optimal for the printing plate (P). ) Due to variations in the thickness accuracy of the 9-plate version, or due to heat generation in the bearings etc. due to long-term high-speed operation (usually 4 to 5 hours), printing pressure loss (see the arrow in Figure 5 (III)) may occur. .

The printing pressure (G,) is set to a value that includes these.

The actual printing pressure (G1) is set to a high printing pressure of about 200 μm (see FIG. 5 (III)), which is higher than the appropriate printing pressure (see FIG. 5 (II)). However, when the printing paper (4) is printed with high printing pressure, the printing quality deteriorates.

Further, there was a problem that the stiffness of the printing plate (P) was reduced, printing pressure was lost, and printing quality became unstable. Note that (1) and (n) in FIG. 4 show the relationship between the appropriate printing pressure range and print quality.

The present invention has been proposed in view of the above-mentioned problems, and its object is to provide a flexographic rotary press capable of improving printing quality and printing durability of printing plates.

(Means for Solving the Problems) In order to achieve the above object, the present invention provides an eccentric bearing that rotatably supports a first plate cylinder in a flexo rotary press that prints using water-based ink, and an eccentric bearing that rotatably supports the first plate cylinder. a printing pressure adjustment device having a rotational drive mechanism; a displacement detection device provided on the plate cylinder and the anilox roller; and a detection signal from the displacement detection device to drive the printing pressure adjustment device to create a space between the plate cylinder and the impression cylinder. and a printing pressure control device that adjusts the distance between the axes of the plate cylinder and the anilox roller.

(Function) The flexographic rotary press of the present invention is constructed as described above, and the water-based ink supplied to the anilox roller by the inking device is transferred from the anilox roller to the printing plate on the plate cylinder, and is further transferred to the printing plate on the plate cylinder. When a picture or text corresponding to the pattern on the printing plate is printed on the printing paper by transferring it to the printing paper traveling between the cylinder and the printing paper, the displacement detection device of the first printing cylinder detects the displacement of the printing cylinder (after long-term operation). The anilox roller displacement detection device detects the displacement of the anilox roller (the same displacement as above), and the anilox roller displacement detection device detects the displacement of the anilox roller (the same displacement as above). The detected signal is sent to the printing pressure control device, the control signal obtained by processing by the printing pressure control device is sent to the printing pressure adjustment device, and the printing pressure adjustment device is driven according to the displacement to adjust the eccentric bearing. 9 in the forward or reverse direction to adjust the distance between the axes between the plate cylinder and the impression cylinder, and the distance between the axes between the plate cylinder and the anilox roller.

The printing pressure between the plate cylinder and the impression cylinder and the printing pressure between the plate cylinder and the anilox roller are maintained at appropriate printing pressures.

(Example) Next, the flexo rotary press of the present invention will be explained using an example shown in Figs. 1 and 2. In Fig. 1, (1) is a plate cylinder, and (2) is adjacent to the plate cylinder (1). The impression cylinder (3) is the plate cylinder (1)
Anilox roller adjacent to (4) is the printing paper,
(7a) (7a) is a displacement detection device for the plate cylinder (1), (
7b) (7b) is a displacement detection device for the anilox roller (3).

(8) is a printing pressure adjustment device, (9) is a printing pressure control device, (1
0a) is the printing pressure control device (9) and the printing pressure adjustment device (8).
), (10b) is the displacement detection device (7a), (7a) and the printing pressure control device (9).
(10c) is a signal cable that connects the displacement detection device (7b) (7b) and the printing pressure control device (9). In addition, in Fig. 2 showing details of the printing pressure adjustment device (8), (la) is the plate cylinder shaft provided at both ends of the plate cylinder (1), and (p) is the plate cylinder shaft provided on the outer peripheral surface of the plate cylinder (1). Installed printing plate.

(11) is an eccentric bearing, (lla) is an eccentric bearing (11)
), and (14) is a bearing interposed between the eccentric bearing (11) and the plate cylinder shaft (1a).

(12) is the printing pressure adjustment motor, (12a) is the printing pressure adjustment gear attached to the output shaft of the printing pressure adjustment gear (12), and the printing pressure adjustment gear (12a) is the eccentric bearing gear (lla).
It meshes with the In addition, (13) is the eccentric bearing (11)
This is a frame that rotatably supports the

Next, the operation of the flexo rotary press shown in FIG. 1.2 will be explained in detail. The water-based ink supplied to the anilox roller (3) by an inking device (not shown) is transferred from the anilox roller (3) to the anilox roller (3).
The printing paper (P) is transferred to the printing plate (P) on the printing cylinder (1) adjacent to the printing plate (P), and further runs between the printing cylinder (1) and the impression cylinder (2).
4), and when a picture or text corresponding to the pattern of the printing plate (P) is printed on the printing paper (4), the displacement detection device (7a) (7a) detects the displacement of the plate cylinder (1). The displacement detection device (7b) detects the displacement of the anilox roller (3) (the same displacement as above) The detection signals obtained from each displacement detection device (7a) (7a) and (7b) (7b) are sent to the printing pressure control device (9) via the signal cable (10b) (10c). The control signal obtained by being sent and processed by the printing pressure control device (9) is sent to the printing pressure adjustment device (8) via the signal cable (10a).
) is sent to the printing pressure adjustment motor (12) of the plate cylinder (1) and the anilox roller (3).
The rotation is driven in the forward or reverse direction depending on the displacement of the printing pressure adjustment gear (12a) and the eccentric bearing gear (lla).
) to the eccentric bearing (11), and the eccentric bearing (
11) rotates in the forward or reverse direction, and the distance between the axes between the plate cylinder (1) and the impression cylinder (2).

The distance between the axes between the plate cylinder (1) and the anilox roller (3) is adjusted to reduce the printing pressure between the first plate cylinder (1) and the impression cylinder (2), and the printing pressure between the plate cylinder (1) and the anilox roller. The printing pressure between the roller (3) and the roller (3) is maintained at an appropriate printing pressure.

(Effects of the Invention) As described above, the flexographic rotary press of the present invention transfers the water-based ink supplied to the anilox roller by the inking device from the anilox roller to the printing plate on the plate cylinder, and further transfers the water-based ink supplied to the anilox roller by the inking device to the printing plate on the plate cylinder. When images and characters corresponding to the patterns on the printing plate are printed on the printing paper by transferring them to the printing paper running between The displacement detection device of the anilox roller detects the displacement of the anilox roller (displacement similar to the above), and the detection signal obtained by each displacement detection device is sent to the printing pressure control device, the obtained control signal processed by the printing pressure control device is sent to the printing pressure adjustment device, and the printing pressure adjustment device is driven according to the above displacement to correct the eccentric bearing. The printing pressure between the fifth plate cylinder and the impression cylinder is adjusted by rotating in the direction or the opposite direction and adjusting the center distance between the first plate cylinder and the impression cylinder and the center distance between the plate cylinder and the anilox roller. Since the printing pressure between the plate cylinder and the anilox roller is maintained at an appropriate printing pressure, printing quality and stiffness resistance of the printing plate can be improved.

[Brief explanation of the drawing]

Fig. 1 is a side view showing an embodiment of a flexo rotary press according to the present invention, Fig. 2 is a longitudinal sectional front view showing details of a printing pressure adjustment device, and Fig. 3 (I) shows a conventional flexo rotary press. The side view, Figure 3 (II) is an explanatory diagram showing the printing pressure, and Figure 4 (1) (
II) is an explanatory diagram showing the relationship between the appropriate printing pressure range and printing quality, Figure 5 (1) is an explanatory diagram showing the state of kiss press, and Figure 5
Figure (II) is an explanatory diagram showing the state of proper printing pressure, and Figure 5 (I
I[) is an explanatory diagram showing a state of high printing pressure. (1)... Plate cylinder, (P)... Printing plate, (2)... Impression cylinder. (3)... Anilox roller, (4)... Printing paper, (7a) (7a)... Displacement detection device for plate cylinder (1), (7b) (7b)... Anilox roller (3 ) displacement detection device, (8)... printing pressure adjustment device,
(9)...Print pressure control device, (11) --' eccentric bearing, (12) (12a)...Rotation drive device for Ua center shaft bearing 11).

Claims (1)

[Claims] In a flexographic rotary press that prints using water-based ink, a printing pressure adjustment device that has an eccentric bearing that rotatably supports the plate cylinder and a rotational drive mechanism for the eccentric bearing, and is provided on the plate cylinder and an anilox roller. A displacement detection device and a detection signal from the displacement detection device drive the printing pressure adjustment device to adjust the distance between the axes between the plate cylinder and the impression cylinder and the distance between the axes between the plate cylinder and the anilox roller. A flexo rotary press characterized by comprising a printing pressure control device.