KR101294298B1 - Printing system - Google Patents

Abstract

The present invention provides a printing system (100) having a plurality of unit printing units (PU) for multi-layer printing on a printed object (W), wherein the plate-making cylinder (12) of the plurality of unit printing units (PU) is axially oriented. Is configured to be movable to the, the piezo actuator device 200 that can apply a force in the axial direction of the plate-making cylinder 12 is provided, to allow the plate-making cylinder 12 to move in the axial direction, the piezo The actuator device 200 includes a support frame 210 for supporting the printing roller R of the plate-making cylinder 12 and a bearing 220 for supporting the rotation shaft R1 of the printing roller R to be rotatable. In addition, the linear guide 230 for axial movement of the support frame 210, the control unit 241 for controlling the supply and interruption of the power by moving the support frame 210 in the axial direction and the supplied Cause volume change by power source The key is a piezo actuator 240 including a piezo 242, a main frame 250 in which the piezo actuator 240 is mounted, and an auxiliary feeder 300 that enables axial movement of the plate-making cylinder 12. Including, but the auxiliary transfer device 300 is installed in the piezo actuator 240, the ball screw 310 to move the piezo actuator 240 by rotation, and to rotate the ball screw 310 The printing system further includes a motor 320. The control of the large displacement is performed by the auxiliary feeder, and the control of the small displacement is controlled by the piezo actuator.

Description

Printing system

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a printing system that allows precise alignment control by providing an actuator capable of precise control in the axial direction of a printing roller in a printing unit that performs overprinting when two or more inks are overprinted in a printing machine.

Recently, the field of printed electronics, which produces electronic devices by printing method, has gained much attention, including mass production of low-cost products such as RFID antennas, polymer transistors, flexible displays, and solar cells. It is possible to produce a product that can play the role of an electronic device only by producing printed electronic devices with the concept of a conventional printing press, but increasing the precision to several tens of microns. The most important technology in such a printing machine is precise alignment control. In order to manufacture electronic devices such as transistors by superimposing printing of functional inks such as insulating, semiconducting, and conductive materials, the alignment accuracy of each ink layer may be in the order of several to several tens of micrometers. It must be secured.

In a conventional printing press, a register error obtained from a camera or the like is used to perform a control in a direction perpendicular to the web feed direction, that is, a roller's axial direction, using a web guide or the like, or a linear motor or step on the plate making roller for more precise control. Use linear motion device using motor, linear guide and ball skew.

However, web guides have a few tens of microns of precision and are less accurate. With a motor, the response is relatively slow, with a precision of 10 to 20 microns and difficult to achieve a few micros. In particular, backlash between the motor and the ball skew causes a decrease in accuracy.

Accordingly, the present invention is to provide a register control apparatus and method of a printing machine that can improve the response performance and precision by providing a piezo actuator in the axial direction of the plate-making cylinder or blanket cylinder of the printing portion to improve the axial control performance. .

The present invention for achieving the above object is a printing system 100 having a plurality of unit printing units (PU) for multi-layer printing on the printed object (W), the plate making of the plurality of unit printing units (PU) The cylinder 12 is configured to be movable in the axial direction, and is provided with a piezo actuator device 200 capable of applying a force to the axial direction of the platemaking cylinder 12, thereby moving the platemaking cylinder 12 in the axial direction. The piezo actuator device 200 may move, but the support frame 210 for supporting the printing roller R of the plate-making cylinder 12 and the rotating shaft R1 of the printing roller R is rotatable. The bearing 220 is supported so as to support the linear guide 230 for axial movement of the support frame 210, and the support frame 210 in the axial direction to control the supply and interruption of power The control unit 241 and the ball The axial movement of the piezo actuator 240 including the piezo 242 generating the volume change by the supplied power source, the main frame 250 in which the piezo actuator 240 is mounted, and the plate-making cylinder 12. It includes an auxiliary feeder 300 to enable, the auxiliary feeder 300 is installed in the piezo actuator 240, the ball screw 310 to move the piezo actuator 240 by rotation, and the ball One feature of the printing system further includes a motor 320 for rotating the screw 310.
Further, as a printing system 100 having a plurality of unit printing units PU for multi-layer printing on the printed object W, the blanket cylinder 13 of the plurality of unit printing units PU is axially oriented. It is configured to be movable in the direction and is provided with a piezo actuator device 200 that can apply a force in the axial direction of the blanket cylinder 13 is configured to move the blanket cylinder 13 in the axial direction, the The piezo actuator device 200 includes a support frame 210 for supporting the printing roller R of the blanket cylinder 13 and a bearing 220 in which the rotating shaft R1 of the printing roller R is rotatable. ), A linear guide 230 that guides the axial movement of the support frame 210, a control unit 241 that controls the supply and interruption of power by moving the support frame 210 in the axial direction, and the Volume change by supplied power Piezo actuator 240 including a piezo 242 to generate, and the auxiliary feeder 300 to enable the axial movement of the main frame 250 and the blanket cylinder 13 is equipped with the piezo actuator 240 Including, but the auxiliary transfer device 300 is installed in the piezo actuator 240, the ball screw 310 to move the piezo actuator 240 by rotation, and to rotate the ball screw 310 One feature of the printing system further includes a motor 320.

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The present invention as described above includes a piezo actuator in the axial direction of the plate-making cylinder of the printing portion to improve the axial control performance to improve the response performance and precision.

1 is a schematic diagram of a printing system according to the present invention
Fig. 2 is a schematic diagram showing a state in which the piezo actuator device of the present invention is attached to a plate making cylinder of a gravure printing device.
3 and 4 are schematic views of the piezo actuator device and the auxiliary transport device;
Fig. 5 is a schematic diagram showing a state in which the piezo actuator device of the present invention is attached to the blanket cylinder of the gravure offset printing device.

The present invention includes a piezo actuator device 200 capable of axially moving the engraving cylinder 12 of the gravure printing machine or the blanket cylinder 13 of the gravure offset printing machine as described above. It can be improved.

Hereinafter will be described in more detail with reference to the accompanying drawings and embodiments.

Example

First, the printing system 100 of the present invention will be described.

The printing system 100 is provided with a plurality of unit printing units (PU) for multi-layer printing on the printed object (W).

As shown in FIG. 1, the printed matter W, that is, the web, supplied through the unwinder 110 is passed through a plurality of printing units PU while finally going to the rewinder 120.

In the present embodiment, it is shown that the four-degree printing, that is, four-layer printing, is performed while the printed matter W passes through the four printing units 130, 140, 150, and 160.

In order to move the plate-making cylinder 12 (refer FIG. 2) of this printing system 100, it is provided with the piezo actuator apparatus 200. As shown in FIG.

The piezo actuator device 200 is configured to allow the plate making cylinders 12 of the plurality of unit printing units PU to move in the axial direction, and to apply a force to the axis direction of the plate making cylinder 12. will be.

At this time, the piezo actuator device 200 is a support frame 210 for supporting the printing roller (R) of the plate-making cylinder 12 or the blanket cylinder 13 to be described later, as shown in Figure 3 and the printing And a bearing 220 in which the rotating shaft R1 of the roller R is rotatable, a linear guide 230 for guiding the movement of the support frame 210, and a piezo actuator 240.

The piezo actuator 240 includes a control unit 241 for controlling the supply and interruption of power as the moving support frame 210 and a piezo 242 for generating a volume change by the supplied power.

In addition, the piezo actuator 240 is fixed by the main frame 250.

That is, when the piezo actuator 240 receives power from the piezo 242 by the controller 241, a volume change occurs, and the support frame 210 is moved by the volume change.

The support frame 210 moves along the linear guide 230, and eventually the printing roller R supported by the support frame 210 also moves.

As a result, the plate-making cylinder 12 is transferred in the axial direction (direction I) of the plate-making cylinder 12, and the register control can be performed by adjusting the position of the printing pattern transferred to the printed material W. FIG.

On the other hand, as shown in Figure 4 includes an auxiliary conveying device 300 for enabling the axial (direction I) movement of the plate making cylinder 12 of the gravure printing apparatus or the blanket cylinder 13 of the gravure offset printing apparatus. It is also possible.

The auxiliary transport device 300 is installed in the piezo actuator 240, the ball screw 310 for moving the piezo actuator 240 by rotation, and the motor 320 for rotating the ball screw 310 It may include.

In other words, the piezo actuator device 200 itself may be moved by the auxiliary transfer device 300 to be used for relatively large displacement control, and the piezo actuator device 200 may be used for relatively minute displacement control. have.

In this case, when using the auxiliary transfer device 300, the piezo actuator device 200 should be installed to be movable on the main frame 250, of course.

Meanwhile, the motor of the auxiliary transport device 300 may use a step motor or a servo motor.

Although the plate making cylinder 12 of the gravure printing apparatus has been described above, the present invention is applicable to the blanket cylinder 13 of the gravure offset printing apparatus as shown in FIG. 5.

That is, as a printing system 100 having a plurality of unit printing units PU for multi-layer printing on the printed object W, the blanket cylinder 13 of the plurality of unit printing units PU is axially oriented. It is configured to be able to move to, and the blanket cylinder 13 is provided with a piezo actuator device 200 that can apply a force in the axial direction of the blanket cylinder 13 can move.

On the other hand, the direction II which is not explained in Figs. 2 and 5 indicates the advancing direction of the printed matter W.

100: printing system PU: printing unit
12: Engraving cylinder 13: Blanket cylinder
200: piezo actuator device
300: auxiliary conveying device

Claims (5)

A printing system 100 having a plurality of unit printing units PU for multi-layer printing on a printed object W,
The plate making cylinders 12 of the plurality of unit printing units PU are configured to be movable in the axial direction, and a piezo actuator device 200 capable of applying a force in the axial direction of the plate making cylinder 12 is provided. To move the plate-making cylinder 12 in the axial direction,
The piezo actuator device 200 includes a support frame 210 for supporting the printing roller R of the plate-making cylinder 12 with one arm.
A bearing 220 in which the rotating shaft R1 of the printing roller R is rotatable;
A linear guide 230 for axial movement of the support frame 210;
Piezo actuator 240 including a control unit 241 for controlling the supply and interruption of the power to move the support frame 210 in the axial direction and a piezo 242 for generating a volume change by the supplied power; ,
It includes a main frame 250 is equipped with the piezo actuator 240 and the auxiliary feeder 300 to enable the axial movement of the plate-making cylinder 12,
The auxiliary transfer device 300 is installed in the piezo actuator 240, the ball screw 310 for moving the piezo actuator 240 by rotation, and the motor 320 for rotating the ball screw 310 It further includes a printing system.
A printing system 100 having a plurality of unit printing units PU for multi-layer printing on a printed object W,
The blanket cylinder 13 of the plurality of unit printing units PU is configured to be movable in the axial direction and the piezo actuator device 200 capable of applying a force in the axial direction of the blanket cylinder 13 is provided. Is configured to be able to move the blanket cylinder 13 in the axial direction,
The piezo actuator device 200 includes a support frame 210 for supporting the printing roller R of the blanket cylinder 13,
A bearing 220 in which the rotating shaft R1 of the printing roller R is rotatable;
A linear guide 230 for axial movement of the support frame 210;
Piezo actuator 240 including a control unit 241 for controlling the supply and interruption of the power to move the support frame 210 in the axial direction and a piezo 242 for generating a volume change by the supplied power; ,
It includes a main frame 250 in which the piezo actuator 240 is installed and the auxiliary feeder 300 to enable the axial movement of the blanket cylinder 13,
The auxiliary transfer device 300 is installed in the piezo actuator 240, the ball screw 310 for moving the piezo actuator 240 by rotation, and the motor 320 for rotating the ball screw 310 It further includes a printing system. delete delete delete

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