JPS5966429A - Apparatus for treating surface of synthetic resin material to be printed - Google Patents

Abstract

PURPOSE:An apparatus designed to pretreat the surface to be a printed surface of a cylindrical synthetic resin material by subjecting the surface thereof to the corona discharge treatment in a specific state. CONSTITUTION:A material to be printed 19 supported by a driven roll 17 is located at a position (A), and the outer surface of the material to be printed 19 is made to face corona electrode rods 12 with a gap (H) therebetween. An electric current is passed through the electrode rods 12 in this state, and a driving roll 13 made of an electrically nonconductive material, e.g. polyurethane, is rotated and driven to treat the surface of the material to be printed 19 in the streaky form in the width of pretreating areas (l1) of the corona electrode rod 12. The material to be printed 19 together with the driven roll 17 is then located at a position (B), and the surface of the streaky part subjected to the surface treatment at the position (A) is then treated in the width of pretreating areas (l2) of the electrode rod 12 to carry out the surface treatment of the whole outer surface (surface) of the material to be printed 19.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention provides a square or oval cup with rounded corners, a truncated conical cup with a diameter smaller than the bottom diameter, and a cup made of polyethylene, polypropylene or a synthetic resin of the same material. The present invention relates to a device K that pre-treats the surface of a cylindrical printing material such as a bottle-shaped material to prevent ink from adhering to it when printing with a sound offset printing machine.

An object of the present invention is to provide a method for printing a rectangular or oval shape with rounded corners on a mandrel placed on a turret, which is an indexing jig device for a printing material for an offset printing machine, which is attached to an offset printing machine. The surface of a cylindrical printing material such as a cup, a truncated conical cup with a diameter smaller than the bottom diameter, or a bottle shape is subjected to corona discharge treatment, and the surface treatment of the printing material and printing are performed in conjunction. This is an attempt to improve efficiency.

When using synthetic resin as a printing material, ink may adhere well to some materials depending on the material of the synthetic resin, but ink may adhere poorly to printing materials made of polyethylene, polypropylene, or similar synthetic resins. , the surface to be printed is treated. This surface treatment method is
In addition to chemical treatment, flame treatment and corona discharge treatment are used to remove oily components from the surface and change the molecular structure of the synthetic resin to improve ink adhesion.

By the way, when the shape of the printing material is a perfect circular cylinder and it is to be subjected to corona discharge treatment, a mandrel placed in the turret is used as a negative electrode, and a true cylindrical material whose entire inner peripheral surface is in close contact with this mandrel is used. By placing a positive electrode on the outer surface of the printing material with a slight gap and rotating the printing material, the surface of the printing material can be treated with corona discharge, and then printed by an offset printing machine. However, in the case of a rectangular or polygonal cylindrical printing material with rounded corners, if the shape of the mandrel serving as the negative electrode is a square or polygon corresponding to the shape of the knotted printing material, Although the entire inner circumferential surface of the printing material is in close contact with the negative electrode, rotating the printing material changes the center radius of rotation of the printing material, so the positive electrode is displaced while maintaining a predetermined gap according to the change. This requires a fairly complex mechanism. Therefore, conventionally, a working means has been adopted in which the surface treatment is fired using a separate device at a location other than the turret and then supplied to the offset printing press.

A surface treatment apparatus according to the present invention has solved these conventional problems, and embodiments thereof will be described below with reference to the drawings.

In FIG. 1, 1 is an offset printing machine, and 2 is an indexing jig device for a printing material attached to the offset printing machine 1. In FIG.

Offset printing machine 11'! A blanket cylinder 3 is provided with a rotary opening, and a plurality of blankets 4 are attached to the circumferential surface of the plunge cylinder 30 at equal intervals.

5 is a color head, and a plate cylinder 9 with a printing plate is attached.
, a foam roller 10, etc., and several color heads 5 with different colors of ink are arranged on the circumferential surface of the blanket cylinder 30.

First, the printing material indexing jig device 2 has a plurality of mandrels 7 on which cylindrical printing materials such as cups are mounted on a turret 6, which are arranged at equal intervals, and are mounted on the mandrels 7 by indexes. One blanket 4
The printed material is indexed to the printing position C where it comes into contact with and the printed material is carried out. 8 is a drive device for the offset printing press 1 and the indexing jig device 2.

By the way, in the indexing jig device 2 of the device of the present invention,
They are arranged at a first station A and a second station B, which are standby positions before the printing position tC.

The first and second stations A and BK are equipped with two pretreatment apparatuses, the first and second pretreatment apparatuses having the same structure. As shown in FIGS. 2 and 3, the structure of this pretreatment device is as shown in FIG. are fixed in parallel at the required intervals. Further, the support member 11 is provided with a drive roll 13 made of a non-conductive material such as polyurethane, and a drive shaft 14.
It is rotatably supported through the shaft. In the circumferential direction of the outer circumferential surface 16 of the drive roll 13, relief grooves 15 for the corona electrode rods 12 are provided at the same pitch as the corona electrode rods 12. The outer peripheral surface 16 of the drive roll 13 and the discharge surface 1 of the corona electrode rod 12 pass through the interval between the corona electrode rods 12.
2α has a gap H of approximately 1.5 m/711. As shown in FIG. 4, the discharge surface 12α of the corona electrode rod 12 is formed in a sawtooth shape I7 to increase the substantial discharge area.

-i, The turret 6 supports the inner surface of a cylindrical printing material 190 made of synthetic resin such as polyethylene, polypropylene, or the same material, and the outer surface (surface) of the printing material 19 is attached to the outer peripheral surface 16 of the drive roll 13. Opposed to each other, the discharge surface 12α of the corona electrode rod 12 and the gap H? A driven roll 17, which serves as a negative electrode and faces each other, is rotatably provided via a support shaft 18.

The pretreatment devices having the above structure are disposed at two positions, the first station A and the second station B, as shown in FIG.
placed in a staggered manner.

1, that is, if the pre-treatment area 11y of the corona electrode rod 12 shown in FIG. 5 is the first station A, and the pre-treatment area A of the corona electrode rod 12 shown in FIG. 6 is the second station B, then as shown in FIG. As shown, the pretreatment area 2 of the second station B is the same as the pretreatment area 1 of the first station.
arranged so that a part thereof overlaps and has a phase difference,
The arrangement is such that the portion Z that has not been pretreated at the first station A is pretreated at the second station B.

Further, as shown in FIGS. 2 and 3, when the shape of the printing medium 19 is a square with rounded corners, the driven roll 17 serving as a negative electrode has a diameter corresponding to the rounded corner, and has a corona. The electrode rod 12 is assumed to be linear.

In the case of a bottle-shaped printing material 19h as shown in FIG. 9 or a truncated cone-shaped printing material 19h shown in FIG. 10, the corona electrode rod 12 has an arc shape as shown in FIG. The support member 11 constituting the processing device is movable toward and away from the driven roll 17.

Next, the operation of the device of the present invention will be described and explained.

When the printing material 19 supported by the driven roll 17 is located at the first station A, the outer surface of the printing material 19 faces the corona electrode rod 12 with a gap I, and the driven roll 17 and the driving roll In this state, the corona electrode rod 12 is energized and the drive roll 13 is driven to rotate, thereby forming a rectangular printing material 19 with pools at the corners as shown in FIG. With the driven roll 17 as a fulcrum, the linear part moves parallel to the corona electrode rod 12, and in the rounded corner part, it rotates along the driven roll 17 and moves parallel again in the straight part, which is a repeated operation. The drive roll 13 stops when the body 19 has made one revolution.Therefore, the outer surface of the printing material 19 that has made one revolution is subjected to a surface treatment in the form of streaks with the width of the pre-treatment area e1 of the corona electrode rod 12.

Printing material 1 whose surface treatment has been completed at the first station A
9 is positioned at the second station B together with the driven roll 17 by one-pitch indexing of the turret 6. This second
At station B, the same operation as in the first station A is carried out, and at the second station B, the width of the pretreatment area h of the corona electrode rod 12 is The surface treatment is carried out over the entire outer surface (surface) of the printing medium 19.

The printing medium 19 whose surface has been subjected to surface treatment at the second station B in this manner is positioned at a printing position C by one-pitch indexing of the turret 6, and printing is performed on the treated surface. During this printing process, the surface of the printing material 19 that follows is sequentially subjected to surface treatment at the first station A and the second station B.

As described above, the present invention provides for a stationary corona electrode rod,
A part of the periphery of the cylindrical printing material is supported on the inner surface by a driven roll that serves as a negative electrode, and the cylindrical printing material is rotated with the outer surface facing the drive roll, and the cylindrical printing material is heated by corona discharge from the corona electrode rod. Electrically and chemically modify (activate) the surface of printed materials
Since the printing material is to be processed, the shape of the cylindrical printing material is a rectangular or elliptical shape with rounded corners, a bottle shape as shown in Fig. 9, or a truncated cone shape as shown in Fig. 10. Surface treatment is possible on the mandrel of the turret, which is an indexing jig device for the printing material attached to the printing machine, and the surface treatment is performed closest to the printing process, and this surface treatment and printing are continuous. It has the following advantages. Therefore, this completely eliminates the conventional problem of having to perform surface treatment using a dedicated device separate from the offset printing machine.

[Brief explanation of the drawing]

Figure 1 shows one of the offset printing machines in which the device of the present invention is installed.
A side view showing an example, FIG. 2 is a sectional view of the device of the present invention,
Figure 3 shows a cross section along the line ■-■. Figure 3 is a side view of Figure 2, Figure 4 is an enlarged sectional view of the corona electrode rod, Figure 5 is an explanatory diagram of the pretreatment area at the first station, and Figure 6 is the pretreatment at the second station. 7 is a detailed view of the combined pretreatment area in the first and second stations, FIG. 8 is a side view showing an example of a design change of the device of the present invention, and FIGS. 9 and 10 are
FIG. 3 is a diagram showing the shape of a cylindrical printing material whose surface can be treated by the apparatus shown in the figure. DESCRIPTION OF SYMBOLS 1... Offset printing machine, 2... Indexing jig device for a pot to be printed, 6... Turret, 7... Mandrel, 11
11...lW member, 12.1I11 corona electrode rod, 13
-... Drive roll, 14... Drive shaft, 15... Concave groove, 16... Outer circumferential surface, 17... Driven roll, 18...
- Support shaft, 19... Printing material, No. 1, J2... Pre-processing area, A... First station, B... Second station, C... Printing position. ... 1 ton of work)

Claims (1)

[Claims] It has at least two pretreatment devices, a first and a second pretreatment device, and the pretreatment device includes a large number of corona electrode rods fixed in parallel to a support member at required intervals, and a plurality of corona electrode rods rotatably supported on the support member. and a drive roll made of a non-conductive material such as polyurethane, and grooves for relief of the corona electrode rod are recessed in the circumferential direction of the outer peripheral surface of the drive roll at the same pitch as the corona electrode rod, and a second The pretreatment area by the corona electrode rod of the pretreatment device partially overlaps and has a phase difference with respect to the pretreatment area by the corona electrode rod of the first pretreatment device. For the pretreatment device of 2,
The inner surface of a cylindrical printing object made of a synthetic resin such as polyethylene, polypyrene, or the same material is supported, the outer surface of the printing object is faced to the corona electrode rod with a predetermined gap, and the first and a surface treatment device for synthetic resin printing coverage, comprising a driven roll that is brought into sequential contact with the outer peripheral surface of the drive roll of the second pretreatment device.