JP2618595B2 - Screen printing equipment - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a screen printing apparatus, and more particularly, to an improvement for improving printing accuracy by preventing displacement of a printing plate and facilitating so-called overlay printing for printing thick paint.

[0002]

2. Description of the Related Art In a screen printing apparatus, a printing original plate fixed to a support frame is placed on a sheet material to be printed, a printing ink is poured into the support frame, and a spatula member such as a rubber squeegee is formed. In this method, the ink that has passed through the paint-penetrated portion of the printing original plate is transferred to a sheet material by rubbing the ink onto the printing original plate, and printing is performed. As the printing original plate, the eyes of the screen are partially closed by forming a plate film such as a resist film by a photochemical method or the like on a mesh screen woven of nylon, polyester, stainless steel, etc. to form a shape to be printed. Those in which a paint penetration portion is formed are generally used.

[0003]

By the way, in screen printing, since the paint held in the paint-penetrated portion of the printing original plate adheres to the sheet material by squeegee, a relatively thick coating film corresponding to the thickness of the printing original plate is formed. Can be formed,
In this respect, it is superior to letterpress printing and planographic printing.
If a thick coating film can be obtained, not only will it be possible to print with a three-dimensional appearance, but it can also be applied to the manufacture of etching resists and printed circuit boards in semiconductor manufacturing, so demand is increasing in the industrial field. There is a need for a technique for forming a thicker coating film in a wide range of applications.

However, in the conventional screen printing apparatus, if the thickness of the printing plate is increased to a certain degree or more, not only does it become necessary to increase the viscosity of the paint to increase the frictional pressure due to the squeegee, but also the adhesion between the printing plate and the sheet material is increased. , The misalignment between the printing original plate and the sheet material tends to occur at the friction points of the squeegee, and the accuracy of the printed image is reduced.

[0005] As a technique for thickening a coating film, recently, after printing with a normal screen printing apparatus, a foaming resin powder is sprayed on the coating film before the ink dries, and after the ink is dried, excess powder is removed. Attempts to perform three-dimensional printing by heating the sheet material to expand the foamable resin have been disadvantageous in that the procedure is complicated, work efficiency is poor, and printing accuracy is low.

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances. Even when the thickness of a printing original plate is increased, displacement of the printing original plate is prevented, and a coating film having a large coating film thickness and high precision can be formed. It is an object to provide a screen printing device.

[0007]

According to a first aspect of the present invention, there is provided a screen printing apparatus comprising: a support for supporting a printing medium at a printing position; A plate-shaped printing original plate having a paint penetrating portion, an original plate supporting frame for supporting the printing original plate at a position in contact with a printing surface of a printing medium supported at the printing position, and a coating material on the printing original plate. A squeegee for transferring the paint to the printing medium through the paint penetrating section by rubbing , and for sucking the printing original plate toward the printing medium
And the printing original plate contains a ferromagnetic material, and the magnetic force generating unit includes the printing medium.
At the position corresponding to the printing original plate with the longitudinal direction
Orientation is parallel to the printing plate and magnetized in the radial direction
One or more magnets, and the magnet
And a magnet rotating means for rotating around a line .

[0008]

[0009] The printing plate include those formed by the powder of the ferromagnetic material dispersed secured in the binding material, or a thin plate made of a metal having ferromagnetism is available.

[0010]

According to the screen printing apparatus of the present invention, a printing original plate containing a ferromagnetic material is used, and printing is performed while magnetically attracting the printing original plate toward a printing medium. When printing the applied paint with a squeegee, even if the frictional force due to the squeegee is large, it is unlikely that a gap between the printing original plate and the printing medium occurs. Therefore, even when a thick printing original plate having a high squeegee pressure and poor adhesion to the printing medium is used, it is possible to prevent misalignment and bleeding of printing and to perform printing with high accuracy. It is easy to obtain a thicker coating than before. In addition, the longitudinal direction is arranged parallel to the printing
One or more magnets magnetized to the magnet rotating hand
By rotating the plate around the axis by the step,
Changes the strength of the magnetic force to be attracted, so it is necessary to rotate the magnet
Generating large magnetic force in spite of small force
Can be. Therefore, compared to when an electromagnet is used,
Energy costs required for operation
Or because there is almost no heat generation,
The problem of the change in viscosity and the dimensional change of the printing original plate can be prevented.
Furthermore, by using a long magnet that matches the dimensions of the original
In the longitudinal direction of the magnet to incline the printing plate
The magnetic forces in the different directions cancel each other out,
A uniform area in the direction perpendicular to the printing plate.
The magnetic force in an inclined direction
This can prevent the printing plate from being deformed.

[0011]

1 and 2 are a perspective view and a longitudinal sectional view, respectively, showing an embodiment of a screen printing apparatus according to the present invention. In the figure, reference numeral 37 denotes a box-shaped main body. An opening is formed in the upper part of the main body 37 as shown in FIG. 2, and the rectangular support plate 1 is placed on the main body 37 so as to close the opening. Fixed. The support plate 1 has a rectangular opening at the center, in which a plate 3B made of a non-magnetic material and a plate 3A made of a ferromagnetic material are fitted in order, and the upper surface of the plate 3A is the same as the support plate 1. Surface. Examples of the material of the plate material 3A include a resin material (including a so-called rubber magnet and a plastic magnet) to which ferromagnetic powder is added, a ferromagnetic metal material such as soft iron, a cobalt alloy, a nickel alloy, and a ferrite. Instead of inserting the ferromagnetic plate 3A into the support plate 1, the entire support plate may be formed of a ferromagnetic material.

A large number of ventilation holes 2 are formed in the support plate 1 at regular intervals over the entire surface except the outer peripheral portion thereof.
Many ventilation holes 4 are also formed in the plate members 3A and 3B in the same manner as the ventilation holes 2. On the other hand, a decompression chamber 6 is fixed inside the main body 37 so as to cover the opening from the inside, and a decompression tank 8 that is decompressed by a decompression pump 7 is connected to the decompression chamber 6. As a result, when the vacuum pump 7 is operated, the support plate 1 and the ventilation holes 2 of the plate 3A are formed.
Air is sucked into the decompression chamber 6 from 4.

A plurality of conveyor grooves 5 are formed on the upper surfaces of the support plate 1 and the plate member 3A in the longitudinal direction of the support plate 1. At the time of printing, these conveyor grooves are formed by an automatic paper feeder (not shown). A sheet material (substrate to be printed) such as paper is supplied onto the support plate 1 along the line 5.

On the support plate 1, a square frame-shaped original holder (original support frame) 20 is arranged. As shown in FIG. 1, a blanket 22 is fixed to one end of the original holder 20 by bolts 23, and a pair of rods 24 are fixed to the blanket 22 in parallel with each other. On the other hand, a pair of columns 31 are fixed upright on the upper surface of the main body 37, and a connecting member 30 is fixed to each of the columns 31 by a screw 32 so as to be adjustable in height. A rod 25 is horizontally and rotatably mounted between the connecting members 30 via a bearing 29, and a pair of pipes 26 are fixed to the rod 25 in the orthogonal direction by bolts 28. The rods 24 of the original plate holder 20 are inserted into the open ends of these pipes 26, respectively, and are fixed by bolts 27 so that the connection length can be adjusted.

In the original plate holder 20, a printing original plate 21 is fixed as shown in FIG. Examples of the printing original plate 21 include (1) a printing original plate formed by dispersing and fixing a ferromagnetic powder in a binder, and (2) a printing original plate having an opening formed in a thin plate made of a ferromagnetic material. Can be used.

(1) As a material in which ferromagnetic material powder is dispersed and fixed in a binder, a mesh screen woven with synthetic fibers such as nylon or polyester or a thin metal wire such as stainless steel penetrates a paint forming a printing pattern. A resin layer formed by adding a ferromagnetic powder to a portion other than the portion may be used. In this case, as a method for forming the resin layer, a known photoresist obtained by adding a ferromagnetic powder to a photoresist is applied to the screen, and after exposing the screen to an inverted shape of a print pattern, unnecessary portions are removed. The method of forming the paint penetrating portion by using the method is preferable. As the ferromagnetic material, any of the conventionally known ferromagnetic materials such as iron, cobalt, nickel or alloys thereof, oxide-based magnetic materials, and compound-based magnetic materials can be used. In addition, if sufficient tensile strength can be obtained only by the resin layer, the printing original plate 21 may be formed from only the resin (including a so-called rubber magnet or plastic magnet) to which the metal powder is added, omitting the mesh screen. . In that case, printing original plate 2
1 is etched or machined to form an opening (a paint-penetrated portion) forming a print pattern. Further, the mesh screen may be formed of a ferromagnetic material.

(2) In the case where an opening is formed in a ferromagnetic metal thin plate, a thin plate of a ferromagnetic metal such as soft iron, a cobalt alloy, a nickel alloy or the like is punched, processed by a method such as laser processing or etching, and printed. The one having an opening (paint penetrating part) forming the following can be used. A mesh screen may be attached to a thin metal plate for use.

In the chamber 6, the supporting plate 1 and the plate 3
A number of bar magnets 38 are arranged horizontally and parallel to each other at a position spaced apart from the lower surface of B by a certain distance. One end of each of these bar magnets 38 rotatably and airtightly penetrates the chamber 6 through a well-known rotary seal, and a pulley 40 having the same diameter is fixed to each of these ends.
9 allows all the bar magnets 38 to rotate synchronously. Further, as shown in FIG. 1, a pulley 11 is further fixed to one of the bar magnets 38 at the end, and
5, the motor 1 through the pulleys 14 and 13 and the chain 12
7 to rotate.

The bar magnet 38 is magnetized so that two magnetic poles 38A and 38B are formed in the diameter direction as shown in FIG. 2, and all the bar magnets 38 always have the same magnetic pole phase. It is configured to be. Therefore, the motor 1
7 is operated to rotate the bar magnet 38, the magnetic poles 38A,
The suction force exerted on the printing original plate 21 is 9 depending on the position of 38B.
It changes greatly every 0 ° rotation. Accordingly, by adjusting the angle to strongly attract the printing original plate 21 during printing and the angle at which the attraction force is weakened when opening and closing the original holder 20, the opening and closing of the original holder 20 can be performed while enhancing the original absorbing effect at the time of printing. It can be made easier.

In order to use the screen printing apparatus having the above-described configuration, first, the bar magnet 38 is set to a position where the magnetic force exerted on the printing original plate 21 is small, the original printing plate holder 20 is opened upward, and the support plate 1 is fed by the sheet feeding device. Sheet material S on top
Place. Next, the original plate holder 20 is placed on the sheet material S, and the inside of the chamber 6 is depressurized by operating the decompression pump 7, and the sheet material S is sucked to the support plate 1 and the plate material 3 </ b> A through the ventilation holes 2 and 4. At the same time, the bar magnet 38 is rotated by 90 ° by the motor 17 to form a magnetic circuit extending from the bar magnet 38 → the plate 3A → the printing plate 21 and the attraction force to the printing plate 21 is increased, so that the printing plate 21 is attached to the plate 3A. Adsorb.

Next, a predetermined amount of ink is supplied to the upper surface of the printing original plate 21 from an ink supply means (not shown), and the ink is rubbed on the upper surface of the printing original plate 21 with a squeegee (not shown), so that the paint penetration portion of the printing original plate 21 is The ink is transferred to the sheet material S through the. When the transfer is completed, the stick magnet 38 is rotated by 90 ° by the motor 17 to reduce the attraction force to the printing original plate 21, the original printing plate holder 20 is opened upward, and the printed sheet material S is peeled off from the printing original plate 21. At this time, since the sheet material S is adsorbed on the support plate 1 and the plate material 3A due to the reduced pressure in the chamber 6, the sheet material S is easily peeled off without sticking to the printing original plate 21, and the operability is good. Thus, on the surface of the sheet material S,
As shown in FIG. 3, a print image of the ink I is formed.

According to such a screen printing apparatus,
At the time of printing, the plate material 3A and the printing original plate 21 are
When the ink supplied to the upper surface of the printing original plate 21 is printed with a squeegee, a deviation occurs between the printing original plate 21 and the sheet material S even if the frictional force due to the squeegee is large. Hateful. Therefore, even when the squeegee pressure has to be increased and the thick printing original plate 21 having poor adhesion to the sheet material S is used, it is possible to prevent printing misalignment and bleeding and to perform printing with high accuracy. . However, according to the present invention, even when a thin printing original plate 21 is used, it is needless to say that the function of preventing the displacement between the printing original plate 21 and the sheet material S can be obtained.

Further, in the above embodiment, since the suction force of the printing original plate 21 can be increased or decreased by rotating the bar magnet 38, the suction force when the original plate holder 20 is flipped is reduced, and the labor required for printing is reduced. Can be reduced.
In addition, it is arranged parallel to the printing original plate and magnetized in the radial direction.
Rod magnet 38 is rotated around the axis by the magnet rotating means 17.
The strength of the magnetic force that attracts the printing original plate 21
The force required to rotate the bar magnet 38 is small.
Nevertheless, a large magnetic force can be generated. I
Therefore, it is necessary for operation compared to when an electromagnet is used.
Not only lower energy costs, but also generate heat
Because there is almost no change in ink viscosity due to temperature rise,
The problem of dimensional change of the printing original plate 21 can also be prevented. further,
By using a long bar magnet 38 that matches the dimensions of the original
The printing plate 21 in the longitudinal direction of the bar magnet 38.
Since the magnetic forces in the inclined directions that are drawn offset each other,
A wide range of the printing original plate 21 is almost perpendicular to the printing original plate 21.
It is possible to suction uniformly in a straight direction,
Deformation of printing original plate 21 due to application of magnetic force in the direction
Can be prevented. On the other hand, for example,
When the printing original plate 21 is locally attracted by the magnet,
A wide area around the top of the stone is sucked obliquely toward the electromagnet
This magnetic force causes slight deformation of the printing plate.
Therefore, there is a possibility that the printing accuracy is reduced.

[0024]

[0025]

[0026]

In the present invention, a structure in which the chamber 6 and its decompression means are not provided is also possible.

The screen printing apparatus of the present invention is not limited to the use for printing ink on paper, but also as a paint, a cream solder in which fine solder particles are dispersed in a flux or an organic solvent, or a mask for manufacturing a printed circuit board. It is also possible to use a resist material to be used, an uncured resin material, and the like. According to the present invention, a thick coating film can be accurately formed, and therefore, it is particularly suitable when, for example, the above-described materials are printed in a manufacturing process of a printed board or a semiconductor element.

Further, by mixing the above-mentioned powder of the ferromagnetic material with the ink, the ink held in the paint penetrating portion is attracted by the magnetic force toward the sheet material S, and the ink is discharged from the paint penetrating portion. It is also possible to improve the performance.

[0030]

As described above, according to the screen printing apparatus of the present invention, a printing original plate containing a ferromagnetic material is used, and the printing original plate is magnetically attracted to a printing substrate while printing is performed. Therefore, when the paint supplied to the printing original plate is imprinted with the squeegee, even if the frictional force due to the squeegee is large, there is little displacement between the printing original plate and the printing medium. Therefore, even when a thick printing original plate having a high squeegee pressure and poor adhesion to the printing medium is used, it is possible to prevent misalignment and bleeding of printing and to perform printing with high accuracy. It is easy to obtain a thicker coating than before. In addition, the longitudinal direction is
1 or 2 arranged parallel to the plate and magnetized in the radial direction
The above magnet is rotated around the axis by magnet rotating means.
Changes the strength of the magnetic force that attracts the printing plate
Therefore, despite the small force required to rotate the magnet,
A strong magnetic force can be generated. Therefore, electromagnetic
Energy required for driving compared to using stones, etc.
Not only can costs be reduced, but there is almost no heat generation
In addition, changes in ink viscosity due to temperature rise and dimensions of the printing plate
The problem of change can also be prevented. Furthermore, according to the original plate dimensions
By using a long magnet,
The magnetic force in the inclined direction to attract the printing plate
To be killed, a wide range of printing
It is possible to suction uniformly in almost vertical direction,
Deformation of printing original plate due to magnetic force in inclined direction
Generation can be prevented.

[Brief description of the drawings]

FIG. 1 is a perspective view showing one embodiment of a screen printing apparatus according to the present invention.

FIG. 2 is a vertical sectional view of the embodiment.

FIG. 3 is a perspective view showing a printing example according to the embodiment.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Support plate 2, 4 Vent hole 3A Plate material made of ferromagnetic material 3B Plate material made of nonmagnetic material 6 Decompression chamber 7 Decompression pump 17 Motor for rotating bar magnet 20 Original holder 21 Printing original plate containing ferromagnetic material 38 Bar magnet 38A , 38B Magnetic pole S Sheet material

 ────────────────────────────────────────────────── ─── Continuation of the front page (56) References JP-A-4-298353 (JP, A) JP-A-53-133109 (JP, A)

Claims (3)

(57) [Claims] 1. A flat printing plate having a paint penetrating portion having a shape to be printed, a supporting means for supporting a printing substrate at a printing position, and a printing plate supporting the printing plate at the printing position. An original plate supporting frame for supporting the printing body at a position where it abuts on the printing surface, a squeegee for transferring the coating material to the printing material through the paint penetrating portion by rubbing the coating material on the printing original plate, and the printing original plate To the substrate
And a magnetic force generating means for attracting and printing, wherein the printing original plate contains a ferromagnetic material, and the magnetic force generating means has the mark with the printing medium interposed therebetween.
The longitudinal direction is the position corresponding to the printing plate and the printing plate.
1 or arranged parallel and radially magnetized
Two or more magnets and rotating said magnets about their axis
Screen printing apparatus characterized by comprising a fit of magnet rotating means. 2. The printing original plate combines ferromagnetic powder.
Characterized by being formed by dispersing and fixing in the material
The screen printing device according to claim 1, wherein 3. The printing original plate is made of a metal having ferromagnetism.
2. The disk according to claim 1, wherein the disk is
Lean printing device.