KR101723321B1 - Suspended metal mask for printing and manufacturing method therefor - Google Patents

Abstract

A printing suspended metal mask is obtained which does not cause blurring even in the thin line portion and does not take time to peel off the resistor for forming the printing opening pattern. A mesh frame 1 having a metal mesh 1 that is electrically conductive and at least a central portion of the mesh frame 1, and a metal mesh 1 which is tightly adhered to the metal mesh, And a brim portion 5c overlaid on the upper end of the opening pattern for printing to be formed on the base metal is formed and the base metal and the metal mesh are bonded to each other, The gap 5d is formed by the presence of the brim part between the upper end of the resistor for forming the printed opening pattern and the metal mesh when the metal is integrally joined by plating.

Description

Technical Field [0001] The present invention relates to a suspension metal mask for printing,

The present invention relates to a suspend metal mask for printing and a method of manufacturing the same.

Description of the Related Art Conventionally, a stainless steel mesh having electroconductivity is provided on one side of a mask substrate having a plurality of openings patterned with a desired print pattern by electroforming, electroforming, A metal-integrated type metal mask which is stacked on top of one another and brought into close contact with each other and joined together by plating (see, for example, Patent Document 1).

As another prior art, there is known a suspended metal mask in which a metal frame is covered with a Tetoron mesh and a stainless steel mesh, and a metal mask is formed on the stainless steel mesh (see, for example, Patent Document 2).

Patent Document 1: JP-A-8-183151 Patent Document 2: Japanese Patent Application Laid-Open No. 2007-245560

In the conventional metal mask integrated with a mesh or the suspended metal mask, when the metal mask and the stainless steel mesh are stacked and bonded together and integrally joined by plating, since the resistor for forming the printed opening pattern exists up to the vicinity of the joint, There was a problem that bonding was difficult. In addition, when the resistor for forming the printing aperture pattern is peeled off, the resistor may remain without being peeled off, and blurring is likely to occur particularly at the fine line portion. In addition, there is a problem that it takes a long time to peel off the resistor for forming the printed opening pattern.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide a suspending metal mask for printing which does not cause blurring in a narrow line portion and does not take time for peeling off a resistor for forming a printed opening pattern, will be.

In the suspend metal mask for printing according to the present invention, a metal frame having a plate frame and a metal mesh having an electric conductivity at least in the central portion is formed by spreading the outer periphery of the plate frame by bonding and fixing them, and a base metal which is bonded to the metal mesh and overlapped with each other by bonding plating and which is integrally joined to the metal mesh and which is provided with a printing opening pattern. The overhanging pattern is formed on the upper end of the printing opening pattern formed on the base metal, When a base metal and a metal mesh are integrally joined together by a bonding plating, a gap is formed between the upper end of the printed opening pattern forming resistor and the metal mesh by the presence of the brim portion. .

In the method of manufacturing a suspension metal mask for printing according to the present invention, there is a method of manufacturing a suspension metal mask for printing, which comprises a plate frame, a mesh provided inside the plate frame by sticking and fixing the outer periphery thereof, A method for manufacturing a suspended metal mask for screen printing comprising a base metal which is closely adhered to each other and joined together by bonding plating and provided with a printing opening pattern is provided with a register for forming a printing opening pattern on a base material, Forming a base metal having a brim portion overlaid on an upper end portion of a resistor for forming a printed opening pattern by plating from above the base metal; The brim portion between the upper end of the pattern forming resistor and the metal mesh And a step of forming a gap by presence.

In the method for manufacturing a suspended metal mask for printing according to the present invention, a resistor for forming a printing opening pattern is formed on a base material, plating is performed from above, and a brim portion overhanging the upper end of the printing opening pattern- The step of forming the base metal is a step of forming a resist pattern for forming a printed opening pattern thick on the base material and performing plating for the first time so as to be thinner than the thickness of the resistor for forming the printed opening pattern from above, An upper end portion of the printing opening pattern forming resistor projecting upward is polished and removed to form a printing opening pattern forming register having the same height as the upper surface of the first plating and the same as the first plating and the first plating A second plating is further performed from the top of the printing opening pattern forming resistor of height, An overhang at the upper end of the resistor pattern for forming the brim is to form a base metal having portions.

According to the present invention, when the resist for forming the printed opening pattern is peeled off, the resist is easily peeled off and does not remain in the opening pattern for printing of the base metal. In addition, there is an effect that it is possible to solve the problem that blurring easily occurs particularly in the thin line portion. In addition, the working time for peeling off the resistor for forming the printed opening pattern can be significantly shortened.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view of the respective elements necessary for the method of manufacturing a suspend-for-printing metal mask according to Embodiment 1 of the present invention. Fig.
Fig. 2 is a cross-sectional view showing a bonding plating process of a manufacturing method of a suspended metal mask for printing in Embodiment 1 of the present invention. Fig.
3 is a cross-sectional view showing a state in which the bonding plating of the method of manufacturing a suspended metal mask for printing in Embodiment 1 of the present invention is completed.
4 is a cross-sectional view showing a state in which the set is released from the bonded state of the method for manufacturing a suspend-for-printing metal mask according to the first embodiment of the present invention.
5 is a cross-sectional view showing a state in which an SUS parent material (base material) is peeled off from a base metal in a method of manufacturing a suspended metal mask for printing according to Embodiment 1 of the present invention.
6 is a cross-sectional view showing a state before the opening resist of the base metal of the method of manufacturing a suspended metal mask for printing according to the first embodiment of the present invention is peeled off.
7 is a cross-sectional view showing a state in which an opening resistor of a base metal is peeled off in the method of manufacturing a suspended metal mask for printing in Embodiment 1 of the present invention.
FIG. 8 is a cross-sectional view showing a state before a resist for forming a printing opening pattern of a base metal of a conventional suspending metal mask for printing is peeled off.
Fig. 9 is an enlarged cross-sectional view of a substantial part of the main part of Fig. 8.
Fig. 10 is a cross-sectional view showing a state after a resist for forming a printing opening pattern of a base metal of a conventional suspending metal mask for printing is peeled off. Fig.
11 is a cross-sectional view showing a state before a resist for forming a printing opening pattern of a base metal of a suspending metal mask for printing according to Embodiment 1 of the present invention is peeled off.
Fig. 12 is an enlarged cross-sectional view of the main part of the main part of Fig. 11 on an enlarged scale.
13 is a main cross-sectional view showing a state after the resist pattern for forming the printing opening pattern of the base metal of the suspended metal mask for printing according to the first embodiment of the present invention is peeled off.
14 is a cross-sectional view showing a state in which a first plating is performed so as to be smaller than the thickness of a resistor after a resistor for forming a printed opening pattern of a base metal of a suspending metal mask for printing according to the second embodiment of the present invention is performed.
Fig. 15 is a cross-sectional view showing a state in which the upper end of the printing opening pattern forming resistor protruding upward from the first plating is removed by polishing or the like to have the same height as the upper surface of the first plating.
16 shows a state in which the upper end of the printing opening pattern forming resistor is removed by polishing or the like so as to have the same height as the upper surface of the first plating and then the upper surface of the first plating and the second plating And FIG.
17 is a cross-sectional view showing a state in which a first plating is performed so as to be smaller than the thickness of the resistor after the resistor for forming the printing opening pattern of the base metal of the printing suspended metal mask according to the third embodiment of the present invention is performed.
18 is a cross-sectional view showing a state in which the upper end of the printing opening pattern forming resistor protruding upward from the first plating is removed by polishing or the like to have the same height as the upper surface of the first plating.

In order to explain the present invention in more detail, this will be described with reference to the accompanying drawings. In the drawings, the same or equivalent parts are denoted by the same reference numerals, and the redundant description thereof is appropriately simplified or omitted.

Embodiment 1

FIG. 1 is a perspective view showing the respective components required for a method of manufacturing a suspend metal mask for printing according to the present invention, and FIGS. 2 to 7 are sectional views showing a manufacturing process of the method for manufacturing a suspend- FIGS. 8 to 10 are cross-sectional views each showing a state before and after peeling off a resistor for forming a printing opening pattern of a base metal of a conventional suspending metal mask for printing. FIGS. 11 to 13 are cross- Sectional view showing the state before and after peeling off the resistor for forming the printing aperture pattern.

As shown in Fig. 1, the elements necessary for the method of manufacturing a suspending metal mask for printing according to the present invention include a metal mesh 1 made of a stainless steel mesh or a nickel mesh having conductivity at a central portion thereof, A metal plate (plate) frame 4 of a quadrangular shape provided with a combination mesh made of a Tetoron mesh 2 provided on the outside thereof and electrically communicated with a conductive tape, A base metal 5 provided on the base metal SUS base material 4 and provided with a register 5a for forming a printing opening pattern in a central portion where a printing opening pattern is formed, A metal plate frame 7 for joining assisting in a quadrangular shape which is formed by spreading the metal plate frame 7 for joining assisting and a Tetoron mesh 6 of the joining auxiliary metal plate frame 7 and an SUS parent material 4 for base metal And a sponge 8 to be reattached. It is preferable that the mesh provided on the metal plate frame 3 of the quadrangular shape is a combination mesh composed of the metal mesh 1 at the center portion and the outer tethered mesh 2 but it is not a combination mesh, A single piece of metal mesh 1 may be used. In the base metal 5, a printing opening pattern 5b is formed at the center.

As shown in Fig. 2, in the bonding plating process of the method for manufacturing a suspended metal mask for printing, a metal plate frame 3 having a quadrangular shape is disposed on the right side, and a metal plate frame 7). The base metal 5 is placed so as to overlap with the metal mesh 1 of the metal plate frame 3 and the metal plate frame 3 and the metal plate frame 7 for bonding assisting are overlapped with each other, And the base metal 5 and the metal mesh 1 are set in close contact with each other via the base metal SUS base material 4 and the sponge 8. [ A negative electrode 10 is connected and electrically connected to a nickel plating solution such as a sulfamic acid nickel bath or a watt bath to form a bath, And the nickel 12 accommodated in the anode bag is connected to the anode 13 so as to be sandwiched between the base metal 5 and the metal mesh 1 And the joint plating is carried out to integrally join the both. The amount of the bonding plating is usually 2 m on one side, and the same plating method as that of the electroforming is used. In addition, uniformity of the amount of bonding plating can be improved by using a low current of about 0.1 to 2.0 A / dm ² , preferably 0.25 to 1.0 A / dm ² , in both anode current densities, Can be prevented from being broken.

Next, when the bonding plating process is completed, the setting in the close contact state is taken out from the plating tank 11 (see Fig. 3), and the adhesive tape 9 is removed to release the setting in the close contact state Reference). Next, the base metal SUS base material 4 is peeled off from the base metal 5 (see Figs. 5 and 6). Thereafter, the printing opening pattern forming resistor 5a is peeled off from the base metal 5 of the metal plate frame 3 in which the joining portions of the base metal 5 and the metal mesh 1 are integrally joined by plating Thereby forming a printing opening pattern 5b (see Fig. 7). The printing opening pattern forming register 5a and the printing opening pattern 5b of the base metal 5 are simplified and show only an image and are different from actual ones.

A general configuration of a base metal of a conventional suspending metal mask for printing will be described with reference to Figs. 8 to 10. Fig. In the conventional base metal of the suspend-for-printing metal mask, first, a resistor 25a for forming a printing opening pattern is formed on an SUS parent material 24 for a base metal, nickel plating is performed thereon to form a base metal 25 And the upper surface of the base metal 25 is usually leveled by belt polishing or the like. Bonding between the base metal 25 and the metal mesh 21 is performed to integrally bond the base metal 25 and the metal mesh 21 (see FIGS. 8 and 9). Then, the printing opening pattern forming resistor 25a is peeled off from the base metal 25, thereby forming the printing opening pattern 25b at the center (see Fig. 10). As shown in Figs. 8 and 9, the base metal 25 of the conventional printing suspended metal mask thus constituted exists so that the upper end of the printed opening pattern forming resistor 25a and the metal mesh 21 are in contact with each other The protruding portion of the metal mesh 21 is brought into contact with the resistor 25a at the time of bonding or the resistor 25a is not polished with the flat portion when the metal mesh 21 is not flat, There is a problem that it is difficult to join. A part of the resistor 25a may not be peeled off and may remain in the printing opening pattern 25b of the base metal 25 when the metal is peeled off from the resistor 25a for forming the printing opening pattern. There is a problem that blurring easily occurs. In addition, when peeling off the resistor 25a for forming the printed opening pattern, it took 2 to 3 hours for the peeling operation, which resulted in a problem that the working time was too long.

Next, the procedure of making the base metal of the suspending metal mask for printing according to the present invention, which solves the problems of the related art, and the essential structure of the base metal will be described with reference to Figs. 11 to 13. Fig. In the present invention, first, a resistor 5a for forming a printed opening pattern is formed on an SUS parent material 4 for a base metal, nickel plating is performed thereon, and a side opening of the printing opening A base metal 5 having a brim portion 5c overhanged by overelectroforming is formed on the upper end of the pattern forming resistor 5a. The relationship between the length and the thickness of the brim portion 5c is approximately 1: 1. That is, the length of the brim portion 5c is equal to the thickness of the plate protruding from the upper portion of the resistor. Unlike usual, the upper surface of the base metal 5 is subjected to leveling by buff polishing by a nonwoven fabric and a ceramic system, so that the damage to the base metal 5 is reduced. The base metal 5 having the brim portion 5c and the metal mesh 1 are joint-plated and integrally joined. It can be seen that the brim portion 5c increases the bonding area between the base metal 5 and the metal mesh 1 (see Figs. 11 to 13). At this time, as shown in Fig. 11 and Fig. 12, a clearance (Fig. 11) is formed between the metal mesh 1 and the upper end of the printed opening pattern forming resistor 5a 5d are formed. This gap 5d prevents the upper end portion of the printed opening pattern forming resistor 5a from being in the vicinity of the joint portion with the metal mesh 1 and thus eliminates the problem that it interferes with the joint, It gets easier. Then, the printing opening pattern forming resistor 5a is peeled from the base metal 5 to form a printing opening pattern 5b at the center (see Fig. 13). The base metal 5 of the suspended metal mask for printing according to the present invention having such a structure has a space between the metal mesh 21 and the resistor 25a at the time of peeling off the resistor 5a for forming the printed opening pattern, The resist is easily peeled off and does not remain in the opening pattern 5b for printing of the base metal 5, so that it is possible to solve the problem that pattern separation and smearing easily occur particularly at the thin line portion during printing. In addition, the working time for peeling off the register 5a for forming the printed opening pattern is less than 30 minutes, and the time can be greatly shortened.

The resistor used in this embodiment is usually of the dry film type. However, in the case where there is no dry film of the desired thickness, the resistor may be formed to have a desired resistor thickness by using a liquid resistor, an electrodeposition resistor, or the like. The length and thickness of the brim portion 5c are preferably 1 to 5 占 퐉, preferably 2 to 3 占 퐉.

In this embodiment, the upper end portion of the printing opening pattern forming resistor 5a, which is formed on the base metal SUS parent material 4, is made larger than the lower end portion, and the opening shape of the opening pattern for printing of the base metal is changed from the upper end portion ) Printing side) is made larger than the opening dimension of the lower end (printing side).

Embodiment 2 Fig.

Fig. 14 is a cross-sectional view showing a state in which the plating for the first time is performed so as to be smaller than the thickness of the resistor after the resistor for forming the printing opening pattern of the base metal of the suspending metal mask for printing according to the second embodiment of the present invention is performed. Fig. 16 is a cross-sectional view showing a state in which the upper end portion of the printing opening pattern forming resistor protruding above the uppermost plating is removed by polishing or the like so as to be flush with the upper surface of the first plating, Fig. Is removed by polishing or the like so as to have the same height as the upper surface of the first plating and then subjected to the second plating on the upper surface of the first plating to have a brim portion overhanged by the side spread phenomenon of plating.

In the second embodiment, first, the printed opening pattern forming resistor 5a is formed so as to be slightly thicker on the base metal SUS base material 4, and then the first opening is formed so as to be thinner than the thickness of the printed opening pattern forming resistor 5a Nickel plating 5-1 is performed (see Fig. 14). Then, the upper end of the printed opening pattern forming resistor 5a protruding upward from the first nickel plating 5-1 is polished and removed, and the upper end of the first opening 5-1 (5a-1) for forming the printing aperture pattern (see Fig. 15). Next, the second nickel plating is performed from above the first nickel plating 5-1 and from the upper side of the printing opening pattern forming register 5a-1, and by the side spread phenomenon of the plating, A base metal 5 having a brim portion 5c overhanged by overelectroforming is formed on the upper end of the base metal 5a-1 (see Fig. 16). The connection plating is performed between the base metal 5 having the brim portion 5c and the metal mesh 1 so that the relationship between the length and the thickness of the brim portion 5c is approximately 1: And that the brim 5c increases the bonding area between the base metal 5 and the metal mesh 1 and that the metal mesh 1 and the printed opening pattern forming resistor 5a- A gap 5d is formed between the upper end and the upper end to separate them by the presence of the brim 5c in the same manner as in the first embodiment.

According to the second embodiment, although the labor is increased, there is an advantage that the thickness of the plating can be adjusted without being limited by the thickness of the resistor 5a for forming the printed opening pattern. In addition, since the upper end of the printed-opening pattern-forming resistor 5a is polished to have the same height as the upper surface of the first plating, variations in the plane in the second plating can be suppressed .

The upper end portion of the printing opening pattern forming resistor 5a protruding upward from the first nickel plating 5-1 is polished and removed to form the upper end of the plating 5-1 at the same height as the upper surface of the first plating 5-1 A process for improving the adhesion with the second plating is performed by activating the surface of the first nickel plating 5-1 with the acid or the like after forming the printing opening pattern forming register 5a-1 It is also good.

The formation of the brim 5c overhanging the opening is performed by adjusting the length of the brim on the first register so as to make the length of the brim after the completion of the first nickel plating 5-1 to the desired length And then a second plating process is carried out.

Embodiment 3:

Fig. 17 is a cross-sectional view showing a state in which the first plating is performed so as to be smaller than the thickness of the resistor after the printing opening pattern forming resistor of the base metal of the printing suspended metal mask according to the third embodiment of the present invention is performed. Sectional view showing a state in which the upper end of the printing opening pattern forming resistor protruding above the upper plating is removed by polishing or the like to have the same height as the upper surface of the first plating.

In the first and second embodiments, the upper end portion of the printing opening pattern forming resistor 5a provided on the base metal SUS parent material 4 is made larger than the lower end portion, and the opening shape of the opening pattern for printing of the base metal is changed from the upper end portion The opening dimension of the printing opening pattern forming register 5a on the base metal SUS base material 4 is set larger than the opening dimension of the lower end (printing side) The opening shape of the opening pattern for printing of the base metal is made smaller than the opening dimension of the upper end (the body to be printed) to the opening of the lower end (printing side).

According to the third embodiment, since the lower end of the register 5a for forming a printed opening pattern is made larger than the upper end, the register can be easily peeled off, and the dropout at the time of printing can be improved.

1: metal mesh 2: Tetoron mesh
3: metal plate frame 4: SUS base metal for base metal
5: Base metal 5-1: First plating
5-2: second plating 5a: printing opening pattern forming register
5a-1: Printed opening pattern forming register after polishing
5b: opening pattern for printing 5c:
5d: gap 6: Tetoron mesh
7: metal plate for joining auxiliary frame 8: sponge
9: Adhesive tape 10: Negative electrode
11: Plating tank 12: Nickel
13: anode

Claims (6)

A plate frame,
A mesh having an inner periphery and an outer periphery fixed to the plate frame by spreading and tightening and having a metal mesh having conductivity at least at a central portion thereof,
A suspending metal mask for screen printing having a base metal which is in close contact with the metal mesh and which is integrally joined to each other by bonding plating and is provided with a printing opening pattern,
Wherein a brim portion overhanging at an upper end of the opening pattern for printing formed on the base metal is formed and when the base metal and the metal mesh are integrally joined together by bonding plating, Wherein a gap is formed between the upper end of the printed opening pattern forming register and the metal mesh by the presence of the brim part. The method according to claim 1,
Wherein the opening shape of the opening pattern for printing formed on the base metal has an opening dimension on the upper end side larger than an opening dimension on the lower end side. The method according to claim 1,
Wherein the opening shape of the opening pattern for printing formed on the base metal is made smaller than the opening dimension on the side of the upper end side. The method according to any one of claims 1 to 3,
Characterized in that the length and thickness of the brim part of the base metal are the same. A mesh frame having a metal mesh having an electric conductivity at least at a central portion and formed by spreading and fixing an outer periphery to the inside of the plate frame; A method of manufacturing a suspend metal mask for screen printing comprising a base metal integrally joined by bonding plating and provided with a printing opening pattern,
A resistor for forming a printed opening pattern is formed on a base material and plating is performed from above and a base metal having a brim portion overhanging at the upper end of the printed opening pattern forming resistor is formed ;
A step of forming a gap between the upper end of the printed opening pattern forming resistor and the metal mesh by the presence of the brim part when the metal mesh having the brim part and the metal mesh are integrally joined by plating, Wherein the metal mask is a metal film. The method of claim 5,
A step of forming a printing opening pattern forming resistor on the base material and performing plating from above and forming a base metal having a brim portion overlaid on the upper end portion of the printing opening pattern forming resistor, And the uppermost part of the printing opening pattern forming register which is protruded higher than the first plating is then subjected to a first plating process so as to be thinner than the thickness of the printing opening pattern forming resistor from above, The first opening of the first opening and the second opening from the top of the register for forming a printing opening pattern having the same height as the first plating, And a brim portion overhanging the upper end of the printed opening pattern forming resistor is formed Screen printing method for manufacturing a suspended metal mask so as to form the base metal.

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