KR102432971B1 - Coating apparatus - Google Patents

Abstract

A coating device capable of forming a coating film having excellent smoothness is provided. The coating device of the present invention is an application device for applying a paint to a base material (P), and includes an application roller (1), a doctor roller (2), and a receiving member (3). In the application device of the present invention, the liquid receiving part 4 is formed by the receiving member 3, the application roller 1, and the doctor roller 2 so that the paint is attached to the application roller 1 and the doctor roller 2, have. The receiving member 3 may be provided outside the application roller 1 and the doctor roller 2 . The application roller 1 may be rotated in a direction opposite to the rotation direction of the doctor roller 2 .

Description

Coating apparatus

The present invention relates to a coating device used for coating a base material.

Resist paints, conductive paints, insulating paints, protective paints, reinforced paints, UV light blocking paints, antistatic paints, colored paints, A functional coating material, etc. (hereinafter, collectively referred to as “paint”) is applied. As an example, the case where a resist is apply|coated to a printed wiring board, the case where an adhesive agent is apply|coated to copper foil, etc. are mentioned.

Conventionally, in an apparatus for applying a paint to a substrate, it is known that an application roller for applying the paint to the substrate, a doctor roller for supplying the paint to the application roller, and a paint container for accommodating the paint are known (Patent Document 1) ). In this apparatus, the paint in the paint container is picked up by the doctor roller, the paint is transferred from the doctor roller to the application roller, and the paint is applied to the substrate according to the transfer from the application roller to the substrate.

Patent Document 1: Japanese Patent No. 4074293

However, in the above application device, since only the doctor roller is in direct contact with the paint, the uniformity of the film thickness of the paint applied to the substrate depends on the amount of the paint adhering to the doctor roller, the smoothness of the paint on the surface of the doctor roller, and the application roller from the doctor roller. It depends on the amount of paint transferred to

For this reason, for example, when the paint on the surface of the doctor roller lacks smoothness, the paint transferred to the surface of the application roller becomes non-uniform, and as a result, the film thickness of the paint transferred to the substrate becomes non-uniform.

Since the degree of smoothness of the coating film applied to the substrate affects the mounting density of electronic components, it is preferable that the coating film be as smooth as possible. In the era of 5G, the demand for higher substrate density is increasing.

The present invention has been made in view of these circumstances, and an object to be solved is to provide a coating device capable of forming a coating film having superior smoothness compared to a conventional coating device.

The applicator of the present invention is an applicator for applying a paint to a substrate, comprising: a support for gripping a base and moving it in a vertical direction; an application roller for applying paint to a base held by the support; A doctor roller and a receiving member sized to cover both the application roller and the doctor roller is provided. In the coating device of the present invention, the receiving member is disposed outside the application roller and the doctor roller with respect to the base material held by the supporter as a reference and a liquid receiving portion is formed by the receiving member, the application roller and the doctor roller so that the paint adheres to the application roller and the doctor roller. The application roller and the doctor roller are beta rollers or engraving rollers, and the doctor roller is installed in contact with the application roller. The application roller, the doctor roller and the accommodating member are provided on both sides with the substrate held by the support member therebetween. The application roller rotates in a forward or reverse direction with respect to the moving direction of the substrate, and the doctor roller rotates in a direction different from the rotational direction of the application roller.

In the coating device of the present invention, since the liquid receiving portion is formed so that the coating material is adhered to the application roller and the doctor roller, the amount of the coating material attached to the application roller is stabilized and it is possible to form a smooth coating film on the substrate.

1 is a perspective view showing an example of the coating device of the present invention.
Fig. 2 is an explanatory view of an application roller, a doctor roller, and a receiving member of the application device of Fig. 1;
3A is an explanatory diagram showing an example of a support, and FIG. 3B is an explanatory diagram showing another example of a support.
4 is an explanatory view showing an example of moving the substrate in a roll-to-roll.
5 is an explanatory view showing an example of a case in which the doctor roller is installed at a position lower than the application roller.
6 is an explanatory view showing an example when the application roller, the doctor roller and the receiving member are installed at different heights.
7A and 7B are explanatory views showing other examples of the application roller and the doctor roller.
8A to 8D are front views for explaining an example of the operation of the coating device of FIG. 1 .
9A to 9D are side views for explaining an example of the operation of the coating device of FIG. 1 .
10A and 10B are front views for explaining an example of the operation of the coating device of FIG. 4 .
11A and 11B are side views for explaining an example of the operation of the coating device of FIG. 4 .

(Example 1)

An embodiment of the coating device of the present invention will be described with reference to the drawings. As an embodiment, the application apparatus of FIG. 1 is an apparatus for applying a paint to a substrate P, and includes an application roller 1 , a doctor roller 2 , and a receiving member 3 . In this embodiment, the liquid receiving portion 4 is formed by the receiving member 3, the application roller 1 and the doctor roller 2 so that the paint is attached to the application roller 1 and the doctor roller 2 . On both outer sides in the longitudinal direction of the application roller 1 and the doctor roller 2, a leakage preventing member 5 for preventing the paint contained in the liquid receiving portion 4 from flowing out is installed. As shown in Fig. 2, the application roller 1, the doctor roller 2 and the receiving member 3 are installed at the same height on both sides with the substrate P interposed therebetween.

The application roller 1 is a member for forming a coating film by transferring the paint to the substrate P. For the application roller 1, it is possible to use, in addition to a rubber roller and a metal roller, a roller having a DLC film on the outer periphery thereof. Rubber rollers include natural rubber and synthetic rubber. Metal rollers include those plated on carbon steel.

In this embodiment, a beta roller without irregularities (cells) on the outer peripheral surface is used as the application roller 1, but the application roller 1 has a spiral groove, a simple groove, a dot, etc. cells of various shapes on the outer peripheral surface in addition to the beta roller. It is also possible to use rollers. The shape of the cell may be designed in various ways.

The application roller 1 of this embodiment is configured to always rotate irrespective of whether it is in contact with the substrate P or not. The application roller 1 is opposite to the moving direction of the substrate P, specifically, as in FIG. The application roller 1 of the right side) rotates counterclockwise.

The application roller 1 may be rotated in the opposite direction (positive direction with respect to the moving direction of the base material P). In any case, it is configured to rotate in the opposite direction to the rotation direction of the contacting doctor roller 2 .

The doctor roller 2 is a member for supplying paint to the application roller 1 and smoothing (uniform) the paint on the surface of the application roller 1 at the same time. For the doctor roller 2, in addition to metal rollers and rubber rollers, it is also possible to use rollers having a DLC film on their outer periphery. Rubber rollers include natural rubber and synthetic rubber. Metal rollers include those plated on carbon steel.

In this embodiment, as the doctor roller 2, a metal roller having a DLC film on the outer periphery of carbon steel is used. Although not shown, irregularities (cells) of various shapes such as spiral grooves, simple grooves, and dots are installed on the outer peripheral surface of the doctor roller 2 . The shape of the cell is only an example, and other than this is good. It is also possible to use a cell-free beta roller for the doctor roller 2 .

In this embodiment, as the application roller 1 and the doctor roller 2, those having the same diameter and length are used. It is also possible to use the application roller 1 and the doctor roller 2 having different diameters and lengths. However, it is preferable to use the doctor roller 2 having a larger diameter than the application roller 1 . By using the doctor roller (2), which has a larger diameter than the application roller (1), while the application roller (1) rotates once, the part where the paint is attached to the doctor roller (2) is always in contact with the application roller (1). Therefore, the paint on the outer peripheral surface of the application roller 1 is easily uniformed.

The receiving member (3) is a member that forms a liquid receiving portion (4) between the application roller (1) and the doctor roller (2). The accommodating member 3 of this embodiment is a flat member longer than the application roller 1 and the doctor roller 2 . The housing member 3 may be formed of resin, rubber, or the like in addition to metal.

As shown in Fig. 2, the receiving member 3 of this embodiment is sized to cover both the application roller 1 and the doctor roller 2 . The accommodating member 3 is formed between the imaginary axis and the lower end of the accommodating member 3 with respect to an imaginary axis parallel to a straight line in the moving direction of the vertically moving substrate P (indicated by a two-dot chain line in FIG. 2 ). It is installed so that the angle is about 40 degrees. This angle can be adjusted by the enemy.

In this embodiment, the application roller 1 and the doctor roller 2 are brought into contact, and the application roller 1 and the receiving member 3 are brought into contact with each other, thereby forming a liquid receiving portion 4 in which the paint stays. Specifically, a liquid accommodating part 4 is formed between the receiving member 3, the application roller 1 and the doctor roller 2, and the paint accommodated in the liquid accommodating part 4 is mixed with the application roller 1 and It is attached to both sides of the doctor roller (2).

When the paint accommodated in the liquid receiving portion 4 is directly attached to the application roller 1 as in this embodiment, transfer from the doctor roller 2 because the application roller 1 itself can pick up the paint It is possible to form a smooth coating film on the surface of the base material P because the amount of the paint to be used is at least less unevenly applied to the base material P.

In this embodiment, the doctor roller 2 is arranged at a higher position than the application roller 1 outside. In the case of such a positional relationship, since the paint adhering to the application roller 1 does not fall due to gravity, there is an advantage that the paint can be reliably transferred to the substrate P. In addition, since the distance from the point of contact with the doctor roller 2 to the base material P is shortened, there is an advantage that it can be transferred to the base material P during volatilization even when a paint that is easily volatilized is applied.

In addition to the application roller (1), the doctor roller (2) and the receiving member (3), the application device of this embodiment includes a support (6), a lower receiving device (7), a pressure pin (8) and a posture holding device (9). be prepared In addition, the supporting member 6, the lower receiving device 7, the pressure pin 8 and the posture holding member 9 may be installed as needed, and it is possible to omit any of them or replace them with other means.

The support 6 is a member that grips the substrate P and moves it in the vertical direction. The support tool 6 of this embodiment is a clip-like member which clamps the upper part of the base material P. As shown in FIG. The support 6 is configured to be raised and lowered by a lifting device (not shown). As shown in Figs. 1 and 3A, in this embodiment, three support members 6 are exemplified, but three or more or fewer support members 6 may be used.

In the case of supporting a soft substrate such as a flexible substrate, since the flow of the substrate P can be suppressed, a support 6 for sandwiching both ends of the substrate P in the width direction as shown in Fig. 3b is used. It is also possible to use This support 6 is provided with a length that can pinch the entire length or almost the entire length of the substrate (P). For the support tool 6, you may use a thing other than this.

The lower accommodating port 7 is a member for supporting the substrate P, which has descended to a predetermined position, from the lower side. In this embodiment, a cylindrical member in the shape of an upward "C" shape longer than the width direction of the base material P is used as the lower receiving port 7 . The lower receiving tool 7 is arranged at a position lower than the application roller 1 , the posture holding tool 9 , and the pressure pin 8 . The lower receiving port 7 is installed at a position where the vicinity of the upper end of the substrate P is at the same height as the application roller 1 when the substrate P reaches the lower receiving unit 7 .

The pressure pin 8 is a pin-shaped member that temporarily presses both sides of the base material P that has descended to a predetermined position. The pressure pin 8 of this embodiment is configured to move in a direction approaching the substrate P and a direction away from the substrate P by a driving means, not shown. In this embodiment, the case where two (four in total) are provided on the outer side of each surface of the base material P is taken as an example, but the number of pressure pins 8 may be four or more or fewer.

The posture holder 9 is a member for supporting the standing posture of the base material P in contact with or close to both surfaces of the base material P. The posture holding device 9 of this embodiment is a block in the form of a cuboid made of rubber. In this embodiment, two posture holding tools 9 are provided on the outer side of one side of the base material P, and two (four in total) on the outside of the other side. As shown in FIGS. 3A and 3B , the posture maintaining tools 9 on the outside of each side are installed at intervals in the width direction of the substrate P. As shown in FIG. The number of posture holding tools 9 may be four or more, or the following may be sufficient as them.

The posture maintenance tool 9 of this embodiment is configured to move in a direction approaching the substrate P and a direction away from the substrate P by a driving means, not shown. Each of the posture retainers 9 may be configured to move individually, but in this embodiment, the two posture retainers 9 holding the same surface of the base P are moved together.

In this embodiment, the posture holder 9 is configured to be moved separately from the application roller 1, the doctor roller 2 and the receiving member 3, but the posture holder 9 is the application roller 1, It may be made to move together with the doctor roller 2 and the receiving member 3 . It is also possible to fix each of the posture maintenance tools 9 at a predetermined position without movement.

Each of the posture holding devices 9 is provided below the application roller 1 . The posture maintaining device 9 may be installed to contact the application roller 1 or may be installed to be spaced apart. When installed so as to contact the application roller (1), the upper surface of the posture holding tool (9) may be configured in an arc shape so as to be connected to the outer peripheral surface of the application roller (1).

Although the posture holding tool 9 is made of rubber in this embodiment, the posture holding tool 9 may be made of anything other than rubber. In any case, it is preferable to use a material having a low frictional resistance so as not to impede the smooth movement (elevation) of the substrate P when the paint is applied to the application roller 1 . It is also possible to make the posture holding|maintenance tool 9 into the shape with a small contact area so that the smooth raising of the base material P may not be impaired. In addition, it is also good to reduce frictional resistance by processing at least the contact surface of the posture holding tool 9 with a fluororesin.

In addition, although the case where the paint is applied while raising the base P is taken as an example in this embodiment, as shown by the dashed-dotted line in FIG. It is possible. Also in this case, the application roller 1 may be rotated in the reverse direction with respect to the moving direction of the base material P, or it may be made to rotate in the forward direction with respect to the moving direction of the base material P.

(Example 2)

Another example of embodiment of the present invention will be described with reference to the drawings. The basic configuration of the coating device of this embodiment is the same as that of the first embodiment. Another is the movement method of the substrate (P). In the above embodiment, the case where the substrate P is supported by the support 6 and moved in the vertical direction (when the substrate P is a single plate) is taken as an example, but the coating device of the present invention As shown in Fig. 4, it is also possible to apply the paint to the base material (P) moving in a roll-to-roll.

Specifically, as shown in FIG. 4, the take-out roller 10 and the take-up roller 11 are arranged at intervals in the vertical direction so that the base material P is drawn out from the take-out roller 10 and by the take-up roller 11 It is also possible to have it wound up.

In the example of FIG. 4, the take-out roller 10 and the take-up roller 11 are installed on the upper side as an example. As shown by the dashed-dotted line in FIG. 4, it is also possible to apply the paint while moving it downward.

Even in the case of having the same configuration as in Fig. 4, the same ones as those of the first embodiment can be used for the application roller 1, the doctor roller 2, and the receiving member 3. In addition, when the movement of the base material (P) is made in a roll-to-roll method, it is also possible to omit the supporter 6 , the lower receiver 7 , the pressure pin 8 and the posture retainer 9 .

(Other embodiments)

In the above two embodiments, the application roller 1 and the doctor roller 2 have the same diameter as an example, but the application roller 1 and the doctor roller 2 may have different diameters. In addition, although the case where the length of the application roller 1 and the doctor roller 2 is the same is taken as an example in the said embodiment, the application roller 1 and the doctor roller 2 different lengths may be used.

In the above two embodiments, a case in which a beta roller is used as the dispensing roller 1 and a engraving roller is used as the doctor roller 2 is taken as an example. You can also use rollers. In addition, if possible, both the application roller 1 and the doctor roller 2 may be a solid roller or a engraving roller.

In the above two embodiments, a rubber roller is used as the application roller 1 and a metal roller (a DLC film formed on carbon steel) is used as the doctor roller 2 as an example, but the metal roller as the application roller 1 is used as an example. , it is also possible to use a rubber roller as the doctor roller 2 . Further, if possible, both the application roller 1 and the doctor roller 2 may be a metal roller or a rubber roller.

For metal rollers, for example, overall stainless steel such as SUS 304 or SUS 440C, typified by austenitic or maldensite, HC plating or Ni plating on the surface of carbon steel such as STKM13A or S25C, DLC on the surface of stainless steel or carbon steel or HCr plating It is also possible to use a film on which the film is installed.

In the above two embodiments, the case where the doctor roller 2 is disposed at a higher position than the application roller 1 is taken as an example, but the doctor roller 2 is positioned lower than the application roller 1 as shown in FIG. 5 . It is also possible to place in In this case, the doctor roller 2 located on the left side of the substrate P in FIG. 5 rotates clockwise, and the application roller 1 rotates counterclockwise. On the other hand, in the same figure, the doctor roller 2 located on the right side of the substrate P rotates counterclockwise, and the application roller 1 rotates clockwise. This configuration is a configuration that is easy to adopt when the viscosity of the paint is high enough not to drop due to gravity.

Although the description is omitted in the above two embodiments, the doctor roller 2 can be moved in the direction in which the application roller 1 is press-fitted and the direction opposite to the direction (the direction in which the press-fit is released). In the same form, it is also possible to enable the application roller 1 to move in the direction in which the substrate P is press-fitted and the direction opposite to that direction (the direction in which the press-in is released).

In the above two embodiments, the application roller 1, the doctor roller 2, and the receiving member 3 are installed at the same height on both sides with the substrate P interposed therebetween as an example, but the application roller 1, It is also possible to install the doctor roller 2 and the receiving member 3 at different heights on both sides with the substrate P therebetween, as shown in FIG. 6 . This structure is a structure which is easy to employ|adopt when the base material P is a soft thing like a film and copper foil.

In the above two embodiments, the case where the spill prevention member 5 is installed on both outer sides in the longitudinal direction of the application roller 1 and the doctor roller 2 is taken as an example, but the It is also possible to omit the outflow prevention member 5 by adding a corresponding structure.

In the above two embodiments, as the application roller 1, one roller member is provided on the outer circumferential surface of the core material as an example. It is also possible to use a roller having (13) and a contact portion (14) having a larger diameter than the application portion (13). The application part 13 and both contact parts 14 of this roller are separate, and both contact parts 14 are provided on both outer sides of the application part 13 in the longitudinal direction with a space|interval (gap S).

The core 12 is a member that supports the application portion 13 and the contact portion 4 . An existing one such as an iron core may be used for the core 12 . The core material 12 may be a solid material or a hollow material (pipe material).

The application unit 13 is a tube member in the form of a roller installed on the outer periphery of the core member (12). In this embodiment, a rubber roller is used as the application portion 13 . Rubber rollers include natural rubber and synthetic rubber. Although not shown, irregularities (cells) of various shapes such as a lattice shape, a pyramid shape, and a spiral shape are formed on the outer peripheral surface of the application part 13 . The cell shape may be any other than those exemplified.

The contact portion 14 is a roller-like member separate from the application portion 13 . In this embodiment, a rubber roller is used like the applicator 13 . In this embodiment, the contact portions 14 are provided one (two in total) on both sides of the application portion 13 in the longitudinal direction. The contact portion 14 has a diameter of about 0.2 to 0.6 mm larger than that of the application portion 13 . These dimensions are examples, and other sizes may be used.

In this embodiment, the abutment portion 14 is arranged with a gap S between the application portion 13 and both sides of the application portion 13 in the longitudinal direction. This gap S is a space for arranging the leakage preventing member 5 (see Fig. 1). In this embodiment, as an example, the gap S is such that one leak prevention member 5 having a width of 28 mm enters. The gap (S) may be a width into which two leak prevention members 5 of 28 mm enter. The width of the gap S shown here is an example, and the gap S may be wider or narrower than this. The gap S) may have a suitable width according to the width of the leakage preventing member 5 .

When the rollers shown in Figs. 7A and 7B are used as the application roller 1, it is preferable that both application rollers 1 be the rollers illustrated in Figs. 7A and 7B, but either application roller 1 is used. The rollers shown in Figs. 7A and 7B may be used.

In addition, when the rollers shown in Figs. 7A and 7B are used as the application roller 1, it is also possible to use the rollers shown in Figs. 7A and 7B for the doctor roller 2 matching the application roller 1 do.

In addition, although not shown, the roller (application roller 1) shown in FIGS. 7A and 7B is also used while a gear connected to the drive motor is installed on one end and the other end is rotatably supported by a bearing. .

The present invention is not limited to the structure and shape of each of the above embodiments, and various modifications and changes are possible without departing from the gist thereof.

Next, operation|movement of the coating apparatus of this invention is demonstrated with reference to drawings. Here, the operation of the coating device of the first embodiment and the operation of the coating device of the second embodiment will be described as an example of the operation of the coating device of the present invention.

The applicator of the first embodiment operates as follows. That is, in Figs. 8a to 8d and Figs. 9a to 9d, in the support 6, the pressure pin 8 and the posture maintenance tool 9, the state in contact with or close to the substrate P is a solid line, the substrate P) A state that is not in contact with or is not close to is indicated by a double-dotted line.

(1) The base material P supported by the support tool 6 is set at a predetermined position (FIGS. 8A, 9A).

(2) The base material P supported by the supporter 6 is lowered to a predetermined position and supported by the lower receiver 7 (FIGS. 8B and 9B).

(3) The pressure pins 8 are in contact with both surfaces of the substrate P, and the substrate P is supported (Figs. 8c and 9c).

In this case, just before the base P is supported by the pressure pin 8 , the pinching of the base P along the support is released. Moreover, the posture holding tool 9 approaches or contacts both surfaces of the base material P, and the standing posture of the base material P is maintained.

(4) The application rollers 1 on both sides of the substrate P are in contact with the substrate P, and the paint supported on the surface of the application roller 1 is transferred to the substrate P (Fig. 8d, Fig. 9d) . In this case, the upper end of the substrate P is pinched again along the support 6 to raise the substrate P, and the paint on the surface of the application roller 1 is transferred to the raised substrate P. In addition, just before the application roller 1 comes into contact with the substrate P, the support of the substrate P along the pressure pin 8 is released.

The applicator of the second embodiment operates as follows.

(1) The take-out roller 10 and the base material P supported by the take-up roller 11 are set at a predetermined position (Fig. 10A, Fig. 11A).

(2) The application roller 1 is in contact with both surfaces of the base material P moving from the take-out roller 10 side to the take-up roller 11 side according to the operation of the take-out roller 10 and the take-up roller 11, and apply The paint supported on the surface of the roller 1 is transferred to the substrate P (Figs. 10b and 11b).

The paint applied to the base material P from the application roller 1 according to the above two operations is the paint supplied from the doctor roller 2 and the paint picked up by the application roller 1 itself, and a predetermined amount when passing through both rollers to be uniform in thickness.

As described above, in the coating device of each embodiment, the coating material is not only supplied from the doctor roller 2 to the application roller 1, but also the application roller 1 is configured so that the coating material can be picked up by itself, so the application roller ( 1) The amount of paint adhering to the substrate is easy to be stable and a smooth coating film can be formed on the substrate (P).

The coating device of the present invention can be used to apply paint to various substrates (P), and is particularly suitable for applying resist to rigid substrates and flexible printed wiring boards, and for applying adhesives to copper foil. can be used

1 dispensing roller
2 Dr. Lawler
3 Receiving member
4 Liquid receiving part
5 leak prevention member
6 support
7 lower receptacle
8 pressure pin
9 Posture
10 pull-out rollers
11 winding roller
12 heartwood
13 applicator
14 contact
p
S gap

Claims (13)

In the coating device for applying a paint to a substrate,
A support for holding the substrate and moving it in the vertical direction;
an application roller for applying a paint to the substrate held by the support;
a doctor roller for supplying paint to the application roller;
and a receiving member sized to cover both the application roller and the doctor roller,
The receiving member is disposed outside the application roller and the doctor roller with respect to the base material gripped by the support member,
A liquid receiving part is formed by the receiving member, the application roller and the doctor roller so that the paint is attached to the application roller and the doctor roller,
The application roller and the doctor roller are beta rollers or engraving rollers,
The doctor roller is installed in contact with the application roller,
The application roller, the doctor roller and the receiving member are installed on both sides with the substrate held by the support member therebetween,
The application roller rotates in a forward or reverse direction with respect to the moving direction of the substrate,
The doctor roller is an application device, characterized in that rotates in a direction different from the rotation direction of the application roller. According to claim 1,
A roller having a diameter larger than that of the application roller or a roller having the same diameter as that of the application roller is used as the doctor roller. 3. The method of claim 1 or 2,
The application device, characterized in that the doctor roller is provided outside the application roller. 3. The method of claim 1 or 2,
The application device, characterized in that the doctor roller is installed at a position higher or lower than the application roller. 3. The method of claim 1 or 2,
The application device, characterized in that the rotation speed of the application roller and the doctor roller are different. 3. The method of claim 1 or 2,
The doctor roller is an applicator, characterized in that it is movable in a direction in which the application roller is press-fitted and a direction in which the press-fit is released. 3. The method of claim 1 or 2,
The application roller is an application device, characterized in that it is movable in a direction in which the substrate is press-fitted and in a direction in which the press-in is released. 3. The method of claim 1 or 2,
The application device, characterized in that the application roller, the doctor roller, and the receiving member installed on both sides with the substrate interposed therebetween are installed at the same height or different heights in the vertical direction. 3. The method of claim 1 or 2,
An application device comprising a take-out roller and a take-up roller arranged at intervals in the vertical direction, wherein the substrate is drawn out from the take-out roller and wound by the take-up roller. 3. The method of claim 1 or 2,
An application device, characterized in that a posture holding mechanism for maintaining the posture of the substrate is provided below the application roller, the doctor roller, and the receiving member. 3. The method of claim 1 or 2,
and a roller having an application portion on the outer peripheral surface of the core material and a contact portion provided at intervals outside the application portion in the longitudinal direction as the application roller and/or the doctor roller. delete delete

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